FCC ID: ZCASMT295C Multi-band GSM/WCDMA/LTE phone with Bluetooth, WLAN

 

Package content Device USB cable Ejection pin USB power adaptor Quick start guide The items supplied with the device may vary by region. Accessing more information To view the full user manual on your device, launch the Settings app and tap User manual. Visit www.samsung.com to view device information, the user manual, and more. The user manual may not be available depending on the web browser or service provider. You may incur additional charges for accessing the Internet. To turn on the device, press and hold the Power key for a few seconds. Installing a nano-SIM card and a microSD card Insert the ejection pin into the hole next to the tray to loosen the tray. Gently press the card into the tray to secure it. Use only a nano-SIM card. Ensure that the ejection pin is perpendicular to the hole. Otherwise, the device may be damaged. If the card is not fixed firmly into the tray, the card may leave or fall out of the tray. Nano-SIM cards and microSD cards are sold separately. Charging the battery Before using the device for the first time, you must charge the battery. Use only USB Type-C cable supplied with the device. The device may be damaged if you use Micro USB cable. The charger should remain close to the electric socket and easily accessible while charging. Using the Home button When you turn on the screen, the Home button will appear at the bottom of the screen as a soft button. Correct disposal This marking on the product, accessories or literature indicates that the product and its electronic accessories (e.g. charger, headset, USB cable) should not be disposed of with other household waste. This product is RoHS compliant. This marking on the battery, manual or packaging indicates that the batteries in this product should not be disposed of with other household waste. Safety information Read all safety information before using the device to ensure safe and proper use. Warning Follow the warning information provided below to prevent incidents such as fire or explosion Do not expose the device to physical impact or damage. Use manufacturer-approved batteries, chargers, accessories, and supplies. Prevent the multipurpose jack and battery terminals from contacting conductive elements, such as metal or liquids. If any part of the device, such as the glass or acrylic body, is broken, smokes, or emits a burning odor, stop using the device immediately. Use the device again only after it has been repaired at a Samsung Service Centre. Do not turn on or use the device when the battery compartment is exposed. Follow the warnings below to prevent injury to people or damage to the device Do not allow children or animals to chew or suck the device. If the device has a camera flash or light, do not use it close to the eyes of people or animals. The device can be used in locations with an ambient temperature of 0 C to 35 C. You can store the device at an ambient temperature of -20 C to 50 C. Using or storing the device outside of the recommended temperature ranges may damage the device or reduce the batterys lifespan. Do not use your device in a hot environment or near fire. Comply with all safety warnings and regulations regarding mobile device usage while operating a vehicle. To prevent possible hearing damage when using a headset, do not listen to sound at high volume for long periods. You can view more safety information, including device and battery disposal instructions, in the safety information menu of the Settings app. It is recommended not to use fixed graphics on part or all of the touchscreen for extended periods. Doing so may result in afterimages

(screen burn-in) or ghosting. Specific Absorption Rate (SAR) certification information THIS DEVICE MEETS INTERNATIONAL GUIDELINES FOR EXPOSURE TO RADIO WAVES Your mobile is designed not to exceed the limits for exposure to radio waves recommended by international guidelines. The guidelines were developed by an independent scientific organisation (ICNIRP) and include a substantial safety margin designed to assure the safety of all persons, regardless of age and health. The radio wave exposure guidelines use a unit of measurement known as the Specific Absorption Rate, or SAR. The SAR limit for mobile devices is 2.0 W/kg. The highest SAR values under the ICNIRP guidelines for this device model are:

SAR values for European countries: The SAR values below are only for devices developed for use in European countries. Maximum SAR for this model and conditions under which it was recorded Head SAR 0.98 W/kg Body-worn SAR 1.69 W/kg Body-worn SAR testing has been carried out at a separation distance of 0 cm. To meet RF exposure guidelines during body-worn operation, the device should be positioned at least this distance away from the body. For SAR values for all other countries: For SAR values specific to your model, visit www.samsung.com/sar and search for your region and device with the model number. The use of WLAN band is restricted to indoor use only. This restriction will be applied in all countries below. SM-T295C To transfer data of the previous device to a new device: Visit ww.samsung.com/smartswitch for more information. If your device is frozen and unresponsive, press nd hold the Power key and the Volume Down key simultaneously for more than 7 seconds to restart it. Some content may differ from your device depending on the region, service provider, or software version, and is subject to change without prior notice. Copyright 2019 Samsung Electronics Specific Absorption Rate (SAR) Certification Information Your device is a radio transmitter and receiver. It is designed and manufactured not to exceed the exposure limits for Radio Frequency (RF) energy set by the Federal Communications Commission (FCC) of the U.S. Government. These FCC RF exposure limits are derived from the recommendations of two expert organizations: the National Council on Radiation Protection and Measurement

(NCRP) and the Institute of Electrical and Electronics Engineers (IEEE). In both cases, the recommendations were developed by scientific and engineering experts drawn from industry, government, and academia after extensive reviews of the scientific literature related to the biological effects of RF energy. The RF exposure limit set by the FCC for wireless mobile devices employs a unit of measurement known as the Specific Absorption Rate (SAR). The SAR is a measure of the rate of absorption of RF energy by the human body expressed in units of watts per kilogram (W/kg). The FCC SAR limit incorporates a substantial margin of safety to give additional protection to the public and to account for any variations in measurements. SAR tests are conducted using standard operating positions accepted by the FCC with the device transmitting at its highest certified power level in all tested frequency bands. Although the SAR is determined at the highest certified power level, the actual SAR level of the device while operating can be well below the maximum reported value. This is because the device is designed to operate at multiple power levels so as to use only the power required to reach the network. In general, the closer you are to a wireless base station antenna, the lower the power output of the device. For more information about SAR, visit:

https://www.fcc.gov./general/radio-

frequency-safety-0 www.fcc.gov/encyclopedia/specific-

absorption-ratesar-cellular-telephones Before a new model device is available for sale to the public, it must be tested and certified to the FCC that it does not exceed the SAR limit established by the FCC. Tests for each model are performed in positions and locations (for example, at the ear, worn on the body, or worn on the wrist) as required by the FCC. Use of other accessories may not ensure compliance with FCC RF exposure guidelines. This equipment complies with FCC RF Radiation exposure limits set forth for an uncontrolled environment. For typical operation, this device has been tested and meets FCC SAR guidelines. The FCC has granted an Equipment Authorization for this device with all reported SAR levels evaluated as in compliance with the FCC RF exposure guidelines. SAR values for body-worn operations are measured when used with an accessory that contains no metal and that positions the device a minimum of 0 cm from the body. The FCC safety limit for body-worn SAR is 1.6 watts per kilogram (1.6 W/kg). This device has FCC ID: ZCASMT295C and Model Number: SM-T295C. The FCC ID is also printed somewhere on the mobile device. Depending on the device, you may need to remove the battery to find the FCC ID. SAR information for this and other devices can be found on the FCC website at:

www.fcc.gov/oet/ea/ Follow the instructions on the website to use the FCC ID to find SAR values for the device. SAR information for this device can also be found on Samsungs website at:

www.samsung.com/sar FCC Part 15 Information and Notices Note: Any device that uses Bluetooth or Wi-Fi is subject to FCC Part 15. Any device with a power supply is subject to Part 15 which also covers both intentional radiators (Bluetooth and Wi-Fi) and unintentional radiators (such as emissions from power supplies and circuit boards). Pursuant to Part 15.21 of the FCC Rules, you are cautioned that changes or modifications not expressly approved by Samsung could void your authority to operate the device. This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Note: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:

Reorient or relocate the receiving antenna. Increase the separation between the equipment and receiver. Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. Consult the dealer or an experienced radio/ TV technician for help. Responsible party - U.S. Contact Information Samsung Electronics America, Inc. QA Lab America 19 Chapin Rd. Building D, Pine Brook NJ 07058 Tel: 1-973-808-6375 Fax: 1-973-808-6361 FCC Notice The device may cause TV or radio interference if used in close proximity to receiving equipment. The FCC can require you to stop using the mobile device if such interference cannot be eliminated. Samsung mobile products and Recycling WARNING! Never dispose of batteries in a fire because they may explode. Samsung cares for the environment and encourages its customers to properly dispose of Samsung Mobile Devices and Samsung accessories in accordance with local regulations. In some areas, disposal of these items in household or business trash may be prohibited. Proper disposal of your Device and its battery is not only important for safety, it benefits the environment. Weve made it easy for you to recycle your old Samsung Mobile Devices and batteries by working with respected take-back companies in every state in the country. Help us protect the environment

- recycle!

For battery and cell phone recycling, go to call2recycle.org or call 1-800-822-8837. In addition, most carriers will provide a take-

back option for proper disposal of products when purchasing new products. Dispose of other unwanted electronics through an approved recycler. To find the nearest recycling location, go to our website:

www.samsung.com/recycling or call 1-800-

SAMSUNG.

 

 

 

 

 

 

 

 

 

 

COMMON Samsung Electronics Mobile Communication Division Tablet Rear Cover Guideline machine

(200% SIZE) 5.1mm SM-T295C FCC ID:ZCASMT295C PO IMEI:333333/44/000666/1 S/N:1A23LP45K6Q BOX 12987, DUBLIN, IE CHINA 7.1mm MADE IN Font : SamsungOne 600 _ 3.4pt CE Mark : (H) 5.0mm WEEE Mark : (H) 7.0mm Space : 2 ( )

(100% SIZE) 5.1mm 7.1mm SM-T295CFCC ID:ZCASMT295C POBOX12987, DUBLIN,IE MADE IN CHINA IMEI:333333/44/000666/1 S/N:1A23LP45K6Q 1.2mm 19MM 4G / LTE SM-T295CFCC ID:ZCASMT295C POBOX12987, DUBLIN,IE MADE IN CHINA IMEI:333333/44/000666/1 S/N:1A23LP45K6Q

 

 

Must be signed by applicant contact given for applicant on the FCC site, or by the authorized agent if an appropriate authorized agent letter has been provided. Letters should be placed on appropriate letterhead. https://apps.fcc.gov/oetcf/kdb/forms/FTSSearchResultPage.cfm?switch=P&id=41731 Must be signed by applicant contact given for applicant on the FCC site, or by the authorized agent if an appropriate authorized agent letter has been provided. Letters should be placed on appropriate letterhead.

 

 

Fa 3

(2) dieing Yeagni! Eieetron eebnelegy Ge., "ltd, PU FRATEL A), with adeinas al Shoo Dagar |

() Manchang Qier>e? Guexin Electronic Taehn ology Co., FESS FRET) with aodrass at Roa At MO t218 Zveng Avenue, Hitech les Awhorized use ovieciive : Pary A costes ored Par Ato

| wee tor: Pecty B's only euihorived te vee Party A's crandAcadiermares, in aotordance to he obleative anc lewtrame isted herein Party A: Samsung Electronics Co., Lid. PartyB: Wingtech MCN MMC MIE Stipa thayag =] yNe=d)) with address at Ya Zhong Road, No.777, Da Qiao Town, Nanhu District, Jiaxing city, Zhejiang Province, China eli Oo OD HG (HONGKONG) with address at Flat/RM 1903 19/F , Podium Plaza 5 Hanoi Road Re EEC ee pma i mat]

(2) Jiaxing Yongrui Electron Technology Co., Ltd. toes See Stag] YN) with address at 3Floor, 2 Factory of Bidg. 3, No.777 Yazhong Road, Dagqiao Town, Nanhu District, Jiaxing city, PAu ele Ba Cle LEY

(3) Nanchang Qianhai Guoxin Electronic Technology Co., Ltd.

(BEA SHERTARAIRA A) with address at Room1041, Xinlifang Mansion(Complex Building), era PAU Pa Me oA Me Cee UTM EU y OO LEE) The following is authorized by Samsung Electronics(Party A) to Wingtech Mobile Communications (Party B); and, Wingtech Group(HONGKONG), Yongrui , and Qianhai Guoxin (Party C), after sign & seal which will be entered into force on Mar 12, 2019. 1. Party A authorizes Party B to use its trademark SAMSUNG under the following terms:

i) Authorized use objective : Party A commissioned Part B to produce/test/certify (certification issued by the test report) the product

(Mobile phone / Tablet) SAMSUNG brand/trademarks. li) Authorized TEST : from Mar 12, 2019 to Jul 31, 2019 iii) Use for : Party B is only authorized to use Party As brand/trademarks, in accordance to the objective and timeframe listed herein Authorization & Declaration Etter Party A: Samsung Electronics Co., Ltd. UNM are Crea mC) deme TU Cer Lt Orem Ce MITE ste UNG a pat = [Voi]

with address at Ya Zhong Road, No.777, Da Qiao Town, Nanhu District, Jiaxing city, Zhejiang Province, China Party C : (1) WINGTECH GROUP (HONGKONG) LIMITED. with address at Flat/RM 1903 19/F , Podium Plaza 5 Hanoi Road Tsim Sha Tsui Kowloon, Hong Kong

(2) Jiaxing Yongrui Electron Technology Co., Ltd.

(XAT ASAI) with address at 3Floor, 2 Factory of Bldg. 3, No.777 Yazhong Road, Dagiao Town, Nanhu District, Jiaxing city, Zhejiang Province, China

(3) Nanchang Qianhai Guoxin Electronic Technology Co., Ltd.

(SASH SETMRARA A) OTe (oO AO SPACES el sas ete) y No. 1216 Ziyang Avenue, Hi-tech Development Zone, Nanchang, Jiangxi, China The following is authorized by Samsung Electronics(Party A) to Wingtech Mobile Communications (Party B); and, Wingtech Group(HONGKONG), Yongrui , and Qianhai Guoxin (Party C), after sign & seal which will be entered into force on Mar 12, 2019. 1. Party A authorizes Party B to use its trademark SAMSUNG under the following terms:

i) Authorized use objective : Party A commissioned Part B to produce/test/certify (certification issued by the test report) the product

(Mobile phone / Tablet) SAMSUNG? brand/trademarks. ii) Authorized use time : from Mar 12, 2019 to Jul 31, 2019 iii) Use for : Party B is only authorized to use Party As brand/trademarks, in accordance to the objective and timeframe listed herein Ne COMPANY CKO Pee Date: Mar ii, 20

? ANID SIGN: _ Aspendix] Medel 2. Party A authorizs Party B and Party C to ship the products labelled with SAMSUNG brand to the location designated by Party A. 3. Authorized trademark;

COMPANY CHOP AND SIGN:

CES Br) oh eet:

4

[Appendix] Model : SM-T295 / SM-T295C / SM-T297/SM-T290 2. Party A authorizs Party B and Party C to ship the products labelled with SAMSUNG brand to the location designated by Party A. 3. Authorized trademark;

COMPANY CHOP AND SIGN: _____ Ae lee Oe 1 ME a ea]

5

[Appendix] Model : SM-T295 / SM-T295C / SM-T297/SM-T290 SAMSUNG ELECTRONICS CO., LTD,

 

 

Jiaxing Yongrui Electron Technology Co., Ltd. NO.777 Yazhong Road, Daqiao Town, Nanhu District, Jiaxing City ,Zhejiang Statement We, Jiaxing Yongrui Electron Technology Co., Ltd. states that our device with FCC ID: ZCASMT295C, is a multi-band mobile phone which supports GSM850/900/1800/1900, WCDMA Band 1/2/5/8, LTE Band 1/3/5/7/8/20/28/34/38/39/40/41 (2535-2655MHz), WiFi 11a/11b/11g/11n, Bluetooth 4.2. However, LTE band 40 is not available in US market and Canada market, and will be disabled by software. Contact Person: Lizhonggang E-mail: lizhonggang@wingtech.com

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

EMC TEST REPORT No. I19Z60845-EMC04 for Samsung Electronics Co Ltd Multi-band GSM/WCDMA/LTE phone with Bluetooth, WLAN Model Name: SM-T295C FCC ID: ZCASMT295C with Hardware Version: REV0.4 Software Version: T295CZCU0ASEA Issued Date: 2019-07-25 Note:

The test results in this test report relate only to the devices specified in this report. This report shall not be reproduced except in full without the written approval of CTTL. The report must not be used by the client to claim product certification, approval, or endorsement by NVLAP, NIST, or any agency of the U.S.Government. Test Laboratory:

CTTL, Telecommunication Technology Labs, CAICT No. 52, Huayuan North Road, Haidian District, Beijing, P. R. China 100191. Tel:+86(0)10-62304633-2512, Fax:+86(0)10-62304633-2504 Email: cttl_terminals@caict.ac.cn, website: www.caict.ac.cn Copyright. All rights reserved by CTTL. REPORT HISTORY Report Number I19Z60845-EMC04 I19Z60845-EMC04 Revision Rev.0 Rev.1 No. I19Z60845-EMC04 Page 2 of 16 Description 1st edition Modify the typo on page 4,13,14 and 16 Issue Date 2019-06-13 2019-07-25 Copyright. All rights reserved by CTTL. CONTENTS No. I19Z60845-EMC04 Page 3 of 16 1. TEST LABORATORY ............................................................................................................... 4 1.1. TESTING LOCATION ........................................................................................................... 4 1.2. TESTING ENVIRONMENT ................................................................................................... 4 1.3. PROJECT DATA ................................................................................................................... 4 1.4. SIGNATURE .......................................................................................................................... 4 2. CLIENT INFORMATION ........................................................................................................... 5 2.1. APPLICANT INFORMATION ................................................................................................ 5 2.2. MANUFACTURER INFORMATION ...................................................................................... 5 3. EQUIPMENT UNDER TEST (EUT) AND ANCILLARY EQUIPMENT (AE) ............................ 6 3.1. ABOUT EUT .......................................................................................................................... 6 3.2. INTERNAL IDENTIFICATION OF EUT USED DURING THE TEST ................................... 6 3.3. INTERNAL IDENTIFICATION OF AE USED DURING THE TEST ...................................... 6 3.4. GENERAL DESCRIPTION ................................................................................................... 7 3.5. EUT SET-UPS ....................................................................................................................... 7 4. REFERENCE DOCUMENTS .................................................................................................... 8 4.1. REFERENCE DOCUMENTS FOR TESTING....................................................................... 8 5. LABORATORY ENVIRONMENT .............................................................................................. 9 6. SUMMARY OF TEST RESULTS ............................................................................................ 10 6.1. SUMMARY OF TEST RESULTS ........................................................................................ 10 6.2. STATEMENTS ..................................................................................................................... 10 7. TEST EQUIPMENTS UTILIZED ............................................................................................. 11 TEST SOFTWARE UTILIZED ........................................................................................................ 11 ANNEX A: MEASUREMENT RESULTS ....................................................................................... 12 A.1 OUTPUT POWER................................................................................................................. 12 A.2 EMISSION LIMT ................................................................................................................... 14 Copyright. All rights reserved by CTTL. No. I19Z60845-EMC04 Page 4 of 16 1. Test Laboratory 1.1. Introduction & Accreditation Telecommunication Technology Labs, CAICT is an ISO/IEC 17025:2005 accredited test laboratory under NATIONAL VOLUNTARY LABORATORY ACCREDITATION PROGRAM (NVLAP) with lab code 600118-0, and is also an FCC accredited test laboratory (CN5017), and ISED accredited test laboratory (CN0066). The detail accreditation scope can be found on NVLAP website. 1.2. Testing Location CTTL(Shouxiang) Address:

No. 51 Shouxiang Science Building, Xueyuan Road, Haidian District, Beijing, P. R. China 100191 1.3. Testing Environment Normal Temperature:

Relative Humidity:

Air pressure 15-35 20-75%

980 - 1040 hPa The climatic requirements above are general exclude the special requirements for dedicated test environments listed in section 5 and some specific test cases in other parts of this report. 1.4. Project data Testing Start Date:

Testing End Date:

2019-06-01 2019-06-10 1.5. Signature Li Yan

(Prepared this test report) Zhang Ying

(Reviewed this test report) Liu Baodian Deputy Director of the laboratory

(Approved this test report) Copyright. All rights reserved by CTTL. No. I19Z60845-EMC04 Page 5 of 16 2. Client Information 2.1. Applicant Information Company Name:

Address:

City:

Postal Code:

Country:

Contact:

Email:

Telephone:

Samsung Electronics Co Ltd 19 Chapin Rd.,Building D Pine Brook, NJ 07058

/

/

/

Jenni Chun

/

/

2.2. Manufacturer Information Company Name:

Jiaxing Yongrui Electron Technology Co., Ltd. NO.777 Yazhong Road, Daqiao Town, Nanhu District, Jiaxing City ,Zhejiang

/

/

/

/

Address:

City:

Postal Code:

Country:

Telephone:

Copyright. All rights reserved by CTTL. No. I19Z60845-EMC04 Page 6 of 16 3. Equipment Under Test (EUT) and Ancillary Equipment (AE) 3.1. About EUT Description Model Name FCC ID Extreme vol. Limits Multi-band GSM/WCDMA/LTE phone with Bluetooth, WLAN SM-T295C ZCASMT295C 3.6VDC to 4.2VDC (nominal: 3.8VDC) Note: Components list, please refer to documents of the manufacturer; it is also included in the original test record of CTTL, Telecommunication Technology Labs, CAICT. 3.2. Internal Identification of EUT used during the test EUT ID*

EUT10 IMEI 356221100013137 HW Version REV0.4 SW Version T295CZCU0ASEA

*EUT ID: is used to identify the test sample in the lab internally. 3.3. Internal Identification of AE used during the test AE ID*

AE1 AE2 Description Battery Battery SN

/

/

Note

/

/

AE1 Model Manufacturer Capacitance Nominal voltage SWD-WT-N8 Sunwoda Electronic Co., Ltd. 4980mAh 3.82 V AE2 Model Manufacturer Capacitance Nominal voltage SCUD-WT-N8 SCUD(Fujian) Electronic Co., Ltd. 4980mAh 3.82 V

*AE ID: is used to identify the test sample in the lab internally. Copyright. All rights reserved by CTTL. No. I19Z60845-EMC04 Page 7 of 16 3.4. General Description Equipment Under Test (EUT) is a model of Multi-band GSM/WCDMA/LTE phone with Bluetooth, WLAN with integrated antenna. Manual and specifications of the EUT were provided to fulfil the test. Samples undergoing test were selected by the client. 3.5. EUT set-ups EUT Set-up No. Set.10 Combination of EUT and AE EUT10 + AE1/AE2 Remarks ERP/EIRP/RSE tests Copyright. All rights reserved by CTTL. No. I19Z60845-EMC04 Page 8 of 16 4. Reference Documents 4.1. Reference Documents for testing The following documents listed in this section are referred for testing. Reference FCC Part 22 Title PUBLIC MOBILE SERVICES ANSI/TIA-603-E KDB 971168 D01 Land Mobile FM or PM Communications Equipment Measurement and Performance Standards Measurement Guidance for Certification of Licensed Digital Transmitters Version 10-1-18 Edition 2016 v03r01 Copyright. All rights reserved by CTTL. No. I19Z60845-EMC04 Page 9 of 16 5. LABORATORY ENVIRONMENT Fully-anechoic chamber FAC-3 (9 meters6.5 meters4 meters) did not exceed following limits along the EMC testing:

Temperature Relative humidity Shielding effectiveness Min. = 15 , Max. = 35 Min. = 15 %, Max. = 75 %

0.014MHz - 1MHz, >60dB;

1MHz - 1000MHz, >90dB.

> 2 M

< 4 Between 0 and 6 dB, from 1GHz to 18GHz Between 0 and 6 dB, from 80 to 4000 MHz Electrical insulation Ground system resistance Site voltage standing-wave ratio (SVSWR) Uniformity of field strength Copyright. All rights reserved by CTTL. No. I19Z60845-EMC04 Page 10 of 16 6. SUMMARY OF TEST RESULTS 6.1. Summary of test results Abbreviations used in this clause:

Verdict Column P F NA NM Location Column 1/2/3/4 CDMA800 Pass Fail Not applicable Not measured The test is performed in test location 1, 2, 3 or 4 which are described in section 1.1 of this report Items Test Name 1 2 Output Power Emission Limit Clause in FCC rules 22.913(a.2) 22.917(a), 2.1051 Section in this report Verdict A.1 A.2 P P Test Location Shouxiang Shouxiang 6.2. Statements The test cases listed in section 6.1 of this report for the EUT specified in section 3 were performed by TMC according to the standards or reference documents in section 4.1 The EUT met all applicable requirements of the standards or reference documents in section 4.1. This report only deals with the CDMA functions among the features described in section 3. Copyright. All rights reserved by CTTL. No. I19Z60845-EMC04 Page 11 of 16 CAL. DUE CAL. DATE INTERVAL SERIES NUMBER 9163-235 00058889 00119024 177 101295 MY48250642 2019-11-20 2020-01-02 2020-02-25 2019-08-22 2019-11-27 2020-03-18 MY48363198 2019-07-22 1 Year 1 Year 1 Year 1 Year 1 Year 1 Year 1 Year 7. Test Equipments Utilized NO. NAME TYPE PRODUCER 1. 2. 3. 4. 5. 6. 7. EMI Antenna EMI Antenna EMI Antenna EMI Antenna Signal Generator Test Receiver Universal Radio Communication Tester VULB9163 3117 3117 9117 SMF100A E4440A E5515C Schwarzbeck ETS-Lindgren ETS-Lindgren Schwarzbeck Schwarzbeck Agilent Agilent Power Amplifier 8. Test Software Utilized Test Item ERP/EIRP/RSE 5S1G4 0341863 AR

/

Test Software and Version Tile V7.2.3.5 Software Vendor ETS-Lindgren Copyright. All rights reserved by CTTL. ANNEX A: MEASUREMENT RESULTS No. I19Z60845-EMC04 Page 12 of 16 A.1 OUTPUT POWER Reference FCC: CFR Part 22.913 A.1.1 Summary During the process of testing, the EUT was controlled via Agilent Universal Radio Communication Tester (E5515C) to ensure max power transmission and proper modulation. This result contains peak output power and ERP/EIRP measurements for the EUT. In all cases, output power is within the specified limits. A.1.2 Radiated A.1.2.1 Description This is the test for the maximum radiated power from the EUT. Rule Part 22.913(a)(2) specifies The ERP of mobile transmitters and auxiliary test transmitters must not exceed 7 Watts. A.1.2.2 Method of Measurement The measurements procedures in TIA-603-E-2016 are used. 1. EUT was placed on a 1.5 meter high non-conductive stand at a 3 meter test distance from the receive antenna. A receiving antenna was placed on the antenna mast 3 meters from the EUT for emission measurements. The height of receiving antenna is 1.5m. The test setup refers to figure below. Detected emissions were maximized at each frequency by rotating the EUT through 360 and adjusting the receiving antenna polarization. The radiated emission measurements of all transmit frequencies in three channels (High, Middle, Low) were measured with rms detector. 2. The EUT is then put into continuously transmitting mode at its maximum power level during the test. And the maximum value of the receiver should be recorded as (Pr). 3. The EUT shall be replaced by a substitution antenna. The test setup refers to figure below. Copyright. All rights reserved by CTTL. No. I19Z60845-EMC04 Page 13 of 16 In the chamber, a substitution antenna for the frequency band of interest is placed at the reference point of the chamber. An RF signal source for the frequency band of interest is connected to the substitution antenna with a cable that has been constructed to not interfere with the radiation pattern of the antenna. A power (PMea) is applied to the input of the substitution antenna. Adjust the level of the signal generator output until the value of the receiver reaches the previously recorded (Pr). The power of signal source (PMea) is recorded. The test should be performed by rotating the test item and adjusting the receiving antenna polarization. 4. An amplifier should be connected to the Signal Source output port. And the cable should be connected between the amplifier and the substitution antenna. The cable loss (Pcl), the substitution antenna Gain (Ga) and the amplifier Gain (PAg) should be recorded after test. The measurement results are obtained as described below:

Power (EIRP) = PMea - PAg - Pcl - Ga 5. This value is EIRP since the measurement is calibrated using an antenna of known gain (Unit dBi) and known input power. 6. ERP can be calculated from EIRP by subtracting the gain of the dipole, ERP = EIRP -2.15. For test layout photo, please refer to Pic.1 in Annex B. CDMA800- ERP Limits Band CDMA800(BC0) RMS ERP (dBm) 38.45dBm (7W) Measurement result 1x RTT Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga Antenna Gain(dB) ERP(dBm) 22.67 23.01 21.98

-19.66 2.26 45.79

-19.06 2.26 45.66

-19.95 2.27 45.55 824.70 836.52 848.31 0.95 0.82 0.80 Limit(dBm) Margin(dB) Polarization 38.45 38.45 38.45 15.78 15.44 16.47 H H H Sample calculation: 848.31MHz RMS ERP (dBm) = PMea (-19.95dBm) - Ga (-0.80dBi) - PAg (-45.55 dB) - Pcl (2.27 dB) 2.15dBm

= 21.98 dBm Copyright. All rights reserved by CTTL. Ev-Do Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga Antenna Gain(dB) ERP(dBm) 22.60 22.59 21.89

-19.73 2.26 45.79

-19.48 2.26 45.66

-20.04 2.27 45.55 824.70 836.52 848.31 0.95 0.82 0.80 No. I19Z60845-EMC04 Page 14 of 16 Limit(dBm) Margin(dB) Polarization 38.45 38.45 38.45 15.85 15.86 16.56 H H H Sample calculation: 848.31MHz RMS ERP (dBm) = PMea(-20.04dBm) - Ga (-0.80 dBi) - PAg (-45.55 dB) - Pcl(2.27 dB) 2.15dBm

= 21.89 dBm ANALYZER SETTINGS: RBW = VBW = 5MHz Note: Expanded measurement uncertainty for CDMA800 (BC0) is U = 2.84dB, k = 2. A.2 EMISSION LIMT Reference FCC: CFR 2.1051, Part 22.917(a),. A.2.1 Measurement Method The measurements procedures in TIA-603-E-2016are used. This measurement is carried out in fully-anechoic chamber 3. The spectrum was scanned from 30 MHz to the 10th harmonic of the highest frequency generated within the equipment, which is the transmitted carrier that can be as high as 1910 MHz. The resolution bandwidth is set 1MHz as outlined in Part 22.917(a). The spectrum was scanned with the mobile station transmitting at carrier frequencies that pertain to low, mid and high channels of CDMA800. The procedure of radiated spurious emissions is as follows:

1. EUT was placed on a 1.5 meter high non-conductive stand at a 3 meter test distance from the receive antenna. A receiving antenna was placed on the antenna mast 3 meters from the EUT for emission measurements. The height of receiving antenna is 1.5m. The test setup refers to figure below. Detected emissions were maximized at each frequency by rotating the EUT through 360 and adjusting the receiving antenna polarization. The radiated emission measurements of all non-harmonic and harmonics of the transmit frequency through the 10th harmonic were measured with peak detector. Copyright. All rights reserved by CTTL. No. I19Z60845-EMC04 Page 15 of 16 2. The EUT is then put into continuously transmitting mode at its maximum power level during the test. And the maximum value of the receiver should be recorded as (Pr). 3. The EUT shall be replaced by a substitution antenna. The test setup refers to figure below. In the chamber, an substitution antenna for the frequency band of interest is placed at the reference point of the chamber. An RF Signal source for the frequency band of interest is connected to the substitution antenna with a cable that has been constructed to not interfere with the radiation pattern of the antenna. A power (PMea) is applied to the input of the substitution antenna. Adjust the level of the signal generator output until the value of the receiver reaches the previously recorded (Pr). The power of signal source (PMea) is recorded. The test should be performed by rotating the test item and adjusting the receiving antenna polarization. 4. The Path loss (Ppl) between the Signal Source with the Substitution Antenna and the Substitution Antenna Gain (Ga) should be recorded after test. An amplifier should be connected in for the test. The Path loss (Ppl) is the summation of the cable loss and the gain of the amplifier. The measurement results are obtained as described below:

Power (EIRP) = PMea - Ppl - Ga 5. This value is EIRP since the measurement is calibrated using an antenna of known gain (unit:

dBi) and known input power. 6. ERP can be calculated from EIRP by subtracting the gain of the dipole, ERP = EIRP -2.15dB. A.2.2 Measurement Limit Part 22.917(a) specify that the power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitting power (P) by a factor of at least 43 +

10 log(P) dB. The specification that emissions shall be attenuated below the transmitter power (P) by at least 43 + 10 log (P) dB, translates in the relevant power range (1 to 0.001 W) to -13 dBm. At 1 W the specified minimum attenuation becomes 43 dB and relative to a 30 dBm (1 W) carrier becomes a limit of -13 dBm. At 0.001 W (0 dBm) the minimum attenuation is 13 dB, which again yields a limit of -13 dBm. In this way a translation of the specification from relative to absolute terms is carried out. A.2.3 Measurement Results Radiated emissions measurements were made only at the upper, middle, and lower carrier frequencies of the CDMA BC0 (836.52MHz, 848.31MHz and 824.7MHz). It was decided that Copyright. All rights reserved by CTTL. No. I19Z60845-EMC04 Page 16 of 16 measurements at these three carrier frequencies would be sufficient to demonstrate compliance with emissions limits because it was seen that all the significant spurs occur well outside the band and no radiation was seen from a carrier in one block of the CDMA BC0 into any of the other blocks. The equipment must still, however, meet emissions requirements with the carrier at all frequencies over which it is capable of operating and it is the manufacturer's responsibility to verify this. The worst cases:

CDMA BC0, Channel 384/836.52MHz Frequency

(MHz) PMea

(dBm) Ppl

(dB) Ga

(dBi) 1674.01 2508.00 3340.02 4178.02 5011.01 5846.01 CDMA BC0, Channel 777/848.31MHz

-49.92

-53.24

-55.18

-55.04

-55.93

-53.84 3.58 4.63 5.31 6.16 6.58 7.22 5.19 6.11 7.82 9.08 9.92 10.53 Frequency

(MHz) PMea

(dBm) Ppl

(dB) Ga

(dBi) 1698.01 2546.00 3387.02 4238.02 5082.01 5943.01 CDMA BC0, Channel 1013/824.7MHz

-48.77

-52.23

-54.72

-55.60

-56.20

-53.31 3.60 4.66 5.35 6.25 6.72 7.47 5.14 6.18 7.93 9.14 10.01 10.51 Frequency

(MHz) PMea

(dBm) Ppl

(dB) Ga

(dBi) Limit dBm Margin(dB) Polarity 37.50 40.90 41.80 41.30 41.70 39.70 H H H V V H

-13.00

-13.00

-13.00

-13.00

-13.00

-13.00 Limit dBm Margin(dB) Polarity 36.40 39.90 41.30 41.90 42.10 39.40 H V V V H V

-13.00

-13.00

-13.00

-13.00

-13.00

-13.00 Limit dBm Margin(dB) Polarity Peak ERP

(dBm)

-50.46

-53.91

-54.82

-54.27

-54.74

-52.68 Peak ERP

(dBm)

-49.38

-52.86

-54.29

-54.86

-55.06

-52.42 Peak ERP

(dBm)

-52.77

-54.59

-55.36

-55.15

-53.79

-51.85

-52.28

-53.88

-55.63

-55.98

-54.79

-53.02 1650.01 3.57 2480.00 4.60 3297.02 5.29 4124.02 6.04 4945.01 6.70 5779.01 7.22 Sample calculation: 1650.01MHz Peak ERP (dBm) = PMea(-52.28 dBm) - Pcl (3.57dB) - Ga (-5.23 dBi) 2.15dBm

-13.00

-13.00

-13.00

-13.00

-13.00

-13.00 5.23 6.04 7.71 9.02 9.85 10.54 39.80 41.60 42.40 42.20 40.80 38.80 H H V H V H

= -52.77 dBm Note: Expanded measurement uncertainty for this test item is U = 5.16dB, k = 2.

***END OF REPORT***

Copyright. All rights reserved by CTTL.

 

 

TEST REPORT No. I19Z60845-WMD01 for Samsung Electronics Co Ltd MULTI-BAND GSM/WCDMA/LTE PHONE WITH BLUETOOTH, WLAN Model Name: SM-T295C FCC ID: ZCASMT295C with Hardware Version: REV0.4 Software Version: T295CZCU0ASEA Issued Date: 2019-07-17 Note:

The test results in this test report relate only to the devices specified in this report. This report shall not be reproduced except in full without the written approval of CTTL. The report must not be used by the client to claim product certification, approval, or endorsement by NVLAP, NIST, or any agency of the U.S.Government. Test Laboratory:

CTTL, Telecommunication Technology Labs, CAICT No. 52, Huayuan North Road, Haidian District, Beijing, P. R. China 100191. Tel:+86(0)10-62304633-2512, Fax:+86(0)10-62304633-2504 Email: cttl_terminals@caict.ac.cn, website: www.caict.ac.cn Copyright. All rights reserved by CTTL. REPORT HISTORY Report Number Revision I19Z60845-WMD01 Rev.0 Description 1st edition Issue Date 2019-07-17 Copyright. All rights reserved by CTTL. No. I19Z60845-WMD01 Page3 of 68 CONTENTS 1. TEST LABORATORY ......................................................................................................................... 4 1.1. INTRODUCTION & ACCREDITATION ...................................................................................... 4 1.2. TESTING LOCATION .................................................................................................................... 4 1.3. TESTING ENVIRONMENT ........................................................................................................... 4 1.4. PROJECT DATA .............................................................................................................................. 4 1.5. SIGNATURE ..................................................................................................................................... 5 2. CLIENT INFORMATION ................................................................................................................... 6 2.1. APPLICANT INFORMATION ....................................................................................................... 6 2.2. MANUFACTURER INFORMATION ............................................................................................ 6 3. EQUIPMENT UNDER TEST (EUT) AND ANCILLARY EQUIPMENT (AE) ............................. 7 3.1. ABOUT EUT ..................................................................................................................................... 7 3.2. INTERNAL IDENTIFICATION OF EUT USED DURING THE TEST .................................... 7 3.3. INTERNAL IDENTIFICATION OF AE USED DURING THE TEST ....................................... 7 3.4. NORMAL ACCESSORY SETTING ............................................................................................... 7 3.5. GENERAL DESCRIPTION ............................................................................................................ 7 4. REFERENCE DOCUMENTS ............................................................................................................. 8 4.1. REFERENCE DOCUMENTS FOR TESTING ............................................................................. 8 5. LABORATORY ENVIRONMENT ..................................................................................................... 9 6. SUMMARY OF TEST RESULTS ..................................................................................................... 10 6.1. SUMMARY OF TEST RESULTS ................................................................................................. 10 6.2. EXPLANATION OF RE-USE OF TEST DATA .......................................................................... 10 7. TEST EQUIPMENTS UTILIZED ..................................................................................................... 11 ANNEX A: MEASUREMENT RESULTS ................................................................................................ 12 A.1 OUTPUT POWER ........................................................................................................................... 12 A.2 EMISSION LIMIT ........................................................................................................................... 20 A.3 FREQUENCY STABILITY ............................................................................................................ 28 A.4 OCCUPIED BANDWIDTH ............................................................................................................ 31 A.5 EMISSION BANDWIDTH ............................................................................................................. 43 A.6 BAND EDGE COMPLIANCE ........................................................................................................ 55 A.7 CONDUCTED SPURIOUS EMISSION ......................................................................................... 62 A.8 PEAK-TO-AVERAGE POWER RATIO ......................................................................................... 67 ANNEX B: ACCREDITATION CERTIFICATE ..................................................................................... 68 Copyright. All rights reserved by CTTL. No. I19Z60845-WMD01 Page4 of 68 1. Test Laboratory 1.1. Introduction & Accreditation Telecommunication Technology Labs, CAICT is an ISO/IEC 17025:2005 accredited test laboratory under NATIONAL VOLUNTARY LABORATORY ACCREDITATION PROGRAM (NVLAP) with lab code 600118-0, and is also an FCC accredited test laboratory (CN5017), and ISED accredited test laboratory (CN0066). The detail accreditation scope can be found on NVLAP website. 1.2. Testing Location Location 1: CTTL(huayuan North Road) Address:

No. 52, Huayuan North Road, Haidian District, Beijing, P. R. China 100191 Location 2: CTTL(Shouxiang) Address:

No. 51 Shouxiang Science Building, Xueyuan Road, Haidian District, Beijing, P. R. China 100191 Location 3:CTTL (BDA) Address:

No.18A, Kangding Street, Beijing Economic-Technology Development Area, Beijing, P. R. China 100176 1.3. Testing Environment Normal Temperature:

Relative Humidity:

15-35 20-75%

1.4. Project data Testing Start Date:

Testing End Date:

2019-04-15 2019-07-16 Copyright. All rights reserved by CTTL. No. I19Z60845-WMD01 Page5 of 68 1.5. Signature Dong Yuan

(Prepared this test report) Zhou Yu

(Reviewed this test report) Zhao Hui Lin Deputy Director of the laboratory

(Approved this test report) Copyright. All rights reserved by CTTL. No. I19Z60845-WMD01 Page6 of 68 2. Client Information 2.1. Applicant Information Company Name:

Samsung Electronics Co Ltd Address /Post:

19 Chapin Rd.,Building D Pine Brook, NJ 07058 Contact:

Email:

Telephone:

Fax:

Jenni Chun NA NA NA 2.2. Manufacturer Information Company Name:

Jiaxing Yongrui Electron Technology Co., Ltd. Address /Post:

Contact:

Email:

Telephone:

Fax:

NO.777 Yazhong Road, Daqiao Town, Nanhu District, Jiaxing City ,Zhejiang NA NA NA NA Copyright. All rights reserved by CTTL. No. I19Z60845-WMD01 Page7 of 68 3. Equipment Under Test (EUT) and Ancillary Equipment (AE) 3.1. About EUT Description MULTI-BAND GSM/WCDMA/LTE PHONE WITH BLUETOOTH, Model Name FCC ID Antenna WLAN SM-T295C ZCASMT295C Embedded Output power 31.87dBm maximum EIRP measured for PCS1900 Extreme vol. Limits 3.6VDC to 4.2VDC (nominal: 3.8VDC) Extremetemp. Tolerance

-10C to +55C Note: Components list, please refer to documents of the manufacturer; it is also included in the original test record of CTTL. 3.2. Internal Identification of EUT used during the test EUT ID*

HW Version IMEI SW Version Date of receipt UT05a 356221100013137 REV0.4 T295CZCU0ASEA 2019-05-16

*EUT ID: is used to identify the test sample in the lab internally. 3.3. Internal Identification of AE used during the test AE ID* Description AE1 AE2 Battery Battery AE1 Model Manufacturer Capacitance AE2 Model Manufacturer Capacitance SWD-WT-N8 Sunwoda Electronic Co., Ltd . 4980mAh SCUD-WT-N8 SCUD(Fujian) Electronic Co., Ltd. 4980mAh

*AE ID: is used to identify the test sample in the lab internally. 3.4. Normal Accessory setting Fully charged battery was used during the test. 3.5. General Description The Equipment Under Test (EUT) is a model of MULTI-BAND GSM/WCDMA/LTE PHONE WITH BLUETOOTH, WLAN with embedded antenna. Manual and specifications of the EUT were provided to fulfil the test. Copyright. All rights reserved by CTTL. No. I19Z60845-WMD01 Page8 of 68 4. Reference Documents 4.1. Reference Documents for testing The following documents listed in this section are referred for testing. Reference Title FCC Part 22 PUBLIC MOBILE SERVICES FCC Part 24 PERSONAL COMMUNICATIONS SERVICES ANSI/TIA-603-E Land Mobile FM or PM Communications Equipment Measurement and Performance Standards Version 10-1-18 Edition 10-1-18 Edition 2016 ANSI/TIA-102.CAAA DIGITAL C4FMCQPSK TRANSCEIVER MEASUREMENT 2016

-E METHODS ANSI C63.26 American National Standard for Compliance Testing of 2015 Transmitters Used in Licensed Radio Services KDB 971168 D01 MEASUREMENT GUIDANCE FOR CERTIFICATION OF v03r01 LICENSED DIGITAL TRANSMITTERS Copyright. All rights reserved by CTTL. No. I19Z60845-WMD01 Page9 of 68 5. LABORATORY ENVIRONMENT Control room / conducted chamber did not exceed following limits along the EMC testing:

Temperature Relative humidity Shielding effectiveness Electrical insulation Min. = 15 , Max. = 35 Min. =20 %, Max. = 80 %

> 110 dB

> 2 M Ground system resistance Fully-anechoic chamber 2 (8.6 meters6.1 meters3.85 meters) did not exceed following limits along the EMC testing:

< 0.5 Temperature Relative humidity Shielding effectiveness Electrical insulation Ground system resistance Min. = 15 , Max. = 30 Min. = 35 %, Max. = 60 %

> 110 dB

> 2 M

< 1 Site voltage standing-wave ratio (SVSWR) Between 0 and 6 dB, from 1GHz to 18GHz Uniformity of field strength Fully-anechoic chamber FAC-3 (9 meters6.5 meters4 meters) did not exceed following limits along the EMC testing:

Between 0 and 6 dB, from 80 to 4000 MHz Temperature Relative humidity Shielding effectiveness Min. = 15 , Max. = 35 Min. = 15 %, Max. = 75 %

0.014MHz - 1MHz, >60dB;

1MHz - 1000MHz, >90dB. Electrical insulation Ground system resistance

> 2 M

< 4 Site voltage standing-wave ratio (SVSWR) Between 0 and 6 dB, from 1GHz to 18GHz Uniformity of field strength Between 0 and 6 dB, from 80 to 4000 MHz Copyright. All rights reserved by CTTL. No. I19Z60845-WMD01 Page10 of 68 6. SUMMARY OF TEST RESULTS 6.1. Summary of test results GSM850 Items List Clause in FCC rules Verdict 1 2 3 4 5 6 7 Output Power Emission Limit Frequency Stability Occupied Bandwidth Emission Bandwidth Band Edge Compliance Conducted Spurious Emission 22.913 2.1051/22.917 2.1055 2.1049 22.917 22.917 22.917 P P BR BR BR BR BR PCS1900 Items List Clause in FCC rules Verdict 1 2 3 4 5 6 7 8 Output Power Emission Limit Frequency Stability Occupied Bandwidth Emission Bandwidth Band Edge Compliance Conducted Spurious Emission peak-to-average power ratio Terms used in Verdict column 24.232 2.1051/24.238 2.1055 2.1049 24.238 24.238 24.238 24.232 P P BR BR BR BR BR BR P NP NA BR F Pass, The EUT complies with the essential requirements in the standard. Not Perform, The test was not performed by CTTL Not Applicable,The test was not applicable Re-use test data from basic model report. Fail, The EUT does not comply with the essential requirements in the standard 6.2. Explanation of re-use of test data The Equipment Under Test (EUT) model SM-T295C (FCC ID: ZCASMT295C) is a variant product of SM-T295 (FCC ID: ZCASMT295), according to the declaration of changes provided by the applicant and FCC KDB publication 484596 D01, spot check measurements were performed on this device, all the test results are derived from test report No.I19Z60464-WMD01. Please refer Annex A for detail spot check verification data and reference data. The spot check test results are consistent with basic model. For detail differences between two models please refer the Declaration of Changes document. Copyright. All rights reserved by CTTL. 7. Test Equipments Utilized No. I19Z60845-WMD01 Page11 of 68 NO. Description TYPE series number MANUFACTURE CAL DUE DATE Calibration interval 1 2 3 EMI Antenna VULB9163 9163-235 Schwarzbeck 2019-11-20 EMI Antenna EMI Antenna Universal Radio 3117 3117 00058889 ETS-Lindgren 2020-01-12 00119024 ETS-Lindgren 2020-02-25 1 year 1 year 1 year 4 Communication CMU200 108646 R&S 2020-01-03 1 year 5 6 7 8 9 Tester Spectrum Analyzer FSU26 200030 R&S 2020-06-03 1 year EMI Antenna 9117 177 Schwarzbeck 2019-08-22 Signal Generator SMF100A 101295 Climate chamber SH-242 93008556 Test Receiver E4440A MY48250642 R&S ESPEC Agilent 2019-11-27 2019-12-21 2020-03-18 1 year 1 year 2 year 1 year Universal Radio 10 Communication CMW500 143008 R&S 2019-11-26 1 year Tester 11 Power Amplifier 5S1G4 0341863 AR

/

Copyright. All rights reserved by CTTL. No. I19Z60845-WMD01 Page12 of 68 ANNEX A: MEASUREMENT RESULTS A.1 OUTPUT POWER A.1.1 Summary During the process of testing, the EUT was controlled via Rhode & Schwarz Digital Radio Communication tester (CMU-200) to ensure max power transmission and proper modulation. In all cases, output power is within the specified limits. A.1.2 Conducted A.1.2.1 Method of Measurements The EUT was set up for the max output power with pseudo random data modulation. These measurements were done at 3 frequencies, 1850.2 MHz, 1880.0MHz and 1909.8MHz for PCS1900 band; 824.2MHz, 836.6MHz and 848.8MHz for GSM850 band. (bottom, middle and top of operational frequency range). GSM850 Power step GSM GPRS EGPRS 5 3 6 Measurement result GSM(GMSK) Nominal Peak output power (dBm) 33dBm(2W) 33dBm(2W) 33dBm(2W) Frequency(MHz) Power Step Output power(dBm) 824.2 836.6 848.8 GPRS(GMSK,1Slot) 5 5 5 33.11 33.25 33.32 Frequency(MHz) Power Step Output power(dBm) 824.2 836.6 848.8 EGPRS(8PSK,1Slot) 3 3 3 32.74 32.58 32.69 Frequency(MHz) Power Step Output power(dBm) 824.2 836.6 848.8 6 6 6 26.96 26.97 26.91 Copyright. All rights reserved by CTTL. No. I19Z60845-WMD01 Page13 of 68 PCS1900 Power step GSM GPRS EGPRS 0 3 5 Measurement result GSM(GMSK) Nominal Peak output power (dBm) 30dBm(1W) 30dBm(1W) 30dBm(1W) Frequency(MHz) Power Step Output power(dBm) 1850.2 1880.0 1909.8 GPRS(GMSK,1Slot) 0 0 0 30.34 30.49 30.48 Frequency(MHz) Power Step Output power(dBm) 1850.2 1880.0 1909.8 EGPRS(8PSK,1Slot) 3 3 3 30.22 30.05 30.22 Frequency(MHz) Power Step Output power(dBm) 1850.2 1880.0 1909.8 5 5 5 25.26 25.28 25.06 Copyright. All rights reserved by CTTL. No. I19Z60845-WMD01 Page14 of 68 A.1.3 Radiated A.1.3.1 Description This is the test for the maximum radiated power from the EUT. Rule Part 24.232(c) specifies, "Mobile/portable stations are limited to 2 watts e.i.r.p. Peak power"

and 24.232(c) specifies that "Peak transmit power must be measured over any interval of continuous transmission using instrumentation calibrated in terms of an rms-equivalent voltage."

Rule Part 22.913(a) specifies The ERP of mobile transmitters and auxiliary test transmitters must not exceed 7 Watts. A.1.3.2 Method of Measurement The measurements procedures in TIA-603E-2016 are used. 1. EUT was placed on a 1.5 meter high non-conductive stand at a 3 meter test distance from the receive antenna. A receiving antenna was placed on the antenna mast 3 meters from the EUT for emission measurements. The height of receiving antenna is 1.5m. The test setup refers to figure below. Detected emissions were maximized at each frequency by rotating the EUT through 360 and adjusting the receiving antenna polarization. The radiated emission measurements of all transmit frequencies in three channels (High, Middle, Low) were measured with RMS detector. 2. The EUT is then put into continuously transmitting mode at its maximum power level during the test. And the maximum value of the receiver should be recorded as (Pr). 3. The EUT shall be replaced by a substitution antenna. The test setup refers to figure below. In the chamber, an substitution antenna for the frequency band of interest is placed at the reference point of the chamber. An RF Signal source for the frequency band of interest is connected to the substitution antenna with a cable that has been constructed to not interfere Copyright. All rights reserved by CTTL. No. I19Z60845-WMD01 Page15 of 68 with the radiation pattern of the antenna. A power (PMea) is applied to the input of the substitution antenna, and adjusts the level of the signal generator output until the value of the receiver reach the previously recorded (Pr). The power of signal source (PMea) is recorded. The test should be performed by rotating the test item and adjusting the receiving antenna polarization. 4. An amplifier should be connected to the Signal Source output port. And the cable should be connecting between the Amplifier and the Substitution Antenna. The cable loss (Pcl) ,the Substitution Antenna Gain (Ga) and the Amplifier Gain (PAg) should be recorded after test. The measurement results are obtained as described below:

Power (EIRP)=PMea- PAg - Pcl - Ga 5. This value is EIRP since the measurement is calibrated using an antenna of known gain (2.15 dBi) and known input power. 6. ERP can be calculated from EIRP by subtracting the gain of the dipole, ERP = EIRP -2.15dBi. Copyright. All rights reserved by CTTL. No. I19Z60845-WMD01 Page16 of 68 Power Step Burst Peak ERP (dBm) 5 3 6 38.45dBm (7W) 38.45dBm (7W) 38.45dBm (7W) Spot check Measurement Results:

GSM 850-ERP Limits GSM GPRS EGPRS Measurement result GSM Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) ERP(dBm) Limit(dBm) Margin(dB) Polarization Correction

(dB) 824.20

-12.31 2.26 45.79 0.96 2.15 30.03 38.45 8.42 836.60

-11.39 2.26 45.66 0.82 2.15 30.68 38.45 7.77 848.80

-10.94 2.28 45.54 0.79 2.15 30.96 38.45 7.49 H H H GPRS Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) ERP(dBm) Limit(dBm) Margin(dB) Polarization Correction

(dB) 824.20

-12.49 2.26 45.79 0.96 2.15 29.85 38.45 8.60 836.60

-11.45 2.26 45.66 0.82 2.15 30.62 38.45 7.83 848.80

-11.34 2.28 45.54 0.79 2.15 30.56 38.45 7.89 H H H EGPRS-8PSK Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) ERP(dBm) Limit(dBm) Margin(dB) Polarization Correction

(dB) 824.20

-20.31 2.26 45.79 0.96 2.15 22.03 38.45 16.42 836.60

-19.45 2.26 45.66 0.82 2.15 22.62 38.45 15.83 848.80

-18.80 2.28 45.54 0.79 2.15 23.10 38.45 15.35 H H H Frequency: 836.60MHz Peak ERP(dBm)=PMea(-10.94dBm)-Pcl(2.28dB)-PAg(-45.54dB)-Ga (-0.79dB)-2.15dB=30.96dBm ANALYZER SETTINGS: RBW = VBW = 3MHz Note: Expanded measurement uncertainty is U = 2.84 dB, k = 2. Copyright. All rights reserved by CTTL. No. I19Z60845-WMD01 Page17 of 68 Power Step Burst Peak EIRP (dBm) 0 3 5 33dBm (2W) 33dBm (2W) 33dBm (2W) PCS1900-EIRP Limits GSM GPRS EGPRS Measurement result GSM Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 1850.20

-14.76 2.93 43.75 4.87 30.93 33.00 2.07 1880.00

-15.20 2.85 43.75 4.82 30.52 33.00 2.48 1909.80

-14.61 2.89 43.77 4.76 31.03 33.00 1.97 H H H GPRS Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 1850.20

-14.88 2.93 43.75 4.87 30.81 33.00 2.19 1880.00

-15.32 2.85 43.75 4.82 30.40 33.00 2.60 1909.80

-14.24 2.89 43.77 4.76 31.40 33.00 1.60 H H H EGPRS-8PSK Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 1850.20

-23.33 2.93 43.75 4.87 22.36 33.00 10.64 1880.00

-22.73 2.85 43.75 4.82 22.99 33.00 10.01 1909.80

-21.69 2.89 43.77 4.76 23.95 33.00 9.05 H H H Frequency: 1909.80MHz Peak EIRP(dBm)= PMea(-14.24dBm) - Pcl(2.89dB) - PAg(-43.77dB) - Ga (-4.76dB) = 31.40dBm ANALYZER SETTINGS: RBW = VBW = 3MHz Note: Expanded measurement uncertainty is U = 2.84 dB, k = 2. Copyright. All rights reserved by CTTL. Reference Measurement Results from basic model:

No. I19Z60845-WMD01 Page18 of 68 GSM 850-ERP Limits GSM GPRS EGPRS Measurement result GSM Power Step Burst Peak ERP (dBm) 5 3 6 38.45dBm (7W) 38.45dBm (7W) 38.45dBm (7W) Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) ERP(dBm) Limit(dBm) Margin(dB) Polarization Correction

(dB) 824.20

-12.05 2.26 45.79 0.96 2.15 30.29 38.45 8.16 836.60

-11.48 2.26 45.66 0.82 2.15 30.59 38.45 7.86 848.80

-11.59 2.28 45.54 0.79 2.15 30.31 38.45 8.14 H H H GPRS Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) ERP(dBm) Limit(dBm) Margin(dB) Polarization Correction

(dB) 824.20

-12.03 2.26 45.79 0.96 2.15 30.31 38.45 8.14 836.60

-11.50 2.26 45.66 0.82 2.15 30.57 38.45 7.88 848.80

-11.63 2.28 45.54 0.79 2.15 30.27 38.45 8.18 H H H EGPRS-8PSK Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) ERP(dBm) Limit(dBm) Margin(dB) Polarization Correction

(dB) 824.20

-19.69 2.26 45.79 0.96 2.15 22.65 38.45 15.80 836.60

-19.57 2.26 45.66 0.82 2.15 22.50 38.45 15.95 848.80

-19.61 2.28 45.54 0.79 2.15 22.29 38.45 16.16 H H H Frequency: 836.60MHz Peak ERP(dBm)=PMea(-11.48dBm)-Pcl(2.26dB)-PAg(-45.66dB)-Ga (-0.82dB)-2.15dB=30.59dBm ANALYZER SETTINGS: RBW = VBW = 3MHz Note: Expanded measurement uncertainty is U = 2.84 dB, k = 2. Copyright. All rights reserved by CTTL. No. I19Z60845-WMD01 Page19 of 68 Power Step Burst Peak EIRP (dBm) 0 3 5 33dBm (2W) 33dBm (2W) 33dBm (2W) PCS1900-EIRP Limits GSM GPRS EGPRS Measurement result GSM Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 1850.20

-14.92 2.93 43.75 4.87 30.77 33.00 2.23 1880.00

-14.50 2.85 43.75 4.82 31.22 33.00 1.78 1909.80

-13.77 2.89 43.77 4.76 31.87 33.00 1.13 H H H GPRS Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 1850.20

-14.90 2.93 43.75 4.87 30.79 33.00 2.21 1880.00

-14.53 2.85 43.75 4.82 31.19 33.00 1.81 1909.80

-13.80 2.89 43.77 4.76 31.84 33.00 1.16 H H H EGPRS-8PSK Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 1850.20

-21.51 2.93 43.75 4.87 24.18 33.00 8.82 1880.00

-20.35 2.85 43.75 4.82 25.37 33.00 7.63 1909.80

-19.46 2.89 43.77 4.76 26.18 33.00 6.82 H H H Frequency: 1909.80MHz Peak EIRP(dBm)= PMea(-13.77dBm) - Pcl(2.89dB) - PAg(-43.77dB) - Ga (-4.76dB) = 31.87dBm ANALYZER SETTINGS: RBW = VBW = 3MHz Note: Expanded measurement uncertainty is U = 2.84 dB, k = 2. Copyright. All rights reserved by CTTL. No. I19Z60845-WMD01 Page20 of 68 A.2 EMISSION LIMIT A.2.1 Measurement Method The measurement procedures in TIA-603E-2016 are used. The spectrum was scanned from 30 MHz to the 10th harmonic of the highest frequency generated within the equipment, which is the transmitted carrier that can be as high as 1910 MHz. The resolution bandwidth is set as outlined in Part 24.238 and Part 22.917. The spectrum is scanned with the mobile station transmitting at carrier frequencies that pertain to low, mid and high channels of PCS1900 and GSM850. The procedure of radiated spurious emissions is as follows:

1. EUT was placed on a 1.5 meter high non-conductive stand at a 3 meter test distance from the receive antenna. A receiving antenna was placed on the antenna mast 3 meters from the EUT for emission measurements. The height of receiving antenna is 1.5m. The test setup refers to figure below. Detected emissions were maximized at each frequency by rotating the EUT through 360 and adjusting the receiving antenna polarization. The radiated emission measurements of all non-harmonic and harmonics of the transmit frequency through the 10th harmonic were measured with peak detector. 2. The EUT is then put into continuously transmitting mode at its maximum power level during the test. And the maximum value of the receiver should be recorded as (Pr). 3. The EUT shall be replaced by a substitution antenna. The test setup refers to figure below. In the chamber, a substitution antenna for the frequency band of interest is placed at the reference point of the chamber. An RF Signal source for the frequency band of interest is connected to the substitution antenna with a cable that has been constructed to not interfere with the radiation pattern of the antenna. A power (PMea) is applied to the input of the Copyright. All rights reserved by CTTL. No. I19Z60845-WMD01 Page21 of 68 substitution antenna, and adjusts the level of the signal generator output until the value of the receiver reach the previously recorded (Pr). The power of signal source (PMea) is recorded. The test should be performed by rotating the test item and adjusting the receiving antenna polarization. 4. The Path loss (Ppl) between the Signal Source with the Substitution Antenna and the Substitution Antenna Gain (Ga) should be recorded after test. An amplifier should be connected in for the test. The Path loss (Ppl) is the summation of the cable loss and the gain of the amplifier. The measurement results are obtained as described below:

Power (EIRP)=PMea - Ppl - Ga 5. This value is EIRP since the measurement is calibrated using an antenna of known gain (2.15 dBi) and known input power. 6. ERP can be calculated from EIRP by subtracting the gain of the dipole, ERP = EIRP -2.15dBi. Copyright. All rights reserved by CTTL. No. I19Z60845-WMD01 Page22 of 68 A.2.2 Measurement Limit Part 24.238 and Part 22.917 specify that the power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitting power (P) by a factor of at least 43 + 10 log(P) dB. The specification that emissions shall be attenuated below the transmitter power (P) by at least 43

+ 10 log (P) dB, translates in the relevant power range (1 to 0.001 W) to -13 dBm. At 1 W the specified minimum attenuation becomes 43 dB and relative to a 30 dBm (1 W) carrier becomes a limit of -13 dBm. At 0.001 W (0 dBm) the minimum attenuation is 13 dB, which again yields a limit of -13 dBm. In this way a translation of the specification from relative to absolute terms is carried out. A.2.3 Measurement Results Radiated emissions measurements were made only at the upper, middle, and lower carrier frequencies of the PCS1900 band (1850.2 MHz, 1880 MHz and 1909.8 MHz) and GSM850 band

(824.2MHz, 836.6MHz, 848.8MHz) . It was decided that measurements at these three carrier frequencies would be sufficient to demonstrate compliance with emissions limits because it was seen that all the significant spurs occur well outside the band and no radiation was seen from a carrier in one block of the PCS1900, GSM850 into any of the other blocks. The equipment must still, however, meet emissions requirements with the carrier at all frequencies over which it is capable of operating and it is the manufacturer's responsibility to verify this. Copyright. All rights reserved by CTTL. No. I19Z60845-WMD01 Page23 of 68 A.2.4 Measurement Results Table Frequency GSM 850MHz GSM 1900MHz A.2.5 Sweep Table Working Frequency 850MHz 1900MHz Channel Frequency Range Result Low Middle High Low Middle High 30MHz-10GHz 30MHz-10GHz 30MHz-10GHz 30MHz-20GHz 30MHz-20GHz 30MHz-20GHz Pass Pass Pass Pass Pass Pass Subrange

(GHz) 0.03~1 1-2 2~5 5~8 8~10 0.03~1 1-2 2~5 5~8 8~11 11~14 14~18 18~20 RBW VBW Sweep time (s) 100KHz 300KHz 1 MHz 1 MHz 1 MHz 1 MHz 3 MHz 3 MHz 3 MHz 3 MHz 100KHz 300KHz 1 MHz 1 MHz 1 MHz 1 MHz 1 MHz 1 MHz 1 MHz 3 MHz 3 MHz 3 MHz 3 MHz 3 MHz 3 MHz 3 MHz 10 2 3 3 3 10 2 3 3 3 3 3 2 Copyright. All rights reserved by CTTL. No. I19Z60845-WMD01 Page24 of 68 Spot check Measurement Results:

GSM Mode Channel 128/824.2MHz Frequency(MHz) PMea(dBm) Path Antenna Correction Peak Limit Loss(dB) Gain(dBi)

(dB) ERP(dBm)

(dBm) Margin(dB) Polarization 1648.01 2472.00 3293.02 4131.02 4943.01 5758.01

-48.22

-46.12

-55.58

-55.40

-55.06

-53.61 3.56 4.59 5.29 6.05 6.70 7.25 5.23 6.02 7.70 9.03 9.84 10.55 2.15 2.15 2.15 2.15 2.15 2.15

-48.70

-13.00 35.70

-46.84

-13.00

-55.32

-13.00

-54.57

-13.00

-54.07

-13.00

-52.46

-13.00 33.80 42.30 41.60 41.10 39.50 H V H H V H GSM Mode Channel 190/836.6MHz Frequency(MHz) PMea(dBm) Path Antenna Correction Peak Limit Loss(dB) Gain(dBi)

(dB) ERP(dBm)

(dBm) Margin(dB) Polarization 1674.01 2510.00 3339.02 4177.02 5003.01 5838.01

-48.70

-47.20

-54.81

-55.20

-56.08

-53.57 3.58 4.63 5.31 6.15 6.60 7.20 5.19 6.12 7.81 9.08 9.90 10.53 2.15 2.15 2.15 2.15 2.15 2.15

-49.24

-13.00

-47.86

-13.00

-54.46

-13.00

-54.42

-13.00

-54.93

-13.00

-52.39

-13.00 36.20 34.90 41.50 41.40 41.90 39.40 H V V V H V GSM Mode Channel 251/848.8MHz Frequency(MHz) PMea(dBm) Path Antenna Correction Peak Limit Loss(dB) Gain(dBi)

(dB) ERP(dBm)

(dBm) Margin(dB) Polarization 1698.01 2546.00 3396.02 4258.02 5082.01 5942.01

-46.94

-48.48

-55.06

-55.33

-55.63

-53.70 3.60 4.66 5.36 6.23 6.72 7.47 5.14 6.18 7.95 9.16 10.01 10.51 2.15 2.15 2.15 2.15 2.15 2.15

-47.55

-13.00

-49.11

-13.00

-54.62

-13.00

-54.55

-13.00

-54.49

-13.00 34.50 36.10 41.60 41.60 41.50

-52.81

-13.00 39.80 H H V H H H Copyright. All rights reserved by CTTL. No. I19Z60845-WMD01 Page25 of 68 GSM Mode Channel 512/1850.2MHz Frequency(MHz) PMea(dBm) Path Antenna Peak Loss(dB) Gain(dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 3701.02 5553.02 7394.01 9243.01 11107.01 12951.01

-49.89

-51.99

-55.99

-55.13

-52.97

-50.35 6.42 7.18 8.12 9.02 9.81 10.49 8.48 10.59 12.07 13.25 13.18 13.47

-47.83

-48.58

-52.04

-50.90

-49.60

-47.37

-13.00

-13.00

-13.00

-13.00

-13.00

-13.00 34.83 35.58 39.04 37.90 36.60 34.37 H H V V H H GSM Mode Channel 661/1880.0MHz Frequency(MHz) PMea(dBm) Path Antenna Peak Loss(dB) Gain(dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 3760.02 5640.02 7517.01 9409.01 11294.01

-53.84

-48.21

-55.55

-55.44

-51.80 6.26 7.27 8.32 9.08 9.96 13146.01

-48.82 10.73 8.56 10.57 12.21 13.35 13.14 13.70

-51.54

-44.91

-51.66

-51.17

-48.62

-45.85

-13.00

-13.00

-13.00

-13.00

-13.00

-13.00 38.54 31.91 38.66 38.17 35.62 32.85 H H H H H H GSM Mode Channel 810/1909.8MHz Frequency(MHz) PMea(dBm) Path Antenna Peak Loss(dB) Gain(dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 3812.02 5729.02 7641.01 9553.01 11466.01 13376.01

-57.87

-56.01

-55.54

-54.37

-50.98

-49.27 6.10 7.29 8.16 9.35 9.90 8.64 10.55 12.31 13.35 13.11 10.57 14.03

-55.33

-52.75

-51.39

-50.37

-47.77

-45.81

-13.00

-13.00

-13.00

-13.00

-13.00

-13.00 42.33 39.75 38.39 37.37 34.77 32.81 H H H V H H Note: Expanded measurement uncertainty is U = 5.16 dB, k = 2. Copyright. All rights reserved by CTTL. No. I19Z60845-WMD01 Page26 of 68 Reference Measurement Results from basic model:

GSM Mode Channel 128/824.2MHz Frequency(MHz) PMea(dBm) Path Antenna Correction Peak Limit Loss(dB) Gain(dBi)

(dB) ERP(dBm)

(dBm) Margin(dB) Polarization 1648.01 2472.00 3299.02 4117.02 4950.01 5757.01

-55.01

-42.04

-55.07

-56.15

-54.44

-54.35 3.56 4.59 5.29 6.04 6.69 7.25 5.23 6.02 7.72 9.02 9.85 10.55 2.15 2.15 2.15 2.15 2.15 2.15

-55.49

-13.00 42.50

-42.76

-13.00

-54.79

-13.00

-55.32

-13.00

-53.43

-13.00

-53.20

-13.00 29.80 41.80 42.30 40.40 40.20 V V H H H H GSM Mode Channel 190/836.6MHz Frequency(MHz) PMea(dBm) Path Antenna Correction Peak Limit Loss(dB) Gain(dBi)

(dB) ERP(dBm)

(dBm) Margin(dB) Polarization 1674.01 2510.00 3344.02 4186.02 5039.01 5852.01

-52.89

-49.61

-54.87

-54.82

-54.96

-53.74 3.58 4.63 5.31 6.17 6.60 7.24 5.19 6.12 7.83 9.09 9.95 10.53 2.15 2.15 2.15 2.15 2.15 2.15

-53.43

-13.00

-50.27

-13.00

-54.50

-13.00

-54.05

-13.00

-53.76

-13.00

-52.60

-13.00 40.40 37.30 41.50 41.10 40.80 39.60 V H V V H V GSM Mode Channel 251/848.8MHz Frequency(MHz) PMea(dBm) Path Antenna Correction Peak Limit Loss(dB) Gain(dBi)

(dB) ERP(dBm)

(dBm) Margin(dB) Polarization 1698.01 2546.00 3384.02 4239.02 5076.01 5943.01

-50.74

-49.26

-55.14

-48.17

-55.49

-53.08 3.60 4.66 5.35 6.25 6.70 7.47 5.14 6.18 7.92 9.14 10.01 10.51 2.15 2.15 2.15 2.15 2.15 2.15

-51.35

-13.00

-49.89

-13.00

-54.72

-13.00

-47.43

-13.00

-54.33

-13.00 38.30 36.90 41.70 34.40 41.30

-52.19

-13.00 39.20 H H V H H H Copyright. All rights reserved by CTTL. No. I19Z60845-WMD01 Page27 of 68 GSM Mode Channel 512/1850.2MHz Frequency(MHz) PMea(dBm) Path Antenna Peak Loss(dB) Gain(dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 3701.02 5542.02 7396.01 9244.01 11106.01 12946.01

-51.24

-57.16

-56.16

-54.57

-52.62

-50.77 6.42 7.17 8.12 9.03 9.81 10.49 8.48 10.59 12.08 13.25 13.18 13.47

-49.18

-53.74

-52.20

-50.35

-49.25

-47.79

-13.00

-13.00

-13.00

-13.00

-13.00

-13.00 36.18 40.74 39.20 37.35 36.25 34.79 H H V V H V GSM Mode Channel 661/1880.0MHz Frequency(MHz) PMea(dBm) Path Antenna Peak Loss(dB) Gain(dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 3747.02 5638.02 7521.01 9411.01 11293.01

-56.54

-57.26

-54.95

-55.22

-50.61 6.30 7.27 8.31 9.09 9.95 13153.01

-48.39 10.70 8.55 10.57 12.22 13.35 13.14 13.71

-54.29

-53.96

-51.04

-50.96

-47.42

-45.38

-13.00

-13.00

-13.00

-13.00

-13.00

-13.00 41.29 40.96 38.04 37.96 34.42 32.38 V H H H H H GSM Mode Channel 810/1909.8MHz Frequency(MHz) PMea(dBm) Path Antenna Peak Loss(dB) Gain(dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 3820.02 5728.02 7649.01 9547.01 11464.01 13374.01

-53.63

-56.89

-55.20

-54.55

-51.89

-48.86 6.08 7.30 8.20 9.37 9.90 8.65 10.55 12.32 13.35 13.11 10.57 14.02

-51.06

-53.64

-51.08

-50.57

-48.68

-45.41

-13.00

-13.00

-13.00

-13.00

-13.00

-13.00 38.06 40.64 38.08 37.57 35.68 32.41 H H H V V H Note: Expanded measurement uncertainty is U = 5.16 dB, k = 2. Copyright. All rights reserved by CTTL. No. I19Z60845-WMD01 Page28 of 68 A.3 FREQUENCY STABILITY A.3.1 Method of Measurement In order to measure the carrier frequency under the condition of AFC lock, it is necessary to make measurements with the EUT in a call mode. This is accomplished with the use of R&S CMU200 DIGITAL RADIO COMMUNICATION TESTER. 1. Measure the carrier frequency at room temperature. 2. Subject the EUT to overnight soak at -10. 3. With the EUT, powered via nominal voltage, connected to the CMU200 and in a simulated call on mid channel of PCS 1900 and GSM850, measure the carrier frequency. These measurements should be made within 2 minutes of Powering up the EUT, to prevent significant self-warming. 4. Repeat the above measurements at 10 increments from -10 to +50. Allow at least 1 1/2 hours at each temperature, unpowered, before making measurements. 5. Remeasure carrier frequency at room temperature with nominal voltage. Vary supply voltage from minimum voltage to maximum voltage, in 0.1Volt increments remeasuring carrier frequency at each voltage. Pause at nominal voltage for 1 1/2 hours unpowered, to allow any self-heating to stabilize, before continuing. 6. Subject the EUT to overnight soak at +50. 7. With the EUT, powered via nominal voltage, connected to the CMU200 and in a simulated call on the centre channel, measure the carrier frequency. These measurements should be made within 2 minutes of Powering up the EUT, to prevent significant self-warming. 8. Repeat the above measurements at 10 C increments from -10 to +50. Allow at least 1 1/2 hours at each temperature, unpowered, before making measurements. 9. At all temperature levels hold the temperature to +/- 0.5 during the measurement procedure. A.3.2 Measurement Limit A.3.2.1 For Hand carried battery powered equipment According to the JTC standard the frequency stability of the carrier shall be accurate to within 0.1 ppm of the received frequency from the base station. This accuracy is sufficient to meet Sec. 24.235, Frequency Stability. The frequency stability shall be sufficient to ensure that the fundamental emission stays within the authorized frequency block. As this transceiver is considered "Hand carried, battery powered equipment" Section 2.1055(d)(2) applies. This requires that the lower voltage for frequency stability testing be specified by the manufacturer. This transceiver is specified to operate with an input voltage of between 3.6VDC and 4.2VDC, with a nominal voltage of 3.8VDC. Operation above or below these voltage limits is prohibited by transceiver software in order to prevent improper operation as well as to protect components from overstress. For the purposes of measuring frequency stability these voltage limits are to be used. A.3.2.2 For equipment powered by primary supply voltage According to the JTC standard the frequency stability of the carrier shall be accurate to within 0.1 ppm of the received frequency from the base station. This accuracy is sufficient to meet Sec. 24.235, Frequency Stability. The frequency stability shall be sufficient to ensure that the fundamental emission stays within the authorized frequency block. For this EUT section 2.1055(d)(1) applies. Copyright. All rights reserved by CTTL. No. I19Z60845-WMD01 Page29 of 68 A.3.3 Measurement results GSM 850 Frequency Error vs Voltage Voltage(V) Frequency error(Hz) Frequency error(ppm) 3.6 3.8 4.2

-12.79 4.84 5.55 0.0153 0.0058 0.0066 Frequency Error vs Temperature temperature() Frequency error(Hz) Frequency error(ppm)

-10 0 10 20 30 40 50 EGPRS 850 - 8PSK Frequency Error vs Voltage

-11.56 7.17

-6.97 5.88

-8.91

-6.39

-11.88 0.0138 0.0086 0.0083 0.0070 0.0107 0.0076 0.0142 Voltage(V) Frequency error(Hz) Frequency error(ppm) 3.6 3.8 4.2 12.82 12.17 15.88 0.0153 0.0145 0.0190 Frequency Error vs Temperature temperature() Frequency error(Hz) Frequency error(ppm)

-10 0 10 20 30 40 50 12.66 12.91 10.65 12.14 15.79 13.46 12.85 0.0151 0.0154 0.0127 0.0145 0.0189 0.0161 0.0154 Copyright. All rights reserved by CTTL. No. I19Z60845-WMD01 Page30 of 68 PCS 1900 Frequency Error vs Voltage Voltage(V) Frequency error(Hz) Frequency error(ppm) 3.6 3.8 4.2

-39.32

-22.54

-26.80 0.0209 0.0120 0.0143 Frequency Error vs Temperature temperature() Frequency error(Hz) Frequency error(ppm)

-10 0 10 20 30 40 50 EGPRS 1900 - 8PSK Frequency Error vs Voltage

-26.35

-23.89

-30.67

-25.31

-31.77

-27.12

-29.25 0.0140 0.0127 0.0163 0.0135 0.0169 0.0144 0.0156 Voltage(V) Frequency error(Hz) Frequency error(ppm) 3.6 3.8 4.2 10.33

-9.14 12.88 0.0055 0.0049 0.0069 Frequency Error vs Temperature temperature() Frequency error(Hz) Frequency error(ppm)

-10 0 10 20 30 40 50 10.69 10.98

-8.30

-12.43 13.43

-11.11 8.88 0.0057 0.0058 0.0044 0.0066 0.0071 0.0059 0.0047 Copyright. All rights reserved by CTTL. No. I19Z60845-WMD01 Page31 of 68 A.4 OCCUPIED BANDWIDTH A.4.1 Occupied Bandwidth Results Occupied bandwidth measurements are only provided for selected frequencies in order to reduce the amount of submitted data. Data were taken at the extreme and mid frequencies of the US Cellular/PCS frequency bands. The table below lists the measured 99% BW. Spectrum analyzer plots are included on the following pages. The measurement method is from KDB 971168:

a) The spectrum analyzer center frequency is set to the nominal EUT channel center frequency. The frequency span for the spectrum analyzer shall be set wide enough to capture all modulation products including the emission skirts (i.e., two to five times the OBW). b) The nominal IF filter bandwidth (3 dB RBW) shall be in the range of 1 to 5 % of the anticipated OBW, and the VBW shall be at least 3 times the RBW. c) Set the reference level of the instrument as required to keep the signal from exceeding the maximum input mixer level for linear operation. In general, the peak of the spectral envelope must be at least 10log (OBW / RBW) below the reference level. d) Set the detection mode to peak, and the trace mode to max hold. e) Use the 99 % power bandwidth function of the spectrum analyzer and report the measured bandwidth. GSM 850(99% BW) Frequency(MHz) Occupied Bandwidth (99% BW)( kHz) 824.2 836.6 848.8 GSM 850 242.79 243.59 242.79 Channel 128-Occupied Bandwidth (99% BW)

(cid:10) Copyright. All rights reserved by CTTL. A *3DBRBW 5 kHz*VBW 20 kHzSWT 20 ms1 PKMAXHAtt 35 dBTDFRef 30.5 dBmOffset 0.5 dBCenter824.2 MHzSpan500 kHz50 kHz/LVLSGL-60-50-40-30-20-1001020301Marker 1 [T1 ] 31.70 dBm 824.268108974 MHzOBW242.788461538 kHzT1Temp 1 [T1 OBW] 13.94 dBm 824.078205128 MHzT2Temp 2 [T1 OBW] 16.02 dBm 824.320993590 MHzDate: 16.APR.2019 14:52:42 Channel 190-Occupied Bandwidth (99% BW)

(cid:10) No. I19Z60845-WMD01 Page32 of 68 Channel 251-Occupied Bandwidth (99% BW)

(cid:10) Copyright. All rights reserved by CTTL. A *3DBRBW 5 kHz*VBW 20 kHzSWT 20 ms1 PKMAXHAtt 35 dBTDFRef 30.5 dBmOffset 0.5 dBCenter848.8 MHzSpan500 kHz50 kHz/LVLSGL-60-50-40-30-20-1001020301Marker 1 [T1 ] 31.73 dBm 848.867307692 MHzOBW242.788461538 kHzT1Temp 1 [T1 OBW] 16.14 dBm 848.679006410 MHzT2Temp 2 [T1 OBW] 15.46 dBm 848.921794872 MHzDate: 16.APR.2019 14:55:05 A *3DBRBW 5 kHz*VBW 20 kHzSWT 20 ms1 PKMAXHAtt 35 dBTDFRef 30.5 dBmOffset 0.5 dBCenter836.6 MHzSpan500 kHz50 kHz/LVLSGL-60-50-40-30-20-1001020301Marker 1 [T1 ] 31.96 dBm 836.629647436 MHzOBW243.589743590 kHzT1Temp 1 [T1 OBW] 14.61 dBm 836.477403846 MHzT2Temp 2 [T1 OBW] 14.74 dBm 836.720993590 MHzDate: 16.APR.2019 14:53:54 No. I19Z60845-WMD01 Page33 of 68 GPRS 850(99% BW) Frequency(MHz) Occupied Bandwidth (99% BW)( kHz) 824.2 836.6 848.8 244.39 244.39 242.79 GPRS 850 Channel 128-Occupied Bandwidth (99% BW)

(cid:10) Copyright. All rights reserved by CTTL. A *3DBRBW 5 kHz*VBW 20 kHzSWT 20 ms1 PKMAXHAtt 35 dBTDFRef 30.5 dBmOffset 0.5 dBCenter824.2 MHzSpan500 kHz50 kHz/LVLSGL-60-50-40-30-20-1001020301Marker 1 [T1 ] 30.25 dBm 824.175160256 MHzOBW244.391025641 kHzT1Temp 1 [T1 OBW] 14.66 dBm 824.078205128 MHzT2Temp 2 [T1 OBW] 15.51 dBm 824.322596154 MHzDate: 16.APR.2019 15:47:16 Channel 190-Occupied Bandwidth (99% BW)

(cid:10) No. I19Z60845-WMD01 Page34 of 68 Channel 251-Occupied Bandwidth (99% BW)

(cid:10) Copyright. All rights reserved by CTTL. A *3DBRBW 5 kHz*VBW 20 kHzSWT 20 ms1 PKMAXHAtt 35 dBTDFRef 30.5 dBmOffset 0.5 dBCenter848.8 MHzSpan500 kHz50 kHz/LVLSGL-60-50-40-30-20-1001020301Marker 1 [T1 ] 30.32 dBm 848.808012821 MHzOBW242.788461538 kHzT1Temp 1 [T1 OBW] 15.39 dBm 848.679006410 MHzT2Temp 2 [T1 OBW] 15.50 dBm 848.921794872 MHzDate: 16.APR.2019 15:49:39 A *3DBRBW 5 kHz*VBW 20 kHzSWT 20 ms1 PKMAXHAtt 35 dBTDFRef 30.5 dBmOffset 0.5 dBCenter836.6 MHzSpan500 kHz50 kHz/LVLSGL-60-50-40-30-20-1001020301Marker 1 [T1 ] 30.36 dBm 836.614423077 MHzOBW244.391025641 kHzT1Temp 1 [T1 OBW] 15.75 dBm 836.478205128 MHzT2Temp 2 [T1 OBW] 14.57 dBm 836.722596154 MHzDate: 16.APR.2019 15:48:27 No. I19Z60845-WMD01 Page35 of 68 EGPRS 850-8PSK(99% BW) Frequency(MHz) Occupied Bandwidth (99% BW)( kHz) 824.2 836.6 848.8 245.99 245.19 245.19 EGPRS 850-8PSK Channel 128-Occupied Bandwidth (99% BW)

(cid:10) Copyright. All rights reserved by CTTL. A *3DBRBW 5 kHz*VBW 20 kHzSWT 20 ms1 PKMAXHAtt 35 dBTDFRef 30.5 dBmOffset 0.5 dBCenter824.2 MHzSpan500 kHz50 kHz/LVLSGL-60-50-40-30-20-1001020301Marker 1 [T1 ] 23.65 dBm 824.233653846 MHzOBW245.993589743 kHzT1Temp 1 [T1 OBW] 10.24 dBm 824.078205128 MHzT2Temp 2 [T1 OBW] 7.53 dBm 824.324198718 MHzDate: 17.APR.2019 16:59:37 Channel 190-Occupied Bandwidth (99% BW)

(cid:10) No. I19Z60845-WMD01 Page36 of 68 Channel 251-Occupied Bandwidth (99% BW)

(cid:10) Copyright. All rights reserved by CTTL. A *3DBRBW 5 kHz*VBW 20 kHzSWT 20 ms1 PKMAXHAtt 35 dBTDFRef 30.5 dBmOffset 0.5 dBCenter848.8 MHzSpan500 kHz50 kHz/LVLSGL-60-50-40-30-20-1001020301Marker 1 [T1 ] 23.96 dBm 848.812820513 MHzOBW245.192307692 kHzT1Temp 1 [T1 OBW] 10.24 dBm 848.677403846 MHzT2Temp 2 [T1 OBW] 8.75 dBm 848.922596154 MHzDate: 17.APR.2019 17:01:59 A *3DBRBW 5 kHz*VBW 20 kHzSWT 20 ms1 PKMAXHAtt 35 dBTDFRef 30.5 dBmOffset 0.5 dBCenter836.6 MHzSpan500 kHz50 kHz/LVLSGL-60-50-40-30-20-1001020301Marker 1 [T1 ] 24.82 dBm 836.600000000 MHzOBW245.192307692 kHzT1Temp 1 [T1 OBW] 8.46 dBm 836.477403846 MHzT2Temp 2 [T1 OBW] 6.90 dBm 836.722596154 MHzDate: 17.APR.2019 17:00:48 No. I19Z60845-WMD01 Page37 of 68 PCS 1900(99% BW) Frequency(MHz) Occupied Bandwidth (99% BW)( kHz) 1850.2 1880.0 1909.8 PCS 1900 Channel 512-Occupied Bandwidth (99% BW) 241.99 242.79 247.60

(cid:10) Copyright. All rights reserved by CTTL. A *3DBRBW 5 kHz*VBW 20 kHzSWT 20 ms1 PKMAXHAtt 35 dBTDFRef 30.8 dBmOffset 0.8 dBCenter1.8502 GHzSpan500 kHz50 kHz/LVLSGL-60-50-40-30-20-1001020301Marker 1 [T1 ] 28.56 dBm 1.850268910 GHzOBW241.987179487 kHzT1Temp 1 [T1 OBW] 11.84 dBm 1.850079006 GHzT2Temp 2 [T1 OBW] 11.61 dBm 1.850320994 GHzDate: 16.APR.2019 14:57:00 Channel 661-Occupied Bandwidth (99% BW)

(cid:10) No. I19Z60845-WMD01 Page38 of 68 Channel 810-Occupied Bandwidth (99% BW)

(cid:10) Copyright. All rights reserved by CTTL. A *3DBRBW 5 kHz*VBW 20 kHzSWT 20 ms1 PKMAXHAtt 35 dBTDFRef 30.8 dBmOffset 0.8 dBCenter1.9098 GHzSpan500 kHz50 kHz/LVLSGL-60-50-40-30-20-1001020301Marker 1 [T1 ] 27.61 dBm 1.909829647 GHzOBW247.596153846 kHzT1Temp 1 [T1 OBW] 12.29 dBm 1.909676603 GHzT2Temp 2 [T1 OBW] 11.78 dBm 1.909924199 GHzDate: 16.APR.2019 14:59:23 A *3DBRBW 5 kHz*VBW 20 kHzSWT 20 ms1 PKMAXHAtt 35 dBTDFRef 30.8 dBmOffset 0.8 dBCenter1.88 GHzSpan500 kHz50 kHz/LVLSGL-60-50-40-30-20-1001020301Marker 1 [T1 ] 28.09 dBm 1.880067308 GHzOBW242.788461539 kHzT1Temp 1 [T1 OBW] 11.76 dBm 1.879878205 GHzT2Temp 2 [T1 OBW] 11.92 dBm 1.880120994 GHzDate: 16.APR.2019 14:58:11 No. I19Z60845-WMD01 Page39 of 68 GPRS 1900(99% BW) Frequency(MHz) Occupied Bandwidth (99% BW)( kHz) 1850.2 1880.0 1909.8 GPRS 1900 Channel 512-Occupied Bandwidth (99% BW) 243.59 241.99 244.39

(cid:10) Copyright. All rights reserved by CTTL. A *3DBRBW 5 kHz*VBW 20 kHzSWT 20 ms1 PKMAXHAtt 35 dBTDFRef 30.8 dBmOffset 0.8 dBCenter1.8502 GHzSpan500 kHz50 kHz/LVLSGL-60-50-40-30-20-1001020301Marker 1 [T1 ] 27.54 dBm 1.850186378 GHzOBW243.589743590 kHzT1Temp 1 [T1 OBW] 13.32 dBm 1.850077404 GHzT2Temp 2 [T1 OBW] 11.67 dBm 1.850320994 GHzDate: 16.APR.2019 15:53:02 Channel 661-Occupied Bandwidth (99% BW)

(cid:10) No. I19Z60845-WMD01 Page40 of 68 Channel 810-Occupied Bandwidth (99% BW)

(cid:10) Copyright. All rights reserved by CTTL. A *3DBRBW 5 kHz*VBW 20 kHzSWT 20 ms1 PKMAXHAtt 35 dBTDFRef 30.8 dBmOffset 0.8 dBCenter1.9098 GHzSpan500 kHz50 kHz/LVLSGL-60-50-40-30-20-1001020301Marker 1 [T1 ] 26.93 dBm 1.909819231 GHzOBW244.391025641 kHzT1Temp 1 [T1 OBW] 12.44 dBm 1.909677404 GHzT2Temp 2 [T1 OBW] 12.19 dBm 1.909921795 GHzDate: 16.APR.2019 15:55:25 A *3DBRBW 5 kHz*VBW 20 kHzSWT 20 ms1 PKMAXHAtt 35 dBTDFRef 30.8 dBmOffset 0.8 dBCenter1.88 GHzSpan500 kHz50 kHz/LVLSGL-60-50-40-30-20-1001020301Marker 1 [T1 ] 27.20 dBm 1.879979167 GHzOBW241.987179487 kHzT1Temp 1 [T1 OBW] 12.60 dBm 1.879879808 GHzT2Temp 2 [T1 OBW] 12.21 dBm 1.880121795 GHzDate: 16.APR.2019 15:54:13 No. I19Z60845-WMD01 Page41 of 68 EGPRS 1900-8PSK(99% BW) Frequency(MHz) Occupied Bandwidth (99% BW)( kHz) 1850.2 1880.0 1909.8 245.19 244.39 248.40 EGPRS 1900-8PSK Channel 512-Occupied Bandwidth (99% BW)

(cid:10) Copyright. All rights reserved by CTTL. A *3DBRBW 5 kHz*VBW 20 kHzSWT 20 ms1 PKMAXHAtt 35 dBTDFRef 30.8 dBmOffset 0.8 dBCenter1.8502 GHzSpan500 kHz50 kHz/LVLSGL-60-50-40-30-20-1001020301Marker 1 [T1 ] 22.03 dBm 1.850175962 GHzOBW245.192307693 kHzT1Temp 1 [T1 OBW] 6.60 dBm 1.850077404 GHzT2Temp 2 [T1 OBW] 7.94 dBm 1.850322596 GHzDate: 17.APR.2019 17:03:50 Channel 661-Occupied Bandwidth (99% BW)

(cid:10) No. I19Z60845-WMD01 Page42 of 68 Channel 810-Occupied Bandwidth (99% BW)

(cid:10) Copyright. All rights reserved by CTTL. A *3DBRBW 5 kHz*VBW 20 kHzSWT 20 ms1 PKMAXHAtt 35 dBTDFRef 30.8 dBmOffset 0.8 dBCenter1.9098 GHzSpan500 kHz50 kHz/LVLSGL-60-50-40-30-20-1001020301Marker 1 [T1 ] 21.42 dBm 1.909786378 GHzOBW248.397435897 kHzT1Temp 1 [T1 OBW] 7.64 dBm 1.909676603 GHzT2Temp 2 [T1 OBW] 6.17 dBm 1.909925000 GHzDate: 17.APR.2019 17:06:12 A *3DBRBW 5 kHz*VBW 20 kHzSWT 20 ms1 PKMAXHAtt 35 dBTDFRef 30.8 dBmOffset 0.8 dBCenter1.88 GHzSpan500 kHz50 kHz/LVLSGL-60-50-40-30-20-1001020301Marker 1 [T1 ] 22.52 dBm 1.880011218 GHzOBW244.391025641 kHzT1Temp 1 [T1 OBW] 7.89 dBm 1.879877404 GHzT2Temp 2 [T1 OBW] 5.54 dBm 1.880121795 GHzDate: 17.APR.2019 17:05:01 No. I19Z60845-WMD01 Page43 of 68 A.5 EMISSION BANDWIDTH A.5.1Emission Bandwidth Results The emission bandwidth is defined as the width of the signal between two points, one below the carrier center frequency and one above the carrier center frequency, outside of which all emissions are attenuated at least 26 dB below the transmitter power. GSM 850 GSM 850 Frequency(MHz) Emission Bandwidth ( kHz) 824.2 836.6 848.8 314.10 310.90 303.69 Channel 128-Emission Bandwidth

(cid:10) Copyright. All rights reserved by CTTL. A 3DBRBW 5 kHzSWT 20 ms*VBW 20 kHz*Att 35 dB*TDFRef 30.5 dBmOffset 0.5 dBCenter824.2 MHzSpan500 kHz50 kHz/LVL1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] 30.36 dBm 824.268108974 MHzndB [T1] 26.00 dB BW 314.102564103 kHzT1Temp 1 [T1 ndB] 4.28 dBm 824.044551282 MHzT2Temp 2 [T1 ndB] 3.95 dBm 824.358653846 MHzDate: 16.APR.2019 15:01:24 Channel 190-Emission Bandwidth No. I19Z60845-WMD01 Page44 of 68 Channel 251-Emission Bandwidth

(cid:10)

(cid:10) Copyright. All rights reserved by CTTL. A 3DBRBW 5 kHzSWT 20 ms*VBW 20 kHz*Att 35 dB*TDFRef 30.5 dBmOffset 0.5 dBCenter848.8 MHzSpan500 kHz50 kHz/LVL1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] 31.21 dBm 848.867307692 MHzndB [T1] 26.00 dB BW 303.685897436 kHzT1Temp 1 [T1 ndB] 5.03 dBm 848.650160256 MHzT2Temp 2 [T1 ndB] 4.99 dBm 848.953846154 MHzDate: 16.APR.2019 15:03:48 A 3DBRBW 5 kHzSWT 20 ms*VBW 20 kHz*Att 35 dB*TDFRef 30.5 dBmOffset 0.5 dBCenter836.6 MHzSpan500 kHz50 kHz/LVL1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] 31.29 dBm 836.668108974 MHzndB [T1] 26.00 dB BW 310.897435897 kHzT1Temp 1 [T1 ndB] 4.69 dBm 836.443750000 MHzT2Temp 2 [T1 ndB] 5.06 dBm 836.754647436 MHzDate: 16.APR.2019 15:02:36 No. I19Z60845-WMD01 Page45 of 68 GPRS 850 Frequency(MHz) Emission Bandwidth ( kHz) 824.2 836.6 848.8 GPRS 850 Channel 128-Emission Bandwidth 312.50 315.71 311.70

(cid:10) Copyright. All rights reserved by CTTL. A 3DBRBW 5 kHzSWT 20 ms*VBW 20 kHz*Att 35 dB*TDFRef 30.5 dBmOffset 0.5 dBCenter824.2 MHzSpan500 kHz50 kHz/LVL1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] 30.81 dBm 824.175961538 MHzndB [T1] 26.00 dB BW 312.500000000 kHzT1Temp 1 [T1 ndB] 4.93 dBm 824.044551282 MHzT2Temp 2 [T1 ndB] 4.43 dBm 824.357051282 MHzDate: 16.APR.2019 15:57:22 Channel 190-Emission Bandwidth No. I19Z60845-WMD01 Page46 of 68

(cid:10)

(cid:10) Channel 251-Emission Bandwidth Copyright. All rights reserved by CTTL. A 3DBRBW 5 kHzSWT 20 ms*VBW 20 kHz*Att 35 dB*TDFRef 30.5 dBmOffset 0.5 dBCenter848.8 MHzSpan500 kHz50 kHz/LVL1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] 30.39 dBm 848.781570513 MHzndB [T1] 26.00 dB BW 311.698717949 kHzT1Temp 1 [T1 ndB] 4.33 dBm 848.645352564 MHzT2Temp 2 [T1 ndB] 4.77 dBm 848.957051282 MHzDate: 16.APR.2019 15:59:46 A 3DBRBW 5 kHzSWT 20 ms*VBW 20 kHz*Att 35 dB*TDFRef 30.5 dBmOffset 0.5 dBCenter836.6 MHzSpan500 kHz50 kHz/LVL1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] 30.06 dBm 836.620833333 MHzndB [T1] 26.00 dB BW 315.705128205 kHzT1Temp 1 [T1 ndB] 3.94 dBm 836.443750000 MHzT2Temp 2 [T1 ndB] 3.91 dBm 836.759455128 MHzDate: 16.APR.2019 15:58:34 No. I19Z60845-WMD01 Page47 of 68 EGPRS 850-8PSK Frequency(MHz) Emission Bandwidth ( kHz) 824.2 836.6 848.8 EGPRS 850-8PSK Channel 128-Emission Bandwidth 310.90 313.30 312.50

(cid:10) Copyright. All rights reserved by CTTL. A 3DBRBW 5 kHzSWT 20 ms*VBW 20 kHz*Att 35 dB*TDFRef 30.5 dBmOffset 0.5 dBCenter824.2 MHzSpan500 kHz50 kHz/LVL1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] 23.86 dBm 824.175160256 MHzndB [T1] 26.00 dB BW 310.897435897 kHzT1Temp 1 [T1 ndB] -2.42 dBm 824.047756410 MHzT2Temp 2 [T1 ndB] -2.48 dBm 824.358653846 MHzDate: 17.APR.2019 17:08:10 Channel 190-Emission Bandwidth No. I19Z60845-WMD01 Page48 of 68

(cid:10)

(cid:10) Channel 251-Emission Bandwidth Copyright. All rights reserved by CTTL. A 3DBRBW 5 kHzSWT 20 ms*VBW 20 kHz*Att 35 dB*TDFRef 30.5 dBmOffset 0.5 dBCenter848.8 MHzSpan500 kHz50 kHz/LVL1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] 24.37 dBm 848.782371795 MHzndB [T1] 26.00 dB BW 312.500000000 kHzT1Temp 1 [T1 ndB] -1.63 dBm 848.644551282 MHzT2Temp 2 [T1 ndB] -1.70 dBm 848.957051282 MHzDate: 17.APR.2019 17:10:33 A 3DBRBW 5 kHzSWT 20 ms*VBW 20 kHz*Att 35 dB*TDFRef 30.5 dBmOffset 0.5 dBCenter836.6 MHzSpan500 kHz50 kHz/LVL1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] 23.96 dBm 836.620032051 MHzndB [T1] 26.00 dB BW 313.301282051 kHzT1Temp 1 [T1 ndB] -1.22 dBm 836.444551282 MHzT2Temp 2 [T1 ndB] -1.82 dBm 836.757852564 MHzDate: 17.APR.2019 17:09:21 No. I19Z60845-WMD01 Page49 of 68 PCS 1900 Frequency(MHz) Emission Bandwidth ( kHz) 1850.2 1880.0 1909.8 PCS 1900 Channel 512-Emission Bandwidth 304.49 305.29 315.71

(cid:10) Copyright. All rights reserved by CTTL. A 3DBRBW 5 kHzSWT 20 ms*VBW 20 kHz*Att 35 dB*TDFRef 30.8 dBmOffset 0.8 dBCenter1.8502 GHzSpan500 kHz50 kHz/LVL1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] 29.05 dBm 1.850268109 GHzndB [T1] 26.00 dB BW 304.487179487 kHzT1Temp 1 [T1 ndB] 3.38 dBm 1.850049359 GHzT2Temp 2 [T1 ndB] 3.04 dBm 1.850353846 GHzDate: 16.APR.2019 15:05:42 Channel 661-Emission Bandwidth No. I19Z60845-WMD01 Page50 of 68 Channel 810-Emission Bandwidth

(cid:10)

(cid:10) Copyright. All rights reserved by CTTL. A 3DBRBW 5 kHzSWT 20 ms*VBW 20 kHz*Att 35 dB*TDFRef 30.8 dBmOffset 0.8 dBCenter1.9098 GHzSpan500 kHz50 kHz/LVL1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] 27.17 dBm 1.909867308 GHzndB [T1] 26.00 dB BW 315.705128205 kHzT1Temp 1 [T1 ndB] 0.97 dBm 1.909642949 GHzT2Temp 2 [T1 ndB] 1.17 dBm 1.909958654 GHzDate: 16.APR.2019 15:08:06 A 3DBRBW 5 kHzSWT 20 ms*VBW 20 kHz*Att 35 dB*TDFRef 30.8 dBmOffset 0.8 dBCenter1.88 GHzSpan500 kHz50 kHz/LVL1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] 29.14 dBm 1.880068109 GHzndB [T1] 26.00 dB BW 305.288461539 kHzT1Temp 1 [T1 ndB] 3.19 dBm 1.879848558 GHzT2Temp 2 [T1 ndB] 3.53 dBm 1.880153846 GHzDate: 16.APR.2019 15:06:54 No. I19Z60845-WMD01 Page51 of 68 GPRS 1900 Frequency(MHz) Emission Bandwidth ( kHz) 1850.2 1880.0 1909.8 GPRS 1900 Channel 512-Emission Bandwidth 317.31 315.71 314.90

(cid:10) Copyright. All rights reserved by CTTL. A 3DBRBW 5 kHzSWT 20 ms*VBW 20 kHz*Att 35 dB*TDFRef 30.8 dBmOffset 0.8 dBCenter1.8502 GHzSpan500 kHz50 kHz/LVL1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] 27.00 dBm 1.850237660 GHzndB [T1] 26.00 dB BW 317.307692308 kHzT1Temp 1 [T1 ndB] 0.99 dBm 1.850042147 GHzT2Temp 2 [T1 ndB] 0.73 dBm 1.850359455 GHzDate: 16.APR.2019 16:01:36 Channel 661-Emission Bandwidth No. I19Z60845-WMD01 Page52 of 68 Channel 810-Emission Bandwidth

(cid:10)

(cid:10) Copyright. All rights reserved by CTTL. A 3DBRBW 5 kHzSWT 20 ms*VBW 20 kHz*Att 35 dB*TDFRef 30.8 dBmOffset 0.8 dBCenter1.9098 GHzSpan500 kHz50 kHz/LVL1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] 27.13 dBm 1.909799199 GHzndB [T1] 26.00 dB BW 314.903846154 kHzT1Temp 1 [T1 ndB] 1.35 dBm 1.909643750 GHzT2Temp 2 [T1 ndB] 1.68 dBm 1.909958654 GHzDate: 16.APR.2019 16:04:00 A 3DBRBW 5 kHzSWT 20 ms*VBW 20 kHz*Att 35 dB*TDFRef 30.8 dBmOffset 0.8 dBCenter1.88 GHzSpan500 kHz50 kHz/LVL1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] 26.94 dBm 1.879994391 GHzndB [T1] 26.00 dB BW 315.705128205 kHzT1Temp 1 [T1 ndB] 0.49 dBm 1.879842949 GHzT2Temp 2 [T1 ndB] 1.07 dBm 1.880158654 GHzDate: 16.APR.2019 16:02:48 No. I19Z60845-WMD01 Page53 of 68 EGPRS 1900-8PSK Frequency(MHz) Emission Bandwidth( kHz) 1850.2 1880.0 1909.8 EGPRS 1900-8PSK Channel 512-Emission Bandwidth 310.90 299.68 305.29

(cid:10) Copyright. All rights reserved by CTTL. A 3DBRBW 5 kHzSWT 20 ms*VBW 20 kHz*Att 35 dB*TDFRef 30.8 dBmOffset 0.8 dBCenter1.8502 GHzSpan500 kHz50 kHz/LVL1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] 23.09 dBm 1.850214423 GHzndB [T1] 26.00 dB BW 310.897435898 kHzT1Temp 1 [T1 ndB] -3.14 dBm 1.850046154 GHzT2Temp 2 [T1 ndB] -2.74 dBm 1.850357051 GHzDate: 17.APR.2019 17:12:24 Channel 661-Emission Bandwidth No. I19Z60845-WMD01 Page54 of 68

(cid:10)

(cid:10) Channel 810-Emission Bandwidth Copyright. All rights reserved by CTTL. A 3DBRBW 5 kHzSWT 20 ms*VBW 20 kHz*Att 35 dB*TDFRef 30.8 dBmOffset 0.8 dBCenter1.9098 GHzSpan500 kHz50 kHz/LVL1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] 23.00 dBm 1.909780769 GHzndB [T1] 26.00 dB BW 305.288461539 kHzT1Temp 1 [T1 ndB] -3.02 dBm 1.909647756 GHzT2Temp 2 [T1 ndB] -2.63 dBm 1.909953045 GHzDate: 17.APR.2019 17:14:47 A 3DBRBW 5 kHzSWT 20 ms*VBW 20 kHz*Att 35 dB*TDFRef 30.8 dBmOffset 0.8 dBCenter1.88 GHzSpan500 kHz50 kHz/LVL1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] 23.79 dBm 1.879965545 GHzndB [T1] 26.00 dB BW 299.679487179 kHzT1Temp 1 [T1 ndB] -2.41 dBm 1.879850160 GHzT2Temp 2 [T1 ndB] -2.25 dBm 1.880149840 GHzDate: 17.APR.2019 17:13:35 No. I19Z60845-WMD01 Page55 of 68 A.6 BAND EDGE COMPLIANCE Measurement limit On any frequency outside frequency band of the US Cellular/PCS spectrum, the power of any emission shall be attenuated below the transmitter power (P, in Watts) by at least 43+10Log (P) dB. For all power levels +30 dBm to 0 dBm, this becomes a constant specification limit of -13 dBm. According to KDB 971168 6.0, a relaxation of the reference bandwidth is often provided for measurements within a specified frequency range at the edge of the authorized frequency block/band. This is often implemented by permitting the use of a narrower RBW (typically limited to a minimum RBW of 1% of the OBW) for measuring the out-of-band emissions without a requirement to integrate the result over the full reference bandwidth. Copyright. All rights reserved by CTTL. GSM 850 LOW BAND EDGE BLOCK-A (GSM850)-Channel 128 No. I19Z60845-WMD01 Page56 of 68

(cid:10) HIGH BAND EDGE BLOCK-C (GSM850) Channel 251

(cid:10) Copyright. All rights reserved by CTTL. A 3DBRBW 3 kHz**VBW 10 kHz*1 RMMAXHSWT 1 s*TDFRef 25.5 dBmOffset 0.5 dBCenter849 MHzSpan1 MHz100 kHz/LVLAtt 20 dB*SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] -16.26 dBm 849.017628205 MHzD1 -13 dBmF1F2Date: 16.APR.2019 15:19:31 A 3DBRBW 3 kHz**VBW 10 kHz*1 RMMAXHSWT 1 s*TDFRef 25.5 dBmOffset 0.5 dBCenter824 MHzSpan1 MHz100 kHz/LVLAtt 20 dB*SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] -14.39 dBm 823.996794872 MHzD1 -13 dBmF1F2Date: 16.APR.2019 15:14:14 GPRS 850 LOW BAND EDGE BLOCK-A (GSM850)-Channel 128 No. I19Z60845-WMD01 Page57 of 68

(cid:10) HIGH BAND EDGE BLOCK-C (GSM850) Channel 251

(cid:10) Copyright. All rights reserved by CTTL. A 3DBRBW 3 kHz**VBW 10 kHz*1 RMMAXHSWT 1 s*TDFRef 25.5 dBmOffset 0.5 dBCenter849 MHzSpan1 MHz100 kHz/LVLAtt 20 dB*SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] -16.64 dBm 849.020833333 MHzD1 -13 dBmF1F2Date: 16.APR.2019 16:15:19 A 3DBRBW 3 kHz**VBW 10 kHz*1 RMMAXHSWT 1 s*TDFRef 25.5 dBmOffset 0.5 dBCenter824 MHzSpan1 MHz100 kHz/LVLAtt 20 dB*SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] -16.87 dBm 823.996794872 MHzD1 -13 dBmF1F2Date: 16.APR.2019 16:10:03 EGPRS 850-8PSK LOW BAND EDGE BLOCK-A (GSM850)-Channel 128 No. I19Z60845-WMD01 Page58 of 68

(cid:10) HIGH BAND EDGE BLOCK-C (GSM850) Channel 251

(cid:10) Copyright. All rights reserved by CTTL. A 3DBRBW 3 kHz**VBW 10 kHz*1 RMMAXHSWT 1 s*TDFRef 25.5 dBmOffset 0.5 dBCenter849 MHzSpan1 MHz100 kHz/LVLAtt 20 dB*SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] -23.04 dBm 849.012820513 MHzD1 -13 dBmF1F2Date: 17.APR.2019 17:26:06 A 3DBRBW 3 kHz**VBW 10 kHz*1 RMMAXHSWT 1 s*TDFRef 25.5 dBmOffset 0.5 dBCenter824 MHzSpan1 MHz100 kHz/LVLAtt 20 dB*SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] -24.81 dBm 823.987179487 MHzD1 -13 dBmF1F2Date: 17.APR.2019 17:20:49 PCS 1900 LOW BAND EDGE BLOCK-A (PCS-1900)-Channel 512 No. I19Z60845-WMD01 Page59 of 68

(cid:10) HIGH BAND EDGE BLOCK-C (PCS-1900) Channel 810

(cid:10) Copyright. All rights reserved by CTTL. A 3DBRBW 3 kHz**VBW 10 kHz*1 RMMAXHSWT 1 s*TDFRef 25.8 dBmOffset 0.8 dBCenter1.915 GHzSpan1 MHz100 kHz/LVLAtt 20 dB*SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] -43.78 dBm 1.915309295 GHzD1 -13 dBmF1F2Date: 16.APR.2019 15:30:47 A 3DBRBW 3 kHz**VBW 10 kHz*1 RMMAXHSWT 1 s*TDFRef 25.8 dBmOffset 0.8 dBCenter1.85 GHzSpan1 MHz100 kHz/LVLAtt 20 dB*SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] -16.55 dBm 1.849996795 GHzD1 -13 dBmF1F2Date: 16.APR.2019 15:25:30 GPRS 1900 LOW BAND EDGE BLOCK-A (PCS-1900)-Channel 512 No. I19Z60845-WMD01 Page60 of 68

(cid:10) HIGH BAND EDGE BLOCK-C (PCS-1900) Channel 810

(cid:10) Copyright. All rights reserved by CTTL. A 3DBRBW 3 kHz**VBW 10 kHz*1 RMMAXHSWT 1 s*TDFRef 25.8 dBmOffset 0.8 dBCenter1.915 GHzSpan1 MHz100 kHz/LVLAtt 20 dB*SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] -44.16 dBm 1.915152244 GHzD1 -13 dBmF1F2Date: 16.APR.2019 16:26:31 A 3DBRBW 3 kHz**VBW 10 kHz*1 RMMAXHSWT 1 s*TDFRef 25.8 dBmOffset 0.8 dBCenter1.85 GHzSpan1 MHz100 kHz/LVLAtt 20 dB*SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] -18.07 dBm 1.849988782 GHzD1 -13 dBmF1F2Date: 16.APR.2019 16:21:14 EGPRS 1900-8PSK LOW BAND EDGE BLOCK-A (PCS-1900)-Channel 512 No. I19Z60845-WMD01 Page61 of 68

(cid:10) HIGH BAND EDGE BLOCK-C (PCS-1900) Channel 810

(cid:10) Copyright. All rights reserved by CTTL. A 3DBRBW 3 kHz**VBW 10 kHz*1 RMMAXHSWT 1 s*TDFRef 25.8 dBmOffset 0.8 dBCenter1.915 GHzSpan1 MHz100 kHz/LVLAtt 20 dB*SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] -44.23 dBm 1.915368590 GHzD1 -13 dBmF1F2Date: 17.APR.2019 17:37:17 A 3DBRBW 3 kHz**VBW 10 kHz*1 RMMAXHSWT 1 s*TDFRef 25.8 dBmOffset 0.8 dBCenter1.85 GHzSpan1 MHz100 kHz/LVLAtt 20 dB*SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] -26.21 dBm 1.849983974 GHzD1 -13 dBmF1F2Date: 17.APR.2019 17:32:01 No. I19Z60845-WMD01 Page62 of 68 A.7 CONDUCTED SPURIOUS EMISSION A.7.1 Measurement Method The following steps outline the procedure used to measure the conducted emissions from the EUT. 1. Determine frequency range for measurements: From CFR 2.1057 the spectrum should be investigated from the lowest radio frequency generated in the equipment up to at least the 10th harmonic of the carrier frequency. For the mobile station equipment tested, this equates to a frequency range of 13 MHz to 9 GHz, data taken from 10 MHz to 25 GHz. 2. Determine EUT transmit frequencies: below outlines the band edge frequencies pertinent to conducted emissions testing. 3. According to KDB 971168 6.0, the applicable rule part specifies the reference bandwidth for measuring unwanted emission levels (typically, 100 kHz if the authorized frequency band/block is at or below 1 GHz and 1 MHz if the authorized frequency band/block is above 1 GHz) GSM850 Transmitter Channel 128 190 251 PCS1900 Transmitter Channel 512 661 810 A. 7.2 Measurement Limit Frequency (MHz) 824.2 836.6 848.8 Frequency (MHz) 1850.2 1880.0 1909.8 Part 24.238 and Part 22.917 specify that the power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitting power (P) by a factor of at least 43 + 10 log(P) dB. The specification that emissions shall be attenuated below the transmitter power (P) by at least 43

+ 10 log (P) dB, translates in the relevant power range (1 to 0.001 W) to -13 dBm. At 1 W the specified minimum attenuation becomes 43 dB and relative to a 30 dBm (1 W) carrier becomes a limit of -13 dBm. At 0.001 W (0 dBm) the minimum attenuation is 13 dB, which again yields a limit of -13 dBm. In this way a translation of the specification from relative to absolute terms is carried out. Copyright. All rights reserved by CTTL. No. I19Z60845-WMD01 Page63 of 68 A.7.3 Measurement result A.7.3 Measurement result GSM850 Channel 128: 30MHz 8.49GHz Spurious emission limit 13dBm. NOTE: peak above the limit line is the carrier frequency.

(cid:10) Channel 190: 30MHz 8.49GHz Spurious emission limit 13dBm NOTE: peak above the limit line is the carrier frequency.

(cid:10) Copyright. All rights reserved by CTTL. A 3DBRBW 1 MHz*SWT 125 ms*VBW 3 MHzTDFRef 5.5 dBmOffset 0.5 dBStart30 MHzStop8.49 GHz846 MHz/LVLAtt 20 dB**1 RMVIEW-90-80-70-60-50-40-30-20-1001Marker 1 [T1 ] 35.04 dBm 824.112000000 MHzD1 -13 dBmDate: 16.APR.2019 15:31:53 A 3DBRBW 1 MHz*SWT 125 ms*VBW 3 MHzTDFRef 5.5 dBmOffset 0.5 dBStart30 MHzStop8.49 GHz846 MHz/LVLAtt 20 dB**1 RMVIEW-90-80-70-60-50-40-30-20-1001Marker 1 [T1 ] 34.81 dBm 836.520000000 MHzD1 -13 dBmDate: 16.APR.2019 15:32:08 Channel 251: 30MHz 8.49GMHz Spurious emission limit 13dBm. NOTE: peak above the limit line is the carrier frequency. No. I19Z60845-WMD01 Page64 of 68

(cid:10) Copyright. All rights reserved by CTTL. A 3DBRBW 1 MHz*SWT 125 ms*VBW 3 MHzTDFRef 5.5 dBmOffset 0.5 dBStart30 MHzStop8.49 GHz846 MHz/LVLAtt 20 dB**1 RMVIEW-90-80-70-60-50-40-30-20-1001Marker 1 [T1 ] 34.93 dBm 848.646000000 MHzD1 -13 dBmDate: 16.APR.2019 15:32:24 PCS1900 Channel 512: 30MHz 19.15GHz Spurious emission limit 13dBm. No. I19Z60845-WMD01 Page65 of 68 Channel 661: 30MHz 19.15GHz Spurious emission limit 13dBm

(cid:10)

(cid:10) Copyright. All rights reserved by CTTL. A 3DBRBW 1 MHz*SWT 125 ms*VBW 3 MHzTDFRef 5.8 dBmOffset 0.8 dBStart30 MHzStop19.15 GHz1.912 GHz/LVLAtt 20 dB**1 RMVIEW-90-80-70-60-50-40-30-20-1001Marker 1 [T1 ] 31.88 dBm 1.849586667 GHzD1 -13 dBmDate: 18.APR.2019 15:57:33 A 3DBRBW 1 MHz*SWT 125 ms*VBW 3 MHzTDFRef 5.8 dBmOffset 0.8 dBStart30 MHzStop19.15 GHz1.912 GHz/LVLAtt 20 dB**1 RMVIEW-90-80-70-60-50-40-30-20-1001Marker 1 [T1 ] 32.09 dBm 1.879541333 GHzD1 -13 dBmDate: 18.APR.2019 15:57:49 No. I19Z60845-WMD01 Page66 of 68 Channel 810: 30MHz 19.15GHz Spurious emission limit 13dBm

(cid:10) Copyright. All rights reserved by CTTL. A 3DBRBW 1 MHz*SWT 125 ms*VBW 3 MHzTDFRef 5.8 dBmOffset 0.8 dBStart30 MHzStop19.15 GHz1.912 GHz/LVLAtt 20 dB**1 RMVIEW-90-80-70-60-50-40-30-20-1001Marker 1 [T1 ] 32.09 dBm 1.909496000 GHzD1 -13 dBmDate: 18.APR.2019 15:58:10 No. I19Z60845-WMD01 Page67 of 68 A.8 PEAK-TO-AVERAGE POWER RATIO According to 24.232(d), the transmitters peak-to-average power ratio (PAPR) shall not exceed 13 dB for more than 0.1% of the time using a signal corresponding to the highest PAPR during periods of continuous transmission. According to KDB 971168:

a)Refer to instruments analyzer instruction manual for details on how to use the power statistics/CCDF function;

b) Set resolution/measurement bandwidth signals occupied bandwidth;

c) Set the number of counts to a value that stabilizes the measured CCDF curve;

d) Set the measurement interval to 1 ms e)Record the maximum PAPR level associated with a probability of 0.1%

A.8.1 Measurement limit not exceed 13 dB A.8.2 Measurement results PCS1900 GPRS1900 EGPRS1900(8PSK) Frequency(MHz) PAPR(dB) 1880.0 1880.0 1880.0 7.76 7.76 10.26 Copyright. All rights reserved by CTTL. ANNEX B: Accreditation Certificate No. I19Z60845-WMD01 Page68 of 68

***END OF REPORT***

Copyright. All rights reserved by CTTL.

 

 

TEST REPORT No. I19Z60845-WMD02 for amsung Electronics Co Ltd MULTI-BAND GSM/WCDMA/LTE PHONE WITH BLUETOOTH, WLAN Model Name: SM-T295C FCC ID: ZCASMT295C with Hardware Version: REV0.4 Software Version: T295CZCU0ASEA Issued Date: 2019-07-25 Note:

The test results in this test report relate only to the devices specified in this report. This report shall not be reproduced except in full without the written approval of CTTL. The report must not be used by the client to claim product certification, approval, or endorsement by NVLAP, NIST, or any agency of the U.S.Government. Test Laboratory:

CTTL, Telecommunication Technology Labs, CAICT No. 52, Huayuan North Road, Haidian District, Beijing, P. R. China 100191. Tel:+86(0)10-62304633-2512, Fax:+86(0)10-62304633-2504 Email: cttl_terminals@caict.ac.cn, website: www.caict.ac.cn No. I19Z60845-WMD02 Page 2of 45 REPORT HISTORY Report Number Revision I19Z60845-WMD02 I19Z60845-WMD02 Rev.0 Rev.1 Description 1st edition 2nd edition Issue Date 2019-07-17 2019-07-25 Removed all the results for WCDMA IV No. I19Z60845-WMD02 Page 3of 45 CONTENTS 1. TEST LABORATORY ......................................................................................................................... 4 1.1. INTRODUCTION & ACCREDITATION ...................................................................................... 4 1.2. TESTING LOCATION .................................................................................................................... 4 1.3. TESTING ENVIRONMENT ........................................................................................................... 4 1.4. PROJECT DATA .............................................................................................................................. 4 1.5. SIGNATURE ..................................................................................................................................... 5 2. CLIENT INFORMATION ................................................................................................................... 6 2.1. APPLICANT INFORMATION ....................................................................................................... 6 2.2. MANUFACTURER INFORMATION ............................................................................................ 6 3. EQUIPMENT UNDERTEST (EUT) AND ANCILLARY EQUIPMENT (AE) .............................. 7 3.1. ABOUT EUT ..................................................................................................................................... 7 3.2. INTERNAL IDENTIFICATION OF EUT USED DURING THE TEST .................................... 7 3.3. INTERNAL IDENTIFICATION OF AE USED DURING THE TEST ....................................... 7 3.4. NORMAL ACCESSORY SETTING ............................................................................................... 8 3.5. GENERAL DESCRIPTION ............................................................................................................ 8 4. REFERENCE DOCUMENTS ............................................................................................................. 9 4.1. REFERENCE DOCUMENTS FOR TESTING ............................................................................. 9 5. LABORATORY ENVIRONMENT ................................................................................................... 10 6. SUMMARY OF TEST RESULTS ...................................................................................................... 11 6.1. SUMMARY OF TEST RESULTS .................................................................................................. 11 6.2. EXPLANATION OF RE-USE OF TEST DATA .......................................................................... 12 7. TEST EQUIPMENTS UTILIZED .................................................................................................... 13 ANNEX A: MEASUREMENT RESULTS ................................................................................................ 14 A.1 OUTPUT POWER ........................................................................................................................... 14 A.2 EMISSION LIMIT ........................................................................................................................... 19 A.3 FREQUENCY STABILITY ............................................................................................................ 25 A.4 OCCUPIED BANDWIDTH ............................................................................................................ 27 A.5 EMISSION BANDWIDTH ............................................................................................................. 32 A.6 BAND EDGE COMPLIANCE ........................................................................................................ 36 A.7 CONDUCTED SPURIOUS EMISSION ......................................................................................... 39 A.8 PEAK-TO-AVERAGE POWER RATIO ......................................................................................... 44 ANNEX B: ACCREDITATION CERTIFICATE ..................................................................................... 45 No. I19Z60845-WMD02 Page 4of 45 1. Test Laboratory 1.1. Introduction & Accreditation Telecommunication Technology Labs, CAICT is an ISO/IEC 17025:2005 accredited test laboratory under NATIONAL VOLUNTARY LABORATORY ACCREDITATION PROGRAM (NVLAP) with lab code 600118-0, and is also an FCC accredited test laboratory (CN5017), and ISED accredited test laboratory (CN0066). The detail accreditation scope can be found on NVLAP website. 1.2. Testing Location Location 1: CTTL(huayuan North Road) Address:

No. 52, Huayuan North Road, Haidian District, Beijing, P. R. China 100191 Location 2: CTTL(Shouxiang) Address:

No. 51 Shouxiang Science Building, Xueyuan Road, Haidian District, Beijing, P. R. China 100191 Location 3:CTTL (BDA) Address:

No.18A, Kangding Street, Beijing Economic-Technology Development Area, Beijing, P. R. China 100176 1.3. Testing Environment Normal Temperature:

Relative Humidity:

15-35 20-75%

1.4. Project data Testing Start Date:

Testing End Date:

2019-04-15 2019-07-16 No. I19Z60845-WMD02 Page 5of 45 1.5. Signature Dong Yuan

(Prepared this test report) Zhou Yu

(Reviewed this test report) Zhao Hui Lin Deputy Director of the laboratory

(Approved this test report) No. I19Z60845-WMD02 Page 6of 45 2. Client Information 2.1. Applicant Information Company Name:

Samsung Electronics Co Ltd Address /Post:

19 Chapin Rd.,Building D Pine Brook, NJ 07058 Contact:

Email:

Telephone:

Fax:

Jenni Chun NA NA NA 2.2. Manufacturer Information Company Name:

Jiaxing Yongrui Electron Technology Co., Ltd. Address /Post:

Contact:

Email:

Telephone:

Fax:

NO.777 Yazhong Road, Daqiao Town, Nanhu District, Jiaxing City ,Zhejiang NA NA NA NA No. I19Z60845-WMD02 Page 7of 45 3. Equipment UnderTest (EUT) and Ancillary Equipment (AE) 3.1. About EUT Description MULTI-BAND GSM/WCDMA/LTE PHONE WITH BLUETOOTH, Model Name FCC ID Antenna WLAN SM-T295C ZCASMT295C Embedded Output power 24.28dBm maximum EIRP measured for WCDMA Band II Extreme vol. Limits 3.6VDC to 4.2VDC (nominal: 3.8VDC) Extreme temp. Tolerance

-10C to +55C Note: Components list, please refer to documents of the manufacturer; it is also included in the original test record of CTTL. 3.2. Internal Identification of EUT used during the test EUT ID*

IMEI HW Version SW Version Date of receipt UT05a 356221100013137 REV0.4 T295CZCU0ASEA 2019-05-16

*EUT ID: is used to identify the test sample in the lab internally. 3.3. Internal Identification of AE used during the test AE ID* Description AE1 AE2 Battery Battery AE1 Model Manufacturer Capacitance AE2 Model Manufacturer Capacitance SWD-WT-N8 Sunwoda Electronic Co., Ltd . 4980mAh SCUD-WT-N8 SCUD(Fujian) Electronic Co., Ltd. 4980mAh

*AE ID: is used to identify the test sample in the lab internally. No. I19Z60845-WMD02 Page 8of 45 3.4. Normal Accessory setting Fully charged battery was used during the test. 3.5. General Description The Equipment Under Test (EUT) is a model of MULTI-BAND GSM/WCDMA/LTE PHONE WITH BLUETOOTH, WLAN with embedded antenna. Manual and specifications of the EUT were provided to fulfil the test. No. I19Z60845-WMD02 Page 9of 45 4. Reference Documents 4.1. Reference Documents for testing The following documents listed in this section are referred for testing. Reference Title FCC Part 24 PERSONAL COMMUNICATIONS SERVICES FCC Part 22 PUBLIC MOBILE SERVICES ANSI/TIA-603-E Land Mobile FM or PM Communications Equipment Measurement and Performance Standards Version 10-1-18 Edition 10-1-18 Edition 2016 ANSI/TIA-102.CAAA DIGITAL C4FMCQPSK TRANSCEIVER MEASUREMENT 2016

-E METHODS ANSI C63.26 American National Standard for Compliance Testing of 2015 Transmitters Used in Licensed Radio Services KDB 971168 D01 MEASUREMENT GUIDANCE FOR CERTIFICATION OF v03r01 LICENSED DIGITAL TRANSMITTERS No. I19Z60845-WMD02 Page 10of 45 5. LABORATORY ENVIRONMENT Control room / conducted chamber did not exceed following limits along the EMC testing:

Temperature Relative humidity Shielding effectiveness Electrical insulation Min. = 15 , Max. = 35 Min. =20 %, Max. = 80 %

> 110 dB

>2 M Ground system resistance Fully-anechoic chamber 2 (8.6 meters6.1 meters3.85 meters) did not exceed following limits along the EMC testing:

< 0.5 Temperature Relative humidity Shielding effectiveness Electrical insulation Ground system resistance Min. = 15 , Max. = 30 Min. = 35 %, Max. = 60 %

> 110 dB

>2 M

< 1 Site voltage standing-wave ratio (SVSWR) Between 0 and 6 dB, from 1GHz to 18GHz Uniformity of field strength Semi-anechoic chamber 2 / Fully-anechoic chamber 3 (10 meters6.7 meters6.15 meters) did not exceed following limits along the EMC testing:

Between 0 and 6 dB, from 80 to 4000 MHz Temperature Relative humidity Shielding effectiveness Electrical insulation Ground system resistance Normalised site attenuation (NSA) Min. = 15 , Max. = 30 Min. = 35 %, Max. = 60 %

> 100 dB

>2 M

< 0.5

<3.5 dB, 3 m distance Site voltage standing-wave ratio (SVSWR) Between 0 and 6 dB, from 1GHz to 18GHz Uniformity of field strength Between 0 and 6 dB, from 80 to 3000 MHz No. I19Z60845-WMD02 Page 11of 45 6. SUMMARY OF !

6.1. Summary of test results WCDMA Band II Items Test Name 1 2 3 4 5 6 7 8 Output Power Emission Limit Frequency Stability Occupied Bandwidth Emission Bandwidth Band Edge Compliance Conducted Spurious Emission Peak-to-Average Power Ratio WCDMA Band V Items Test Name Output Power Emission Limit Frequency Stability Occupied Bandwidth Emission Bandwidth Band Edge Compliance Conducted Spurious Emission 1 2 3 4 5 6 7 Terms used in Verdict column Clause in FCC rules 24.232 2.1051/24.238 2.1055 2.1049 24.238 24.238 24.238 24.232 Clause in FCC rules 22.913 2.1051/22.917 2.1055 2.1049 22.917 22.917 22.917 Verdict BR BR BR BR BR BR BR BR Verdict P P BR BR BR BR BR P NP NA BR F Pass, The EUT complies with the essential requirements in the standard. Not Perform, The test was not performed by CTTL Not Applicable,The test was not applicable Re-use test data from basic model report. Fail, The EUT does not comply with the essential requirements in the standard No. I19Z60845-WMD02 Page 12of 45 6.2. Explanation of re-use of test data The Equipment Under Test (EUT) model SM-T295C (FCC ID: ZCASMT295C) is a variant product of SM-T295 (FCC ID: ZCASMT295), according to the declaration of changes provided by the applicant and FCC KDB publication 484596 D01, spot check measurements were performed on this device, all the test results are derived from test report No.I19Z60464-WMD02. Please refer Annex A for detail spot check verification data and reference data.the spot check test results are consistent with basic model. For detail differences between two models please refer the Declaration of Changes document. 7. Test Equipments Utilized No. I19Z60845-WMD02 Page 13of 45 NO. Description TYPE series number MANUFACTURE CAL DUE DATE Calibration interval 1 2 3 EMI Antenna VULB9163 9163-235 Schwarzbeck 2019-11-20 EMI Antenna EMI Antenna Universal Radio 3117 3117 00058889 ETS-Lindgren 2020-01-12 00119024 ETS-Lindgren 2020-02-25 1 year 1 year 1 year 4 Communication CMU200 108646 R&S 2020-01-03 1 year 5 6 7 8 9 Tester Spectrum Analyzer FSU26 200030 R&S 2020-06-03 1 year EMI Antenna 9117 177 Schwarzbeck 2019-08-22 Signal Generator SMF100A 101295 Climate chamber SH-242 93008556 Test Receiver E4440A MY48250642 R&S ESPEC Agilent 2019-11-27 2019-12-21 2020-03-18 1 year 1 year 2 year 1 year Universal Radio 10 Communication CMW500 143008 R&S 2019-11-26 1 year Tester 11 Power Amplifier 5S1G4 0341863 AR

/

No. I19Z60845-WMD02 Page 14of 45 ANNEX A: MEASUREMENT RESULTS A.1 OUTPUT POWER A.1.1 Summary During the process of testing, the EUT was controlled via communication tester to ensure max power transmission and proper modulation. This result contains peak output power and EIRP measurements for the EUT. In all cases, output power is within the specified limits. A.1.2 Conducted A.1.2.1 Method of Measurements The EUT was set up for the max output power with pseudo random data modulation. These measurements were done at 3 frequencies, 1852.4 MHz, 1880.0MHz and 1907.6MHz for WCDMA Band II;826.4MHz, 836.6MHz and 846.6MHz for WCDMA Band V. WCDMA Band II Measurement result-QPSK WCDMA

(Band II) CH 9262 9400 9538 Frequency(MHz) output power(dBm) 1852.4 1880.0 1907.6 23.39 23.41 23.44 WCDMA Band V Measurement result-QPSK WCDMA

(Band V) CH 4132 4183 4233 Frequency(MHz) output power(dBm) 826.4 836.6 846.6 23.50 23.60 23.48 No. I19Z60845-WMD02 Page 15of 45 A.1.3 Radiated A.1.3.1 Description This is the test for the maximum radiated power from the EUT. Rule Part 24.232(b) specifies, "Mobile/portable stations are limited to 2 watts e.i.r.p. Peak power"

and 24.232(c) specifies that "Peak transmit power must be measured over any interval of continuous transmission using instrumentation calibrated in terms of an rms-equivalent voltage."

Rule Part 22.913(a) specifies The ERP of mobile transmitters and auxiliary test transmitters must not exceed 7 Watts. A.1.3.2 Method of Measurement The measurements procedures in TIA-603E-2016 are used. 1. EUT was placed on a 1.5 meter high non-conductive stand at a 3 meter test distance from the receive antenna. A receiving antenna was placed on the antenna mast 3 meters from the EUT for emission measurements. The height of receiving antenna is 1.5m. The test setup refers to figure below. Detected emissions were maximized at each frequency by rotating the EUT through 360and adjusting the receiving antenna polarization. The radiated emission measurements of all transmit frequencies in three channels (High, Middle, Low) were measured with RMS detector. 2. The EUT is then put into continuously transmitting mode at its maximum power level during the test. And the maximum value of the receiver should be recorded as (Pr). 3. The EUT shall be replaced by a substitution antenna. The test setup refers to figure below. In the chamber, a substitution antenna for the frequency band of interest is placed at the reference point of the chamber. An RF Signal source for the frequency band of interest is connected to the substitution antenna with a cable that has been constructed to not interfere No. I19Z60845-WMD02 Page 16of 45 with the radiation pattern of the antenna. A power (PMea) is applied to the input of the substitution antenna, and adjusts the level of the signal generator output until the value of the receiver reach the previously recorded (Pr). The power of signal source (PMea) is recorded. The test should be performed by rotating the test item and adjusting the receiving antenna polarization. 4. An amplifier should be connected to the Signal Source output port. And the cable should be connecting between the Amplifier and the Substitution Antenna. The cable loss (Pcl) ,the Substitution Antenna Gain (Ga) and the Amplifier Gain (PAg) should be recorded after test. The measurement results are obtained as described below:

Power (EIRP)=PMea-PAg-Pcl -Ga 5. This value is EIRP since the measurement is calibrated using an antenna of known gain (2.15 dBi) and known input power. 6. ERP can be calculated from EIRP by subtracting the gain of the dipole, ERP = EIRP -2.15dBi. Spot check Measurement Results:

WCDMA Band V-ERP Limits WCDMA Band V Measurement result-QPSK No. I19Z60845-WMD02 Page 17of 45 Burst Peak ERP (dBm) 38.45dBm Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) ERP(dBm) Limit(dBm) Margin(dB) Polarization Correction

(dB) 826.40

-20.52 2.25 45.76 0.93 2.15 21.77 38.45 16.68 836.60

-20.10 2.26 45.66 0.82 2.15 21.97 38.45 16.48 846.60

-20.49 2.26 45.56 0.81 2.15 21.47 38.45 16.98 H H H ANALYZER SETTINGS: RBW = VBW = 5MHz Frequency: 826.40MHz Peak ERP(dBm)=PMea(-20.10dBm)-Pcl(2.26dB)-PAg(-45.66dB)-Ga (-0.82dB)-2.15dB= 21.97dBm No. I19Z60845-WMD02 Page 18of 45 Reference Measurement Results from basic model:

WCDMA Band II-EIRP Limits WCDMA Band II Measurement result-QPSK Burst Peak EIRP (dBm) 33dBm (2W) Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 1852.40

-22.50 2.84 43.75 4.87 23.28 33.00 9.72 1880.00

-21.94 2.85 43.75 4.82 23.78 33.00 9.22 1907.60

-21.38 2.88 43.77 4.77 24.28 33.00 8.72 H H H ANALYZER SETTINGS: RBW = VBW = 5MHz Frequency: 1907.60MHz Peak EIRP(dBm)=PMea(-21.38)-Pcl(2.88dB)-PAg(-43.77dB)-Ga (-4.77dB)= 24.28dBm WCDMA Band V-ERP Limits WCDMA Band V Measurement result-QPSK Burst Peak ERP (dBm) 38.45dBm Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) ERP(dBm) Limit(dBm) Margin(dB) Polarization Correction

(dB) 826.40

-21.02 2.25 45.76 0.93 2.15 21.27 38.45 17.18 836.60

-21.21 2.26 45.66 0.82 2.15 20.86 38.45 17.59 846.60

-21.81 2.26 45.56 0.81 2.15 20.15 38.45 18.30 H H H ANALYZER SETTINGS: RBW = VBW = 5MHz Frequency: 826.40MHz Peak ERP(dBm)=PMea(-21.02dBm)-Pcl(2.25dB)-PAg(-45.76dB)-Ga (-0.93dB)-2.15dB= 21.27dBm Note: Expanded measurement uncertainty is U = 2.84 dB, k = 2. No. I19Z60845-WMD02 Page 19of 45 A.2 EMISSION LIMIT A.2.1 Measurement Method The measurements procedures in TIA-603E-2016 are used. The spectrum was scanned from 30 MHz to the 10th harmonic of the highest frequency generated within the equipment. The resolution bandwidth is set as outlined in Part 24.238, Part 22.917. The spectrum was scanned with the mobile station transmitting at carrier frequencies that pertain to low, mid and high channels of WCDMA Band II and WCDMA Band V. The procedure of radiated spurious emissions is as follows:

1. EUT was placed on a 1.5 meter high non-conductive stand at a 3 meter test distance from the receive antenna. A receiving antenna was placed on the antenna mast 3 meters from the EUT for emission measurements. The height of receiving antenna is 1.5m. The test setup refers to figure below. Detected emissions were maximized at each frequency by rotating the EUT through 360and adjusting the receiving antenna polarization. The radiated emission measurements of all non-harmonic and harmonics of the transmit frequency through the 10th harmonic were measured with peak detector. 2. The EUT is then put into continuously transmitting mode at its maximum power level during the test. And the maximum value of the receiver should be recorded as (Pr). 3. The EUT shall be replaced by a substitution antenna. The test setup refers to figure below. In the chamber, a substitution antenna for the frequency band of interest is placed at the reference point of the chamber. An RF Signal source for the frequency band of interest is connected to the substitution antenna with a cable that has been constructed to not interfere with the radiation pattern of the antenna. A power (PMea) is applied to the input of the No. I19Z60845-WMD02 Page 20of 45 substitution antenna, and adjusts the level of thesignal generator output until the value of the receiver reach thepreviously recorded (Pr). The power of signal source (PMea) is recorded. The test should be performed by rotating the test item and adjusting the receiving antenna polarization. 4. The Path loss (Ppl) between the Signal Source with the Substitution Antenna and the Substitution Antenna Gain (Ga) should be recorded after test. A amplifier should be connected in for the test. The Path loss (Ppl) is the summation of the cable loss and the gain of the amplifier. The measurement results are obtained as described below:

Power (EIRP)=PMea-Ppl-Ga 5. This value is EIRP since the measurement is calibrated using an antenna of known gain (2.15 dBi) and known input power. 6. ERP can be calculated from EIRP by subtracting the gain of the dipole, ERP = EIRP -2.15dBi. A.2.2 Measurement Limit Part 24.238 and Part 22.917 specify that the power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitting power (P) by a factor of at least 43 + 10log(P) dB. The specification that emissions shall be attenuated below the transmitter power (P) by at least 43

+ 10 log (P) dB, translates in the relevant power range (1 to 0.001 W) to -13 dBm. At 1 W the specified minimum attenuation becomes 43 dB and relative to a 30 dBm (1 W) carrier becomes a limit of -13 dBm. At 0.001 W (0 dBm) the minimum attenuation is 13 dB, which again yields a limit of -13 dBm. In this way a translation of the specification from relative to absolute terms is carried out. A.2.3 Measurement Results Radiated emissions measurements were made only at the upper, middle, and lower carrier frequencies of WCDMA Band II (1852.4 MHz, 1880.0MHz and 1907.6MHz) and WCDMA Band V(826.4MHz, 836.6MHz and 846.6MHz). It was decided that measurements at these three carrier frequencies would be sufficient to demonstrate compliance with emissions limits because it was seen that all the significant spurs occur well outside the band and no radiation was seen from a carrier in one block of the WCDMA Band II and WCDMA Band V into any of the other blocks. The equipment must still, however, meet emissions requirements with the carrier at all frequencies over which it is capable of operating and it is the manufacturer's responsibility to verify this. A.2.4 Measurement Results Table Frequency Channel Frequency Range Result No. I19Z60845-WMD02 Page 21of 45 WCDMA Band V WCDMA Band II A.2.5 Sweep Table Working Frequency WCDMA Band V WCDMA Band II Low Middle High Low Middle High 30MHz-10GHz 30MHz-10GHz 30MHz-10GHz 30MHz-20GHz 30MHz-20GHz 30MHz-20GHz Pass Pass Pass Pass Pass Pass Subrange

(GHz) 0.03~1 1-2 2~5 5~8 8~10 0.03~1 1-2 2~5 5~8 8~11 11~14 14~18 18~20 RBW VBW Sweep time (s) 100KHz 300KHz 1 MHz 1 MHz 1 MHz 1 MHz 3 MHz 3 MHz 3 MHz 3 MHz 100KHz 300KHz 1 MHz 1 MHz 1 MHz 1 MHz 1 MHz 1 MHz 1 MHz 3 MHz 3 MHz 3 MHz 3 MHz 3 MHz 3 MHz 3 MHz 10 2 3 3 3 10 2 3 3 3 3 3 2 No. I19Z60845-WMD02 Page 22of 45 Spot check Measurement Results:

WCDMA BAND V Mode Channel 4132/826.4MHz Frequency(MHz) PMea(dBm) Path Antenna Correction Peak Limit Loss(dB) Gain(dBi)

(dB) ERP(dBm)

(dBm) Margin(dB) Polarization 1654.01 2479.00 3303.02 4102.02 4927.01 5765.01

-54.19

-53.51

-54.63

-55.50

-55.63

-54.84 3.57 4.60 5.29 6.04 6.73 7.24 5.22 6.04 7.73 9.00 9.83 10.55 2.15 2.15 2.15 2.15 2.15 2.15

-54.69

-13.00 41.69

-54.22

-13.00

-54.34

-13.00

-54.69

-13.00

-54.68

-13.00

-53.68

-13.00 41.22 41.34 41.69 41.68 40.68 H V H H V H WCDMA BAND V Mode Channel 4183/836.6MHz Frequency(MHz) PMea(dBm) Path Antenna Correction Peak Limit Loss(dB) Gain(dBi)

(dB) ERP(dBm)

(dBm) Margin(dB) Polarization 1675.01 2501.00 3336.02 4176.02 5005.01 5851.01

-53.67

-53.47

-54.55

-55.11

-56.14

-53.63 3.58 4.63 5.31 6.15 6.59 7.24 5.18 6.10 7.81 9.08 9.91 10.53 2.15 2.15 2.15 2.15 2.15 2.15

-54.22

-13.00

-54.15

-13.00

-54.20

-13.00

-54.33

-13.00

-54.97

-13.00

-52.49

-13.00 41.22 41.15 41.20 41.33 41.97 39.49 H H H V H V WCDMA BAND V Mode Channel 4233/846.6MHz Frequency(MHz) PMea(dBm) Path Antenna Correction Peak Limit Loss(dB) Gain(dBi)

(dB) ERP(dBm)

(dBm) Margin(dB) Polarization 1692.01 2546.00 3404.02 4256.02 5105.01 5940.01

-55.43

-52.51

-54.65

-56.17

-55.56

-52.74 3.59 4.66 5.37 6.23 6.79 7.47 5.15 6.18 7.97 9.16 10.05 10.51 2.15 2.15 2.15 2.15 2.15 2.15

-56.02

-13.00

-53.14

-13.00

-54.20

-13.00

-55.39

-13.00

-54.45

-13.00 43.02 40.14 41.20 42.39 41.45

-51.85

-13.00 38.85 H H V H V V No. I19Z60845-WMD02 Page 23of 45 Reference Measurement Results from basic model:

WCDMA BAND II Mode Channel 9262/1852.4MHz Frequency(MHz) PMea(dBm) Path Antenna Peak Loss(dB) Gain(dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 7406.01 9241.01 11131.01 12977.01 14817.00 16692.00

-54.96

-54.03

-51.89

-49.19

-45.79

-42.95 8.13 9.02 9.70 10.48 11.14 11.75 12.09 13.24 13.17 13.49 14.15 13.68

-51.00

-49.81

-48.42

-46.18

-42.78

-41.02

-13.00

-13.00

-13.00

-13.00

-13.00

-13.00 38.00 36.81 35.42 33.18 29.78 28.02 V V V H V V WCDMA BAND II Mode Channel 9400/1880MHz Frequency(MHz) PMea(dBm) Path Antenna Peak Loss(dB) Gain(dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 7515.01 9379.01 11261.01 13171.01 15024.00 16943.00

-55.08

-54.81

-51.86

-48.68

-45.70

-42.30 8.33 9.06 9.76 10.62 11.25 12.16 12.21 13.33 13.15 13.74 13.99 13.78

-51.20

-50.54

-48.47

-45.56

-42.96

-40.68

-13.00

-13.00

-13.00

-13.00

-13.00

-13.00 38.20 37.54 35.47 32.56 29.96 27.68 H V H V V H WCDMA BAND II Mode Channel 9538/1907.6MHz Frequency(MHz) PMea(dBm) Path Antenna Peak Loss(dB) Gain(dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 7645.01 9545.01 11455.01 13364.01 15275.00 17195.00

-54.75

-54.00

-51.23

-48.33

-45.76

-42.85 8.18 9.38 9.93 10.57 11.31 12.37 12.32 13.35 13.11 14.01 13.83 14.23

-50.61

-50.03

-48.05

-44.89

-43.24

-40.99

-13.00

-13.00

-13.00

-13.00

-13.00

-13.00 37.61 37.03 35.05 31.89 30.24 27.99 H H V H V H No. I19Z60845-WMD02 Page 24of 45 WCDMA BAND V Mode Channel 4132/826.4MHz Frequency(MHz) PMea(dBm) Path Antenna Correction Peak Limit Loss(dB) Gain(dBi)

(dB) ERP(dBm)

(dBm) Margin(dB) Polarization 1654.01 2463.00 3302.02 4118.02 4934.01 5762.01

-52.79

-52.92

-54.78

-55.15

-55.03

-52.79 3.57 4.59 5.29 6.04 6.72 7.25 5.22 5.99 7.72 9.02 9.83 10.55 2.15 2.15 2.15 2.15 2.15 2.15

-53.29

-13.00 40.29

-53.67

-13.00

-54.50

-13.00

-54.32

-13.00

-54.07

-13.00

-51.64

-13.00 40.67 41.50 41.32 41.07 38.64 H V H V V H WCDMA BAND V Mode Channel 4183/836.6MHz Frequency(MHz) PMea(dBm) Path Antenna Correction Peak Limit Loss(dB) Gain(dBi)

(dB) ERP(dBm)

(dBm) Margin(dB) Polarization 1675.01 2515.00 3342.02 4188.02 5021.01 5839.01

-52.08

-53.40

-54.34

-54.79

-54.94

-53.72 3.58 4.64 5.31 6.18 6.57 7.20 5.18 6.13 7.82 9.09 9.93 10.53 2.15 2.15 2.15 2.15 2.15 2.15

-52.63

-13.00

-54.06

-13.00

-53.98

-13.00

-54.03

-13.00

-53.73

-13.00

-52.54

-13.00 39.63 41.06 40.98 41.03 40.73 39.54 H H H H V V WCDMA BAND V Mode Channel 4233/846.6MHz Frequency(MHz) PMea(dBm) Path Antenna Correction Peak Limit Loss(dB) Gain(dBi)

(dB) ERP(dBm)

(dBm) Margin(dB) Polarization 1691.01 2545.00 3381.02 4244.02 5087.01 5933.01

-53.06

-52.59

-55.08

-54.71

-54.67

-52.04 3.59 4.66 5.35 6.25 6.74 7.47 5.16 6.18 7.91 9.14 10.02 10.51 2.15 2.15 2.15 2.15 2.15 2.15

-53.64

-13.00

-53.22

-13.00

-54.67

-13.00

-53.97

-13.00

-53.54

-13.00 40.64 40.22 41.67 40.97 40.54

-51.15

-13.00 38.15 H H V H H H Note: Expanded measurement uncertainty is U = 5.16 dB, k = 2. No. I19Z60845-WMD02 Page 25of 45 A.3 FREQUENCY STABILITY A.3.1 Method of Measurement In order to measure the carrier frequency under the condition of AFC lock, it is necessary to make measurements with the EUT in a call mode. This is accomplished with the use of R&S CMU200 DIGITAL RADIO COMMUNICATION TESTER. 1. Measure the carrier frequency at room temperature. 2. Subject the EUT to overnight soak at -10. 3. With the EUT, powered via nominal voltage, connected to the CMU200 and in a simulated call on mid channel of WCDMA Band II and WCDMA Band V, measure the carrier frequency. These measurements should be made within 2 minutes of Powering up the EUT, to prevent significant self-warming. 4. Repeat the above measurements at 10 increments from -10 to +50. Allow at least 1 1/2 hours at each temperature, unpowered, before making measurements. 5. Remeasure carrier frequency at room temperature with nominal voltage. Vary supply voltage from minimum voltage to maximum voltage, in 0.1Volt increments remeasuring carrier frequency at each voltage. Pause at nominal voltage for 1 1/2 hours unpowered, to allow any self-heating to stabilize, before continuing. 6. Subject the EUT to overnight soak at +50. 7. With the EUT, powered via nominal voltage, connected to the CMU200 and in a simulated call on the centre channel, measure the carrier frequency. These measurements should be made within 2 minutes of Powering up the EUT, to prevent significant self-warming. 8. Repeat the above measurements at 10 increments from -10 to +50. Allow at least 1 1/2 hours at each temperature, unpowered, before making measurements. 9. At all temperature levels hold the temperature to +/- 0.5 during the measurement procedure. The frequency stability shall be sufficient to ensure that the fundamental emission stays within the authorized frequency block. As this transceiver is considered "Hand carried, battery powered equipment" Section 2.1055(d)(2) applies. This requires that the lower voltage for frequency stability testing be specified by the manufacturer. This transceiver is specified to operate with an input voltage of between 3.6VDC and 4.2VDC, with a nominal voltage of 3.8VDC. Operation above or below these voltage limits is prohibited by transceiver software in order to prevent improper operation as well as to protect components from overstress. No. I19Z60845-WMD02 Page 26of 45 A.3.2 Measurement results WCDMA Band II Frequency Error vs Voltage-QPSK Voltage(V) Frequency error(Hz) Frequency error(ppm) 3.6 3.8 4.2

-4.04 3.68

-4.78 0.0021 0.0020 0.0025 Frequency Error vs Temperature-QPSK temperature() Frequency error(Hz) Frequency error(ppm)

-10 0 10 20 30 40 50

-3.19

-3.22 2.91

-1.80

-3.13

-2.17 2.64 0.0017 0.0017 0.0015 0.0010 0.0017 0.0012 0.0014 WCDMA Band V Frequency Error vs Voltage-QPSK Voltage(V) Frequency error(Hz) Frequency error(ppm) 3.6 3.8 4.2

-3.14 3.16 2.41 0.0038 0.0038 0.0029 Frequency Error vs Temperature-QPSK temperature() Frequency error(Hz) Frequency error(ppm)

-10 0 10 20 30 40 50 2.24

-2.82 1.74 1.72

-2.56

-1.80

-2.30 0.0027 0.0034 0.0021 0.0021 0.0031 0.0022 0.0027 No. I19Z60845-WMD02 Page 27of 45 A.4 OCCUPIED BANDWIDTH A.4.1 Occupied Bandwidth Results Occupied bandwidth measurements are only provided for selected frequencies in order to reduce the amount of submitted data. Data were taken at the extreme and mid frequencies of the US Cellular/PCS frequency bands. The table below lists the measured 99% BW. Spectrum analyzer plots are included on the following pages. The measurement method is from KDB 971168 4.2:

a) The spectrum analyzer center frequency is set to the nominal EUT channel center frequency. The frequency span for the spectrum analyzer shall be set wide enough to capture all modulation products including the emission skirts (i.e., two to five times the OBW). b) The nominal IF filter bandwidth (3 dB RBW) shall be in the range of 1 to 5 % of the anticipated OBW, and the VBW shall be at least 3 times the RBW. c) Set the reference level of the instrument as required to keep the signal from exceeding the maximum input mixer level for linear operation. In general, the peak of the spectral envelope must be at least 10log (OBW / RBW) below the reference level. d) Set the detection mode to peak, and the trace mode to max hold. e) Use the 99 % power bandwidth function of the spectrum analyzer and report the measured bandwidth. No. I19Z60845-WMD02 Page 28of 45 WCDMA Band II (99% BW)-QPSK Frequency(MHz) Occupied Bandwidth (99% BW)( KHz) 1852.4 1880.0 1907.6 4150.64 4134.62 4134.62 WCDMA Band II Channel 9262-Occupied Bandwidth (99% BW)

(cid:10) A *3DBRBW 50 kHz*VBW 200 kHzSWT 5 ms1 PKMAXHAtt 30 dBTDFRef 25.8 dBmOffset 0.8 dBCenter1.8524 GHzSpan10 MHz1 MHz/LVLSGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 18.54 dBm 1.851438462 GHzOBW 4.150641026 MHzT1Temp 1 [T1 OBW] 8.74 dBm 1.850332692 GHzT2Temp 2 [T1 OBW] 8.54 dBm 1.854483333 GHzDate: 18.APR.2019 10:11:35 Channel 9400-Occupied Bandwidth (99% BW) No. I19Z60845-WMD02 Page 29of 45

(cid:10) Channel 9538-Occupied Bandwidth (99% BW)

(cid:10) A *3DBRBW 50 kHz*VBW 200 kHzSWT 5 ms1 PKMAXHAtt 30 dBTDFRef 25.8 dBmOffset 0.8 dBCenter1.9076 GHzSpan10 MHz1 MHz/LVLSGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 18.50 dBm 1.906718590 GHzOBW 4.134615385 MHzT1Temp 1 [T1 OBW] 9.14 dBm 1.905532692 GHzT2Temp 2 [T1 OBW] 8.62 dBm 1.909667308 GHzDate: 18.APR.2019 10:13:58 A *3DBRBW 50 kHz*VBW 200 kHzSWT 5 ms1 PKMAXHAtt 30 dBTDFRef 25.8 dBmOffset 0.8 dBCenter1.88 GHzSpan10 MHz1 MHz/LVLSGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 18.55 dBm 1.880608974 GHzOBW 4.134615385 MHzT1Temp 1 [T1 OBW] 9.20 dBm 1.877932692 GHzT2Temp 2 [T1 OBW] 8.59 dBm 1.882067308 GHzDate: 18.APR.2019 10:12:47 No. I19Z60845-WMD02 Page 30of 45 WCDMA Band V(99% BW)-QPSK Frequency(MHz) Occupied Bandwidth (99% BW)( KHz) 826.4 836.6 846.6 4134.62 4134.62 4134.62 WCDMA Band V Channel 4132-Occupied Bandwidth (99% BW)

(cid:10) A *3DBRBW 50 kHz*VBW 200 kHzSWT 5 ms1 PKMAXHAtt 30 dBTDFRef 25.5 dBmOffset 0.5 dBCenter826.4 MHzSpan10 MHz1 MHz/LVLSGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 17.98 dBm 827.025000000 MHzOBW 4.134615385 MHzT1Temp 1 [T1 OBW] 8.16 dBm 824.348717949 MHzT2Temp 2 [T1 OBW] 7.90 dBm 828.483333333 MHzDate: 18.APR.2019 09:47:57 Channel 4183-Occupied Bandwidth (99% BW) No. I19Z60845-WMD02 Page 31of 45

(cid:10) Channel 4233-Occupied Bandwidth (99% BW)

(cid:10) A *3DBRBW 50 kHz*VBW 200 kHzSWT 5 ms1 PKMAXHAtt 30 dBTDFRef 25.5 dBmOffset 0.5 dBCenter846.6 MHzSpan10 MHz1 MHz/LVLSGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 17.52 dBm 845.654487179 MHzOBW 4.134615385 MHzT1Temp 1 [T1 OBW] 8.84 dBm 844.532692308 MHzT2Temp 2 [T1 OBW] 8.76 dBm 848.667307692 MHzDate: 18.APR.2019 09:50:20 A *3DBRBW 50 kHz*VBW 200 kHzSWT 5 ms1 PKMAXHAtt 30 dBTDFRef 25.5 dBmOffset 0.5 dBCenter836.6 MHzSpan10 MHz1 MHz/LVLSGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 17.50 dBm 835.622435897 MHzOBW 4.134615385 MHzT1Temp 1 [T1 OBW] 8.23 dBm 834.532692308 MHzT2Temp 2 [T1 OBW] 8.78 dBm 838.667307692 MHzDate: 18.APR.2019 09:49:09 No. I19Z60845-WMD02 Page 32of 45 A.5 EMISSION BANDWIDTH A.5.1Emission Bandwidth Results The emission bandwidth is defined as the width of the signal between two points, one below the carrier center frequency and one above the carrier center frequency, outside of which all emissions are attenuated at least 26 dB below the transmitter power. WCDMA Band II-QPSK Frequency(MHz) Emission Bandwidth ( KHz) 1852.4 1880.0 1907.6 WCDMA Band II Channel 9262-Emission Bandwidth 4711.54 4711.54 4711.54

(cid:10) A 3DBRBW 50 kHzSWT 5 ms*VBW 200 kHz*Att 30 dB*TDFRef 25.8 dBmOffset 0.8 dBCenter1.8524 GHzSpan10 MHz1 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 18.57 dBm 1.853025000 GHzndB [T1] 26.00 dB BW 4.711538462 MHzT1Temp 1 [T1 ndB] -7.79 dBm 1.850044231 GHzT2Temp 2 [T1 ndB] -8.11 dBm 1.854755769 GHzDate: 18.APR.2019 10:15:59 Channel 9400-Emission Bandwidth No. I19Z60845-WMD02 Page 33of 45 Channel 9538-Emission Bandwidth

(cid:10)

(cid:10) A 3DBRBW 50 kHzSWT 5 ms*VBW 200 kHz*Att 30 dB*TDFRef 25.8 dBmOffset 0.8 dBCenter1.9076 GHzSpan10 MHz1 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 18.27 dBm 1.906718590 GHzndB [T1] 26.00 dB BW 4.711538462 MHzT1Temp 1 [T1 ndB] -6.75 dBm 1.905244231 GHzT2Temp 2 [T1 ndB] -6.86 dBm 1.909955769 GHzDate: 18.APR.2019 10:18:23 A 3DBRBW 50 kHzSWT 5 ms*VBW 200 kHz*Att 30 dB*TDFRef 25.8 dBmOffset 0.8 dBCenter1.88 GHzSpan10 MHz1 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 18.41 dBm 1.880576923 GHzndB [T1] 26.00 dB BW 4.711538462 MHzT1Temp 1 [T1 ndB] -8.03 dBm 1.877644231 GHzT2Temp 2 [T1 ndB] -6.69 dBm 1.882355769 GHzDate: 18.APR.2019 10:17:11 No. I19Z60845-WMD02 Page 34of 45 WCDMA Band V-QPSK Frequency(MHz) Emission Bandwidth ( KHz) 826.40 836.60 846.60 WCDMA Band V Channel 4132-Emission Bandwidth 4727.56 4695.51 4695.51

(cid:10) A 3DBRBW 50 kHzSWT 5 ms*VBW 200 kHz*Att 30 dB*TDFRef 25.5 dBmOffset 0.5 dBCenter826.4 MHzSpan10 MHz1 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 18.02 dBm 827.025000000 MHzndB [T1] 26.00 dB BW 4.727564103 MHzT1Temp 1 [T1 ndB] -9.14 dBm 824.044230769 MHzT2Temp 2 [T1 ndB] -8.70 dBm 828.771794872 MHzDate: 18.APR.2019 09:52:21 Channel 4183-Emission Bandwidth No. I19Z60845-WMD02 Page 35of 45 Channel 4233-Emission Bandwidth

(cid:10)

(cid:10) A 3DBRBW 50 kHzSWT 5 ms*VBW 200 kHz*Att 30 dB*TDFRef 25.5 dBmOffset 0.5 dBCenter846.6 MHzSpan10 MHz1 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 17.71 dBm 847.192948718 MHzndB [T1] 26.00 dB BW 4.695512821 MHzT1Temp 1 [T1 ndB] -7.51 dBm 844.260256410 MHzT2Temp 2 [T1 ndB] -8.01 dBm 848.955769231 MHzDate: 18.APR.2019 09:54:45 A 3DBRBW 50 kHzSWT 5 ms*VBW 200 kHz*Att 30 dB*TDFRef 25.5 dBmOffset 0.5 dBCenter836.6 MHzSpan10 MHz1 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 17.56 dBm 835.622435897 MHzndB [T1] 26.00 dB BW 4.695512821 MHzT1Temp 1 [T1 ndB] -7.88 dBm 834.260256410 MHzT2Temp 2 [T1 ndB] -8.93 dBm 838.955769231 MHzDate: 18.APR.2019 09:53:33 No. I19Z60845-WMD02 Page 36of 45 A.6 BAND EDGE COMPLIANCE A.6.1 Measurement limit On any frequency outside frequency band of the US Cellular/PCS spectrum, the power of any emission shall be attenuated below the transmitter power (P, in Watts) by at least 43+10Log (P) dB. For all power levels +30 dBm to 0 dBm, this becomes a constant specification limit of -13 dBm. According to KDB 971168 6.0, a relaxation of the reference bandwidth is often provided for measurements within a specified frequency range at the edge of the authorized frequency block/band. This is often implemented by permitting the use of a narrower RBW (typically limited to a minimum RBW of 1% of the OBW) for measuring the out-of-band emissions without a requirement to integrate the result over the full reference bandwidth. A.6.2 Measurement result WCDMA Band II-QPSK LOW BAND EDGE BLOCK-A (WCDMA Band)-Channel 9262 No. I19Z60845-WMD02 Page 37of 45

(cid:10) HIGH BAND EDGE BLOCK-C (WCDMA Band) Channel 9538

(cid:10) A 3DBRBW 50 kHz**VBW 200 kHz*1 RMMAXHSWT 800 ms*TDFRef 25.8 dBmOffset 0.8 dBCenter1.915 GHzSpan5 MHz500 kHz/LVLAtt 20 dB*SGL-120-100-80-60-40-200201Marker 1 [T1 ] -35.93 dBm 1.916915064 GHzD1 -13 dBmF1F2Date: 18.APR.2019 10:19:52 A 3DBRBW 50 kHz**VBW 200 kHz*1 RMMAXHSWT 800 ms*TDFRef 25.8 dBmOffset 0.8 dBCenter1.85 GHzSpan5 MHz500 kHz/LVLAtt 20 dB*SGL-120-100-80-60-40-200201Marker 1 [T1 ] -23.83 dBm 1.849839744 GHzD1 -13 dBmF1F2Date: 18.APR.2019 10:19:32 WCDMA Band V-QPSK LOW BAND EDGE BLOCK-A (WCDMA Band )-Channel 4132 No. I19Z60845-WMD02 Page 38of 45

(cid:10) HIGH BAND EDGE BLOCK-C (WCDMA Band ) Channel 4233

(cid:10) A 3DBRBW 50 kHz**VBW 200 kHz*1 RMMAXHSWT 800 ms*TDFRef 25.5 dBmOffset 0.5 dBCenter849 MHzSpan5 MHz500 kHz/LVLAtt 20 dB*SGL-120-100-80-60-40-200201Marker 1 [T1 ] -25.44 dBm 849.000000000 MHzD1 -13 dBmF1F2Date: 18.APR.2019 09:56:13 A 3DBRBW 50 kHz**VBW 200 kHz*1 RMMAXHSWT 800 ms*TDFRef 25.5 dBmOffset 0.5 dBCenter824 MHzSpan5 MHz500 kHz/LVLAtt 20 dB*SGL-120-100-80-60-40-200201Marker 1 [T1 ] -24.19 dBm 824.000000000 MHzD1 -13 dBmF1F2Date: 18.APR.2019 09:55:54 No. I19Z60845-WMD02 Page 39of 45 A.7 CONDUCTED SPURIOUS EMISSION A.7.1 Measurement Method The following steps outline the procedure used to measure the conducted emissions from the EUT. 1. Determine frequency range for measurements: From CFR 2.1057 the spectrum should be investigated from the lowest radio frequency generated in the equipment up to at least the 10th harmonic of the carrier frequency. For the mobile station equipment tested, this equates to a frequency range of 13 MHz to 9 GHz, data taken from 10 MHz to 25 GHz. 2. Determine EUT transmit frequencies: below outlines the band edge frequencies pertinent to conducted emissions testing. 3. According to KDB 971168 6.0, the applicable rule part specifies the reference bandwidth for measuring unwanted emission levels (typically, 100 kHz if the authorized frequency band/block is at or below 1 GHz and 1 MHz if the authorized frequency band/block is above 1 GHz) WCDMA Band Transmitter Channel 9262 9400 9538 WCDMA Band V Transmitter Channel 4132 4183 4233 A. 7.2 Measurement Limit Frequency (MHz) 1852.40 1880.00 1907.60 Frequency (MHz) 826.40 836.60 846.60 Part 24.238 and Part 22.917 specify that the power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitting power (P) by a factor of at least 43 + 10 log(P) dB. The specification that emissions shall be attenuated below the transmitter power (P) by at least 43

+ 10 log (P) dB, translates in the relevant power range (1 to 0.001 W) to -13 dBm. At 1 W the specified minimum attenuation becomes 43 dB and relative to a 30 dBm (1 W) carrier becomes a limit of -13 dBm. At 0.001 W (0 dBm) the minimum attenuation is 13 dB, which again yields a limit of -13 dBm. In this way a translation of the specification from relative to absolute terms is carried out. No. I19Z60845-WMD02 Page 40of 45 A.7.3 Measurement result WCDMA Band II Channel 9262: 30MHz 19.15GHz Spurious emission limit 13dBm. Channel 9400: 30MHz 19.15GHz Spurious emission limit 13dBm.

(cid:10)

(cid:10) A 3DBRBW 1 MHz*SWT 125 ms*VBW 3 MHzTDFRef 5.8 dBmOffset 0.8 dBStart30 MHzStop19.15 GHz1.912 GHz/LVLAtt 20 dB**1 RMVIEW-90-80-70-60-50-40-30-20-1001Marker 1 [T1 ] 24.96 dBm 1.852773333 GHzD1 -13 dBmDate: 18.APR.2019 10:20:57 A 3DBRBW 1 MHz*SWT 125 ms*VBW 3 MHzTDFRef 5.8 dBmOffset 0.8 dBStart30 MHzStop19.15 GHz1.912 GHz/LVLAtt 20 dB**1 RMVIEW-90-80-70-60-50-40-30-20-1001Marker 1 [T1 ] 23.99 dBm 1.878266667 GHzD1 -13 dBmDate: 18.APR.2019 10:21:13 No. I19Z60845-WMD02 Page 41of 45 Channel 9538: 30MHz 19.15GHz Spurious emission limit 13dBm.

(cid:10) A 3DBRBW 1 MHz*SWT 125 ms*VBW 3 MHzTDFRef 5.8 dBmOffset 0.8 dBStart30 MHzStop19.15 GHz1.912 GHz/LVLAtt 20 dB**1 RMVIEW-90-80-70-60-50-40-30-20-1001Marker 1 [T1 ] 24.79 dBm 1.906309333 GHzD1 -13 dBmDate: 18.APR.2019 10:21:29 No. I19Z60845-WMD02 Page 42of 45 WCDMA Band V Channel 4132: 30MHz 8.49GHz Spurious emission limit 13dBm. Channel 4183: 30MHz 8.49GHz Spurious emission limit 13dBm.

(cid:10)

(cid:10) A 3DBRBW 1 MHz*SWT 125 ms*VBW 3 MHzTDFRef 5.5 dBmOffset 0.5 dBStart30 MHzStop8.49 GHz846 MHz/LVLAtt 20 dB**1 RMVIEW-90-80-70-60-50-40-30-20-1001Marker 1 [T1 ] 24.54 dBm 826.932000000 MHzD1 -13 dBmDate: 18.APR.2019 09:57:19 A 3DBRBW 1 MHz*SWT 125 ms*VBW 3 MHzTDFRef 5.5 dBmOffset 0.5 dBStart30 MHzStop8.49 GHz846 MHz/LVLAtt 20 dB**1 RMVIEW-90-80-70-60-50-40-30-20-1001Marker 1 [T1 ] 24.41 dBm 837.084000000 MHzD1 -13 dBmDate: 18.APR.2019 09:57:34 No. I19Z60845-WMD02 Page 43of 45 Channel 4233: 30MHz 8.49GHz Spurious emission limit 13dBm.

(cid:10) A 3DBRBW 1 MHz*SWT 125 ms*VBW 3 MHzTDFRef 5.5 dBmOffset 0.5 dBStart30 MHzStop8.49 GHz846 MHz/LVLAtt 20 dB**1 RMVIEW-90-80-70-60-50-40-30-20-1001Marker 1 [T1 ] 24.30 dBm 845.262000000 MHzD1 -13 dBmDate: 18.APR.2019 09:57:50 No. I19Z60845-WMD02 Page 44of 45 A.8 PEAK-TO-AVERAGE POWER RATIO The peak-to-average power ratio (PAPR) of the transmitter output power must not exceed 13 dB. The PAPR measurements should be made using either an instrument with complementary cumulative distribution function (CCDF) capabilities to determine that PAPR will not exceed 13 dB for more than 0.1 percent of the time or other Commission approved procedure. The measurement must be performed using a signal corresponding to the highest PAPR expected during periods of continuous transmission. According to KDB 971168:

a)Refer to instruments analyzer instruction manual for details on how to use the power statistics/CCDF function;

b) Set resolution/measurement bandwidth signals occupied bandwidth;

c) Set the number of counts to a value that stabilizes the measured CCDF curve;

d) Set the measurement interval to 1 ms e)Record the maximum PAPR level associated with a probability of 0.1%

A.8.1 Measurement limit not exceed 13 dB A.8.2 Measurement results WCDMA Band II-QPSK Measurement result CH 9400 Frequency(MHz) PAPR(dB) 1880.0 3.88 No. I19Z60845-WMD02 Page 45of 45 ANNEX B: Accreditation Certificate

***END OF REPORT***

 

 

TEST REPORT No. I19Z60845-WMD03 for Samsung Electronics Co Ltd MULTI-BAND GSM/WCDMA/LTE PHONE WITH BLUETOOTH, WLAN Model Name: SM-T295C FCC ID: ZCASMT295C with Hardware Version: REV0.4 Software Version: T295CZCU0ASEA Issued Date: 2019-07-17 Note:

The test results in this test report relate only to the devices specified in this report. This report shall not be reproduced except in full without the written approval of CTTL. The report must not be used by the client to claim product certification, approval, or endorsement by NVLAP, NIST, or any agency of the U.S.Government. Test Laboratory:

CTTL, Telecommunication Technology Labs, CAICT No. 52, Huayuan North Road, Haidian District, Beijing, P. R. China 100191. Tel:+86(0)10-62304633-2512, Fax:+86(0)10-62304633-2504 Email: cttl_terminals@caict.ac.cn, website: www.caict.ac.cn Copyright. All rights reserved by CTTL No. I19Z60845-WMD03 Page 2 of 112 REPORT HISTORY Report Number Revision I19Z60845-WMD03 Rev.0 Description 1st edition Issue Date 2019-07-17 Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 3 of 112 CONTENTS 1. TEST LABORATORY ............................................................................................................... 4 1.1. INTRODUCTION & ACCREDITATION ................................................................................. 4 1.2. TESTING LOCATION ........................................................................................................... 4 1.3. TESTING ENVIRONMENT ................................................................................................... 4 1.4. PROJECT DATA ................................................................................................................... 4 1.5. SIGNATURE .......................................................................................................................... 5 2. CLIENT INFORMATION ........................................................................................................... 6 2.1. APPLICANT INFORMATION ................................................................................................ 6 2.2. MANUFACTURER INFORMATION ...................................................................................... 6 3. EQUIPMENT UNDER TEST (EUT) AND ANCILLARY EQUIPMENT (AE) ............................ 7 3.1. ABOUT EUT .......................................................................................................................... 7 3.2. INTERNAL IDENTIFICATION OF EUT USED DURING THE TEST ................................... 7 3.3. INTERNAL IDENTIFICATION OF AE USED DURING THE TEST ...................................... 7 3.4. GENERAL DESCRIPTION ................................................................................................... 7 4. REFERENCE DOCUMENTS .................................................................................................... 8 4.1. REFERENCE DOCUMENTS FOR TESTING....................................................................... 8 5. LABORATORY ENVIRONMENT .............................................................................................. 9 6. SUMMARY OF TEST RESULT .............................................................................................. 10 6.1. SUMMARY OF TEST RESULTS ........................................................................................ 10 6.2. EXPLANATION OF RE-USE OF TEST DATA ................................................................... 11 6.3. STATEMENTS ..................................................................................................................... 11 7. TEST EQUIPMENTS UTILIZED ............................................................................................. 12 ANNEX A: MEASUREMENT RESULTS ....................................................................................... 13 A.1 OUTPUT POWER .............................................................................................................. 13 A.2 EMISSION LIMIT ................................................................................................................ 32 A.3 FREQUENCY STABILITY .................................................................................................. 39 A.4 OCCUPIED BANDWIDTH .................................................................................................. 42 A.5 EMISSION BANDWIDTH ................................................................................................... 67 A.6 BAND EDGE COMPLIANCE .............................................................................................. 92 A.7 CONDUCTED SPURIOUS EMISSION ............................................................................ 108 A.8 PEAK-TO-AVERAGE POWER RATIO .............................................................................. 111 ANNEX B: ACCREDITATION CERTIFICATE ............................................................................. 112 Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 4 of 112 1. Test Laboratory 1.1. Introduction & Accreditation Telecommunication Technology Labs, CAICT is an ISO/IEC 17025:2005 accredited test laboratory under NATIONAL VOLUNTARY LABORATORY ACCREDITATION PROGRAM (NVLAP) with lab code 600118-0, and is also an FCC accredited test laboratory (CN5017), and ISED accredited test laboratory (CN0066). The detail accreditation scope can be found on NVLAP website. 1.2. Testing Location Location 1: CTTL(huayuan North Road) Address:

No. 52, Huayuan North Road, Haidian District, Beijing, P. R. China 100191 Location 2: CTTL(Shouxiang) Address:

No. 51 Shouxiang Science Building, Xueyuan Road, Haidian District, Beijing, P. R. China 100191 Location 3:CTTL (BDA) Address:

No.18A, Kangding Street, Beijing Economic-Technology Development Area, Beijing, P. R. China 100176 1.3. Testing Environment Normal Temperature:

Relative Humidity:

15-35 20-75%

1.4. Project data Testing Start Date:

Testing End Date:

2019-04-15 2019-07-16 Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 5 of 112 1.5. Signature Dong Yuan

(Prepared this test report) Zhou Yu

(Reviewed this test report) Zhao Hui Lin Deputy Director of the laboratory

(Approved this test report) Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 6 of 112 2. Client Information 2.1. Applicant Information Company Name:

Samsung Electronics Co Ltd Address /Post:

19 Chapin Rd.,Building D Pine Brook, NJ 07058 Contact:

Email:

Telephone:

Fax:

Jenni Chun NA NA NA 2.2. Manufacturer Information Company Name:

Jiaxing Yongrui Electron Technology Co., Ltd. Address /Post:

Contact:

Email:

Telephone:

Fax:

NO.777 Yazhong Road, Daqiao Town, Nanhu District, Jiaxing City ,Zhejiang NA NA NA NA Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 7 of 112 3. Equipment Under Test (EUT) and Ancillary Equipment (AE) 3.1. About EUT Description MULTI-BAND GSM/WCDMA/LTE PHONE WITH BLUETOOTH, Model Name FCC ID Antenna WLAN SM-T295C ZCASMT295C Embedded Output power 28.48dBm maximum EIRP measured for LTE Band 7 Extreme vol. Limits 3.6VDC to 4.2VDC (nominal: 3.8VDC) Extremetemp. Tolerance

-10C to +55C Note: Components list, please refer to documents of the manufacturer; it is also included in the original test record of CTTL. 3.2. Internal Identification of EUT used during the test EUT ID*

HW Version IMEI SW Version Date of receipt UT16a 356221100013095 REV0.4 T295CZCU0ASEA UT05a 356221100013137 REV0.4 T295CZCU0ASEA 2019-05-09 2019-05-16

*EUT ID: is used to identify the test sample in the lab internally. 3.3. Internal Identification of AE used during the test AE ID* Description AE1 AE2 Battery Battery AE1 Model Manufacturer Capacitance AE2 Model Manufacturer Capacitance SWD-WT-N8 Sunwoda Electronic Co., Ltd . 4980mAh SCUD-WT-N8 SCUD(Fujian) Electronic Co., Ltd. 4980mAh

*AE ID: is used to identify the test sample in the lab internally. 3.4. General Description The Equipment Under Test (EUT) is a model of MULTI-BAND GSM/WCDMA/LTE PHONE WITH BLUETOOTH, WLAN with embedded antenna. Manual and specifications of the EUT were provided to fulfil the test. Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 8 of 112 4. Reference Documents 4.1. Reference Documents for testing The following documents listed in this section are referred for testing. Reference Title FCC Part 22 PUBLIC MOBILE SERVICES Version 10-1-18 Edition FCC Part 27 MISCELLANEOUS WIRELESS COMMUNICATIONS 10-1-18 SERVICES ANSI/TIA-603-E Land Mobile FM or PM Communications Equipment Measurement and Performance Standards Edition 2016 ANSI/TIA-102.CAAA DIGITAL C4FMCQPSK TRANSCEIVER MEASUREMENT 2016

-E METHODS ANSI C63.26 American National Standard for Compliance Testing of 2015 Transmitters Used in Licensed Radio Services KDB 971168 D01 MEASUREMENT GUIDANCE FOR CERTIFICATION OF v03r01 LICENSED DIGITAL TRANSMITTERS Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 9 of 112 5. LABORATORY ENVIRONMENT Control room / conducted chamber did not exceed following limits along the EMC testing:

Temperature Relative humidity Shielding effectiveness Electrical insulation Min. = 15 , Max. = 35 Min. =20 %, Max. = 80 %

> 110 dB

> 2 M Ground system resistance Fully-anechoic chamber 2 (8.6 meters6.1 meters3.85 meters) did not exceed following limits

< 0.5 along the EMC testing:

Temperature Relative humidity Shielding effectiveness Electrical insulation Ground system resistance Min. = 15 , Max. = 30 Min. = 35 %, Max. = 60 %

> 110 dB

> 2 M

< 1 Site voltage standing-wave ratio (SVSWR) Between 0 and 6 dB, from 1GHz to 18GHz Uniformity of field strength Fully-anechoic chamber FAC-3 (9 meters6.5 meters4 meters) did not exceed following limits Between 0 and 6 dB, from 80 to 4000 MHz along the EMC testing:

Temperature Relative humidity Shielding effectiveness Min. = 15 , Max. = 35 Min. = 15 %, Max. = 75 %

0.014MHz - 1MHz, >60dB;

1MHz - 1000MHz, >90dB. Electrical insulation Ground system resistance

> 2 M

< 4 Site voltage standing-wave ratio (SVSWR) Between 0 and 6 dB, from 1GHz to 18GHz Uniformity of field strength Between 0 and 6 dB, from 80 to 4000 MHz Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 10 of 112 6. SUMMARY OF TEST RESULT 6.1. Summary of test results LTE Band 5 Items Test Name 1 2 3 4 5 6 7 Output Power Emission Limit Frequency Stability Occupied Bandwidth Emission Bandwidth Band Edge Compliance Conducted Spurious Emission LTE Band 7 Items Test Name 1 2 3 4 5 6 7 8 Output Power Emission Limit Frequency Stability Occupied Bandwidth Emission Bandwidth Band Edge Compliance Conducted Spurious Emission Peak-to-Average Power Ratio LTE Band 41 Items Test Name 1 2 3 4 5 6 7 8 Output Power Emission Limit Frequency Stability Occupied Bandwidth Emission Bandwidth Band Edge Compliance Conducted Spurious Emission Peak-to-Average Power Ratio Clause in FCC rules 22.913 2.1051/22.917 2.1055 2.1049 22.917 22.917 22.917 Clause in FCC rules 27.50 2.1051/27.53 2.1055 2.1049 27.53 27.53 27.53 27.50 Clause in FCC rules 27.50 2.1051/27.53 2.1055 2.1049 27.53 27.53 27.53 27.50 Verdict P P BR BR BR BR BR Verdict BR BR BR BR BR BR BR BR Verdict P P P P P P P P Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 11 of 112 Terms used in Verdict column P NP NA BR F Pass, The EUT complies with the essential requirements in the standard. Not Perform, The test was not performed by CTTL Not Applicable,The test was not applicable Re-use test data from basic model report. Fail, The EUT does not comply with the essential requirements in the standard 6.2. Explanation of re-use of test data The Equipment Under Test (EUT) model SM-T295C (FCC ID: ZCASMT295C) is a variant product of SM-T295 (FCC ID: ZCASMT295), according to the declaration of changes provided by the applicant and FCC KDB publication 484596 D01, spot check measurements were performed on this device, all the test results are derived from test report No.I19Z60464-WMD03. Please refer Annex A for detail spot check verification data and reference data.the spot check test results are consistent with basic model. For detail differences between two models please refer the Declaration of Changes document. 6.3. Statements The test cases listed in section 6.1 of this report for the EUT specified in section 3 were performed by CTTL according to the standards or reference documents in section 4.1 The EUT met all applicable requirements of the standards or reference documents in section 4.1. This report only deals with the LTE functions among the features described in section 3. Copyright. All rights reserved by CTTL. 7. Test Equipments Utilized No. I19Z60845-WMD03 Page 12 of 112 NO. Description TYPE series number MANUFACTURE CAL DUE DATE Calibration interval 1 2 3 EMI Antenna VULB9163 9163-235 Schwarzbeck 2019-11-20 EMI Antenna EMI Antenna Universal Radio 3117 3117 00058889 ETS-Lindgren 2020-01-12 00119024 ETS-Lindgren 2020-02-25 1 year 1 year 1 year 4 Communication CMW500 159082 R&S 2019-12-25 1 year Tester Spectrum Analyzer FSU26 200030 R&S 2020-06-03 1 year EMI Antenna 9117 177 Schwarzbeck 2019-08-22 Signal Generator SMF100A 101295 R&S 2019-11-27 Climate chamber SH-242 93008556 ESPEC 2019-12-21 1 year 1 year 2 year Universal Radio Communication MT8821C 6201623363 Anritsu 2019-07-21 1 year 5 6 7 8 9 Tester Radio 10 Communication MT8821C 6201763159 Anritsu 2019-07-18 1 year Analyzer 11 Test Receiver E4440A MY48250642 Agilent 2020-03-18 1 year Universal Radio 12 Communication CMW500 143008 R&S 2019-11-26 1 year Tester 13 Power Amplifier 5S1G4 0341863 AR

/

Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 13 of 112 ANNEX A: MEASUREMENT RESULTS A.1 OUTPUT POWER A.1.1 Summary During the process of testing, the EUT was controlled via Rhode & Schwarz Digital Radio Communication tester (CMW500) to ensure max power transmission and proper modulation. In all cases, output power is within the specified limits. A.1.2 Conducted A.1.2.1 Method of Measurements The EUT was set up for the max output power with pseudo random data modulation. These measurements were done at 3 frequencies (bottom, middle and top of operational frequency range) for each bandwidth. A.1.2.2 Measurement result LTE band 5 Bandwidth RB size/offset Frequency (MHz) 1 RB high 1 RB low 1.4MHz 50% RB mid 100% RB 1 RB high 3MHz 1 RB low 50% RB mid 848.3 836.5 824.7 848.3 836.5 824.7 848.3 836.5 824.7 848.3 836.5 824.7 847.5 836.5 825.5 847.5 836.5 825.5 847.5 836.5 825.5 Power(dBm) QPSK 16QAM 64QAM 23.46 22.38 21.61 23.21 22.24 21.51 23.09 22.25 21.27 23.47 22.42 21.13 23.17 22.20 21.63 23.15 22.03 21.73 23.49 22.67 21.14 23.36 22.61 21.81 23.33 22.43 21.65 22.34 21.37 20.76 22.33 21.19 20.59 22.40 21.06 20.66 23.47 22.40 21.57 23.60 22.93 21.48 23.16 22.45 21.29 23.46 22.52 21.14 23.40 22.11 21.62 23.25 22.24 21.73 22.36 21.21 20.61 22.37 21.37 20.74 22.33 21.29 20.66 Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 14 of 112 100% RB 1 RB high 1 RB low 5MHz 50% RB mid 100% RB 1 RB high 1 RB low 50% RB mid 100% RB 10MHz 847.5 836.5 825.5 846.5 836.5 826.5 846.5 836.5 826.5 846.5 836.5 826.5 846.5 836.5 826.5 844.0 836.5 829.0 844.0 836.5 829.0 844.0 836.5 829.0 844.0 836.5 829.0 22.42 21.41 20.84 22.38 21.40 20.56 22.36 21.35 20.57 23.21 22.05 21.54 23.43 22.08 21.46 22.97 22.21 21.30 23.20 21.87 21.19 23.34 21.91 21.72 23.04 22.33 21.76 22.45 21.50 20.54 22.47 21.36 20.72 22.45 21.36 20.64 22.27 21.36 20.75 22.40 21.55 20.55 22.35 21.34 20.62 23.37 22.12 21.60 23.15 22.40 21.46 23.06 22.16 21.31 23.54 22.47 21.20 23.09 22.24 21.69 23.34 22.33 21.79 22.42 21.58 20.58 22.38 21.41 20.70 22.35 21.26 20.63 22.48 21.33 20.81 22.35 21.33 20.61 22.27 21.27 20.62 Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 15 of 112 LTE band 7 Bandwidth RB size/offset Frequency (MHz) 1 RB high 1 RB low 5MHz 50% RB mid 100% RB 1 RB high 1 RB low 10MHz 50% RB mid 100% RB 1 RB high 1 RB low 15MHz 2567.5 2535 2502.5 2567.5 2535 2502.5 2567.5 2535 2502.5 2567.5 2535 2502.5 2565 2535 2505 2565 2535 2505 2565 2535 2505 2565 2535 2505 2562.5 2535 2507.5 2562.5 2535 2507.5 2562.5 Power(dBm) QPSK 16QAM 64QAM 22.69 22.42 21.55 22.63 21.39 21.58 22.73 21.95 21.72 22.72 21.94 21.54 22.74 21.33 21.51 22.97 21.71 21.60 22.25 21.10 20.84 22.02 21.07 20.61 22.14 21.05 20.92 22.13 20.96 20.53 21.94 21.02 20.55 22.13 21.14 20.75 23.07 22.83 21.53 22.71 22.18 21.61 22.66 21.35 21.77 22.95 22.75 21.50 22.74 22.04 21.44 22.84 21.52 21.59 22.09 21.27 20.92 21.87 21.00 20.59 22.15 21.12 20.95 22.00 21.11 20.55 21.86 20.75 20.54 22.08 21.01 20.75 22.82 22.08 21.51 22.67 22.12 21.61 22.74 21.37 21.73 22.84 22.13 21.52 22.79 22.22 21.45 22.78 21.53 21.62 21.95 20.89 20.88 50% RB mid 2535 21.87 20.88 20.66 2507.5 2562.5 22.03 21.07 20.93 21.79 20.89 20.53 100% RB 2535 21.79 20.77 20.53 2507.5 21.91 20.96 20.76 20MHz 1 RB high 2560 22.84 21.80 21.56 Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 16 of 112 2535 2510 2560 2535 2510 2560 2535 2510 2560 2535 2510 23.11 21.01 21.64 22.93 22.05 21.76 22.73 21.32 21.54 22.95 21.02 21.51 22.97 22.12 21.58 22.04 20.98 20.91 21.91 20.85 20.62 22.00 21.03 20.94 21.89 20.89 20.54 21.82 20.78 20.56 21.87 20.87 20.79 1 RB low 50% RB mid 100% RB Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 17 of 112 LTE band 41 Bandwidth RB size/offset Frequency (MHz) 1 RB high 1 RB low 5MHz 50% RB mid 100% RB 1 RB high 1 RB low 50% RB mid 100% RB 10MHz 15MHz 1 RB high 1 RB low 2652.5 2613.5 2575.5 2537.5 2652.5 2613.5 2575.5 2537.5 2652.5 2613.5 2575.5 2537.5 2652.5 2613.5 2575.5 2537.5 2650 2612 2576 2540 2650 2612 2576 2540 2650 2612 2576 2540 2650 2612 2576 2540 2647.5 2612.5 2577.5 2542.5 2647.5 Power(dBm) QPSK 16QAM 64QAM 22.83 21.73 20.19 22.64 22.13 20.25 23.32 21.34 20.31 23.03 21.89 20.91 22.97 21.66 20.23 22.67 21.70 20.68 23.32 21.58 20.38 23.32 22.06 20.55 22.20 21.06 19.95 21.95 21.08 20.06 22.40 21.33 20.15 22.26 21.22 20.26 22.02 20.76 20.17 21.94 20.89 20.27 22.31 21.30 20.31 22.20 21.02 20.34 22.90 21.37 20.13 22.92 22.75 20.41 23.16 22.48 20.30 22.98 21.52 20.62 22.85 21.23 20.37 22.80 22.19 20.31 23.27 22.45 20.48 22.92 21.53 20.55 21.97 21.02 20.28 21.96 20.95 20.45 22.41 21.47 20.18 22.32 21.33 20.30 22.02 20.98 19.92 21.82 20.97 20.05 22.26 21.15 20.18 22.11 21.03 20.14 22.86 21.31 20.36 22.89 22.01 20.33 22.99 22.31 20.25 22.83 21.55 20.60 22.87 21.43 20.45 Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 18 of 112 50% RB mid 100% RB 1 RB high 1 RB low 50% RB mid 100% RB 20MHz 2612.5 2577.5 2542.5 2647.5 2612.5 2577.5 2542.5 2647.5 2612.5 2577.5 2542.5 2645 2611 2578 2545 2645 2611 2578 2545 2645 2611 2578 2545 2645 2611 2578 2545 22.68 21.58 20.30 23.05 22.53 20.49 22.98 21.50 20.61 22.04 21.05 20.16 21.87 20.96 20.02 22.25 21.12 20.11 22.15 21.15 20.11 22.05 21.07 19.94 21.82 20.96 20.08 22.23 21.20 20.02 22.04 20.97 20.10 23.18 22.17 20.12 23.05 21.55 20.30 22.85 21.38 20.32 23.20 22.44 20.59 23.25 22.31 20.49 22.94 21.74 20.33 22.72 21.55 20.49 23.21 22.52 20.68 21.90 21.20 20.23 21.97 21.01 20.28 22.23 21.18 20.17 22.14 21.15 20.21 22.10 21.03 20.16 21.87 20.90 20.13 22.31 21.23 20.16 22.01 21.05 20.16 Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 19 of 112 A.1.3 Radiated A.1.3.1 Description This is the test for the maximum radiated power from the EUT. Rule Part 22.913(a) specifies Mobile stations are limited to 2.0 watts EIRP.. Rule Part 27.50(h)(2) specifies Mobile stations are limited to 2.0 watts EIRP.. A.1.3.2 Method of Measurement The measurements procedures in TIA-603E-2016 are used. 1. EUT was placed on a 1.5 meter high non-conductive stand at a 3 meter test distance from the receive antenna. A receiving antenna was placed on the antenna mast 3 meters from the EUT for emission measurements. The height of receiving antenna is 1.5m. The test setup refers to figure below. Detected emissions were maximized at each frequency by rotating the EUT through 360 and adjusting the receiving antenna polarization. The radiated emission measurements of all transmit frequencies in three channels (High, Middle, Low) were measured with RMS detector. 2. The EUT is then put into continuously transmitting mode at its maximum power level during the test. And the maximum value of the receiver should be recorded as (Pr). 3. The EUT shall be replaced by a substitution antenna. The test setup refers to figure below. In the chamber, a substitution antenna for the frequency band of interest is placed at the reference point of the chamber. An RF signal source for the frequency band of interest is connected to the substitution antenna with a cable that has been constructed to not interfere with the radiation pattern of the antenna. A power (PMea) is applied to the input of the substitution antenna. Adjust the level of the signal generator output until the value of the receiver reaches the previously recorded (Pr). The power of signal source (PMea) is recorded. Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 20 of 112 The test should be performed by rotating the test item and adjusting the receiving antenna polarization. 4. An amplifier should be connected to the Signal Source output port. And the cable should be connected between the amplifier and the substitution antenna. The cable loss (Pcl), the substitution antenna Gain (Ga) and the amplifier Gain (PAg) should be recorded after test. The measurement results are obtained as described below:

Power (EIRP) = PMea - PAg - Pcl - Ga 5. This value is EIRP since the measurement is calibrated using an antenna of known gain (unit dBi) and known input power. 6. ERP can be calculated from EIRP by subtracting the gain of the dipole, ERP = EIRP -2.15. Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 21 of 112 A.1.3.3 Measurement result LTE Band 41- EIRP Limits: 33dBm (2W) LTE Band 41_5MHz_QPSK Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 2537.50

-24.29 3.63 44.94 6.17 23.19 33.00 9.81 2593.00

-24.41 3.69 44.93 6.27 23.10 33.00 9.90 2652.50

-23.94 3.69 44.96 6.37 23.70 33.00 9.30 H H H LTE Band 41_10MHz_QPSK Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 2540.00

-22.74 3.63 45.05 6.17 24.85 33.00 8.15 2593.00

-24.16 3.69 44.93 6.27 23.35 33.00 9.65 2650.00

-24.76 3.69 44.96 6.37 22.88 33.00 10.12 H H H LTE Band 41_15MHz_QPSK Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 2542.50

-23.63 3.63 45.17 6.18 24.09 33.00 8.91 2593.00

-24.24 3.69 44.93 6.27 23.27 33.00 9.73 2647.50

-24.38 3.69 44.96 6.37 23.26 33.00 9.74 H H H LTE Band 41_20MHz_QPSK Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 2545.00

-24.05 3.62 45.28 6.18 23.79 33.00 9.21 2593.00

-24.18 3.69 44.93 6.27 23.33 33.00 9.67 2645.00

-24.35 3.68 44.96 6.36 23.29 33.00 9.71 H H H Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 22 of 112 LTE Band 41_5MHz_16QAM Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 2537.50

-25.92 3.63 44.94 6.17 21.56 33.00 11.44 2593.00

-25.96 3.69 44.93 6.27 21.55 33.00 11.45 2652.50

-25.63 3.69 44.96 6.37 22.01 33.00 10.99 H H H LTE Band 41_10MHz_16QAM Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 2540.00

-24.34 3.63 45.05 6.17 23.25 33.00 9.75 2593.00

-25.84 3.69 44.93 6.27 21.67 33.00 11.33 2650.00

-26.18 3.69 44.96 6.37 21.46 33.00 11.54 H H H LTE Band 41_15MHz_16QAM Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 2542.50

-25.10 3.63 45.17 6.18 22.62 33.00 10.38 2593.00

-25.87 3.69 44.93 6.27 21.64 33.00 11.36 2647.50

-25.99 3.69 44.96 6.37 21.65 33.00 11.35 H H H LTE Band 41_20MHz_16QAM Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 2545.00

-25.16 3.62 45.28 6.18 22.68 33.00 10.32 2593.00

-25.64 3.69 44.93 6.27 21.87 33.00 11.13 2645.00

-25.68 3.68 44.96 6.36 21.96 33.00 11.04 H H H Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 23 of 112 LTE Band 41_5MHz_64QAM Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 2537.50

-26.96 3.63 44.94 6.17 20.52 33.00 12.48 2593.00

-26.90 3.69 44.93 6.27 20.61 33.00 12.39 2652.50

-26.77 3.69 44.96 6.37 20.87 33.00 12.13 H H H LTE Band 41_10MHz_64QAM Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 2540.00

-25.57 3.63 45.05 6.17 22.02 33.00 10.98 2593.00

-26.59 3.69 44.93 6.27 20.92 33.00 12.08 2650.00

-27.26 3.69 44.96 6.37 20.38 33.00 12.62 H H H LTE Band 41_15MHz_64QAM Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 2542.50

-26.22 3.63 45.17 6.18 21.50 33.00 11.50 2593.00

-26.33 3.69 44.93 6.27 21.18 33.00 11.82 2647.50

-27.04 3.69 44.96 6.37 20.60 33.00 12.40 H H H LTE Band 41_20MHz_64QAM Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 2545.00

-26.29 3.62 45.28 6.18 21.55 33.00 11.45 2593.00

-26.67 3.69 44.93 6.27 20.84 33.00 12.16 2645.00

-26.59 3.68 44.96 6.36 21.05 33.00 11.95 H H H Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 24 of 112 Spot check Measurement Results:

LTE Band 5- ERP Limits: 38.45dBm (7W) LTE Band 5_1.4MHz_QPSK Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) ERP(dBm) Limit(dBm) Margin(dB) Polarization Correction

(dB) 824.70

-20.47 2.26 45.79 0.95 2.15 21.86 38.45 16.59 836.50

-20.07 2.26 45.66 0.82 2.15 22.00 38.45 16.45 848.30

-20.41 2.27 45.55 0.80 2.15 21.52 38.45 16.93 H H H LTE Band 5_3MHz_QPSK Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) ERP(dBm) Limit(dBm) Margin(dB) Polarization Correction

(dB) 825.50

-20.59 2.26 45.79 0.94 2.15 21.73 38.45 16.72 836.50

-20.10 2.26 45.66 0.82 2.15 21.97 38.45 16.48 847.50

-20.29 2.27 45.56 0.81 2.15 21.66 38.45 16.79 H H H LTE Band 5_5MHz_QPSK Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) ERP(dBm) Limit(dBm) Margin(dB) Polarization Correction

(dB) 826.50

-20.53 2.25 45.77 0.93 2.15 21.77 38.45 16.68 836.50

-20.05 2.26 45.66 0.82 2.15 22.02 38.45 16.43 846.50

-20.46 2.26 45.56 0.82 2.15 21.51 38.45 16.94 H H H LTE Band 5_10MHz_QPSK Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) ERP(dBm) Limit(dBm) Margin(dB) Polarization Correction

(dB) 829.00

-20.88 2.13 45.74 0.90 2.15 21.48 38.45 16.97 836.50

-19.62 2.26 45.66 0.82 2.15 22.45 38.45 16.00 844.00

-20.81 2.26 45.59 0.82 2.15 21.19 38.45 17.26 H H H Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 25 of 112 LTE Band 5_1.4MHz_16QAM Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) ERP(dBm) Limit(dBm) Margin(dB) Polarization Correction

(dB) 824.70

-20.73 2.26 45.79 0.95 2.15 21.60 38.45 16.85 836.50

-20.57 2.26 45.66 0.82 2.15 21.50 38.45 16.95 848.30

-21.21 2.27 45.55 0.80 2.15 20.72 38.45 17.73 H H H LTE Band 5_3MHz_16QAM Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) ERP(dBm) Limit(dBm) Margin(dB) Polarization Correction

(dB) 825.50

-20.82 2.26 45.79 0.94 2.15 21.50 38.45 16.95 836.50

-20.65 2.26 45.66 0.82 2.15 21.42 38.45 17.03 847.50

-21.21 2.27 45.56 0.81 2.15 20.74 38.45 17.71 H H H LTE Band 5_5MHz_16QAM Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) ERP(dBm) Limit(dBm) Margin(dB) Polarization Correction

(dB) 826.50

-20.85 2.25 45.77 0.93 2.15 21.45 38.45 17.00 836.50

-20.76 2.26 45.66 0.82 2.15 21.31 38.45 17.14 846.50

-21.67 2.26 45.56 0.82 2.15 20.30 38.45 18.15 H H H LTE Band 5_10MHz_16QAM Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) ERP(dBm) Limit(dBm) Margin(dB) Polarization Correction

(dB) 829.00

-21.20 2.13 45.74 0.90 2.15 21.16 38.45 17.29 836.50

-20.79 2.26 45.66 0.82 2.15 21.28 38.45 17.17 844.00

-21.61 2.26 45.59 0.82 2.15 20.39 38.45 18.06 H H H Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 26 of 112 Reference Measurement Results from basic model:

LTE Band 5- ERP Limits: 38.45dBm (7W) LTE Band 5_1.4MHz_QPSK Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) ERP(dBm) Limit(dBm) Margin(dB) Polarization Correction

(dB) 824.70

-20.33 2.26 45.79 0.95 2.15 22.00 38.45 16.45 836.50

-20.20 2.26 45.66 0.82 2.15 21.87 38.45 16.58 848.30

-20.40 2.27 45.55 0.80 2.15 21.53 38.45 16.92 H H H LTE Band 5_3MHz_QPSK Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) ERP(dBm) Limit(dBm) Margin(dB) Polarization Correction

(dB) 825.50

-20.60 2.26 45.79 0.94 2.15 21.72 38.45 16.73 836.50

-20.46 2.26 45.66 0.82 2.15 21.61 38.45 16.84 847.50

-20.33 2.27 45.56 0.81 2.15 21.62 38.45 16.83 H H H LTE Band 5_5MHz_QPSK Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) ERP(dBm) Limit(dBm) Margin(dB) Polarization Correction

(dB) 826.50

-20.62 2.25 45.77 0.93 2.15 21.68 38.45 16.77 836.50

-20.35 2.26 45.66 0.82 2.15 21.72 38.45 16.73 846.50

-20.59 2.26 45.56 0.82 2.15 21.38 38.45 17.07 H H H LTE Band 5_10MHz_QPSK Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) ERP(dBm) Limit(dBm) Margin(dB) Polarization Correction

(dB) 829.00

-20.98 2.13 45.74 0.90 2.15 21.38 38.45 17.07 836.50

-20.18 2.26 45.66 0.82 2.15 21.89 38.45 16.56 844.00

-20.47 2.26 45.59 0.82 2.15 21.53 38.45 16.92 H H H Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 27 of 112 LTE Band 5_1.4MHz_16QAM Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) ERP(dBm) Limit(dBm) Margin(dB) Polarization Correction

(dB) 824.70

-21.68 2.26 45.79 0.95 2.15 20.65 38.45 17.80 836.50

-21.51 2.26 45.66 0.82 2.15 20.56 38.45 17.89 848.30

-21.36 2.27 45.55 0.80 2.15 20.57 38.45 17.88 H H H LTE Band 5_3MHz_16QAM Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) ERP(dBm) Limit(dBm) Margin(dB) Polarization Correction

(dB) 825.50

-22.14 2.26 45.79 0.94 2.15 20.18 38.45 18.27 836.50

-21.38 2.26 45.66 0.82 2.15 20.69 38.45 17.76 847.50

-21.53 2.27 45.56 0.81 2.15 20.42 38.45 18.03 H H H LTE Band 5_5MHz_16QAM Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) ERP(dBm) Limit(dBm) Margin(dB) Polarization Correction

(dB) 826.50

-21.66 2.25 45.77 0.93 2.15 20.64 38.45 17.81 836.50

-21.84 2.26 45.66 0.82 2.15 20.23 38.45 18.22 846.50

-21.83 2.26 45.56 0.82 2.15 20.14 38.45 18.31 H H H LTE Band 5_10MHz_16QAM Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) ERP(dBm) Limit(dBm) Margin(dB) Polarization Correction

(dB) 829.00

-22.02 2.13 45.74 0.90 2.15 20.34 38.45 18.11 836.50

-21.31 2.26 45.66 0.82 2.15 20.76 38.45 17.69 844.00

-21.49 2.26 45.59 0.82 2.15 20.51 38.45 17.94 H H H Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 28 of 112 LTE Band 5_1.4MHz_64QAM Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) ERP(dBm) Limit(dBm) Margin(dB) Polarization Correction

(dB) 824.70

-22.80 2.26 45.79 0.95 2.15 19.53 38.45 18.92 836.50

-22.50 2.26 45.66 0.82 2.15 19.57 38.45 18.88 848.30

-22.53 2.27 45.55 0.80 2.15 19.40 38.45 19.05 H H H LTE Band 5_3MHz_64QAM Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) ERP(dBm) Limit(dBm) Margin(dB) Polarization Correction

(dB) 825.50

-23.07 2.26 45.79 0.94 2.15 19.25 38.45 19.20 836.50

-22.92 2.26 45.66 0.82 2.15 19.15 38.45 19.30 847.50

-22.96 2.27 45.56 0.81 2.15 18.99 38.45 19.46 H H H LTE Band 5_5MHz_64QAM Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) ERP(dBm) Limit(dBm) Margin(dB) Polarization Correction

(dB) 826.50

-22.70 2.25 45.77 0.93 2.15 19.60 38.45 18.85 836.50

-22.50 2.26 45.66 0.82 2.15 19.57 38.45 18.88 846.50

-22.64 2.26 45.56 0.82 2.15 19.33 38.45 19.12 H H H LTE Band 5_10MHz_64QAM Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) ERP(dBm) Limit(dBm) Margin(dB) Polarization Correction

(dB) 829.00

-23.08 2.13 45.74 0.90 2.15 19.28 38.45 19.17 836.50

-22.64 2.26 45.66 0.82 2.15 19.43 38.45 19.02 844.00

-22.80 2.26 45.59 0.82 2.15 19.20 38.45 19.25 H H H Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 29 of 112 LTE Band 7- EIRP Limits: 33 dBm (2W) LTE Band 7_5MHz_QPSK Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 2502.50

-20.37 3.58 45.68 6.10 27.83 33.00 5.17 2535.00

-18.87 3.63 44.82 6.16 28.48 33.00 4.52 2567.50

-20.44 3.65 44.92 6.22 27.05 33.00 5.95 H H H LTE Band 7_10MHz_QPSK Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 2505.00

-20.19 3.59 45.64 6.11 27.97 33.00 5.03 2535.00

-18.88 3.63 44.82 6.16 28.47 33.00 4.53 2565.00

-20.65 3.65 44.97 6.22 26.89 33.00 6.11 H H H LTE Band 7_15MHz_QPSK Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 2507.50

-19.64 3.59 44.92 6.11 27.80 33.00 5.20 2535.00

-18.91 3.63 44.82 6.16 28.44 33.00 4.56 2562.50

-21.41 3.65 45.67 6.21 26.82 33.00 6.18 H H H LTE Band 7_20MHz_QPSK Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 2510.00

-20.19 3.58 45.36 6.12 27.71 33.00 5.29 2535.00

-19.01 3.63 44.82 6.16 28.34 33.00 4.66 2560.00

-21.64 3.64 45.98 6.21 26.91 33.00 6.09 H H H Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 30 of 112 LTE Band 7_5MHz_16QAM Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 2502.50

-21.05 3.58 45.68 6.10 27.15 33.00 5.85 2535.00

-20.42 3.63 44.82 6.16 26.93 33.00 6.07 2567.50

-22.11 3.65 44.92 6.22 25.38 33.00 7.62 H H H LTE Band 7_10MHz_16QAM Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 2505.00

-21.27 3.59 45.64 6.11 26.89 33.00 6.11 2535.00

-20.43 3.63 44.82 6.16 26.92 33.00 6.08 2565.00

-21.89 3.65 44.97 6.22 25.65 33.00 7.35 H H H LTE Band 7_15MHz_16QAM Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 2507.50

-21.06 3.59 44.92 6.11 26.38 33.00 6.62 2535.00

-19.92 3.63 44.82 6.16 27.43 33.00 5.57 2562.50

-22.78 3.65 45.67 6.21 25.45 33.00 7.55 H H H LTE Band 7_20MHz_16QAM Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 2510.00

-20.87 3.58 45.36 6.12 27.03 33.00 5.97 2535.00

-20.23 3.63 44.82 6.16 27.12 33.00 5.88 2560.00

-22.72 3.64 45.98 6.21 25.83 33.00 7.17 H H H Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 31 of 112 LTE Band 7_5MHz_64QAM Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 2502.50

-22.48 3.58 45.68 6.10 25.72 33.00 7.28 2535.00

-21.39 3.63 44.82 6.16 25.96 33.00 7.04 2567.50

-23.04 3.65 44.92 6.22 24.45 33.00 8.55 H H H LTE Band 7_10MHz_64QAM Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 2505.00

-22.26 3.59 45.64 6.11 25.90 33.00 7.10 2535.00

-21.22 3.63 44.82 6.16 26.13 33.00 6.87 2565.00

-22.90 3.65 44.97 6.22 24.64 33.00 8.36 H H H LTE Band 7_15MHz_64QAM Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 2507.50

-21.80 3.59 44.92 6.11 25.64 33.00 7.36 2535.00

-20.98 3.63 44.82 6.16 26.37 33.00 6.63 2562.50

-23.79 3.65 45.67 6.21 24.44 33.00 8.56 H H H LTE Band 7_20MHz_64QAM Frequency(MHz) PMea(dBm) Pcl(dB) PAg(dB) Ga (dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 2510.00

-22.30 3.58 45.36 6.12 25.60 33.00 7.40 2535.00

-20.97 3.63 44.82 6.16 26.38 33.00 6.62 2560.00

-24.13 3.64 45.98 6.21 24.42 33.00 8.58 H H H Peak EIRP(dBm) = PMea(-18.87dBm) - Ga (-6.16dBi) - PAg (-44.82dB) - Pcl (3.63dB) = 28.48dBm ANALYZER SETTINGS:

RBW = VBW = 8MHz for occupied bandwdiths equal to or less than 5MHz. RBW = VBW = 20MHz for occupied bandwidths equal to or greater than 10MHz. Note: Expanded measurement uncertainty is U = 2.84 dB, k = 2. Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 32 of 112 A.2 EMISSION LIMIT A.2.1 Measurement Method The measurements procedures in TIA-603E-2016 are used. This measurement is carried out in fully-anechoic chamber FAC-3. The spectrum was scanned from 30 MHz to the 10th harmonic of the highest frequency generated within the equipment, which is the transmitted carrier. The resolution bandwidth is set 1MHz. The spectrum was scanned with the mobile station transmitting at carrier frequencies that pertain to low, mid and high channels of the LTE Bands 5 7 41. The procedure of radiated spurious emissions is as follows:

1. EUT was placed on a 1.5 meter high non-conductive stand at a 3 meter test distance from the receive antenna. A receiving antenna was placed on the antenna mast 3 meters from the EUT for emission measurements. The height of receiving antenna is 1.5m. The test setup refers to figure below. Detected emissions were maximized at each frequency by rotating the EUT through 360 and adjusting the receiving antenna polarization. The radiated emission measurements of all non-harmonic and harmonics of the transmit frequency through the 10th harmonic were measured with peak detector. 2. The EUT is then put into continuously transmitting mode at its maximum power level during the test. And the maximum value of the receiver should be recorded as (Pr). 3. The EUT shall be replaced by a substitution antenna. The test setup refers to figure below. In the chamber, an substitution antenna for the frequency band of interest is placed at the reference point of the chamber. An RF Signal source for the frequency band of interest is connected to the substitution antenna with a cable that has been constructed to not interfere Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 33 of 112 with the radiation pattern of the antenna. A power (PMea) is applied to the input of the substitution antenna. Adjust the level of the signal generator output until the value of the receiver reaches the previously recorded (Pr). The power of signal source (PMea) is recorded. The test should be performed by rotating the test item and adjusting the receiving antenna polarization. 4. The Path loss (Ppl) between the Signal Source with the Substitution Antenna and the Substitution Antenna Gain (Ga) should be recorded after test. An amplifier should be connected in for the test. The Path loss (Ppl) is the summation of the cable loss and the gain of the amplifier. The measurement results are obtained as described below:

Power (EIRP)=PMea+ Ppl + Ga 5. This value is EIRP since the measurement is calibrated using an antenna of known gain (unit:

dBi) and known input power. 6. ERP can be calculated from EIRP by subtracting the gain of the dipole, ERP = EIRP -2.15dB. A.2.2 Measurement Limit Part 22.917 and Part 27.53(h) specify that the power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitting power (P) by a factor of at least 43 + 10 log(P) dB. The specification that emissions shall be attenuated below the transmitter power (P) by at least 43

+ 10 log (P) dB, translates in the relevant power range (1 to 0.001 W) to -13 dBm. At 1 W the specified minimum attenuation becomes 43 dB and relative to a 30 dBm (1 W) carrier becomes a limit of -13 dBm. At 0.001 W (0 dBm) the minimum attenuation is 13 dB, which again yields a limit of -13 dBm. In this way a translation of the specification from relative to absolute terms is carried out. Part 27.53(m)(4) specifies for mobile digital stations, the attenuation factor shall be not less than 40 + 10 log (P) dB on all frequencies between the channel edge and 5 megahertz from the channel edge, 43 + 10 log (P) dB on all frequencies between 5 megahertz and X megahertz from the channel edge, and 55 + 10 log (P) dB on all frequencies more than X megahertz from the channel edge, where X is the greater of 6 megahertz or the actual emission bandwidth as defined in paragraph (m)(6) of this section. In addition, the attenuation factor shall not be less that 43 + 10 log (P) dB on all frequencies between 2490.5 MHz and 2496 MHz and 55 + 10 log (P) dB at or below 2490.5 MHz. Mobile Satellite Service licensees operating on frequencies below 2495 MHz may also submit a documented interference complaint against BRS licensees operating on channel BRS Channel 1 on the same terms and conditions as adjacent channel BRS or EBS licensees. A.2.3 Measurement Results Radiated emissions measurements were made only at the upper, middle, and lower carrier frequencies of the LTE Bands 5 7 41. It was decided that measurements at these three carrier frequencies would be sufficient to demonstrate compliance with emissions limits because it was seen that all the significant spurs occur well outside the band and no radiation was seen from a carrier in one block of the LTE Bands 5 7 41 into any of the other blocks. The equipment must still, however, meet emissions requirements with the carrier at all frequencies over which it is capable Copyright. All rights reserved by CTTL. of operating and it is the manufacturer's responsibility to verify this.The evaluated frequency range is from 30MHz to 26GHz. No. I19Z60845-WMD03 Page 34 of 112 Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 35 of 112 LTE Band 41, 5MHz, QPSK, Channel 39675 Frequency(MHz) PMea(dBm) Path Antenna Peak Loss(dB) Gain(dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 5080.02 7494.01 9991.01 12693.01 15221.00 17493.00

-53.59

-55.00

-53.43

-49.87

-45.88

-43.54 6.81 8.38 9.17 10.31 11.35 12.71 10.06 12.19 12.91 13.51 13.57 14.88

-50.34

-51.19

-49.69

-46.67

-43.66

-41.37

-25.00

-25.00

-25.00

-25.00

-25.00

-25.00 25.34 26.19 24.69 21.67 18.66 16.37 H H H H V V LTE Band 41, 5MHz, QPSK, Channel 40620 Frequency(MHz) PMea(dBm) Path Antenna Peak Loss(dB) Gain(dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 5186.02 7770.01 10363.02 12987.01 15555.02 16864.00

-54.66

-55.15

-50.57

-49.37

-44.63

-42.95 6.94 8.53 9.74 10.54 11.53 12.06 10.16 12.41 13.05 13.52 13.71 13.77

-51.44

-51.27

-47.26

-46.39

-42.45

-41.24

-25.00

-25.00

-25.00

-25.00

-25.00

-25.00 26.44 26.27 22.26 21.39 17.45 16.24 H V V H V H LTE Band 41, 5MHz, QPSK, Channel 41565 Frequency(MHz) PMea(dBm) Path Antenna Peak Loss(dB) Gain(dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization

-55.33

-54.59

-51.38

-48.65

-46.23

-43.32 6.86 8.36 9.37 10.54 11.62 12.36 10.44 12.57 13.15 13.85 13.70 14.32

-51.75

-50.38

-47.60

-45.34

-44.15

-41.36

-25.00

-25.00

-25.00

-25.00

-25.00

-25.00 26.75 25.38 22.60 20.34 19.15 16.36 H H H V H H 5386.02 7965.00 10726.01 13248.01 15896.00 17238.00 Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 36 of 112 Spot check Measurement Results:

LTE Band 5, 1.4MHz, QPSK, Channel 20407 Frequency(MHz) PMea(dBm) Path Antenna Correction Peak Limit Loss(dB) Gain(dBi)

(dB) ERP(dBm)

(dBm) Margin(dB) Polarization 1650.01 2475.00 3299.02 4118.02 4948.01 5778.01

-50.40

-53.21

-53.13

-55.37

-55.81

-54.64 3.57 4.60 5.29 6.04 6.69 7.22 5.23 6.03 7.72 9.02 9.85 10.54 2.15 2.15 2.15 2.15 2.15 2.15

-50.89

-13.00 37.89

-53.93

-13.00

-52.85

-13.00

-54.54

-13.00

-54.80

-13.00

-53.47

-13.00 40.93 39.85 41.54 41.80 40.47 H V V V H V LTE Band 5, 1.4MHz, QPSK, Channel 20525 Frequency(MHz) PMea(dBm) Path Antenna Correction Peak Limit Loss(dB) Gain(dBi)

(dB) ERP(dBm)

(dBm) Margin(dB) Polarization 1673.01 2510.00 3342.02 4181.02 5026.01 5846.01

-46.94

-49.98

-54.47

-55.28

-55.67

-54.51 3.58 4.63 5.31 6.16 6.56 7.22 5.19 6.12 7.82 9.08 9.94 10.53 2.15 2.15 2.15 2.15 2.15 2.15

-47.48

-13.00

-50.64

-13.00 34.48 37.64

-54.11

-13.00 41.11

-54.51

-13.00

-54.44

-13.00

-53.35

-13.00 41.51 41.44 40.35 H V H V H V LTE Band 5, 1.4MHz, QPSK, Channel 20643 Frequency(MHz) PMea(dBm) Path Antenna Correction Peak Limit Loss(dB) Gain(dBi)

(dB) ERP(dBm)

(dBm) Margin(dB) Polarization 1697.01 2545.00 3389.02 4232.02 5075.01 5940.01

-46.83

-48.61

-55.60

-56.01

-54.79

-52.91 3.60 4.66 5.35 6.26 6.70 7.47 5.15 6.18 7.93 9.13 10.01 10.51 2.15 2.15 2.15 2.15 2.15 2.15

-47.43

-13.00

-49.24

-13.00

-55.17

-13.00

-55.29

-13.00

-53.63

-13.00 34.43 36.24 42.17 42.29 40.63

-52.02

-13.00 39.02 H V H H V H Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 37 of 112 Reference Measurement Results from basic model:

LTE Band 5, 1.4MHz, QPSK, Channel 20407 Frequency(MHz) PMea(dBm) Path Antenna Correction Peak Limit Loss(dB) Gain(dBi)

(dB) ERP(dBm)

(dBm) Margin(dB) Polarization 1650.01 2477.00 3299.02 4138.02 4963.01 5766.01

-49.38

-52.17

-52.29

-56.66

-53.94

-54.03 3.57 4.60 5.29 6.07 6.67 7.24 5.23 6.03 7.72 9.04 9.86 10.55 2.15 2.15 2.15 2.15 2.15 2.15

-49.87

-13.00 36.87

-52.89

-13.00

-52.01

-13.00

-55.84

-13.00

-52.90

-13.00

-52.87

-13.00 39.89 39.01 42.84 39.90 39.87 H V V V H V LTE Band 5, 1.4MHz, QPSK, Channel 20525 Frequency(MHz) PMea(dBm) Path Antenna Correction Peak Limit Loss(dB) Gain(dBi)

(dB) ERP(dBm)

(dBm) Margin(dB) Polarization 1673.01 2510.00 3353.02 4182.02 5009.01 5855.01

-47.86

-53.27

-54.47

-55.17

-55.52

-54.50 3.58 4.63 5.32 6.17 6.59 7.25 5.19 6.12 7.85 9.08 9.91 10.53 2.15 2.15 2.15 2.15 2.15 2.15

-48.40

-13.00

-53.93

-13.00

-54.09

-13.00

-54.41

-13.00

-54.35

-13.00

-53.37

-13.00 35.40 40.93 41.09 41.41 41.35 40.37 H V H V H H LTE Band 5, 1.4MHz, QPSK, Channel 20643 Frequency(MHz) PMea(dBm) Path Antenna Correction Peak Limit Loss(dB) Gain(dBi)

(dB) ERP(dBm)

(dBm) Margin(dB) Polarization 1697.01 2550.00 3402.02 4248.02 5102.01 5937.01

-49.28

-52.36

-54.78

-55.51

-54.97

-52.69 3.60 4.67 5.36 6.24 6.78 7.47 5.15 6.19 7.96 9.15 10.04 10.51 2.15 2.15 2.15 2.15 2.15 2.15

-49.88

-13.00

-52.99

-13.00

-54.33

-13.00

-54.75

-13.00

-53.86

-13.00 36.88 39.99 41.33 41.75 40.86

-51.80

-13.00 38.80 H H V H V H Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 38 of 112 LTE Band 7, 5 MHz, QPSK, Channel 20775 Frequency(MHz) PMea(dBm) Path Antenna Peak Loss(dB) Gain(dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 5023.02 7511.01 10018.01 12526.01 15006.00 17521.00

-57.50

-54.96

-52.78

-49.13

-45.89

-43.51 6.56 8.35 9.23 10.25 11.22 12.80 9.93 12.21 12.91 13.22 14.00 14.93

-54.13

-51.10

-49.10

-46.16

-43.11

-41.38

-25.00

-25.00

-25.00

-25.00

-25.00

-25.00 29.13 26.10 24.10 21.16 18.11 16.38 H H V V H V LTE Band 7, 5 MHz, QPSK, Channel 21100 Frequency(MHz) PMea(dBm) Path Antenna Peak Loss(dB) Gain(dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 5072.02 7617.01 10150.01 12656.01 15195.00 17738.00

-56.40

-54.12

-52.51

-49.54

-45.23

-43.66 6.69 8.05 9.38 10.37 11.40 12.39 10.00 12.29 12.96 13.29 13.88 15.23

-53.09

-49.88

-48.93

-46.62

-42.75

-40.82

-25.00

-25.00

-25.00

-25.00

-25.00

-25.00 28.09 24.88 23.93 21.62 17.75 15.82 V H V H V H LTE Band 7, 5 MHz, QPSK, Channel 21425 Frequency(MHz) PMea(dBm) Path Antenna Peak Loss(dB) Gain(dBi) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 5139.02 7707.01 10280.01 12856.01 15414.00 17967.00

-56.10

-54.41

-52.65

-49.36

-46.09

-43.84 6.86 8.42 9.57 10.62 11.41 12.89 10.09 12.37 13.01 13.41 13.75 15.55

-52.87

-50.46

-49.21

-46.57

-43.75

-41.18

-25.00

-25.00

-25.00

-25.00

-25.00

-25.00 27.87 25.46 24.21 21.57 18.75 16.18 H H V H H H Note: The maximum value of expanded measurement uncertainty for this test item is U = 5.16 dB, k = 2. Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 39 of 112 A.3 FREQUENCY STABILITY A.3.1 Method of Measurement In order to measure the carrier frequency under the condition of AFC lock, it is necessary to make measurements with the EUT in a call mode. This is accomplished with the use of R&S CMW500 DIGITAL RADIO COMMUNICATION TESTER. 1. Measure the carrier frequency at room temperature. 2. Subject the EUT to overnight soak at -10. 3. With the EUT, powered via nominal voltage, connected to the CMW500 and in a simulated call on middle channel for LTE band 5 7 41, measure the carrier frequency. These measurements should be made within 2 minutes of Powering up the EUT, to prevent significant self-warming. 4. Repeat the above measurements at 10 increments from -10 to +50. Allow at least 1.5 hours at each temperature, unpowered, before making measurements. 5. Re-measure carrier frequency at room temperature with nominal voltage. Vary supply voltage from minimum voltage to maximum voltage, in 0.1Volt increments re-measuring carrier frequency at each voltage. Pause at nominal voltage for 1.5 hours unpowered, to allow any self-heating to stabilize, before continuing. 6. Subject the EUT to overnight soak at +50. 7. With the EUT, powered via nominal voltage, connected to the CMW500 and in a simulated call on the centre channel, measure the carrier frequency. These measurements should be made within 2 minutes of Powering up the EUT, to prevent significant self-warming. 8. Repeat the above measurements at 10 increments from -10 to +50. Allow at least 1.5 hours at each temperature, unpowered, before making measurements. 9. At all temperature levels hold the temperature to +/- 0.5 during the measurement procedure. The frequency stability shall be sufficient to ensure that the fundamental emission stays within the authorized frequency block. As this transceiver is considered "Hand carried, battery powered equipment" Section 2.1055(d)(2) applies. This requires that the lower voltage for frequency stability testing be specified by the manufacturer. This transceiver is specified to operate with an input voltage of between 3.6VDC and 4.2VDC, with a nominal voltage of 3.8VDC. Operation above or below these voltage limits is prohibited by transceiver software in order to prevent improper operation as well as to protect components from overstress. Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 40 of 112 A.3.2 Measurement results LTE Band 5, 1.4MHz bandwidth (worst case of all bandwidths) Frequency Error vs Voltage Voltage Frequency error (Hz) Frequency error (ppm)

(V) 3.6 3.8 4.2 QPSK 16QAM 64QAM QPSK 16QAM 64QAM

-2.83

-4.25 3.29

-24.15

-24.43

-25.88

-2.00

-2.80

-1.50 0.0034 0.0051 0.0039 0.0289 0.0292 0.0309 0.0018 0.0016 0.0027 Frequency Error vs Temperature Temperature Frequency error (Hz) Frequency error (ppm)

() 50 40 30 20 10 0

-10 QPSK 16QAM 64QAM QPSK 16QAM 64QAM

-2.47

-2.80

-2.73

-3.29

-3.18

-3.36

-3.62

-24.72

-25.02

-24.15

-23.30

-24.58

-24.59

-25.42

-1.90

-1.70

-1.60

-1.40

-1.50

-1.30

-2.20 0.0030 0.0033 0.0033 0.0039 0.0038 0.0040 0.0043 0.0296 0.0299 0.0289 0.0279 0.0294 0.0294 0.0304 0.0020 0.0014 0.0014 0.0027 0.0029 0.0027 0.0025 LTE Band 7, 10MHz bandwidth (worst case of all bandwidths) Frequency Error vs Voltage Voltage Frequency error (Hz) Frequency error (ppm)

(V) 3.6 3.8 4.2 QPSK 16QAM 64QAM QPSK 16QAM 64QAM

-6.69

-7.45

-8.13

-12.40

-14.20

-11.23

-3.70

-5.00

-6.90 0.0026 0.0049 0.0029 0.0056 0.0032 0.0044 0.0015 0.0020 0.0027 Frequency Error vs Temperature Temperature Frequency error (Hz) Frequency error (ppm)

() 50 40 30 20 10 0

-10 QPSK 16QAM 64QAM QPSK 16QAM 64QAM

-8.88

-8.05

-9.56

-12.07

-8.58

-9.81

-8.40

-13.09

-11.26

-8.81

-13.53

-10.43

-10.80

-12.77

-5.30

-5.60

-6.20

-7.40

-5.90

-5.30

-5.90 0.0035 0.0052 0.0032 0.0044 0.0038 0.0035 0.0048 0.0053 0.0034 0.0041 0.0039 0.0043 0.0033 0.0050 0.0021 0.0022 0.0024 0.0029 0.0023 0.0021 0.0023 Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 41 of 112 LTE Band 41, 5MHz bandwidth (worst case of all bandwidths) Frequency Error vs Voltage Voltage Frequency error (Hz) Frequency error (ppm)

(V) 3.6 3.8 4.2 QPSK 16QAM 64QAM QPSK 16QAM 64QAM 13.93

-10.74

-9.93

-11.54

-10.11 18.24 4.70 5.40 0.0054 0.0045 0.0041 0.0039

-5.30 0.0038 0.0070 0.0018 0.0021 0.0020 Frequency Error vs Temperature Temperature Frequency error (Hz) Frequency error (ppm)

() 50 40 30 20 10 0

-10 QPSK 16QAM 64QAM QPSK 16QAM 64QAM 13.93

-10.74

-9.93 12.20 14.81 9.74 13.35

-11.54

-10.11 18.24 14.22 12.56 13.49 10.86 6.20 5.80 0.0054 0.0045 0.0041 0.0039

-4.60 0.0038 0.0070 4.80 5.60 5.90 7.90 0.0047 0.0055 0.0057 0.0048 0.0038 0.0052 0.0051 0.0042 0.0024 0.0022 0.0018 0.0019 0.0022 0.0023 0.0030 Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 42 of 112 A.4 OCCUPIED BANDWIDTH A.4.1 Occupied Bandwidth Results Occupied bandwidth measurements are only provided for selected frequencies in order to reduce the amount of submitted data. Data were taken at the extreme and mid frequencies of the US Cellular/PCS frequency bands. The table below lists the measured 99% BW. Spectrum analyzer plots are included on the following pages. The measurement method is from KDB 971168 4.2:

a) The spectrum analyzer center frequency is set to the nominal EUT channel center frequency. The frequency span for the spectrum analyzer shall be set wide enough to capture all modulation products including the emission skirts (i.e., two to five times the OBW). b) The nominal IF filter bandwidth (3 dB RBW) shall be in the range of 1 to 5 % of the anticipated OBW, and the VBW shall be at least 3 times the RBW. c) Set the reference level of the instrument as required to keep the signal from exceeding the maximum input mixer level for linear operation. In general, the peak of the spectral envelope must be at least 10log (OBW / RBW) below the reference level. d) Set the detection mode to peak, and the trace mode to max hold. e) Use the 99 % power bandwidth function of the spectrum analyzer and report the measured bandwidth. Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 43 of 112 LTE band 5, 1.4MHz (99%) Frequency(MHz) Occupied Bandwidth (99%)(kHz) 836.5 QPSK 1097.76 16QAM 1097.76 64QAM 1089.74 LTE band 5, 1.4MHz Bandwidth, QPSK (99% BW) LTE band 5, 1.4MHz Bandwidth, 16QAM (99% BW) Copyright. All rights reserved by CTTL. A *3DBRBW 20 kHz*VBW 100 kHzSWT 40 ms1 PKMAXHTDFOffset 0.5 dBLVLRef 20.5 dBmAtt 15 dB*Center836.5 MHzSpan5 MHz500 kHz/SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 16.44 dBm 836.948717949 MHzOBW 1.097756410 MHzT1Temp 1 [T1 OBW] 8.88 dBm 835.947115385 MHzT2Temp 2 [T1 OBW] 12.04 dBm 837.044871795 MHzDate: 16.APR.2019 19:13:11 A *3DBRBW 20 kHz*VBW 100 kHzSWT 40 ms1 PKMAXHTDFOffset 0.5 dBLVLRef 20.5 dBmAtt 15 dB*Center836.5 MHzSpan5 MHz500 kHz/SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 16.92 dBm 836.347756410 MHzOBW 1.097756410 MHzT1Temp 1 [T1 OBW] 10.07 dBm 835.947115385 MHzT2Temp 2 [T1 OBW] 12.72 dBm 837.044871795 MHzDate: 16.APR.2019 19:11:46 LTE band 5, 1.4MHz Bandwidth, 64QAM (99% BW) No. I19Z60845-WMD03 Page 44 of 112 Copyright. All rights reserved by CTTL. A TDFRef 30 dBmAtt 25 dB*Center836.5 MHzSpan5 MHz500 kHz/**3DBRBW 20 kHzVBW 100 kHzSWT 40 ms1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 12.34 dBm 836.187500000 MHzOBW 1.089743590 MHzT1Temp 1 [T1 OBW] 7.38 dBm 835.955128205 MHzT2Temp 2 [T1 OBW] 6.22 dBm 837.044871795 MHzDate: 17.APR.2019 14:38:07 No. I19Z60845-WMD03 Page 45 of 112 LTE band 5, 3MHz (99%) Frequency(MHz) Occupied Bandwidth (99%)(kHz) 836.5 QPSK 2692.31 16QAM 2708.33 64QAM 2692.31 LTE band 5, 3MHz Bandwidth, QPSK (99% BW) LTE band 5, 3MHz Bandwidth, 16QAM (99% BW) Copyright. All rights reserved by CTTL. A *3DBRBW 30 kHz*VBW 100 kHzSWT 30 ms1 PKMAXHTDFOffset 0.5 dBLVLRef 20.5 dBmAtt 15 dB*Center836.5 MHzSpan10 MHz1 MHz/SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 13.91 dBm 836.259615385 MHzOBW 2.708333333 MHzT1Temp 1 [T1 OBW] 7.81 dBm 835.137820513 MHzT2Temp 2 [T1 OBW] 10.76 dBm 837.846153846 MHzDate: 16.APR.2019 19:16:01 A *3DBRBW 30 kHz*VBW 100 kHzSWT 30 ms1 PKMAXHTDFOffset 0.5 dBLVLRef 20.5 dBmAtt 15 dB*Center836.5 MHzSpan10 MHz1 MHz/SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 15.80 dBm 837.076923077 MHzOBW 2.692307692 MHzT1Temp 1 [T1 OBW] 10.94 dBm 835.153846154 MHzT2Temp 2 [T1 OBW] 12.42 dBm 837.846153846 MHzDate: 16.APR.2019 19:14:37 LTE band 5, 3MHz Bandwidth, 64QAM (99% BW) No. I19Z60845-WMD03 Page 46 of 112 Copyright. All rights reserved by CTTL. A TDFRef 30 dBmAtt 25 dB*Center836.5 MHzSpan10 MHz1 MHz/**3DBRBW 30 kHzVBW 100 kHzSWT 30 ms1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 9.87 dBm 836.740384615 MHzOBW 2.692307692 MHzT1Temp 1 [T1 OBW] 5.33 dBm 835.153846154 MHzT2Temp 2 [T1 OBW] 6.09 dBm 837.846153846 MHzDate: 17.APR.2019 14:41:05 No. I19Z60845-WMD03 Page 47 of 112 LTE band 5, 5MHz (99%) Frequency(MHz) Occupied Bandwidth (99%)(kHz) 836.5 QPSK 4519.23 16QAM 4519.23 64QAM 4495.19 LTE band 5, 5MHz Bandwidth, QPSK (99% BW) LTE band 5, 5MHz Bandwidth, 16QAM (99% BW) Copyright. All rights reserved by CTTL. A *3DBRBW 50 kHz*VBW 200 kHzSWT 10 ms1 PKMAXHTDFOffset 0.5 dBLVLRef 20.5 dBmAtt 15 dB*Center836.5 MHzSpan15 MHz1.5 MHz/SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 13.52 dBm 837.509615385 MHzOBW 4.519230769 MHzT1Temp 1 [T1 OBW] 10.46 dBm 834.240384615 MHzT2Temp 2 [T1 OBW] 10.62 dBm 838.759615385 MHzDate: 16.APR.2019 19:18:52 A *3DBRBW 50 kHz*VBW 200 kHzSWT 10 ms1 PKMAXHTDFOffset 0.5 dBLVLRef 20.5 dBmAtt 15 dB*Center836.5 MHzSpan15 MHz1.5 MHz/SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 15.00 dBm 834.985576923 MHzOBW 4.519230769 MHzT1Temp 1 [T1 OBW] 10.63 dBm 834.240384615 MHzT2Temp 2 [T1 OBW] 9.83 dBm 838.759615385 MHzDate: 16.APR.2019 19:17:27 LTE band 5, 5MHz Bandwidth, 64QAM (99% BW) No. I19Z60845-WMD03 Page 48 of 112 Copyright. All rights reserved by CTTL. A TDFRef 30 dBmAtt 25 dB*Center836.5 MHzSpan15 MHz1.5 MHz/**3DBRBW 50 kHzVBW 200 kHzSWT 10 ms1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 10.21 dBm 837.629807692 MHzOBW 4.495192308 MHzT1Temp 1 [T1 OBW] 4.91 dBm 834.264423077 MHzT2Temp 2 [T1 OBW] 5.49 dBm 838.759615385 MHzDate: 17.APR.2019 14:42:19 No. I19Z60845-WMD03 Page 49 of 112 LTE band 5, 10MHz (99%) Frequency(MHz) Occupied Bandwidth (99%)(kHz) 836.5 QPSK 8942.31 16QAM 8990.38 64QAM 8990.38 LTE band 5, 10MHz Bandwidth, QPSK (99% BW) LTE band 5, 10MHz Bandwidth, 16QAM (99% BW) Copyright. All rights reserved by CTTL. A *3DBRBW 100 kHz*VBW 300 kHzSWT 15 ms1 PKMAXHTDFOffset 0.5 dBLVLRef 20.5 dBmAtt 15 dB*Center836.5 MHzSpan30 MHz3 MHz/SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 14.69 dBm 836.692307692 MHzOBW 8.990384615 MHzT1Temp 1 [T1 OBW] 11.74 dBm 832.028846154 MHzT2Temp 2 [T1 OBW] 9.85 dBm 841.019230769 MHzDate: 16.APR.2019 19:21:42 A *3DBRBW 100 kHz*VBW 300 kHzSWT 15 ms1 PKMAXHTDFOffset 0.5 dBLVLRef 20.5 dBmAtt 15 dB*Center836.5 MHzSpan30 MHz3 MHz/SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 14.97 dBm 835.250000000 MHzOBW 8.942307692 MHzT1Temp 1 [T1 OBW] 10.28 dBm 832.028846154 MHzT2Temp 2 [T1 OBW] 12.49 dBm 840.971153846 MHzDate: 16.APR.2019 19:20:18 LTE band 5, 10MHz Bandwidth, 64QAM (99% BW) No. I19Z60845-WMD03 Page 50 of 112 Copyright. All rights reserved by CTTL. A TDFRef 30 dBmAtt 25 dB*Center836.5 MHzSpan30 MHz3 MHz/**3DBRBW 100 kHzVBW 300 kHzSWT 15 ms1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 10.20 dBm 834.673076923 MHzOBW 8.990384615 MHzT1Temp 1 [T1 OBW] 6.16 dBm 832.028846154 MHzT2Temp 2 [T1 OBW] 3.92 dBm 841.019230769 MHzDate: 17.APR.2019 14:43:40 No. I19Z60845-WMD03 Page 51 of 112 LTE band 7, 5MHz (99%) Frequency(MHz) Occupied Bandwidth (99%)(kHz) 2535.0 QPSK 4495.19 16QAM 4519.23 64QAM 4495.19 LTE band 7, 5MHz Bandwidth, QPSK (99% BW) LTE band 7, 5MHz Bandwidth, 16QAM (99% BW) Copyright. All rights reserved by CTTL. A *3DBRBW 50 kHz*VBW 200 kHzSWT 10 ms1 PKMAXHTDFOffset 1.2 dBLVLRef 21.2 dBmAtt 15 dB*Center2.535 GHzSpan15 MHz1.5 MHz/SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 12.03 dBm 2.534975962 GHzOBW 4.519230769 MHzT1Temp 1 [T1 OBW] 8.26 dBm 2.532740385 GHzT2Temp 2 [T1 OBW] 8.42 dBm 2.537259615 GHzDate: 16.APR.2019 19:24:34 A *3DBRBW 50 kHz*VBW 200 kHzSWT 10 ms1 PKMAXHTDFOffset 1.2 dBLVLRef 21.2 dBmAtt 15 dB*Center2.535 GHzSpan15 MHz1.5 MHz/SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 13.15 dBm 2.533485577 GHzOBW 4.495192308 MHzT1Temp 1 [T1 OBW] 9.31 dBm 2.532740385 GHzT2Temp 2 [T1 OBW] 10.08 dBm 2.537235577 GHzDate: 16.APR.2019 19:23:10 LTE band 7, 5MHz Bandwidth, 64QAM (99% BW) No. I19Z60845-WMD03 Page 52 of 112 Copyright. All rights reserved by CTTL. A TDFRef 30 dBmAtt 25 dB*Center2.535 GHzSpan15 MHz1.5 MHz/**3DBRBW 50 kHzVBW 200 kHzSWT 10 ms1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 10.35 dBm 2.536322115 GHzOBW 4.495192308 MHzT1Temp 1 [T1 OBW] 7.34 dBm 2.532764423 GHzT2Temp 2 [T1 OBW] 6.90 dBm 2.537259615 GHzDate: 17.APR.2019 14:45:42 No. I19Z60845-WMD03 Page 53 of 112 LTE band 7, 10MHz (99%) Frequency(MHz) Occupied Bandwidth (99%)(kHz) 2535.0 QPSK 8942.31 16QAM 8942.31 64QAM 8990.38 LTE band 7, 10MHz Bandwidth, QPSK (99% BW) LTE band 7, 10MHz Bandwidth, 16QAM (99% BW) Copyright. All rights reserved by CTTL. A *3DBRBW 100 kHz*VBW 300 kHzSWT 15 ms1 PKMAXHTDFOffset 1.2 dBLVLRef 21.2 dBmAtt 15 dB*Center2.535 GHzSpan30 MHz3 MHz/SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 13.20 dBm 2.535192308 GHzOBW 8.942307692 MHzT1Temp 1 [T1 OBW] 10.34 dBm 2.530528846 GHzT2Temp 2 [T1 OBW] 9.10 dBm 2.539471154 GHzDate: 16.APR.2019 19:27:25 A *3DBRBW 100 kHz*VBW 300 kHzSWT 15 ms1 PKMAXHTDFOffset 1.2 dBLVLRef 21.2 dBmAtt 15 dB*Center2.535 GHzSpan30 MHz3 MHz/SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 13.20 dBm 2.535000000 GHzOBW 8.942307692 MHzT1Temp 1 [T1 OBW] 9.10 dBm 2.530528846 GHzT2Temp 2 [T1 OBW] 10.01 dBm 2.539471154 GHzDate: 16.APR.2019 19:26:00 LTE band 7, 10MHz Bandwidth, 64QAM (99% BW) No. I19Z60845-WMD03 Page 54 of 112 Copyright. All rights reserved by CTTL. A TDFRef 30 dBmAtt 25 dB*Center2.535 GHzSpan30 MHz3 MHz/**3DBRBW 100 kHzVBW 300 kHzSWT 15 ms1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 10.92 dBm 2.533125000 GHzOBW 8.990384615 MHzT1Temp 1 [T1 OBW] 6.13 dBm 2.530528846 GHzT2Temp 2 [T1 OBW] 4.86 dBm 2.539519231 GHzDate: 17.APR.2019 14:46:51 No. I19Z60845-WMD03 Page 55 of 112 LTE band 7, 15MHz (99%) Frequency(MHz) Occupied Bandwidth (99%)(kHz) 2535.0 QPSK 13413.46 16QAM 13485.58 64QAM 13485.58 LTE band 7, 15MHz Bandwidth, QPSK (99% BW) LTE band 7, 15MHz Bandwidth, 16QAM (99% BW) Copyright. All rights reserved by CTTL. A *3DBRBW 200 kHz*VBW 1 MHzSWT 5 ms1 PKMAXHTDFOffset 1.2 dBLVLRef 21.2 dBmAtt 15 dB*Center2.535 GHzSpan45 MHz4.5 MHz/SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 14.27 dBm 2.536802885 GHzOBW 13.485576923 MHzT1Temp 1 [T1 OBW] 11.14 dBm 2.528293269 GHzT2Temp 2 [T1 OBW] 9.97 dBm 2.541778846 GHzDate: 16.APR.2019 19:30:16 A *3DBRBW 200 kHz*VBW 1 MHzSWT 5 ms1 PKMAXHTDFOffset 1.2 dBLVLRef 21.2 dBmAtt 15 dB*Center2.535 GHzSpan45 MHz4.5 MHz/SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 15.12 dBm 2.533125000 GHzOBW 13.413461538 MHzT1Temp 1 [T1 OBW] 11.59 dBm 2.528293269 GHzT2Temp 2 [T1 OBW] 11.72 dBm 2.541706731 GHzDate: 16.APR.2019 19:28:51 LTE band 7, 15MHz Bandwidth, 64QAM (99% BW) No. I19Z60845-WMD03 Page 56 of 112 Copyright. All rights reserved by CTTL. A TDFRef 30 dBmAtt 25 dB*Center2.535 GHzSpan45 MHz4.5 MHz/**3DBRBW 200 kHzVBW 1 MHzSWT 5 ms1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 12.60 dBm 2.537451923 GHzOBW 13.485576923 MHzT1Temp 1 [T1 OBW] 8.49 dBm 2.528293269 GHzT2Temp 2 [T1 OBW] 7.30 dBm 2.541778846 GHzDate: 17.APR.2019 14:48:01 No. I19Z60845-WMD03 Page 57 of 112 LTE band 7, 20MHz (99%) Frequency(MHz) Occupied Bandwidth (99%)(kHz) 2535.0 QPSK 17884.62 16QAM 17884.62 64QAM 17884.62 LTE band 7, 20MHz Bandwidth, QPSK (99% BW) LTE band 7, 20MHz Bandwidth, 16QAM (99% BW) Copyright. All rights reserved by CTTL. A *3DBRBW 200 kHz*VBW 1 MHzSWT 5 ms1 PKMAXHTDFOffset 1.2 dBLVLRef 21.2 dBmAtt 15 dB*Center2.535 GHzSpan60 MHz6 MHz/SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 13.91 dBm 2.537211538 GHzOBW 17.884615385 MHzT1Temp 1 [T1 OBW] 9.60 dBm 2.526057692 GHzT2Temp 2 [T1 OBW] 8.62 dBm 2.543942308 GHzDate: 16.APR.2019 19:33:06 A *3DBRBW 200 kHz*VBW 1 MHzSWT 5 ms1 PKMAXHTDFOffset 1.2 dBLVLRef 21.2 dBmAtt 15 dB*Center2.535 GHzSpan60 MHz6 MHz/SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 14.76 dBm 2.536634615 GHzOBW 17.884615385 MHzT1Temp 1 [T1 OBW] 9.55 dBm 2.526057692 GHzT2Temp 2 [T1 OBW] 10.99 dBm 2.543942308 GHzDate: 16.APR.2019 19:31:42 LTE band 7, 20MHz Bandwidth, 64QAM (99% BW) No. I19Z60845-WMD03 Page 58 of 112 Copyright. All rights reserved by CTTL. A TDFRef 30 dBmAtt 25 dB*Center2.535 GHzSpan60 MHz6 MHz/**3DBRBW 200 kHzVBW 1 MHzSWT 5 ms1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 11.38 dBm 2.529615385 GHzOBW 17.884615385 MHzT1Temp 1 [T1 OBW] 7.31 dBm 2.526153846 GHzT2Temp 2 [T1 OBW] 8.25 dBm 2.544038462 GHzDate: 17.APR.2019 14:49:18 No. I19Z60845-WMD03 Page 59 of 112 LTE band 41, 5MHz (99%) Frequency(MHz) Occupied Bandwidth (99%)(kHz) 2593.0 QPSK 4471.15 16QAM 4495.19 64QAM 4471.15 LTE band 41, 5MHz Bandwidth, QPSK (99% BW)

(cid:10) LTE band 41, 5MHz Bandwidth,16QAM (99% BW)

(cid:10) Copyright. All rights reserved by CTTL. A *3DBRBW 50 kHz*VBW 200 kHzSWT 10 ms1 PKMAXHTDFOffset 1.2 dBLVLRef 21.2 dBmAtt 15 dB*Center2.593 GHzSpan15 MHz1.5 MHz/SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 11.42 dBm 2.591653846 GHzOBW 4.495192308 MHzT1Temp 1 [T1 OBW] 7.62 dBm 2.590764423 GHzT2Temp 2 [T1 OBW] 7.30 dBm 2.595259615 GHzDate: 5.JUL.2019 13:43:04 A *3DBRBW 50 kHz*VBW 200 kHzSWT 10 ms1 PKMAXHTDFOffset 1.2 dBLVLRef 21.2 dBmAtt 15 dB*Center2.593 GHzSpan15 MHz1.5 MHz/SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 12.41 dBm 2.593745192 GHzOBW 4.471153846 MHzT1Temp 1 [T1 OBW] 9.35 dBm 2.590764423 GHzT2Temp 2 [T1 OBW] 8.73 dBm 2.595235577 GHzDate: 5.JUL.2019 13:41:40 LTE band 41, 5MHz Bandwidth, 64QAM (99% BW) No. I19Z60845-WMD03 Page 60 of 112 Copyright. All rights reserved by CTTL. A TDFRef 30 dBmAtt 25 dB*Center2.593 GHzSpan15 MHz1.5 MHz/**3DBRBW 50 kHzVBW 200 kHzSWT 10 ms1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 9.54 dBm 2.594322115 GHzOBW 4.471153846 MHzT1Temp 1 [T1 OBW] 5.65 dBm 2.590764423 GHzT2Temp 2 [T1 OBW] 5.56 dBm 2.595235577 GHzDate: 5.JUL.2019 14:40:16 No. I19Z60845-WMD03 Page 61 of 112 LTE band 41, 10MHz (99%) Frequency(MHz) Occupied Bandwidth (99%)(kHz) 2593.0 QPSK 8942.31 16QAM 8942.31 64QAM 8990.38 LTE band 41, 10MHz Bandwidth, QPSK (99% BW)

(cid:10) LTE band 41, 10MHz Bandwidth,16QAM (99% BW)

(cid:10) Copyright. All rights reserved by CTTL. A *3DBRBW 100 kHz*VBW 300 kHzSWT 15 ms1 PKMAXHTDFOffset 1.2 dBLVLRef 21.2 dBmAtt 15 dB*Center2.593 GHzSpan30 MHz3 MHz/SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 11.73 dBm 2.590115385 GHzOBW 8.942307692 MHzT1Temp 1 [T1 OBW] 7.52 dBm 2.588528846 GHzT2Temp 2 [T1 OBW] 6.70 dBm 2.597471154 GHzDate: 5.JUL.2019 13:45:53 A *3DBRBW 100 kHz*VBW 300 kHzSWT 15 ms1 PKMAXHTDFOffset 1.2 dBLVLRef 21.2 dBmAtt 15 dB*Center2.593 GHzSpan30 MHz3 MHz/SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 12.17 dBm 2.592375000 GHzOBW 8.942307692 MHzT1Temp 1 [T1 OBW] 8.61 dBm 2.588528846 GHzT2Temp 2 [T1 OBW] 9.85 dBm 2.597471154 GHzDate: 5.JUL.2019 13:44:29 LTE band 41, 10MHz Bandwidth, 64QAM (99% BW) No. I19Z60845-WMD03 Page 62 of 112 Copyright. All rights reserved by CTTL. A TDFRef 30 dBmAtt 25 dB*Center2.593 GHzSpan30 MHz3 MHz/**3DBRBW 100 kHzVBW 300 kHzSWT 15 ms1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 11.21 dBm 2.591269231 GHzOBW 8.990384615 MHzT1Temp 1 [T1 OBW] 5.79 dBm 2.588528846 GHzT2Temp 2 [T1 OBW] 5.30 dBm 2.597519231 GHzDate: 5.JUL.2019 14:41:40 No. I19Z60845-WMD03 Page 63 of 112 LTE band 41, 15MHz (99%) Frequency(MHz) Occupied Bandwidth (99%)(kHz) 2593.0 QPSK 13485.58 16QAM 13413.46 64QAM 13485.58 LTE band 41, 15MHz Bandwidth, QPSK (99% BW)

(cid:10) LTE band 41, 15MHz Bandwidth,16QAM (99% BW)

(cid:10) Copyright. All rights reserved by CTTL. A *3DBRBW 200 kHz*VBW 1 MHzSWT 5 ms1 PKMAXHTDFOffset 1.2 dBLVLRef 21.2 dBmAtt 15 dB*Center2.593 GHzSpan45 MHz4.5 MHz/SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 13.17 dBm 2.588889423 GHzOBW 13.413461538 MHzT1Temp 1 [T1 OBW] 9.50 dBm 2.586293269 GHzT2Temp 2 [T1 OBW] 8.95 dBm 2.599706731 GHzDate: 5.JUL.2019 13:48:43 A *3DBRBW 200 kHz*VBW 1 MHzSWT 5 ms1 PKMAXHTDFOffset 1.2 dBLVLRef 21.2 dBmAtt 15 dB*Center2.593 GHzSpan45 MHz4.5 MHz/SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 14.17 dBm 2.589610577 GHzOBW 13.485576923 MHzT1Temp 1 [T1 OBW] 9.57 dBm 2.586293269 GHzT2Temp 2 [T1 OBW] 8.31 dBm 2.599778846 GHzDate: 5.JUL.2019 13:47:19 LTE band 41, 15MHz Bandwidth, 64QAM (99% BW) No. I19Z60845-WMD03 Page 64 of 112 Copyright. All rights reserved by CTTL. A TDFRef 30 dBmAtt 25 dB*Center2.593 GHzSpan45 MHz4.5 MHz/**3DBRBW 200 kHzVBW 1 MHzSWT 5 ms1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 12.32 dBm 2.593072115 GHzOBW 13.485576923 MHzT1Temp 1 [T1 OBW] 6.92 dBm 2.586293269 GHzT2Temp 2 [T1 OBW] 5.88 dBm 2.599778846 GHzDate: 5.JUL.2019 14:42:59 No. I19Z60845-WMD03 Page 65 of 112 LTE band 41, 20MHz (99%) Frequency(MHz) Occupied Bandwidth (99%)(kHz) 2593.0 QPSK 17884.62 16QAM 17884.62 64QAM 17980.77 LTE band 41, 20MHz Bandwidth, QPSK (99% BW)

(cid:10) LTE band 41, 20MHz Bandwidth,16QAM (99% BW)

(cid:10) Copyright. All rights reserved by CTTL. A *3DBRBW 200 kHz*VBW 1 MHzSWT 5 ms1 PKMAXHTDFOffset 1.2 dBLVLRef 21.2 dBmAtt 15 dB*Center2.593 GHzSpan60 MHz6 MHz/SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 12.05 dBm 2.587038462 GHzOBW 17.884615385 MHzT1Temp 1 [T1 OBW] 9.21 dBm 2.584057692 GHzT2Temp 2 [T1 OBW] 6.99 dBm 2.601942308 GHzDate: 5.JUL.2019 13:51:33 A *3DBRBW 200 kHz*VBW 1 MHzSWT 5 ms1 PKMAXHTDFOffset 1.2 dBLVLRef 21.2 dBmAtt 15 dB*Center2.593 GHzSpan60 MHz6 MHz/SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 13.77 dBm 2.594634615 GHzOBW 17.884615385 MHzT1Temp 1 [T1 OBW] 10.26 dBm 2.584057692 GHzT2Temp 2 [T1 OBW] 9.63 dBm 2.601942308 GHzDate: 5.JUL.2019 13:50:09 LTE band 41, 20MHz Bandwidth, 64QAM (99% BW) No. I19Z60845-WMD03 Page 66 of 112 Copyright. All rights reserved by CTTL. A TDFRef 30 dBmAtt 25 dB*Center2.593 GHzSpan60 MHz6 MHz/**3DBRBW 200 kHzVBW 1 MHzSWT 5 ms1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 11.04 dBm 2.597038462 GHzOBW 17.980769231 MHzT1Temp 1 [T1 OBW] 6.78 dBm 2.584057692 GHzT2Temp 2 [T1 OBW] 5.90 dBm 2.602038462 GHzDate: 5.JUL.2019 14:44:18 No. I19Z60845-WMD03 Page 67 of 112 A.5 EMISSION BANDWIDTH A.5.1Emission Bandwidth Results The emission bandwidth is defined as the width of the signal between two points, one below the carrier center frequency and one above the carrier center frequency, outside of which all emissions are attenuated at least 26 dB below the transmitter power. Table below lists the measured -26dBc BW. Spectrum analyzer plots are included on the following pages. Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 68 of 112 LTE band 5, 1.4MHz (-26dBc) Frequency(MHz) Occupied Bandwidth (-26dBc)(kHz) 836.5 QPSK 1322.12 16QAM 1314.10 64QAM 1282.05 LTE band 5, 1.4MHz Bandwidth, QPSK (-26dBc BW) LTE band 5, 1.4MHz Bandwidth, 16QAM (-26dBc BW) Copyright. All rights reserved by CTTL. A 3DBRBW 20 kHzSWT 40 ms*VBW 100 kHz*Att 15 dB*TDFRef 20.5 dBmOffset 0.5 dBCenter836.5 MHzSpan5 MHz500 kHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 16.37 dBm 836.948717949 MHzndB [T1] 26.00 dB BW 1.314102564 MHzT1Temp 1 [T1 ndB] -9.85 dBm 835.834935897 MHzT2Temp 2 [T1 ndB] -9.75 dBm 837.149038462 MHzDate: 16.APR.2019 20:36:22 A 3DBRBW 20 kHzSWT 40 ms*VBW 100 kHz*Att 15 dB*TDFRef 20.5 dBmOffset 0.5 dBCenter836.5 MHzSpan5 MHz500 kHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 17.00 dBm 836.347756410 MHzndB [T1] 26.00 dB BW 1.322115385 MHzT1Temp 1 [T1 ndB] -9.13 dBm 835.818910256 MHzT2Temp 2 [T1 ndB] -8.71 dBm 837.141025641 MHzDate: 16.APR.2019 20:34:57 LTE band 5, 1.4MHz Bandwidth, 64QAM (-26dBc BW) No. I19Z60845-WMD03 Page 69 of 112 Copyright. All rights reserved by CTTL. A TDFRef 30 dBmAtt 25 dB*Center836.5 MHzSpan5 MHz500 kHz/3DBRBW 20 kHzSWT 40 ms*VBW 100 kHz*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 11.86 dBm 836.179487179 MHzndB [T1] 26.00 dB BW 1.282051282 MHzT1Temp 1 [T1 ndB] -14.12 dBm 835.858974359 MHzT2Temp 2 [T1 ndB] -13.19 dBm 837.141025641 MHzDate: 17.APR.2019 14:38:54 No. I19Z60845-WMD03 Page 70 of 112 LTE band 5, 3MHz (-26dBc) Frequency(MHz) Occupied Bandwidth (-26dBc)(kHz) 836.5 QPSK 2980.77 16QAM 2964.74 64QAM 2948.72 LTE band 5, 3MHz Bandwidth, QPSK (-26dBc BW) LTE band 5, 3MHz Bandwidth, 16QAM (-26dBc BW) Copyright. All rights reserved by CTTL. A 3DBRBW 30 kHzSWT 30 ms*VBW 100 kHz*Att 15 dB*TDFRef 20.5 dBmOffset 0.5 dBCenter836.5 MHzSpan10 MHz1 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 13.87 dBm 836.163461538 MHzndB [T1] 26.00 dB BW 2.964743590 MHzT1Temp 1 [T1 ndB] -10.82 dBm 835.009615385 MHzT2Temp 2 [T1 ndB] -12.23 dBm 837.974358974 MHzDate: 16.APR.2019 20:39:14 A 3DBRBW 30 kHzSWT 30 ms*VBW 100 kHz*Att 15 dB*TDFRef 20.5 dBmOffset 0.5 dBCenter836.5 MHzSpan10 MHz1 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 15.79 dBm 837.076923077 MHzndB [T1] 26.00 dB BW 2.980769231 MHzT1Temp 1 [T1 ndB] -9.60 dBm 835.009615385 MHzT2Temp 2 [T1 ndB] -10.81 dBm 837.990384615 MHzDate: 16.APR.2019 20:37:49 LTE band 5, 3MHz Bandwidth, 64QAM (-26dBc BW) No. I19Z60845-WMD03 Page 71 of 112 Copyright. All rights reserved by CTTL. A TDFRef 30 dBmAtt 25 dB*Center836.5 MHzSpan10 MHz1 MHz/3DBRBW 30 kHzSWT 30 ms*VBW 100 kHz*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 9.97 dBm 836.740384615 MHzndB [T1] 26.00 dB BW 2.948717949 MHzT1Temp 1 [T1 ndB] -15.46 dBm 835.025641026 MHzT2Temp 2 [T1 ndB] -15.94 dBm 837.974358974 MHzDate: 17.APR.2019 14:41:29 No. I19Z60845-WMD03 Page 72 of 112 LTE band 5, 5MHz (-26dBc) Frequency(MHz) Occupied Bandwidth (-26dBc)(kHz) 836.5 QPSK 4975.96 16QAM 4951.92 64QAM 4903.85 LTE band 5, 5MHz Bandwidth, QPSK (-26dBc BW) LTE band 5, 5MHz Bandwidth, 16QAM (-26dBc BW) Copyright. All rights reserved by CTTL. A 3DBRBW 50 kHzSWT 10 ms*VBW 200 kHz*Att 15 dB*TDFRef 20.5 dBmOffset 0.5 dBCenter836.5 MHzSpan15 MHz1.5 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 14.04 dBm 835.153846154 MHzndB [T1] 26.00 dB BW 4.951923077 MHzT1Temp 1 [T1 ndB] -12.22 dBm 834.024038462 MHzT2Temp 2 [T1 ndB] -12.71 dBm 838.975961538 MHzDate: 16.APR.2019 20:42:05 A 3DBRBW 50 kHzSWT 10 ms*VBW 200 kHz*Att 15 dB*TDFRef 20.5 dBmOffset 0.5 dBCenter836.5 MHzSpan15 MHz1.5 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 15.02 dBm 837.629807692 MHzndB [T1] 26.00 dB BW 4.975961538 MHzT1Temp 1 [T1 ndB] -9.22 dBm 834.000000000 MHzT2Temp 2 [T1 ndB] -10.87 dBm 838.975961538 MHzDate: 16.APR.2019 20:40:40 LTE band 5, 5MHz Bandwidth, 64QAM (-26dBc BW) No. I19Z60845-WMD03 Page 73 of 112 Copyright. All rights reserved by CTTL. A TDFRef 30 dBmAtt 25 dB*Center836.5 MHzSpan15 MHz1.5 MHz/3DBRBW 50 kHzSWT 10 ms*VBW 200 kHz*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 9.86 dBm 835.562500000 MHzndB [T1] 26.00 dB BW 4.903846154 MHzT1Temp 1 [T1 ndB] -17.08 dBm 834.072115385 MHzT2Temp 2 [T1 ndB] -17.22 dBm 838.975961538 MHzDate: 17.APR.2019 14:42:43 No. I19Z60845-WMD03 Page 74 of 112 LTE band 5, 10MHz (-26dBc) Frequency(MHz) Occupied Bandwidth (-26dBc)(kHz) 836.5 QPSK 9807.69 16QAM 9807.69 64QAM 9663.46 LTE band 5, 10MHz Bandwidth, QPSK (-26dBc BW) LTE band 5, 10MHz Bandwidth, 16QAM (-26dBc BW) Copyright. All rights reserved by CTTL. A 3DBRBW 100 kHzSWT 15 ms*VBW 300 kHz*Att 15 dB*TDFRef 20.5 dBmOffset 0.5 dBCenter836.5 MHzSpan30 MHz3 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 14.33 dBm 836.788461538 MHzndB [T1] 26.00 dB BW 9.807692308 MHzT1Temp 1 [T1 ndB] -11.01 dBm 831.596153846 MHzT2Temp 2 [T1 ndB] -10.55 dBm 841.403846154 MHzDate: 16.APR.2019 20:44:57 A 3DBRBW 100 kHzSWT 15 ms*VBW 300 kHz*Att 15 dB*TDFRef 20.5 dBmOffset 0.5 dBCenter836.5 MHzSpan30 MHz3 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 14.84 dBm 839.721153846 MHzndB [T1] 26.00 dB BW 9.807692308 MHzT1Temp 1 [T1 ndB] -10.67 dBm 831.596153846 MHzT2Temp 2 [T1 ndB] -11.25 dBm 841.403846154 MHzDate: 16.APR.2019 20:43:32 LTE band 5, 10MHz Bandwidth, 64QAM (-26dBc BW) No. I19Z60845-WMD03 Page 75 of 112 Copyright. All rights reserved by CTTL. A TDFRef 30 dBmAtt 25 dB*Center836.5 MHzSpan30 MHz3 MHz/3DBRBW 100 kHzSWT 15 ms*VBW 300 kHz*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 10.25 dBm 838.807692308 MHzndB [T1] 26.00 dB BW 9.663461538 MHzT1Temp 1 [T1 ndB] -14.59 dBm 831.692307692 MHzT2Temp 2 [T1 ndB] -15.63 dBm 841.355769231 MHzDate: 17.APR.2019 14:43:59 No. I19Z60845-WMD03 Page 76 of 112 LTE band 7, 5MHz (-26dBc) Frequency(MHz) Occupied Bandwidth (-26dBc)(kHz) 2535.0 QPSK 4975.96 16QAM 4975.96 64QAM 4951.92 LTE band 7, 5MHz Bandwidth, QPSK (-26dBc BW) LTE band 7, 5MHz Bandwidth,16QAM (-26dBc BW) Copyright. All rights reserved by CTTL. A 3DBRBW 50 kHzSWT 10 ms*VBW 200 kHz*Att 15 dB*TDFRef 21.2 dBmOffset 1.2 dBCenter2.535 GHzSpan15 MHz1.5 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 12.26 dBm 2.533653846 GHzndB [T1] 26.00 dB BW 4.975961538 MHzT1Temp 1 [T1 ndB] -14.40 dBm 2.532500000 GHzT2Temp 2 [T1 ndB] -12.70 dBm 2.537475962 GHzDate: 16.APR.2019 20:47:50 A 3DBRBW 50 kHzSWT 10 ms*VBW 200 kHz*Att 15 dB*TDFRef 21.2 dBmOffset 1.2 dBCenter2.535 GHzSpan15 MHz1.5 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 13.14 dBm 2.534206731 GHzndB [T1] 26.00 dB BW 4.975961538 MHzT1Temp 1 [T1 ndB] -11.74 dBm 2.532500000 GHzT2Temp 2 [T1 ndB] -12.63 dBm 2.537475962 GHzDate: 16.APR.2019 20:46:25 LTE band 7, 5MHz Bandwidth,64QAM (-26dBc BW) No. I19Z60845-WMD03 Page 77 of 112 Copyright. All rights reserved by CTTL. A TDFRef 30 dBmAtt 25 dB*Center2.535 GHzSpan15 MHz1.5 MHz/3DBRBW 50 kHzSWT 10 ms*VBW 200 kHz*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 10.46 dBm 2.534062500 GHzndB [T1] 26.00 dB BW 4.951923077 MHzT1Temp 1 [T1 ndB] -15.79 dBm 2.532524038 GHzT2Temp 2 [T1 ndB] -16.06 dBm 2.537475962 GHzDate: 17.APR.2019 14:46:03 No. I19Z60845-WMD03 Page 78 of 112 LTE band 7, 10MHz (-26dBc) Frequency(MHz) Occupied Bandwidth (-26dBc)(kHz) 2535.0 QPSK 9903.85 16QAM 9711.54 64QAM 9711.54 LTE band 7, 10MHz Bandwidth, QPSK (-26dBc BW) LTE band 7, 10MHz Bandwidth,16QAM (-26dBc BW) Copyright. All rights reserved by CTTL. A 3DBRBW 100 kHzSWT 15 ms*VBW 300 kHz*Att 15 dB*TDFRef 21.2 dBmOffset 1.2 dBCenter2.535 GHzSpan30 MHz3 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 13.01 dBm 2.535240385 GHzndB [T1] 26.00 dB BW 9.711538462 MHzT1Temp 1 [T1 ndB] -13.00 dBm 2.530144231 GHzT2Temp 2 [T1 ndB] -12.29 dBm 2.539855769 GHzDate: 16.APR.2019 20:50:42 A 3DBRBW 100 kHzSWT 15 ms*VBW 300 kHz*Att 15 dB*TDFRef 21.2 dBmOffset 1.2 dBCenter2.535 GHzSpan30 MHz3 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 13.32 dBm 2.533750000 GHzndB [T1] 26.00 dB BW 9.903846154 MHzT1Temp 1 [T1 ndB] -13.06 dBm 2.530048077 GHzT2Temp 2 [T1 ndB] -13.68 dBm 2.539951923 GHzDate: 16.APR.2019 20:49:16 LTE band 7, 10MHz Bandwidth,64QAM (-26dBc BW) No. I19Z60845-WMD03 Page 79 of 112 Copyright. All rights reserved by CTTL. A TDFRef 30 dBmAtt 25 dB*Center2.535 GHzSpan30 MHz3 MHz/3DBRBW 100 kHzSWT 15 ms*VBW 300 kHz*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 11.22 dBm 2.534951923 GHzndB [T1] 26.00 dB BW 9.711538462 MHzT1Temp 1 [T1 ndB] -15.16 dBm 2.530192308 GHzT2Temp 2 [T1 ndB] -15.01 dBm 2.539903846 GHzDate: 17.APR.2019 14:47:12 No. I19Z60845-WMD03 Page 80 of 112 LTE band 7, 15MHz (-26dBc) Frequency(MHz) Occupied Bandwidth (-26dBc)(kHz) 2535.0 QPSK 14711.54 16QAM 14711.54 64QAM 14639.42 LTE band 7, 15MHz Bandwidth, QPSK (-26dBc BW) LTE band 7, 15MHz Bandwidth,16QAM (-26dBc BW) Copyright. All rights reserved by CTTL. A 3DBRBW 200 kHzSWT 5 ms*VBW 1 MHz*Att 15 dB*TDFRef 21.2 dBmOffset 1.2 dBCenter2.535 GHzSpan45 MHz4.5 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 14.28 dBm 2.536802885 GHzndB [T1] 26.00 dB BW 14.711538462 MHzT1Temp 1 [T1 ndB] -11.04 dBm 2.527644231 GHzT2Temp 2 [T1 ndB] -12.67 dBm 2.542355769 GHzDate: 16.APR.2019 20:53:33 A 3DBRBW 200 kHzSWT 5 ms*VBW 1 MHz*Att 15 dB*TDFRef 21.2 dBmOffset 1.2 dBCenter2.535 GHzSpan45 MHz4.5 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 15.34 dBm 2.531105769 GHzndB [T1] 26.00 dB BW 14.711538462 MHzT1Temp 1 [T1 ndB] -11.61 dBm 2.527644231 GHzT2Temp 2 [T1 ndB] -11.03 dBm 2.542355769 GHzDate: 16.APR.2019 20:52:08 LTE band 7, 15MHz Bandwidth,64QAM (-26dBc BW) No. I19Z60845-WMD03 Page 81 of 112 Copyright. All rights reserved by CTTL. A TDFRef 30 dBmAtt 25 dB*Center2.535 GHzSpan45 MHz4.5 MHz/3DBRBW 200 kHzSWT 5 ms*VBW 1 MHz*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 12.54 dBm 2.537956731 GHzndB [T1] 26.00 dB BW 14.639423077 MHzT1Temp 1 [T1 ndB] -12.31 dBm 2.527716346 GHzT2Temp 2 [T1 ndB] -14.30 dBm 2.542355769 GHzDate: 17.APR.2019 14:48:21 No. I19Z60845-WMD03 Page 82 of 112 LTE band 7, 20MHz (-26dBc) Frequency(MHz) Occupied Bandwidth (-26dBc)(kHz) 2535.0 QPSK 19230.77 16QAM 19326.92 64QAM 19230.77 LTE band 7, 20MHz Bandwidth, QPSK (-26dBc BW) LTE band 7, 20MHz Bandwidth,16QAM (-26dBc BW) Copyright. All rights reserved by CTTL. A 3DBRBW 200 kHzSWT 5 ms*VBW 1 MHz*Att 15 dB*TDFRef 21.2 dBmOffset 1.2 dBCenter2.535 GHzSpan60 MHz6 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 13.38 dBm 2.537211538 GHzndB [T1] 26.00 dB BW 19.326923077 MHzT1Temp 1 [T1 ndB] -13.09 dBm 2.525384615 GHzT2Temp 2 [T1 ndB] -13.38 dBm 2.544711538 GHzDate: 16.APR.2019 20:56:25 A 3DBRBW 200 kHzSWT 5 ms*VBW 1 MHz*Att 15 dB*TDFRef 21.2 dBmOffset 1.2 dBCenter2.535 GHzSpan60 MHz6 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 14.89 dBm 2.536634615 GHzndB [T1] 26.00 dB BW 19.230769231 MHzT1Temp 1 [T1 ndB] -10.83 dBm 2.525384615 GHzT2Temp 2 [T1 ndB] -10.38 dBm 2.544615385 GHzDate: 16.APR.2019 20:55:00 LTE band 7, 20MHz Bandwidth,64QAM (-26dBc BW) No. I19Z60845-WMD03 Page 83 of 112 Copyright. All rights reserved by CTTL. A TDFRef 30 dBmAtt 25 dB*Center2.535 GHzSpan60 MHz6 MHz/3DBRBW 200 kHzSWT 5 ms*VBW 1 MHz*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 11.49 dBm 2.535288462 GHzndB [T1] 26.00 dB BW 19.230769231 MHzT1Temp 1 [T1 ndB] -14.75 dBm 2.525480769 GHzT2Temp 2 [T1 ndB] -13.62 dBm 2.544711538 GHzDate: 17.APR.2019 14:49:42 No. I19Z60845-WMD03 Page 84 of 112 LTE band 41, 5MHz (-26dBc) Frequency(MHz) Occupied Bandwidth (-26dBc)(kHz) 2593.0 QPSK 4855.77 16QAM 4951.92 64QAM 4903.85 LTE band 41, 5MHz Bandwidth, QPSK (-26dBc BW)

(cid:10) LTE band 41, 5MHz Bandwidth,16QAM (-26dBc BW)

(cid:10) Copyright. All rights reserved by CTTL. A 3DBRBW 50 kHzSWT 10 ms*VBW 200 kHz*Att 15 dB*TDFRef 21.2 dBmOffset 1.2 dBCenter2.593 GHzSpan15 MHz1.5 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 11.36 dBm 2.591605769 GHzndB [T1] 26.00 dB BW 4.951923077 MHzT1Temp 1 [T1 ndB] -15.31 dBm 2.590524038 GHzT2Temp 2 [T1 ndB] -14.20 dBm 2.595475962 GHzDate: 5.JUL.2019 13:55:09 A 3DBRBW 50 kHzSWT 10 ms*VBW 200 kHz*Att 15 dB*TDFRef 21.2 dBmOffset 1.2 dBCenter2.593 GHzSpan15 MHz1.5 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 13.01 dBm 2.592639423 GHzndB [T1] 26.00 dB BW 4.855769231 MHzT1Temp 1 [T1 ndB] -13.15 dBm 2.590572115 GHzT2Temp 2 [T1 ndB] -12.61 dBm 2.595427885 GHzDate: 5.JUL.2019 13:53:45 LTE band 41, 5MHz Bandwidth,64QAM (-26dBc BW) No. I19Z60845-WMD03 Page 85 of 112 Copyright. All rights reserved by CTTL. A TDFRef 30 dBmAtt 25 dB*Center2.593 GHzSpan15 MHz1.5 MHz/3DBRBW 50 kHzSWT 10 ms*VBW 200 kHz*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 9.63 dBm 2.594225962 GHzndB [T1] 26.00 dB BW 4.903846154 MHzT1Temp 1 [T1 ndB] -16.20 dBm 2.590548077 GHzT2Temp 2 [T1 ndB] -15.50 dBm 2.595451923 GHzDate: 5.JUL.2019 14:40:49 No. I19Z60845-WMD03 Page 86 of 112 LTE band 41, 10MHz (-26dBc) Frequency(MHz) Occupied Bandwidth (-26dBc)(kHz) 2593.0 QPSK 9759.62 16QAM 9759.62 64QAM 9759.62 LTE band 41, 10MHz Bandwidth, QPSK (-26dBc BW)

(cid:10) LTE band 41, 10MHz Bandwidth,16QAM (-26dBc BW)

(cid:10) Copyright. All rights reserved by CTTL. A 3DBRBW 100 kHzSWT 15 ms*VBW 300 kHz*Att 15 dB*TDFRef 21.2 dBmOffset 1.2 dBCenter2.593 GHzSpan30 MHz3 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 11.36 dBm 2.590115385 GHzndB [T1] 26.00 dB BW 9.759615385 MHzT1Temp 1 [T1 ndB] -14.30 dBm 2.588096154 GHzT2Temp 2 [T1 ndB] -13.72 dBm 2.597855769 GHzDate: 5.JUL.2019 13:58:00 A 3DBRBW 100 kHzSWT 15 ms*VBW 300 kHz*Att 15 dB*TDFRef 21.2 dBmOffset 1.2 dBCenter2.593 GHzSpan30 MHz3 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 12.11 dBm 2.589634615 GHzndB [T1] 26.00 dB BW 9.759615385 MHzT1Temp 1 [T1 ndB] -14.20 dBm 2.588096154 GHzT2Temp 2 [T1 ndB] -13.66 dBm 2.597855769 GHzDate: 5.JUL.2019 13:56:35 LTE band 41, 10MHz Bandwidth,64QAM (-26dBc BW) No. I19Z60845-WMD03 Page 87 of 112 Copyright. All rights reserved by CTTL. A TDFRef 30 dBmAtt 25 dB*Center2.593 GHzSpan30 MHz3 MHz/3DBRBW 100 kHzSWT 15 ms*VBW 300 kHz*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 10.75 dBm 2.591317308 GHzndB [T1] 26.00 dB BW 9.759615385 MHzT1Temp 1 [T1 ndB] -16.77 dBm 2.588144231 GHzT2Temp 2 [T1 ndB] -15.21 dBm 2.597903846 GHzDate: 5.JUL.2019 14:42:05 No. I19Z60845-WMD03 Page 88 of 112 LTE band 41, 15MHz (-26dBc) Frequency(MHz) Occupied Bandwidth (-26dBc)(kHz) 2593.0 QPSK 15072.12 16QAM 14927.88 64QAM 14639.42 LTE band 41, 15MHz Bandwidth, QPSK (-26dBc BW)

(cid:10) LTE band 41, 15MHz Bandwidth,16QAM (-26dBc BW)

(cid:10) Copyright. All rights reserved by CTTL. A 3DBRBW 200 kHzSWT 5 ms*VBW 1 MHz*Att 15 dB*TDFRef 21.2 dBmOffset 1.2 dBCenter2.593 GHzSpan45 MHz4.5 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 13.17 dBm 2.588961538 GHzndB [T1] 26.00 dB BW 14.927884615 MHzT1Temp 1 [T1 ndB] -13.24 dBm 2.585644231 GHzT2Temp 2 [T1 ndB] -12.94 dBm 2.600572115 GHzDate: 5.JUL.2019 14:00:50 A 3DBRBW 200 kHzSWT 5 ms*VBW 1 MHz*Att 15 dB*TDFRef 21.2 dBmOffset 1.2 dBCenter2.593 GHzSpan45 MHz4.5 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 13.96 dBm 2.589538462 GHzndB [T1] 26.00 dB BW 15.072115385 MHzT1Temp 1 [T1 ndB] -12.20 dBm 2.585644231 GHzT2Temp 2 [T1 ndB] -12.34 dBm 2.600716346 GHzDate: 5.JUL.2019 13:59:26 LTE band 41,15MHz Bandwidth,64QAM (-26dBc BW) No. I19Z60845-WMD03 Page 89 of 112 Copyright. All rights reserved by CTTL. A TDFRef 30 dBmAtt 25 dB*Center2.593 GHzSpan45 MHz4.5 MHz/3DBRBW 200 kHzSWT 5 ms*VBW 1 MHz*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 11.54 dBm 2.596173077 GHzndB [T1] 26.00 dB BW 14.639423077 MHzT1Temp 1 [T1 ndB] -15.03 dBm 2.585644231 GHzT2Temp 2 [T1 ndB] -14.51 dBm 2.600283654 GHzDate: 5.JUL.2019 14:43:24 No. I19Z60845-WMD03 Page 90 of 112 LTE band 41, 20MHz (-26dBc) Frequency(MHz) Occupied Bandwidth (-26dBc)(kHz) 2593.0 QPSK 19230.77 16QAM 19615.38 64QAM 19134.62 LTE band 41, 20MHz Bandwidth, QPSK (-26dBc BW)

(cid:10) LTE band 41, 20MHz Bandwidth,16QAM (-26dBc BW)

(cid:10) Copyright. All rights reserved by CTTL. A 3DBRBW 200 kHzSWT 5 ms*VBW 1 MHz*Att 15 dB*TDFRef 21.2 dBmOffset 1.2 dBCenter2.593 GHzSpan60 MHz6 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 12.56 dBm 2.595211538 GHzndB [T1] 26.00 dB BW 19.615384615 MHzT1Temp 1 [T1 ndB] -13.97 dBm 2.583000000 GHzT2Temp 2 [T1 ndB] -13.72 dBm 2.602615385 GHzDate: 5.JUL.2019 14:03:40 A 3DBRBW 200 kHzSWT 5 ms*VBW 1 MHz*Att 15 dB*TDFRef 21.2 dBmOffset 1.2 dBCenter2.593 GHzSpan60 MHz6 MHz/LVL1 PKVIEW-70-60-50-40-30-20-10010201Marker 1 [T1 ] 13.76 dBm 2.594634615 GHzndB [T1] 26.00 dB BW 19.230769231 MHzT1Temp 1 [T1 ndB] -13.19 dBm 2.583384615 GHzT2Temp 2 [T1 ndB] -13.28 dBm 2.602615385 GHzDate: 5.JUL.2019 14:02:16 LTE band 41, 20MHz Bandwidth,64QAM (-26dBc BW) No. I19Z60845-WMD03 Page 91 of 112 Copyright. All rights reserved by CTTL. A TDFRef 30 dBmAtt 25 dB*Center2.593 GHzSpan60 MHz6 MHz/3DBRBW 200 kHzSWT 5 ms*VBW 1 MHz*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 11.06 dBm 2.597038462 GHzndB [T1] 26.00 dB BW 19.134615385 MHzT1Temp 1 [T1 ndB] -14.76 dBm 2.583480769 GHzT2Temp 2 [T1 ndB] -14.38 dBm 2.602615385 GHzDate: 5.JUL.2019 14:44:38 No. I19Z60845-WMD03 Page 92 of 112 A.6 BAND EDGE COMPLIANCE A.6.1 Measurement limit Part 22.917 and Part 27.53(h) specify that the power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitting power (P) by a factor of at least 43 + 10 log(P) dB. According to KDB 971168 6.0, a relaxation of the reference bandwidth is often provided for measurements within a specified frequency range at the edge of the authorized frequency block/band. This is often implemented by permitting the use of a narrower RBW (typically limited to a minimum RBW of 1% of the OBW) for measuring the out-of-band emissions without a requirement to integrate the result over the full reference bandwidth. The specification that emissions shall be attenuated below the transmitter power (P) by at least 43

+ 10 log (P) dB, translates in the relevant power range (1 to 0.001 W) to -13 dBm. At 1 W the specified minimum attenuation becomes 43 dB and relative to a 30 dBm (1 W) carrier becomes a limit of -13 dBm. At 0.001 W (0 dBm) the minimum attenuation is 13 dB, which again yields a limit of -13 dBm. In this way a translation of the specification from relative to absolute terms is carried out. Part 27.53(m)(4) specifies for mobile digital stations, the attenuation factor shall be not less than 40 + 10 log (P) dB on all frequencies between the channel edge and 5 megahertz from the channel edge, 43 + 10 log (P) dB on all frequencies between 5 megahertz and X megahertz from the channel edge, and 55 + 10 log (P) dB on all frequencies more than X megahertz from the channel edge, where X is the greater of 6 megahertz or the actual emission bandwidth as defined in paragraph (m)(6) of this section. In addition, the attenuation factor shall not be less that 43 + 10 log (P) dB on all frequencies between 2490.5 MHz and 2496 MHz and 55 + 10 log (P) dB at or below 2490.5 MHz. Mobile Satellite Service licensees operating on frequencies below 2495 MHz may also submit a documented interference complaint against BRS licensees operating on channel BRS Channel 1 on the same terms and conditions as adjacent channel BRS or EBS licensees. Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 93 of 112 A.6.2 Measurement result Only worst case result is given below LTE band 5 OBW: 1RB-low_offset LOW BAND EDGE BLOCK-1RB-low_offset Copyright. All rights reserved by CTTL. A 3DBRBW 5 kHzSWT 200 ms**VBW 20 kHz*1 RMMAXHTDFRef 20.5 dBmOffset 0.5 dBCenter824 MHzSpan5 MHz500 kHz/LVLAtt 20 dB*SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] -40.22 dBm 824.000000000 MHzD1 -13 dBmF1F2Date: 15.MAY.2019 10:42:04 A *3DBRBW 5 kHz*VBW 20 kHzSWT 1.4 s1 PKMAXHTDFOffset 0.5 dBLVLRef 20.5 dBmAtt 15 dB*Center829 MHzSpan35 MHz3.5 MHz/SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 17.75 dBm 824.512820513 MHzOBW280.448717949 kHzT1Temp 1 [T1 OBW] 4.00 dBm 824.456730769 MHzT2Temp 2 [T1 OBW] -0.31 dBm 824.737179487 MHzDate: 15.MAY.2019 10:41:49 OBW: 1RB-high_offset No. I19Z60845-WMD03 Page 94 of 112 HIGH BAND EDGE BLOCK-1RB-high_offset Copyright. All rights reserved by CTTL. A 3DBRBW 3 kHzSWT 560 ms**VBW 10 kHz*1 RMMAXHTDFRef 20.5 dBmOffset 0.5 dBCenter849 MHzSpan5 MHz500 kHz/LVLAtt 20 dB*SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] -24.21 dBm 849.008012821 MHzD1 -13 dBmF1F2Date: 15.MAY.2019 10:53:51 A *3DBRBW 5 kHz*VBW 20 kHzSWT 1.4 s1 PKMAXHTDFOffset 0.5 dBLVLRef 20.5 dBmAtt 15 dB*Center847.5 MHzSpan35 MHz3.5 MHz/SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 18.22 dBm 848.733974359 MHzOBW224.358974359 kHzT1Temp 1 [T1 OBW] 16.93 dBm 848.677884615 MHzT2Temp 2 [T1 OBW] 0.34 dBm 848.902243590 MHzDate: 15.MAY.2019 10:53:36 LOW BAND EDGE BLOCK-10MHz-100%RB No. I19Z60845-WMD03 Page 95 of 112 HIGH BAND EDGE BLOCK-10MHz-100%RB Copyright. All rights reserved by CTTL. A 3DBRBW 100 kHzSWT 5 ms**VBW 500 kHz*1 RMMAXHTDFRef 20.5 dBmOffset 0.5 dBCenter849 MHzSpan10 MHz1 MHz/LVLAtt 20 dB*SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] -17.02 dBm 849.000000000 MHzD1 -13 dBmF1F2Date: 15.MAY.2019 10:58:45 A 3DBRBW 100 kHzSWT 5 ms**VBW 500 kHz*1 RMMAXHTDFRef 20.5 dBmOffset 0.5 dBCenter824 MHzSpan10 MHz1 MHz/LVLAtt 20 dB*SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] -17.08 dBm 824.000000000 MHzD1 -13 dBmF1F2Date: 15.MAY.2019 10:56:36 LTE band 7 OBW: 1RB-low_offset No. I19Z60845-WMD03 Page 96 of 112 Copyright. All rights reserved by CTTL. A *3DBRBW 5 kHz*VBW 20 kHzSWT 1.4 s1 PKMAXHTDFOffset 1.2 dBLVLRef 21.2 dBmAtt 15 dB*Center2.51 GHzSpan35 MHz3.5 MHz/SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 17.32 dBm 2.501081731 GHzOBW224.358974359 kHzT1Temp 1 [T1 OBW] 14.38 dBm 2.500969551 GHzT2Temp 2 [T1 OBW] 9.74 dBm 2.501193910 GHzDate: 15.MAY.2019 11:06:33 LOW BAND EDGE BLOCK-1RB-low_offset No. I19Z60845-WMD03 Page 97 of 112 Copyright. All rights reserved by CTTL. A 3DBRBW 1 MHzSWT 2.5 ms*SGL*VBW 10 MHz*1 RMAVGAtt 20 dBTDFRef-3.8 dBmOffset 1.2 dBStart2.4895 GHzStop2.495 GHz550 kHz/LVL-100-90-80-70-60-50-40-30-20-10SWP 100 of 1001Marker 1 [T1 ] -39.62 dBm 2.492294071 GHzLIMIT CHECK PASSF1F2TEST1Date: 15.MAY.2019 11:07:09 A 3DBRBW 5 kHzSWT 40 ms*SGL*VBW 20 kHz*1 RMAVGAtt 20 dBTDFRef-3.8 dBmOffset 1.2 dBStart2.495 GHzStop2.496 GHz100 kHz/LVL-100-90-80-70-60-50-40-30-20-10SWP 100 of 1001Marker 1 [T1 ] -64.75 dBm 2.495889423 GHzLIMIT CHECK PASSF1F2TEST1Date: 15.MAY.2019 11:06:54 OBW: 1RB-high_offset No. I19Z60845-WMD03 Page 98 of 112 Copyright. All rights reserved by CTTL. A *3DBRBW 5 kHz*VBW 20 kHzSWT 1.4 s1 PKMAXHTDFOffset 1.2 dBLVLRef 21.2 dBmAtt 15 dB*Center2.565 GHzSpan35 MHz3.5 MHz/SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 16.32 dBm 2.569431090 GHzOBW224.358974359 kHzT1Temp 1 [T1 OBW] 12.95 dBm 2.569318910 GHzT2Temp 2 [T1 OBW] 0.80 dBm 2.569543269 GHzDate: 15.MAY.2019 11:09:46 HIGH BAND EDGE BLOCK-1RB-high_offset No. I19Z60845-WMD03 Page 99 of 112 Copyright. All rights reserved by CTTL. A 3DBRBW 5 kHzSWT 40 ms*SGL*VBW 20 kHz*1 RMAVGAtt 20 dBTDFRef-3.8 dBmOffset 1.2 dBStart2.69 GHzStop2.691 GHz100 kHz/LVL-100-90-80-70-60-50-40-30-20-10SWP 100 of 1001Marker 1 [T1 ] -69.86 dBm 2.690546474 GHzLIMIT CHECK PASSF1F2TEST1Date: 15.MAY.2019 11:10:07 A 3DBRBW 1 MHzSWT 2.5 ms*SGL*VBW 10 MHz*1 RMAVGAtt 20 dBTDFRef-3.8 dBmOffset 1.2 dBStart2.691 GHzStop2.7 GHz900 kHz/LVL-100-90-80-70-60-50-40-30-20-10SWP 100 of 1001Marker 1 [T1 ] -46.07 dBm 2.699105769 GHzLIMIT CHECK PASSF1F2TEST1Date: 15.MAY.2019 11:10:22 LOW BAND EDGE BLOCK-20MHz-100%RB No. I19Z60845-WMD03 Page 100 of 112 Copyright. All rights reserved by CTTL. A 3DBRBW 1 MHzSWT 2.5 ms*SGL*VBW 10 MHz*1 RMAVGAtt 20 dBTDFRef-3.8 dBmOffset 1.2 dBStart2.4895 GHzStop2.495 GHz550 kHz/LVL-100-90-80-70-60-50-40-30-20-10SWP 100 of 1001Marker 1 [T1 ] -31.89 dBm 2.494427083 GHzLIMIT CHECK PASSF1F2TEST1Date: 15.MAY.2019 11:07:57 A 3DBRBW 500 kHzSWT 2.5 ms*SGL*VBW 2 MHz*1 RMAVGAtt 25 dBTDFRef 1.2 dBmOffset 1.2 dBStart2.495 GHzStop2.496 GHz100 kHz/LVL-90-80-70-60-50-40-30-20-100SWP 100 of 1001Marker 1 [T1 ] -33.69 dBm 2.495224359 GHzLIMIT CHECK PASSF1F2TEST1Date: 15.MAY.2019 11:07:42 HIGH BAND EDGE BLOCK-20MHz-100%RB No. I19Z60845-WMD03 Page 101 of 112 Copyright. All rights reserved by CTTL. A 3DBRBW 500 kHzSWT 2.5 ms*SGL*VBW 2 MHz*1 RMAVGAtt 25 dBTDFRef 1.2 dBmOffset 1.2 dBStart2.69 GHzStop2.691 GHz100 kHz/LVL-90-80-70-60-50-40-30-20-100SWP 100 of 1001Marker 1 [T1 ] -44.17 dBm 2.690676282 GHzLIMIT CHECK PASSF1F2TEST1Date: 15.MAY.2019 11:10:57 A 3DBRBW 1 MHzSWT 2.5 ms*SGL*VBW 10 MHz*1 RMAVGAtt 20 dBTDFRef-3.8 dBmOffset 1.2 dBStart2.691 GHzStop2.715 GHz2.4 MHz/LVL-100-90-80-70-60-50-40-30-20-10SWP 100 of 1001Marker 1 [T1 ] -45.08 dBm 2.714730769 GHzLIMIT CHECK PASSF1F2TEST1Date: 15.MAY.2019 11:11:12 LTE band 41 OBW: 1RB-low_offset No. I19Z60845-WMD03 Page 102 of 112

(cid:10) Copyright. All rights reserved by CTTL. Ref 21.2 dBmAtt 15 dB***Offset 1.2 dB1 PKMAXH A LVLTDF3DBRBW 5 kHzVBW 20 kHzSWT 1.4 sCenter2.5375 GHzSpan35 MHz3.5 MHz/SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 15.79 dBm 2.535368590 GHzOBW280.448717948 kHzT1Temp 1 [T1 OBW] -1.37 dBm 2.535200321 GHzT2Temp 2 [T1 OBW] -3.05 dBm 2.535480769 GHzDate: 15.JUL.2019 16:22:47 LOW BAND EDGE BLOCK-1RB-low_offset

(cid:10)

(cid:10) No. I19Z60845-WMD03 Page 103 of 112 Copyright. All rights reserved by CTTL. A 3DBRBW 1 MHzSWT 2.5 ms*SGL*VBW 10 MHz*1 RMAVGAtt 20 dBTDFRef-3.8 dBmOffset 1.2 dBStart2.4895 GHzStop2.495 GHz550 kHz/LVL-100-90-80-70-60-50-40-30-20-10SWP 100 of 1001Marker 1 [T1 ] -42.43 dBm 2.489517628 GHzLIMIT CHECK PASSF1F2TEST1Date: 15.JUL.2019 16:23:22 A 3DBRBW 10 kHzSWT 40 ms*SGL*VBW 30 kHz*1 RMAVGAtt 20 dBTDFRef-3.8 dBmOffset 1.2 dBStart2.495 GHzStop2.496 GHz100 kHz/LVL-100-90-80-70-60-50-40-30-20-10SWP 100 of 1001Marker 1 [T1 ] -62.26 dBm 2.495035256 GHzLIMIT CHECK PASSF1F2TEST1Date: 15.JUL.2019 16:23:07 OBW: 1RB-high_offset No. I19Z60845-WMD03 Page 104 of 112

(cid:10) Copyright. All rights reserved by CTTL. Ref 21.2 dBmAtt 15 dB***Offset 1.2 dB1 PKMAXH A LVLTDF3DBRBW 5 kHzVBW 20 kHzSWT 1.4 sCenter2.645 GHzSpan35 MHz3.5 MHz/SGL-70-60-50-40-30-20-10010201Marker 1 [T1 ] 17.52 dBm 2.653918269 GHzOBW280.448717948 kHzT1Temp 1 [T1 OBW] 10.17 dBm 2.653806090 GHzT2Temp 2 [T1 OBW] -3.09 dBm 2.654086538 GHzDate: 15.JUL.2019 16:30:30 HIGH BAND EDGE BLOCK-1RB-high_offset No. I19Z60845-WMD03 Page 105 of 112

(cid:10)

(cid:10) Copyright. All rights reserved by CTTL. A 3DBRBW 10 kHzSWT 40 ms*SGL*VBW 30 kHz*1 RMAVGAtt 20 dBTDFRef-3.8 dBmOffset 1.2 dBStart2.69 GHzStop2.691 GHz100 kHz/LVL-100-90-80-70-60-50-40-30-20-10SWP 100 of 1001Marker 1 [T1 ] -66.01 dBm 2.690695513 GHzLIMIT CHECK PASSF1F2TEST1Date: 15.JUL.2019 16:30:50 A 3DBRBW 1 MHzSWT 2.5 ms*SGL*VBW 10 MHz*1 RMAVGAtt 20 dBTDFRef-3.8 dBmOffset 1.2 dBStart2.691 GHzStop2.7 GHz900 kHz/LVL-100-90-80-70-60-50-40-30-20-10SWP 100 of 1001Marker 1 [T1 ] -45.84 dBm 2.699091346 GHzLIMIT CHECK PASSF1F2TEST1Date: 15.JUL.2019 16:31:05 LOW BAND EDGE BLOCK-20MHz-100%RB No. I19Z60845-WMD03 Page 106 of 112

(cid:10)

(cid:10) Copyright. All rights reserved by CTTL. A 3DBRBW 1 MHzSWT 2.5 ms*SGL*VBW 10 MHz*1 RMAVGAtt 20 dBTDFRef-3.8 dBmOffset 1.2 dBStart2.4895 GHzStop2.495 GHz550 kHz/LVL-100-90-80-70-60-50-40-30-20-10SWP 100 of 1001Marker 1 [T1 ] -42.40 dBm 2.490557692 GHzLIMIT CHECK PASSF1F2TEST1Date: 15.JUL.2019 16:34:27 A 3DBRBW 500 kHzSWT 2.5 ms*SGL*VBW 2 MHz*1 RMAVGAtt 25 dBTDFRef 1.2 dBmOffset 1.2 dBStart2.495 GHzStop2.496 GHz100 kHz/LVL-90-80-70-60-50-40-30-20-100SWP 100 of 1001Marker 1 [T1 ] -39.93 dBm 2.495732372 GHzLIMIT CHECK PASSF1F2TEST1Date: 15.JUL.2019 16:34:12 HIGH BAND EDGE BLOCK-20MHz-100%RB No. I19Z60845-WMD03 Page 107 of 112

(cid:10)

(cid:10) Copyright. All rights reserved by CTTL. A 3DBRBW 500 kHzSWT 2.5 ms*SGL*VBW 2 MHz*1 RMAVGAtt 25 dBTDFRef 1.2 dBmOffset 1.2 dBStart2.69 GHzStop2.691 GHz100 kHz/LVL-90-80-70-60-50-40-30-20-100SWP 100 of 1001Marker 1 [T1 ] -44.06 dBm 2.690631410 GHzLIMIT CHECK PASSF1F2TEST1Date: 15.JUL.2019 16:37:50 A 3DBRBW 1 MHzSWT 2.5 ms*SGL*VBW 10 MHz*1 RMAVGAtt 20 dBTDFRef-3.8 dBmOffset 1.2 dBStart2.691 GHzStop2.715 GHz2.4 MHz/LVL-100-90-80-70-60-50-40-30-20-10SWP 100 of 1001Marker 1 [T1 ] -44.71 dBm 2.715000000 GHzLIMIT CHECK PASSF1F2TEST1Date: 15.JUL.2019 16:38:04 No. I19Z60845-WMD03 Page 108 of 112 A.7 CONDUCTED SPURIOUS EMISSION A.7.1 Measurement Method The following steps outline the procedure used to measure the conducted emissions from the EUT. 1. Determine frequency range for measurements: From CFR 2.1057 the spectrum should be investigated from the lowest radio frequency generated in the equipment up to at least the 10th harmonic of the carrier frequency. For the mobile station equipment tested, this equates to a frequency range of 13 MHz to 9 GHz, data taken from 10 MHz to 25 GHz. 2. Determine EUT transmit frequencies: below outlines the band edge frequencies pertinent to conducted emissions testing. 3. The number of sweep points of spectrum analyzer is set to 30001 which is greater than span/RBW. A. 7.2 Measurement Limit Part 22.917 and Part 27.53(h) specify that the power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitting power (P) by a factor of at least 43 + 10 log(P) dB. The specification that emissions shall be attenuated below the transmitter power (P) by at least 43

+ 10 log (P) dB, translates in the relevant power range (1 to 0.001 W) to -13 dBm. At 1 W the specified minimum attenuation becomes 43 dB and relative to a 30 dBm (1 W) carrier becomes a limit of -13 dBm. At 0.001 W (0 dBm) the minimum attenuation is 13 dB, which again yields a limit of -13 dBm. In this way a translation of the specification from relative to absolute terms is carried out. Part 27.53(m)(4) specifies for mobile digital stations, the attenuation factor shall be not less than 40 + 10 log (P) dB on all frequencies between the channel edge and 5 megahertz from the channel edge, 43 + 10 log (P) dB on all frequencies between 5 megahertz and X megahertz from the channel edge, and 55 + 10 log (P) dB on all frequencies more than X megahertz from the channel edge, where X is the greater of 6 megahertz or the actual emission bandwidth as defined in paragraph (m)(6) of this section. In addition, the attenuation factor shall not be less that 43 + 10 log (P) dB on all frequencies between 2490.5 MHz and 2496 MHz and 55 + 10 log (P) dB at or below 2490.5 MHz. Mobile Satellite Service licensees operating on frequencies below 2495 MHz may also submit a documented interference complaint against BRS licensees operating on channel BRS Channel 1 on the same terms and conditions as adjacent channel BRS or EBS licensees. Copyright. All rights reserved by CTTL. No. I19Z60845-WMD03 Page 109 of 112 A. 7.2 Measurement result Only worst case result is given below LTE band 5: 30MHz 8.49GHz LTE band 7: 30MHz 26.5GHz Copyright. All rights reserved by CTTL. A 3DBRBW 1 MHz*SWT 125 ms*VBW 3 MHzTDFRef 5.5 dBmOffset 0.5 dBStart30 MHzStop8.49 GHz846 MHz/LVLAtt 20 dB**1 RMVIEW-90-80-70-60-50-40-30-20-1001Marker 1 [T1 ] 27.91 dBm 837.366000000 MHzD1 -13 dBmDate: 15.MAY.2019 11:34:19 A SGL3DBRBW 1 MHzSWT 155 ms**VBW 3 MHz*1 RMAVGTDFRef-18.8 dBmOffset 1.2 dBStart30 MHzStop26.5 GHz2.647 GHz/LVLAtt 15 dB*-110-100-90-80-70-60-50-40-30-20SWP 10 of 101Marker 1 [T1 ] 12.90 dBm 2.543767667 GHzD1 -25 dBmDate: 15.MAY.2019 11:32:59 LTE band 41: 30MHz 26.5GHz No. I19Z60845-WMD03 Page 110 of 112

(cid:10) Copyright. All rights reserved by CTTL. A SGL3DBRBW 1 MHzSWT 155 ms**VBW 3 MHz*1 RMAVGTDFRef-18.8 dBmOffset 1.2 dBStart30 MHzStop26.5 GHz2.647 GHz/LVLAtt 15 dB*-110-100-90-80-70-60-50-40-30-20SWP 10 of 101Marker 1 [T1 ] -8.00 dBm 2.534944333 GHzD1 -25 dBmDate: 15.JUL.2019 16:40:07 No. I19Z60845-WMD03 Page 111 of 112 A.8 PEAK-TO-AVERAGE POWER RATIO The peak-to-average power ratio (PAPR) of the transmitter output power must not exceed 13 dB. The PAPR measurements should be made using either an instrument with complementary cumulative distribution function (CCDF) capabilities to determine that PAPR will not exceed 13 dB for more than 0.1 percent of the time or other Commission approved procedure. The measurement must be performed using a signal corresponding to the highest PAPR expected during periods of continuous transmission. According to KDB 971168 5.7.1:

a)Refer to instruments analyzer instruction manual for details on how to use the power statistics/CCDF function;

b) Set resolution/measurement bandwidth signals occupied bandwidth;

c) Set the number of counts to a value that stabilizes the measured CCDF curve;

d) Set the measurement interval to 1 ms e)Record the maximum PAPR level associated with a probability of 0.1%

A.8.1 Measurement limit not exceed 13 dB A.8.2 Measurement results LTE band 7, 20MHz Frequency(MHz) 2510.0 LTE band 41, 20MHz Frequency(MHz) 2680.0 QPSK 6.70 QPSK 8.21 PAPR(dB) 16QAM 7.44 PAPR(dB) 16QAM 8.88 64QAM 7.76 64QAM 9.17 Copyright. All rights reserved by CTTL. ANNEX B: Accreditation Certificate No. I19Z60845-WMD03 Page 112 of 112

***END OF REPORT***

Copyright. All rights reserved by CTTL.

 

 

TEST REPORT No. I19Z60845-WMD04 for Samsung Electronics Co Ltd MULTI-BAND GSM/WCDMA/LTE PHONE WITH BLUETOOTH, WLAN Model Name: SM-T295C FCC ID: ZCASMT295C with Hardware Version: REV0.4 Software Version: T295CZCU0ASEA Issued Date: 2019-07-17 Note:

The test results in this test report relate only to the devices specified in this report. This report shall not be reproduced except in full without the written approval of CTTL The report must not be used by the client to claim product certification, approval, or endorsement by NVLAP, NIST, or any agency of the U.S.Government.. Test Laboratory:

CTTL, Telecommunication Technology Labs, CAICT No. 52, Huayuan North Road, Haidian District, Beijing, P. R. China 100191. Tel:+86(0)10-62304633-2512, Fax:+86(0)10-62304633-2504 Email: cttl_terminals@caict.ac.cn, website: www.caict.ac.cn Copyright. All rights reserved by CTTL. No. I19Z60845-WMD04 Page2 of 26 REPORT HISTORY Report Number I19Z60845-WMD04 Revision Rev.0 Description 1st edition Issue Date 2019-07-17 Copyright. All rights reserved by CTTL. No. I19Z60845-WMD04 Page3 of 26 CONTENTS 1. TEST LABORATORY ......................................................................................................................... 4 1.1. TESTING LOCATION .................................................................................................................... 4 1.2. TESTING ENVIRONMENT ........................................................................................................... 4 1.3. PROJECT DATA .............................................................................................................................. 4 1.4. SIGNATURE ..................................................................................................................................... 4 2. CLIENT INFORMATION ................................................................................................................... 5 2.1. APPLICANT INFORMATION ....................................................................................................... 5 2.2. MANUFACTURER INFORMATION ............................................................................................ 5 3. EQUIPMENT UNDER TEST (EUT) AND ANCILLARY EQUIPMENT (AE) ............................. 6 3.1. ABOUT EUT ..................................................................................................................................... 6 3.2. INTERNAL IDENTIFICATION OF EUT USED DURING THE TEST .................................... 6 3.3. INTERNAL IDENTIFICATION OF AE USED DURING THE TEST ....................................... 6 3.4. NORMAL ACCESSORY SETTING ............................................................................................... 7 3.5. GENERAL DESCRIPTION ............................................................................................................ 7 4. REFERENCE DOCUMENTS ............................................................................................................. 7 4.1. REFERENCE DOCUMENTS FOR TESTING ............................................................................. 7 5. LABORATORY ENVIRONMENT ..................................................................................................... 8 6. SUMMARY OF TEST RESULTS ....................................................................................................... 9 7. TEST EQUIPMENTS UTILIZED ...................................................................................................... 9 ANNEX A: MEASUREMENT RESULTS ................................................................................................ 10 A.1 OUTPUT POWER (22.913(A))...................................................................................................... 10 A.2 FREQUENCY STABILITY (2.1055/22.355) ............................................................................. 12 A.3 OCCUPIED BANDWIDTH (2.1049(H)(I)) ................................................................................. 14 A.4 EMISSION BANDWIDTH (22.917(B)) ..................................................................................... 16 A.5 BAND EDGE COMPLIANCE (22.917(B)) ............................................................................... 18 A.6 CONDUCTED SPURIOUS EMISSION (2.1057/22.917/24.238) ........................................... 19 ANNEX B: ACCREDITATION CERTIFICATE ..................................................................................... 26 Copyright. All rights reserved by CTTL. No. I19Z60845-WMD04 Page4 of 26 1. Test Laboratory 1.1. Introduction & Accreditation Telecommunication Technology Labs, CAICT is an ISO/IEC 17025:2005 accredited test laboratory under NATIONAL VOLUNTARY LABORATORY ACCREDITATION PROGRAM (NVLAP) with lab code 600118-0, and is also an FCC accredited test laboratory (CN5017), and ISED accredited test laboratory (CN0066). The detail accreditation scope can be found on NVLAP website. 1.2. Testing Location Location 1: CTTL(huayuan North Road) Address:

No. 52, Huayuan North Road, Haidian District, Beijing, P. R. China 100191 1.3. Testing Environment Normal Temperature:

Relative Humidity:

1.4. Project data Testing Start Date:

Testing End Date:

1.5. Signature 15-35 20-80%

2019-05-19 2019-07-16 Dong Yuan

(Prepared this test report) Zhang Yufeng

(Reviewed this test report) Zhao Hui Lin Deputy Director of the laboratory

(Approved this test report) Copyright. All rights reserved by CTTL. No. I19Z60845-WMD04 Page5 of 26 2. Client Information 2.1. Applicant Information Company Name:

Samsung Electronics Co Ltd Address /Post:

19 Chapin Rd.,Building D Pine Brook, NJ 07058 Contact Person:

Jenni Chun Contact Email:

Telephone:

Fax:

NA NA NA 2.2. Manufacturer Information Company Name:

Jiaxing Yongrui Electron Technology Co., Ltd. Address /Post:

Contact Person:

Contact Email:

Telephone:

Fax:

NO.777 Yazhong Road, Daqiao Town, Nanhu District, Jiaxing City ,Zhejiang NA NA NA NA Copyright. All rights reserved by CTTL. 3. Equipment Under Test (EUT) and Ancillary Equipment (AE) No. I19Z60845-WMD04 Page6 of 26 3.1. About EUT Description Model FCC ID Frequency Antenna MULTI-BAND GSM/WCDMA/LTE PHONE WITH BLUETOOTH, WLAN SM-T295C ZCASMT295C CDMA800MHz(BC0) Embedded Extreme vol. Limits 3.6VDC to 4.2VDC (nominal: 3.8VDC) Extreme temp. Tolerance

-10C to +55C Note: Components list, please refer to documents of the manufacturer; it is also included in the original test record of CTTL. 3.2. Internal Identification of EUT used during the test EUT ID*

IMEI HW Version SW Version Date of receipt UT16a 356221100013095 REV0.4 T295CZCU0ASEA 2019-05-09

*EUT ID: is used to identify the test sample in the lab internally. 3.3. Internal Identification of AE used during the test AE ID*

Description Battery Battery AE1 AE2 AE1 Model Manufacturer Capacitance AE2 Model Manufacturer Capacitance SWD-WT-N8 Sunwoda Electronic Co., Ltd . 4980mAh SCUD-WT-N8 SCUD(Fujian) Electronic Co., Ltd. 4980mAh

*AE ID: is used to identify the test sample in the lab internally. Copyright. All rights reserved by CTTL. No. I19Z60845-WMD04 Page7 of 26 3.4. Normal Accessory setting Fully charged battery was used during the test. 3.5. General Description The Equipment Under Test (EUT) is a model of MULTI-BAND GSM/WCDMA/LTE PHONE WITH BLUETOOTH, WLAN with embedded antenna. It consists of Hand Telephone Set and normal options: lithium battery, charger. Manual and specifications of the EUT were provided to fulfil the test. Samples undergoing test were selected by the Client. 4. Reference Documents 4.1. Reference Documents for testing The following documents listed in this section are referred for testing. Reference FCC Part 22 Title PUBLIC MOBILE SERVICES FCC Part 2 FREQUENCY ALLOCATIONS AND RADIO TREATY MATTERS;GENERAL RULES AND REGULATIONS ANSI/TIA-603-E Land Mobile FM or PM Communications Equipment Measurement and Performance Standards Version V10-1-18 Edition V10-1-18 Edition 2016 KDB 971168 D01 Measurement Guidance for Certification of Licensed Digital v03r01 Transmitters Copyright. All rights reserved by CTTL. No. I19Z60845-WMD04 Page8 of 26 5. LABORATORY ENVIRONMENT Shielding chamber did not exceed following limits along the RF testing:

Temperature Relative humidity Min. = 15 , Max. = 35 Min. =20 %, Max. = 80 %

Copyright. All rights reserved by CTTL. No. I19Z60845-WMD04 Page9 of 26 6. SUMMARY OF TEST RESULTS Items List Clause in FCC rules Verdict 1 2 3 4 5 6 Output Power Frequency Stability Occupied Bandwidth Emission Bandwidth Band Edge Compliance 22.913(a) 2.1055/22.355 2.1049(h)(i) 22.917(b) 22.917(b) Conducted Spurious Emission 2.1057/22.917 Pass Pass Pass Pass Pass Pass 7. Test Equipments Utilized NO. NAME TYPE SERIES NUMBER PRODUCER CALIBRATIO CAL DUE N INTERVAL DATE 1 Spectrum Analyzer Wireless FSV30 101576 R&S 1 Year 2020-05-03 2 Communications 8960(E5515C) MY48360950 Agilent 2 Year 2020-08-29 Test Set 3 Climatic chamber SH-641 92009050 ESPEC 2 Years 2019-12-21 Copyright. All rights reserved by CTTL. No. I19Z60845-WMD04 Page10 of 26 ANNEX A: MEASUREMENT RESULTS A.1 OUTPUT POWER A.1.1 Summary During the process of testing, the EUT was controlled via Agilent Wireless Communications Test Set (8960(E5515C)) to ensure max power transmission and proper modulation. This result is max output power conducted measurements for the EUT. In all cases, output power is within the specified limits. A.1.2 Method of Measurements The EUT was set up for the max output power with pseudo random data modulation. The power was measured with Rhode & Schwarz Spectrum Analyzer FSV30 (average). These measurements were done at 3 frequencies, 824.7MHz, 836.52MHz and 848.31MHz for CDMA 800 band (bottom, middle and top of operational frequency range) for 1x RTT and 1xEVDO . The measurement method is from KDB 971168 D01:

a) Set span to at least 1.5 times the OBW. b) Set RBW = 1-5% of the OBW, not to exceed 1 MHz. c) Set VBW 3 RBW. d) Set number of points in sweep 2 span / RBW. e) Sweep time = auto-couple. f) Detector = RMS (power averaging). g) If the EUT can be configured to transmit continuously (i.e., burst duty cycle 98%), then set the trigger to free run. h) If the EUT cannot be configured to transmit continuously (i.e., burst duty cycle < 98 %), then use a sweep trigger with the level set to enable triggering only on full power bursts and configure the EUT to transmit at full power for the entire duration of each sweep. Ensure that the sweep time is less than or equal to the transmission burst duration. i) Trace average at least 100 traces in power averaging (i.e., RMS) mode. j) Compute the power by integrating the spectrum across the OBW of the signal using the instruments band power measurement function, with the band limits set equal to the OBW band edges. If the instrument does not have a band power function, then sum the spectrum levels (in linear power units) at intervals equal to the RBW extending across the entire OBW of the spectrum. Copyright. All rights reserved by CTTL. No. I19Z60845-WMD04 Page11 of 26 A1.3 Measurement results CDMA 800 Measurement result Channel Frequency(MHz) 1013 384 777 824.70 836.52 848.31 Channel power(dBm) 1x RTT 24.73 24.78 24.80 1xEVDO Rel0 24.54 24.50 24.56 RevA 24.68 24.57 24.69 Copyright. All rights reserved by CTTL. No. I19Z60845-WMD04 Page12 of 26 A.2 FREQUENCY STABILITY A.2.1 Method of Measurement In order to measure the carrier frequency under the condition of AFC lock, it is necessary to make measurements with the EUT in a call mode. This is accomplished with the use of Agilent 8960(E5515C) Wireless Communications Test Set. 1. Measure the carrier frequency at room temperature. 2. Subject the EUT to overnight soak at -10. 3. With the EUT, powered via nominal voltage, connected to the 8960(E5515C) and in a simulated call on channel 384 for CDMA 800 measure the carrier frequency. These measurements should be made within 2 minutes of Powering up the EUT, to prevent significant self-warming. 4. Repeat the above measurements at 10 increments from -10 to +50. Allow at least 1 1/2 hours at each temperature, unpowered, before making measurements. 5. Remeasure carrier frequency at room temperature with nominal voltage. Vary supply voltage from minimum voltage to maximum voltage, in 0.1Volt increments remeasuring carrier frequency at each voltage. Pause at nominal voltage for 1 1/2 hours unpowered, to allow any self-heating to stabilize, before continuing. 6. Subject the EUT to overnight soak at +50. 7. With the EUT, powered via nominal voltage, connected to the 8960(E5515C) and in a simulated call on the centre channel, measure the carrier frequency. These measurements should be made within 2 minutes of Powering up the EUT, to prevent significant self-warming. 8. Repeat the above measurements at 10 decrements from +50 to -10. Allow at least 1 1/2 hours at each temperature, unpowered, before making measurements. 9. At all temperature levels hold the temperature to +/- 0.5 during the measurement procedure. A.2.2 Measurement Limit A.2.2.1 For Hand carried battery powered equipment According to the JTC standard the frequency stability of the carrier shall be accurate to within 0.1 ppm of the received frequency from the base station. The frequency stability shall be sufficient to ensure that the fundamental emission stays within the authorized frequency block. As this transceiver is considered "Hand carried, battery powered equipment" Section 2.1055(d)(2) applies. This requires that the lower voltage for frequency stability testing be specified by the manufacturer. This transceiver is specified to operate with an input voltage of between 3.6VDC and 4.2VDC, with a nominal voltage of 3.8VDC. Operation above or below these voltage limits is prohibited by transceiver software in order to prevent improper operation as well as to protect components from overstress. For CDMA800, according to section. 22.355, frequency tolerance cab be maintained within 2.5ppm. A.2.2.2 For equipment powered by primary supply voltage According to the JTC standard the frequency stability of the carrier shall be accurate to within 0.1 ppm of the received frequency from the base station. The frequency stability shall be sufficient to ensure that the fundamental emission stays within the authorized frequency block. For this EUT Copyright. All rights reserved by CTTL. No. I19Z60845-WMD04 Page13 of 26 section 2.1055(d)(1) applies. This requires varying primary supply voltage from 85 to 115 percent of the nominal value for other than hand carried battery equipment. For CDMA800, according to section. 22.355, frequency tolerance cab be maintained within 2.5ppm. A.2.3 Measurement results CDMA 800 Frequency Error vs Voltage Voltage(V) Frequency error(Hz) Frequency error(ppm) 3.55 3.8 4.35 2.03 0.80 1.04 0.0024 0.0010 0.0012 Frequency Error vs Temperature temperature() Frequency error(Hz) Frequency error(ppm)

-10 0 10 20 30 40 50 1.69 1.66

-0.69 1.56 1.22 1.33

-1.35 0.0020 0.0020 0.0008 0.0019 0.0015 0.0016 0.0016 Copyright. All rights reserved by CTTL. No. I19Z60845-WMD04 Page14 of 26 A.3 OCCUPIED BANDWIDTH A.3.1 Occupied Bandwidth Results Similar to conducted emissions; occupied bandwidth measurements are only provided for selected frequencies in order to reduce the amount of submitted data. Data were taken at the extreme and mid frequencies of the CDMA frequency band. The table below lists the measured 99% BW. Spectrum analyzer plots are included on the following pages. CDMA 800 (99% BW) Channel 1013 384 777 Occupied Bandwidth (99% BW)( MHz) 1.267 1.278 1.278 ANALYZER SETTINGS: RBW=20 kHz, VBW=100 kHz CDMA 800 Channel 1013-Occupied Bandwidth (99% BW) Copyright. All rights reserved by CTTL. Date: 20.MAY.2019 16:52:20 Channel 384-Occupied Bandwidth (99% BW) No. I19Z60845-WMD04 Page15 of 26 Channel 777-Occupied Bandwidth (99% BW) Copyright. All rights reserved by CTTL. Date: 20.MAY.2019 16:46:57Date: 20.MAY.2019 16:50:19 No. I19Z60845-WMD04 Page16 of 26 A.4 EMISSION BANDWIDTH A.4.1Emission Bandwidth Results Similar to conducted emissions; Emission bandwidth measurements are only provided for selected frequencies in order to reduce the amount of submitted data. Data were taken at the extreme and mid frequencies of the CDMA 800, and CDMA 1900 band. Table below lists the measured -26dBc BW. Spectrum analyzer plots are included on the following pages. CDMA 800 (-26dBc BW) Channel 1013 384 777 Emission Bandwidth (26dBc BW)( MHz) 1.423 1.423 1.423 ANALYZER SETTINGS: RBW=20 kHz, VBW=100 kHz CDMA 800 Channel 1013-Emission Bandwidth (-26dBc BW) Copyright. All rights reserved by CTTL. Date: 20.MAY.2019 16:55:09 Channel 384-Emission Bandwidth (-26dBc BW) No. I19Z60845-WMD04 Page17 of 26 Channel 777-Emission Bandwidth (-26dBc BW) Copyright. All rights reserved by CTTL. Date: 20.MAY.2019 16:57:39Date: 20.MAY.2019 16:56:20 No. I19Z60845-WMD04 Page18 of 26 A.5 BAND EDGE COMPLIANCE CDMA 800 BAND EDGE BLOCK-Channel 1013 BAND EDGE BLOCK-Channel 777 Copyright. All rights reserved by CTTL. Date: 20.MAY.2019 17:05:01Date: 20.MAY.2019 17:19:48 No. I19Z60845-WMD04 Page19 of 26 A.6 CONDUCTED SPURIOUS EMISSION A.6.1 Measurement Method The following steps outline the procedure used to measure the conducted emissions from the EUT. 1. Determine frequency range for measurements: From CFR 2.1057 the spectrum should be investigated from the lowest radio frequency generated in the equipment up to at least the 10th harmonic of the carrier frequency. 2. Determine EUT transmit frequencies: below outlines the band edge frequencies pertinent to conducted emissions testing. CDMA 800 Transmitter Channel 1013 384 777 CDMA 1900 Transmitter Channel 25 600 1175 A. 6.2 Measurement Limit Frequency (MHz) 824.70 836.52 848.31 Frequency (MHz) 1851.25 1880.00 1909.75 On any frequency outside frequency band of the USPCS spectrum, the power of any emission shall be attenuated below the transmitter power (P, in Watts) by at least 43+10Log(P) dB. For all power levels +30 dBm to 0 dBm, this becomes a constant specification limit of -13 dBm. Copyright. All rights reserved by CTTL. No. I19Z60845-WMD04 Page20 of 26 A. 6.3 Measurement result CDMA 800 A. 6.3.19 Channel 1013: 30MHz 1GHz Spurious emission limit 13dBm. NOTE: peak above the limit line is the carrier frequency. A. 6.3.20 Channel 1013: 1GHz 2.5GHz Spurious emission limit 13dBm. Copyright. All rights reserved by CTTL. Date: 20.MAY.2019 17:23:26Date: 20.MAY.2019 17:29:28 A. 6.3.21 Channel 1013: 2.5GHz 7.5GHz Spurious emission limit 13dBm. No. I19Z60845-WMD04 Page21 of 26 A. 6.3.22 Channel 1013: 7.5GHz 10GHz Spurious emission limit 13dBm. Copyright. All rights reserved by CTTL. Date: 20.MAY.2019 17:28:14Date: 20.MAY.2019 17:31:50 No. I19Z60845-WMD04 Page22 of 26 A. 6.3.23 Channel 384: 30MHz 1GHz Spurious emission limit 13dBm. NOTE: peak above the limit line is the carrier frequency. A.6.3.24 Channel 384: 1GHz 2.5GHz Spurious emission limit 13dBm. Copyright. All rights reserved by CTTL. Date: 20.MAY.2019 17:33:10Date: 20.MAY.2019 17:35:18 A. 6.3.25 Channel 384: 2.5GHz 7.5GHz Spurious emission limit 13dBm. No. I19Z60845-WMD04 Page23 of 26 A. 6.3.26 Channel 384: 7.5GHz 10GHz Spurious emission limit 13dBm. Copyright. All rights reserved by CTTL. Date: 20.MAY.2019 17:37:36Date: 20.MAY.2019 17:43:58 No. I19Z60845-WMD04 Page24 of 26 A. 6.3.27 Channel 777: 30MHz 1GHz Spurious emission limit 13dBm. NOTE: peak above the limit line is the carrier frequency. A. 6.3.28 Channel 777: 1GHz 2.5GHz Spurious emission limit 13dBm. Copyright. All rights reserved by CTTL. Date: 20.MAY.2019 17:40:56Date: 20.MAY.2019 17:42:26 A. 6.3.29 Channel 777: 2.5GHz 7.5GHz Spurious emission limit 13dBm. No. I19Z60845-WMD04 Page25 of 26 A. 6.3.30 Channel 777: 7.5GHz 10GHz Spurious emission limit 13dBm. Copyright. All rights reserved by CTTL. Date: 20.MAY.2019 17:43:09Date: 20.MAY.2019 17:38:35 ANNEX B: Accreditation Certificate No. I19Z60845-WMD04 Page26 of 26

***END OF REPORT***

Copyright. All rights reserved by CTTL.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

FCC PART 15C TEST REPORT No.I19Z60845-IOT01 for Samsung Electronics Co Ltd Multi-band GSM/WCDMA/LTE phone with Bluetooth, WLAN SM-T295C With FCC ID: ZCASMT295C Hardware Version: REV0.4 Software Version: T295CZCU0ASEA Issued Date: 2019-06-14 Note:

The test results in this test report relate only to the devices specified in this report. This report shall not be reproduced except in full without the written approval of CTTL. The report must not be used by the client to claim product certification, approval, or endorsement by NVLAP, NIST, or any agency of the U.S.Government. Test Laboratory:

CTTL, Telecommunication Technology Labs, CAICT No. 52, Huayuan North Road, Haidian District, Beijing, P. R. China 100191. Tel:+86(0)10-62304633-2512, Fax:+86(0)10-62304633-2504 Email: cttl_terminals@caict.ac.cn, website: www.caict.ac.cn No.I19Z60845-IOT01 Page2 of 86 REPORT HISTORY Report Number I19Z60845-IOT01 Revision Rev.0 Description 1st edition Issue Date 2019-06-14 No.I19Z60845-IOT01 Page3 of 86 CONTENTS 1. TEST LABORATORY ......................................................................................................................... 5 5.3. INTRODUCTION & ACCREDITATION ...................................................................................... 5 1.1. TESTING LOCATION .................................................................................................................... 5 1.2. TESTING ENVIRONMENT ........................................................................................................... 5 1.3. PROJECT DATA .............................................................................................................................. 5 1.4. SIGNATURE ..................................................................................................................................... 5 2. CLIENT INFORMATION ................................................................................................................... 6 2.1. APPLICANT INFORMATION ....................................................................................................... 6 2.2. MANUFACTURER INFORMATION ............................................................................................ 6 3. EQUIPMENT UNDER TEST (EUT) AND ANCILLARY EQUIPMENT (AE) ............................. 7 3.1. ABOUT EUT ..................................................................................................................................... 7 3.2. INTERNAL IDENTIFICATION OF EUT ..................................................................................... 7 3.3. INTERNAL IDENTIFICATION OF AE ........................................................................................ 7 3.4. GENERAL DESCRIPTION ............................................................................................................ 8 3.5. INTERPRETATION OF THE TEST ENVIRONMENT .............................................................. 8 4. REFERENCE DOCUMENTS ............................................................................................................. 8 4.1. DOCUMENTS SUPPLIED BY APPLICANT ............................................................................... 8 4.2. REFERENCE DOCUMENTS FOR TESTING ............................................................................. 8 5. TEST RESULTS ................................................................................................................................... 9 5.1. SUMMARY OF TEST RESULTS ................................................................................................... 9 5.2. STATEMENTS .................................................................................................................................. 9 5.3. EXPLANATION OF RE-USE OF TEST DATA ............................................................................ 9 6. TEST FACILITIES UTILIZED ........................................................................................................ 10 7. MEASUREMENT UNCERTAINTY ................................................................................................. 11 7.1. MAXIMUM OUTPUT POWER .................................................................................................... 11 7.2. PEAK POWER SPECTRAL DENSITY ........................................................................................ 11 7.3. DTS 6-DB SIGNAL BANDWIDTH ............................................................................................... 11 7.4. BAND EDGES COMPLIANCE ..................................................................................................... 11 7.5. TRANSMITTER SPURIOUS EMISSION .................................................................................... 11 7.6. AC POWER-LINE CONDUCTED EMISSION ........................................................................... 11 No.I19Z60845-IOT01 Page4 of 86 ANNEX A: DETAILED TEST RESULTS ................................................................................................ 12 A.1. MEASUREMENT METHOD ............................................................................................................ 12 A.2. MAXIMUM OUTPUT POWER........................................................................................................ 13 A.2.1. PEAK OUTPUT POWER-CONDUCTED ............................................................................................... 13 A.2.2. AVERAGE OUTPUT POWER-CONDUCTED ......................................................................................... 14 A.3. PEAK POWER SPECTRAL DENSITY ........................................................................................... 15 A.4. DTS 6-DB SIGNAL BANDWIDTH .................................................................................................. 21 A.5. BAND EDGES COMPLIANCE ........................................................................................................ 27 A.6. TRANSMITTER SPURIOUS EMISSION ....................................................................................... 31 A.6.1 TRANSMITTER SPURIOUS EMISSION CONDUCTED ........................................................................ 31 A.6.2 TRANSMITTER SPURIOUS EMISSION - RADIATED ............................................................................. 70 A.7. AC POWER-LINE CONDUCTED EMISSION .............................................................................. 81 ANNEX B: ACCREDITATION CERTIFICATE ..................................................................................... 86 No.I19Z60845-IOT01 Page5 of 86 1. Test Laboratory 5.3. Introduction & Accreditation Telecommunication Technology Labs, CAICT is an ISO/IEC 17025:2005 accredited test laboratory under NATIONAL VOLUNTARY LABORATORY ACCREDITATION PROGRAM

(NVLAP) with lab code 600118-0, and is also an FCC accredited test laboratory (CN5017), and ISED accredited test laboratory (CN0066). The detail accreditation scope can be found on NVLAP website. 1.1. Testing Location Location 1:CTTL(Huayuan North Road) Address:

Location 2:CTTL(BDA) Address:

No. 52, Huayuan North Road, Haidian District, Beijing, P. R. China100191 No. 18 Jia Kangding Street, BDA District, Beijing, P. R. China 100191 1.2. Testing Environment Normal Temperature:

Extreme Temperature:

Relative Humidity:

15-35

-10/+55 20-75%

1.3. Project data Testing Start Date:

Testing End Date:

2019-04-09 2019-05-27 1.4. Signature Jiang Xue

(Prepared this test report) Zheng Wei

(Reviewed this test report) Gao Hong

(Approved this test report) No.I19Z60845-IOT01 Page6 of 86 2. Client Information 2.1. Applicant Information Company Name:

Samsung Electronics Co Ltd Address:

Contact:

Email:

Tel:

Fax:

19 Chapin Rd.,Building D Pine Brook, NJ 07058 Jenni Chun

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2.2. Manufacturer Information Company Name:

Jiaxing Yongrui Electron Technology Co., Ltd. Address:

Contact:

Email:

Tel:

Fax:

NO.777 Yazhong Road, Daqiao Town, Nanhu District, Jiaxing City ,Zhejiang

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3. Equipment Under Test (EUT) and Ancillary Equipment (AE) No.I19Z60845-IOT01 Page7 of 86 3.1. About EUT Description Model name FCC ID IC ID With WLAN Function Frequency Range Type of Modulation Multi-band GSM/WCDMA/LTE phone with Bluetooth, WLAN SM-T295C ZCASMT295C

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Yes ISM 2400MHz~2483.5MHz DSSS/CCK/OFDM Number of Channels 11 Antenna Integral Antenna MAX Conducted Power 25.20dBm(OFDM) Power Supply 3.8V DC by Battery 3.2. Internal Identification of EUT EUT ID* SN or IMEI HW Version SW Version EUT1 EUT2

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REV0.4 REV0.4 T295CZCU0ASEA T295CZCU0ASEA

*EUT ID: is used to identify the test sample in the lab internally. 3.3. Internal Identification of AE AE ID* Description AE1 Battery AE2 AE3 AE4 AE5 AE1 Model Battery Charger Charger USB Cable Manufacturer Capacitance Nominal voltage AE2 Model Manufacturer Capacitance Nominal voltage AE3 Model Manufacturer Length of cable SN

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Remarks Inbuilt Inbuilt

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SWD-WT-N8 Sunwoda Electronic Co., Ltd . 4980mAh 3.82 V SCUD-WT-N8 SCUD(Fujian) Electronic Co., Ltd. 4980mAh 3.82V EP-TA50JWS RFTECH ELECTRONICS (HuiZhou) Co.,Ltd.

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AE4 Model Manufacturer Length of cable AE5 Model Manufacturer Length of cable No.I19Z60845-IOT01 Page8 of 86 EP-TA50JWE RFTECH ELECTRONICS (HuiZhou) Co.,Ltd.

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GH39-02004A RFTECH ELECTRONICS (HuiZhou) Co.,Ltd.

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AE ID: is used to identify the test sample in the lab internally. 3.4. General Description The Equipment under Test (EUT) is a model of Multi-band GSM/WCDMA/LTE phone with Bluetooth, WLAN with integrated antenna and inbuilt battery. It has Bluetooth (EDR) function. It consists of normal options: travel charger, USB cable. Manual and specifications of the EUT were provided to fulfil the test. Samples undergoing test were selected by the client. 3.5. Interpretation of the Test Environment For the test methods, the test environment uncertainty figures correspond to an expansion factor k=2. Measurement Uncertainty Parameter temperature humidity DC voltages Uncertainty 0.48C 2 %

0.003V 4. Reference Documents 4.1. Documents supplied by applicant EUT feature information is supplied by the applicant or manufacturer, which is the basis of testing. 4.2. Reference Documents for testing The following documents listed in this section are referred for testing. Reference Title FCC CFR 47, Part 15, Subpart C:

15.205 Restricted bands of operation;

Version FCC Part15 15.209 Radiated emission limits, general requirements;

2016 15.247 Operation within the bands 902-928MHz, 2400-

2483.5 MHz, and 5725-5850 MHz. American National Standard of Procedures for Compliance Testing of Unlicensed Wireless Devices 2013 ANSI C63.10 5. Test Results 5.1. Summary of Test Results SUMMARY OF MEASUREMENT RESULTS Maximum Peak Output Power Peak Power Spectral Density Occupied 6dB Bandwidth Band Edges Compliance Transmitter Spurious Emission - Conducted Transmitter Spurious Emission - Radiated AC Powerline Conducted Emission Please refer to ANNEX A for detail. No.I19Z60845-IOT01 Page9 of 86 Sub-clause of Sub-clause of Part15C 15.247 (b) 15.247 (e) 15.247 (a) 15.247 (d) 15.247 (d) 15.247, 15.205, 15.209 15.107, 15.207 IC

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Verdict BR BR BR BR BR BR BR Terms used in Verdict column P Pass, The EUT complies with the essential requirements in the standard. NP NA F Not Perform, The test was not performed by CTTL Not Applicable, The test was not applicable Fail, The EUT does not comply with the essential requirements in the standard 5.2. Statements The test cases as listed in section 5.1 of this report for the EUT specified in section 3 was performed by CTTL and according to the standards or reference documents listed in section 4.2 The EUT met all requirements of the standards or reference documents, and only the WLAN function was tested in this report. 5.3. Explanation of re-use of test data The Equipment Under Test (EUT) model SM-T295C (FCC ID: ZCASMT295C) is a variant product of SM-T295 (FCC ID: ZCASMT295), according to the declaration of changes provided by the applicant and FCC KDB publication 484596 D01, spot check measurements were performed on this device, all the test results are derived from test report No.I19Z60464-IOT11. Please refer Annex A for detail spot check verification data and reference data.the spot check test results are consistent with basic model. For detail differences between two models please refer the Declaration of Changes document. For this report, all the test cases are tested under normal temperature and normal voltage, and also under norm humidity, the specific condition is shown as follows:

Temperature Voltage Humidity 26 3.8V 44%

No.I19Z60845-IOT01 Page10 of 86 6. Test Facilities Utilized Conducted test system No. Equipment Model Serial Number Manufacturer Calibration Calibration Period Due date 1 2 3 4 Vector Signal Analyzer LISN Test Receiver Shielding room FSQ40 200089 ESH3-Z5 825562/028 ESCI 100766 Rohde &

Schwarz Rohde &

Schwarz Rohde &

Schwarz 1 year 2020-05-15 1 year 2019-08-22 1 year 2020-03-20 NQ(3.2*5.5*2.7)M P1154 hankering

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Radiated emission test system No. Equipment Model Serial Number Manufacturer Calibration Calibration Period Due date Test Receiver ESU26 100376 Rohde &

Schwarz 1 year 2019-11-27 BiLog Antenna VULB9163 9163-482 Schwarzbeck 1 year 2019-09-21 Dual-Ridge Waveguide Horn 3117 00139065 ETS-Lindgren 1 year 2019-10-15 Antenna Dual-Ridge Waveguide Horn 3116 2663 ETS-Lindgren 1 year 2019-07-09 Antenna Vector Signal Analyzer FSV40 101047 Rohde &

Schwarz 1 year 2019-07-21 1 2 3 4 5 No.I19Z60845-IOT01 Page11 of 86 7. Measurement Uncertainty 7.1. Maximum Output Power Measurement Uncertainty: 0.387dB,k=1.96 7.2. Peak Power Spectral Density Measurement Uncertainty: 0.705dB,k=1.96 7.3. DTS 6-dB Signal Bandwidth Measurement Uncertainty: 60.80Hz,k=1.96 7.4. Band Edges Compliance Measurement Uncertainty : 0.62dB,k=1.96 7.5. Transmitter Spurious Emission Conducted (k=1.96) Frequency Range 30MHz f 2GHz 2GHz f 3.6GHz 3.6GHz f 8GHz 8GHz f 12.75GHz 12.75GHz f 26GHz 26GHz f 40GHz Radiated (k=2) Frequency Range 9kHz-30MHz 30MHz f 1GHz 1GHz f 18GHz 18GHz f 40GHz 7.6. AC Power-line Conducted Emission Measurement Uncertainty : 3.10dBm,k=2 Uncertainty(dB) 1.22 1.22 1.22 1.51 1.51 1.59 Uncertainty(dB)

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5.40 4.32 5.26 No.I19Z60845-IOT01 Page12 of 86 ANNEX A: Detailed Test Results A.1. Measurement Method A.1.1. Conducted Measurements Connect the EUT to the test system as Fig.A.1.1.1 shows. Set the EUT to the required work mode. Set the EUT to the required channel. Set the Vector Signal Analyzer and start measurement. Record the values. Vector Signal Analyzer EUT Attenuator Vector Signal Analyzer Shielding room Fig.A.1.1.1: Test Setup Diagram for Conducted Measurements A.1.2. Radiated Emission Measurements In the case of radiated emission, the used settings are as follows, Sweep frequency from 30 MHz to 1GHz, RBW = 100 kHz, VBW = 300 kHz;

Sweep frequency from 1 GHz to 26GHz, RBW = 1MHz, VBW = 10Hz;

Antenna Antenna EUT Anechoic Chamber Vector Signal Analyzer (Test Receiver) Fig.A.1.2.1: Test Setup Diagram for Radiated Measurements No.I19Z60845-IOT01 Page13 of 86 A.2. Maximum Output Power Method of Measurement: See ANSI C63.10-2013-clause 11.9.1.2 a) Set the RBW = 1 MHz. b) Set the VBW = 3 MHz. c) Set the span [1.5 DTS bandwidth]. d) Detector = peak. e) Sweep time = auto couple. f) Trace mode = max hold. g) Allow trace to fully stabilize. h) Use the instruments band/channel power measurement function with the band limits set equal to the DTS bandwidth edges (for some instruments, this may require a manual override to select the peak detector). Measurement Limit:

Standard FCC CRF Part 15.247(b) Limit (dBm)

< 30 EUT ID: EUT2 A.2.1. Peak Output Power-conducted Measurement Results:

802.11b/g mode Mode Data Rate

(Mbps) 1 2 5.5 11 6 9 12 18 24 36 48 54 802.11b 802.11g 2412MHz

(Ch1) 20.35 20.52 22.07 23.53 24.72 24.28 23.70 23.22 23.25 22.89 22.60 22.51 Test Result (dBm) 2437MHz

(Ch6)

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24.08 24.91

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2462 MHz

(Ch11)

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24.45 25.20

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The data rate 11Mbps and 6Mbps are selected as worse condition, and the following cases are performed with this condition. 802.11n-HT20 mode Mode Data Rate

(Index) 802.11n

(20MHz) MCS0 MCS1 MCS2 2412MHz

(Ch1) 23.86 23.32 23.30 Test Result (dBm) 2437MHz

(Ch6) 24.21

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2462 MHz

(Ch11) 24.24

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No.I19Z60845-IOT01 Page14 of 86 MCS3 MCS4 MCS5 MCS6 MCS7 23.30 23.29 23.04 23.02 22.55

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/

The data rate MCS0 is selected as worse condition, and the following cases are performed with this condition. Conclusion: Pass A.2.2. Average Output Power-conducted Method of Measurement: See ANSI C63.10-2013-clause 11.9.2.2.2 The procedure for this method is as follows:

a) Set span = 1.5OBW. b) Set RBW = 1MHz. c) Set VBW = 3MHz d) Number of points in sweep = 625 e) Sweep time = auto. f) Detector = RMS. g) If transmit duty cycle < 98%, use a sweep trigger with the level set to enable triggering only on full power pulses. The transmitter shall operate at the maximum power control level for the entire duration of every sweep. If the EUT transmits continuously (i.e., with no OFFintervals) or at duty cycle 98%, and if each transmission is entirely at the maximum power control level, then the trigger shall be set to free run. h) Trace average 100 traces in power averaging (rms) mode. i) Compute power by integrating the spectrum across the OBW of the signal using the instruments band power measurement function, with band limits set equal to the OBW band edges. If the instrument does not have a band power function, sum the spectrum levels (in power units) at intervals equal to the RBW extending across the entire OBW of the spectrum. 802.11b/g mode Mode 802.11b 802.11g 2412MHz (Ch1) 18.01 16.76 Test Result (dBm) 2437MHz (Ch6) 2462 MHz (Ch11) 17.53 16.55 17.52 16.38 802.11n-HT20 mode Mode 2412MHz (Ch1) Test Result (dBm) 2437MHz (Ch6) 802.11n (20MHz) 16.06 15.61 2462 MHz (Ch11) 15.48 The spot check point is 802.11b Ch6 5.5Mbps, and the result is 17.68dBm. Conclusion: Pass No.I19Z60845-IOT01 Page15 of 86 A.3. Peak Power Spectral Density Method of Measurement: See ANSI C63.10-2013-clause 11.10.2 a) Set analyzer center frequency to DTS channel center frequency. b) Set the span to 1.5 times the DTS bandwidth. c) Set the RBW to RBW = 3 kHz. d) Set the VBW = 10 kHz. e) Detector = peak. f) Sweep time = auto couple. g) Trace mode = max hold. h) Allow trace to fully stabilize. i) Use the peak marker function to determine the maximum amplitude level within the RBW. Measurement Limit:

Standard FCC CRF Part 15.247(e) Measurement Results:

802.11b/g mode Limit

< 8 dBm/3 kHz Mode Channel Power Spectral Density

( dBm/3 kHz ) Conclusion 802.11b 802.11g 1 6 11 1 6 11 Fig.A.3.1 Fig.A.3.2 Fig.A.3.3 Fig.A.3.4 Fig.A.3.5 Fig.A.3.6

-4.60

-4.88

-5.69

-8.66

-8.83

-8.56 P P P P P P 802.11n-HT20 mode Mode Channel 802.11n

(HT20) 1 6 11 Conclusion: Pass Test graphs as below:

Power Spectral Density

( dBm/3 kHz ) Fig.A.3.7 Fig.A.3.8 Fig.A.3.9

-10.56

-9.97

-9.00 Conclusion P P P No.I19Z60845-IOT01 Page16 of 86 Fig.A.3.1 Power Spectral Density(802.11b,Ch1) Fig.A.3.2 Power Spectral Density (802.11b, Ch 6) No.I19Z60845-IOT01 Page17 of 86 Fig.A.3.3 Power Spectral Density (802.11b, Ch 11) Fig.A.3.4 Power Spectral Density (802.11g, Ch 1) No.I19Z60845-IOT01 Page18 of 86 Fig.A.3.5 Power Spectral Density (802.11g, Ch 6) Fig.A.3.6 Power Spectral Density (802.11g, Ch 11) No.I19Z60845-IOT01 Page19 of 86 Fig.A.3.7 Power Spectral Density (802.11n-HT20, Ch 1) Fig.A.3.8 Power Spectral Density (802.11n-HT20, Ch 6) No.I19Z60845-IOT01 Page20 of 86 Fig.A.3.9 Power Spectral Density (802.11n-HT20, Ch 11) No.I19Z60845-IOT01 Page21 of 86 A.4. DTS 6-dB Signal Bandwidth Method of Measurement: See ANSI C63.10-2013 section 11.8.1. a) Set RBW = 100 kHz. b) Set the video bandwidth (VBW) = 300 kHz. c) Detector = Peak. d) Trace mode = max hold. e) Sweep = auto couple. f) Allow the trace to stabilize. g) Measure the maximum width of the emission that is constrained by the frequencies associated with the two outermost amplitude points (upper and lower frequencies) that are attenuated by 6 dB relative to the maximum level measured in the fundamental emission. Measurement Limit:

Standard FCC 47 CFR Part 15.247 (a) EUT ID: EUT2 Measurement Result:

802.11b/g mode Mode Channel 802.11b 802.11g 1 6 11 1 6 11 802.11n-HT20 mode Mode Channel 802.11n

(HT20) 1 6 11 Conclusion: Pass Test graphs as below:

Limit (kHz) 500 Occupied 6dB Bandwidth

( kHz) Fig.A.4.1 Fig.A.4.2 Fig.A.4.3 Fig.A.4.4 Fig.A.4.5 Fig.A.4.6 9050.00 8050.00 8200.00 16350.00 16300.00 16400.00 conclusion P P P P P P Occupied 6dB Bandwidth

( kHz) Fig.A.4.7 Fig.A.4.8 Fig.A.4.9 17600.00 17600.00 17600.00 conclusion P P P No.I19Z60845-IOT01 Page22 of 86 Fig.A.4.1 Occupied 6dB Bandwidth(802.11b,Ch 1) Fig.A.4.2 Occupied 6dB Bandwidth (802.11b, Ch 6) No.I19Z60845-IOT01 Page23 of 86 Fig.A.4.3 Occupied 6dB Bandwidth (802.11b, Ch 11) Fig.A.4.4 Occupied 6dB Bandwidth (802.11g, Ch 1) No.I19Z60845-IOT01 Page24 of 86 Fig.A.4.5 Occupied 6dB Bandwidth (802.11g, Ch 6) Fig.A.4.6 Occupied 6dB Bandwidth (802.11g, Ch 11) No.I19Z60845-IOT01 Page25 of 86 Fig.A.4.7 Occupied 6dB Bandwidth (802.11n-20MHz, Ch 1) Fig.A.4.8 Occupied 6dB Bandwidth (802.11n-HT20, Ch 6) No.I19Z60845-IOT01 Page26 of 86 Fig.A.4.9 Occupied 6dB Bandwidth (802.11n-HT20, Ch 11) No.I19Z60845-IOT01 Page27 of 86 A.5. Band Edges Compliance Method of Measurement: See ANSI C63.10-2013-clause 6.10.4 Connect the spectrum analyzer to the EUT using an appropriate RF cable connected to the EUT output. Configure the spectrum analyzer settings as described below. a) Set Span = 100MHz b) Sweep Time: coupled c) Set the RBW= 100 kHz c) Set the VBW= 300 kHz d) Detector: Peak e) Trace: Max hold Measurement Limit:

Standard FCC 47 CFR Part 15.247 (d) EUT ID: EUT2 Measurement Result:

802.11b/g mode Mode 802.11b 802.11g 802.11n-HT20 mode Mode 802.11n

(HT20) Conclusion: Pass Test graphs as below:

Channel 1 11 1 11 Channel 1 11 Limit (dBc)

> 20 Test Results Fig.A.5.1 Fig.A.5.2 Fig.A.5.3 Fig.A.5.4 Conclusion P P P P Test Results Fig.A.5.5 Fig.A.5.6 Conclusion P P No.I19Z60845-IOT01 Page28 of 86 Fig.A.5.1 Band Edges (802.11b, Ch 1) Fig.A.5.2 Band Edges (802.11b, Ch 11) No.I19Z60845-IOT01 Page29 of 86 Fig.A.5.3 Band Edges (802.11g, Ch 1) Fig.A.5.4 Band Edges (802.11g, Ch 11) No.I19Z60845-IOT01 Page30 of 86 Fig.A.5.5 Band Edges (802.11n-HT20, Ch 1) Fig.A.5.6 Band Edges (802.11n-HT20, Ch 11) No.I19Z60845-IOT01 Page31 of 86 A.6. Transmitter Spurious Emission A.6.1 Transmitter Spurious Emission Conducted Method of Measurement: See ANSI C63.10-2013-clause 11.11.2 Establish a reference level by using the following procedure:

a) Set instrument center frequency to DTS channel center frequency b) Set the span to 1.5 times the DTS bandwidth c) Set the RBW= 100 kHz d) Set the VBW= 300 kHz e) Detector = Peak f) Sweep time = auto couple g) Trace mode = max hold h) Allow trace to fully stabilize i) Use the peak marker function to determine the maximum PSD level Note that the channel found to contain the maximum PSD level can be used to establish the reference level. Establish an emission level by using the following procedure:

a) Set the center frequency and span to encompass frequency range to be measured. b) Set the RBW = 100 kHz. c) Set the VBW = 300 kHz. d) Detector = peak. e) Sweep time = auto couple. f) Trace mode = max hold. g) Allow trace to fully stabilize. h) Use the peak marker function to determine the maximum amplitude level. Ensure that the amplitude of all unwanted emissions outside of the authorized frequency band

(excluding restricted frequency bands) is attenuated by at least the minimum requirements specified in 11.11. Report the three highest emissions relative to the limit. Measurement Limit:

Standard Limit FCC 47 CFR Part 15.247 (d) 20dB below peak output power in 100 kHz bandwidth EUT ID: EUT2 Measurement Results:

No.I19Z60845-IOT01 Page32 of 86 802.11b mode MODE Channel Frequency Range 1 802.11b 6 11 2.412 GHz 30 MHz ~ 1 GHz 1 GHz ~ 2.5 GHz 2.5 GHz ~ 7.5 GHz 7.5 GHz ~ 10 GHz 10 GHz ~ 15 GHz 15 GHz ~ 20 GHz 20 GHz ~ 26 GHz 2.437 GHz 30 MHz ~ 1 GHz 1 GHz ~ 2.5 GHz 2.5 GHz ~ 7.5 GHz 7.5 GHz ~ 10 GHz 10 GHz ~ 15 GHz 15 GHz ~ 20 GHz 20 GHz ~ 26 GHz 2.462 GHz 30 MHz ~ 1 GHz 1 GHz ~ 2.5 GHz 2.5 GHz ~ 7.5 GHz 7.5 GHz ~ 10 GHz 10 GHz ~ 15 GHz 15 GHz ~ 20 GHz 20 GHz ~ 26 GHz 802.11g mode MODE Channel Frequency Range 2.412 GHz 30 MHz ~ 1 GHz 1 GHz ~ 2.5 GHz 2.5 GHz ~ 7.5 GHz 7.5 GHz ~ 10 GHz 10 GHz ~ 15 GHz 15 GHz ~ 20 GHz 20 GHz ~ 26 GHz 2.437 GHz 30 MHz ~ 1 GHz 1 GHz ~ 2.5 GHz 2.5 GHz ~ 7.5 GHz 7.5 GHz ~ 10 GHz 10 GHz ~ 15 GHz 15 GHz ~ 20 GHz 20 GHz ~ 26 GHz 2.462 GHz 30 MHz ~ 1 GHz 1 GHz ~ 2.5 GHz 2.5 GHz ~ 7.5 GHz 7.5 GHz ~ 10 GHz 10 GHz ~ 15 GHz 15 GHz ~ 20 GHz 20 GHz ~ 26 GHz 1 802.11g 6 11 Test Results Fig.A.6.1.1 Fig.A.6.1.2 Fig.A.6.1.3 Fig.A.6.1.4 Fig.A.6.1.5 Fig.A.6.1.6 Fig.A.6.1.7 Fig.A.6.1.8 Fig.A.6.1.9 Fig.A.6.1.10 Fig.A.6.1.11 Fig.A.6.1.12 Fig.A.6.1.13 Fig.A.6.1.14 Fig.A.6.1.15 Fig.A.6.1.16 Fig.A.6.1.17 Fig.A.6.1.18 Fig.A.6.1.19 Fig.A.6.1.20 Fig.A.6.1.21 Fig.A.6.1.22 Fig.A.6.1.23 Fig.A.6.1.24 Test Results Fig.A.6.1.25 Fig.A.6.1.26 Fig.A.6.1.27 Fig.A.6.1.28 Fig.A.6.1.29 Fig.A.6.1.30 Fig.A.6.1.31 Fig.A.6.1.32 Fig.A.6.1.33 Fig.A.6.1.34 Fig.A.6.1.35 Fig.A.6.1.36 Fig.A.6.1.37 Fig.A.6.1.38 Fig.A.6.1.39 Fig.A.6.1.40 Fig.A.6.1.41 Fig.A.6.1.42 Fig.A.6.1.43 Fig.A.6.1.44 Fig.A.6.1.45 Fig.A.6.1.46 Fig.A.6.1.47 Fig.A.6.1.48 Conclusion P P P P P P P P P P P P P P P P P P P P P P P P Conclusion P P P P P P P P P P P P P P P P P P P P P P P P 802.11n-HT20 mode MODE Channel Frequency Range 802.11n

(HT20) 1 6 11 2.412 GHz 30 MHz ~ 1 GHz 1 GHz ~ 2.5 GHz 2.5 GHz ~ 7.5 GHz 7.5 GHz ~ 10 GHz 10 GHz ~ 15 GHz 15 GHz ~ 20 GHz 20 GHz ~ 26 GHz 2.437 GHz 30 MHz ~ 1 GHz 1 GHz ~ 2.5 GHz 2.5 GHz ~ 7.5 GHz 7.5 GHz ~ 10 GHz 10 GHz ~ 15 GHz 15 GHz ~ 20 GHz 20 GHz ~ 26 GHz 2.462 GHz 30 MHz ~ 1 GHz 1 GHz ~ 2.5 GHz 2.5 GHz ~ 7.5 GHz 7.5 GHz ~ 10 GHz 10 GHz ~ 15 GHz 15 GHz ~ 20 GHz 20 GHz ~ 26 GHz No.I19Z60845-IOT01 Page33 of 86 Test Results Fig.A.6.1.49 Fig.A.6.1.50 Fig.A.6.1.51 Fig.A.6.1.52 Fig.A.6.1.53 Fig.A.6.1.54 Fig.A.6.1.55 Fig.A.6.1.56 Fig.A.6.1.57 Fig.A.6.1.58 Fig.A.6.1.59 Fig.A.6.1.60 Fig.A.6.1.61 Fig.A.6.1.62 Fig.A.6.1.63 Fig.A.6.1.64 Fig.A.6.1.65 Fig.A.6.1.66 Fig.A.6.1.67 Fig.A.6.1.68 Fig.A.6.1.69 Fig.A.6.1.70 Fig.A.6.1.71 Fig.A.6.1.72 Conclusion P P P P P P P P P P P P P P P P P P P P P P P P No.I19Z60845-IOT01 Page34 of 86 Conclusion: Pass Test graphs as below:

Fig.A.6.1.1 Transmitter Spurious Emission - Conducted (802.11b, Ch1, Center Frequency) Fig.A.6.1.2 Transmitter Spurious Emission - Conducted (802.11b, Ch1, 30 MHz-1 GHz) No.I19Z60845-IOT01 Page35 of 86 Fig.A.6.1.3 Transmitter Spurious Emission - Conducted (802.11b, Ch1, 1 GHz-2.5 GHz) Fig.A.6.1.4 Transmitter Spurious Emission - Conducted (802.11b, Ch1, 2.5 GHz-7.5 GHz) No.I19Z60845-IOT01 Page36 of 86 Fig.A.6.1.5 Transmitter Spurious Emission - Conducted (802.11b, Ch1, 7.5 GHz-10 GHz) Fig.A.6.1.6 Transmitter Spurious Emission - Conducted (802.11b, Ch1, 10 GHz-15 GHz) No.I19Z60845-IOT01 Page37 of 86 Fig.A.6.1.7 Transmitter Spurious Emission - Conducted (802.11b, Ch1, 15 GHz-20 GHz) Fig.A.6.1.8 Transmitter Spurious Emission - Conducted (802.11b, Ch1, 20 GHz-26 GHz) No.I19Z60845-IOT01 Page38 of 86 Fig.A.6.1.9 Transmitter Spurious Emission - Conducted (802.11b, Ch6, Center Frequency) Fig.A.6.1.10 Transmitter Spurious Emission - Conducted (802.11b, Ch6, 30 MHz-1 GHz)

 

 

No.I19Z60845-IOT01 Page39 of 86 Fig.A.6.1.11 Transmitter Spurious Emission - Conducted (802.11b, Ch6, 1 GHz-2.5 GHz) Fig.A.6.1.12 Transmitter Spurious Emission - Conducted (802.11b, Ch6, 2.5 GHz-7.5 GHz) No.I19Z60845-IOT01 Page40 of 86 Fig.A.6.1.13 Transmitter Spurious Emission - Conducted (802.11b, Ch6, 7.5 GHz-10 GHz) Fig.A.6.1.14 Transmitter Spurious Emission - Conducted (802.11b, Ch6, 10 GHz-15 GHz) No.I19Z60845-IOT01 Page41 of 86 Fig.A.6.1.15 Transmitter Spurious Emission - Conducted (802.11b, Ch6, 15 GHz-20 GHz) Fig.A.6.1.16 Transmitter Spurious Emission - Conducted (802.11b, Ch6, 20 GHz-26 GHz) No.I19Z60845-IOT01 Page42 of 86 Fig.A.6.1.17 Transmitter Spurious Emission - Conducted (802.11b, Ch11, Center Frequency) Fig.A.6.1.18 Transmitter Spurious Emission - Conducted (802.11b, Ch11, 30 MHz-1 GHz) No.I19Z60845-IOT01 Page43 of 86 Fig.A.6.1.19 Transmitter Spurious Emission - Conducted (802.11b, Ch11, 1 GHz-2.5 GHz) Fig.A.6.1.20 Transmitter Spurious Emission - Conducted (802.11b, Ch11, 2.5 GHz-7.5 GHz) No.I19Z60845-IOT01 Page44 of 86 Fig.A.6.1.21 Transmitter Spurious Emission - Conducted (802.11b, Ch11, 7.5 GHz-10 GHz) Fig.A.6.1.22 Transmitter Spurious Emission - Conducted (802.11b, Ch11, 10 GHz-15 GHz) No.I19Z60845-IOT01 Page45 of 86 Fig.A.6.1.23 Transmitter Spurious Emission - Conducted (802.11b, Ch11, 15 GHz-20 GHz) Fig.A.6.1.24 Transmitter Spurious Emission - Conducted (802.11b, Ch11, 20 GHz-26 GHz) No.I19Z60845-IOT01 Page46 of 86 Fig.A.6.1.25 Transmitter Spurious Emission - Conducted (802.11g, Ch1, Center Frequency) Fig.A.6.1.26 Transmitter Spurious Emission - Conducted (802.11g, Ch1, 30 MHz-1 GHz) No.I19Z60845-IOT01 Page47 of 86 Fig.A.6.1.27 Transmitter Spurious Emission - Conducted (802.11g, Ch1, 1 GHz-2.5 GHz) Fig.A.6.1.28 Transmitter Spurious Emission - Conducted (802.11g, Ch1, 2.5 GHz-7.5 GHz) No.I19Z60845-IOT01 Page48 of 86 Fig.A.6.1.29 Transmitter Spurious Emission - Conducted (802.11g, Ch1, 7.5 GHz-10 GHz) Fig.A.6.1.30 Transmitter Spurious Emission - Conducted (802.11g, Ch1, 10 GHz-15 GHz) No.I19Z60845-IOT01 Page49 of 86 Fig.A.6.1.31 Transmitter Spurious Emission - Conducted (802.11g, Ch1, 15 GHz-20 GHz) Fig.A.6.1.32 Transmitter Spurious Emission - Conducted (802.11g, Ch1, 20 GHz-26 GHz) No.I19Z60845-IOT01 Page50 of 86 Fig.A.6.1.33 Transmitter Spurious Emission - Conducted (802.11g, Ch6, Center Frequency) Fig.A.6.1.34 Transmitter Spurious Emission - Conducted (802.11g, Ch6, 30 MHz-1 GHz) No.I19Z60845-IOT01 Page51 of 86 Fig.A.6.1.35 Transmitter Spurious Emission - Conducted (802.11g, Ch6, 1 GHz-2.5 GHz) Fig.A.6.1.36 Transmitter Spurious Emission - Conducted (802.11g, Ch6, 2.5 GHz-7.5 GHz) No.I19Z60845-IOT01 Page52 of 86 Fig.A.6.1.37 Transmitter Spurious Emission - Conducted (802.11g, Ch6, 7.5 GHz-10 GHz) Fig.A.6.1.38 Transmitter Spurious Emission - Conducted (802.11g, Ch6, 10 GHz-15 GHz) No.I19Z60845-IOT01 Page53 of 86 Fig.A.6.1.39 Transmitter Spurious Emission - Conducted (802.11g, Ch6, 15 GHz-20 GHz) Fig.A.6.1.40 Transmitter Spurious Emission - Conducted (802.11g, Ch6, 20 GHz-26 GHz) No.I19Z60845-IOT01 Page54 of 86 Fig.A.6.1.41 Transmitter Spurious Emission - Conducted (802.11g, Ch11, Center Frequency) Fig.A.6.1.42 Transmitter Spurious Emission - Conducted (802.11g, Ch11, 30 MHz-1 GHz) No.I19Z60845-IOT01 Page55 of 86 Fig.A.6.1.43 Transmitter Spurious Emission - Conducted (802.11g, Ch11, 1 GHz-2.5 GHz) Fig.A.6.1.44 Transmitter Spurious Emission - Conducted (802.11g, Ch11, 2.5 GHz-7.5 GHz) No.I19Z60845-IOT01 Page56 of 86 Fig.A.6.1.45 Transmitter Spurious Emission - Conducted (802.11g, Ch11, 7.5 GHz-10 GHz) Fig.A.6.1.46 Transmitter Spurious Emission - Conducted (802.11g, Ch11, 10 GHz-15 GHz) No.I19Z60845-IOT01 Page57 of 86 Fig.A.6.1.47 Transmitter Spurious Emission - Conducted (802.11g, Ch11, 15 GHz-20 GHz) Fig.A.6.1.48 Transmitter Spurious Emission - Conducted (802.11g, Ch11, 20 GHz-26 GHz) No.I19Z60845-IOT01 Page58 of 86 Fig.A.6.1.49 Transmitter Spurious Emission - Conducted (802.11n-HT20, Ch1, Center Frequency) Fig.A.6.1.50 Transmitter Spurious Emission - Conducted (802.11n-HT20, Ch1, 30 MHz-

1 GHz) No.I19Z60845-IOT01 Page59 of 86 Fig.A.6.1.51 Transmitter Spurious Emission - Conducted (802.11n-HT20, Ch1, 1 GHz-

2.5 GHz) Fig.A.6.1.52 Transmitter Spurious Emission - Conducted (802.11n-HT20, Ch1, 2.5 GHz-

7.5 GHz) No.I19Z60845-IOT01 Page60 of 86 Fig.A.6.1.53 Transmitter Spurious Emission - Conducted (802.11n-HT20, Ch1, 7.5 GHz-

10 GHz) Fig.A.6.1.54 Transmitter Spurious Emission - Conducted (802.11n-HT20, Ch1, 10 GHz-

15 GHz)

 

 

No.I19Z60845-IOT01 Page61 of 86 Fig.A.6.1.55 Transmitter Spurious Emission - Conducted (802.11n-HT20, Ch1, 15 GHz-

20 GHz) Fig.A.6.1.56 Transmitter Spurious Emission - Conducted (802.11n-HT20, Ch1, 20 GHz-

26 GHz) No.I19Z60845-IOT01 Page62 of 86 Fig.A.6.1.57 Transmitter Spurious Emission - Conducted (802.11n-HT20, Ch6, Center Frequency) Fig.A.6.1.58 Transmitter Spurious Emission - Conducted (802.11n-HT20, Ch6, 30 MHz-

1 GHz) No.I19Z60845-IOT01 Page63 of 86 Fig.A.6.1.59 Transmitter Spurious Emission - Conducted (802.11n-HT20, Ch6, 1 GHz-

2.5 GHz) Fig.A.6.1.60 Transmitter Spurious Emission - Conducted (802.11n-HT20, Ch6, 2.5 GHz-

7.5 GHz) No.I19Z60845-IOT01 Page64 of 86 Fig.A.6.1.61 Transmitter Spurious Emission - Conducted (802.11n-HT20, Ch6, 7.5 GHz-

10 GHz) Fig.A.6.1.62 Transmitter Spurious Emission - Conducted (802.11n-HT20, Ch6, 10 GHz-

15 GHz) No.I19Z60845-IOT01 Page65 of 86 Fig.A.6.1.63 Transmitter Spurious Emission - Conducted (802.11n-HT20, Ch6, 15 GHz-

20 GHz) Fig.A.6.1.64 Transmitter Spurious Emission - Conducted (802.11n-HT20, Ch6, 20 GHz-

26 GHz) No.I19Z60845-IOT01 Page66 of 86 Fig.A.6.1.65 Transmitter Spurious Emission - Conducted (802.11n-HT20, Ch11, Center Frequency) Fig.A.6.1.66 Transmitter Spurious Emission - Conducted (802.11n-HT20, Ch11, 30 MHz-

1 GHz) No.I19Z60845-IOT01 Page67 of 86 Fig.A.6.1.67 Transmitter Spurious Emission - Conducted (802.11n-HT20, Ch11, 1 GHz-

2.5 GHz) Fig.A.6.1.68 Transmitter Spurious Emission - Conducted (802.11n-HT20, Ch11, 2.5 GHz-7.5 GHz) No.I19Z60845-IOT01 Page68 of 86 Fig.A.6.1.69 Transmitter Spurious Emission - Conducted (802.11n-HT20, Ch11, 7.5 GHz-10 GHz) Fig.A.6.1.70 Transmitter Spurious Emission - Conducted (802.11n-HT20, Ch11, 10 GHz-

15 GHz) No.I19Z60845-IOT01 Page69 of 86 Fig.A.6.1.71 Transmitter Spurious Emission - Conducted (802.11n-HT20, Ch11, 15 GHz-

20 GHz) Fig.A.6.1.72 Transmitter Spurious Emission - Conducted (802.11n-HT20, Ch11, 20 GHz-

26 GHz) No.I19Z60845-IOT01 Page70 of 86 A.6.2 Transmitter Spurious Emission - Radiated Method of Measurement: See ANSI C63.10-2013-clause 6.4 &6.5 & 6.6 Measurement Limit:

Standard Limit FCC 47 CFR Part 15.247, 15.205, 15.209 20dB below peak output power In addition, radiated emissions which fall in the restricted bands, as defined in 15.205(a), must also comply with the radiated emission limits specified in 15.209(a) (see 15.205(c)). Limit in restricted band:

Frequency of emission Field strength(uV/m) Field strength(dBuV/m)

(MHz) 30-88 88-216 216-960 Above 960 100 150 200 500 40 43.5 46 54 Frequency (MHz) Field strength(V/m) 0.009 - 0.490 0.490 - 1.705 1.705 30.0 2400/F(kHz) 24000/F(kHz) 30 Measurement distance

(m) 300 30 30 Test Condition The EUT was placed on a non-conductive table. The measurement antenna was placed at a distance of 3/10 meters from the EUT. During the tests, the antenna height and the EUT azimuth were varied in order to identify the maximum level of emissions from the EUT. This maximization process was repeated with the EUT positioned in each of its three orthogonal orientations. Frequency of emission RBW/VBW Sweep Time(s)

(MHz) 30-1000 1000-4000 4000-18000 18000-26500 EUT ID: EUT1 100KHz/300KHz 1MHz/1MHz 1MHz/1MHz 1MHz/1MHz 5 15 40 20 No.I19Z60845-IOT01 Page71 of 86 Measurement Results:

802.11b mode Mode 802.11b Channel Power(ch1) Power(ch11) Frequency Range 2.38GHz ~2.43GHz 2.45GHz ~2.5GHz Test Results Fig.A.6.2.1 Fig.A.6.2.2 Conclusion P P 802.11g mode Mode 802.11g Channel Power(ch1) Power(ch11) Frequency Range 2.38GHz ~2.43GHz 2.45GHz ~2.5GHz Test Results Fig.A.6.2.3 Fig.A.6.2.4 Conclusion P P 802.11n-HT20 mode Mode 802.11n

(HT20) Channel Power(ch1) Power(ch11) Frequency Range 2.38GHz ~2.43GHz 2.45GHz ~2.5GHz Test Results Fig.A.6.2.5 Fig.A.6.2.6 Conclusion P P Conclusion: Pass Note:

A "reference path loss" is established and the ARpl is the attenuation of reference path loss, and including the gain of receive antenna, the gain of the preamplifier, the cable loss. PMea is the field strength recorded from the instrument. The measurement results are obtained as described below:

Result=PMea+ARpl= PMea+Cable Loss+Antenna Factor No.I19Z60845-IOT01 Page72 of 86 802.11b-Average Ch1 Frequency

(MHz) Measurement Result

(dBV/m) Cable loss

(dB) Antenna Factor

(dB/m) Receiver Reading

(dBV) Limit Margin

(dBV/m)

(dB) Antenna Pol.

(H/V) Antenna Height

(cm) Turntable angle

(deg) 46.28 46.38 45.50 37.32 40.43 41.69 2.9 2.9

-32.8

-31.7

-30.4

-29.6 32.0 32.0 34.5 36.1 37.0 39.3 11.42 11.53 43.76 32.96 33.75 32.01 54.0 54.0 54.0 54.0 54.0 54.0 7.7 7.6 8.5 16.7 13.6 12.3 H H H H H H 155 155 155 155 155 155 170 150 20 180 202 8 2388.600 2389.600 4824.000 7236.000 9648.000 12060.000 Ch6 Frequency

(MHz) Measurement Result

(dBV/m) Cable loss

(dB) Antenna Factor

(dB/m) Receiver Reading

(dBV) Limit Margin

(dBV/m)

(dB) Antenna Pol.

(H/V) Antenna Height

(cm) Turntable angle

(deg) 46.93 48.31 43.42 38.27 39.30 43.76 2.9 2.9

-32.7

-31.9

-30.7

-29.4 31.8 32.7 34.5 36.1 37.2 39.2 12.24 12.72 41.63 34.10 32.77 33.97 54.0 54.0 54.0 54.0 54.0 54.0 7.1 5.7 10.6 15.7 14.7 10.2 H H H H H H 155 155 155 155 155 155 16 48 80 8 102 118 2411.300 2462.300 4873.500 7311.000 9748.500 12184.500 Ch11 Frequency

(MHz) Measurement Result

(dBV/m) Cable loss

(dB) Antenna Factor

(dB/m) Receiver Reading

(dBV) Limit Margin

(dBV/m)

(dB) Antenna Pol.

(H/V) Antenna Height

(cm) Turntable angle

(deg) 47.12 47.04 40.65 37.95 40.25 41.56 2.9 2.9

-33.1

-31.2

-30.1

-29.7 32.8 32.7 34.5 36.0 37.3 39.2 11.43 11.36 39.23 33.10 33.00 32.09 54.0 54.0 54.0 54.0 54.0 54.0 6.9 7.0 13.4 16.0 13.7 12.4 H H H H H H 155 155 155 155 155 155 142 168 90 102 118 94 2483.700 2484.100 4924.000 7836.000 9848.000 12310.000 No.I19Z60845-IOT01 Page73 of 86 802.11b-Peak Ch1 Frequency

(MHz) Measurement Result

(dBV/m) Cable loss

(dB) Antenna Factor

(dB/m) Receiver Reading

(dBV) Limit Margin

(dBV/m)

(dB) Antenna Pol.

(H/V) Antenna Height

(cm) Turntable angle

(deg) 60.30 60.20 49.41 43.54 45.82 46.41 2.9 2.9

-32.8

-31.7

-30.4

-29.6 32.0 32.0 34.5 36.1 37.0 39.3 25.43 25.34 47.66 39.18 39.14 36.73 74.0 74.0 74.0 74.0 74.0 74.0 13.7 13.8 24.6 30.5 28.2 27.6 H H V V H H 155 155 155 155 155 155 176 154 22 176 198 0 2386.916 2389.002 4824.000 7236.000 9648.000 12060.000 Ch6 Frequency

(MHz) Measurement Result

(dBV/m) Cable loss

(dB) Antenna Factor

(dB/m) Receiver Reading

(dBV) Limit Margin

(dBV/m)

(dB) Antenna Pol.

(H/V) Antenna Height

(cm) Turntable angle

(deg) 48.14 48.38 48.84 44.81 44.38 48.00

-27.0

-26.3

-32.7

-31.9

-30.7

-29.4 32.0 32.3 34.5 36.1 37.2 39.2 43.14 42.36 47.04 40.64 37.85 38.20 74.0 74.0 74.0 74.0 74.0 74.0 25.9 25.6 25.2 29.2 29.6 26.0 H H V V H H 155 155 155 155 155 155 22 44 88 0 110 132 2369.800 2502.000 4874.000 7311.000 9748.000 12185.000 Ch11 Frequency

(MHz) Measurement Result

(dBV/m) Cable loss

(dB) Antenna Factor

(dB/m) Receiver Reading

(dBV) Limit Margin

(dBV/m)

(dB) Antenna Pol.

(H/V) Antenna Height

(cm) Turntable angle

(deg) 60.37 60.68 46.54 44.44 46.07 45.68 2.9 2.9

-33.1

-31.8

-30.1

-29.7 32.7 32.7 34.5 36.0 37.3 39.2 24.68 25.09 45.12 40.24 38.81 36.20 74.0 74.0 74.0 74.0 74.0 74.0 13.6 13.3 27.5 29.6 27.9 28.3 H V H V V V 155 155 155 155 155 155 132 154 88 110 110 88 2483.970 2487.340 4924.000 7386.000 9848.000 12310.000 No.I19Z60845-IOT01 Page74 of 86 802.11g - Average Ch1 Frequency

(MHz) Measurement Result

(dBV/m) Cable loss

(dB) Antenna Factor

(dB/m) Receiver Reading

(dBV) Limit Margin

(dBV/m)

(dB) Antenna Pol.

(H/V) Antenna Height

(cm) Turntable angle

(deg) 47.50 47.65 34.94 37.29 40.51 41.65 2.9 2.9

-32.8

-31.7

-30.4

-29.6 32.0 32.0 34.5 36.1 37.0 39.3 12.65 12.80 33.20 32.93 33.83 31.97 54.0 54.0 54.0 54.0 54.0 54.0 6.5 6.4 19.1 16.7 13.5 12.4 H H H H H H 155 155 155 155 155 155 46 60 116 8 128 94 2389.400 2389.600 4821.000 7236.000 9648.000 12060.000 Ch6 Frequency

(MHz) Measurement Result

(dBV/m) Cable loss

(dB) Antenna Factor

(dB/m) Receiver Reading

(dBV) Limit Margin

(dBV/m)

(dB) Antenna Pol.

(H/V) Antenna Height

(cm) Turntable angle

(deg) 47.07 46.94 33.60 38.18 39.26 43.80 2.9 2.9

-32.7

-31.9

-30.7

-29.4 31.8 32.9 34.5 36.1 37.2 39.2 12.38 11.15 31.80 34.01 32.73 34.01 54.0 54.0 54.0 54.0 54.0 54.0 6.9 7.1 20.4 15.8 14.7 10.2 H H H H H H 155 155 155 155 155 155 28 248 38 98 183 356 2411.900 2470.000 4868.000 7311.000 9748.000 12185.000 Ch11 Frequency

(MHz) Measurement Result

(dBV/m) Cable loss

(dB) Antenna Factor

(dB/m) Receiver Reading

(dBV) Limit Margin

(dBV/m)

(dB) Antenna Pol.

(H/V) Antenna Height

(cm) Turntable angle

(deg) 46.46 46.37 34.08 38.71 40.16 41.58 2.9 2.9

-33.1

-31.8

-30.1

-29.7 32.5 32.5 34.5 36.0 37.3 39.2 11.01 10.96 32.67 34.50 32.90 32.11 54.0 54.0 54.0 54.0 54.0 54.0 7.5 7.6 19.9 15.3 13.8 12.4 H H H H H H 155 155 155 155 155 155 28 49 246 182 94 42 2492.500 2493.800 4925.000 7386.000 9848.000 12310.000 No.I19Z60845-IOT01 Page75 of 86 802.11g - Peak Ch1 Frequency

(MHz) Measurement Result

(dBV/m) Cable loss

(dB) Antenna Factor

(dB/m) Receiver Reading

(dBV) Limit Margin

(dBV/m)

(dB) Antenna Pol.

(H/V) Antenna Height

(cm) Turntable angle

(deg) 67.69 66.09 47.17 42.56 44.44 45.97 2.9 2.9

-32.7

-31.7

-30.4

-29.6 32.0 32.0 34.5 36.1 37.0 39.3 32.84 31.24 45.40 38.20 37.76 36.29 74.0 74.0 74.0 74.0 74.0 74.0 6.3 7.9 26.8 31.4 29.6 28.0 H H V V H H 155 155 155 155 155 155 44 66 110 0 132 88 2389.772 2389.982 4828.000 7236.000 9648.000 12060.000 Ch6 Frequency

(MHz) Measurement Result

(dBV/m) Cable loss

(dB) Antenna Factor

(dB/m) Receiver Reading

(dBV) Limit Margin

(dBV/m)

(dB) Antenna Pol.

(H/V) Antenna Height

(cm) Turntable angle

(deg) 47.93 47.99 43.02 44.05 43.78 47.99

-26.6

-26.4

-32.7

-31.9

-30.7

-29.4 32.1 32.4 34.5 36.1 37.2 39.2 42.45 41.98 41.22 39.88 37.25 38.19 74.0 74.0 74.0 74.0 74.0 74.0 26.1 26.0 31.0 30.0 30.2 26.0 H H V H V H 155 155 155 155 155 155 22 242 44 88 176 0 2375.400 2504.800 4867.000 7311.000 9748.000 12185.000 Ch11 Frequency

(MHz) Measurement Result

(dBV/m) Cable loss

(dB) Antenna Factor

(dB/m) Receiver Reading

(dBV) Limit Margin

(dBV/m)

(dB) Antenna Pol.

(H/V) Antenna Height

(cm) Turntable angle

(deg) 69.32 67.94 42.22 44.48 45.45 44.79 2.9 2.9

-33.1

-31.8

-30.1

-29.7 32.8 32.7 34.5 36.0 37.3 39.2 33.63 32.26 40.80 40.28 38.20 35.32 74.0 74.0 74.0 74.0 74.0 74.0 4.7 6.1 31.8 29.5 28.5 29.2 H H V H V V 155 155 155 155 155 155 22 44 242 176 88 22 2483.710 2483.910 4924.500 7386.000 9848.000 12310.000 No.I19Z60845-IOT01 Page76 of 86 802.11n-HT20-Average Ch1 Frequency

(MHz) Measurement Result

(dBV/m) Cable loss

(dB) Antenna Factor

(dB/m) Receiver Reading

(dBV) Limit Margin

(dBV/m)

(dB) Antenna Pol.

(H/V) Antenna Height

(cm) Turntable angle

(deg) 47.01 47.36 34.37 37.26 40.54 41.64 2.9 2.9

-32.8

-31.7

-30.4

-29.6 32.0 32.0 34.5 36.1 37.0 39.3 12.15 12.51 32.62 32.90 33.86 31.97 54.0 54.0 54.0 54.0 54.0 54.0 7.0 6.6 19.6 16.7 13.5 12.4 H H H H H H 155 155 155 155 155 155 132 28 38 65 4 24 2388.300 2389.100 4824.000 7236.000 9648.000 12060.000 Ch6 Frequency

(MHz) Measurement Result

(dBV/m) Cable loss

(dB) Antenna Factor

(dB/m) Receiver Reading

(dBV) Limit Margin

(dBV/m)

(dB) Antenna Pol.

(H/V) Antenna Height

(cm) Turntable angle

(deg) 46.66 46.86 33.52 38.12 39.33 43.72 2.9 2.9

-32.7

-31.9

-30.7

-29.4 31.8 32.9 34.5 36.1 37.2 39.2 11.95 11.08 31.73 33.95 32.80 33.92 54.0 54.0 54.0 54.0 54.0 54.0 7.3 7.1 20.5 15.9 14.7 10.3 H H H H H H 155 155 155 155 155 155 4 2 25 350 92 85 2408.300 2469.400 4870.000 7311.000 9748.000 12185.000 Ch11 Frequency

(MHz) Measurement Result

(dBV/m) Cable loss

(dB) Antenna Factor

(dB/m) Receiver Reading

(dBV) Limit Margin

(dBV/m)

(dB) Antenna Pol.

(H/V) Antenna Height

(cm) Turntable angle

(deg) 48.67 48.39 33.76 38.70 40.25 41.57 2.9 2.9

-33.1

-31.8

-30.1

-29.7 32.8 32.7 34.5 36.0 37.3 39.2 12.98 12.71 32.34 34.50 33.00 32.10 54.0 54.0 54.0 54.0 54.0 54.0 5.3 5.6 20.2 15.3 13.7 12.4 H H H H H H 155 155 155 155 155 155 268 138 104 40 28 8 2483.500 2484.100 4924.000 7386.000 9848.000 12310.000 No.I19Z60845-IOT01 Page77 of 86 802.11n-HT20-Peak Ch1 Frequency

(MHz) Measurement Result

(dBV/m) Cable loss

(dB) Antenna Factor

(dB/m) Receiver Reading

(dBV) Limit Margin

(dBV/m)

(dB) Antenna Pol.

(H/V) Antenna Height

(cm) Turntable angle

(deg) 68.60 69.50 44.99 43.79 45.64 45.74 2.9 2.9

-32.8

-31.7

-30.4

-29.6 32.0 32.0 34.5 36.1 37.0 39.3 33.75 34.65 43.24 39.43 38.95 36.07 74.0 74.0 74.0 74.0 74.0 74.0 5.4 4.5 29.0 30.2 28.4 28.3 H H V V V H 155 155 155 155 155 155 110 22 44 66 0 22 2389.380 2389.464 4823.500 7236.000 9648.000 12060.000 Ch6 Frequency

(MHz) Measurement Result

(dBV/m) Cable loss

(dB) Antenna Factor

(dB/m) Receiver Reading

(dBV) Limit Margin

(dBV/m)

(dB) Antenna Pol.

(H/V) Antenna Height

(cm) Turntable angle

(deg) 47.67 47.71 43.22 42.96 43.15 47.05

-27.4

-26.6

-32.7

-31.9

-30.7

-29.4 31.9 32.5 34.5 36.1 37.2 39.2 43.13 41.76 41.43 38.80 36.62 37.26 74.0 74.0 74.0 74.0 74.0 74.0 26.3 26.3 30.8 31.0 30.9 26.9 H H V V V V 155 155 155 155 155 155 0 0 22 352 88 88 2363.800 2513.800 4871.000 7311.000 9748.000 12185.000 Ch11 Frequency

(MHz) Measurement Result

(dBV/m) Cable loss

(dB) Antenna Factor

(dB/m) Receiver Reading

(dBV) Limit Margin

(dBV/m)

(dB) Antenna Pol.

(H/V) Antenna Height

(cm) Turntable angle

(deg) 67.04 66.64 42.39 44.63 45.55 44.52 2.9 2.9

-33.1

-31.8

-30.1

-29.7 32.8 32.8 34.5 36.0 37.3 39.2 31.35 30.95 40.97 40.43 38.30 35.05 74.0 74.0 74.0 74.0 74.0 74.0 7.0 7.4 31.6 29.4 28.4 29.5 H H H H H V 155 155 155 155 155 155 264 132 110 44 22 0 2483.630 2483.850 4923.500 7386.000 9848.000 12310.000 Test graphs as below:

No.I19Z60845-IOT01 Page78 of 86 Fig.A.6.2.1 Transmitter Spurious Emission - Radiated (Power): 802.11b, ch1, 2.38 GHz 2.43GHz Fig.A.6.2.2 Transmitter Spurious Emission - Radiated (Power): 802.11b, ch11, 2.45 GHz - 2.50GHz 40 45 50 55 60 65 70 75 80 85 90 95 100 105 1102380 2390 2400 2410 2420 2430 2440 2450Level in dB/m40 45 50 55 60 65 70 75 80 85 90 95 100 105 1102450 2460 2470 2480 2490 2500Level in dB/m No.I19Z60845-IOT01 Page79 of 86 Fig.A.6.2.3 Transmitter Spurious Emission - Radiated (Power): 802.11g, ch1, 2.38 GHz

- 2.43GHz Fig.A.6.2.4 Transmitter Spurious Emission - Radiated (Power): 802.11g, ch11, 2.45 GHz - 2.50GHz 40 45 50 55 60 65 70 75 80 85 90 95 100 105 1102380 2390 2400 2410 2420 2430 2440 2450Level in dB/m40 45 50 55 60 65 70 75 80 85 90 95 100 105 1102450 2460 2470 2480 2490 2500Level in dB/m No.I19Z60845-IOT01 Page80 of 86 Fig.A.6.2.5 Transmitter Spurious Emission - Radiated (Power): 802.11n-HT20, ch1, 2.38 GHz - 2.45GHz Fig.A.6.2.6 Transmitter Spurious Emission - Radiated (Power): 802.11n-HT20, ch11, 2.45 GHz - 2.50GHz 40 45 50 55 60 65 70 75 80 85 90 95 100 105 1102380 2390 2400 2410 2420 2430 2440 2450Level in dB/m40 45 50 55 60 65 70 75 80 85 90 95 100 105 1102450 2460 2470 2480 2490 2500Level in dB/m No.I19Z60845-IOT01 Page81 of 86 A.7. AC Power-line Conducted Emission Method of Measurement: See ANSI C63.10-2013-clause 6.2 1 The one EUT cable configuration and arrangement and mode of operation that produced the emission with the highest amplitude relative to the limit is selected for the final measurement, while applying the appropriate modulating signal to the EUT. 2 If the EUT is relocated from an exploratory test site to a final test site, the highest emissions shall be remaximized at the final test location before final ac power-line conducted emission measurements are performed. 3 The final test on all current-carrying conductors of all of the power cords to the equipment that comprises the EUT (but not the cords associated with other non-EUT equipment in the system) is then performed for the full frequency range for which the EUT is being tested for compliance without further variation of the EUT arrangement, cable positions, or EUT mode of operation. 4 If the EUT is comprised of equipment units that have their own separate ac power connec-

tions, e.g., floor-standing equipment with independent power cords for each shelf that are able to connect directly to the ac power network, each current-carrying conductor of one unit is measured while the other units are connected to a second (or more) LISN(s). All units shall be separately measured. If a power strip is provided by the manufacturer, to supply all of the units making up the EUT, only the conductors in the power cord of the power strip shall be measured. 5 If the EUT uses a detachable antenna, these measurements shall be made with a suitable dummy load connected to the antenna output terminals; otherwise, the tests shall be made with the antenna connected and, if adjustable, fully extended. When measuring the ac con-

ducted emissions from a device that operates between 150 kHz and 30 MHz a non-

detachable antenna may be replaced with a dummy load for the measurements within the fundamental emission band of the transmitter, but only for those measurements.36 Record the six highest EUT emissions relative to the limit of each of the current-carrying conductors of the power cords of the equipment that comprises the EUT over the frequency range speci-

fied by the procuring or regulatory agency. Diagram or photograph the test setup that was used. See Clause 8 for full reporting requirements. Test Condition:

VoltageV 120 FrequencyHz 60 Measurement Result and limit:

WLAN (Quasi-peak Limit) Frequency range

(MHz) Quasi-peak Limit (dBV) 0.15 to 0.5 66 to 56 0.5 to 5 5 to 30 56 60 No.I19Z60845-IOT01 Page82 of 86 Result (dBV) With charger 802.11b Idle Conclusion Fig.A.7.1 Fig.A.7.3 Fig.A.7.2 P NOTE: The limit decreases linearly with the logarithm of the frequency in the range 0.15 MHz to 0.5 MHz. WLAN (Average Limit) Frequency range Average Limit

(MHz)

(dBV) 0.15 to 0.5 56 to 46 0.5 to 5 5 to 30 46 50 Result (dBV) With charger 802.11b Idle Conclusion Fig.A.7.1 Fig.A.7.3 Fig.A.7.2 P NOTE: The limit decreases linearly with the logarithm of the frequency in the range 0.15 MHz to 0.5 MHz. Conclusion: Pass Test graphs as below:

Traffic (With AE3) No.I19Z60845-IOT01 Page83 of 86 Note: The graphic result above is the maximum of the measurements for both phase line and Fig.A.7.1 AC Powerline Conducted Emission-802.11b neutral line. Final Result 1 Frequency QuasiPeak

(MHz)

(dBV) 0.496500 1.000500 1.738500 2.386500 3.790500 35.4 37.4 37.9 32.9 32.5 4.128000 Final Result 2 36.3 Frequency

(MHz) Average

(dBV) 0.496500 0.996000 1.689000 2.215500 3.075000 3.637500 23.8 33.9 29.7 18.1 19.6 26.3 Meas. Time

(ms) 10000

.0 10000

.0 10000

.0 10000

.0 10000

.0 10000

.0 Meas. Time

(ms) 10000. 0 10000. 0 10000. 0 10000. 0 10000. 0 10000. 0 Bandwidth PE Line

(kHz) Corr.

(dB) Margin

(dB) Limit

(dBV) 9.000 9.000 9.000 9.000 9.000 9.000 GND L1 10.3 20.6 GND L1 10.3 18.6 GND L1 10.4 18.1 GND L1 10.4 23.1 GND L1 10.5 23.5 GND L1 10.5 19.7 56.1 56.0 56.0 56.0 56.0 56.0 Bandwidth PE Line

(kHz) Corr.

(dB) Margin

(dB) Limit

(dBV) 9.000 9.000 9.000 9.000 9.000 9.000 GND L1 GND L1 GND L1 GND L1 GND L1 GND L1 10.3 10.3 10.4 10.4 10.5 10.5 22.3 12.1 16.3 27.9 26.4 19.7 46.1 46.0 46.0 46.0 46.0 46.0 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70150k 300400500 8001M2M3M4M5M6 810M20M30MLevel in dBuVEN 55022 Voltage on Mains QPEN 55022 Voltage on Mains AV Idle (With AE3):

No.I19Z60845-IOT01 Page84 of 86 Fig.A.7.2 AC Powerline Conducted Emission-Idle Note: The graphic result above is the maximum of the measurements for both phase line and neutral line. Final Result 1 Frequency QuasiPeak

(MHz)

(dBV) 0.487500 1.126500 1.284000 1.963500 3.628500 42.8 36.7 38.3 35.8 34.7 20.368500 40.5 Final Result 2 Frequency

(MHz) Average

(dBV) 0.487500 0.550500 1.189500 2.017500 3.543000 20.665500 33.0 21.9 30.7 28.7 21.8 30.1 Meas. Time

(ms) 10000

.0 10000

.0 10000

.0 10000

.0 10000

.0 10000

.0 Meas. Time

(ms) 10000. 0 10000. 0 10000. 0 10000. 0 10000. 0 10000. 0 Bandwidth PE Line

(kHz) Corr.

(dB) Margin

(dB) Limit

(dBV) 9.000 9.000 9.000 9.000 9.000 9.000 GND L1 10.3 13.4 GND L1 10.4 19.3 GND L1 10.4 17.7 GND L1 10.4 20.2 GND L1 10.5 21.3 GND L1 11.4 19.5 56.2 56.0 56.0 56.0 56.0 60.0 Bandwidth PE Line

(kHz) Corr.

(dB) Margin

(dB) Limit

(dBV) 9.000 9.000 9.000 9.000 9.000 9.000 GND L1 GND L1 GND L1 GND L1 GND L1 GND L1 10.3 10.3 10.4 10.4 10.4 11.4 13.2 24.1 15.3 17.3 24.2 19.9 46.2 46.0 46.0 46.0 46.0 50.0 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70150k 300400500 8001M2M3M4M5M6 810M20M30MLevel in dBuVEN 55022 Voltage on Mains QPEN 55022 Voltage on Mains AV Traffic (With AE4):

No.I19Z60845-IOT01 Page85 of 86 Note: The graphic result above is the maximum of the measurements for both phase line and Fig.A.7.3 AC Powerline Conducted Emission-802.11b neutral line. Final Result 1 Frequency QuasiPeak

(MHz)

(dBV) 0.537000 1.698000 2.193000 2.737500 4.056000 46.2 37.4 35.7 38.9 42.7 4.717500 Final Result 2 42.8 Frequency

(MHz) Average

(dBV) 0.541500 1.693500 2.188500 2.737500 4.168500 4.663500 37.7 29.0 29.4 30.0 35.5 33.2 Meas. Time

(ms) 10000

.0 10000

.0 10000

.0 10000

.0 10000

.0 10000

.0 Meas. Time

(ms) 10000. 0 10000. 0 10000. 0 10000. 0 10000. 0 10000. 0 Bandwidth PE Line

(kHz) Corr.

(dB) Margin

(dB) Limit

(dBV) 9.000 9.000 9.000 9.000 9.000 9.000 GND L1 10.3 9.8 GND L1 10.4 18.6 GND L1 10.4 20.3 GND L1 10.5 17.1 GND L1 10.5 13.3 GND L1 10.5 13.2 56.0 56.0 56.0 56.0 56.0 56.0 Bandwidth PE Line

(kHz) Corr.

(dB) Margin

(dB) Limit

(dBV) 9.000 9.000 9.000 9.000 9.000 9.000 GND L1 GND L1 GND L1 GND L1 GND L1 GND L1 10.3 10.4 10.4 10.5 10.5 10.5 8.3 17.0 16.6 16.0 10.5 12.8 46.0 46.0 46.0 46.0 46.0 46.0 10 15 20 25 30 35 40 45 50 55 60 65 70150k 300400500 8001M2M3M4M5M6 810M20M30MLevel in dBuVEN 55022 Voltage on Mains QPEN 55022 Voltage on Mains AV ANNEX B: Accreditation Certificate No.I19Z60845-IOT01 Page86 of 86

***END OF REPORT***

 

 

FCC PART 15C TEST REPORT BLUETOOTH LOW ENERGY (BLE) PART No. I19Z60845-IOT12 for Samsung Electronics Co., Ltd. Multi-band GSM/WCDMA/LTE phone with Bluetooth, WLAN Model Name: SM-T295C FCC ID: ZCASMT295C with Hardware Version: REV0.4 Software Version: T295CZCU0ASEA Issued Date: 2019-6-20 Note:

The test results in this test report relate only to the devices specified in this report.This report shall not be reproduced except in full without the written approval of CTTL. The report must not be used by the client to claim product certification, approval, or endorsement by NVLAP, NIST, or any agency of the U.S.Government. Test Laboratory:

CTTL, Telecommunication Technology Labs, CAICT No.52, HuayuanNorth Road, Haidian District, Beijing, P. R. China 100191. Tel:+86(0)10-62304633-2512,Fax:+86(0)10-62304633-2504 Email:cttl_terminals@caict.ac.cn, website:www.caict.ac.cn Copyright. All rights reserved by CTTL. No. I19Z60845-IOT12 Page2 of 43 REPORT HISTORY Report Number I19Z60845-IOT12 Revision Rev.0 Description 1st edition Issue Date 2019-6-20 Copyright. All rights reserved by CTTL. No. I19Z60845-IOT12 Page3 of 43 CONTENTS 1. TEST LABORATORY ......................................................................................................................... 5 1.1. 1.2. 1.3. 1.4. 1.5. INTRODUCTION &ACCREDITATION .................................................................................................. 5 TESTING LOCATION ......................................................................................................................... 5 TESTING ENVIRONMENT .................................................................................................................. 6 PROJECT DATA ................................................................................................................................. 6 SIGNATURE ...................................................................................................................................... 6 2. CLIENT INFORMATION ................................................................................................................... 7 2.1. APPLICANT INFORMATION ............................................................................................................... 7 2.2. MANUFACTURER INFORMATION ...................................................................................................... 7 3. EQUIPMENT UNDER TEST (EUT) AND ANCILLARY EQUIPMENT (AE) ............................. 8 3.1. ABOUT EUT .................................................................................................................................... 8 3.2. INTERNAL IDENTIFICATION OF EUT ................................................................................................ 8 3.3. INTERNAL IDENTIFICATION OF AE ................................................................................................... 8 3.4. NORMAL ACCESSORY SETTING ........................................................................................................ 9 3.5. GENERAL DESCRIPTION ................................................................................................................... 9 4. REFERENCE DOCUMENTS ........................................................................................................... 10 4.1. DOCUMENTS SUPPLIED BY APPLICANT .......................................................................................... 10 4.2. REFERENCE DOCUMENTS FOR TESTING ......................................................................................... 10 5. TEST RESULTS .................................................................................................................................. 11 5.1. 5.2. 5.3. SUMMARY OF TEST RESULTS ..........................................................................................................11 STATEMENTS ...................................................................................................................................11 EXPLANATION OF RE-USE OF TEST DATA .........................................................................................11 6. TEST FACILITIES UTILIZED ........................................................................................................ 12 7. MEASUREMENT UNCERTAINTY ................................................................................................ 13 PEAK OUTPUT POWER - CONDUCTED ............................................................................................ 13 7.1. FREQUENCY BAND EDGES ............................................................................................................. 13 7.2. TRANSMITTER SPURIOUS EMISSION - CONDUCTED ....................................................................... 13 7.3. TRANSMITTER SPURIOUS EMISSION - RADIATED ........................................................................... 13 7.4. 7.5. 6DB BANDWIDTH .......................................................................................................................... 13 7.6. MAXIMUM POWER SPECTRAL DENSITY LEVEL ............................................................................. 13 7.7. AC POWERLINE CONDUCTED EMISSION ....................................................................................... 14 ANNEX A: DETAILED TEST RESULTS ................................................................................................ 15 A.1. MEASUREMENT METHOD .................................................................................................................. 15 A.2. PEAK OUTPUT POWER - CONDUCTED ................................................................................................ 16 A.3. FREQUENCY BAND EDGES - CONDUCTED .......................................................................................... 17 A.4. TRANSMITTER SPURIOUS EMISSION - CONDUCTED ........................................................................... 19 A.5. TRANSMITTER SPURIOUS EMISSION - RADIATED ............................................................................... 28 Copyright. All rights reserved by CTTL. No. I19Z60845-IOT12 Page4 of 43 A.6. 6DB BANDWIDTH............................................................................................................................... 32 A.7. MAXIMUM POWER SPECTRAL DENSITY LEVEL ................................................................................. 35 A.8. AC POWERLINE CONDUCTED EMISSION ............................................................................................ 38 ANNEX E: ACCREDITATION CERTIFICATE ..................................................................................... 43 Copyright. All rights reserved by CTTL. No. I19Z60845-IOT12 Page5 of 43 1. Test Laboratory 1.1. Introduction &Accreditation Telecommunication Technology Labs, CAICT is an ISO/IEC 17025:2005accredited test laboratory under NATIONAL VOLUNTARY LABORATORY ACCREDITATION PROGRAM (NVLAP) with lab code600118-0, and is also an FCC accredited test laboratory (CN5017), and ISED accredited test laboratory (CN0066). The detail accreditation scope can be found on NVLAP website. 1.2. Testing Location Conducted testing Location: CTTL(huayuan North Road) Address:

No. 52, Huayuan North Road, Haidian District, Beijing, P. R. China100191 Radiated testing Location: CTTL(BDA) Address:

No.18A, Kangding Street, Beijing Economic-Technology Development Area, Beijing, P. R. China 100176 Copyright. All rights reserved by CTTL. 1.3. Testing Environment Normal Temperature:

Relative Humidity:

15-35 20-75%

1.4. Project data Testing Start Date:

Testing End Date:

1.5. Signature 2019-4-9 2019-6-20 Wu Le

(Prepared this test report) Sun Zhenyu

(Reviewed this test report) Li Zhuofang

(Approved this test report) No. I19Z60845-IOT12 Page6 of 43 Copyright. All rights reserved by CTTL. No. I19Z60845-IOT12 Page7 of 43 2. Client Information 2.1. Applicant Information Company Name:

Samsung Electronics Co., Ltd. Address /Post:

19 Chapin Rd.,Building D Pine Brook, NJ 07058 City:

Postal Code:

Country:

Telephone:

Fax:

/

/

/

/

/

2.2. Manufacturer Information Company Name:

Jiaxing Yongrui Electron Technology Co., Ltd. Address /Post:

City:

Postal Code:

Country:

Telephone:

Fax:

NO.777 Yazhong Road, Daqiao Town, Nanhu District, Jiaxing City ,Zhejiang Jiaxing

/

China

/

/

Copyright. All rights reserved by CTTL. No. I19Z60845-IOT12 Page8 of 43 3. Equipment Under Test (EUT) and Ancillary Equipment (AE) 3.1. About EUT Description Model Name FCC ID Multi-band GSM/WCDMA/LTE phone with Bluetooth, WLAN SM-T295C ZCASMT295C Frequency Band ISM 2400MHz~2483.5MHz Type of Modulation(LE mode) GFSK (Bluetooth Low Energy) Number of Channels(LE mode) 40 Power Supply 3.8V DC by Battery 3.2. Internal Identification of EUT EUT ID* SN or IMEI HW Version SW Version EUT1 EUT2

/

REV0.4 T295CZCU0ASEA 356221100012618 REV0.4 T295CZCU0ASEA

*EUT ID: is used to identify the test sample in the lab internally. Inbuilt Inbuilt

/

/

/

3.3. Internal Identification of AE AE ID*

Description

/

/

/

/

/

AE1 AE2 AE3 AE4 AE5 AE1 Battery Battery Charger Charger USB Cable Model Manufacturer Capacitance SWD-WT-N8 Sunwoda Electronic Co., Ltd . 4980mAh Nominal voltage 3.82 V AE2 Model Manufacturer Capacitance SCUD-WT-N8 SCUD(Fujian) Electronic Co., Ltd. 4980mAh Nominal voltage 3.82V AE3 Model EP-TA50JWS Manufacturer Length of cable AE4 RFTECH ELECTRONICS (HuiZhou) Co.,Ltd.

/

Copyright. All rights reserved by CTTL. No. I19Z60845-IOT12 Page9 of 43 Model EP-TA50JWE Manufacturer Length of cable AE5 RFTECH ELECTRONICS (HuiZhou) Co.,Ltd.

/

Model GH39-02004A Manufacturer Length of cable RFTECH ELECTRONICS (HuiZhou) Co.,Ltd.

/

*AE ID: is used to identify the test sample in the lab internally. 3.4. Normal Accessory setting Fully charged battery is used during the test. 3.5. General Description The Equipment Under Test (EUT) is a model of Multi-band GSM/WCDMA/LTE phone with Bluetooth, WLAN with integrated antenna. It consists of normal options: lithium battery, charger. Manual and specifications of the EUT were provided to fulfill the test. Samples undergoing test were selected by the Client. Copyright. All rights reserved by CTTL. No. I19Z60845-IOT12 Page10 of 43 4. Reference Documents 4.1. Documents supplied by applicant EUT feature information is supplied by the client or manufacturer, which is the basis of testing. 4.2. Reference Documents for testing The following documents listed in this section are referred for testing. Reference Title FCC Part15 ANSI C63.10 FCC CFR 47, Part 15, Subpart C:

15.205 Restricted bands of operation;

15.209 Radiated emission limits, general requirements;

15.247 Operation within the bands 902928MHz, 24002483.5 MHz, and 57255850 MHz. Version 2016 American National Standard of Procedures for Compliance Testing of Unlicensed Wireless Devices June,2013 Copyright. All rights reserved by CTTL. No. I19Z60845-IOT12 Page11 of 43 5. Test Results 5.1. Summary of Test Results Abbreviations used in this clause:

P Pass, The EUT complies with the essential requirements in the standard. F Fail, The EUT does not comply with the essential requirements in the standard NA Not Applicable, The test was not applicable NP Not Performed, The test was not performed by CTTL R Re-use test data from basic model report. SUMMARY OF MEASUREMENT RESULTS Sub-clause Verdict 6dB Bandwidth Peak Output Power - Conducted 15.247 (a)(2) 15.247 (b)(1) Maximum Power Spectral Density Level 15.247(e) Transmitter Spurious Emission - Conducted 15.247 (d) Transmitter Spurious Emission - Radiated 15.247, 15.205, 15.209 Frequency Band Edges 15.247 (d) AC Powerline Conducted Emission 15.107, 15.207 R P R R R R R Please refer to ANNEX A for detail. The measurement is made according to ANSI C63.10. 5.2. Statements CTTL has evaluated the test cases requested by the applicant /manufacturer as listed in section 5.1 of this report for the EUT specified in section 3 according to the standards or reference documents listed in section 4.2 5.3. Explanation of re-use of test data The Equipment Under Test (EUT) model SM-T295C(FCC ID: ZCASMT295C) is a variant product of SM-T295(FCC ID: ZCASMT295), according to the declaration of changes provided by the applicant and FCC KDB publication 484596 D01, spot check measurements(only Peak Output Power-Conducted) were performed on this device, other test results are derived from test report No. I19Z60464-IOT02. Please refer Annex A for detail spot check verification data and reference data. the spot check test results are consistent with basic model. For detail differences between two models please refer the Declaration of Changes document. Copyright. All rights reserved by CTTL. 6. Test Facilities Utilized Conducted test system No. Equipment Model No. I19Z60845-IOT12 Page12 of 43 Serial Number Manufacturer Calibration Calibration Period Due date Vector Signal Analyzer FSQ26 200136 LISN ESH3-Z5 825562/0 28 Test Receiver ESCI 100766 Rohde &

Schwarz Rohde &

Schwarz Rohde &

Schwarz 1 year 2019-11-21 1 year 2019-08-22 1 year 2020-03-20 Shielding Room S81

/

ETS-Lindgren

/

/

1 2 3 4 Radiated emission test system No. Equipment Model Serial Number Manufacturer Calibration Calibration Period Due date 1 2 3 Test Receiver ESU26 100376 Rohde & Schwarz 1 year 2019-11-27 BiLog Antenna VULB9163 9163-482 Schwarzbeck 1 year 2019-09-21 Dual-Ridge Waveguide Horn 3117 00139065 ETS-Lindgren 1 year 2019-10-15 Antenna Dual-Ridge 4 Waveguide Horn 3116 2663 ETS-Lindgren 3 years 2019-07-09 Antenna Vector Signal Analyzer 5 FSV40 101047 Rohde & Schwarz 1 year 2019-07-21 Copyright. All rights reserved by CTTL. No. I19Z60845-IOT12 Page13 of 43 7. Measurement Uncertainty 7.1. Peak Output Power - Conducted Measurement Uncertainty:

Measurement Uncertainty (k=2) 0.66dB 7.2. Frequency Band Edges Measurement Uncertainty:

Measurement Uncertainty (k=2) 0.66dB 7.3. Transmitter Spurious Emission - Conducted Measurement Uncertainty:

Frequency Range 30 MHz ~ 8 GHz 8 GHz ~ 12.75 GHz 12.7GHz ~ 26 GHz Uncertainty (k=2) 1.22dB 1.51dB 1.51dB 7.4. Transmitter Spurious Emission - Radiated Measurement Uncertainty:

Frequency Range Uncertainty (k=2) 1 GHz 1 GHz 7.5. 6dB Bandwidth Measurement Uncertainty:

5.40dB 4.32dB Measurement Uncertainty (k=2) 61.936Hz 7.6. Maximum Power Spectral Density Level Measurement Uncertainty:

Measurement Uncertainty (k=2) 0.66dB Copyright. All rights reserved by CTTL. No. I19Z60845-IOT12 Page14 of 43 7.7. AC Powerline Conducted Emission Measurement Uncertainty:

Measurement Uncertainty (k=2) 3.10dB Copyright. All rights reserved by CTTL. No. I19Z60845-IOT12 Page15 of 43 ANNEX A: Detailed Test Results A.1. Measurement Method A.1.1. Conducted Measurements The measurement is made according to ANSI C63.10. 1). Connect the EUT to the test system correctly. 2). Set the EUT to the required work mode (Transmitter, receiver or transmitter & receiver). 3). Set the EUT to the required channel. 4). Set the EUT hopping mode (hopping or hopping off). 5). Set the spectrum analyzer to start measurement. 6). Record the values. Vector Signal Analyzer EUT Vector Signal Analyzer A.1.2. Radiated Emission Measurements The measurement is made according to ANSI C63.10. The radiated emission test is performed in semi-anechoic chamber. The distance from the EUT to the reference point of measurement antenna is 3m. The test is carried out on both vertical and horizontal polarization and only maximization result of both polarizations is kept. During the test, the turntable is rotated 360 and the measurement antenna is moved from 1m to 4m to get the maximization result. In the case of radiated emission, the used settings are as follows, Sweep frequency from 30 MHz to 1GHz, RBW = 100 kHz, VBW = 300 kHz;

Sweep frequency from 1 GHz to 26GHz, RBW = 1MHz, VBW = 1MHz;

Signalling Tester Tower/Table Controller Receiver Amp Filter Copyright. All rights reserved by CTTL. No. I19Z60845-IOT12 Page16 of 43 A.2. Peak Output Power - Conducted Method of Measurement: See ANSI C63.10-clause 11.9.1.1 a) Set the RBW = 1 MHz. b) Set VBW = 3 MHz. c) Set span = 3 MHz. d) Sweep time = auto couple. e) Detector = peak. f) Trace mode = max hold. g) Allow trace to fully stabilize. h) Use peak marker function to determine the peak amplitude level. Measurement Limit Standard FCC Part 15.247(b)(1) Spot check Measurement Results:

For GFSK Limit (dBm)

< 30 Channel No. Frequency (MHz) Peak Conducted Output Power (dBm) Conclusion 0 19 39 2402 2440 2480 Conclusion: PASS

-0.05 0.93

-0.90 P P P Reference Measurement Results from basic model:

For GFSK Channel No. Frequency (MHz) Peak Conducted Output Power (dBm) Conclusion 0 19 39 2402 2440 2480 Conclusion: PASS

-0.58 0.40

-0.78 P P P Copyright. All rights reserved by CTTL. No. I19Z60845-IOT12 Page17 of 43 A.3. Frequency Band Edges - Conducted Method of Measurement: See ANSI C63.10-clause 6.10.4 Connect the spectrum analyzer to the EUT using an appropriate RF cable connected to the EUT output. Configure the spectrum analyzer settings as described below. a) Set Span = 8MHz b) Sweep Time: Auto c) Set the RBW= 100 kHz c) Set the VBW= 300 kHz d) Detector: Peak e) Trace: Max hold Observe the stored trace and measure the amplitude delta between the peak of the fundamental and the peak of the band-edge emission. This is not an absolute field strength measurement; it is only a relative measurement to determine the amount by which the emission drops at the band edge relative to the highest fundamental emission level. Measurement Limit:

Standard FCC 47 CFR Part 15.247 (d) Limit (dBc)

< -20 Measurement Result:

For GFSK Channel Frequency No. 0 39

(MHz) 2402 2480 Conclusion: PASS Hopping Band Edge Power

( dBc) Conclusion Hopping OFF Fig.1 Hopping OFF Fig.2

-54.17

-57.45 P P Copyright. All rights reserved by CTTL. Test graphs as below No. I19Z60845-IOT12 Page18 of 43 Fig.1. Frequency Band Edges: GFSK, 2402 MHz, Hopping Off Fig.2. Frequency Band Edges: GFSK, 2480 MHz, Hopping Off Copyright. All rights reserved by CTTL. No. I19Z60845-IOT12 Page19 of 43 A.4. Transmitter Spurious Emission - Conducted Method of Measurement: See ANSI C63.10-clause 11.11.2 and clause 11.11.3 Measurement Procedure Reference Level 1. Set the RBW = 100 kHz. 2. Set the VBW = 300 kHz. 3. Set the span to 1.5 times the DTS bandwidth. 4. Detector = peak. 5. Sweep time = auto couple. 6. Trace mode = max hold. 7. Allow trace to fully stabilize. 8. Use the peak marker function to determine the maximum PSD level. Next, determine the power in 100 kHz band segments outside of the authorized frequency band using the following measurement:

Measurement Procedure - Unwanted Emissions 1. Set RBW = 100 kHz. 2. Set VBW = 300 kHz. 3. Set span to encompass the spectrum to be examined. 4. Detector = peak. 5. Trace Mode = max hold. 6. Sweep = auto couple. 7. Allow the trace to stabilize (this may take some time, depending on the extent of the span). Ensure that the amplitude of all unwanted emissions outside of the authorized frequency band

(excluding restricted frequency bands) is attenuated by at least the minimum requirements specified above. Measurement Limit:

Standard Limit FCC 47 CFR Part 15.247 (d) 20dB below peak output power in 100 kHz bandwidth Copyright. All rights reserved by CTTL. Measurement Results:

For GFSK Channel No. Frequency (MHz) Frequency Range Test Results Conclusion No. I19Z60845-IOT12 Page20 of 43 Center Frequency 30 MHz ~ 1 GHz 1 GHz ~ 3 GHz 3 GHz ~ 10 GHz 10GHz ~ 26 GHz Center Frequency 30 MHz ~ 1 GHz 1 GHz ~ 3 GHz 3 GHz ~ 10 GHz 10GHz ~ 26 GHz Center Frequency 30 MHz ~ 1 GHz 1 GHz ~ 3GHz 3 GHz ~ 10 GHz 10 GHz ~ 26 GHz Fig.3 Fig.4 Fig.5 Fig.6 Fig.7 Fig.8 Fig.9 Fig.10 Fig.11 Fig.12 Fig.13 Fig.14 Fig.15 Fig.16 Fig.17 P P P P P P P P P P P P P P P 0 2402 19 2440 39 2480 Conclusion: PASS Test graphs as below Fig.3. Transmitter Spurious Emission - Conducted: GFSK,2402MHz Copyright. All rights reserved by CTTL. No. I19Z60845-IOT12 Page21 of 43 Fig.4. Transmitter Spurious Emission - Conducted: GFSK, 2402 MHz, 30MHz - 1GHz Fig.5. Transmitter Spurious Emission - Conducted: GFSK, 2402 MHz,1GHz - 3GHz Copyright. All rights reserved by CTTL. No. I19Z60845-IOT12 Page22 of 43 Fig.6. Transmitter Spurious Emission - Conducted: GFSK, 2402 MHz,3GHz - 10GHz Fig.7. Transmitter Spurious Emission - Conducted: GFSK, 2402 MHz,10GHz - 26GHz Copyright. All rights reserved by CTTL. No. I19Z60845-IOT12 Page23 of 43 Fig.8. Transmitter Spurious Emission - Conducted: GFSK, 2440MHz Fig.9. Transmitter Spurious Emission - Conducted: GFSK, 2440 MHz, 30MHz - 1GHz Copyright. All rights reserved by CTTL. No. I19Z60845-IOT12 Page24 of 43 Fig.10. Transmitter Spurious Emission - Conducted: GFSK, 2440 MHz, 1GHz 3GHz Fig.11. Transmitter Spurious Emission - Conducted: GFSK, 2440 MHz, 3GHz 10GHz Copyright. All rights reserved by CTTL. No. I19Z60845-IOT12 Page25 of 43 Fig.12. Transmitter Spurious Emission - Conducted: GFSK, 2440 MHz, 10GHz 26GHz Fig.13. Transmitter Spurious Emission - Conducted: GFSK, 2480 MHz Copyright. All rights reserved by CTTL. No. I19Z60845-IOT12 Page26 of 43 Fig.14. Transmitter Spurious Emission - Conducted: GFSK, 2480 MHz, 30MHz - 1GHz Fig.15. Transmitter Spurious Emission - Conducted: GFSK, 2480 MHz, 1GHz - 3GHz Copyright. All rights reserved by CTTL. No. I19Z60845-IOT12 Page27 of 43 Fig.16. Transmitter Spurious Emission - Conducted: GFSK, 2480 MHz, 3GHz - 10GHz Fig.17. Transmitter Spurious Emission - Conducted: GFSK, 2480 MHz, 10GHz - 26GHz Copyright. All rights reserved by CTTL. No. I19Z60845-IOT12 Page28 of 43 A.5. Transmitter Spurious Emission - Radiated Measurement Limit:

Standard Limit FCC 47 CFR Part 15.247, 15.205, 15.209 20dB below peak output power In addition, radiated emissions which fall in the restricted bands, as defined in 15.205(a), must also comply with the radiated emission limits specified in 15.209(a) (see 15.205(c)). The measurement is made according to ANSI C63.10 Limit in restricted band:

Frequency of emission Field strength(uV/m) Field strength(dBuV/m)

(MHz) 30-88 88-216 216-960 Above 960 Test Condition 100 150 200 500 40 43.5 46 54 The EUT was placed on a non-conductive table. The measurement antenna was placed at a distance of 3 meters from the EUT. During the tests, the antenna height and the EUT azimuth were varied in order to identify the maximum level of emissions from the EUT. This maximization process was repeated with the EUT positioned in each of its three orthogonal orientations. Frequency of emission RBW/VBW Sweep Time(s)

(MHz) 30-1000 1000-4000 4000-18000 18000-26500 Measurement Results:

100KHz/300KHz 1MHz/1MHz 1MHz/1MHz 1MHz/1MHz 5 15 40 20 A "reference path loss" is established and the ARpl is the attenuation of reference path loss, and including the gain of receive antenna, the gain of the preamplifier, the cable loss. The measurement results are obtained as described below:

Result=PMea+ARpl For GFSK Frequency Frequency Range Test Results Conclusion Power Power 2.38GHz~2.4GHz---L 2.45GHz~2.5GHz---H Fig.18 Fig.19 P P Copyright. All rights reserved by CTTL. No. I19Z60845-IOT12 Page29 of 43 GFSK 2402MHzAverage Frequency

(MHz) 2387.500 2390.000 4804.500 7206.000 9607.500 12010.500 Measurement Result

(dBV/m) Cable loss

(dB) Antenna Factor

(dB/m) Receiver Reading

(dBV) Limit Margin

(dBV/m)

(dB) Antenna Pol.

(H/V) Antenna Height

(cm) Turntable angle

(deg) 46.35 46.26 33.83 37.29 41.08 42.31 2.9 2.9

-32.8

-31.6

-30.0

-29.8 32.0 32.0 34.5 36.1 37.0 39.3 11.48 11.41 32.17 32.82 34.13 32.84 54.0 54.0 54.0 54.0 54.0 54.0 7.7 7.7 20.2 16.7 12.9 11.7 H H H H H H 155 155 155 155 155 155 175 5 26 355 6 12 GFSK 2440MHzAverage Frequency

(MHz) 2435.700 2445.200 4882.500 7323.000 9763.500 12205.500 Measurement Result

(dBV/m) Cable loss

(dB) Antenna Factor

(dB/m) Receiver Reading

(dBV) Limit Margin

(dBV/m)

(dB) Antenna Pol.

(H/V) Antenna Height

(cm) Turntable angle

(deg) 46.43 46.47 33.09 38.44 39.17 44.11 2.9 2.9

-32.7

-31.9

-30.6

-29.4 32.0 32.2 34.5 36.1 37.2 39.2 11.55 11.34 31.31 34.29 32.55 34.32 54.0 54.0 54.0 54.0 54.0 54.0 7.6 7.5 20.9 15.6 14.8 9.9 H H H H H H 155 155 155 155 155 155 4 2 25 350 92 85 GFSK 2480MHzAverage Measurement Result

(dBV/m) Cable loss

(dB) Antenna Factor

(dB/m) Receiver Reading

(dBV) Limit Margin

(dBV/m)

(dB) Antenna Pol.

(H/V) Antenna Height

(cm) Turntable angle

(deg) 46.76 46.56 33.67 37.41 41.16 43.43 2.9 2.9

-33.4

-31.8

-29.9

-29.5 32.8 32.8 34.5 36.0 37.4 39.1 11.07 10.88 32.55 33.15 33.68 33.80 54.0 54.0 54.0 54.0 54.0 54.0 7.2 7.4 20.3 16.6 12.8 10.6 H H H H H H 155 155 155 155 155 155 40 65 84 107 135 151 Frequency

(MHz) 2483.500 2483.800 4960.500 7440.000 9919.500 12400.500 Copyright. All rights reserved by CTTL. No. I19Z60845-IOT12 Page30 of 43 GFSK 2402MHzPeak Frequency

(MHz) 2380.350 2388.582 4804.000 7206.000 9608.000 12010.000 Measurement Result

(dBV/m) Cable loss

(dB) Antenna Factor

(dB/m) Receiver Reading

(dBV) Limit Margin

(dBV/m)

(dB) Antenna Pol.

(H/V) Antenna Height

(cm) Turntable angle

(deg) 59.93 59.91 41.37 43.52 46.83 46.02 2.9 2.9

-32.9

-31.6

-30.0

-29.8 32.1 32.0 34.5 36.1 37.0 39.3 25.02 25.06 39.72 39.05 39.87 36.55 74.0 74.0 74.0 74.0 74.0 74.0 14.1 14.1 32.6 30.5 27.2 28.0 H H V V V V 155 155 155 155 155 155 176 0 22 352 0 0 GFSK 2440MHzPeak Frequency

(MHz) 2374.000 2518.600 4882.000 7323.000 9764.000 12205.000 Measurement Result

(dBV/m) Cable loss

(dB) Antenna Factor

(dB/m) Receiver Reading

(dBV) Limit Margin

(dBV/m)

(dB) Antenna Pol.

(H/V) Antenna Height

(cm) Turntable angle

(deg) 47.39 47.60 44.84 44.24 48.16 49.57

-26.7

-26.7

-32.7

-31.9

-30.6

-29.4 32.1 32.6 34.5 36.1 37.2 39.2 42.03 41.69 43.05 40.08 41.53 39.78 74.0 74.0 74.0 74.0 74.0 74.0 26.6 26.4 29.2 29.8 25.8 24.4 H H V V V V 155 155 155 155 155 155 0 0 22 352 88 88 GFSK 2480MHzPeak Measurement Result

(dBV/m) Cable loss

(dB) Antenna Factor

(dB/m) Receiver Reading

(dBV) Limit Margin

(dBV/m)

(dB) Antenna Pol.

(H/V) Antenna Height

(cm) Turntable angle

(deg) 60.53 60.46 39.55 42.09 45.24 46.70 2.9 2.9

-33.4

-31.8

-29.9

-29.5 32.7 32.4 34.5 36.0 37.4 39.1 24.89 25.07 38.42 37.83 37.77 37.07 74.0 74.0 74.0 74.0 74.0 74.0 13.5 13.5 34.5 31.9 28.8 27.3 V H H V V H 155 155 155 155 155 155 44 66 88 110 132 154 Frequency

(MHz) 2485.520 2494.650 4960.000 7440.000 9920.000 12400.000 Conclusion: PASS Copyright. All rights reserved by CTTL. Test graphs as below:

No. I19Z60845-IOT12 Page31 of 43 Fig.18. Transmitter Spurious Emission - Radiated (Power): GFSK low channel Fig.19. Transmitter Spurious Emission - Radiated (Power): GFSK high channel Copyright. All rights reserved by CTTL. 20 30 40 50 60 70 80 90 1002380 2390 2400 2410 2420 2430 2440 2450Level in dBV/mFrequency in MHzRE - Power-2.38GHz-2.45GHz2.380350000 GHz59.932 dBV/m2.389996000 GHz46.850 dBV/m30 35 40 45 50 55 60 65 70 75 80 85 90 95 1002450 2460 2470 2480 2490 2500Level in dBV/mFrequency in MHzRE - Power-2.45GHz-2.5GHz2.485520000 GHz60.528 dBV/m2.483500000 GHz47.010 dBV/m No. I19Z60845-IOT12 Page32 of 43 A.6. 6dB Bandwidth Method of Measurement:

The measurement is made according to ANSI C63.10 clause 11.8.1 1.Set RBW = 100 kHz. 2. Set the video bandwidth (VBW) = 300 kHz. 3. Detector = Peak. 4. Trace mode = max hold. 5. Sweep = auto couple. 6. Allow the trace to stabilize. 7. Measure the maximum width of the emission that is constrained by the frequencies associated with the two outermost amplitude points (upper and lower frequencies) that are attenuated by 6 dB relative to the maximum level measured in the fundamental emission. Measurement Limit:

Standard FCC 47 CFR Part 15.247(a)(2) Measurement Results:

For GFSK Limit

>= 500KHz Channel No. Frequency (MHz) 6dB Bandwidth (kHz) Conclusion 0 19 39 2402 2440 2480 Fig.20 Fig.21 Fig.22 680.00 673.50 674.00 P P P Conclusion: PASS Test graphs as below:

Copyright. All rights reserved by CTTL. No. I19Z60845-IOT12 Page33 of 43 Fig.20. 6dB Bandwidth: GFSK, 2402 MHz Fig.21. 6dB Bandwidth: GFSK, 2440 MHz Copyright. All rights reserved by CTTL. No. I19Z60845-IOT12 Page34 of 43 Fig.22. 6dB Bandwidth: GFSK, 2480 MHz Copyright. All rights reserved by CTTL. No. I19Z60845-IOT12 Page35 of 43 A.7. Maximum Power Spectral Density Level Method of Measurement:

The measurement is made according to ANSI C63.10 clause 11.10.2 1. Set the RBW = 3 kHz. 2. Set the VBW = 10 kHz. 3. Set the span to 2 times the DTS bandwidth. 4. Detector = peak. 5. Sweep time = auto couple. 6. Trace mode = max hold. 7. Allow trace to fully stabilize. 8. Use the peak marker function to determine the maximum amplitude level within the RBW. Measurement Limit:

Standard Limit FCC 47 CFR Part 15.247(e)

<=8.0dBm/3kHz Measurement Results:

For GFSK Channel No. Frequency (MHz) Maximum Power Spectral Density Level(dBm/3kHz) Conclusion 0 19 39 Test graphs as below:

2402 2440 2480 Fig.23 Fig.24 Fig.25

-16.15

-14.90

-15.97 P P P Copyright. All rights reserved by CTTL. No. I19Z60845-IOT12 Page36 of 43 Fig.23. Maximum Power Spectral Density Level Function: GFSK, 2402 MHz Fig.24. Maximum Power Spectral Density Level Function: GFSK, 2440 MHz Copyright. All rights reserved by CTTL. No. I19Z60845-IOT12 Page37 of 43 Fig.25. Maximum Power Spectral Density Level Function: GFSK, 2480 MHz Copyright. All rights reserved by CTTL. No. I19Z60845-IOT12 Page38 of 43 A.8. AC Powerline Conducted Emission Method of Measurement: See ANSI C63.10-clause 6.2 1. the one EUT cable configuration and arrangement and mode of operation that produced the emission with the highest amplitude relative to the limit is selected for the final measurement, while applying the appropriate modulating signal to the EUT. 2. If the EUT is relocated from an exploratory test site to a final test site, the highest emissions shall be remaximized at the final test location before final ac power-line conducted emission measurements are performed. 3. The final test on all current-carrying conductors of all of the power cords to the equipment that comprises the EUT (but not the cords associated with other non-EUT equipment in the system) is then performed for the full frequency range for which the EUT is being tested for compliance without further variation of the EUT arrangement, cable positions, or EUT mode of operation. 4. If the EUT is comprised of equipment units that have their own separate ac power connections, e.g., floor-standing equipment with independent power cords for each shelf that are able to connect directly to the ac power network, each current-carrying conductor of one unit is measured while the other units are connected to a second (or more) LISN(s). All units shall be separately measured. If a power strip is provided by the manufacturer, to supply all of the units making up the EUT, only the conductors in the power cord of the power strip shall be measured. 5. If the EUT uses a detachable antenna, these measurements shall be made with a suitable dummy load connected to the antenna output terminals; otherwise, the tests shall be made with the antenna connected and, if adjustable, fully extended. When measuring the ac conducted emissions from a device that operates between 150 kHz and 30 MHz a non-detachable antenna may be replaced with a dummy load for the measurements within the fundamental emission band of the transmitter, but only for those measurements.36 Record the six highest EUT emissions relative to the limit of each of the current-carrying conductors of the power cords of the equipment that comprises the EUT over the frequency range specified by the procuring or regulatory agency. Diagram or photograph the test setup that was used. See Clause 8 for full reporting requirements. Test Condition VoltageV 120 FrequencyHz 60 Measurement Result and limit:

Bluetooth (Quasi-peak Limit) Frequency range (MHz) Quasi-peak Limit (dBV) Conclusion 0.15 to 0.5 0.5 to 5 5 to 30 66 to 56 56 60 P NOTE: The limit decreases linearly with the logarithm of the frequency in the range 0.15 MHz to 0.5 MHz. Copyright. All rights reserved by CTTL. No. I19Z60845-IOT12 Page39 of 43 Bluetooth (Average Limit) Frequency range Average Limit (dBV)

(MHz) 0.15 to 0.5 0.5 to 5 5 to 30 56 to 46 46 50 Conclusion P NOTE: The limit decreases linearly with the logarithm of the frequency in the range 0.15 MHz to 0.5 MHz. The measurement is made according to ANSI C63.10 Conclusion: PASS Test graphs as below:

Copyright. All rights reserved by CTTL. Traffic (With AE3):

No. I19Z60845-IOT12 Page40 of 43 Final Result 1 Frequency QuasiPeak Meas. Time Bandwidth PE Line Corr. Margin Limit

(MHz)

(dBV)

(ms)

(kHz)

(dB)

(dB)

(dBV) 0.523500 1.329000 1.666500 2.571000 4.069500 20.229000 43.5 40.8 40.6 39.2 41.9 42.5 Final Result 2 10000.0 10000.0 10000.0 10000.0 10000.0 10000.0 9.000 9.000 9.000 9.000 9.000 9.000 GND L1 10.3 12.5 GND L1 10.4 15.2 GND L1 10.4 15.4 GND L1 10.5 16.8 GND L1 10.5 14.1 GND L1 11.4 17.5 56.0 56.0 56.0 56.0 56.0 60.0 Frequency Average Meas. Time Bandwidth PE Line Corr. Margin Limit

(MHz)

(dBV)

(ms)

(kHz)

(dB)

(dB)

(dBV) 0.424500 0.523500 1.279500 1.666500 2.571000 20.319000 32.7 34.7 32.9 31.9 29.7 31.3 10000.0 10000.0 10000.0 10000.0 10000.0 10000.0 9.000 9.000 9.000 9.000 9.000 9.000 GND L1 10.3 14.6 GND L1 10.3 11.3 GND L1 10.4 13.1 GND L1 10.4 14.1 GND L1 10.5 16.3 GND L1 11.4 18.7 47.4 46.0 46.0 46.0 46.0 50.0 Copyright. All rights reserved by CTTL. 10 15 20 25 30 35 40 45 50 55 60 65 70150k 300400500 8001M2M3M4M5M6 810M20M30MLevel in dBuVFrequency in HzEN 55022 Voltage on Mains QPEN 55022 Voltage on Mains AV Idle (With AE3):

No. I19Z60845-IOT12 Page41 of 43 Final Result 1 Frequency QuasiPeak Meas. Time Bandwidth PE Line Corr. Margin Limit

(MHz)

(dBV)

(ms)

(kHz)

(dB)

(dB)

(dBV) 0.492000 1.311000 1.806000 2.431500 3.367500 3.826500 40.1 34.1 34.7 31.9 35.3 36.6 Final Result 2 10000.0 10000.0 10000.0 10000.0 10000.0 10000.0 9.000 9.000 9.000 9.000 9.000 9.000 GND N 10.3 16.1 GND L1 10.4 21.9 GND L1 10.4 21.3 GND L1 10.4 24.1 GND L1 10.5 20.7 GND L1 10.5 19.4 56.1 56.0 56.0 56.0 56.0 56.0 Frequency Average Meas. Time Bandwidth PE Line Corr. Margin Limit

(MHz)

(dBV)

(ms)

(kHz)

(dB)

(dB)

(dBV) 0.523500 0.933000 1.369500 1.797000 2.359500 3.408000 36.4 27.3 25.2 25.4 26.0 27.4 10000.0 10000.0 10000.0 10000.0 10000.0 10000.0 9.000 9.000 9.000 9.000 9.000 9.000 GND L1 10.3 9.6 GND L1 10.4 18.7 GND L1 10.4 20.8 GND L1 10.4 20.6 GND L1 10.4 20.0 GND L1 10.5 18.6 46.0 46.0 46.0 46.0 46.0 46.0 Copyright. All rights reserved by CTTL. 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70150k 300400500 8001M2M3M4M5M6 810M20M30MLevel in dBuVFrequency in HzEN 55022 Voltage on Mains QPEN 55022 Voltage on Mains AV Traffic (With AE4):

No. I19Z60845-IOT12 Page42 of 43 Final Result 1 Frequency QuasiPeak Meas. Time Bandwidth PE Line Corr. Margin Limit

(MHz)

(dBV)

(ms)

(kHz)

(dB)

(dB)

(dBV) 0.496500 0.537000 1.324500 2.206500 4.303500 4.798500 44.7 48.9 44.0 44.7 47.1 48.4 Final Result 2 10000.0 10000.0 10000.0 10000.0 10000.0 10000.0 9.000 9.000 9.000 9.000 9.000 9.000 GND L1 10.3 11.3 GND L1 10.3 7.1 GND L1 10.4 12.0 GND L1 10.4 11.3 GND L1 GND L1 10.5 10.6 8.9 7.6 56.1 56.0 56.0 56.0 56.0 56.0 Frequency Average Meas. Time Bandwidth PE Line Corr. Margin Limit

(MHz)

(dBV)

(ms)

(kHz)

(dB)

(dB)

(dBV) 0.442500 0.537000 1.711500 2.152500 4.249500 4.690500 36.7 37.9 37.0 37.2 35.0 36.4 10000.0 10000.0 10000.0 10000.0 10000.0 10000.0 9.000 9.000 9.000 9.000 9.000 9.000 GND L1 10.3 10.3 GND L1 GND L1 GND L1 10.3 10.4 10.4 8.1 9.0 8.8 GND L1 10.5 11.0 GND L1 10.5 9.6 47.0 46.0 46.0 46.0 46.0 46.0 Copyright. All rights reserved by CTTL. 10 15 20 25 30 35 40 45 50 55 60 65 70150k 300400500 8001M2M3M4M5M6 810M20M30MLevel in dBuVFrequency in HzEN 55022 Voltage on Mains QPEN 55022 Voltage on Mains AV ANNEX E: Accreditation Certificate No. I19Z60845-IOT12 Page43 of 43

***END OF REPORT***

Copyright. All rights reserved by CTTL.