FCC ID: SRQ-MF920U LTE UFi

 

MF920U Quick Start Guide 1 ZTE CORPORATION NO. 55, Hi-tech Road South, Shenzhen, P.R.China Postcode: 518057 Getting to Know Your Device Appearance The following figure is for your reference only. 2 1. Charging/micro-USB jack 2. Indicator light 3. Power key Press and hold for about 2 seconds to power on/off your device. Press and hold for about 10 seconds to power off your device, if it is in abnormal status. And then press and hold for about 2 seconds to power on your device again. 4. WPS key Press and hold for about 2 seconds to activate the WPS function. 5. micro-SIM card slot and reset hole Reset hole: Press and hold for about 2 seconds to restore your device to the factory settings. 3 Getting to Know Your Device Indicator lights Indicator Status Description Battery Red solid /

blinking Green blinking Green solid Light off The battery is low. Please charge the battery. The battery is being charged. The battery level is middle or high. Your device is powered off and not being charged. Wi-Fi Blue solid Wi-Fi is active. Blue WPS is active. blinking Light off Wi-Fi is off. SMS Blue solid You have unread messages. 4 Blue blinking Light off Red Network Green solid Green blinking Blue solid You have new messages or the message storage is full. There is neither an unread message nor a new message. The device is in error status. The device is not registered to the mobile network. There is no micro-SIM card inserted. There is no network service available. The device is registered to the 2G/3G mobile network. The device is connected to the 2G/3G mobile network and data is being transferred. The device is registered to the 4G LTE network. 5 Blue blinking The device is connected to the 4G LTE network and data is being transferred. Getting to Know Your Device Connection Scenarios The device uses your micro-SIM card to access the Internet. It allows multiple clients to surf on the Internet at the same time. The following figure is for your reference only. 6 Installing Your Device 1. Open the micro-SIM card slot cover. NOTE:

Do not remove the cover rudely, because it is connected with the device. 2. Install a micro-SIM card to the micro-SIM card slot. WARNING!

Your device does not support SIM cards, nano-SIM cards or any other non-standard micro-SIM cards. To avoid damage to the device, do not use those cards or any card holders. 3. Close the micro-SIM card slot cover. 7 8 Connecting to Your Device Using Wi-Fi 1. Power on your device. 2. Ensure that your computer or other client devices have enabled Wi-Fi, and search for available wireless networks. NOTE:

Refer to your Wi-Fi-enabled client device manual for further details on how to search for wireless networks. If you use a computer, you need to set your computer to obtain an IP address automatically. 3. Select the Wi-Fi name (SSID) of your device, and click Connect. 4. Enter the Wi-Fi password if necessary, and click OK. NOTE:

Refer to the chapter Getting to Know the Wi-Fi SSID and Password to get the default Wi-Fi SSID and password. 5. Wait until the client device is connected to your device successfully. 9 Using a USB Cable 1. Connect a computer to your device with a USB cable. 2. Power on your device. The operating system detects and identifies new hardware, and automatically installs the software. NOTE:

If the system does not automatically launch installation, you can double-click the device installation icon in My Computer >

ZTEMODEM to install the software. 3. Wait until the computer is connected to your device successfully. 10 Getting to Know the Wi-Fi SSID and Password You can view the label on the device to get the default Wi-Fi SSID and password. 11 Logging in to the 4G Mobile Hotspot Configuration Page 1. Ensure that the connection between your device and the client device is correct. 2. Launch the Internet browser and enter http://192.168.0.1 or http://ufi.ztedevice.com in the address bar. 3. Enter the password to log in to the 4G Mobile Hotspot configuration page. NOTE:

You can view the label on the device to get the default password. 12 Changing the Wi-Fi SSID or Password 1. Log in to the 4G Mobile Hotspot configuration page. 2. Select Wi-Fi Settings. 3. Change the Network Name (SSID) or the Password in the Main SSID area. 4. Click Apply. 13 Accessing the Internet After a client device is successfully connected to your device, you can access the Internet in Automatic or Manual mode. The default mode is Automatic. Operation Your device is automatically connected to the Internet, and you can surf on the Internet through the client. Mode Automatic Manual 1. Log in to the 4G Mobile Hotspot configuration page. 2. Select network

>

Connection Mode > Manual, and then click Apply. Settings 3. Click to return to the home page, and then click or

. NOTES:

To change current connection setting, please disconnect from the Internet first. 14 To modify the parameters of your device, log in to the 4G Mobile Hotspot configuration page. 15 Configuring Your PC The following procedure describes how to configure the Internet Protocol in Windows for your Wi-Fi connection. 1. Right-click Network and select Properties. 2. Select Change adapter settings. 3. Right-click Wireless Network Connection and select Properties. 4. Select Internet Protocol Version 4 (TCP/IPv4), and click Properties. 5. Select Obtain an IP address automatically and Obtain DNS server address automatically, and click OK. 16 Warning and Notice To the Users If inadequately shielded, some electronic devices, for example, the electronic system of vehicles, may be affected by the electromagnetic interference caused by the device. Consult the manufacturers of such devices before using the device if necessary. Operating the device may interfere with medical instruments such as hearing aids and pacemakers. Always keep the device more than 20 centimeters away from such medical instruments when your device is powered on. Power off the device if necessary. Consult a physician or the manufacturers of medical instruments before using the device if necessary. Be aware of the usage limitation when using the device at places such as oil warehouses or chemical factories, where there are explosive gases or explosive products being processed. Power off the device if necessary. Do not use electronic transmission devices in aircrafts, at petrol stations or in hospitals. Observe and obey all warning signs, and power off the device in these conditions. Do not touch the inner antenna area unless necessary. Otherwise the performance of the device may be affected. Do not use the device in an enclosed environment or where heat dissipation is poor. Prolonged work in such space may cause excessive heat and raise ambient temperature, which may lead to automatic shutdown of the device for your safety. In the case of such event, cool the device in a well-ventilated place before turning on for normal use. 17 Keep the device out of the reach of small children. The device may cause an injury if used as a toy. When the device is operating, do not touch the metallic parts. Failing to do so may cause burns. Use original accessories or accessories that are authorized. Using any unauthorized accessories may affect the performance of the device and violate the related national regulations about telecom terminals. Avoid using the device near or inside metallic constructions or establishments that can emit electromagnetic waves, because signal reception may be affected. The device is not waterproof. Keep the device dry and store it in a shady and cool place. Do not use the device immediately after a sudden temperature change, because dew may be generated inside and outside the device. Do not use it until it becomes dry. Handle the device carefully. Do not drop, bend or strike it. Otherwise the device may be damaged. Only qualified personnel can dismantle and repair the device. The humidity between 5% and 95% is recommended. Do not connect the charger while using the device for a long period. Failing to do so will trigger the protection mechanism of the battery, and the battery will not be charged. If you want to charge the battery, please reconnect the charger. Do not connect the charger while using the device for a long period or use the device and battery in non-operating temperature. Failing to do so will shorten battery life or cause battery swelling or leakage. If the battery shows signs of swelling or leakage, please stop use immediately. For pluggable equipment, the socket-outlet shall be installed near the equipment and shall be easily accessible. 18 19 Battery Safety WARNING!

The battery is not removable. Removal may cause fire or explosion. Using ZTE-unapproved or incompatible battery, charger or power adapter may damage your device, shorten its lifespan or cause a fire, explosion or other hazards. The recommended operating temperatures are 0 C to 35 C and the storage temperatures are -20 C to +45 C. Extreme temperatures can damage the device and reduce the charging capacity and lifespan of your device and battery. Do not change or replace the built-in rechargeable battery in your device by yourself. The battery can only be changed or replaced by ZTE or ZTE authorized service provider. Do not place the device or the battery in or near heating equipment, such as microwave ovens, stoves or radiators. Keep the device and the battery away from excessive heat and direct sunlight. If not, the device or the battery may overheat and cause explosion or fire. Do not disassemble, squeeze or puncture the device, as this can cause explosion or fire. Do not throw the device into a fire to avoid explosion. Please disconnect the charger when the battery is fully charged. Overcharging may shorten the battery life. When not using the device for a long period, please charge the battery about half and then store the device in a cool dry place. If the battery damages or shows signs of swelling or leakage, please stop use immediately and contact ZTE or ZTE authorized service provider for replacement. 20 Limited Warranty This warranty does not apply to defects or errors in the product caused by:

i. Reasonable abrasion. ii. End users failure to follow ZTEs installation, operation or maintenance instructions or procedures. iii. End users mishandling, misuse, negligence, or improper installation, disassembly, storage, servicing or operation of the product. iv. Modifications or repairs not provided by ZTE or a ZTE-certified individual. v. Power failures, surges, fire, flood, accidents, and actions of third parties or other events outside ZTEs reasonable control. vi. Usage of third-party products or usage in conjunction with third-party products if such defects are due to the combined usage. vii. Any other cause beyond the range of normal usage intended for the product. End users have no right to reject or return the product, or receive a refund for the product from ZTE under the above-mentioned situations. This warranty is end users sole remedy and ZTEs sole liability for defective or nonconforming items, and is in lieu of all other warranties, expressed, implied or statutory, including but not limited to the implied warranties of merchantability and fitness for a particular purpose, unless otherwise required under the mandatory provisions of the law. 21 Limitation of Liability ZTE shall not be liable for any loss of profits or indirect, special, incidental or consequential damages resulting from or arising out of or in connection with using of this product, no matter whether or not ZTE had been advised, knew or should have known of the possibility of such damages, including, but not limited to lost profits, interruption of business, cost of capital, cost of substitute facilities or product, or any downtime cost. 22 LEGAL INFORMATION Copyright 2019 ZTE CORPORATION. All rights reserved. No part of this publication may be excerpted, reproduced, translated or utilized in any form or by any means, electronic or mechanical, including photocopying and microfilm, without the prior written permission of ZTE Corporation. The manual is published by ZTE Corporation. We reserve the right to make modifications on print errors or update specifications without prior notice. Version No.: R1.0 Edition Time: May 31, 2019 Manual No.:

23 24 Troubleshooting Problem The connection between your device and a PC through a cable USB cannot be established. The connection between your device and a client through Wi-Fi cannot be established. Recommended Action Install the software. Please run the installation program in the path of My Computer > ZTEMODEM. If the driver of your device is abnormal, reinstall the software. You need to uninstall the software first. Ensure that the Wi-Fi function is enabled. Refresh the network list and select the correct SSID. Check the IP address, and ensure that your client can automatically obtain an IP address. Enter the correct network key you

(Wi-Fi password) when connect the client to your device. 25 Troubleshooting Problem The client connected to the device cannot access the Internet. 4G The Mobile Hotspot configuration page cannot be visited. Recommended Action Ensure that your micro-SIM card is available. Change the location and find a place with good signal. Check the settings of the WAN connection mode. Contact your service provider and confirm your APN settings. Enter the correct address. The is or default http://192.168.0.1 http://ufi.ztedevice.com. address Use only one network adapter in your PC. Do not use any proxy server. 26 27 Getting More Help You can get help by:

Sending an email to mobile@zte.com.cn Visiting www.ztedevices.com 28 Accessory designed by ZTE or available on market for maintaining 10 mm using distance must be used for RF exposure compliance. FCC Regulations:

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. This device has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC limits are designed to provide reasonable Rules. These protection against harmful residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with 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 interference in a the 29 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. CAUTION:

Changes or modifications not expressly approved by the party responsible for compliance could void the users authority to operate the equipment. FCC RF Exposure Information (SAR) This device is designed and manufactured not to exceed the emission limits for exposure to radio frequency (RF) energy set by the Federal Communications Commission of the United States. During SAR testing, this device is set to transmit at its highest certified power level in all tested frequency bands, and placed in positions that simulate RF exposure in usage against the body with the separation of 10 mm. Although the SAR is determined at the highest certified power level, the actual SAR level of the 30 device while operating can be well below the maximum 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. The exposure standard for wireless devices employs a unit of measurement known as the Specific Absorption Rate, or SAR. The SAR limit set by the FCC is 1.6 W/kg. Tests for SAR 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. The FCC has granted an Equipment Authorization for this model device with all reported SAR levels evaluated as in compliance with the FCC RF exposure guidelines. SAR information on this model device is on file with the FCC and can be found under the Display Grant section of www.fcc.gov/oet/ea/fccid after searching on FCC ID: SRQ-MF920U. For this device, the highest reported SAR value for usage near the body is 1.6 W/kg. While there may be differences between the SAR levels of various devices and at various positions, they all meet the government requirement. SAR compliance for body operation is based on a separation distance of 10 mm between the unit and the human body. Carry this device, at least 10 mm away from your body to ensure RF 31 exposure level compliant or lower to the reported level. To support body operation, choose the belt clips or holsters that do not contain metallic components to maintain a separation of 10 mm between this device and your body. 32

 

 

Internal Photo WIFI ANT 1 Sub ANT WIFI ANT 0 WWAN MAIN ANT

 

 

 

 

 

 

UNM TE IMEI: Model:MF920U

(OCG C x WiFi SSID:

WiFi Key:

FCC ID:SRQ-MF920U Device Manager Website:http://192.168.0.1 Password: admin Made in China ri

 

 

ZTE CORPORATION Federal Communications Commission Authorization and Evaluation Division 1435 Oakland Mills Road Columbia, MD 21046 Date: 2019-8-3 SUBJECT: FCC Application for (FCC ID: SRQ-MF920U) To Whom It May Concern:

We, the undersigned, hereby authorize Mr. Zhang Shangwen from CCIC Southern Electronic Product Testing (Shenzhen) Co., Ltd on our behalf, to apply to the Federal Communications Commission on our equipment. Any and all acts carried out by CCIC Southern Electronic Product Testing (Shenzhen) Co., Ltd on our behalf shall have the same effect as acts of our own. This is to advise that we are in full compliance with the Anti- Drug Abuse Act. We, the applicant, are not subject to a denial of federal benefits pursuant to Section 5301 of the Anti-Drug Act of 1988, 21 USC853a, and no party to the application is subject to a denial of federal benefits pursuant to that section. Regards, Signature:

Name/title: Yu Gong/Certification Manager Company: ZTE Corporation Address: ZTE Plaza, Keji Road South, Shenzhen, China E-mail: gongyu@zte.com.cn Tele: +86-21-68895397

 

 

ZTE CORPORATION File Name SRQ-MF920U _Block Diagram.pdf SRQ-MF920U _Schematics.pdf SRQ-MF920U _Operational description.pdf SRQ-MF920U _Tune up procedure.pdf SRQ-MF920U _BOM List.pdf ZTE Plaza, Keji Road South Shenzhen China Confidentiality Request regarding application for certification of FCC ID: SRQ-MF920U

. Pursuant to Sections 0.457 and 0.459 of the Commissions Rules, we hereby request confidential treatment of information accompanying this application as outlined below:

Exhibit Type Block Diagram Circuit Diagram Operational Description Tune up procedure BOM List The above materials contain trade secrets and proprietary information not customarily released to the public. The public disclosure of these materials may be harmful to the applicant and provide unjustified benefits to its competitors. The applicant understands that pursuant to Section 0.457 of the Rules, disclosure of this application and all accompanying documentation will not be made before the date of the Grant for this application. Sincerely, Signature:

Name/title: Yu Gong/Certification Manager Company: ZTE Corporation Address: ZTE Plaza, Keji Road South, Shenzhen, China E-mail: gongyu@zte.com.cn Tele: +86-21-68895397 Rev 11/20/07

 

 

Report No.: SET2019-09160 EMC TEST REPORT Report No.: SET2019-09160 Product Name: LTE UFi FCC ID: SRQ-MF920U Model No. : MF920U Applicant: ZTE Corporation Address: ZTE Plaza, Keji Road South, Shenzhen, China Received Date: 2019.07.15 Dates of Testing: 07/15/2019 07/20/2019 Issued by: CCIC Southern Electronic Product Testing (Shenzhen) Co., Ltd. Lab Location:

Building 28/29, East of Shigu, Xili Industrial Zone, Xili Road, Nanshan District, Shenzhen, Guangdong, China. Tel: 86 755 26627338 Fax: 86 755 26627238 This test report consists of 19 pages in total. It may be duplicated completely for legal use with the approval of the applicant. It should not be reproduced except in full, without the written approval of our laboratory. The client should not use it to claim product endorsement by CCIC-SET. The test results in the report only apply to the tested sample. The test report shall be invalid without all the signatures of testing engineers, reviewer and approver. Any objections must be raised to CCIC-SET within 15 days since the date when the report is received. It will not be taken into consideration beyond this limit. CCIC-SET/TRF: GJ-EMC-E (2019-05-22) Page 1 of 18 Report No.: SET2019-05079 Test Report Product Name .................... LTE UFi Model No. ......................... MF920U Trade name ZTE Applicant ............................ ZTE Corporation Applicant Address ............. ZTE Plaza, Keji Road South, Shenzhen, China Manufacturer ..................... ZTE Corporation Manufacturer Address ...... ZTE Plaza, Keji Road South, Shenzhen, China Test Standards ................... 47 CFR Part 15 Subpart B Test Result ......................... PASS Tested by .......................... Yun Lei Fang Test Engineer 2019.07.25 Reviewed by ...................... Chris You Senior Engineer 2019.07.25 Approved by ...................... 2019.07.25 Shuangwen Zhang, Manager CCIC-SET/TRF: GJ-EMC-E (2019-05-22) Page 2 of 18 Report No.: SET2019-05079 TABLE OF CONTENTS 1. GENERAL INFORMATION .................................................................................................... 4 1.1 EUT Description ......................................................................................................................... 4 1.2 Test Standards and Results ........................................................................................................ 5 1.3 Facilities and Accreditations ...................................................................................................... 6 1.3.1 Facilities .................................................................................................................................... 6 1.3.2 Test Environment Conditions .................................................................................................... 6 1.3.3 Measurement Uncertainty ......................................................................................................... 6 2. TEST CONDITIONS SETTING............................................................................................... 7 2.1 Test Mode .................................................................................................................................... 7 2.2 Test Setup and Equipments List ................................................................................................ 8 2.2.1 Conducted Emission.................................................................................................................. 8 2.2.2 Radiated Emission ..................................................................................................................... 8 3. 47 CFR PART 15B REQUIREMENTS .................................................................................. 11 3.1 Conducted Emission ................................................................................................................. 11 3.1.1 Requirement ............................................................................................................................ 11 Test Description ...................................................................................................................... 11 3.1.2 3.1.3 Test Result ............................................................................................................................... 11 3.2 Radiated Emission .................................................................................................................... 14 3.2.1 Requirement ............................................................................................................................ 14 Test Description ...................................................................................................................... 15 3.2.2 3.2.3 Test Result ............................................................................................................................... 15 Issue 1.0 Date 2019.07.25 Change History Reason for change First edition CCIC-SET/TRF: GJ-EMC-E (2019-05-22) Page 3 of 18 Report No.: SET2019-05079 1. GENERAL INFORMATION EUT Description 1.1 EUT Name .......................... : LTEUFi Trade Name: ZTE Brand Name: ZTE Hardware Version... : dwhA Software Version .................. : BD_LAMF920UV1.0.0B01 Note1:The EUT is a LTEUFi;

Note 2:For a more detailed description, please refer to Specification or Users Manual supplied by the applicant and/or manufacturer. CCIC-SET/TRF: GJ-EMC-E (2019-05-22) Page 4 of 18 Report No.: SET2019-05079 Test Standards and Results 1.2 The objective of the report is to perform testing according to 47 CFR Part 15 Subpart B:

No. 1 Identity 47 CFR Part 15 Subpart B 2018 Document Title Radio Frequency Devices Test detailed items/section required by FCC rules and results are as below:

No. Section 15.107 1 2 15.109 Description Conducted Emission Radiated Emission NOTE:

Result PASS PASS

(1) The EUT has been tested according to 47 CFR Part 15 Subpart B,Class B.The test procedure is according to ANSI C63.4:2014. CCIC-SET/TRF: GJ-EMC-E (2019-05-22) Page 5 of 18 1.3 Facilities and Accreditations 1.3.1 Facilities FCC-Registration No.: CN5031 Report No.: SET2019-05079 CCIC Southern Testing Co., Ltd. EMC Laboratory has been registered and fully described in a report filed with the FCC (Federal Communications Commission). The acceptance letter from the FCC is maintained in our files. Designation Number: CN5031, valid time is until December 31, 2018. ISED Registration: 11185A-1, CAB identifier: CN0064 CCIC Southern Electronic Product Testing (Shenzhen) Co., Ltd. EMC Laboratory has been registered by Certification and Engineering Bureau of Industry Canada for the performance of radiated measurements with Registration No. 11185A-1 on Aug. 04, 2016, valid time is until Dec. 31, 2019. NVLAP Lab Code: 201008-0 CCIC-SET is a third party testing organization accredited by NVLAP according to ISO/IEC 17025. The accreditation certificate number is 201008-0. 1.3.2 Test Environment Conditions During the measurement, the environmental conditions were within the listed ranges:

Temperature (C):

Relative Humidity (%):

Atmospheric Pressure (kPa):

15C - 35C 25% -75%

86kPa-106kPa 1.3.3 Measurement Uncertainty The uncertainty is calculated using the methods suggested in the "Guide to the Expression of Uncertainty in Measurement" (GUM) published by ISO. Uncertainty of Conducted Emission: Uc = 3.6 dB (k=2) Uc = 4.5 dB (k=2) Uncertainty of Radiated Emission:

CCIC-SET/TRF: GJ-EMC-E (2019-05-22) Page 6 of 18 Report No.: SET2019-05079 2. TEST CONDITIONS SETTING Test Peripherals 2.1 The following is a listing of the EUT and peripherals utilized during the performance of EMC test:

Support Equipment:

Description Notebook Mouse Brand name ThinkPad Logitech Model E430C M100r Serial No. A131101550 25011051 FCCID N/A DOC Support Cable Description USB Cable RJ45 Cable PC Power adapter Cable Mouse Cable Shield Type Ferrite Core shielding shielding Un- shielding Un- shielding Yes No No No Length 1.2m 2m 1.2m 1m 2.2 Test Mode The EUT have the following typical setups during the test:

Setup1: EUT(GSM Traffic)+ Mouse + Notebook PC Setup2: EUT(WCDMA Traffic)+ Mouse + Notebook PC Setup3: EUT(LTE Traffic)+ Mouse + Notebook PC Setup4: EUT(WLAN Traffic)+ Mouse + Notebook PC Setup5: EUT+ AC Adapter Note: only worst-case mode setup 1 mode data provide at the report CCIC-SET/TRF: GJ-EMC-E (2019-05-22) Page 7 of 18 2.3 Test Setup and Equipments List 2.3.1 Conducted Emission A. Test Setup:

Report No.: SET2019-05079

< 40cm >

< 80cm >

Common Antenna EUT

< 80cm >

LISN Pulse Limiter Receiver System Simulator The EUT is placed on a 0.8m high insulating table, which stands on the grounded conducting floor, and keeps 0.4m away from the grounded conducting wall. The EUT is connected to the power mains through a LISN which provides 50/50H of coupling impedance for the measuring instrument. The Common Antenna is used for the call between the EUT and the System Simulator (SS). A Pulse Limiter is used to protect the measuring instrument. The factors of the whole test system are calibrated to correct the reading. B. Equipments List:

Description Manufacturer Model Serial No. Test Receiver LISN Cable KEYSIGHT ESR3 ROHDE&SCHWARZ ENV216 MATCHING PAD W7 A181103297 A140701847

/

Calibration Date 2018.09.14 2018.12.10 2019.01.02 Calibration Due. Date 2019.09.13 2019.12.10 2020.01.01 2.3.2 Radiated Emission A. Test Setup:

1) For radiated emissions from 30MHz to1GHz CCIC-SET/TRF: GJ-EMC-E (2019-05-22) Page 8 of 18 Report No.: SET2019-05079 2) For radiated emissions above 1GHz B. Test Procedure The test is performed in a 3m Semi-Anechoic Chamber; the antenna factor, cable loss and so on of the site (factors) is calculated to correct the reading. The EUT is placed on a 0.8m high insulating Turn Table, and keeps 3m away from the Test Antenna, which is mounted on a CCIC-SET/TRF: GJ-EMC-E (2019-05-22) Page 9 of 18 variable-height antenna master tower. For the test Antenna:

Report No.: SET2019-05079 1) In the frequency range above 30MHz, Bi-Log Test Antenna (30MHz to 1GHz) and Horn Test Antenna (above 1GHz) are used. Test Antenna is 3m away from the EUT. Test Antenna height is varied from 1m to 4m above the ground to determine the maximum value of the field strength. The emission levels at both horizontal and vertical polarizations should be tested. C. Equipments List:

Description Manufacturer EMI Test Receiver LISN ROHDE&SCHWARZ ROHDE&SCHWARZ Shield Room

/

EMI Test Receiver Broadband Ant. 3M Anechoic Chamber ROHDE&SCHWARZ 2786 Albatross EMI Test Receiver System Simulator ROHDE&SCHWARZ ROHDE&SCHWARZ 5M Anechoic Chamber Albatross Model ESR3 ENV216 L7300*W4500

*H3100 ESIB7 ETC SAC-3MAC 9*6*6m ESIB26 CMW500 SAC-5MAC 12.8x6.8x6.4m Serial No. A181103297 A140701847 Calibration Date 2018.09.14 2018.12.10 Calibration Due. Date 2019.09.13 2019.12.10 A181003226 2018.09.06 2021.09.05 A0501375 A150402239 2018.08.06 2018.09.17 2019.08.05 2021.09.16 A0412375 2016.03.08 2020.03.07 A180502935 A150802214 2018.11.01 2017.08.29 2019.10.31 2019.08.28 A0304210 2016.03.08 2020.03.07 EMI Horn Ant. ROHDE&SCHWARZ HF906 A0304225 2019.04.17 2022.04.17 CCIC-SET/TRF: GJ-EMC-E (2019-05-22) Page 10 of 18 3. 3.1 Report No.: SET2019-05079 47 CFR PART 15B REQUIREMENTS Conducted Emission 3.1.1 Requirement According to FCC section 15.107, the radio frequency voltage that is conducted back onto the AC power line on any frequency within the band 150kHz to 30MHz shall not exceed the limits in the following table, as measured using a 50H/50 line impedance stabilization network (LISN). Frequency range (MHz) 0.15 - 0.50 0.50 - 5 5 - 30 Conducted Limit (dBV) Quasi-peak 66 to 56 56 60 Average 56 to 46 46 50 Note:

a) The limit subjects to the Class B digital device. b) The lower limit shall apply at the band edges. c) The limit decreases linearly with the logarithm of the frequency in the range 0.15 - 0.50MHz. 3.1.2 Test Description See section 2.3.1 of this report. 3.1.3 Test Result The maximum conducted interference is searched using Peak (PK), Quasi-peak (QP) and Average

(AV) detectors; the emission levels more than the AV and QP limits, and that have narrow margins from the AV and QP limits will be re-measured with AV and QP detectors. Tests for both L phase and N phase lines of the power mains connected to the EUT are performed. All test modes are considered, refer to recorded points and plots below. Note:

Devices subject to Part 15 must be tested for all available U.S. voltages and frequencies (such as a Nominal 120V AC,50/60Hz) for which the device is capable of operation. A device rated for 50/60 Hz operation need not be tested at both frequencies provided the radiated and line conducted emissions are the same at both frequencies. CCIC-SET/TRF: GJ-EMC-E (2019-05-22) Page 11 of 18 Report No.: SET2019-05079 Test voltage and frequency (120V AC,60Hz) A. Mains terminal disturbance voltage, L phase Level in dB 100 90 80 70 60 50 40 30 20 10 0

-10 154.500 kHz 48.300 dB 204.000 kHz 45.587 dB 253.500 kHz 42.243 dB FCC Part 15 Class B Voltage on Mains QP FCC Part 15 Class B Voltage on Mains AV 307.500 kHz 41.794 dB 1.482000 MHz 40.093 dB 12.408000 MHz 44.661 dB 150k 300 400 500 800 1M 2M 3M 4M 5M 6 8 10M 20M 30M Frequency in Hz

(Plot A: L Phase) Conducted Disturbance at Mains Terminals Frequen cy

(MHz) 0.1545 0.2040 0.2535 0.3075 1.4820 12.4080 QP Measurem ent Value

(dBV) 46.50 43.84 40.19 37.78 35.90 40.75 Limits

(dBV) 65.80 63.40 61.60 60.00 56.00 60.00 L Test Data Margin

(dB) 19.25 19.61 21.45 22.26 20.10 19.25 Frequen cy

(MHz) 0.1545 0.2040 0.2535 0.3075 1.4820 12.4080 AV Measurem ent Value

(dBV) 32.77 30.40 29.86 30.07 29.41 23.90 Limits

(dBV) 55.80 53.40 51.60 50.00 46.00 50.00 Margin

(dB) 22.98 23.05 21.78 19.97 16.59 26.10 CCIC-SET/TRF: GJ-EMC-E (2019-05-22) Page 12 of 18 Level in dB 100 90 80 70 60 50 40 30 20 10 0

-10 Report No.: SET2019-05079 B. Mains terminal disturbance voltage, N phase 168.000 kHz 45.366 dB 586.500 kHz 40.579 dB 1.018500 MHz 41.595 dB FCC Part 15 Class B Voltage on Mains QP FCC Part 15 Class B Voltage on Mains AV 1.522500 MHz 41.782 dB 11.863500 MHz 46.842 dB 16.701000 MHz 46.463 dB 150k 300 400 500 800 1M 2M 3M 4M 5M 6 8 10M 20M 30M Frequency in Hz

(Plot B: N Phase) Conducted Disturbance at Mains Terminals N Test Data Frequen cy

(MHz) 0.1680 0.5865 1.0185 1.5225 11.8635 16.7010 QP Measureme nt Value

(dBV) 43.33 36.92 37.75 36.59 42.78 42.00 Limits

(dBV) 65.10 56.00 56.00 56.00 60.00 60.00 AV Margin

(dB) Frequency

(MHz) Limits

(dBV) 21.73 19.08 18.25 19.41 17.22 18.00 0.1680 0.5865 1.0185 1.5225 11.8635 16.7010 55.10 46.00 46.00 46.00 50.00 50.00 Measureme nt Value

(dBV) 27.53 22.45 24.54 24.31 26.31 16.13 Margin

(dB) 27.53 23.55 21.46 21.69 23.69 33.87 CCIC-SET/TRF: GJ-EMC-E (2019-05-22) Page 13 of 18 3.2 Radiated Emission 3.2.1 Requirement Report No.: SET2019-05079 According to FCC section 15.109, the field strength of radiated emissions from unintentional radiators at a distance of 3 meters shall not exceed the following values:

Frequency range (MHz) 0.009 - 0.490 0.490 - 1.705 1.705 - 30.00 30.0 - 88.0 88.0 - 216.0 216.0 - 960.0 Above 960.0 Field Strength V/m 2400/F(kHz) 2400/F(kHz) 30 100 150 200 500 Field Strength Limitation at 3m Measurement Dist

(uV/m)

(dBuV/m) 10000* 2400/F(kHz) 100* 2400/F(kHz) 20log 2400/F(kHz) + 80 20log 2400/F(kHz) + 40 100*30 100 150 200 500 20log 30 + 40 20log 100 20log 150 20log 200 20log 500 Dist 300m 30m 30m 3m 3m 3m 3m a) As shown in FCC section 15.35(b), for frequencies above 1000MHz, the field strength limits are based on average detector. When average radiated emission measurements are specified in this part, including emission measurements below 1000MHz, there also is a limit on the radio frequency emissions, as measured using instrumentation with a peak detector function, corresponding to 20dB above the maximum permitted average limit for the frequency being investigated unless a different peak emission limit is otherwise specified in the rules. b) Test Antenna is 3m away from the EUT. Test Antenna height is varied from 1m to 4m above the ground to determine the maximum value of the field strength. c) For below 1G :QP detector RBW 120kHz ,VBW 300kHz. d) For Above 1G: PK detector RBW 1MHz,VBW 3MHz for PK value ;AV detector RBW 1MHz, VBW 10Hz for AV value. Note:

1) The tighter limit shall apply at the boundary between two frequency range. 2) Limitation expressed in dBuV/m is calculated by 20log Emission Level(uV/m). 3) If measurement is made at 3m distance, then F.S Limitation at 3m distance is adjusted by using the formula of Ld1 = Ld2 * (d2/d1)2. Example:

F.S Limit at 30m distance is 30uV/m, then F.S Limitation at 3m distance is adjusted as Ld1 = L1 = 30uV/m * (10)2 = 100 * 30uV/m. CCIC-SET/TRF: GJ-EMC-E (2019-05-22) Page 14 of 18 3.2.2 Test Description See section 2.3.2 of this report. 3.2.3 Test Result Report No.: SET2019-05079 The maximum radiated emission is searched using PK, QP and AV detectors; the emission levels more than the limits, and that have narrow margins from the limits will be re-measured with AV and QP detectors. Both the vertical and the horizontal polarizations of the Test Antenna are considered to perform the tests. All test modes are considered, refer to recorded points and plots below. The amplitude of spurious emissions which are attenuated more than 20 dB below the permissible value need not be reported. Note: All radiated emission tests were performed in X, Y, Z axis direction, and only the worst axis test condition was recorded in this test report. CCIC-SET/TRF: GJ-EMC-E (2019-05-22) Page 15 of 18 Report No.: SET2019-05079 A.Radiation disturbances, antenna polarization:Vertical 30 MHz 29.85 dBV/m Marker:

Level [dBV/m]

80 70 60 50 40 30 20 10 0 30M 50M 70M 100M Frequency [Hz]

MES 19-10873 V LIM FCC Cl.B F QP/AV FCC ClassB, field strength 200M 300M 500M 700M 1G

(Plot C: Test Antenna Vertical 30M - 1G) Frequency

(MHz) QuasiPeak

(dBV/m) Bandwidth

(kHz) 30.26 37.52 58.12 106.87 148.92 387.26 30.12 28.11 20.02 23.05 22.43 30.11 120.000 120.000 120.000 120.000 120.000 120.000 Antenna height

(cm) 208.0 129.0 147.0 169.0 207.0 207.0 Limit

(dBV/m) Margin

(dB) Antenna Verdict 40.00 40.00 40.00 43.50 43.50 46.00 9.88 11.89 19.98 20.45 21.07 15.89 Vertical Vertical Vertical Vertical Vertical Vertical Pass Pass Pass Pass Pass Pass CCIC-SET/TRF: GJ-EMC-E (2019-05-22) Page 16 of 18 Report No.: SET2019-05079 B.Radiation disturbances, antenna polarization: Horizontal 123.306613 MHz 36.28 dBV/m Marker:

Level [dBV/m]

80 70 60 50 40 30 20 10 0 30M 50M 70M 100M Frequency [Hz]

MES 19-10873 H LIM FCC Cl.B F QP/AV FCC ClassB, field strength 200M 300M 500M 700M 1G

(Plot D:

Test Antenna Horizontal 30M - 1G) Frequency

(MHz) QuasiPeak

(dBV/m) Bandwidth

(kHz) 30.00 43.21 51.11 123.31 205.63 256.32 29.49 24.67 20.14 36.28 23.55 23.48 120.000 120.000 120.000 120.000 120.000 120.000 Antenna height

(cm) 223.0 209.0 126.0 268.0 214.0 364.0 Limit

(dBV/m) Margin

(dB) Antenna Verdict 40.00 40.00 43.50 43.50 43.50 46.00 10.51 15.33 23.36 7.22 19.95 22.52 Horizontal Horizontal Horizontal Horizontal Horizontal Horizontal Pass Pass Pass Pass Pass Pass Test Result: PASS CCIC-SET/TRF: GJ-EMC-E (2019-05-22) Page 17 of 18 Report No.: SET2019-05079 A.Radiation disturbances, antenna polarization: Horizontal

(Plot M: Test Antenna Horizontal 1G 18G) B.Radiation disturbances, antenna polarization: Vertical

(Plot N: Test Antenna Vertical 1G 18G)

-----End of Report-----

CCIC-SET/TRF: GJ-EMC-E (2019-05-22) Page 18 of 18

 

 

 

 

 

 

ANNEX C: Calibration Reports Report No. SET2019-08595 EP261 Probe Calibration Report SID835 Dipole Calibration Report SID1800 Dipole Calibration Report SID1900 Dipole Calibration Report SID2450 Dipole Calibration Report SID2600 Dipole Calibration Report EP261 Probe Calibration Report Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 SID835 Dipole Calibration Report Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 SID1800 Dipole Calibration Report Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 SID1900 Dipole Calibration Report Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 SID2450 Dipole Calibration Report Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 SID2600 Dipole Calibration Report Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595 Report No. SET2019-08595

<Justification of the extended calibration>

If dipoles are verified in return loss(<-20dB, within 20% of prior calibration),and in impedance

(within 5 ohm of prior calibration), the annual calibration is not necessary and the calibration interval can be extended. Report No. SET2019-08595 Body 835MHz Date of Measurement Return Loss (dB) Delta (%) Impedance Delta(ohm) 2017.11.27

-25.17

-

55.1

-

2018.11.26

-25.16

-0.04 55.73 1.14 The return loss is <-20dB, within 20% of prior calibration; the impedance is within 5ohm of prior calibration. Therefore the verification result should support extended calibration.

<Dipole Verification Data>

Body 835MHz Report No. SET2019-08595 Body 1800MHz Date of Measurement 2017.11.27 2018.11.26 Return Loss (dB) Delta (%) Impedance Delta(ohm)

-24.11

-24.58

-

1.95 44.3

-

42.23

-4.67 The return loss is <-20dB, within 20% of prior calibration; the impedance is within 5 ohm of prior calibration. Therefore the verification result should support extended calibration.

<Dipole Verification Data>

Body 1800MHz Report No. SET2019-08595 Body 1900MHz Date of Measurement 2017.11.27 2018.11.26 Return Loss (dB) Delta (%) Impedance Delta(ohm)

-22.17

-21.52

-

-2.93 46.8

-

46.22

-1.24 The return loss is <-20dB, within 20% of prior calibration; the impedance is within 5 ohm of prior calibration. Therefore the verification result should support extended calibration.

<Dipole Verification Data>

Body 1900MHz Report No. SET2019-08595 Body 2450MHz Date of Measurement 2017.11.27 2018.11.26 Return Loss (dB) Delta (%) Impedance Delta(ohm)

-26.02

-27.08

-

4.07 53.2

-

53.92 1.35 The return loss is <-20dB, within 20% of prior calibration; the impedance is within 5 ohm of prior calibration. Therefore the verification result should support extended calibration.

<Dipole Verification Data>

Body 2450MHz Report No. SET2019-08595 Body 2600MHz Date of Measurement 2017.11.27 2018.11.26 Return Loss (dB) Delta (%) Impedance Delta(ohm)

-33.55

-31.75

-

-5.37 49.4 49.3

-

-0.2 The return loss is <-20dB, within 20% of prior calibration; the impedance is within 5 ohm of prior calibration. Therefore the verification result should support extended calibration.

<Dipole Verification Data>

Body 2600MHz End of the Report

 

 

Report No. SET2019-08595 Appendix B: SAR Measurement results Plots Plot Frequency/Mode Testing Position and Channel Test Date 1 2 3 4 5 6 7 8 9 10 GSM850/GPRS4Tx Body Face, Middle ,10mm 2019/07/18 GSM1900/GPRS4Tx Body Back Middle ,10mm 2019/07/22 Body Back, Middle ,10mm 2019/07/22 Body Back, Middle ,10mm 2019/07/18 Body Back, Middle ,10mm 2019/07/22 Body Back, Middle ,10mm 2019/07/22 Body Face, Middle ,10mm 2019/07/18 2019/07/25 WCDMA1900 WCDMA850 LTE Band2 LTE Band4 LTE Band5 LTE Band7 Edge A, Middle ,10mm Body Face, Middle ,10mm 2019/07/24 Body Back, Middle ,10mm 2019/07/24 WIFI 2.4G Ant0 802.11b WIFI 2.4G Ant1 802.11b CCIC-SET/TRF:ISAR(2019-05-23) 1 / 21 Report No. SET2019-08595 Plot 1: GPRS850, Face, Middle,10mm Type: Phone measurement Date of measurement: 07/18/2019 Measurement duration: 22 minutes 14 seconds Mobile Phone IMEI number: --

A. Experimental conditions. Area Scan ZoomScan Phantom Device Position Band Channels Signal dx=8mm dy=8mm 5x5x7,dx=8mm dy=8mm dz=5mm Validation plane Face GSPRS850_4Tx 190 GPRS(Duty cycle: 1:2) B. SAR Measurement Results E-Field Probe Frequency (MHz) Relative permittivity (real part) Relative permittivity (imaginary part) Conductivity (S/m) Variation (%) ConvF:

SURFACE SAR SATIMO SN_27/15_EPG0261 836.6 55.23 20.26 0.94 1.08 1.99 VOLUME SAR Maximum location: X=3.00, Y=-40.00 SAR Peak: 0.97 W/kg SAR 10g (W/Kg) SAR 1g (W/Kg) 0.484329 0.715401 CCIC-SET/TRF:ISAR(2019-05-23) 2 / 21 Z (mm) SAR (W/Kg) 0.00 0.9657 4.00 0.7322 9.00 0.5194 14.00 0.3754 19.00 0.2785 Report No. SET2019-08595 3D screen shot Hot spot position CCIC-SET/TRF:ISAR(2019-05-23) 3 / 21 Report No. SET2019-08595 Plot2: GPRS1900, Back, Middle ,10mm Type: Phone measurement Date of measurement: 07/22/2019 Measurement duration: 22 minutes 18 seconds Mobile Phone IMEI number: --

A. Experimental conditions. Area Scan Zoom Scan Phantom Device Position Band Channels Signal B. SAR Measurement Results E-Field Probe Frequency (MHz) Relative permittivity (real part) Relative permittivity (imaginary part) Conductivity (S/m) Variation (%) ConvF:

SURFACE SAR dx=8mm dy=8mm 5x5x7,dx=8mm dy=8mm dz=5mm Validation plane Back GPRS1900_4Tx 661 GPRS(Duty cycle: 1:2) SATIMO SN_27/15_EPG0261 1880 53.32 8 14.21 1.50

-3.17 2.39 VOLUME SAR Maximum location: X=-17.00, Y=-49.00 SAR Peak: 1.17W/kg SAR 10g (W/Kg) SAR 1g (W/Kg) 0.443632 0.756913 CCIC-SET/TRF:ISAR(2019-05-23) 4 / 21 Z (mm) SAR (W/Kg) 0.00 1.1586 4.00 0.7992 9.00 0.4954 14.00 0.3086 19.00 0.1964 Report No. SET2019-08595 Hot spot position 3D screen shot CCIC-SET/TRF:ISAR(2019-05-23) 5 / 21 Report No. SET2019-08595 Plot 3: WCDMA1900, Back, Middle,10mm Type: Phone measurement Date of measurement: 07/22/2019 Measurement duration: 22 minutes 11 seconds Mobile Phone IMEI number: --

A. Experimental conditions. Area Scan ZoomScan Phantom Device Position Band Channels Signal B. SAR Measurement Results E-Field Probe Frequency (MHz) Relative permittivity (real part) Relative permittivity (imaginary part) Conductivity (S/m) Variation (%) ConvF:

SURFACE SAR dx=8mm dy=8mm 5x5x7,dx=8mm dy=8mm dz=5mm Validation plane Back Band2_WCDMA1900 9400 WCDMA (Duty cycle: 1:1) SATIMO SN_27/15_EPG0261 1880 53.32 14.21 1.50

-2.27 2.39 VOLUME SAR Maximum location: X=0.00, Y=6.00 SAR Peak: 1.27W/kg SAR 10g (W/Kg) SAR 1g (W/Kg) 0.483162 0.824205 CCIC-SET/TRF:ISAR(2019-05-23) 6 / 21 Z (mm) SAR (W/Kg) 0.00 1.2696 4.00 0.8763 9.00 0.5456 14.00 0.3441 19.00 0.2242 Report No. SET2019-08595 3D screen shot Hot spot position CCIC-SET/TRF:ISAR(2019-05-23) 7 / 21 Report No. SET2019-08595 Plot 4: WCDMA850, Back, Middle,10mm Type: Phone measurement Date of measurement: 07/18/2019 Measurement duration: 22 minutes 16 seconds Mobile Phone IMEI number: --

A. Experimental conditions. Area Scan ZoomScan Phantom Device Position Band Channels Signal dx=8mm dy=8mm 5x5x7,dx=8mm dy=8mm dz=5mm Validation plane Back Band5_WCDMA850 4183 WCDMA (Duty cycle: 1:1) B. SAR Measurement Results E-Field Probe SATIMO SN_27/15_EPG0261 Frequency (MHz) Relative permittivity (real part) Relative permittivity (imaginary part) Conductivity (S/m) Variation (%) ConvF:

836.6 55.23 20.26 0.94

-3.14 1.99 SURFACE SAR VOLUME SAR Maximum location: X=-9.00, Y=-51.00 SAR Peak: 1.50W/kg SAR 10g (W/Kg) SAR 1g (W/Kg) 0.763283 1.110435 CCIC-SET/TRF:ISAR(2019-05-23) 8 / 21 Z (mm) SAR (W/Kg) 0.00 1.4987 4.00 1.1360 9.00 0.8049 14.00 0.5801 19.00 0.4283 Report No. SET2019-08595 3D screen shot Hot spot position CCIC-SET/TRF:ISAR(2019-05-23) 9 / 21 Plot 5: LTE Band2, 20MHz, Back, Middle,10mm Report No. SET2019-08595 Type: Phone measurement Date of measurement: 07/22/2019 Measurement duration: 22 minutes 17 seconds Mobile Phone IMEI number: --

A. Experimental conditions. Area Scan ZoomScan Phantom Device Position Band Channels Signal B. SAR Measurement Results E-Field Probe Frequency (MHz) Relative permittivity (real part) Relative permittivity (imaginary part) Conductivity (S/m) Variation (%) ConvF:

SURFACE SAR dx=8mm dy=8mm 5x5x7,dx=8mm dy=8mm dz=5mm Validation plane Back LTE Band 2 18900 LTE (Duty cycle: 1:1) SATIMO SN_27/15_EPG0261 1880 53.32 14.21 1.50

-1.46 2.39 VOLUME SAR Maximum location: X=7.00, Y=9.00 SAR Peak: 1.33W/kg SAR 10g (W/Kg) SAR 1g (W/Kg) 0.517803 0.875010 CCIC-SET/TRF:ISAR(2019-05-23) 10 / 21 Report No. SET2019-08595 Z (mm) SAR (W/Kg) 0.00 1.3253 4.00 0.9275 9.00 0.5872 14.00 0.3745 19.00 0.2442 3D screen shot Hot spot position CCIC-SET/TRF:ISAR(2019-05-23) 11 / 21 Plot 6: LTE Band4, 20MHz, Back, Middle,10mm Report No. SET2019-08595 Type: Phone measurement Date of measurement: 07/22/2019 Measurement duration: 22 minutes 10 seconds Mobile Phone IMEI number: --

A. Experimental conditions. Area Scan ZoomScan Phantom Device Position Band Channels Signal B. SAR Measurement Results E-Field Probe Frequency (MHz) Relative permittivity (real part) Relative permittivity (imaginary part) Conductivity (S/m) Variation (%) ConvF:

SURFACE SAR dx=8mm dy=8mm 5x5x7,dx=8mm dy=8mm dz=5mm Validation plane Back LTE Band 4 20175 LTE (Duty cycle: 1:1) SATIMO SN_27/15_EPG0261 1732.5 53.61 15.30 1.53

-2.77 2.22 VOLUME SAR Maximum location: X=0.00, Y=17.00 SAR Peak: 1.53W/kg SAR 10g (W/Kg) SAR 1g (W/Kg) 0.497575 0.904740 CCIC-SET/TRF:ISAR(2019-05-23) 12 / 21 Report No. SET2019-08595 Z (mm) SAR (W/Kg) 0.00 1.5223 4.00 0.9583 9.00 0.5251 14.00 0.2937 19.00 0.1770 3D screen shot Hot spot position CCIC-SET/TRF:ISAR(2019-05-23) 13 / 21 Plot 7: LTE Band5, 10MHz, Face, Middle,10mm Report No. SET2019-08595 Type: Phone measurement Date of measurement: 07/18/2019 Measurement duration: 22 minutes 22 seconds Mobile Phone IMEI number: --

A. Experimental conditions. Area Scan ZoomScan Phantom Device Position Band Channels Signal B. SAR Measurement Results E-Field Probe Frequency (MHz) Relative permittivity (real part) Relative permittivity (imaginary part) Conductivity (S/m) Variation (%) ConvF:

SURFACE SAR dx=8mm dy=8mm 5x5x7,dx=8mm dy=8mm dz=5mm Validation plane Back LTE Band 5 20525 LTE (Duty cycle: 1:1) SATIMO SN_27/15_EPG0261 836.5 55.23 20.26 0.94

-1.13 1.99 VOLUME SAR Maximum location: X=11.00, Y=-39.00 SAR Peak: 0.95W/kg SAR 10g (W/Kg) SAR 1g (W/Kg) 0.527291 0.745347 CCIC-SET/TRF:ISAR(2019-05-23) 14 / 21 Z (mm) SAR (W/Kg) 0.00 0.9466 4.00 0.7619 9.00 0.5784 14.00 0.4389 19.00 0.3327 Report No. SET2019-08595 3D screen shot Hot spot position CCIC-SET/TRF:ISAR(2019-05-23) 15 / 21 Plot 8: LTE Band7, 20MHz, Back, Middle,10mm Report No. SET2019-08595 Type: Phone measurement Date of measurement: 07/25/2019 Measurement duration: 22 minutes 26 seconds Mobile Phone IMEI number: --

A. Experimental conditions. Area Scan ZoomScan Phantom Device Position Band Channels Signal B. SAR Measurement Results E-Field Probe Frequency (MHz) Relative permittivity (real part) Relative permittivity (imaginary part) Conductivity (S/m) Variation (%) ConvF:

SURFACE SAR dx=5mm,dy=5mm 7x7x8,dx=5mm dy=5mm dz=4mm Validation plane Back LTE Band 7 21100 LTE (Duty cycle: 1:1) SATIMO SN_27/15_EPG0261 2535 52.84 14.95 2.16

-4.65 2.43 VOLUME SAR Maximum location: X=-9.00 Y=-33.00 SAR Peak: 0.76 W/kg SAR 10g (W/Kg) SAR 1g (W/Kg) 0.200711 0.412588 CCIC-SET/TRF:ISAR(2019-05-23) 16 / 21 Z (mm) SAR (W/Kg) 0.00 0.7541 4.00 0.4459 9.00 0.2230 14.00 0.1147 19.00 0.0667 Report No. SET2019-08595 3D screen shot Hot spot position CCIC-SET/TRF:ISAR(2019-05-23) 17 / 21 Report No. SET2019-08595 Plot 9: Wi-Fi 802.11b, Ant0,Face ,Middle, 10mm Type: Phone measurement Date of measurement: 07/24/2019 Measurement duration: 22 minutes 31 seconds Mobile Phone IMEI number: --

A. Experimental conditions. Area Scan ZoomScan Phantom Device Position Band Channels Signal B. SAR Measurement Results E-Field Probe Frequency (MHz) Relative permittivity (real part) Relative permittivity (imaginary part) Conductivity (S/m) Variation (%) ConvF:

SURFACE SAR dx=5mm,dy=5mm 7x7x8,dx=5mm dy=5mm dz=4mm Validation plane Face WIFI 6 DSSS (Duty cycle: 1:1) SATIMO SN_27/15_EPG0261 2437 53.10 14.40 1.96

-3.52 2.46 VOLUME SAR Maximum location: X=0.00 Y=-42.00 SAR Peak: 0.06 W/kg SAR 10g (W/Kg) SAR 1g (W/Kg) 0.027154 0.039133 CCIC-SET/TRF:ISAR(2019-05-23) 18 / 21 Z (mm) SAR (W/Kg) 0.00 0.1658 4.00 0.0425 3D screen shot Report No. SET2019-08595 8.00 0.0272 12.00 0.0300 16.00 0.0192 Hot spot position CCIC-SET/TRF:ISAR(2019-05-23) 19 / 21 Report No. SET2019-08595 Plot 10: Wi-Fi 802.11b,Ant 1, Back ,Middle, 10mm Type: Phone measurement Date of measurement: 07/24/2019 Measurement duration: 22 minutes 29 seconds Mobile Phone IMEI number: --

A. Experimental conditions. Area Scan ZoomScan Phantom Device Position Band Channels Signal B. SAR Measurement Results E-Field Probe Frequency (MHz) Relative permittivity (real part) Relative permittivity (imaginary part) Conductivity (S/m) Variation (%) ConvF:

SURFACE SAR dx=5mm,dy=5mm 7x7x8,dx=5mm dy=5mm dz=4mm Validation plane Back WIFI 6 DSSS (Duty cycle: 1:1) SATIMO SN_27/15_EPG0261 2437 53.10 14.40 1.96

-1.17 2.46 VOLUME SAR Maximum location: X=-21.00 Y=-52.00 SAR Peak: 0.25 W/kg SAR 10g (W/Kg) SAR 1g (W/Kg) 0.080395 0.148314 CCIC-SET/TRF:ISAR(2019-05-23) 20 / 21 Report No. SET2019-08595 Z (mm) SAR (W/Kg) 0.00 0.2481 4.00 0.1585 8.00 0.1001 12.00 0.0640 16.00 0.0421 3D screen shot Hot spot position CCIC-SET/TRF:ISAR(2019-05-23) 21 / 21

 

 

Report No. SET2019-08595 Appendix A: SAR System performance Check Plots Measurement Liquid Frequency Test Date System Check System Check System Check System Check System Check Body Body Body Body Body 835 1800 1900 2450 2600 2019-07-18 2019-07-22 2019-07-22 2019-07-24 2019-07-25 CCIC-SET/TRF:ISAR(2019-05-23) 1 / 11 System Performance Check (Body, 835MHz) Report No. SET2019-08595 Type: Phone measurement Area scan resolution: dx=8mm,dy=8mm Zoom scan resolution: dx=8mm, dy=8mm, dz=5mm Date of measurement: 07/18/2019 Measurement duration: 22 minutes 12 seconds A. Experimental conditions. Phantom File Phantom Device Position Band Channels Signal B. SAR Measurement Results Band SAR E-Field Probe Frequency (MHz) Relative permittivity (real part) Relative permittivity Conductivity (S/m) Power drift (%) Ambient Temperature:

Liquid Temperature:

ConvF:

Crest factor:

SURFACE SAR dx=8mm dy=8mm 5x5x7,dx=8mm dy=8mm dz=5mm Dipole 835MHz CW SATIMO SN_27/15_EPG0261 835 55.23 20.26 0.94 2.34 22.2C 22.6C 1.99 1:1 VOLUME SAR Maximum location: X=-3.00, Y=-7.00 SAR Peak: 0.14 W/kg SAR 10g (W/Kg) SAR 1g (W/Kg) 0.071804 0.105193 CCIC-SET/TRF:ISAR(2019-05-23) 2 / 11 Report No. SET2019-08595 Z (mm) SAR (W/Kg) 0.00 0.1417 4.00 0.1081 9.00 0.0776 14.00 0.0570 19.00 0.0433 Hot spot position 3D screen shot CCIC-SET/TRF:ISAR(2019-05-23) 3 / 11 System Performance Check (Body, 1800MHz) Report No. SET2019-08595 Type: Validation measurement Area scan resolution: dx=8mm,dy=8mm Zoom scan resolution: dx=8mm, dy=8mm, dz=5mm Date of measurement: 07/22/2019 Measurement duration: 22 minutes 18 seconds A. Experimental conditions. Phantom File Phantom Device Position Band Channels Signal B. SAR Measurement Results Band SAR E-Field Probe Frequency (MHz) Relative permittivity (real part) Relative permittivity Conductivity (S/m) Power Drift (%) Ambient Temperature:

Liquid Temperature:

ConvF:

Duty factor:

SURFACE SAR dx=8mm dy=8mm 5x5x7,dx=8mm dy=8mm dz=5mm Dipole 1800MHz CW SATIMO SN_27/15_EPG0261 1800 53.61 15.30 1.53 3.55 22.1C 22.6C 2.22 1:1 VOLUME SAR Maximum location: X=-9.00, Y=-5.00 SAR Peak: 0.60 W/kg SAR 10g (W/Kg) SAR 1g (W/Kg) 0.195698 0.360813 CCIC-SET/TRF:ISAR(2019-05-23) 4 / 11 Report No. SET2019-08595 Z (mm) SAR (W/Kg) 0.00 0.5959 4.00 0.3904 9.00 0.2278 14.00 0.1374 19.00 0.0893 3D screen shot Hot spot position CCIC-SET/TRF:ISAR(2019-05-23) 5 / 11 System Performance Check (Body, 1900MHz) Report No. SET2019-08595 Type: Validation measurement Area scan resolution: dx=8mm,dy=8mm Zoom scan resolution: dx=8mm, dy=8mm, dz=5mm Date of measurement: 07/22/2019 Measurement duration: 22 minutes 16 seconds A. Experimental conditions. Phantom File Phantom Device Position Band Channels Signal B. SAR Measurement Results Band SAR E-Field Probe Frequency (MHz) Relative permittivity (real part) Relative permittivity Conductivity (S/m) Power Drift (%) Ambient Temperature:

Liquid Temperature:

ConvF:

Duty factor:

SURFACE SAR dx=8mm dy=8mm 5x5x7,dx=8mm dy=8mm dz=5mm Dipole 1900MHz CW SATIMO SN_27/15_EPG0261 1900 53.32 14.21 1.50

-3.47 22.1C 22.6C 2.39 1:1 VOLUME SAR Maximum location: X=-9.00, Y=-13.00 SAR Peak: 0.71 W/kg SAR 10g (W/Kg) SAR 1g (W/Kg) 0.221605 0.423105 CCIC-SET/TRF:ISAR(2019-05-23) 6 / 11 Report No. SET2019-08595 Z (mm) SAR (W/Kg) 0.00 0.7128 4.00 0.4597 9.00 0.2614 14.00 0.1522 19.00 0.0950 3D screen shot Hot spot position CCIC-SET/TRF:ISAR(2019-05-23) 7 / 11 System Performance Check (Body, 2450MHz) Report No. SET2019-08595 Type: Phone measurement Area scan resolution: dx=8mm,dy=8mm Zoom scan resolution: dx=5mm, dy=5mm, dz=4mm Date of measurement: 07/24/2019 Measurement duration: 22 minutes 22 seconds A. Experimental conditions. Phantom File Phantom Device Position Band Channels Signal B. SAR Measurement Results Band SAR E-Field Probe Frequency (MHz) Relative permittivity (real part) Relative permittivity Conductivity (S/m) Power Drift (%) Ambient Temperature:

Liquid Temperature:

ConvF:

Duty factor:

SURFACE SAR dx=8mm dy=8mm 7x7x8,dx=5mm dy=5mm dz=4mm Dipole 2450MHz CW SATIMO SN_27/15_EPG0261 2450 53.10 14.40 1.96 0.90 22.1C 22.6C 2.46 1:1 VOLUME SAR Maximum location: X=-8.00, Y=-12.00 SAR Peak: 1.08 W/kg SAR 10g (W/Kg) SAR 1g (W/Kg) 0.257866 0.559058 CCIC-SET/TRF:ISAR(2019-05-23) 8 / 11 Report No. SET2019-08595 Z (mm) SAR (W/Kg) 0.00 1.0789 4.00 0.6142 8.00 0.3406 12.00 0.1924 16.00 0.1161 3D screen shot Hot spot position CCIC-SET/TRF:ISAR(2019-05-23) 9 / 11 System Performance Check (Body, 2600MHz) Report No. SET2019-08595 Type: Phone measurement Area scan resolution: dx=8mm,dy=8mm Zoom scan resolution: dx=5mm, dy=5mm, dz=4mm Date of measurement: 07/25/2019 Measurement duration: 22 minutes 20 seconds A. Experimental conditions. Phantom File Phantom Device Position Band Channels Signal B. SAR Measurement Results Band SAR E-Field Probe Frequency (MHz) Relative permittivity (real part) Relative permittivity Conductivity (S/m) Power drift (%) Ambient Temperature:

Liquid Temperature:

Crest factor:

ConvF:

SURFACE SAR dx=8mm dy=8mm 7x7x8,dx=5mm dy=5mm dz=4mm Dipole 2600MHz CW SATIMO SN_27/15_EPG0261 2600 52.84 14.95 2.16 0.17 22.2C 22.5C 1:1 2.43 VOLUME SAR Maximum location: X=-9.00, Y=-11.00 SAR Peak: 1.16 W/kg SAR 10g (W/Kg) SAR 1g (W/Kg) 0.264536 0.586483 CCIC-SET/TRF:ISAR(2019-05-23) 10 / 11 Report No. SET2019-08595 Z (mm) SAR (W/Kg) 0.00 1.1613 4.00 0.6503 8.00 0.3526 12.00 0.1933 16.00 0.1127 3D screen shot Hot spot position CCIC-SET/TRF:ISAR(2019-05-23) 11 / 11

 

 

Report No. SET2019-08595 Appendix D: SAR Test Setup Photo1:MeasurementSystemSATIMO Photo2:Faceupward10mm Photo3:BackUpward10mm Photo4:EdgeA10mm Photo5:EdgeB10mm Photo6:EdgeC10mm CCICSET/TRF:ISAR(20190523) 1/2 Report No. SET2019-08595 Photo7:EdgeD10mm Photo8:Liquiddeep(15cm) EUTFrontView EUTBackView CCICSET/TRF:ISAR(20190523) 2/2

 

 

Report No. SET2019-08595 FCC SAR TEST REPORT Report No. SET2019-08595 Product LTE Ufi Model No. MF920U FCC ID SRQ-MF920U Applicant ZTE Corporation Address ZTE Plaza, Keji Road South, Shenzhen, China Issued by CCIC Southern Electronic Product Testing (Shenzhen) Co., Ltd. Lab Location Building 28/29, East of Shigu, Xili Industrial Zone, Xili Road, Nanshan, istrict, Shenzhen, Guangdong , China Tel 86 755 26627338 Fax86 755 26627238 Mail manager@ccic-set.com Websitehttp://www.ccic-set.com This test report consists of 48 pages in total. It may be duplicated completely for legal use with the approval of the applicant. It should not be reproduced except in full, without the written approval of our laboratory. The client should not use it to claim product endorsement by CCIC-SET. The test results in the report only apply to the tested sample. The test report shall be invalid without all the signatures of testing engineers, reviewer and approver. Any objections must be raised to CCIC-SET within 15 days since the date when the report is received. It will not be taken into consideration beyond this limit. CCIC-SET/TRF:ISAR(2019-05-23) Page 1 of 47 Test Report Report No. SET2019-08595 ZTE Product. :

LTE Ufi Model No. .: MF920U Brand Name..:

FCC ID..: SRQ-MF920U Applicant..: ZTE Corporation Applicant Address.:

Manufacturer:

Manufacturer Address:

ZTE Plaza, Keji Road South, Shenzhen, China ZTE Corporation ZTE Plaza, Keji Road South, Shenzhen, China Test Standards.:

Test Result:

Test Date:

Tested by ..:

Reviewed by.:

Approved by:

47CFR 2.1093- Radiofrequency Radiation Exposure Evaluation:

Portable Devices;

ANSI C95.11992: Safety Levels with Respect to Human Exposure to Radio Frequency Electromagnetic Fields, 3 kHz 300 GHz.( IEEE Std C95.1-1991) IEEE 15282013: IEEE Recommended Practice for Determining the Peak Spatial-Average Specific Absorption Rate (SAR) in the Human Head from Wireless Communications Devices: Measurement Techniques Pass 2019.07.18-2019.07.25 2019-07-31 Mei Chun, Test Engineer Chris You, Senior Engineer 2019-07-31 2019-07-31 Shuangwen Zhang, Manager CCIC-SET/TRF:ISAR(2019-05-23) Page 2 of 47 Report No. SET2019-08595 Contents Test Report ......................................................................................................................................... 2 1. Administrative Data ................................................................................................................... 4 2. Equipment Under Test (EUT) ................................................................................................... 5 3. SAR Summary ............................................................................................................................ 7 4. Specific Absorption Rate (SAR) ............................................................................................... 8 5. Tissue check and recommend Dielectric Parameters ........................................................... 12 6. SAR measurement procedure ................................................................................................. 17 7. Conducted RF Output Power ................................................................................................. 18 8. Scaling Factor calculation ....................................................................................................... 33 9. Test Results ............................................................................................................................... 35 10. Simultaneous Transmissions Analysis .................................................................................... 40 11. Measurement Uncertainty ....................................................................................................... 42 12. Equipment List ........................................................................................................................... 46 ANNEX A: Appendix A: SAR System performance Check Plots..................................................... 47 ANNEX B: Appendix B: SAR Measurement results Plots................................................................ 47 ANNEX C: Appendix C: Calibration reports .................................................................................... 47 ANNEX D: Appendix D: SAR Test Setup ......................................................................................... 47 CCIC-SET/TRF:ISAR(2019-05-23) Page 3 of 47 1. Administrative Data 1.1 Testing Laboratory Report No. SET2019-08595 Test Site: CCIC Southern Electronic Product Testing (Shenzhen) Co., Ltd. Address: Electronic Testing Building, No. 43 Shahe Road, Xili Jiedao, Nanshan District, Shenzhen, Guangdong, China NVLAP Lab Code: CCIC-SET is a third party testing organization accredited by NVLAP according to ISO/IEC 17025. The accreditation certificate number is 201008-0. FCC Registration: CCIC Southern Electronic Product Testing (Shenzhen) Co., Ltd. EMC Laboratory has been registered and fully described in a report filed with the FCC (Federal Communications Commission). The acceptance letter from the FCC is maintained in our files. Designation Number: CN5031, valid time is until December 31, 2019. ISED Registration: CCIC Southern Electronic Product Testing (Shenzhen) Co., Ltd. EMC Laboratory has been registered by Certification and Engineering Bureau of Industry Canada for the performance of radiated measurements with Registration No. 11185A-1 on Aug. 04, 2016, valid time is until December . 31, 2019. Temperature (C): 21C Relative Humidity (%): 60%

Atmospheric Pressure (kPa): 86KPa-106KPa Test Environment Condition:

CCIC-SET/TRF:ISAR(2019-05-23) Page 4 of 47 2. Equipment Under Test (EUT) Report No. SET2019-08595 Identification of the Equipment under Test Device Type:

Exposure Category: Population/Uncontrolled Model Name:

MF920U Portable Support Band Test Band IMEI No. GSM850MHz/1900MHz, WCDMA 850MHz/1900MHz, LTE Band 2/4/5/7,WIFI 2.4G GSM850MHz/1900MHz WCDMA 850MHz/1900MHz, LTE Band 2/4/5/7,WIFI 2.4G 863317040014114 Device Class Class B Multi Class GPRS: Class 12; EGPRS: Class 12 Development Stage Identical Prototype Accessories Power Supply Hotspot 2.4GHz WLAN support Hotspot mode Antenna type Internal Antenna General description:

Operation mode Modulation mode DTM mode GSM /WCDMA / LTE /WIFI GSM(GMSK),UMTS(QPSK),LTE(QPSK,16QAM,64QAM), WIFI(OFDM/DSSS), Not support Hardware Version dwhA Software Version BD_LAMF920UV1.0.0B01 Max. RF Power Battery options :

31.72dBm Model No.:Li3820T43P3h715345 Capacitance:2000mAh Rated Voltage:3.8V Charge Limit:4.35V Max. SAR Value Body: 1.125 W/Kg(Limit:1.6W/Kg, 10mm distance) NOTE:

a. The above EUT's information was declared by manufacturer. Please refer to the specifications or user's manual for more detailed description. CCIC-SET/TRF:ISAR(2019-05-23) Page 5 of 47 EUT testing configuration Tested frequency range(s) Transmitter Frequency Range Receiver Frequency Range Report No. SET2019-08595 GSM850:

GSM1900:

UMTS Band II:

UMTS Band V:

LTE Band2:

LTE Band4:

LTE Band5:

LTE Band7:

WIFI(tested):

Test channels(low-mid-high):

824-849 MHz 1850-1910 MHz 1850-1910 MHz 824-849 MHz 1850-1910 MHz 1710-1755 MHz 824-849 MHz 2500-2570 MHz 869-894 MHz 1930-1990 MHz 1930-1990 MHz 869-894 MHz 1930-1990 MHz 2110-2155 MHz 869-894 MHz 2620-2690 MHz 2412-2462 MHz 128-190-251(GSM850) 512-661-810(GSM1900) 9262-9400-9538(UMTS Band II) 4132-4183-4233(UMTS Band V) 18700-18900-19100( LTE Band 2 Bandwidth 20M) 20050-20175-20300( LTE Band 4 Bandwidth 20M) 20450-20525-20600( LTE Band 5 Bandwidth 10M) 20850-21100-21350( LTE Band 7 Bandwidth 20M) 1-6-11(Wi-Fi 2.4G 802.11b) CCIC-SET/TRF:ISAR(2019-05-23) Page 6 of 47 3. SAR Summary Highest Standalone SAR Summary Exposure Position Body-worn

(10mm Gap) Exposure Position Hotspot

(10mm Gap) Frequency Band GSM850 GSM1900 WCDMA Band II WCDMA Band V LTE Band 2 LTE Band 4 LTE Band 5 LTE Band 7 WIFI 2.4G 802.11b Frequency Band GSM850 GSM1900 WCDMA Band II WCDMA Band V LTE Band 2 LTE Band 4 LTE Band 5 LTE Band 7 WIFI 2.4G Ant1 802.11b Highest Simultaneous SAR Summary Report No. SET2019-08595 Scaled 1g-SAR(W/kg) Highest Scaled 1g-SAR(W/kg) 0.738 0.796 0.826 1.125 0.912 0.918 0.802 0.332 0.150 1.125 Scaled 1g-SAR(W/kg) Highest Scaled 1g-SAR(W/kg) 0.738 0.796 0.826 1.125 0.912 0.918 0.802 0.429 0.150 1.125 Exposure Position Hotspot

(10mmGap) Frequency Band Highest Scaled 1g-SAR(W/kg) WWAN(WCDMA Band V)&WIFI 1.275 CCIC-SET/TRF:ISAR(2019-05-23) Page 7 of 47 4. Specific Absorption Rate (SAR) Report No. SET2019-08595 for 4.1 Introduction SAR is related to the rate at which energy is absorbed per unit mass in an object exposed to a radio field. The SAR distribution in a biological body is complicated and is usually carried out by experimental techniques or numerical modeling. The standard recommends tiers of groups, occupational/controlled and general population/uncontrolled, based on a persons awareness and ability to exercise control over his or her exposure. In general, occupational/controlled exposure limits are higher than the limits for general population/uncontrolled. limits The SAR definition is the time derivative (rate) of the incremental energy (dW) absorbed by (dissipated in) an incremental mass (dm) contained in a volume element (dv) of a given density (). The equation description is as below:

two SAR is expressed in units of Watts per kilogram (W/kg) SAR measurement can be either related to the temperature elevation in tissue by where C is the specific head capacity, T is the temperature rise and t the exposure duration, or related to the electrical field in the tissue by where is the conductivity of the tissue, is the mass density of the tissue and E is the However for evaluating SAR of low power transmitter, electrical field measurement is rms electrical field strength. typically applied. CCIC-SET/TRF:ISAR(2019-05-23) Page 8 of 47 4.2 Applicable Standards and Limits 4.2.1 Applicable Standards Report No. SET2019-08595 47CFR 2.1093 ANSI C95.11992 IEEE 15282013 KDB 248227 D01 KDB 447498 D01 KDB 648474 D04 KDB 865664 D01 KDB 865664 D02 KDB 941225 D01 KDB 941225 D05 KDB 941225 D05A KDB 941225 D06 Radiofrequency Radiation Exposure Evaluation: Portable Devices Safety Levels with Respect to Human Exposure to Radio Frequency Electromagnetic Fields, 3 kHz 300 GHz.( IEEE Std C95.1-1991) IEEE Recommended Practice for Determining the Peak Spatial-Average Specific Absorption Rate (SAR) in the Human Head from Wireless Communications Devices: Measurement Techniques v02r02 802.11 Wi-Fi SAR v06 General RF Exposure Guidance v01r03 Handset SAR v01r04 SAR Measurement 100MHz to 6GHz v01r02 SAR Exposure Reporting v03r01 3G SAR Procedures v02r05 SAR for LTE Devices v01r02 LTE Rel.10 KDB Inquiry Sheet v02r01 Hotspot Mode 4.2.2 RF exposure Limits Human Exposure Spatial Peak SAR*

(Brain/Body) Spatial Average SAR**

(Whole Body) Spatial Peak SAR***

(Limbs) Uncontrolled Environment General Population 1.60 mW/g 0.08 mW/g 4.00 mW/g The limit applied in this test report is shown in bold letters. Notes:

* The Spatial Peak value of the SAR averaged over any 10 grams of tissue (defined as a tissue volume in the shape of a cube) and over the appropriate averaging time The Spatial Average value of the SAR averaged over the whole body.

**

*** The Spatial Peak value of the SAR averaged over any 10 grams of tissue (defined as a tissue volume in the shape of a cube) and over the appropriate averaging time. CCIC-SET/TRF:ISAR(2019-05-23) Page 9 of 47 Report No. SET2019-08595 4.3 Phantoms The phantom used for all tests i.e. for both system checks and device testing, was the twin-headed "SAM Phantom", manufactured by SATIMO. The SAM twin phantom is a fiberglass shell phantom with 2mm shell thickness (except the ear region, where shell thickness increases to 6mm). System checking was performed using the flat section, whilst Head SAR tests used the left and right head profile sections. Body SAR testing also used the flat section between the head profiles. SAM Twin Phantom 4.4 Device Holder The device was placed in the device holder (illustrated below) that is supplied by SATIMO as an integral part of the COMOSAR test system. The device holder is designed to cope with the different positions given in the standard. It has two scales for device rotation (with respect to the body axis) and device inclination (with respect to the line between the ear reference points). The rotation centers for both scales is the ear reference point (ERP). Thus the device needs no repositioning when changing the angles. Device holder CCIC-SET/TRF:ISAR(2019-05-23) Page 10 of 47 4.5 Probe Specification Report No. SET2019-08595 Construction Symmetrical design with triangular core Interleaved sensors Built-in shielding against static charges PEEK enclosure material (resistant to organic solvents, e.g., DGBE) Calibration ISO/IEC 17025 calibration service available. Frequency Directivity Dynamic Range Dimensions Application Compatibility 700 MHz to 3 GHz;

Linearity: 0.5 dB (700 MHz to 3 GHz) 0.25 dB in HSL (rotation around probe axis) 0.5 dB in tissue material (rotation normal to probe axis) 1.5 W/g to 100 mW/g;

Linearity: 0.5 dB Overall length: 330 mm (Tip: 20 mm) Tip diameter: 5 mm Distance from probe tip to dipole centers: <2.7 mm General dosimetry up to 3 GHz Dosimetry in strong gradient fields Compliance tests of mobile phones COMOSAR Isotropic E-Field Probe The isotropic E-Field probe has been fully calibrated and assessed for isotropicity, and boundary effect within a controlled environment. Depending on the frequency for which the probe is calibrated the method utilized for calibration will change. The E-Field probe utilizes a triangular sensor arrangement as detailed in the diagram below:

CCIC-SET/TRF:ISAR(2019-05-23) Page 11 of 47 Report No. SET2019-08595 5. Tissue check and recommend Dielectric Parameters 5.1 Tissue Dielectric Parameters for Head and Body Phantoms The head tissue dielectric parameters recommended by the IEEE SCC-34/SC-2 in P1528 have been incorporated in the following table. These head parameters are derived from planar layer models simulating the highest expected SAR for the dielectric properties and tissue thickness Power drifts in a human head. Other head and body tissue parameters that have not been specified in P1528 are derived from the tissue dielectric parameters computed from the 4-Cole-Cole equations described in Reference [12] and extrapolated according to the head parameters specified in P1528. Ingredients

(% by weight ) Table 1: Recommended Dielectric Performance of Tissue Frequency (MHz) 450 835 915 1900 2450 2600 Tissue Type Head Body Head Body Head Body Head Body Head Body Head Body Water 38.56 51.16 41.46 52.4 41.05 Salt (Nacl) 3.95 1.49 1.45 1.4 56.32 46.78 56.0 45.0 0.98 0.19 0.0 0.0 0.52 0.05 0.0 0.0 1.0 0.1 0.0 0.0 1.0 0.1 0.0 0.0 56.0 0.76 41.76 1.21 0.27 0.0 0.0 54.9 0.18 0.0 0.0 0.0 0.0 44.92 40.4 62.7 73.2 55.24 64.49 0.5 58.0 1.0 0.1 0.0 0.0 0.5 0.0 0.0 0.0 36.8 0.04 0.0 0.0 0.0 0.0 0.5 0.0 0.0 0.0 0.024 0.0 0.0 0.0 44.45 32.25 0.0 26.7 0.0 26.7 1.35 56.5 1.0 0.1 0.0 0.0 43.42 58.0 42.54 56.1 42.0 56.8 39.9 54.0 39.2 52.5 39.0 52.5 0.85 0.83 0.91 0.95 1.0 1.07 1.42 1.45 1.80 1.78 1.96 2.16 MSL/HSL750 (Body and Head liquid for 650 850 MHz) Head Tissue Simulation Liquid HSL750 Muscle(body)Tissue Simulation Liquid MSL750 Water, 35 58%

Sugar, white, refined, 40-60%

Sodium Chloride, 0-6%

H2O Sucrese NaCl Hydroxyethel-cellulsoe Medium Viscosity (CAS# 9004-62-0), <0.3%

Preventol-D7 Preservative: aqueous preparation, (CAS# 55965-84-9), containing 5-chloro-2-methyl-3(2H)-isothiazolone and 2-methyyl-3(2H)-isothiazolone, 0.1-0.7%

Frequency (MHz) 750 Head r 41.9 Head (S/m) 0.89 Body r 55.2 Body(S/m) 0.97 Note: The liquid of 700MHz&2600MHz typical liquid composition is provided by SATIMO. CCIC-SET/TRF:ISAR(2019-05-23) Page 12 of 47 Sugar HEC Bactericide Triton x-100 DGBE Dielectric Constant Conductivity

(s/m) Item Report No. SET2019-08595 Frequency:5200/5400/5600/5800MHz Ingredients Water Mineral oil Emulsifiers Additives and Salt

(% by weight) 78 11 9 2 Table 2 Recommended Tissue Dielectric Parameters Frequency (MHz) 150 300 450 835 900 915 1450 1610 1800-2000 2450 3000 5800 Head Tissue Body Tissue r 52.3 45.3 43.5 41.5 41.5 41.5 40.5 40.3 40.0 39.2 38.5 35.3

(S/m) 0.76 0.87 0.87 0.90 0.97 0.98 1.20 1.29 1.40 1.80 2.40 5.27 r 61.9 58.2 56.7 55.2 55.0 55.0 54.0 53.8 53.3 52.7 52.0 48.2

(S/m) 0.80 0.92 0.94 0.97 1.05 1.06 1.30 1.40 1.52 1.95 2.73 6.00 CCIC-SET/TRF:ISAR(2019-05-23) Page 13 of 47 5.2 Simulate liquid Report No. SET2019-08595 Liquid check results:

Table 3: Dielectric Performance of Body Tissue Simulating Liquid Temperature: 23.2C; Humidity: 64%;

Permittivity 55.25%

Frequency 835MHz 835MHz 1800MHz 1800MHz 1900MHz 1900MHz 2450MHz 2450MHz 2600MHz 2600MHz Conductivity (S/m) 0.975%

0.94 1.525%

1.53 1.525%

1.50 1.955%

1.96 2.165%

2.16 55.23 53.35%

53.61 53.35%

53.32 52.75%

53.10 52.55%

52.84

/

Target value Validation value

(2019-07-18) Target value Validation value

(2019-07-22) Target value Validation value

(2019-07-22) Target value Validation value

(2019-07-24) Target value Validation value

(2019-07-25) CCIC-SET/TRF:ISAR(2019-05-23) Page 14 of 47 Report No. SET2019-08595 SAR System validation Prior to the assessment, the system validation kit was used to test whether the system was operating within its specifications of 10%. The validation results are tabulated below. And also the corresponding SAR plot is attached as well in the SAR plots files. The following procedure, recommended for performing validation tests using box phantoms is based on the procedures described in the IEEE standard P1528. Setup according to the setup diagram below:

With the SG and Amp and with directional coupler in place, set up the source signal at the relevant frequency and use a power meter to measure the power at the end of the SMA cable that you intend to connect to the balanced dipole. Adjust the SG to make this, say, 0.01W (10 dBm). If this level is too high to read directly with the power meter sensor, insert a calibrated attenuator (e.g. 10 or 20 dB) and make a suitable correction to the power meter reading. Note 1: In this method, the directional coupler is used for monitoring rather than setting the exact feed power level. If, however, the directional coupler is used for power measurement, you should check the frequency range and power rating of the coupler and measure the coupling factor

(referred to output) at the test frequency using a VNA. Note 2: Remember that the use of a 3dB attenuator (as shown in Figure 8.1 of P1528) means that you need an RF amplifier of 2 times greater power for the same feed power. The other issue is the cable length. You might get up to 1dB of loss per meter of cable, so the cable length after the coupler needs to be quite short. Note 3: For the validation testing done using CW signals, most power meters are suitable. However, if you are measuring the output of a modulated signal from either a signal generator or a handset, you must ensure that the power meter correctly reads the modulated signals. The measured 1-gram averaged SAR values of the device against the phantom are provided in Tables 5 and Table 6. The humidity and ambient temperature of test facility CCIC-SET/TRF:ISAR(2019-05-23) Page 15 of 47 Report No. SET2019-08595 were 64% and 23.2C respectively. The body phantom were full of the body tissue simulating liquid. The EUT was supplied with full-charged battery for each measurement. The distance between the back of the EUT and the bottom of the flat phantom is 10 mm

(taking into account of the IEEE 1528 and the place of the antenna). Table 4: Body SAR system validation (1g) Frequency Duty cycle 850MHz(2019-07-18) 1800MHz(2019-07-22) 1900MHz(2019-07-22) 2450MHz(2019-07-24) 2600MHz(2019-07-25) 1:1 1:1 1:1 1:1 1:1 Target value W/kg 9.8810%

37.6810%

38.8410%

51.4210%

53.4510%

Test value (W/kg) 1W 10.52 36.08 42.31 55.91 58.65 10 mW 0.1052 0.3608 0.4231 0.5591 0.5865

* Note: Target value was referring to the measured value in the calibration certificate of reference dipole. Note: All SAR values are normalized to 1W forward power. CCIC-SET/TRF:ISAR(2019-05-23) Page 16 of 47 6. SAR measurement procedure The SAR test against the head phantom was carried out as follow:

Report No. SET2019-08595 Establish a call with the maximum output power with a base station simulator, the connection between the EUT and the base station simulator is established via air interface. After an area scan has been done at a fixed distance of 2mm from the surface of the phantom on the source side, a 3D scan is set up around the location of the maximum spot SAR. First, a point within the scan area is visited by the probe and a SAR reading taken at the start of testing. At the end of testing, the probe is returned to the same point and a second reading is taken. Comparison between these start and end readings enables the power drift during measurement to be assessed. Above is the scanning procedure flow chart and table from the IEEEp1528 standard. This is the procedure for which all compliant testing should be carried out to ensure that all variations of the device position and transmission behavior are tested. CCIC-SET/TRF:ISAR(2019-05-23) Page 17 of 47 7. Conducted RF Output Power 7.1 GSM Conducted Power GSM850 Burst-Averaged output Power (dBm) GPRS

(GMSK) EDGE

(8PSK) 1 Tx Slot 2 Tx Slots 3 Tx Slots 4 Tx Slots 1 Tx Slot 2 Tx Slots 3 Tx Slots 4 Tx Slots 128CH 31.47 29.33 28.10 27.01 25.80 23.67 22.34 21.17 190CH 31.72 29.61 28.42 27.36 25.88 23.89 22.58 21.39 251CH 31.65 29.44 28.25 27.14 25.84 23.75 22.49 21.27 Burst-Averaged output GSM1900 Power (dBm) GPRS

(GMSK) EDGE

(8PSK) 1 Tx Slot 2 Tx Slots 3 Tx Slots 4 Tx Slots 1 Tx Slot 2 Tx Slots 3 Tx Slots 4 Tx Slots 512CH 28.26 26.31 25.10 24.06 24.28 23.14 22.01 20.89 661CH 28.33 26.47 25.32 24.28 24.41 23.35 22.19 21.06 810CH 27.95 26.06 25.01 23.94 23.99 23.02 21.93 20.70 Report No. SET2019-08595 Division Factors

-9.19

-6.13

-4.42

-3.18

-9.19

-6.13

-4.42

-3.18 Division Factors

-9.19

-6.13

-4.42

-3.18

-9.19

-6.13

-4.42

-3.18 Frame-Averaged output Power (dBm) 251CH 28CH 22.46 22.28 23.31 23.20 23.83 23.68 23.96 23.83 16.65 16.61 17.62 17.54 18.07 17.92 17.99 18.09 Frame-Averaged output 190CH 22.53 23.48 24.00 24.18 16.69 17.76 18.16 18.21 Power (dBm) 512CH 19.07 20.18 20.68 20.88 15.09 17.01 17.59 17.71 661CH 19.14 20.34 20.90 21.10 15.22 17.22 17.77 17.88 810CH 18.76 19.93 20.59 20.76 14.80 16.89 17.51 17.52 Note: Per KDB 447498 D01 v06, the maximum output power channel is used for SAR testing and for further SAR test reduction. For hotspot SAR, EUT was performed at GPRS Class 12 multi-slots(4Tx) mode For Head and Body-worn SAR testing, EUT was set in GSM Voice mode for both GSM850 and GSM1900 Timeslot consignations No. Of Slots Slot 1 Slot Consignation 1Up4Down Duty Cycle Crest Factor 1:8

-9.03dB Slot 2 2UpDown 1:4

-6.02dB Slot 3 3UpDown 1:2.67

-4.26dB Slot 4 4Up1Down 1:2

-3.01dB CCIC-SET/TRF:ISAR(2019-05-23) Page 18 of 47 7.2 WCDMA Conducted output Power Report No. SET2019-08595 UMTS1900

(Band II) WCDMA 12.2kbps RMC HSDPA HSUPA Subtest 1 Subtest 2 Subtest 3 Subtest 4 Subtest 1 Subtest 2 Subtest 3 Subtest 4 Subtest 5 UMTS850

(Band V) WCDMA 12.2kbps RMC HSDPA HSUPA Subtest 1 Subtest 2 Subtest 3 Subtest 4 Subtest 1 Subtest 2 Subtest 3 Subtest 4 Subtest 5 Average Power (dBm) 9262CH 21.15 21.03 20.94 20.86 20.75 20.61 20.53 20.42 20.31 20.2 9400CH 21.49 21.38 21.26 21.14 21.03 20.95 20.83 20.72 20.61 20.54 9538cH 21.35 21.24 21.13 21.05 20.94 20.86 20.74 20.62 20.55 20.41 Average Power (dBm) 4132CH 22.44 22.32 22.23 22.15 22.04 21.96 21.87 21.75 21.64 21.53 4183CH 22.94 22.84 22.76 22.67 22.56 22.42 22.36 22.23 22.14 22.01 4233CH 22.37 22.27 22.16 22.05 21.97 21.84 21.75 21.65 21.54 21.43 Note:

1. WCDMA SAR was tested under RMC 12.2kbps with HSPA Inactive per KDB Publication 941225 D01v03r01.HSPA SAR was not requires since the average output power of the HSPA subtests was not more than 0.25dB higher than the RMC level and SAR was less than 1.2W/kg. It is expected by the manufacturer that MPR for some HSPA subtests may be up to 2dB more than specified by 3GPP, but also as low as 0dB according to the chipset implementation in this model 2. CCIC-SET/TRF:ISAR(2019-05-23) Page 19 of 47 Report No. SET2019-08595 7.3 LTE Conducted peak output Power LTE Test Configurations The CMW500 Wide Band Radio Communication Tester was used for LTE output power measurements and SAR testing. Closed loop power control was used so the UE transmits with maximum output power during SAR testing. SAR test were performed with the same number of RB and RB offsets transmitting on all frames. 1) Spectrum Plots for RB configurations A properly configured base station simulator was used for LTE output power measurements and SAR testing. Therefore, spectrum plots for RB configurations were not required to be included in this report. 2) MPR When MPR is implemented permanently within the UE, regardless of network requirements, only those RB configurations allowed by 3GPP for the channel bandwidth and modulation combinations may be tested with MPR active. Configurations with RB allocations less than the RB thresholds required by 3GPP must be tested without MPR. The allowed Maximum Power Reduction(MPR) for the maximum output power due to higher order modulation and transmit bandwidth configuration (resource blocks) is specified in Table 6.2.3-1 of the 3GPP TS36.101:

3)A-MPR LTE procedures for SAR testing A-MPR(Additional MPR) has been disabled for all SAR tests by using Network Signaling Value of NS_01 on the base station simulator. 4)LTE procedures for SAR testing A) Largest channel bandwidth standalone SAR test requirements i) QPSK with 1 RB allocation Start with the largest channel bandwidth and measure SAR for QPSK with 1 RB allocation, using the RB offset and required test channel combination with the highest maximum output power for RB offsets at the upper edge, middle and lower edge of each required test channel. When the reported SAR is 0.8W/kg, testing of the remaining RB offset configurations and required test channels is not required for 1RB allocation; otherwise, SAR is required for the remaining required test channels and only for the RB offset configuration with the highest output power for that channel. When the reported SAR of a required test channel is > 1.45 W/kg, SAR is required for all three RB offset configurations for that required test channel. CCIC-SET/TRF:ISAR(2019-05-23) Page 20 of 47 1. LTE Band 2 Conducted Power Test Verdict:

Report No. SET2019-08595 Bandwidth Modulation QPSK 16QAM LTE FDD Band 2 RB size 1 1 1 3 3 3 6 1 1 1 3 3 3 6 RB size 1 1 1 8 8 8 15 1 1 1 8 8 8 15 16QAM QPSK Conducted Power(dBm) Channel/Frequency 18607/1850.7 18900/1880 19193/1909.3 20.17 20.07 20.2 19.81 19.84 19.88 19.55 19.31 19.23 19.21 18.84 18.82 18.79 18.66 20.13 20.2 20.13 19.86 19.66 19.66 19.48 19.39 19.12 19.2 18.95 18.8 18.96 18.6 20.19 20.23 19.98 19.87 19.64 19.73 19.5 19.12 19.25 19.21 18.99 19.02 18.83 18.61 Channel/Frequency 18615/1851.5 18900/1880 19185/1908.5 20.01 20.07 20.01 19.75 19.7 19.82 19.49 19.2 19.27 19.31 18.81 18.87 18.89 18.63 20.02 20.22 20.11 19.9 19.76 19.82 19.52 19.19 19.31 19.21 18.97 18.77 18.77 18.67 19.99 20.02 20.02 19.85 19.73 19.69 19.46 19.17 19.34 19.17 19.04 19.03 18.92 18.64 Tune up 19.51.0 19.01.0 19.01.0 18.51.0 18.51.0 18.01.0 Tune up 19.51.0 19.01.0 19.01.0 18.51.0 18.51.0 18.01.0 RB offset 0 3 5 0 2 3 0 0 3 5 0 2 3 0 RB offset 0 7 14 0 4 7 0 0 7 14 0 4 7 0 1.4MHz 3MHz Bandwidth Modulation CCIC-SET/TRF:ISAR(2019-05-23) Page 21 of 47 Bandwidth Modulation QPSK 16QAM LTE FDD Band 2 RB size 1 1 1 12 12 12 25 1 1 1 12 12 12 25 RB size 1 1 1 25 25 25 50 1 1 1 25 25 25 50 16QAM QPSK 5MHz 10MHz Bandwidth Modulation Report No. SET2019-08595 Conducted Power(dBm) Channel/Frequency 18625/1852.5 18900/1880 19175/1907.5 20.05 19.97 20.08 19.68 19.64 19.72 19.55 19.15 19.21 19.32 18.8 18.82 18.79 18.62 20.2 20.01 20.07 19.71 19.67 19.89 19.53 19.29 19.36 19.12 19.02 19.04 18.97 18.64 20.01 20 20.06 19.65 19.88 19.66 19.51 19.31 19.17 19.31 18.94 18.97 18.96 18.69 Channel/Frequency 18650/1855 18900/1880 19150/1905 20.11 20.17 20.04 19.79 19.87 19.85 19.55 19.36 19.2 19.17 18.93 18.92 19.03 18.67 19.99 20.17 20.25 19.71 19.74 19.72 19.46 19.33 19.32 19.21 18.8 19.03 18.92 18.67 20.22 20.18 20.23 19.84 19.84 19.65 19.53 19.1 19.18 19.31 18.86 18.94 18.91 18.63 Tune up 19.51.0 19.01.0 19.01.0 18.51.0 18.51.0 18.01.0 Tune up 19.51.0 19.01.0 19.01.0 18.51.0 18.51.0 18.01.0 RB offset 0 13 24 0 6 13 0 0 13 24 0 6 13 0 RB offset 0 25 49 0 13 25 0 0 25 49 0 13 25 0 CCIC-SET/TRF:ISAR(2019-05-23) Page 22 of 47 Bandwidth Modulation QPSK 16QAM LTE FDD Band 2 RB size 1 1 1 36 36 36 75 1 1 1 36 36 36 75 RB size 1 1 1 50 50 50 100 1 1 1 50 50 50 100 16QAM QPSK 15MHz 20MHz Bandwidth Modulation Report No. SET2019-08595 Conducted Power(dBm) Channel/Frequency 18675/1857.5 18900/1880 19125/1902.5 20.15 20.2 20 19.68 19.81 19.87 19.51 19.25 19.25 19.32 19 19 18.86 18.7 20.05 20.15 19.95 19.73 19.82 19.85 19.45 19.26 19.4 19.16 18.95 19.04 18.77 18.69 20.12 20.1 20.23 19.78 19.81 19.81 19.54 19.17 19.31 19.15 18.87 19.02 19 18.7 Channel/Frequency 18700/1860 18900/1880 19100/1900 20.01 20.15 20 19.85 19.67 19.71 19.54 19.4 19.2 19.24 18.76 18.79 18.89 18.65 20.32 20.12 19.95 19.86 19.76 19.72 19.47 19.35 19.28 19.26 18.78 18.89 18.89 18.68 20.07 20.2 19.95 19.77 19.73 19.83 19.53 19.29 19.25 19.1 19.05 18.86 19.01 18.62 Tune up 19.51.0 19.01.0 19.01.0 18.51.0 18.51.0 18.01.0 Tune up 19.51.0 19.01.0 19.01.0 18.51.0 18.51.0 18.01.0 RB offset 0 38 74 0 18 39 0 0 38 74 0 18 39 0 RB offset 0 50 99 0 25 50 0 0 50 99 0 25 50 0 CCIC-SET/TRF:ISAR(2019-05-23) Page 23 of 47 2. LTE Band 4 Conducted Power Test Verdict:

Report No. SET2019-08595 LTE FDD Band 4 Bandwidth Modulation 1.4MHz QPSK 16QAM Bandwidth Modulation QPSK 16QAM 3MHz RB offset 0 3 5 0 2 3 0 0 3 5 0 2 3 0 RB offset 0 7 14 0 4 7 0 0 7 14 0 4 7 0 RB size 1 1 1 3 3 3 6 1 1 1 3 3 3 6 RB size 1 1 1 8 8 8 15 1 1 1 8 8 8 15 Conducted Power(dBm) Channel/Frequency 19957/1710.7 20175/1732.5 20393/1754.3 20.68 20.78 20.6 20.24 20.2 20.39 20.05 19.93 19.71 19.76 19.49 19.62 19.46 19.27 20.81 20.74 20.7 20.31 20.4 20.36 20.12 19.77 19.85 19.86 19.61 19.58 19.56 19.25 20.79 20.68 20.58 20.32 20.3 20.28 20.07 19.74 19.75 19.91 19.56 19.63 19.65 19.3 Channel/Frequency 19965/1711.5 20175/1732.5 20385/1753.5 20.82 20.75 20.82 20.35 20.4 20.28 20.15 19.98 19.93 19.8 19.46 19.48 19.5 19.25 20.66 20.62 20.78 20.23 20.32 20.22 20.11 19.78 19.76 20 19.49 19.48 19.64 19.23 20.84 20.56 20.73 20.37 20.44 20.32 20.07 19.75 19.74 19.76 19.48 19.64 19.65 19.29 Tune up 20.01.0 19.51.0 19.51.0 19.01.0 19.01.0 18.51.0 Tune up 20.01.0 19.51.0 19.51.0 19.01.0 19.01.0 18.51.0 CCIC-SET/TRF:ISAR(2019-05-23) Page 24 of 47 LTE FDD Band 4 Bandwidth Modulation 5MHz QPSK 16QAM Bandwidth Modulation QPSK 16QAM 10MHz RB offset 0 13 24 0 6 13 0 0 13 24 0 6 13 0 RB offset 0 25 49 0 13 25 0 0 25 49 0 13 25 0 RB size 1 1 1 12 12 12 25 1 1 1 12 12 12 25 RB size 1 1 1 25 25 25 50 1 1 1 25 25 25 50 Report No. SET2019-08595 Conducted Power(dBm) Channel/Frequency 19975/1712.5 20175/1732.5 20375/1752.5 20.84 20.76 20.77 20.39 20.35 20.41 20.13 19.78 19.74 19.71 19.37 19.55 19.47 19.24 20.6 20.79 20.66 20.32 20.32 20.21 20.07 19.72 19.82 19.89 19.47 19.39 19.5 19.2 20.8 20.76 20.62 20.29 20.36 20.21 20.05 19.76 19.8 19.84 19.61 19.48 19.43 19.26 Channel/Frequency 20000/1715 20175/1732.5 20350/1750 20.82 20.69 20.63 20.45 20.27 20.38 20.15 19.9 19.93 19.9 19.38 19.51 19.61 19.23 20.85 20.64 20.58 20.35 20.21 20.37 20.11 19.83 19.87 19.92 19.62 19.52 19.46 19.28 20.84 20.81 20.61 20.39 20.38 20.5 20.07 19.96 19.76 19.93 19.42 19.49 19.42 19.2 Tune up 20.01.0 19.51.0 19.51.0 19.01.0 19.01.0 18.51.0 Tune up 20.01.0 19.51.0 19.51.0 19.01.0 19.01.0 18.51.0 CCIC-SET/TRF:ISAR(2019-05-23) Page 25 of 47 LTE FDD Band 4 Bandwidth Modulation 15MHz QPSK 16QAM Bandwidth Modulation QPSK 16QAM 20MHz RB offset 0 38 74 0 18 39 0 0 38 74 0 18 39 0 RB offset 0 50 99 0 25 50 0 0 50 99 0 25 50 0 RB size 1 1 1 36 36 36 75 1 1 1 36 36 36 75 RB size 1 1 1 50 50 50 100 1 1 1 50 50 50 100 Report No. SET2019-08595 Conducted Power(dBm) Channel/Frequency 20025/1717.5 20175/1732.5 20325/1747.5 20.75 20.77 20.72 20.46 20.33 20.35 20.13 19.7 19.71 19.98 19.58 19.55 19.59 19.2 20.61 20.57 20.77 20.47 20.27 20.3 20.07 19.91 19.83 19.85 19.62 19.36 19.46 19.26 20.67 20.83 20.58 20.34 20.44 20.34 20.13 19.9 19.78 19.92 19.38 19.57 19.52 19.24 Channel/Frequency 20050/1720 20175/1732.5 20300/1745 20.77 20.61 20.71 20.37 20.24 20.36 20.13 19.73 19.76 19.73 19.42 19.49 19.53 19.22 20.94 20.64 20.77 20.44 20.36 20.27 20.1 19.92 19.94 19.99 19.43 19.36 19.57 19.28 20.68 20.69 20.58 20.41 20.36 20.25 20.09 19.88 19.99 19.95 19.55 19.61 19.4 19.2 Tune up 20.01.0 19.51.0 19.51.0 19.01.0 19.01.0 18.51.0 Tune up 20.01.0 19.51.0 19.51.0 19.01.0 19.01.0 18.51.0 CCIC-SET/TRF:ISAR(2019-05-23) Page 26 of 47 3. LTE Band 5 Conducted Power Test Verdict:

Report No. SET2019-08595 Bandwidth Modulation QPSK 16QAM LTE FDD Band 5 RB size 1 1 1 3 3 3 6 1 1 1 3 3 3 6 RB size 1 1 1 8 8 8 15 1 1 1 8 8 8 15 16QAM QPSK Conducted Power(dBm) Channel/Frequency 20407/824.7 20525/836.5 20643/848.3 22.59 22.3 22.53 22.03 22.03 22.21 21.88 21.62 21.68 21.57 21.19 21.11 21.38 21.01 22.58 22.5 22.59 22.02 22.15 22.05 21.8 21.48 21.72 21.57 21.29 21.3 21.35 20.97 22.34 22.41 22.58 22.15 22.09 22.18 21.8 21.64 21.75 21.75 21.1 21.25 21.18 20.99 Channel/Frequency 20415/825.5 20525/836.5 20635/847.5 22.38 22.47 22.35 22.08 22.02 21.98 21.89 21.48 21.71 21.73 21.22 21.31 21.21 21 22.33 22.6 22.51 22.14 22.16 22.2 21.87 21.47 21.57 21.72 21.19 21.38 21.31 21.04 22.54 22.48 22.55 22.02 22.16 22.09 21.85 21.49 21.49 21.62 21.28 21.27 21.24 21 Tune up 22.01.0 21.51.0 21.01.0 21.01.0 20.51.0 20.51.0 Tune up 22.01.0 21.51.0 21.01.0 21.01.0 20.51.0 20.51.0 RB offset 0 3 5 0 2 3 0 0 3 5 0 2 3 0 RB offset 0 7 14 0 4 7 0 0 7 14 0 4 7 0 1.4MHz 3MHz Bandwidth Modulation CCIC-SET/TRF:ISAR(2019-05-23) Page 27 of 47 Report No. SET2019-08595 Conducted Power(dBm) Channel/Frequency 20425/826.5 20525/836.5 20625/846.5 22.3 22.45 22.37 21.95 22.05 22.04 21.82 21.62 21.69 21.64 21.31 21.15 21.27 21 22.32 22.51 22.48 22.13 21.96 21.96 21.86 21.59 21.72 21.65 21.32 21.3 21.22 20.96 22.6 22.49 22.41 22.05 22.16 22.23 21.88 21.5 21.55 21.72 21.36 21.29 21.22 21.04 Channel/Frequency 20450/829 20525/836.5 20600/844 22.64 22.56 22.48 22.11 21.98 22.08 21.85 21.72 21.56 21.66 21.31 21.37 21.34 20.95 22.68 22.58 22.35 22.25 22.04 22.03 21.84 21.46 21.62 21.58 21.38 21.19 21.27 21.04 22.59 22.59 22.58 22.19 21.97 21.95 21.9 21.53 21.73 21.69 21.11 21.28 21.32 21.05 Tune up 22.01.0 21.51.0 21.01.0 21.01.0 20.51.0 20.51.0 Tune up 22.01.0 21.51.0 21.01.0 21.01.0 20.51.0 20.51.0 LTE FDD Band 5 Bandwidth Modulation 5MHz QPSK 16QAM Bandwidth Modulation 10MHz QPSK 16QAM RB offset 0 13 24 0 6 13 0 0 13 24 0 6 13 0 RB offset 0 25 49 0 13 25 0 0 25 49 0 13 25 0 RB size 1 1 1 12 12 12 25 1 1 1 12 12 12 25 RB size 1 1 1 25 25 25 50 1 1 1 25 25 25 50 CCIC-SET/TRF:ISAR(2019-05-23) Page 28 of 47 4. LTE Band 7 Conducted Power Test Verdict:

Report No. SET2019-08595 LTE FDD Band 7 Bandwidth Modulation 5MHz QPSK 16QAM Bandwidth Modulation QPSK 16QAM 10MHz RB offset 0 13 24 0 6 13 0 0 13 24 0 6 13 0 RB offset 0 25 49 0 13 25 0 0 25 49 0 13 25 0 RB size 1 1 1 12 12 12 25 1 1 1 12 12 12 25 RB size 1 1 1 25 25 25 50 1 1 1 25 25 25 50 Conducted Power(dBm) Channel/Frequency 20775/2502.5 21100/2535 21425/2567.5 20.41 20.65 20.41 20.05 20.19 20.23 20 19.66 19.68 19.67 19.37 19.5 19.23 19.12 20.45 20.43 20.43 20.3 20.27 20.1 19.96 19.84 19.83 19.76 19.3 19.43 19.22 19.08 20.57 20.61 20.55 20.25 20.23 20.34 19.99 19.75 19.61 19.62 19.43 19.25 19.31 19.13 Channel/Frequency 20800/2505 21100/2535 21400/2565 20.64 20.43 20.67 20.31 20.33 20.07 20 19.57 19.78 19.81 19.43 19.42 19.47 19.12 20.68 20.45 20.42 20.07 20.23 20.11 19.92 19.77 19.76 19.66 19.42 19.4 19.29 19.07 20.64 20.6 20.54 20.1 20.14 20.23 19.97 19.63 19.6 19.65 19.49 19.36 19.28 19.09 Tune up 20.01.0 19.51.0 19.01.0 19.01.0 18.51.0 18.51.0 Tune up 20.01.0 19.51.0 19.01.0 19.01.0 18.51.0 18.51.0 CCIC-SET/TRF:ISAR(2019-05-23) Page 29 of 47 LTE FDD Band 7 Bandwidth Modulation 15MHz QPSK 16QAM Bandwidth Modulation 20MHz QPSK 16QAM RB offset 0 38 74 0 18 39 0 0 38 74 0 18 39 0 RB offset 0 50 99 0 25 50 0 0 50 99 0 25 50 0 RB size 1 1 1 36 36 36 75 1 1 1 36 36 36 75 RB size 1 1 1 50 50 50 100 1 1 1 50 50 50 100 Report No. SET2019-08595 Conducted Power(dBm) Channel/Frequency 20825/2507.5 21100/2535 21375/2562.5 20.58 20.61 20.42 20.34 20.11 20.33 19.94 19.7 19.69 19.78 19.23 19.5 19.31 19.15 20.69 20.46 20.58 20.08 20.14 20.32 19.99 19.73 19.74 19.6 19.37 19.24 19.27 19.14 20.62 20.49 20.4 20.1 20.33 20.23 20 19.65 19.65 19.84 19.41 19.24 19.27 19.11 Channel/Frequency 20850/2510 21100/2535 21350/2560 20.43 20.51 20.65 20.32 20.18 20.23 19.91 19.8 19.63 19.65 19.22 19.5 19.27 19.08 20.83 20.41 20.62 20.34 20.13 20.29 19.91 19.76 19.68 19.85 19.31 19.37 19.32 19.06 20.44 20.57 20.61 20.29 20.09 20.07 19.96 19.65 19.66 19.56 19.27 19.25 19.21 19.15 Tune up 20.01.0 19.51.0 19.01.0 19.01.0 18.51.0 18.51.0 Tune up 20.01.0 19.51.0 19.01.0 19.01.0 18.51.0 18.51.0 CCIC-SET/TRF:ISAR(2019-05-23) Page 30 of 47 Report No. SET2019-08595 7.4 WIFI Conducted Power WLAN 2.4GHz ANT0 Band Conducted Power Channel/Freq.(MHz) 1(2412) 6(2437) 11(2462) Channel/Freq.(MHz) 3(2422) 6(2437) 9(2452) MaximumConductedOutPower(dBm) 802.11b 15.59 16.12 15.97 802.11g 15.46 15.76 15.11 802.11n(HT20) 13.22 13.63 12.92 MaximumConductedOutPower(dBm) 802.11n40 11.62 11.56 11.00 WLAN 2.4GHz ANT1 Band Conducted Power Channel/Freq.(MHz) 1(2412) 6(2437) 11(2462) 802.11b 16.53 17.93 16.28 MaximumConductedOutPower(dBm) 802.11g 13.27 14.79 13.22 802.11n(HT20) 11.52 13.70 12.05 Channel/Freq.(MHz) MaximumConductedOutPower(dBm) 802.11n40 10.29 11.39 11.39 3(2422) 6(2437) 9(2452) SAR exclusion Note:

1. Per KDB248227 D01 v02r02, choose the highest output power channel to test SAR and determine further 2. For each frequency band, testing at higher data rates and higher order modulations is not required when the maximum average output power for each of these configurations is less than 1/4dB higher than those measured at lowest data rate 3. Per KDB248227 D01 v02r02, 802.11g /11n-HT20/11n-HT40 is not required. When the highest reported SAR for DSSS is adjusted by the ratio of OFDM to DSSS specified maximum output power and the adjusted SAR is 1.2W/Kg. Thus the SAR can be excluded. CCIC-SET/TRF:ISAR(2019-05-23) Page 31 of 47 Antenna Location:

Edge B Edge B Edge C Report No. SET2019-08595 WIFI Ant 1 WIFI Ant 0 Edge D Edge D GSM/WCDMA/LTE Antenna WIFI Ant 0 Edge A Antenna-to-User (Edge Side) distance (mm):

Antenna Front Back Edge A Edge B Edge C Edge D GSM/WCDMA/LTE Main Antenna WIFI Ant0 WIFI Ant1 3 3 3 3 3 3 6 2 41 4 58 94 3 58 8 90 25 6 The Body SAR measurement positions of each band are as below:

Antenna Front Back Edge A Edge B Edge C Edge D GSM/WCDMA/LTE/CDMA Main Antenna Body-worn GSM/WCDMA/LTE Main Antenna hotspot WIFI Antenna Body-worn Yes Yes Yes Yes Yes Yes No No No No Yes No No Yes No No Yes No WIFI Ant0 hotspot WIFI Ant1 hotspot No Yes Note: According to KDB 941225 D06 v02r01, when antenna-to-edge>2.5cm, SAR is not required. Yes Yes Yes Yes No Yes Yes No No No CCIC-SET/TRF:ISAR(2019-05-23) Page 32 of 47 8. Scaling Factor calculation Operation Mode Channel

/Frequency Output Power(dBm) 128/824.2 190/836.6 251/848.8 512/1850.2 661/1880.0 810/1909.8 4132/826.4 4183/836.6 4233/846.6 9262/1852.4 9400/1880.0 9538/1907.6 18700/1860 18900/1880 19100/1900 18700/1860 18900/1880 19100/1900 20050/1720 20175/1732.5 20300/1745 20050/1720 20175/1732.5 20300/1745 20450/829 20525/836.5 20600/844 20450/829 20525/836.5 20600/844 20850/2510 21100/2535 21350/2560 GPRS850

(GPRS 4Tx) GPRS1900

(GPRS 4Tx) WCDMA850 WCDMA1900 LTE B2 20MHz 1RB#0 LTE B2 20MHz 50RB#0 LTE B4 20MHz 1RB#0 LTE B4 20MHz 50RB#0 LTE B5 10MHz 1RB#0 LTE B5 10MHz 25RB#0 LTE B7 20MHz 1RB#0 27.01 27.36 27.14 24.06 24.28 23.94 22.44 22.94 22.37 21.15 21.49 21.35 20.01 20.32 20.07 19.85 19.86 19.77 20.77 20.94 20.68 20.37 20.44 20.41 22.64 22.68 22.59 22.11 22.25 22.19 20.43 20.83 20.44 Report No. SET2019-08595 Max. Tune up(dBm) Scaling Factor Tune up Power in tolerance

(dBm) 26.5 1.0 26.5 1.0 26.5 1.0 23.5 1.0 23.5 1.0 23.5 1.0 22.0 1.0 22.0 1.0 22.0 1.0 20.5 1.0 20.5 1.0 20.5 1.0 19.5 1.0 19.5 1.0 19.5 1.0 19.0 1.0 19.0 1.0 19.0 1.0 20.0 1.0 20.0 1.0 20.0 1.0 19.5 1.0 19.5 1.0 19.5 1.0 22.0 1.0 22.0 1.0 22.0 1.0 21.5 1.0 21.5 1.0 21.5 1.0 20.0 1.0 20.0 1.0 20.0 1.0 27.50 27.50 27.50 24.50 24.50 24.50 23.00 23.00 23.00 21.50 21.50 21.50 20.50 20.50 20.50 20.00 20.00 20.00 21.00 21.00 21.00 20.50 20.50 20.50 23.00 23.00 23.00 22.50 22.50 22.50 21.00 21.00 21.00 1.119 1.033 1.086 1.107 1.052 1.138 1.138 1.014 1.156 1.084 1.002 1.035 1.119 1.042 1.104 1.035 1.033 1.054 1.054 1.014 1.076 1.030 1.014 1.021 1.086 1.076 1.099 1.094 1.059 1.074 1.140 1.040 1.138 CCIC-SET/TRF:ISAR(2019-05-23) Page 33 of 47 Report No. SET2019-08595 50RB#0 WIFI 2.4G 802.11b Ant0 LTE B7 20MHz 20850/2510 21100/2535 21350/2560 20.50 20.50 20.50 16.50 16.50 16.50 18.00 18.00 18.00 Note: for LTE power tolerance, only QPSK modulation mode was provide here. 19.5 1.0 19.5 1.0 19.5 1.0 15.5 1.0 15.5 1.0 15.5 1.0 17.0 1.0 17.0 1.0 17.0 1.0 20.32 20.34 20.29 15.59 16.12 15.97 16.53 17.93 16.28 1/2412 6/2437 11/2462 1/2412 6/2437 11/2462 802.11b Ant1 WIFI 2.4G 1.042 1.038 1.050 1.233 1.091 1.130 1.403 1.016 1.486 CCIC-SET/TRF:ISAR(2019-05-23) Page 34 of 47 9. Test Results Results overview of GSM850 Report No. SET2019-08595 Hotspot(10mm) Channel

/Frequency Mode SAR Value

(W/kg)1-g Power drift(%) Scaled Factor Scaled SAR

(W/Kg)1-g Face Upward 190/836.6 GPRS 4Tx Back Upward 190/836.6 GPRS 4Tx Edge A Edge B Edge C 190/836.6 GPRS 4Tx 190/836.6 GPRS 4Tx 190/836.6 GPRS 4Tx 0.715 0.693 0.332 0.160 0.396 1.08

-1.28

-2.60

-4.72 4.72 1.033 1.033 1.033 1.033 1.033 0.738 0.716 0.343 0.165 0.409 Results overview of GSM1900 Hotspot(10mm) Channel

/Frequency Mode SAR Value

(W/kg)1-g Power drift(%) Scaled Factor Scaled SAR

(W/Kg)1-g Back Upward 661/1880.0 GPRS 4Tx Face Upward 661/1880.0 GPRS 4Tx Edge A Edge B Edge C 661/1880.0 GPRS 4Tx 661/1880.0 GPRS 4Tx 661/1880.0 GPRS 4Tx 0.757 0.497 0.357 0.285 0.119

-3.17

-1.76

-3.97

-2.10

-4.66 1.052 1.052 1.052 1.052 1.052 0.796 0.523 0.376 0.300 0.125 Results overview of WCDMA1900 SAR Plot. Yes

/

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SAR Plot. Yes

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Hotspot(10mm) Channel

/Frequency Back Upward 9262/1852.4 Back Upward 9400/1880.0 Mode RMC RMC RMC 9538/1907.6 9262/1852.4 RMC Back Upward Back Upward repeat Back Upward repeat Back Upward repeat 9538/1907.6 RMC Face Upward 9400/1880.0 Edge A Edge B Edge C 9400/1880.0 9400/1880.0 9400/1880.0 RMC RMC RMC RMC SAR Value

(W/kg)1-g Power drift(%) Scaled Factor Scaled SAR

(W/Kg)1-g SAR Plot. 0.756 0.824 0.778 0.722

-1.03

-2.27

-2.71 1.084 1.002 1.035

-4.51 1.084 0.819 0.826 0.805 0.783 0.737 0.490 0.326 0.261 0.114

-1.56 1.035 1.002 1.002 1.002 1.002

-1.80

-3.33

-3.18

-4.04 0.763 0.491 0.327 0.262 0.114

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9400/1880.0 RMC 0.791

-0.29 1.002 0.793 CCIC-SET/TRF:ISAR(2019-05-23) Page 35 of 47 Results overview of WCDMA850 Report No. SET2019-08595 Mode RMC RMC RMC RMC SAR Value

(W/kg)1-g Power drift(%) Scaled Factor Scaled SAR

(W/Kg)1-g SAR Plot. 0.975 1.110 0.951 0.910

-2.18

-3.14

-0.49 1.138 1.014 1.156

-0.37 1.138 1.109 1.125 1.099 1.035 4183/836.6 RMC 1.032

-2.84 1.014 1.046 RMC RMC RMC RMC RMC 0.892 1.099 0.535 0.260 0.685

-2.79 1.156

-1.40

-1.84

-1.66

-1.24 1.014 1.014 1.014 1.014 1.031 1.114 0.542 0.264 0.695 Hotspot(10mm) Channel

/Frequency Back Upward 4132/826.4 Back Upward 4183/836.6 Back Upward Back Upward repeat Back Upward repeat Back Upward repeat 4233/846.6 4132/826.4 4233/846.6 Face Upward 4183/836.6 Edge A Edge B Edge C 4183/836.6 4183/836.6 4183/836.6

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Results overview of FDD LTE Band 2, QPSK, 20MHz Bandwidth Body-worn(10mm) Channel

/Frequency Mode Power drift(%) Scaled Factor Scaled SAR

(W/Kg)1-g Limit

(W/kg) SAR Value

(W/kg)1-g 1RB#0 0.812 0.875 0.822 18700/1860 18900/1880 19100/1900 Data Data Data

-1.060

-1.460

-0.230 1.119 1.042 1.104 18700/1860 Data 0.768

-0.280 1.119 18900/1880 Data 0.831

-1.870 1.042 19100/1900 Data 0.781

-2.310 1.104 18900/1880 18900/1880 18900/1880 18900/1880 18700/1860 18900/1880 19100/1900 18900/1880 18900/1880 18900/1880 18900/1880 Data Data Data Data Data Data Data Data Data Data Data 0.547 0.499 0.283 0.178 50%RB#0 0.764 0.799 0.772 0.456 0.412 0.213 0.115

-3.190

-0.750

-1.780

-2.420

-1.200

-3.260

-0.090

-0.240

-0.110 1.260

-0.480 1.042 1.042 1.042 1.042 1.035 1.033 1.054 1.033 1.033 1.033 1.033 Back Upward Back Upward Back Upward Back Upward repeat Back Upward repeat Back Upward repeat Face Upward Edge A Edge B Edge C Back Upward Back Upward Back Upward Face Upward Edge A Edge B Edge C 0.909 0.912 0.908 0.860 0.866 0.862 0.570 0.520 0.295 0.186 0.791 0.825 0.814 0.471 0.425 0.220 0.119

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CCIC-SET/TRF:ISAR(2019-05-23) Page 36 of 47 Results overview of FDD LTE Band 4, QPSK, 20MHz Bandwidth Report No. SET2019-08595 Body-worn(10mm) Channel

/Frequency Mode Power drift(%) Scaled Factor Scaled SAR

(W/Kg)1-g Limit

(W/kg) SAR Value

(W/kg)1-g 1RB#0 0.843 0.905 0.851 Back Upward Back Upward Back Upward Back Upward repeat Back Upward repeat Back Upward repeat Face Upward Edge A Edge B Edge C Back Upward Back Upward Back Upward Back Upward repeat Back Upward repeat Back Upward repeat Face Upward Edge A Edge B Edge C 20050/1720 20175/1732.5 20300/1745 Data Data Data

-1.620

-2.770

-0.810 1.054 1.014 1.076 20050/1720 Data 0.810

-4.320 1.054 0.889 0.918 0.916 0.854 20175/1732.5 Data 0.866

-2.610 1.014 0.878 20300/1745 Data 0.806

-1.300 1.076 20175/1732.5 20175/1732.5 20175/1732.5 20175/1732.5 20050/1720 20175/1732.5 20300/1745 20050/1720 Data Data Data Data Data Data Data Data 20175/1732.5 Data 20300/1745 20175/1732.5 20175/1732.5 20175/1732.5 20175/1732.5 Data Data Data Data Data 0.569 0.373 0.650 0.219 50%RB#0 0.813 0.837 0.824 0.772 0.796 0.769 0.516 0.328 0.597 0.185

-4.190

-0.100

-2.500 4.600

-0.650

-0.210 0.290

-1.660 1.014 1.014 1.014 1.014 1.030 1.014 1.021 1.030

-2.710 1.014

-0.160

-3.610

-1.780

-2.940

-2.090 1.021 1.014 1.014 1.014 1.014 0.868 0.577 0.378 0.659 0.222 0.837 0.849 0.841 0.795 0.807 0.785 0.523 0.333 0.605 0.188

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CCIC-SET/TRF:ISAR(2019-05-23) Page 37 of 47 Results overview of FDD LTE Band 5, QPSK, 10MHz Bandwidth Report No. SET2019-08595 Body-worn(10mm) Channel

/Frequency Mode Face Upward Face Upward Face Upward Back Upward Edge A Edge B Edge C Back Upward Face Upward Edge A Edge B Edge C 20450/829 20525/836.5 20600/844 20525/836.5 20525/836.5 20525/836.5 20525/836.5 20525/836.5 20525/836.5 20525/836.5 20525/836.5 20525/836.5 Data Data Data Data Data Data Data Data Data Data Data Data Power drift(%) Scaled Factor Scaled SAR

(W/Kg)1-g Limit

(W/kg)

-0.050

-1.130

-0.790

-1.210

-2.800

-3.790

-1.840 1.380 2.060

-0.370

-1.110

-2.030 1.086 1.076 1.099 1.076 1.076 1.076 1.076 1.059 1.059 1.059 1.059 1.059 0.774 0.802 0.795 0.755 0.420 0.153 0.453 0.715 0.748 0.372 0.119 0.408

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SAR Value

(W/kg)1-g 1RB#0 0.712 0.745 0.723 0.701 0.390 0.142 0.421 50%RB#0 0.675 0.706 0.351 0.112 0.385 Results overview of FDD LTE Band 7, QPSK, 20MHz Bandwidth Body-worn(10mm) Channel

/Frequency Mode Back Upward Face Upward Edge A Edge B Edge C Back Upward Face Upward Edge A Edge B Edge C 21100/2535 21100/2535 21100/2535 21100/2535 21100/2535 21100/2535 21100/2535 21100/2535 21100/2535 21100/2535 Data Data Data Data Data Data Data Data Data Data SAR Value

(W/kg)1-g 1RB#0 0.313 0.319 0.413 0.121 0.146 50%RB#0 0.286 0.295 0.384 0.099 0.116 Power drift(%) Scaled Factor Scaled SAR

(W/Kg)1-g Limit

(W/kg)

-3.300

-3.760

-4.650

-4.130

-2.230

-1.180

-2.610

-2.370

-0.140 1.090 1.040 1.040 1.040 1.040 1.040 1.038 1.038 1.038 1.038 1.038

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0.325 0.332 0.429 0.126 0.152 0.297 0.306 0.398 0.103 0.120 CCIC-SET/TRF:ISAR(2019-05-23) Page 38 of 47 Results overview of WIFI2.4G Ant0 802.11b Report No. SET2019-08595 Hotspot(10mm) Back Upward Face Upward Edge A Channel

/Frequency 6/2437 6/2437 6/2437 Mode DSSS DSSS DSSS SAR Value

(W/kg)1-g Power drift(%) Scaled Factor Scaled SAR

(W/Kg)1-g SAR Plot.

-4.59

-3.52

-4.85 1.091 1.091 1.091 0.019 0.043 0.019

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Yes

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0.017 0.039 0.017 Results overview of WIFI2.4G Ant1 802.11b Hotspot(10mm) Channel

/Frequency Back Upward Face Upward Edge C Edge D 6/2437 6/2437 6/2437 6/2437 Mode DSSS DSSS DSSS DSSS SAR Value

(W/kg)1-g Power drift(%) Scaled Factor Scaled SAR

(W/Kg)1-g

-1.17

-3.66

-4.98

-3.12 1.016 1.016 1.016 1.016 0.150 0.121 0.024 0.037 0.148 0.119 0.024 0.036 SAR Plot. Yes

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Note:

Per KDB941225 D06 v02r01, When the antenna-to-edge distance is greater than 2.5cm, such position does not need to be tested. As the manufacture requirement the separation distance use 5mm for Hotspot mode. Per KDB Publication 941225 D01v03r01. RMC 12.2kbps was as primary mode SAR, when the primary mode SAR less than 1.2W/kg, secondary SAR (HSPA) was not requires. When the 1-g SAR for the mid-band channel or the channel with the highest output power satisfy the following conditions, testing of the other channels in the band is not required. (Per KDB 447498 D01 General RF Exposure Guidance v06) 0.8 W/kg, when the transmission band is 100 MHz 0.6 W/kg, when the transmission band is between 100 MHz and 200 MHz 0.4 W/kg, when the transmission band is 200 MHz CCIC-SET/TRF:ISAR(2019-05-23) Page 39 of 47 Report No. SET2019-08595 10. Simultaneous Transmissions Analysis Localized Specific Absorption Rate (SAR) of this portable wireless device has been measured in all cases requested by the relevant standards cited in Clause 6 of this report. Maximum localized SAR is below exposure limits specified in the relevant standards. Simultaneous SAR No. Transmitter Combinations 1 2 3 GSM + WIFI 2.4G WCDMA +WIFI2.4G LTE+WIFI2.4G Scenario Supported for Mobile Supported or not Hotspot or not Yes Yes Yes Yes Yes Yes CCIC-SET/TRF:ISAR(2019-05-23) Page 40 of 47 Simultaneous Tx Combination of GSM/WCDMA/LTE and BT/WIFI (Body). Report No. SET2019-08595 10mm Edge A Body-worn Test Position GSM850 GSM1900 WCDMA 850 WCDMA 1900 separation MAX 1-g SAR(W/Kg) Face 0.738 0.523 1.114 0.491 0.570 0.577 0.802 0.332 2.4G WIFI Ant0 802.11b 0.043 2.4G WIFI Ant1 802.11b 0.121 WIFI Simultaneous 1-g SAR(W/Kg) 1.235 Simultaneous Tx Combination of GSM/WCDMA/LTE and WIFI (Body). Back 0.716 0.796 1.125 0.826 0.912 0.918 0.755 0.325 0.019 0.150 1.275 LTE Band2 LTE Band4 LTE Band5 LTE Band7

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Edge B Edge C Edge D

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Test Position Hotspot 10mm GSM850 GSM1900 WCDMA 850 WCDMA 1900 Face 0.738 0.523 1.114 0.491 0.570 0.577 0.802 0.332 2.4G WIFI Ant0 802.11b 0.043 2.4G WIFI Ant1 802.11b 0.121 WIFI Simultaneous 1-g SAR(W/Kg) 1.235 The estimated SAR value with * Signal LTE Band2 LTE Band4 LTE Band5 LTE Band7 separation MAX 1-g SAR(W/Kg) SAR to Peak Location Separation Ratio (SPLSR) Back 0.716 0.796 1.125 0.826 0.912 0.918 0.755 0.325 0.019 0.150 1.275 Edge A 0.343 0.376 0.542 0.327 0.425 0.378 0.420 0.429 0.019

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0.561 Edge B 0.165 0.300 0.264 0.262 0.220 0.659 0.153 0.126

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Edge C Edge D 0.409 0.125 0.695 0.114 0.119 0.222 0.453 0.152

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0.024 0.719 0.037 0.037 As the Sum of the SAR is not greater than 1.6 W/kg SPLSR assessment is not required CCIC-SET/TRF:ISAR(2019-05-23) Page 41 of 47 11. Measurement Uncertainty No. Uncertainty Component Type Uncertainty Value (%) Probability Distribution k ci Standard Uncertainty

(%) ui(%) Degree of freedom Veff or vi Report No. SET2019-08595 1 2 3 4 5 Probe Calibration Axial isotropy Hemispherical Isotropy Boundary Effect Linearity 6 System Detection Limits 7 8 9 Modulation response Readout Electronics Response Time 10 Integration Time 11 RF Ambient Conditions 12 13 14 Probe Position Mechanical tolerance Probe Position with respect to Phantom Shell Extrapolation, Interpolation and Integration Algorithms for Max. SAR evaluation Measurement System B B B B B B B B B B B B B 5.8 3.5 5.9 1 4.7 1.0 3 0.5 1.4 3.0 3.0 1.4 1.4 B 2.3 N R R R R R N N R R R R R R 1 1 5.8 3 3 3 3 3 1 1 3 3 3 3 3 3 0.5 1.43 0.5 2.41 1 1 1 1 1 1 1 1 1 1 1 0.58 2.71 0.58 3.00 0.50 0.81 1.73 1.73 0.81 0.81 1.33 CCIC-SET/TRF:ISAR(2019-05-23) Page 42 of 47 Uncertainties of the DUT Report No. SET2019-08595 15 16 17 Position of the DUT Holder of the DUT Output Power Variation SAR drift measurement A A B 2.6 3 5.0 N N R Phantom and Tissue Parameters Phantom 18 Uncertainty(shape and B thickness tolerances) Uncertainty in SAR 19 correction for deviation(in B permittivity and conductivity) 20 21 22 23 Liquid Conductivity Target tolerance Liquid Conductivity measurement Uncertainty) Liquid Permittivity Target tolerance Liquid Permittivity measurement uncertainty Combined Standard Uncertainty Expanded uncertainty

(Confidence interval of 95 %) B B B B System Check Uncertainty 4 2 2.5 4 2.5 5 R N R N R N RSS K=2 3 3 3 3 1 3 3 3 3 1 1 1 1 1 2.6 3.0 2.89 2.31 2.00 0.6 1.95 1 0.92 0.6 1.95 1 1.15 10.63 21.26 5 5 9 No. Uncertainty Component Type Uncertainty Value (%) Probability Distribution k ci Standard Uncertainty

(%) ui(%) Degree of freedom Veff or vi 1 Measurement System Probe Calibration B 5.8 N 1 1 5.8 CCIC-SET/TRF:ISAR(2019-05-23) Page 43 of 47 Report No. SET2019-08595 2 3 4 5 Axial isotropy Hemispherical Isotropy Boundary Effect Linearity 6 System Detection Limits 7 8 9 Modulation response Readout Electronics Response Time 10 Integration Time 11 RF Ambient Conditions 12 13 Probe Position Mechanical tolerance Probe Position with respect to Phantom Shell Extrapolation, Interpolation B B B B B B B B B B B B 3.5 5.9 1 4.7 1 0 0.5 0.00 1.4 3.0 1.4 1.4 14 and Integration Algorithms for B 2.3 Max. SAR evaluation R R R R R N N R R R R R R Uncertainties of the DUT Deviation of experimental 15 source from numberical A source 16 17 Input Power and SAR drift measurement Dipole Axis to Liquid Distance A B 4 5 2 N R R 3 3 3 3 3 1 1 3 3 3 3 3 3 1 3 3 0.5 1.43 0.5 2.41 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0.58 2.71 0.58 0.00 0.50 0.00 0.81 1.73 0.81 0.81 1.33 4.00 2.89 1.2 5 5 CCIC-SET/TRF:ISAR(2019-05-23) Page 44 of 47 Phantom and Tissue Parameters Report No. SET2019-08595 Phantom 18 Uncertainty(shape and B thickness tolerances) Uncertainty in SAR correction 19 for deviation(in permittivity B and conductivity) 20 21 22 23 Liquid Conductivity Target tolerance Liquid Conductivity measurement Uncertainty) Liquid Permittivity Target tolerance Liquid Permittivity measurement uncertainty Combined Standard Uncertainty Expanded uncertainty

(Confidence interval of 95 %) B B B B 4 2 2.5 4 2.5 5 R N R N R N RSS K=2 3 1 3 3 3 3 1 1 2.31 2.00 0.6 1.95 1 0.92 0.6 1.95 1 1.15 10.15 20.29 9 CCIC-SET/TRF:ISAR(2019-05-23) Page 45 of 47 12. Equipment List This table is a complete overview of the SAR measurement equipment. Devices used during the test described are marked

. Report No. SET2019-08595 EQUIPMENT Dipole Dipole Dipole Dipole Dipole Dipole Dipole Dipole Dipole Multimeter SAR Probe System Simulator(Agilent 8960) Vector Network Analyzer(R&S) PC 3.5 Fixed Match Calibration Kit System Simulator(R&S) Directional Coupler Dielectric Probe Kit Signal Generator Power Sensor Power Sensor Power Meter Power Meter KEYSIGHT Amplifier Model SSE2 SID750 SID835 SID900 SID1800 SID1900 SID2000 SID2450 SID2600 SWG5500 Keithley-2000 E5515C CMW500 E7515A ZVB8 ZV-Z32 SCLMP SMU200A Nucletudes DC6180A NRP2 NPR-Z11 NRVS NRV-Z4 Serial number Calibration Date Due Date SN27/15 EPGO261 SN 23/15 DIP0G750-378 SN 09/13 DIP0G835-217 SN 09/13 DIP0G900-215 SN 09/13 DIP1G800-216 SN 09/13 DIP2G000-218 SN 09/13 DIP2G000-219 SN_09/13_DIP2G450-220 SN 32/14_DIP2G600-338 SN15/15 WGA39 4085310 GB 47200710 130805 MY56040357 A0802530 100571 SN 09/13 OCPG51 A140801888 143060 305827 A140401673 1138.3004.02-114072-nq A0802531 100069 2019/03/04 2017/11/27 2017/11/27 2017/11/27 2017/11/27 2017/11/27 2017/11/27 2017/11/27 2017/11/27 2017/11/27 2018/09/06 2017/11/08 2017/08/29 2019/04/01 2019/04/17 2017/11/29 2017/11/27 2019/04/01 2019/03/26 2019/03/26 2019/03/26 2019/03/26 2019/03/26 2019/03/26 2020/03/03 2019/11/26 2019/11/26 2019/11/26 2019/11/26 2019/11/26 2019/11/26 2019/11/26 2019/11/26 2019/11/26 2019/09/05 2019/11/07 2019/08/28 2020/04/01 2020/04/17 2019/11/28 2019/11/26 2020/04/01 2020/03/25 2020/03/25 2020/03/25 2020/03/25 2020/03/25 2020/03/25 CCIC-SET/TRF:ISAR(2019-05-23) Page 46 of 47 ANNEX A: Appendix A: SAR System performance Check Plots Report No. SET2019-08595

(Please See Appendix A) ANNEX B: Appendix B: SAR Measurement results Plots

(Please See Appendix B) ANNEX C: Appendix C: Calibration reports

(Please See Appendix C) ANNEX D: Appendix D: SAR Test Setup

(Please See Appendix D) End of the Report CCIC-SET/TRF:ISAR(2019-05-23) Page 47 of 47

 

 

Report No.: SET2019-09282 Conducted Band Edge Test Result and Data LowRange_FDD02_1.4MHz_1850.7_OneRB LowRange_FDD02_1.4MHz_1850.7_OneRB _low_QPSK _low_Q16 LowRange_ FDD02_1.4MHz_1850.7_fullRB LowRange_ FDD02_1.4MHz_1850.7_fullRB _Low_QPSK _Low_Q16 CCIC-SET/T00 Page 83 of 123 Report No.: SET2019-09282 LowRange_FDD02_3MHz_1851.5_OneRB LowRange_FDD02_3MHz_1851.5_OneRB _low_QPSK _low_Q16 LowRange_ FDD02_3MHz_1851.5_fullRB LowRange_ FDD02_3MHz_1851.5_fullRB _Low_QPSK _Low_Q16 LowRange_FDD02_5MHz_1852.5_OneRB LowRange_FDD02_5MHz_1852.5_OneRB _low_QPSK _low_Q16 CCIC-SET/T00 Page 84 of 123 Report No.: SET2019-09282 LowRange_ FDD02_5MHz_1852.5_fullRB LowRange_ FDD02_5MHz_1852.5_fullRB _Low_QPSK _Low_Q16 LowRange_FDD02_10MHz_1855_OneRB LowRange_FDD02_10MHz_1855_OneRB _low_QPSK _low_Q16 LowRange_ FDD02_10MHz_1855_fullRB LowRange_ FDD02_10MHz_1855_fullRB _Low_QPSK _Low_Q16 CCIC-SET/T00 Page 85 of 123 Report No.: SET2019-09282 LowRange_FDD02_15MHz_1857.5_OneRB LowRange_FDD02_15MHz_1857.5_OneRB _low_QPSK _low_Q16 LowRange_ FDD02_15MHz_1857.5_fullRB LowRange_ FDD02_15MHz_1857.5_fullRB _Low_QPSK _Low_Q16 LowRange_FDD02_20MHz_1860_OneRB LowRange_FDD02_20MHz_1860_OneRB _low_QPSK _low_Q16 CCIC-SET/T00 Page 86 of 123 Report No.: SET2019-09282 LowRange_ FDD02_20MHz_1860_fullRB LowRange_ FDD02_20MHz_1860_fullRB _Low_QPSK _Low_Q16 HighRange_FDD02_1.4MHz_1909.3_OneRB HighRange_FDD02_1.4MHz_1909.3_OneRB _high_QPSK _high_Q16 HighRange_ FDD02_1.4MHz_1909.3 HighRange_ FDD02_1.4MHz_1909.3 _fullRB_High_QPSK _fullRB_High_Q16 CCIC-SET/T00 Page 87 of 123 Report No.: SET2019-09282 HighRange_FDD02_3MHz_1908.5_OneRB HighRange_FDD02_3MHz_1908.5_OneRB _high_QPSK _high_Q16 HighRange_ FDD02_3MHz_1908.5_fullRB HighRange_ FDD02_3MHz_1908.5_fullRB _High_QPSK _High_Q16 HighRange_FDD02_5MHz_1907.5_OneRB HighRange_FDD02_5MHz_1907.5_OneRB _high_QPSK _high_Q16 CCIC-SET/T00 Page 88 of 123 Report No.: SET2019-09282 HighRange_ FDD02_5MHz_1907.5_fullRB HighRange_ FDD02_5MHz_1907.5_fullRB _High_QPSK _High_Q16 HighRange_FDD02_10MHz_1905_OneRB HighRange_FDD02_10MHz_1905_OneRB _high_QPSK _high_Q16 HighRange_ FDD02_10MHz_1905_fullRB HighRange_ FDD02_10MHz_1905_fullRB _High_QPSK _High_Q16 CCIC-SET/T00 Page 89 of 123 Report No.: SET2019-09282 HighRange_FDD02_15MHz_1902.5_OneRB HighRange_FDD02_15MHz_1902.5_OneRB _high_QPSK _high_Q16 HighRange_ FDD02_15MHz_1902.5_fullRB HighRange_ FDD02_15MHz_1902.5_fullRB _High_QPSK _High_Q16 HighRange_FDD02_20MHz_1900_OneRB HighRange_FDD02_20MHz_1900_OneRB _high_QPSK _high_Q16 CCIC-SET/T00 Page 90 of 123 Report No.: SET2019-09282 HighRange_ FDD02_20MHz_1900_fullRB HighRange_ FDD02_20MHz_1900_fullRB _High_QPSK _High_Q16 LowRange_FDD04_1.4MHz_1710.7_OneRB LowRange_FDD04_1.4MHz_1710.7_OneRB _low_QPSK _low_Q16 LowRange_ FDD04_1.4MHz_1710.7_fullRB LowRange_ FDD04_1.4MHz_1710.7_fullRB _Low_QPSK _Low_Q16 CCIC-SET/T00 Page 91 of 123 Report No.: SET2019-09282 LowRange_FDD04_3MHz_1711.5_OneRB LowRange_FDD04_3MHz_1711.5_OneRB _low_QPSK _low_Q16 LowRange_ FDD04_3MHz_1711.5_fullRB LowRange_ FDD04_3MHz_1711.5_fullRB _Low_QPSK _Low_Q16 LowRange_FDD04_5MHz_1712.5_OneRB LowRange_FDD04_5MHz_1712.5_OneRB _low_QPSK _low_Q16 CCIC-SET/T00 Page 92 of 123 Report No.: SET2019-09282 LowRange_ FDD04_5MHz_1712.5_fullRB LowRange_ FDD04_5MHz_1712.5_fullRB _Low_QPSK _Low_Q16 LowRange_FDD04_10MHz_1715_OneRB LowRange_FDD04_10MHz_1715_OneRB _low_QPSK _low_Q16 LowRange_ FDD04_10MHz_1715_fullRB LowRange_ FDD04_10MHz_1715_fullRB _Low_QPSK _Low_Q16 CCIC-SET/T00 Page 93 of 123 Report No.: SET2019-09282 LowRange_FDD04_15MHz_1717.5_OneRB LowRange_FDD04_15MHz_1717.5_OneRB _low_QPSK _low_Q16 LowRange_ FDD04_15MHz_1717.5_fullRB LowRange_ FDD04_15MHz_1717.5_fullRB _Low_QPSK _Low_Q16 LowRange_FDD04_20MHz_1720_OneRB LowRange_FDD04_20MHz_1720_OneRB _low_QPSK _low_Q16 CCIC-SET/T00 Page 94 of 123 Report No.: SET2019-09282 LowRange_ FDD04_20MHz_1720_fullRB LowRange_ FDD04_20MHz_1720_fullRB _Low_QPSK _Low_Q16 HighRange_FDD04_1.4MHz_1754.3_OneRB HighRange_FDD04_1.4MHz_1754.3_OneRB _high_QPSK _high_Q16 HighRange_ FDD04_1.4MHz_1754.3 HighRange_ FDD04_1.4MHz_1754.3 _fullRB_High_QPSK _fullRB_High_Q16 CCIC-SET/T00 Page 95 of 123 Report No.: SET2019-09282 HighRange_FDD04_3MHz_1753.5_OneRB HighRange_FDD04_3MHz_1753.5_OneRB _high_QPSK _high_Q16 HighRange_ FDD04_3MHz_1753.5_fullRB HighRange_ FDD04_3MHz_1753.5_fullRB _High_QPSK _High_Q16 HighRange_FDD04_5MHz_1752.5_OneRB HighRange_FDD04_5MHz_1752.5_OneRB _high_QPSK _high_Q16 CCIC-SET/T00 Page 96 of 123 Report No.: SET2019-09282 HighRange_ FDD04_5MHz_1752.5_fullRB HighRange_ FDD04_5MHz_1752.5_fullRB _High_QPSK _High_Q16 HighRange_FDD04_10MHz_1750_OneRB HighRange_FDD04_10MHz_1750_OneRB _high_QPSK _high_Q16 HighRange_ FDD04_10MHz_1750_fullRB HighRange_ FDD04_10MHz_1750_fullRB _High_QPSK _High_Q16 CCIC-SET/T00 Page 97 of 123 Report No.: SET2019-09282 HighRange_FDD04_15MHz_1747.5_OneRB HighRange_FDD04_15MHz_1747.5_OneRB _high_QPSK _high_Q16 HighRange_ FDD04_15MHz_1747.5_fullRB HighRange_ FDD04_15MHz_1747.5_fullRB _High_QPSK _High_Q16 HighRange_FDD04_20MHz_1745_OneRB HighRange_FDD04_20MHz_1745_OneRB _high_QPSK _high_Q16 CCIC-SET/T00 Page 98 of 123 Report No.: SET2019-09282 HighRange_ FDD04_20MHz_1745_fullRB HighRange_ FDD04_20MHz_1745_fullRB _High_QPSK _High_Q16 LowRange_FDD05_1.4MHz_824.7_OneRB LowRange_FDD05_1.4MHz_824.7_OneRB _low_QPSK _low_Q16 LowRange_ FDD05_1.4MHz_824.7_fullRB LowRange_ FDD05_1.4MHz_824.7_fullRB _Low_QPSK _Low_Q16 CCIC-SET/T00 Page 99 of 123 Report No.: SET2019-09282 LowRange_FDD05_3MHz_825.5_OneRB LowRange_FDD05_3MHz_825.5_OneRB _low_QPSK _low_Q16 LowRange_ FDD05_3MHz_825.5_fullRB LowRange_ FDD05_3MHz_825.5_fullRB _Low_QPSK _Low_Q16 LowRange_FDD05_5MHz_826.5_OneRB LowRange_FDD05_5MHz_826.5_OneRB _low_QPSK _low_Q16 CCIC-SET/T00 Page 100 of 123 Report No.: SET2019-09282 LowRange_ FDD05_5MHz_826.5_fullRB LowRange_ FDD05_5MHz_826.5_fullRB _Low_QPSK _Low_Q16 LowRange_FDD05_10MHz_829_OneRB LowRange_FDD05_10MHz_829_OneRB _low_QPSK _low_Q16 LowRange_ FDD05_10MHz_829_fullRB LowRange_ FDD05_10MHz_829_fullRB _Low_QPSK _Low_Q16 CCIC-SET/T00 Page 101 of 123 Report No.: SET2019-09282 HighRange_FDD05_1.4MHz_848.3_OneRB HighRange_FDD05_1.4MHz_848.3_OneRB _high_QPSK _high_Q16 HighRange_ FDD05_1.4MHz_848.3_fullRB HighRange_ FDD05_1.4MHz_848.3_fullRB _High_QPSK _High_Q16 HighRange_FDD05_3MHz_847.5_OneRB HighRange_FDD05_3MHz_847.5_OneRB _high_QPSK _high_Q16 CCIC-SET/T00 Page 102 of 123 Report No.: SET2019-09282 HighRange_ FDD05_3MHz_847.5_fullRB HighRange_ FDD05_3MHz_847.5_fullRB _High_QPSK _High_Q16 HighRange_FDD05_5MHz_846.5_OneRB HighRange_FDD05_5MHz_846.5_OneRB _high_QPSK _high_Q16 HighRange_ FDD05_5MHz_846.5_fullRB HighRange_ FDD05_5MHz_846.5_fullRB _High_QPSK _High_Q16 CCIC-SET/T00 Page 103 of 123 Report No.: SET2019-09282 HighRange_FDD05_10MHz_844_OneRB HighRange_FDD05_10MHz_844_OneRB _high_QPSK _high_Q16 HighRange_ FDD05_10MHz_844_fullRB HighRange_ FDD05_10MHz_844_fullRB _High_QPSK _High_Q16 FDD07_5MHz_2502.5_QPSK_OneRB_high FDD07_5MHz_2502.5_QPSK_OneRB_high _ExtraBands_Range_2570~2575 _ExtraBands_Range_2575~2576 CCIC-SET/T00 Page 104 of 123 Report No.: SET2019-09282 FDD07_5MHz_2502.5_QPSK_OneRB_high LowRange_FDD07_5MHz_2502.5_OneRB _ExtraBands_Range_2576~2595 _low_QPSK LowRange_FDD07_5MHz_2502.5_OneRB FDD07_5MHz_2502.5_Q16_OneRB_low _low_Q16 _ExtraBands_Range_2475~2490 FDD07_5MHz_2502.5_Q16_OneRB_low LowRange_ FDD07_5MHz_2502.5_fullRB _ExtraBands_Range_2490~2496 _Low_QPSK CCIC-SET/T00 Page 105 of 123 Report No.: SET2019-09282 LowRange_ FDD07_5MHz_2502.5_fullRB FDD07_5MHz_2502.5_Q16_fullRB_ExtraBan _Low_Q16 ds_Range_2475~2490 FDD07_5MHz_2502.5_Q16_fullRB_ExtraBan FDD07_5MHz_2502.5_Q16_fullRB_ExtraBan ds_Range_2490~2496 ds_Range_2570~2575 FDD07_5MHz_2502.5_Q16_fullRB_ExtraBan FDD07_5MHz_2502.5_Q16_fullRB_ExtraBan ds_Range_2575~2576 ds_Range_2576~2595 CCIC-SET/T00 Page 106 of 123 Report No.: SET2019-09282 FDD07_10MHz_2505_QPSK_OneRB_high FDD07_10MHz_2505_QPSK_OneRB_high _ExtraBands_Range_2570~2575 _ExtraBands_Range_2575~2576 FDD07_10MHz_2505_QPSK_OneRB_high LowRange_FDD07_10MHz_2505_OneRB _ExtraBands_Range_2576~2595 _low_QPSK LowRange_FDD07_10MHz_2505_OneRB FDD07_10MHz_2505_Q16_OneRB_low _low_Q16 _ExtraBands_Range_2475~2490 CCIC-SET/T00 Page 107 of 123 Report No.: SET2019-09282 FDD07_10MHz_2505_Q16_OneRB_low LowRange_ FDD07_10MHz_2505_fullRB _ExtraBands_Range_2490~2496 _Low_QPSK LowRange_ FDD07_10MHz_2505_fullRB FDD07_10MHz_2505_Q16_fullRB_ExtraBand _Low_Q16 s_Range_2475~2490 FDD07_10MHz_2505_Q16_fullRB_ExtraBand FDD07_10MHz_2505_Q16_fullRB_ExtraBand s_Range_2490~2496 s_Range_2570~2575 CCIC-SET/T00 Page 108 of 123 Report No.: SET2019-09282 FDD07_10MHz_2505_Q16_fullRB_ExtraBand FDD07_10MHz_2505_Q16_fullRB_ExtraBand s_Range_2575~2576 s_Range_2576~2595 FDD07_15MHz_2507.5_QPSK_OneRB_high FDD07_15MHz_2507.5_QPSK_OneRB_high _ExtraBands_Range_2570~2575 _ExtraBands_Range_2575~2576 FDD07_15MHz_2507.5_QPSK_OneRB_high LowRange_FDD07_15MHz_2507.5_OneRB _ExtraBands_Range_2576~2595 _low_QPSK CCIC-SET/T00 Page 109 of 123 Report No.: SET2019-09282 LowRange_FDD07_15MHz_2507.5_OneRB FDD07_15MHz_2507.5_Q16_OneRB_low _low_Q16 _ExtraBands_Range_2475~2490 FDD07_15MHz_2507.5_Q16_OneRB_low LowRange_ FDD07_15MHz_2507.5_fullRB _ExtraBands_Range_2490~2496 _Low_QPSK LowRange_ FDD07_15MHz_2507.5_fullRB FDD07_15MHz_2507.5_Q16_fullRB_ExtraBa _Low_Q16 nds_Range_2475~2490 CCIC-SET/T00 Page 110 of 123

 

 

Report No.: SET2019-09282 FDD07_15MHz_2507.5_Q16_fullRB_ExtraBa FDD07_15MHz_2507.5_Q16_fullRB_ExtraBa nds_Range_2490~2496 nds_Range_2570~2575 FDD07_15MHz_2507.5_Q16_fullRB_ExtraBa FDD07_15MHz_2507.5_Q16_fullRB_ExtraBa nds_Range_2575~2576 nds_Range_2576~2595 FDD07_20MHz_2510_QPSK_OneRB_high FDD07_20MHz_2510_QPSK_OneRB_high _ExtraBands_Range_2570~2575 _ExtraBands_Range_2575~2576 CCIC-SET/T00 Page 111 of 123 Report No.: SET2019-09282 FDD07_20MHz_2510_QPSK_OneRB_high LowRange_FDD07_20MHz_2510_OneRB _ExtraBands_Range_2576~2595 _low_QPSK LowRange_FDD07_20MHz_2510_OneRB FDD07_20MHz_2510_Q16_OneRB_low _low_Q16 _ExtraBands_Range_2475~2490 FDD07_20MHz_2510_Q16_OneRB_low LowRange_ FDD07_20MHz_2510_fullRB _ExtraBands_Range_2490~2496 _Low_QPSK CCIC-SET/T00 Page 112 of 123 Report No.: SET2019-09282 LowRange_ FDD07_20MHz_2510_fullRB FDD07_20MHz_2510_Q16_fullRB_ExtraBand _Low_Q16 s_Range_2475~2490 FDD07_20MHz_2510_Q16_fullRB_ExtraBand FDD07_20MHz_2510_Q16_fullRB_ExtraBand s_Range_2490~2496 s_Range_2570~2575 FDD07_20MHz_2510_Q16_fullRB_ExtraBand FDD07_20MHz_2510_Q16_fullRB_ExtraBand s_Range_2575~2576 s_Range_2576~2595 CCIC-SET/T00 Page 113 of 123 Report No.: SET2019-09282 HighRange_FDD07_5MHz_2567.5_OneRB HighRange_FDD07_5MHz_2567.5_OneRB _high_QPSK _high_Q16 FDD07_5MHz_2567.5_Q16_OneRB_high FDD07_5MHz_2567.5_Q16_OneRB_high _ExtraBands_Range_2570~2575 _ExtraBands_Range_2575~2576 FDD07_5MHz_2567.5_Q16_OneRB_high FDD07_5MHz_2567.5_QPSK_OneRB_low _ExtraBands_Range_2576~2595 _ExtraBands_Range_2475~2490 CCIC-SET/T00 Page 114 of 123 Report No.: SET2019-09282 FDD07_5MHz_2567.5_QPSK_OneRB_low HighRange_ FDD07_5MHz_2567.5_fullRB _ExtraBands_Range_2490~2496 _High_QPSK HighRange_ FDD07_5MHz_2567.5_fullRB FDD07_5MHz_2567.5_QPSK_fullRB_ExtraBa _High_Q16 nds_Range_2475~2490 FDD07_5MHz_2567.5_QPSK_fullRB_ExtraBa FDD07_5MHz_2567.5_QPSK_fullRB_ExtraBa nds_Range_2490~2496 nds_Range_2570~2575 CCIC-SET/T00 Page 115 of 123 Report No.: SET2019-09282 FDD07_5MHz_2567.5_QPSK_fullRB_ExtraBa FDD07_5MHz_2567.5_QPSK_fullRB_ExtraBa nds_Range_2575~2576 nds_Range_2576~2595 HighRange_FDD07_10MHz_2565_OneRB HighRange_FDD07_10MHz_2565_OneRB _high_QPSK _high_Q16 FDD07_10MHz_2565_Q16_OneRB_high FDD07_10MHz_2565_Q16_OneRB_high _ExtraBands_Range_2570~2575 _ExtraBands_Range_2575~2576 CCIC-SET/T00 Page 116 of 123 Report No.: SET2019-09282 FDD07_10MHz_2565_Q16_OneRB_high FDD07_10MHz_2565_QPSK_OneRB_low _ExtraBands_Range_2576~2595 _ExtraBands_Range_2475~2490 FDD07_10MHz_2565_QPSK_OneRB_low HighRange_ FDD07_10MHz_2565_fullRB _ExtraBands_Range_2490~2496 _High_QPSK HighRange_ FDD07_10MHz_2565_fullRB FDD07_10MHz_2565_QPSK_fullRB_ExtraBan _High_Q16 ds_Range_2475~2490 CCIC-SET/T00 Page 117 of 123 Report No.: SET2019-09282 FDD07_10MHz_2565_QPSK_fullRB_ExtraBan FDD07_10MHz_2565_QPSK_fullRB_ExtraBan ds_Range_2490~2496 ds_Range_2570~2575 FDD07_10MHz_2565_QPSK_fullRB_ExtraBan FDD07_10MHz_2565_QPSK_fullRB_ExtraBan ds_Range_2575~2576 ds_Range_2576~2595 HighRange_FDD07_15MHz_2562.5_OneRB HighRange_FDD07_15MHz_2562.5_OneRB _high_QPSK _high_Q16 CCIC-SET/T00 Page 118 of 123 Report No.: SET2019-09282 FDD07_15MHz_2562.5_Q16_OneRB_high FDD07_15MHz_2562.5_Q16_OneRB_high _ExtraBands_Range_2570~2575 _ExtraBands_Range_2575~2576 FDD07_15MHz_2562.5_Q16_OneRB_high FDD07_15MHz_2562.5_QPSK_OneRB_low _ExtraBands_Range_2576~2595 _ExtraBands_Range_2475~2490 FDD07_15MHz_2562.5_QPSK_OneRB_low HighRange_ FDD07_15MHz_2562.5_fullRB _ExtraBands_Range_2490~2496 _High_QPSK CCIC-SET/T00 Page 119 of 123 Report No.: SET2019-09282 HighRange_ FDD07_15MHz_2562.5_fullRB _High_Q16 FDD07_15MHz_2562.5_QPSK_fullRB _ExtraBands_Range_2475~2490 FDD07_15MHz_2562.5_QPSK_fullRB _ExtraBands_Range_2490~2496 FDD07_15MHz_2562.5_QPSK_fullRB _ExtraBands_Range_2570~2575 FDD07_15MHz_2562.5_QPSK_fullRB _ExtraBands_Range_2575~2576 FDD07_15MHz_2562.5_QPSK_fullRB _ExtraBands_Range_2576~2595 CCIC-SET/T00 Page 120 of 123 Report No.: SET2019-09282 HighRange_FDD07_20MHz_2560_OneRB HighRange_FDD07_20MHz_2560_OneRB _high_QPSK _high_Q16 FDD07_20MHz_2560_Q16_OneRB_high FDD07_20MHz_2560_Q16_OneRB_high _ExtraBands_Range_2570~2575 _ExtraBands_Range_2575~2576 FDD07_20MHz_2560_Q16_OneRB_high FDD07_20MHz_2560_QPSK_OneRB_low _ExtraBands_Range_2576~2595 _ExtraBands_Range_2475~2490 CCIC-SET/T00 Page 121 of 123 Report No.: SET2019-09282 FDD07_20MHz_2560_QPSK_OneRB_low HighRange_ FDD07_20MHz_2560_fullRB _ExtraBands_Range_2490~2496 _High_QPSK HighRange_ FDD07_20MHz_2560_fullRB FDD07_20MHz_2560_QPSK_fullRB_ExtraBan _High_Q16 ds_Range_2475~2490 FDD07_20MHz_2560_QPSK_fullRB_ExtraBan FDD07_20MHz_2560_QPSK_fullRB_ExtraBan ds_Range_2490~2496 ds_Range_2570~2575 CCIC-SET/T00 Page 122 of 123 Report No.: SET2019-09282 FDD07_20MHz_2560_QPSK_fullRB_ExtraBan FDD07_20MHz_2560_QPSK_fullRB_ExtraBan ds_Range_2575~2576 ds_Range_2576~2595

**END OF REPORT **

CCIC-SET/T00 Page 123 of 123

 

 

Report No.: SET2019-09282 RF TEST REPORT Report No.: SET2019-09282 Product: LTE UFi FCC ID: SRQ-MF920U Model No.: MF920U Applicant: ZTE Corporation. Address: ZTE Plaza, Keji Road South, Shenzhen, China. Dates of Testing: 07/15/2019 07/29/2019 Issued by: CCIC Southern Electronic Product Testing (Shenzhen) Co., Ltd. Lab Location: Building 28/29, East of Shigu Xili Industrial Zone, Nanshan District Shenzhen, Guangdong 518055, China Tel86 755 26627338 Fax86 755 26627238 This test report consists of 123 pages in total. It may be duplicated completely for legal use with the approval of the applicant. It should not be reproduced except in full, without the written approval of our laboratory. The client should not use it to claim product endorsement by CCIC-SET. The test results in the report only apply to the tested sample. The test report shall be invalid without all the signatures of testing engineers, reviewer and approver. Any objections must be raised to CCIC-SET within 15 days since the date when the report is received. It will not be taken into consideration beyond this limit. CCIC-SET/T00 Page 1 of 123 Report No.: SET2019-09282 Test Report Product ................................. : LTE UFi Brand Name .......................... : ZTE Trade Name .......................... : ZTE Applicant .............................. : ZTE Corporation. Applicant Address ............... : ZTE Plaza, Keji Road South, Shenzhen, China. Manufacturer ........................ : ZTE Corporation. Manufacturer Address ......... : ZTE Plaza, Keji Road South, Shenzhen, China. Test Standards ..................... : 47 CFR Part 2/22/24/27 Test Result.: PASS Tested by .....:

Reviewed by .... :

Approved by....:

2019.07.30 Robin Luo, Test Engineer 2019.07.30 Chris You, Senior Engineer 2019.07.30 Shuangwen ZhangManager CCIC-SET/T00 Page 2 of 123 Report No.: SET2019-09282 Table of Contents 1. 1.1 1.2 1.3 1.4 1.5 1.6 2. 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 3. GENERAL INFORMATION .................................................................................................... 5 EUT Description ............................................................................................................ 5 Maximum ERP/EIRP Power, Frequency Tolerance, and Emission Designator...... 6 Test Standards and Results........................................................................................... 8 Test Configuration of Equipment Under Test .......................................................... 10 Measurement Results Explanation Example ............................................................ 11 Facilities and Accreditations ...................................................................................... 12 47 CFR PART 2 REQUIREMENTS ....................................................................................... 13 Conducted RF Output Power ..................................................................................... 13 Peak to Average Radio ................................................................................................ 15 99% Occupied Bandwidth and 26dB Bandwidth .................................................... 17 Frequency Stability ..................................................................................................... 19 Conducted Out of Band Emissions ............................................................................ 22 Conducted Band Edge ................................................................................................ 25 Transmitter Radiated Power (EIRP/ERP) ................................................................ 27 Radiated Out of Band Emissions ............................................................................... 33 LIST OF MEASURING EQUIPMENT ................................................................................. 40 APPENDIX A ...................................................................................................................................... 41 Conducted RF (Average) Output Power ........................................................................................... 41 Peak To Average Ratio ........................................................................................................................ 51 99% Occupied Bandwidth .................................................................................................................. 53 26dB Bandwidth .................................................................................................................................. 62 Frequency Stability ............................................................................................................................. 71 Conducted Out of Band Emissions .................................................................................................... 73 Conducted Band Edge ........................................................................................................................ 83 CCIC-SET/T00 Page 3 of 123 Report No.: SET2019-09282 Change History Issue 1.0 Date 2019.07.29 Reason for change First edition CCIC-SET/T00 Page 4 of 123 Report No.: SET2019-09282 GENERAL INFORMATION EUT Description 1. 1.1 EUT Type EUT supports Radios application LTE Band 2/4/5/7 LTE UFi LTE Band 2: 1850.7MHz~1909.3MHz LTE Band 4: 1710.7MHz~1754.3MHz LTE Band 5: 824.7MHz~848.3MHz LTE Band 7: 2502.5MHz~2567.5MHz LTE Band 2: 20.32dBm LTE Band 4: 20.94dBm LTE Band 5: 22.68dBm LTE Band 7: 20.83dBm LTE Band 2: 1.4MHz/3MHz/5MHz/10MHz/15MHz/20MHz LTE Band 4: 1.4MHz/3MHz/5MHz/10MHz/15MHz/20MHz LTE Band 5: 1.4MHz/3MHz/5MHz/10MHz LTE Band 7: 5MHz/10MHz/15MHz/20MHz QPSK/16QAM Internal Antenna DC 3.8V from battery DC 5V from adapter LTE Band 2: 1.8dBi LTE Band 4:1.8dBi LTE Band 5:0.6dBi LTE Band 7: 2.6dBi Frequency Range Maximum Output Power Antenna to Bandwidth Modulation Type Antenna Type Power supply ANT Gain(dBi) CCIC-SET/T00 Page 5 of 123 Report No.: SET2019-09282 1.2 Maximum ERP/EIRP Power, Frequency Tolerance, and Emission Designator Band Type of Modulation BW

(MHz) Emission Designator Frequency Tolerance

(ppm) Maximum ERP/EIRP(W) LTE Band 2 LTE Band 2 LTE Band 2 LTE Band 2 LTE Band 2 LTE Band 2 LTE Band 2 LTE Band 2 LTE Band 2 LTE Band 2 LTE Band 2 LTE Band 2 LTE Band 4 LTE Band 4 LTE Band 4 LTE Band 4 LTE Band 4 LTE Band 4 LTE Band 4 LTE Band 4 LTE Band 4 QPSK 16QAM QPSK 16QAM QPSK 16QAM QPSK 16QAM QPSK 16QAM QPSK 16QAM QPSK 16QAM QPSK 16QAM QPSK 16QAM QPSK 16QAM QPSK LTE Band 4 16QAM LTE Band 4 LTE Band 4 LTE Band 5 QPSK 16QAM QPSK 1.4 1.4 3 3 5 5 10 10 15 15 20 20 1.4 1.4 3 3 5 5 10 10 15 15 20 20 1.4 1M09G7D 1M09W7D 2M68G7D 2M68W7D 4M49G7D 4M49W7D 8M92G7D 8M92W7D 13M4G7D 13M4W7D 17M8G7D 17M8W7D 1M09G7D 1M09W7D 2M68G7D 2M68W7D 4M49G7D 4M49W7D 8M92G7D 8M93W7D 13M4G7D 13M4W7D 17M8G7D 17M8W7D 1M09G7D 0.024 0.016 0.175 0.151 0.122 0.105 0.172 0.154 0.159 0.107 0.171 0.152 0.156 0.105 0.167 0.153 0.151 0.126 0.209 0.189 0.149 0.126 0.211 0.191 0.150 0.127 0.156 CCIC-SET/T00 Page 6 of 123 Report No.: SET2019-09282 LTE Band 5 LTE Band 5 LTE Band 5 LTE Band 5 LTE Band 5 LTE Band 5 LTE Band 5 LTE Band 7 LTE Band 7 LTE Band 7 LTE Band 7 LTE Band 7 LTE Band 7 LTE Band 7 LTE Band 7 16QAM QPSK 16QAM QPSK 16QAM QPSK 16QAM QPSK 16QAM QPSK 16QAM QPSK 16QAM QPSK 16QAM 1.4 3 3 5 5 10 10 5 5 10 10 15 15 20 20 1M09W7D 2M68G7D 2M68W7D 4M50G7D 4M50W7D 8M93G7D 8M93W7D 4M49G7D 4M49W7D 8M92G7D 8M92W7D 13M4G7D 13M4W7D 17M8G7D 17M8W7D 0.013 0.012 0.132 0.173 0.141 0.155 0.128 0.166 0.139 0.155 0.128 0.157 0.129 0.189 0.127 0.169 0.136 CCIC-SET/T00 Page 7 of 123 Report No.: SET2019-09282 1.3 Test Standards and Results The objective of the report is to perform testing according to 47 CFR Part 2, Part24, Part27 Part90for the EUT FCC ID Certification:

1.47 CFR Part 2, 24(E), 27(F), 27(L), 27(H), 27(M) 2. ANSI/TIA/EIA-603-D-2010 3. FCC KDB 971168 D01 Power Meas. License Digital Systems v03r01 Test detailed items/section required by FCC rules and results are as below:

No. Section Description Limit 1 2 3 4 5 6 Result PASS PASS PASS PASS PASS PASS Conducted RF Output Power Reporting Only Peak to Average Radio 13dB Effective Radiated Power(Band 2/7) EIRP2Watt 2.1046 24.232(d) 27.50(d)(5) 27.50(h)(2) 24.232(c) 27.50(d)(4) Effective Radiated Power(Band 4) 22.913(a)(2) Effective Radiated Power(Band 5) EIRP1Watt ERP7Watt 2.1049 22.917(b) 24.238(b) 27.53(h)(3) 27.53(g)(3) 27.53(i)(6) 2.1051 22.917(a) 24.238(b) 27.53(g) 27.53(h) 2.1051 27.53(i)(4) 2.1051 22.917(a) 24.238(a) 27.53(g) Occupied Bandwidth Reporting Only PASS Conducted Band Edge(Band 2/4/5) 43+10log10(P[watt]) PASS Conducted Band Edge(Band 7) 5.5MHz: -13dBm 5.5MHz: -25dBm PASS Conducted Spurious Emission

(Band 2/4/5) 43+10log10(P[watt]) PASS CCIC-SET/T00 Page 8 of 123 Report No.: SET2019-09282 27.53(h) 2.1051 27.53(i)(4) 2.1053 22.917(a) 24.238(a) 27.53(g) 27.53(h) 2.1053 27.53(i)(4) 2.1055, 22.355 24.235 27.54 7 8 Remark Conducted Spurious Emission

(Band 7) 55+10log10(P[watt]) PASS Radiated Spurious Emission

(Band 2/4/5) Radiated Spurious Emission

(Band 7) 43+10log10(P[watt]) PASS 55+10log10(P[watt]) PASS Frequency Stability 2.5ppm PASS 1. All test items were verified and recorded according to the standards and without any deviation during the test. 2. This EUT has also been tested and complied with the requirements of FCC Part 15, Subpart B, recorded in a separate test report. CCIC-SET/T00 Page 9 of 123 Report No.: SET2019-09282 1.4 Test Configuration of Equipment Under Test Antenna port conducted and radiated test items listed below are performed according to KDB 971168 D01 Power Meas. License Digital Systems v03r01 with maximum output power. Radiated measurements are performed by rotating the EUT in three different orthogonal test planes to Bandwidth(MHz) Modulation RB#

Test Channel 20 QPSK 16QAM find the maximum emission. Test Items Band 2 4 5 7 2 4 5 7 2 4 5 7 2 4 5 7 2 4 5 7 2 4 5 7 2 4 5 7 2 4 Max. Output Power Peak-to-Average Ratio 26dB and 99%

Bandwidth Conducted Band Edge Conducted Spurious Emission Frequency Stability ERP/EIRP Radiated Spurious Emission CCIC-SET/T00 5 3 10 15 1.4 1 Half Full L M H Page 10 of 123 Report No.: SET2019-09282 5 7 1. The markmeans that this configuration is chosen for testing. 2. The device is investigated from 30MHz to 10 times of fundamental signal for radiated spurious emission test under different RB size/offset and modulations in exploratory test. Subsequently, only the worst case emissions are reported. 3. For E.R.P/E.I.R.P. measurement, the widest bandwidth and the bandwidth with the highest conducted power of each band is chosen for testing. Besides, the lowest bandwidth of each band is also measured for reporting only. Note 1.5 Measurement Results Explanation Example For all conducted test items:

The offset level is set in the spectrum analyzer to compensate the RF cable loss and attenuator factor between EUT conducted output port and spectrum analyzer. With the offset compensation, the spectrum analyzer reading level is exactly the EUT RF output level. The spectrum analyzer offset is derived from RF cable loss and attenuator factor. Offset = RF cable loss + attenuator factor. Following shows an offset computation example with cable loss 7dB and 10dB attenuator. Example:

Offset (dB) = RF cable loss(dB) + attenuator factor(dB).

= 7 + 10 = 17 (dB) CCIC-SET/T00 Page 11 of 123 Report No.: SET2019-09282 Facilities and Accreditations 1.6 1.6.1 Test Facilities CNAS-Lab Code: L1659 CCIC-SET is a third party testing organization accredited by China National Accreditation Service for Conformity Assessment (CNAS) according to ISO/IEC 17025. The accreditation certificate number is L1659. FCC-Registration No.: CN5031 CCIC Southern Electronic Product Testing (Shenzhen) Co., Ltd. EMC Laboratory has been registered and fully described in a report filed with the FCC (Federal Communications Commission). The acceptance letter from the FCC is maintained in our files. Designation Number: CN5031, valid time is until December 31, 2019. ISED Registration: 11185A-1 CAB identifier: CN0064 CCIC Southern Electronic Product Testing (Shenzhen) Co., Ltd. EMC Laboratory has been registered by Certification and Engineering Bureau of Industry Canada for the performance of radiated measurements with Registration No. 11185A-1 on Aug. 04, 2016, valid time is until Dec. 03, 2019. NVLAP Lab Code: 201008-0 CCIC-SET is a third party testing organization accredited by NVLAP according to ISO/IEC 17025. The accreditation certificate number is 201008-0. 1.6.2 Test Environment Conditions During the measurement, the environmental conditions were within the listed ranges:

Temperature (C):

Relative Humidity (%):

Atmospheric Pressure (kPa):

15- 35 30% -60%

86KPa-106KPa CCIC-SET/T00 Page 12 of 123 Report No.: SET2019-09282 2. 2.1 47 CFR PART 2 REQUIREMENTS Conducted RF Output Power 2.1.1 Requirement According to FCC section 2.1046(a), for transmitters other than single sideband, independent sideband and controlled carrier radiotelephone, power output shall be measured at the RF output terminals when the transmitter is adjusted in accordance with the tune-up procedure to give the values of current and voltage on the circuit elements specified in FCC section 2.1033(c)(8). 2.1.2 Measuring Instruments The measuring equipment is listed in the section 3 of this test report. 2.1.3 Test Setup 2.1.4 Test Procedures 1. The transmitter output port was connected to the system simulator. 2. Set EUT at maximum power through system simulator. 3. Select lowest, middle, and highest channels for each band and different modulation. 4. Measure and record the power level from the system simulator. CCIC-SET/T00 Page 13 of 123 Report No.: SET2019-09282 2.1.5 Test Results Please refer to Appendix A for detail CCIC-SET/T00 Page 14 of 123 Report No.: SET2019-09282 2.2 Peak to Average Radio 2.2.1 Definition Power Complementary Cumulative Distribution Function (CCDF) curves provide a means for characterizing the power peaks of a digitally modulated signal on a statistical basis. A CCDF curve depicts the probability of the peak signal amplitude exceeding the average power level. Most contemporary measurement instrumentation include the capability to produce CCDF curves for an input signal provided that the instruments resolution bandwidth can be set wide enough to accommodate the entire input signal bandwidth. In measuring transmissions in this band using an average power technique, the peak-to-average ratio (PAR) of the transmission may not exceed 13 dB. 2.2.2 Measuring Instruments The measuring equipment is listed in the section 4 of this test report. 2.2.3 Test Description 2.2.4 Test Procedures 1. The EUT was connected to spectrum and system simulator via a power divider. 2. Set the CCDF (Complementary Cumulative Distribution Function) option in spectrum analyzer. 3. The highest RF powers were measured and recorded the maximum PAPR level associated with a probability of 0.1 %. 4. Record the deviation as Peak to Average Ratio. CCIC-SET/T00 Page 15 of 123 Report No.: SET2019-09282 2.2.5 Test Results of Peak-to-Average Ratio Please refer to Appendix A for detail CCIC-SET/T00 Page 16 of 123 Report No.: SET2019-09282 2.3 99% Occupied Bandwidth and 26dB Bandwidth 2.3.1 Definition According to FCC section 2.1049, the occupied bandwidth is the width of a frequency band such that, below the lower and above the upper frequency limits, the mean powers emitted are each equal to a specified percentage 0.5% of the total mean transmitted power. The 26 dB emission bandwidth is defined as the frequency range between two points, one above and one below the carrier frequency, at which the spectral density of the emission is attenuated 26 dB below the maximum in-band spectral density of the modulated signal. Spectral density (power per unit bandwidth) is to be measured with a detector of resolution bandwidth equal to approximately 1.0% of the emission bandwidth. 2.3.2 Measuring Instruments The measuring equipment is listed in the section 4 of this test report. 2.3.3 Test Setup 2.3.4 Test Procedures 1. The EUT was connected to spectrum analyzer and system simulator via a power divider. 2. The 26dB and 99% occupied bandwidth (BW) of the middle channel for the highest RF power with full RB sizes were measured. CCIC-SET/T00 Page 17 of 123 Report No.: SET2019-09282 2.3.5 Test Result of 99% Occupied Bandwidth and 26dB Bandwidth Please refer to Appendix A for detail CCIC-SET/T00 Page 18 of 123 Report No.: SET2019-09282 Frequency Stability 2.4 2.4.1 Requirement According to FCC requirement, the frequency stability shall be sufficient to ensure that the fundamental emission stays within the authorized frequency block. The frequency stability shall be measured by variation of ambient temperature and variation of primary supply voltage to ensure that the fundamental emission stays within the authorized frequency block. The frequency stability of the transmitter shall be maintained within 0.00025% (2.5ppm) of the center frequency. According to FCC section 2.1055, the test conditions are:

(a)

(b) The temperature is varied from -30C to +50C at intervals of not more than 10C. For hand carried battery powered equipment, the primary supply voltage is reduced to the battery operating end point which shall be specified by the manufacture. The supply voltage shall be measured at the input to the cable normally provided with the equipment, or at the power supply terminals if cables are not normally provided. 2.4.2 Measuring Instruments The measuring equipment is listed in the section 3 of this test report. 2.4.3 Test Setup Common Antenna Temperature Chamber System Simulator EUT DC Power Supply 2.4.4 Test Procedures 1. The EUT was set up in the thermal chamber and connected with the system simulator. 2. With power OFF, the temperature was decreased to -30C and the EUT was stabilized CCIC-SET/T00 Page 19 of 123 Report No.: SET2019-09282 before testing. Power was applied and the maximum change in frequency was recorded within one minute. 3. With power OFF, the temperature was raised in 10C step up to 50C. The EUT was stabilized at each step for at least half an hour. Power was applied and the maximum frequency change was recorded within one minute. 4. The nominal, highest and lowest extreme voltages were tested, which are specified by the applicant; the normal temperature here used is 25C. 5. The variation in frequency was measured for the worst case. CCIC-SET/T00 Page 20 of 123 Report No.: SET2019-09282 2.4.5 Test Result of Frequency Stability Please refer to Appendix A for detail CCIC-SET/T00 Page 21 of 123 Report No.: SET2019-09282 2.5 Conducted Out of Band Emissions 2.5.1 Requirement The power of any emission outside of the authorized operating frequency ranges must be lower than the transmitter power (P) by a factor of at least 43 + 10 log (P) dB. For Band 7:

The power of any emission outside of the authorized operating frequency ranges must be lower than the transmitter power (P) by a factor of at least 55 + 10 log (P) dB. It is measured by means of a calibrated spectrum analyzer and scanned from 30 MHz up to a frequency including its 10th harmonic. 2.5.2 Measuring Instruments The measuring equipment is listed in the section 4 of this test report. 2.5.3 Test Setup 2.5.4 Test Procedures 1. The EUT was connected to spectrum analyzer and system simulator via a power divider. 2. The RF output of EUT was connected to the spectrum analyzer by RF cable and attenuator. The path loss was compensated to the results for each measurement. 3. The middle channel for the highest RF power within the transmitting frequency was measured. 4. The conducted spurious emission for the whole frequency range was taken. CCIC-SET/T00 Page 22 of 123 Report No.: SET2019-09282 5. Make the measurement with the spectrum analyzer's RBW = 1MHz, VBW = 3MHz, taking the record of maximum spurious emission. 6. The RF fundamental frequency should be excluded against the limit line in the operating frequency band. 7. The limit line is derived from 43 + 10log(P)dB below the transmitter power P(Watts)

= P(W)- [43 + 10log(P)] (dB)

= [30 + 10log(P)] (dBm) - [43 + 10log(P)] (dB)

= -13dBm. 8. For Band 7 The limit line is derived from 55 + 10log(P)dB below the transmitter power P(Watts)

= P(W)- [55 + 10log(P)] (dB)

= [30 + 10log(P)] (dBm) - [55 + 10log(P)] (dB)

= -25dBm. 9. For 9KHz to 30MHz: the amplitude of spurious emissions which are attenuated by more than 20dB below the permissible value has no need to be reported. CCIC-SET/T00 Page 23 of 123 Report No.: SET2019-09282 2.5.5 Test Result of Conducted Spurious Emission Please refer to Appendix A for detail CCIC-SET/T00 Page 24 of 123 Report No.: SET2019-09282 2.6 Conducted Band Edge 2.6.1 Description of Conducted Band Edge Measurement 22.917(a) Out of band emissions. 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. 24.238(a) For operations in the 1850 -1910 MHz band, the FCC limit is 43 + 10log10 (P [Watts]) dB below the transmitter power P(Watts) in a 1MHz bandwidth. However, in the 1MHz bands immediately outside and adjacent to a licensee's frequency block, a resolution bandwidth of at least one percent of the emission bandwidth of the fundamental emission of the transmitter may be employed. 27.53(h) For operations in the 1710 1755 MHz band, the FCC limit is 43 + 10log10(P[Watts]) dB below the transmitter power P(Watts) in a 1 MHz bandwidth. However, in the 1MHz bands immediately outside and adjacent to the licensee's frequency block, a resolution bandwidth of at least one percent of the emission bandwidth of the fundamental emission of the transmitter may be employed. 27.53m(4) 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. 2.6.2 Measuring Instruments The measuring equipment is listed in the section 3 of this test report. CCIC-SET/T00 Page 25 of 123 Report No.: SET2019-09282 2.6.3 Test Setup 2.6.4 Test Procedures 1. The testing follows FCC KDB 971168 v03r01 Section 6.0. 2. The EUT was connected to spectrum analyzer and system simulator via a power divider. 3. The band edges of low and high channels for the highest RF powers were measured. 4. Set RBW >= 1% EBW in the 1MHz band immediately outside and adjacent to the band edge. 5. Beyond the 1 MHz band from the band edge, RBW=1MHz was used. 6. Set spectrum analyzer with RMS detector. 7. The RF fundamental frequency should be excluded against the limit line in the operating frequency band. 8. Checked that all the results comply with the emission limit line. The limit line is derived from 43 + 10log(P)dB below the transmitter power P(Watts) 9. For LTE Band 7 the other 40 dB, and 55 dB have additionally applied same calculation above. 2.6.5 Test Result of Conducted Band Edge Please refer to Appendix A for detail CCIC-SET/T00 Page 26 of 123 Report No.: SET2019-09282 2.7 Transmitter Radiated Power (EIRP/ERP) 2.7.1 Requirement Effective radiated power output measurements by substitution method according to ANSI / TIA /

EIA-603-D-2010, and the spectrum analyzer configuration follows KDB 971168 D01 Power Meas. License Digital Systems v03r01. Mobile and portable (hand-held) stations operating are limited to average ERP of 7 watts with LTE band 5 Equivalent isotropic radiated power output measurements by substitution method according to ANSI /

TIA / EIA-603-D-2010, and the spectrum analyzer configuration follows KDB 971168 D01 Power Meas. License Digital Systems v03r01. Mobile and portable (hand-held) stations operating are limited to average EIRP of 2 watts with LTE band 2/7 and 1 watt with LTE band 4 2.7.2 Measuring Instruments The measuring equipment is listed in the section 3 of this test report. 2.7.3 Test Setup CCIC-SET/T00 Page 27 of 123 Report No.: SET2019-09282 2.7.4 Test Procedures 1. The EUT was placed on a turntable with 1.5 meter height in a fully anechoic chamber. 2. The EUT was set at 3 meters from the receiving antenna, which was mounted on the antenna tower. 3. The radiated emission at the fundamental frequency was measured at 3 m with a test antenna and a spectrum analyzer which used a channel power option across EUTs signal bandwidth per section 4.0 of KDB 971168 D01v03r01. 4. The table was rotated 360 degrees to determine the position of the highest radiated power. 5. The height of the receiving antenna is adjusted to look for the maximum ERP/EIRP. 6. Taking the record of maximum ERP/EIRP. 7. A dipole antenna was substituted in place of the EUT and was driven by a signal generator. 8. The conducted power at the terminal of the dipole antenna is measured. 9. Repeat step 3 to step 5 to get the maximum ERP/EIRP of the substitution antenna. 10. ERP/EIRP = Ps + Et Es + Gs = Ps + Rt Rs + Gs Ps (dBm)Input power to substitution antenna. Gs (dBi or dBd)Substitution antenna Gain. Et = Rt + AF Es = Rs + AF AF (dB/m)Receive antenna factor RtThe highest received signal in spectrum analyzer for EUT. RsThe highest received signal in spectrum analyzer for substitution antenna. CCIC-SET/T00 Page 28 of 123 Report No.: SET2019-09282 2.7.5 Test Result of ERP/EIRP 1. LTE Band 2 Test Verdict:

LTE Band BW

(MHz) Modulation RB Configuration RB Size RB Offset 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 1.4 1.4 1.4 1.4 1.4 1.4 3 3 3 3 3 3 5 5 5 5 5 5 10 10 10 10 10 10 15 15 15 15 15 15 20 20 20 20 20 QPSK QPSK QPSK 16QAM 16QAM 16QAM QPSK QPSK QPSK 16QAM 16QAM 16QAM QPSK QPSK QPSK 16QAM 16QAM 16QAM QPSK QPSK QPSK 16QAM 16QAM 16QAM QPSK QPSK QPSK 16QAM 16QAM 16QAM QPSK QPSK QPSK 16QAM 16QAM 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 3 3 3 0 0 0 8 8 8 0 0 0 0 0 0 24 24 24 49 49 49 0 0 0 74 74 74 0 0 0 0 0 0 0 0 Freq.

(MHz) 1850.7 1880 1909.3 1850.7 1880 1909.3 1851.5 1880 1908.5 1851.5 1880 1908.5 1852.5 1880 1907.5 1852.5 1880 1907.5 1855 1880 1905 1855 1880 1905 1857.5 1880 1902.5 1857.5 1880 1902.5 1860 1880 1900 1860 1880 EIRP

(dBm) 22.43 22.36 22.39 21.80 21.70 21.72 20.79 20.80 20.88 20.17 20.12 20.20 22.34 22.32 22.35 21.87 21.79 21.82 21.94 21.98 22.01 20.07 20.30 20.15 22.33 22.27 22.34 21.78 21.75 21.81 21.92 21.85 21.93 20.21 20.20 Verdict PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS CCIC-SET/T00 Page 29 of 123 Report No.: SET2019-09282 LTE Band 2 BW

(MHz) 20 Modulation 16QAM RB Configuration RB Size RB Offset 1 0 Freq.

(MHz) 1900 EIRP

(dBm) 20.15 Verdict PASS 2. LTE Band 4 Test Verdict:

LTE Band 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 4 BW

(MHz) 1.4 1.4 1.4 1.4 1.4 1.4 3 3 3 3 3 3 5 5 5 5 5 5 10 10 10 10 10 10 15 15 15 15 15 15 20 Modulation RB Configuration RB Size RB Offset QPSK QPSK QPSK 16QAM 16QAM 16QAM QPSK QPSK QPSK 16QAM 16QAM 16QAM QPSK QPSK QPSK 16QAM 16QAM 16QAM QPSK QPSK QPSK 16QAM 16QAM 16QAM QPSK QPSK QPSK 16QAM 16QAM 16QAM QPSK 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 3 3 3 0 0 0 14 14 14 0 0 0 0 0 0 0 0 0 24 24 24 74 74 74 74 74 74 0 Freq.

(MHz) 1710.7 1732.5 1754.3 1710.7 1732.5 1754.3 1711.5 1732.5 1753.5 1711.5 1732.5 1753.5 1712.5 1732.5 1752.5 1712.5 1732.5 1752.5 1715 1732.5 1750 1715 1732.5 1750 1717.5 1732.5 1747.5 1717.5 1732.5 1747.5 1720 EIRP

(dBm) 22.24 22.23 22.16 21.76 21.84 21.77 21.79 21.80 21.77 20.97 20.88 21.02 23.19 23.21 23.15 22.75 22.64 22.76 21.72 21.74 21.71 20.97 21.02 20.95 23.25 23.22 23.17 22.81 22.70 22.76 21.75 Verdict PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS CCIC-SET/T00 Page 30 of 123 Report No.: SET2019-09282 LTE Band BW

(MHz) Modulation RB Configuration RB Size RB Offset 4 4 4 4 4 20 20 20 20 20 QPSK QPSK 16QAM 16QAM 16QAM 3. LTE Band 5 Test Verdict:

1 1 1 1 1 0 0 0 0 0 Modulation RB Configuration RB Size RB Offset QPSK QPSK QPSK 16QAM 16QAM 16QAM QPSK QPSK QPSK 16QAM 16QAM 16QAM QPSK QPSK QPSK 16QAM 16QAM 16QAM QPSK QPSK QPSK 16QAM 16QAM 16QAM 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 3 3 3 3 3 3 0 0 0 0 0 0 0 0 0 0 0 0 49 49 49 0 0 0 BW

(MHz) 1.4 1.4 1.4 1.4 1.4 1.4 3 3 3 3 3 3 5 5 5 5 5 5 10 10 10 10 10 10 LTE Band 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 Freq.

(MHz) 1732.5 1745 1720 1732.5 1745 Freq.

(MHz) 824.7 836.5 848.3 824.7 836.5 848.3 825.5 836.5 847.5 825.5 836.5 847.5 826.5 836.5 846.5 826.5 836.5 846.5 829.0 836.5 844.0 829.0 836.5 844.0 EIRP

(dBm) 21.68 21.76 20.92 21.05 20.98 ERP

(dBm) 21.93 21.83 21.90 21.17 21.21 21.20 22.36 22.29 22.38 21.43 21.36 21.50 21.88 21.90 21.87 21.08 20.99 21.04 22.20 22.09 22.14 21.43 21.36 21.44 Verdict PASS PASS PASS PASS PASS Verdict PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS CCIC-SET/T00 Page 31 of 123 Report No.: SET2019-09282 Freq.

(MHz) 2502.5 2535 2567.5 2502.5 2535 2567.5 2505 2535 2565 2505 2535 2565 2507.5 2535 2562.5 2507.5 2535 2562.5 2510 2535 2560 2510 2535 2560 EIRP

(dBm) 21.86 21.80 21.89 20.96 21.00 21.06 21.95 21.88 21.97 21.12 21.05 21.10 22.77 21.85 21.81 21.03 20.98 20.93 22.21 22.27 22.25 21.34 21.27 21.25 Verdict PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS 4.LTE Band 7 Test Verdict:

LTE Band BW

(MHz) Modulation RB Configuration RB Size RB Offset 5 5 5 5 5 5 10 10 10 10 10 10 15 15 15 15 15 15 20 20 20 20 20 20 QPSK QPSK QPSK 16QAM 16QAM 16QAM QPSK QPSK QPSK 16QAM 16QAM 16QAM QPSK QPSK QPSK 16QAM 16QAM 16QAM QPSK QPSK QPSK 16QAM 16QAM 16QAM 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 12 0 24 24 24 0 24 49 24 24 49 24 37 74 0 37 18 0 0 0 0 0 0 0 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 CCIC-SET/T00 Page 32 of 123 Report No.: SET2019-09282 Radiated Out of Band Emissions 2.8 2.8.1 Requirement The radiated spurious emission was measured by substitution method according to ANSI / TIA

/EIA-603-C-2004. The power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitter power (P) by a factor of at least 43 + 10 log (P) dB. For Band 7 The power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitter power (P) by a factor of at least 55 + 10 log (P) dB. 2.8.2 Measuring Instruments The measuring equipment is listed in the section 3 of this test report. 2.8.3 Test Setup For radiated emissions from 9kHz to 30MHz CCIC-SET/T00 Page 33 of 123 Report No.: SET2019-09282 For radiated emissions from 30MHz to 1GHz For radiated emissions above 1GHz CCIC-SET/T00 Page 34 of 123 Report No.: SET2019-09282 2.8.4 Test Procedures 1. The EUT was placed on a rotatable wooden table with 0.8 meter above ground. 2. The EUT was set 3 meters from the receiving antenna, which was mounted on the antenna tower. 3. The table was rotated 360 degrees to determine the position of the highest spurious emission. 4. The height of the receiving antenna is varied between one meter and four meters to search the maximum spurious emission for both horizontal and vertical polarizations. 5. Make the measurement with the spectrum analyzer's RBW = 1MHz, VBW = 3MHz, taking the record of maximum spurious emission. 6. A horn antenna was substituted in place of the EUT and was driven by a signal generator. 7. Tune the output power of signal generator to the same emission level with EUT maximum spurious emission. 8. Taking the record of output power at antenna port. 9. Repeat step 7 to step 8 for another polarization. 10. The RF fundamental frequency should be excluded against the limit line in the operating frequency band. The limit line is derived from 43 + 10log(P)dB below the transmitter power P(Watts)

= P(W)- [43 + 10log(P)] (dB)

= [30 + 10log(P)] (dBm) - [43 + 10log(P)] (dB)

= -13dBm.

<For Band 7>

The limit line is derived from 55+ 10log(P)dB below the transmitter power P(Watts)

= P(W)- [55 + 10log(P)] (dB)

= [30 + 10log(P)] (dBm) - [55 + 10log(P)] (dB)

= -25dBm. 11. All Spurious Emission tests were performed in X, Y, Z axis direction and low, middle, high channel. And only the worst axis test condition was recorded in this test report. 12. The spectrum is measured from 9 KHz to the 10th harmonic of the fundamental frequency of the transmitter using CISPR quasi peak detector below 1GHz. The worst case emissions are reported however emissions whose levels were not within 20dB of the CCIC-SET/T00 Page 35 of 123 Report No.: SET2019-09282 respective limits were not reported. 13. The maximum RB configurations of the Radiated Spurious Emissions as RB Size 1, RB Offset 0 CCIC-SET/T00 Page 36 of 123 Report No.: SET2019-09282 2.8.5 Test Result (Plots) of Radiated Spurious Emission Note: 1. within 30MHz-1GHz were found more than 20dB below limit line Note: 2. Absolute Level=Reading Level + Factor LTE Band 2 QPSK 20MHz BW Middle Channel Suspected List NO. 1 2 3 4 5 6 Freq.

[MHz]

61.0711 1336.16 3217.60 4074.53 6738.36 14314.1 Suspected List NO. 1 2 3 4 5 6 Freq.

[MHz]

53.3033 79.5195 3252.12 3996.49 6498.24 10946.4 Reading

[dBm]

-92.88

-61.25

-54.10

-53.80

-53.49

-57.74 Reading

[dBm]

-84.86

-92.79

-53.16

-54.16

-55.33

-56.75 Level

[dBm]

-74.26

-60.08

-40.90

-40.72

-34.50

-30.46 Level

[dBm]

-66.12

-71.33

-40.76

-40.93

-36.83

-33.89 Limit

[dBm]

-13.00

-13.00

-13.00

-13.00

-13.00

-13.00 Limit

[dBm]

-13.00

-13.00

-13.00

-13.00

-13.00

-13.00 Margin

[dB]

61.26 47.08 27.90 27.72 21.50 17.46 Margin

[dB]

53.12 58.33 27.76 27.93 23.83 20.89 Factor

[dB]

18.62 1.17 13.20 13.08 18.99 27.28 Factor

[dB]

18.74 21.46 12.40 13.23 18.50 22.86 Polarity Horizontal Horizontal Horizontal Horizontal Horizontal Horizontal Polarity Vertical Vertical Vertical Vertical Vertical Vertical Note:other spurious emissions are 20dB below limit line and no need to report CCIC-SET/T00 Page 37 of 123 Report No.: SET2019-09282 LTE Band 4 QPSK 20MHz BW Middle Channel Suspected List NO. 1 2 3 4 5 6 Freq.

[MHz]

47.4775 61.0711 79.5195 6714.35 14002.0 17099.5 Suspected List NO. 1 2 3 4 5 6 Freq.

[MHz]

47.4775 61.0711 79.5195 3814.90 6216.10 13035.5 Reading

[dBm]

-92.74

-92.09

-94.12

-54.38

-59.56

-57.90 Reading

[dBm]

-91.94

-91.66

-94.35

-54.04

-54.90

-56.38 Level

[dBm]

-73.35

-73.47

-75.59

-35.50

-31.17

-27.13 Level

[dBm]

-73.21

-72.19

-72.89

-40.91

-36.58

-31.28 Limit

[dBm]

-13.00

-13.00

-13.00

-13.00

-13.00

-13.00 Limit

[dBm]

-13.00

-13.00

-13.00

-13.00

-13.00

-13.00 Margin

[dB]

60.35 60.47 62.59 22.50 18.17 14.13 Margin

[dB]

60.21 59.19 59.89 27.91 23.58 18.28 Factor

[dB]

19.39 18.62 18.53 18.88 28.39 30.77 Factor

[dB]

18.73 19.47 21.46 13.13 18.32 25.10 Polarity Horizontal Horizontal Horizontal Horizontal Horizontal Horizontal Polarity Vertical Vertical Vertical Vertical Vertical Vertical Note:other spurious emissions are 20dB below limit line and no need to report CCIC-SET/T00 Page 38 of 123 Report No.: SET2019-09282 Suspected List NO. Freq.

[MHz]

1 61.0711 2 1667.33 3 3178.58 4 3810.40 5 6504.25 6 14002.0 Suspected List NO. 1 2 3 4 5 6 Freq.

[MHz]

79.5195 1667.33 2412.70 3225.11 6426.21 14302.1 Suspected List NO. Freq.

[MHz]

1 47.4775 2 61.0711 3 1524.26 4 4100.05 5 7074.53 6 13989.9 Suspected List NO. 1 2 3 4 5 6 Freq.

[MHz]

48.4484 61.0711 79.5195 1478.23 3990.49 6540.27 LTE Band 5 QPSK 10MHz BW Middle Channel Reading

[dBm]

-91.11

-49.07

-54.54

-53.40

-55.77

-59.04 Reading

[dBm]

-93.17

-49.51

-53.60

-54.87

-54.20

-57.24 Level

[dBm]

-72.49

-46.74

-41.47

-40.13

-36.30

-30.65 Level

[dBm]

-71.71

-47.08

-44.83

-41.81

-35.47

-30.26 Limit

[dBm]

-13.00

-13.00

-13.00

-13.00

-13.00

-13.00 Limit

[dBm]

-13.00

-13.00

-13.00

-13.00

-13.00

-13.00 Margin

[dB]

59.49 33.74 28.47 27.13 23.30 17.65 Margin

[dB]

58.71 34.08 31.83 28.81 22.47 17.26 Factor

[dB]

18.62 2.33 13.07 13.27 19.47 28.39 Factor

[dB]

21.46 2.43 8.77 13.06 18.73 26.98 LTE Band 7 QPSK 20MHz BW Middle Channel Reading

[dBm]

-93.96

-93.27

-51.96

-52.88

-55.12

-58.49 Reading

[dBm]

-93.76

-90.71

-95.39

-51.93

-53.68

-54.53 Level

[dBm]

-74.57

-74.65

-51.12

-39.91

-35.76

-30.31 Level

[dBm]

-75.15

-71.24

-73.93

-50.88

-40.49

-36.01 Limit

[dBm]

-13.00

-13.00

-13.00

-13.00

-13.00

-13.00 Limit

[dBm]

-13.00

-13.00

-13.00

-13.00

-13.00

-13.00 Margin

[dB]

61.57 61.65 38.12 26.91 22.76 17.31 Margin

[dB]

62.15 58.24 60.93 37.88 27.49 23.01 Factor

[dB]

19.39 18.62 0.84 12.97 19.36 28.18 Factor

[dB]

18.61 19.47 21.46 1.05 13.19 18.52 Polarity Horizontal Horizontal Horizontal Horizontal Horizontal Horizontal Polarity Vertical Vertical Vertical Vertical Vertical Vertical Polarity Horizontal Horizontal Horizontal Horizontal Horizontal Horizontal Polarity Vertical Vertical Vertical Vertical Vertical Vertical Note:other spurious emissions are 20dB below limit line and no need to report CCIC-SET/T00 Page 39 of 123 Report No.: SET2019-09282 3. LIST OF MEASURING EQUIPMENT Description EMI Test Receiver Manufactu rer R&S Loop Antenna Schwarz beck Model ESIB26 HFH2-Z2 Serial No. Cal. Date Due Date Remark A0304218 100047 2018.09.03 2019.04.26 2019.09.20 2022.04.25 Radiation Radiation Broadband antenna

(30MHz~1GHz) Broadband antenna

(30MHz~1GHz) Double ridge horn R&S R&S HL562 101341 2017.07.14 2020.07.13 Radiation HL562 101339 2017.07.14 2020.07.13 Radiation antenna R&S HF906 100150 2019.04.27 2022.04.26 Radiation

(1GHz~18GHz) Double ridge horn antenna R&S HF906 100149 2019.04.17 2022.04.16 Radiation

(1GHz~18GHz) Horn antenna

(18GHz~26.5GHz) Horn antenna

(18GHz~26.5GHz) Amplifier 1GHz-18GHz Ampilier 20M~3GHz Spectrum Analyzer LISN Test Receiver Temperature chamber Wideband Radio Communication tester Power Supply AR AR AR AT4002A 305753 2017.11.10 2020.11.09 Radiation AT4003A 0329293 2018.09.17 2020.09.16 Radiation 25S1G4AM1 22018 2018.09.17 2020.09.16 Radiation MILMEGA 80RF1000-250 1064573 2017.10.09 2020.10.08 Radiation KEYSIGHT ROHDE&SC HWARZ R&S Dongguan gaoda instrument CO.LTD R&S R&S N9030A A160702554 2018.11.15 2019.11.14 Conducted ESH2-Z5 A0304221 2019.04.30 2020.04.29 Conducted ESCS30 A0304260 2019.05.25 2020.05.24 Conducted GD-7005-100 130130101 2019.04.22 2020.04.21 Conducted CMW500 149332 2019.04.01 2020.03.31 Conducted NGMO1 101037 2018.08.06 2019.08.05 Conducted CCIC-SET/T00 Page 40 of 123 Report No.: SET2019-09282 APPENDIX A Conducted RF (Average) Output Power Test Result and Data Bandwidth Modulation QPSK 16QAM LTE FDD Band 2 RB size 1 1 1 3 3 3 6 1 1 1 3 3 3 6 RB size 1 1 1 8 8 8 15 1 1 1 8 8 8 15 16QAM QPSK Conducted Power(dBm) Channel/Frequency 18607/1850.7 18900/1880 19193/1909.3 20.17 20.07 20.2 19.81 19.84 19.88 19.55 19.31 19.23 19.21 18.84 18.82 18.79 18.66 20.13 20.2 20.13 19.86 19.66 19.66 19.48 19.39 19.12 19.2 18.95 18.8 18.96 18.6 20.19 20.23 19.98 19.87 19.64 19.73 19.5 19.12 19.25 19.21 18.99 19.02 18.83 18.61 Channel/Frequency 18615/1851.5 18900/1880 19185/1908.5 20.01 20.07 20.01 19.75 19.7 19.82 19.49 19.2 19.27 19.31 18.81 18.87 18.89 18.63 20.02 20.22 20.11 19.9 19.76 19.82 19.52 19.19 19.31 19.21 18.97 18.77 18.77 18.67 19.99 20.02 20.02 19.85 19.73 19.69 19.46 19.17 19.34 19.17 19.04 19.03 18.92 18.64 Tune up 19.51.0 19.01.0 19.01.0 18.51.0 18.51.0 18.01.0 Tune up 19.51.0 19.01.0 19.01.0 18.51.0 18.51.0 18.01.0 RB offset 0 3 5 0 2 3 0 0 3 5 0 2 3 0 RB offset 0 7 14 0 4 7 0 0 7 14 0 4 7 0 1.4MHz 3MHz Bandwidth Modulation CCIC-SET/T00 Page 41 of 123 Report No.: SET2019-09282 Bandwidth Modulation QPSK 16QAM LTE FDD Band 2 RB size 1 1 1 12 12 12 25 1 1 1 12 12 12 25 RB size 1 1 1 25 25 25 50 1 1 1 25 25 25 50 16QAM QPSK Conducted Power(dBm) Channel/Frequency 18625/1852.5 18900/1880 19175/1907.5 20.05 19.97 20.08 19.68 19.64 19.72 19.55 19.15 19.21 19.32 18.8 18.82 18.79 18.62 20.2 20.01 20.07 19.71 19.67 19.89 19.53 19.29 19.36 19.12 19.02 19.04 18.97 18.64 20.01 20 20.06 19.65 19.88 19.66 19.51 19.31 19.17 19.31 18.94 18.97 18.96 18.69 Channel/Frequency 18650/1855 18900/1880 19150/1905 20.11 20.17 20.04 19.79 19.87 19.85 19.55 19.36 19.2 19.17 18.93 18.92 19.03 18.67 19.99 20.17 20.25 19.71 19.74 19.72 19.46 19.33 19.32 19.21 18.8 19.03 18.92 18.67 20.22 20.18 20.23 19.84 19.84 19.65 19.53 19.1 19.18 19.31 18.86 18.94 18.91 18.63 Tune up 19.51.0 19.01.0 19.01.0 18.51.0 18.51.0 18.01.0 Tune up 19.51.0 19.01.0 19.01.0 18.51.0 18.51.0 18.01.0 RB offset 0 13 24 0 6 13 0 0 13 24 0 6 13 0 RB offset 0 25 49 0 13 25 0 0 25 49 0 13 25 0 5MHz 10MHz Bandwidth Modulation CCIC-SET/T00 Page 42 of 123 Report No.: SET2019-09282 Bandwidth Modulation QPSK 16QAM LTE FDD Band 2 RB size 1 1 1 36 36 36 75 1 1 1 36 36 36 75 RB size 1 1 1 50 50 50 100 1 1 1 50 50 50 100 16QAM QPSK Conducted Power(dBm) Channel/Frequency 18675/1857.5 18900/1880 19125/1902.5 20.15 20.2 20 19.68 19.81 19.87 19.51 19.25 19.25 19.32 19 19 18.86 18.7 20.05 20.15 19.95 19.73 19.82 19.85 19.45 19.26 19.4 19.16 18.95 19.04 18.77 18.69 20.12 20.1 20.23 19.78 19.81 19.81 19.54 19.17 19.31 19.15 18.87 19.02 19 18.7 Channel/Frequency 18700/1860 18900/1880 19100/1900 20.01 20.15 20 19.85 19.67 19.71 19.54 19.4 19.2 19.24 18.76 18.79 18.89 18.65 20.32 20.12 19.95 19.86 19.76 19.72 19.47 19.35 19.28 19.26 18.78 18.89 18.89 18.68 20.07 20.2 19.95 19.77 19.73 19.83 19.53 19.29 19.25 19.1 19.05 18.86 19.01 18.62 Tune up 19.51.0 19.01.0 19.01.0 18.51.0 18.51.0 18.01.0 Tune up 19.51.0 19.01.0 19.01.0 18.51.0 18.51.0 18.01.0 RB offset 0 38 74 0 18 39 0 0 38 74 0 18 39 0 RB offset 0 50 99 0 25 50 0 0 50 99 0 25 50 0 15MHz 20MHz Bandwidth Modulation CCIC-SET/T00 Page 43 of 123 Report No.: SET2019-09282 LTE Band 4 Conducted Power Test Verdict:

LTE FDD Band 4 Bandwidth Modulation 1.4MHz QPSK 16QAM Bandwidth Modulation QPSK 16QAM 3MHz RB size 1 1 1 3 3 3 6 1 1 1 3 3 3 6 RB size 1 1 1 8 8 8 15 1 1 1 8 8 8 15 RB offset 0 3 5 0 2 3 0 0 3 5 0 2 3 0 RB offset 0 7 14 0 4 7 0 0 7 14 0 4 7 0 Conducted Power(dBm) Channel/Frequency 19957/1710.7 20175/1732.5 20393/1754.3 20.68 20.78 20.6 20.24 20.2 20.39 20.05 19.93 19.71 19.76 19.49 19.62 19.46 19.27 20.81 20.74 20.7 20.31 20.4 20.36 20.12 19.77 19.85 19.86 19.61 19.58 19.56 19.25 20.79 20.68 20.58 20.32 20.3 20.28 20.07 19.74 19.75 19.91 19.56 19.63 19.65 19.3 Channel/Frequency 19965/1711.5 20175/1732.5 20385/1753.5 20.82 20.75 20.82 20.35 20.4 20.28 20.15 19.98 19.93 19.8 19.46 19.48 19.5 19.25 20.66 20.62 20.78 20.23 20.32 20.22 20.11 19.78 19.76 20 19.49 19.48 19.64 19.23 20.84 20.56 20.73 20.37 20.44 20.32 20.07 19.75 19.74 19.76 19.48 19.64 19.65 19.29 Tune up 20.01.0 19.51.0 19.51.0 19.01.0 19.01.0 18.51.0 Tune up 20.01.0 19.51.0 19.51.0 19.01.0 19.01.0 18.51.0 CCIC-SET/T00 Page 44 of 123 Report No.: SET2019-09282 LTE FDD Band 4 Bandwidth Modulation 5MHz QPSK 16QAM Bandwidth Modulation 10MHz QPSK 16QAM RB size 1 1 1 12 12 12 25 1 1 1 12 12 12 25 RB size 1 1 1 25 25 25 50 1 1 1 25 25 25 50 RB offset 0 13 24 0 6 13 0 0 13 24 0 6 13 0 RB offset 0 25 49 0 13 25 0 0 25 49 0 13 25 0 Conducted Power(dBm) Channel/Frequency 19975/1712.5 20175/1732.5 20375/1752.5 20.84 20.76 20.77 20.39 20.35 20.41 20.13 19.78 19.74 19.71 19.37 19.55 19.47 19.24 20.6 20.79 20.66 20.32 20.32 20.21 20.07 19.72 19.82 19.89 19.47 19.39 19.5 19.2 20.8 20.76 20.62 20.29 20.36 20.21 20.05 19.76 19.8 19.84 19.61 19.48 19.43 19.26 Channel/Frequency 20000/1715 20175/1732.5 20350/1750 20.82 20.69 20.63 20.45 20.27 20.38 20.15 19.9 19.93 19.9 19.38 19.51 19.61 19.23 20.85 20.64 20.58 20.35 20.21 20.37 20.11 19.83 19.87 19.92 19.62 19.52 19.46 19.28 20.84 20.81 20.61 20.39 20.38 20.5 20.07 19.96 19.76 19.93 19.42 19.49 19.42 19.2 Tune up 20.01.0 19.51.0 19.51.0 19.01.0 19.01.0 18.51.0 Tune up 20.01.0 19.51.0 19.51.0 19.01.0 19.01.0 18.51.0 CCIC-SET/T00 Page 45 of 123 Report No.: SET2019-09282 LTE FDD Band 4 Bandwidth Modulation 15MHz QPSK 16QAM Bandwidth Modulation 20MHz QPSK 16QAM RB size 1 1 1 36 36 36 75 1 1 1 36 36 36 75 RB size 1 1 1 50 50 50 100 1 1 1 50 50 50 100 RB offset 0 38 74 0 18 39 0 0 38 74 0 18 39 0 RB offset 0 50 99 0 25 50 0 0 50 99 0 25 50 0 Conducted Power(dBm) Channel/Frequency 20025/1717.5 20175/1732.5 20325/1747.5 20.75 20.77 20.72 20.46 20.33 20.35 20.13 19.7 19.71 19.98 19.58 19.55 19.59 19.2 20.61 20.57 20.77 20.47 20.27 20.3 20.07 19.91 19.83 19.85 19.62 19.36 19.46 19.26 20.67 20.83 20.58 20.34 20.44 20.34 20.13 19.9 19.78 19.92 19.38 19.57 19.52 19.24 Channel/Frequency 20050/1720 20175/1732.5 20300/1745 20.77 20.61 20.71 20.37 20.24 20.36 20.13 19.73 19.76 19.73 19.42 19.49 19.53 19.22 20.94 20.64 20.77 20.44 20.36 20.27 20.1 19.92 19.94 19.99 19.43 19.36 19.57 19.28 20.68 20.69 20.58 20.41 20.36 20.25 20.09 19.88 19.99 19.95 19.55 19.61 19.4 19.2 Tune up 20.01.0 19.51.0 19.51.0 19.01.0 19.01.0 18.51.0 Tune up 20.01.0 19.51.0 19.51.0 19.01.0 19.01.0 18.51.0 CCIC-SET/T00 Page 46 of 123 Report No.: SET2019-09282 LTE Band 5 Conducted Power Test Verdict:

Bandwidth Modulation QPSK 16QAM LTE FDD Band 5 RB size 1 1 1 3 3 3 6 1 1 1 3 3 3 6 RB size 1 1 1 8 8 8 15 1 1 1 8 8 8 15 16QAM QPSK Conducted Power(dBm) Channel/Frequency 20407/824.7 20525/836.5 20643/848.3 22.59 22.3 22.53 22.03 22.03 22.21 21.88 21.62 21.68 21.57 21.19 21.11 21.38 21.01 22.58 22.5 22.59 22.02 22.15 22.05 21.8 21.48 21.72 21.57 21.29 21.3 21.35 20.97 22.34 22.41 22.58 22.15 22.09 22.18 21.8 21.64 21.75 21.75 21.1 21.25 21.18 20.99 Channel/Frequency 20415/825.5 20525/836.5 20635/847.5 22.38 22.47 22.35 22.08 22.02 21.98 21.89 21.48 21.71 21.73 21.22 21.31 21.21 21 22.33 22.6 22.51 22.14 22.16 22.2 21.87 21.47 21.57 21.72 21.19 21.38 21.31 21.04 22.54 22.48 22.55 22.02 22.16 22.09 21.85 21.49 21.49 21.62 21.28 21.27 21.24 21 Tune up 22.01.0 21.51.0 21.01.0 21.01.0 20.51.0 20.51.0 Tune up 22.01.0 21.51.0 21.01.0 21.01.0 20.51.0 20.51.0 RB offset 0 3 5 0 2 3 0 0 3 5 0 2 3 0 RB offset 0 7 14 0 4 7 0 0 7 14 0 4 7 0 1.4MHz 3MHz Bandwidth Modulation CCIC-SET/T00 Page 47 of 123 Report No.: SET2019-09282 LTE FDD Band 5 Bandwidth Modulation 5MHz QPSK 16QAM Bandwidth Modulation 10MHz QPSK 16QAM RB size 1 1 1 12 12 12 25 1 1 1 12 12 12 25 RB size 1 1 1 25 25 25 50 1 1 1 25 25 25 50 RB offset 0 13 24 0 6 13 0 0 13 24 0 6 13 0 RB offset 0 25 49 0 13 25 0 0 25 49 0 13 25 0 Conducted Power(dBm) Channel/Frequency 20425/826.5 20525/836.5 20625/846.5 22.3 22.45 22.37 21.95 22.05 22.04 21.82 21.62 21.69 21.64 21.31 21.15 21.27 21 22.32 22.51 22.48 22.13 21.96 21.96 21.86 21.59 21.72 21.65 21.32 21.3 21.22 20.96 22.6 22.49 22.41 22.05 22.16 22.23 21.88 21.5 21.55 21.72 21.36 21.29 21.22 21.04 Channel/Frequency 20450/829 20525/836.5 20600/844 22.64 22.56 22.48 22.11 21.98 22.08 21.85 21.72 21.56 21.66 21.31 21.37 21.34 20.95 22.68 22.58 22.35 22.25 22.04 22.03 21.84 21.46 21.62 21.58 21.38 21.19 21.27 21.04 22.59 22.59 22.58 22.19 21.97 21.95 21.9 21.53 21.73 21.69 21.11 21.28 21.32 21.05 Tune up 22.01.0 21.51.0 21.01.0 21.01.0 20.51.0 20.51.0 Tune up 22.01.0 21.51.0 21.01.0 21.01.0 20.51.0 20.51.0 CCIC-SET/T00 Page 48 of 123 Report No.: SET2019-09282 LTE Band 7 Conducted Power Test Verdict:

LTE FDD Band 7 Bandwidth Modulation 5MHz QPSK 16QAM Bandwidth Modulation QPSK 16QAM 10MHz RB size 1 1 1 12 12 12 25 1 1 1 12 12 12 25 RB size 1 1 1 25 25 25 50 1 1 1 25 25 25 50 RB offset 0 13 24 0 6 13 0 0 13 24 0 6 13 0 RB offset 0 25 49 0 13 25 0 0 25 49 0 13 25 0 Conducted Power(dBm) Channel/Frequency 20775/2502.5 21100/2535 21425/2567.5 20.41 20.65 20.41 20.05 20.19 20.23 20 19.66 19.68 19.67 19.37 19.5 19.23 19.12 20.45 20.43 20.43 20.3 20.27 20.1 19.96 19.84 19.83 19.76 19.3 19.43 19.22 19.08 20.57 20.61 20.55 20.25 20.23 20.34 19.99 19.75 19.61 19.62 19.43 19.25 19.31 19.13 Channel/Frequency 20800/2505 21100/2535 21400/2565 20.64 20.43 20.67 20.31 20.33 20.07 20 19.57 19.78 19.81 19.43 19.42 19.47 19.12 20.68 20.45 20.42 20.07 20.23 20.11 19.92 19.77 19.76 19.66 19.42 19.4 19.29 19.07 20.64 20.6 20.54 20.1 20.14 20.23 19.97 19.63 19.6 19.65 19.49 19.36 19.28 19.09 Tune up 20.01.0 19.51.0 19.01.0 19.01.0 18.51.0 18.51.0 Tune up 20.01.0 19.51.0 19.01.0 19.01.0 18.51.0 18.51.0 CCIC-SET/T00 Page 49 of 123 Report No.: SET2019-09282 LTE FDD Band 7 RB size 1 1 1 36 36 36 75 1 1 1 36 36 36 75 RB size 1 1 1 50 50 50 100 1 1 1 50 50 50 100 RB offset 0 38 74 0 18 39 0 0 38 74 0 18 39 0 RB offset 0 50 99 0 25 50 0 0 50 99 0 25 50 0 Bandwidth Modulation 15MHz QPSK 16QAM Bandwidth Modulation QPSK 16QAM 20MHz Conducted Power(dBm) Channel/Frequency 20825/2507.5 21100/2535 21375/2562.5 20.58 20.61 20.42 20.34 20.11 20.33 19.94 19.7 19.69 19.78 19.23 19.5 19.31 19.15 20.69 20.46 20.58 20.08 20.14 20.32 19.99 19.73 19.74 19.6 19.37 19.24 19.27 19.14 20.62 20.49 20.4 20.1 20.33 20.23 20 19.65 19.65 19.84 19.41 19.24 19.27 19.11 Channel/Frequency 20850/2510 21100/2535 21350/2560 20.43 20.51 20.65 20.32 20.18 20.23 19.91 19.8 19.63 19.65 19.22 19.5 19.27 19.08 20.83 20.41 20.62 20.34 20.13 20.29 19.91 19.76 19.68 19.85 19.31 19.37 19.32 19.06 20.44 20.57 20.61 20.29 20.09 20.07 19.96 19.65 19.66 19.56 19.27 19.25 19.21 19.15 Tune up 20.01.0 19.51.0 19.01.0 19.01.0 18.51.0 18.51.0 Tune up 20.01.0 19.51.0 19.01.0 19.01.0 18.51.0 18.51.0 CCIC-SET/T00 Page 50 of 123 Report No.: SET2019-09282 Peak To Average Ratio Test Result and Data BandWidth RbMode Modulation OneRB_high PeakToAveragePowerRatio NormalTC_NormalVol PAPR

(dBm) 6.43 6.32 6.41 6.37 6.59 6.33 Q16 Q16 Q16 Q16 Q16 Q16 20 20 20 20 20 20 OneRB_high OneRB_high fullRB fullRB fullRB Limit

(dBm) 13.00 13.00 13.00 13.00 13.00 13.00 Result Pass Pass Pass Pass Pass Pass Band Range FDD02 FDD02 FDD02 FDD02 FDD02 FDD02 LowRange LowRange MidRange MidRange HighRange HighRange CCIC-SET/T00 Page 51 of 123 Report No.: SET2019-09282 FDD02_LowRange_20MHz_1860_OneRB FDD02_LowRange_20MHz_1860_fullRB _high_Q16 _Q16 FDD02_MidRange_20MHz_1880_OneRB FDD02_MidRange_20MHz_1880_fullRB _high_Q16 _Q16 FDD02_HighRange_20MHz_1900_OneRB FDD02_HighRange_20MHz_1900_fullRB _high_Q16 _Q16 CCIC-SET/T00 Page 52 of 123 Report No.: SET2019-09282 99% Occupied Bandwidth Test Result and Data Occupied Bandwidth NormalTC_NormalVol Band Range BandWidth Frequency

(MHz) Modulation Occupied Bandwidth(99

%) (MHz) FDD02 FDD02 FDD02 FDD02 FDD02 FDD02 FDD02 FDD02 FDD02 FDD02 FDD02 FDD02 FDD04 FDD04 FDD04 FDD04 FDD04 FDD04 FDD04 FDD04 FDD04 FDD04 FDD04 FDD04 FDD05 FDD05 MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange 1.4 1.4 3 3 5 5 10 10 15 15 20 20 1.4 1.4 3 3 5 5 10 10 15 15 20 20 1.4 1.4 1880 1880 1880 1880 1880 1880 1880 1880 1880 1880 1880 1880 1732.5 1732.5 1732.5 1732.5 1732.5 1732.5 1732.5 1732.5 1732.5 1732.5 1732.5 1732.5 836.5 836.5 QPSK Q16 QPSK Q16 QPSK Q16 QPSK Q16 QPSK Q16 QPSK Q16 QPSK Q16 QPSK Q16 QPSK Q16 QPSK Q16 QPSK Q16 QPSK Q16 QPSK Q16 1.09 1.09 2.684 2.682 4.492 4.491 8.922 8.924 13.428 13.413 17.8 17.807 1.092 1.092 2.684 2.681 4.494 4.494 8.919 8.925 13.407 13.399 17.777 17.778 1.09 1.092 CCIC-SET/T00 Page 53 of 123 Report No.: SET2019-09282 FDD05 FDD05 FDD05 FDD05 FDD05 FDD05 FDD07 FDD07 FDD07 FDD07 FDD07 FDD07 FDD07 FDD07 MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange 3 3 5 5 10 10 5 5 10 10 15 15 20 20 836.5 836.5 836.5 836.5 836.5 836.5 2535 2535 2535 2535 2535 2535 2535 2535 QPSK Q16 QPSK Q16 QPSK Q16 QPSK Q16 QPSK Q16 QPSK Q16 QPSK Q16 2.683 2.681 4.495 4.496 8.926 8.927 4.493 4.492 8.923 8.923 13.416 13.411 17.79 17.796 CCIC-SET/T00 Page 54 of 123 Report No.: SET2019-09282 FDD02_MidRange_1.4_1880_QPSK FDD02_MidRange_1.4_1880_Q16 FDD02_MidRange_3_1880_QPSK FDD02_MidRange_3_1880_Q16 FDD02_MidRange_5_1880_QPSK FDD02_MidRange_5_1880_Q16 CCIC-SET/T00 Page 55 of 123 Report No.: SET2019-09282 FDD02_MidRange_10_1880_QPSK FDD02_MidRange_10_1880_Q16 FDD02_MidRange_15_1880_QPSK FDD02_MidRange_15_1880_Q16 FDD02_MidRange_20_1880_QPSK FDD02_MidRange_20_1880_Q16 CCIC-SET/T00 Page 56 of 123 Report No.: SET2019-09282 FDD04_MidRange_1.4_1732.5_QPSK FDD04_MidRange_1.4_1732.5_Q16 FDD04_MidRange_3_1732.5_QPSK FDD04_MidRange_3_1732.5_Q16 FDD04_MidRange_5_1732.5_QPSK FDD04_MidRange_5_1732.5_Q16 CCIC-SET/T00 Page 57 of 123 Report No.: SET2019-09282 FDD04_MidRange_10_1732.5_QPSK FDD04_MidRange_10_1732.5_Q16 FDD04_MidRange_15_1732.5_QPSK FDD04_MidRange_15_1732.5_Q16 FDD04_MidRange_20_1732.5_QPSK FDD04_MidRange_20_1732.5_Q16 CCIC-SET/T00 Page 58 of 123 Report No.: SET2019-09282 FDD05_MidRange_1.4_836.5_QPSK FDD05_MidRange_1.4_836.5_Q16 FDD05_MidRange_3_836.5_QPSK FDD05_MidRange_3_836.5_Q16 FDD05_MidRange_5_836.5_QPSK FDD05_MidRange_5_836.5_Q16 CCIC-SET/T00 Page 59 of 123 Report No.: SET2019-09282 FDD05_MidRange_10_836.5_QPSK FDD05_MidRange_10_836.5_Q16 FDD07_MidRange_5_2535_QPSK FDD07_MidRange_5_2535_Q16 FDD07_MidRange_10_2535_QPSK FDD07_MidRange_10_2535_Q16 CCIC-SET/T00 Page 60 of 123 Report No.: SET2019-09282 FDD07_MidRange_15_2535_QPSK FDD07_MidRange_15_2535_Q16 FDD07_MidRange_20_2535_QPSK FDD07_MidRange_20_2535_Q16 CCIC-SET/T00 Page 61 of 123 Report No.: SET2019-09282 26dB Bandwidth Test Result and Data Emission Bandwidth NormalTC_NormalVol Band FDD02 FDD02 FDD02 FDD02 FDD02 FDD02 FDD02 FDD02 FDD02 FDD02 FDD02 FDD02 FDD04 FDD04 FDD04 FDD04 FDD04 FDD04 FDD04 FDD04 FDD04 FDD04 FDD04 FDD04 FDD05 FDD05 FDD05 FDD05 Range BandWidth MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange 1.4 1.4 3 3 5 5 10 10 15 15 20 20 1.4 1.4 3 3 5 5 10 10 15 15 20 20 1.4 1.4 3 3 Frequency

(MHz) 1880 1880 1880 1880 1880 1880 1880 1880 1880 1880 1880 1880 1732.5 1732.5 1732.5 1732.5 1732.5 1732.5 1732.5 1732.5 1732.5 1732.5 1732.5 1732.5 836.5 836.5 836.5 836.5 Modulation QPSK Q16 QPSK Q16 QPSK Q16 QPSK Q16 QPSK Q16 QPSK Q16 QPSK Q16 QPSK Q16 QPSK Q16 QPSK Q16 QPSK Q16 QPSK Q16 QPSK Q16 QPSK Q16 EmissionBandwidth

(MHz) 1.39 1.4 2.99 3.01 4.93 4.92 9.51 9.54 14.26 14.26 18.72 18.72 1.4 1.39 2.99 2.99 4.93 4.93 9.48 9.55 14.25 14.24 18.71 18.71 1.39 1.39 2.99 2.99 CCIC-SET/T00 Page 62 of 123 Report No.: SET2019-09282 FDD05 FDD05 FDD05 FDD05 FDD07 FDD07 FDD07 FDD07 FDD07 FDD07 MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange MidRange 5 5 10 10 5 5 10 10 15 15 836.5 836.5 836.5 836.5 2535 2535 2535 2535 2535 2535 QPSK Q16 QPSK Q16 QPSK Q16 QPSK Q16 QPSK Q16 4.93 4.91 9.49 9.56 4.94 4.92 9.49 9.52 14.27 14.26 CCIC-SET/T00 Page 63 of 123 Report No.: SET2019-09282 FDD02_MidRange_1.4MHz_1880MHz_QPSK FDD02_MidRange_1.4MHz_1880MHz_Q16 FDD02_MidRange_3MHz_1880MHz_QPSK FDD02_MidRange_3MHz_1880MHz_Q16 FDD02_MidRange_5MHz_1880MHz_QPSK FDD02_MidRange_5MHz_1880MHz_Q16 CCIC-SET/T00 Page 64 of 123 Report No.: SET2019-09282 FDD02_MidRange_10MHz_1880MHz_QPSK FDD02_MidRange_10MHz_1880MHz_Q16 FDD02_MidRange_15MHz_1880MHz_QPSK FDD02_MidRange_15MHz_1880MHz_Q16 FDD02_MidRange_20MHz_1880MHz_QPSK FDD02_MidRange_20MHz_1880MHz_Q16 CCIC-SET/T00 Page 65 of 123 Report No.: SET2019-09282 FDD04_MidRange_1.4MHz_1732.5MHz FDD04_MidRange_1.4MHz_1732.5MHz _QPSK _Q16 FDD04_MidRange_3MHz_1732.5MHz_QPSK FDD04_MidRange_3MHz_1732.5MHz_Q16 FDD04_MidRange_5MHz_1732.5MHz_QPSK FDD04_MidRange_5MHz_1732.5MHz_Q16 CCIC-SET/T00 Page 66 of 123 Report No.: SET2019-09282 FDD04_MidRange_10MHz_1732.5MHz FDD04_MidRange_10MHz_1732.5MHz _QPSK _Q16 FDD04_MidRange_15MHz_1732.5MHz FDD04_MidRange_15MHz_1732.5MHz _QPSK _Q16 FDD04_MidRange_20MHz_1732.5MHz FDD04_MidRange_20MHz_1732.5MHz _QPSK _Q16 CCIC-SET/T00 Page 67 of 123 Report No.: SET2019-09282 FDD05_MidRange_1.4MHz_836.5MHz FDD05_MidRange_1.4MHz_836.5MHz _QPSK _Q16 FDD05_MidRange_3MHz_836.5MHz_QPSK FDD05_MidRange_3MHz_836.5MHz_Q16 FDD05_MidRange_5MHz_836.5MHz_QPSK FDD05_MidRange_5MHz_836.5MHz_Q16 CCIC-SET/T00 Page 68 of 123 Report No.: SET2019-09282 FDD05_MidRange_10MHz_836.5MHz_QPSK FDD05_MidRange_10MHz_836.5MHz_Q16 FDD07_MidRange_5MHz_2535MHz_QPSK FDD07_MidRange_5MHz_2535MHz_Q16 FDD07_MidRange_10MHz_2535MHz_QPSK FDD07_MidRange_10MHz_2535MHz_Q16 CCIC-SET/T00 Page 69 of 123 Report No.: SET2019-09282 FDD07_MidRange_15MHz_2535MHz_QPSK FDD07_MidRange_15MHz_2535MHz_Q16 FDD07_MidRange_20MHz_2535MHz_QPSK FDD07_MidRange_20MHz_2535MHz_Q16 CCIC-SET/T00 Page 70 of 123 Report No.: SET2019-09282 Frequency Stability Test Result and Data Frequency Stability NormalTC_NormalVol Temperature Voltage Band BandWidth

(MHz) RbMode Modulation Frequency Error (Hz) Frequency Error (ppm) Limit

(ppm) Result Normal Normal Normal 50 40 30 20 10 0

-10

-20

-30 Normal Normal Normal 50 40 30 20 10 0

-10

-20

-30 Normal Normal Normal Low FDD02 Normal FDD02 High FDD02 Normal FDD02 Normal FDD02 Normal FDD02 Normal FDD02 Normal FDD02 Normal FDD02 Normal FDD02 Normal FDD02 Normal FDD02 Low FDD04 Normal FDD04 High FDD04 Normal FDD04 Normal FDD04 Normal FDD04 Normal FDD04 Normal FDD04 Normal FDD04 Normal FDD04 Normal FDD04 Normal FDD04 Low FDD05 Normal FDD05 High FDD05 50 Normal FDD05 CCIC-SET/T00 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK

-38.466

-41.327

-39.539

-38.381

-36.550

-40.183

-36.664

-42.844

-44.575

-43.187

-45.462

-46.034 26.078 19.097 25.249 19.770 21.243 26.307 21.443 20.742 25.020 27.852 23.003 24.033 7.811 10.943 10.271 8.826 0.020 0.022 0.021 0.020 0.019 0.021 0.020 0.023 0.024 0.023 0.024 0.024 0.015 0.011 0.015 0.011 0.012 0.015 0.012 0.012 0.014 0.016 0.013 0.014 0.009 0.013 0.012 0.011 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Page 71 of 123 Report No.: SET2019-09282 40 30 20 10 0

-10

-20

-30 Normal Normal Normal 50 40 30 20 10 0

-10

-20

-30 Normal FDD05 Normal FDD05 Normal FDD05 Normal FDD05 Normal FDD05 Normal FDD05 Normal FDD05 Normal FDD05 Low FDD07 Normal FDD07 High FDD07 Normal FDD07 Normal FDD07 Normal FDD07 Normal FDD07 Normal FDD07 Normal FDD07 Normal FDD07 Normal FDD07 Normal FDD07 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 10 fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB fullRB QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK QPSK 9.556 11.144 9.127 10.099 10.614 8.912 8.540 9.928 23.346 22.116 30.498 20.041 29.039 22.230 27.494 14.505 19.112 18.926 12.317

-15.521 0.011 0.013 0.011 0.012 0.013 0.011 0.010 0.012 0.009 0.009 0.012 0.008 0.011 0.009 0.011 0.006 0.008 0.007 0.005 0.006 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass NoteNormal=3.8V, Low=3.5V, High=4.2V CCIC-SET/T00 Page 72 of 123 Report No.: SET2019-09282 Conducted Out of Band Emissions Test Result and Data FDD02_HighRange_1.4MHz_30MHz~26GHz FDD02_HighRange_10MHz_30MHz~26GHz FDD02_HighRange_15MHz_30MHz~26GHz FDD02_HighRange_20MHz_30MHz~26GHz FDD02_HighRange_3MHz_30MHz~26GHz FDD02_HighRange_5MHz_30MHz~26GHz CCIC-SET/T00 Page 73 of 123 Report No.: SET2019-09282 FDD02_LowRange_1.4MHz_30MHz~26GHz FDD02_LowRange_10MHz_30MHz~26GHz FDD02_LowRange_15MHz_30MHz~26GHz FDD02_LowRange_20MHz_30MHz~26GHz FDD02_LowRange_3MHz_30MHz~26GHz FDD02_LowRange_5MHz_30MHz~26GHz CCIC-SET/T00 Page 74 of 123 Report No.: SET2019-09282 FDD02_MidRange_1.4MHz_30MHz~26GHz FDD02_MidRange_10MHz_30MHz~26GHz FDD02_MidRange_15MHz_30MHz~26GHz FDD02_MidRange_20MHz_30MHz~26GHz FDD02_MidRange_3MHz_30MHz~26GHz FDD02_MidRange_5MHz_30MHz~26GHz CCIC-SET/T00 Page 75 of 123 Report No.: SET2019-09282 FDD04_HighRange_1.4MHz_30MHz~26GHz FDD04_HighRange_10MHz_30MHz~26GHz FDD04_HighRange_15MHz_30MHz~26GHz FDD04_HighRange_3MHz_30MHz~26GHz FDD04_HighRange_5MHz_30MHz~26GHz FDD04_LowRange_1.4MHz_30MHz~26GHz CCIC-SET/T00 Page 76 of 123 Report No.: SET2019-09282 FDD04_LowRange_10MHz_30MHz~26GHz FDD04_LowRange_15MHz_30MHz~26GHz FDD04_LowRange_3MHz_30MHz~26GHz FDD04_LowRange_5MHz_30MHz~26GHz FDD04_MidRange_1.4MHz_30MHz~26GHz FDD04_MidRange_10MHz_30MHz~26GHz CCIC-SET/T00 Page 77 of 123 Report No.: SET2019-09282 FDD04_MidRange_15MHz_30MHz~26GHz FDD04_MidRange_3MHz_30MHz~26GHz FDD04_MidRange_5MHz_30MHz~26GHz FDD05_HighRange_1.4MHz_30MHz~26GHz FDD05_HighRange_10MHz_30MHz~26GHz FDD05_HighRange_3MHz_30MHz~26GHz CCIC-SET/T00 Page 78 of 123 Report No.: SET2019-09282 FDD05_HighRange_5MHz_30MHz~26GHz FDD05_LowRange_1.4MHz_30MHz~26GHz FDD05_LowRange_10MHz_30MHz~26GHz FDD05_LowRange_3MHz_30MHz~26GHz FDD05_LowRange_5MHz_30MHz~26GHz FDD05_MidRange_1.4MHz_30MHz~26GHz CCIC-SET/T00 Page 79 of 123 Report No.: SET2019-09282 FDD05_MidRange_10MHz_30MHz~26GHz FDD05_MidRange_3MHz_30MHz~26GHz FDD05_MidRange_5MHz_30MHz~26GHz FDD07_HighRange_10MHz_30MHz~26GHz FDD07_HighRange_15MHz_30MHz~26GHz FDD07_HighRange_20MHz_30MHz~26GHz CCIC-SET/T00 Page 80 of 123 Report No.: SET2019-09282 FDD07_HighRange_5MHz_30MHz~26GHz FDD07_LowRange_10MHz_30MHz~26GHz FDD07_LowRange_15MHz_30MHz~26GHz FDD07_LowRange_5MHz_30MHz~26GHz FDD07_MidRange_10MHz_30MHz~26GHz FDD07_MidRange_15MHz_30MHz~26GHz CCIC-SET/T00 Page 81 of 123 Report No.: SET2019-09282 FDD07_MidRange_5MHz_30MHz~26GHz FDD07_MidRange_20MHz_30MHz~26GHz CCIC-SET/T00 Page 82 of 123

 

 

Report No.: SET2019-09281 RF TEST REPORT Report No.: SET2019-09281 Product: LTE UFi FCC ID: SRQ-MF920U Model No. : MF920U Applicant: ZTE Corporation. Address: ZTE Plaza, Keji Road South, Shenzhen, China. Dates of Testing: 03/01/2019 07/29/2019 Issued by: CCIC Southern Electronic Product Testing (Shenzhen) Co., Ltd. Lab Location: Building 28/29, East of Shigu, Xili Industrial Zone, Xili Road, Nanshan District, Shenzhen, Guangdong, China Tel86 755 26627338 Fax86 755 26627238 This test report consists of 65 pages in total. It may be duplicated completely for legal use with the approval of the applicant. It should not be reproduced except in full, without the written approval of our laboratory. The client should not use it to claim product endorsement by CCIC-SET. The test results in the report only apply to the tested sample. The test report shall be invalid without all the signatures of testing engineers, reviewer and approver. Any objections must be raised to CCIC-SET within 15 days since the date when the report is received. It will not be taken into consideration beyond this limit. CCIC-SET/T00 Page 1 of 65 Report No.: SET2019-09281 Test Report Product....: LTE UFi Brand Name: ZTE Trade Name....: ZTE Applicant.: ZTE Corporation. Applicant Address...: ZTE Plaza, Keji Road South, Shenzhen, China. Manufacturer..: ZTE Corporation. Manufacturer Address.: ZTE Plaza, Keji Road South, Shenzhen, China. Test Standards..: 47 CFR FCC Part 2/22H/24E Test Result..: PASS Tested by.....:

Reviewed by...:

2019.07.29 Robin LuoTest Engineer 2019.07.29 Chris You, Senior Engineer Approved by.......:

2019.07.29 ShuangwenZhangManager CCIC-SET/T00 Page 2 of 65 Report No.: SET2019-09281 Table of Contents 1. GENERAL INFORMATION .................................................................................................... 5 1.1 EUT Description ......................................................................................................................... 5 1.2 Maximum ERP/EIRP Power, Frequency Tolerance, and Emission Designator ................... 6 1.3 Test Standards and Results ........................................................................................................ 7 1.4 Test Configuration of Equipment under Test ........................................................................... 8 1.5 Measurement Results Explanation Example ........................................................................... 9 1.6 Facilities and Accreditations ...................................................................................................... 9 2. 47 CFR PART 2, PART 22H & 24E REQUIREMENTS ...................................................... 10 2.1 Conducted RF Output Power .................................................................................................. 10 2.2 Peak to Average Radio .............................................................................................................. 13 2.3 99% Occupied Bandwidth and 26dB Bandwidth Measurement ......................................... 15 2.4 Frequency Stability ................................................................................................................... 23 2.5 Conducted Out of Band Emissions ......................................................................................... 27 2.6 Bandedge ................................................................................................................................... 47 2.7 Transmitter Radiated Power (EIRP/ERP) ............................................................................. 54 2.8 Radiated Spurious Emissions .................................................................................................. 58 3. LIST OF MEASURING EQUIPMENT ................................................................................. 65 CCIC-SET/T00 Page 3 of 65 Report No.: SET2019-09281 Change History Issue 1.0 Date 2019.07.29 Reason for change First edition CCIC-SET/T00 Page 4 of 65 Report No.: SET2019-09281 1. 1.1 GENERAL INFORMATION EUT Description EUT Type LTE UFi EUT supports Radios application GPRS/EDGE/WCDMA/HSPA Tx: 1852.4 - 1907.6MHz (at intervals of 200kHz);

Rx: 1932.4 - 1987.6MHz (at intervals of 200kHz) Tx: 1850.2 - 1909.8MHz (at intervals of 200kHz);

Rx: 1930.2 - 1989.8MHz (at intervals of 200kHz) Tx: 826.4 - 846.6MHz (at intervals of 200kHz);

Rx: 871.4 - 891.6MHz (at intervals of 200kHz) Tx: 824.2 - 848.8MHz (at intervals of 200kHz);

Rx: 869.2 - 893.8MHz (at intervals of 200kHz) GPRS: Multi slot Class12, EGPRS: Multi slot Class12 GPRS 850MHz:

GPRS 1900MHz:

WCDMA 850MHz WCDMA 1900MHz GPRS 850: 31.72dBm GPRS 1900: 28.33dBm EDGE 850: 25.88dBm EDGE 1900: 24.41dBm WCDMA 850: 22.94dBm WCDMA 1900: 21.49dBm GPRS / GPRS:GMSK EDGE:GMSK / 8PSK WCDMA:QPSK(Uplink) HSDPA:QPSK(Downlink) HSUPA:QPSK(Uplink) Internal Antenna Multi Slot Class Frequency Range Maximum Output Power to Antenna Type of Modulation Antenna Type CCIC-SET/T00 Page 5 of 65 Report No.: SET2019-09281 1.2 Maximum ERP/EIRP Power, Frequency Tolerance, and Emission Designator System Type of Modulation Emission Designator 245KGXW 243KGXW 246KG7W 252KG7W 4M14F9W Frequency Tolerance

(ppm) 0.0049 0.0043 0.0057 0.0040 0.0035 GMSK GMSK 8PSK 8PSK QPSK QPSK 4M16F9W 0.0034 Maximum ERP/EIRP(W) 1.439 0.667 0.373 0.301 0.211 0.166 GPRS 850 GPRS 1900 EDGE 850 EDGE 1900 WCDMA 850 RMC 12.2Kbps WCDMA 1900 RMC 12.2Kbps CCIC-SET/T00 Page 6 of 65 Report No.: SET2019-09281 1.3 Test Standards and Results 1. 47 CFR Part 2, 22(H), 24(E) 2. ANSI / TIA / EIA-603-D-2010 3. FCC KDB 971168 D01 Power Meas. License Digital Systems v03r01 Remark 1. All test items were verified and recorded according to the standards and without any deviation during the test. 2. This EUT has also been tested and complied with the requirements of FCC Part 15, Subpart B, recorded in a separate test report. Test detailed items/section required by FCC rules and results are as below:

Section FCC 2.1046 Description Limit Result Conducted Output Power Reporting Only PASS 24.232(d) Peak to Average Radio 13dB PASS 2.1049 22.917(b) 24.238(b) 2.1055 22.355 24.235 2.1051 22.917 24.238 2.1051 22.917 24.238 22.913 24.232 2.1053 22.917 24.238 Occupied Bandwidth Reporting Only PASS Frequency Stability 2.5ppm PASS Conducted Out of Band Emissions Band Edge Effective Radiated Power Equivalent Isotropic Radiated Power Radiated Spurious Emissions

< 43+10log10

(P[Watts])

< 43+10log10

(P[Watts]) 7Watts 2Watts

< 43+10log10

(P[Watts]) PASS PASS PASS PASS PASS No. 1 2 3 4 5 6 7 8 CCIC-SET/T00 Page 7 of 65 Report No.: SET2019-09281 1.4 Test Configuration of Equipment under Test Antenna port conducted and radiated test items were performed according to KDB 971168 D01 Power Meas. License Digital Systems v03r01 with maximum output power. Radiated measurements were performed with rotating EUT in different three orthogonal test planes to find the maximum emission. Radiated emissions were investigated as following frequency range:

1. 30 MHz to 9000 MHz for GPRS850 and WCDMA Band V. 2. 30 MHz to 20000 MHz for GPRS1900 and WCDMA Band II. All modes and data rates and positions were investigated. Test modes are chosen to be reported as the worst case configuration below:

Band GPRS 850 GPRS 1900 Test Modes Radiated TCs GPRS Link GPRS Link GPRS Link GPRS Link Conducted TCs GPRS Link GPRS Link GPRS Link GPRS Link WCDMA Band V WCDMA Band II RMC 12.2Kbps Link RMC 12.2Kbps Link RMC 12.2Kbps Link RMC 12.2Kbps Link Note:

1. The maximum power levels are chosen to test as the worst case configuration as follows:

GPRS mode for GMSK modulation, EDGE multi-slot class 8 mode for 8PSK modulation, RMC 12.2Kbps mode for WCDMA band V, RMC 12.2Kbps mode for WCDMA band II, only these modes were used for all tests. CCIC-SET/T00 Page 8 of 65 Report No.: SET2019-09281 1.5 Measurement Results Explanation Example For all conducted test items:

The offset level is set in the spectrum analyzer to compensate the RF cable loss and attenuator factor between EUT conducted output port and spectrum analyzer. With the offset compensation, the spectrum analyzer reading level is exactly the EUT RF output level. The spectrum analyzer offset is derived from RF cable loss and attenuator factor. Offset = RF cable loss + attenuator factor. Following shows an offset computation example with cable loss 6B and 10dB attenuator. Example:

Offset (dB) = RF cable loss(dB) + attenuator factor(dB).

= 7.5+ 10 = 17.5(dB) 1.6 1.6.1 Test Facilities Facilities and Accreditations NVLAP Lab Code: 201008-0 CCIC-SET is a third party testing organization accredited by NVLAP according to ISO/IEC 17025. The accreditation certificate number is 201008-0. FCC- Designation Number: CN5031 CCIC Southern Electronic Product Testing (Shenzhen) Co., Ltd. EMC Laboratory has been registered and fully described in a report filed with the FCC (Federal Communications Commission). The acceptance letter from the FCC is maintained in our files. Designation Number: CN5031, valid time is until Dec. 31, 2019. ISED Registration: 11185A-1 CAB identifier: CN0064 CCIC Southern Electronic Product Testing (Shenzhen) Co., Ltd. EMC Laboratory has been registered by Certification and Engineering Bureau of Industry Canada for the performance of radiated measurements with Registration No. 11185A-1 on Aug. 04, 2016, valid time is until Dec. 31, 2019 1.6.2 Test Environment Conditions During the measurement, the environmental conditions were within the listed ranges:

Temperature (C):

Relative Humidity (%):

Atmospheric Pressure (kPa):

15- 35 30% -60%

86KPa-106KPa CCIC-SET/T00 Page 9 of 65 Report No.: SET2019-09281 2. 47 CFR PART 2, PART 22H & 24E REQUIREMENTS Conducted RF Output Power 2.1 2.1.1 Definition A system simulator was used to establish communication with the EUT. Its parameters were set to enforce EUT transmitting at the maximum power. The measured power in the radio frequency on the transmitter output terminals shall be reported. 2.1.2 Measuring Instruments The measuring equipment is listed in the section 3 of this test report. 2.1.3 Test Procedures 1. The transmitter output port was connected to the system simulator. 2. Set EUT at maximum power through system simulator. 3. Select lowest, middle, and highest channels for each band and different modulation. 4. Measure and record the power level from the system simulator. 2.1.4 Test Setup CCIC-SET/T00 Page 10 of 65 Report No.: SET2019-09281 2.1.5 Test Results of Conducted Output Power GSM850 1 Tx Slot 2 Tx Slots 3 Tx Slots 4 Tx Slots 1 Tx Slot 2 Tx Slots 3 Tx Slots 4 Tx Slots GSM1900 1 Tx Slot 2 Tx Slots 3 Tx Slots 4 Tx Slots 1 Tx Slot 2 Tx Slots 3 Tx Slots 4 Tx Slots GPRS

(GMSK) EDGE

(8PSK) GPRS

(GMSK) EDGE

(8PSK) Burst-Averaged output Power (dBm) 128CH 31.47 29.33 28.10 27.01 25.80 23.67 22.34 21.17 190CH 31.72 29.61 28.42 27.36 25.88 23.89 22.58 21.39 251CH 31.65 29.44 28.25 27.14 25.84 23.75 22.49 21.27 Burst-Averaged output Power (dBm) 512CH 28.26 26.31 25.10 24.06 24.28 23.14 22.01 20.89 661CH 28.33 26.47 25.32 24.28 24.41 23.35 22.19 21.06 810CH 27.95 26.06 25.01 23.94 23.99 23.02 21.93 20.70 CCIC-SET/T00 Page 11 of 65 Report No.: SET2019-09281 UMTS1900

(Band II) WCDMA 12.2kbps RMC HSDPA HSUPA Subtest 1 Subtest 2 Subtest 3 Subtest 4 Subtest 1 Subtest 2 Subtest 3 Subtest 4 Subtest 5 UMTS850

(Band V) WCDMA 12.2kbps RMC HSDPA HSUPA Subtest 1 Subtest 2 Subtest 3 Subtest 4 Subtest 1 Subtest 2 Subtest 3 Subtest 4 Subtest 5 Average Power (dBm) 9262CH 21.15 21.03 20.94 20.86 20.75 20.61 20.53 20.42 20.31 20.2 9400CH 21.49 21.38 21.26 21.14 21.03 20.95 20.83 20.72 20.61 20.54 9538cH 21.35 21.24 21.13 21.05 20.94 20.86 20.74 20.62 20.55 20.41 Average Power (dBm) 4132CH 22.44 22.32 22.23 22.15 22.04 21.96 21.87 21.75 21.64 21.53 4183CH 22.94 22.84 22.76 22.67 22.56 22.42 22.36 22.23 22.14 22.01 4233CH 22.37 22.27 22.16 22.05 21.97 21.84 21.75 21.65 21.54 21.43 CCIC-SET/T00 Page 12 of 65 Report No.: SET2019-09281 Peak to Average Radio 2.2 2.2.1 Definition Power Complementary Cumulative Distribution Function (CCDF) curves provide a means for characterizing the power peaks of a digitally modulated signal on a statistical basis. A CCDF curve depicts the probability of the peak signal amplitude exceeding the average power level. Most contemporary measurement instrumentation include the capability to produce CCDF curves for an input signal provided that the instruments resolution bandwidth can be set wide enough to accommodate the entire input signal bandwidth. In measuring transmissions in this band using an average power technique, the peak-to-average ratio (PAR) of the transmission may not exceed 13 dB. 2.2.2 Measuring Instruments The measuring equipment is listed in the section 3 of this test report. 2.2.3 Test Procedures 1. The testing follows FCC KDB 971168 D01 v03r01 Section 5.7.1. 2. The EUT was connected to the spectrum analyzer and system simulator via a power divider. 3. For GPRS/EGPRS operating modes:

a. Set EUT in maximum power output. b. Set the RBW = 1MHz, VBW = 3MHz, Peak detector on spectrum analyzer for first trace. c. Set the RBW = 1MHz, VBW = 3MHz, RMS detector on spectrum analyzer for second trace. d. The wanted burst signal is triggered by spectrum analyzer, and measured respectively the peak level and Mean level without burst-off time, after system simulator has synchronized with the spectrum analyzer. 4. For UMTS operating modes:

a. Set the CCDF (Complementary Cumulative Distribution Function) option on the spectrum analyzer. b. The highest RF powers were measured and recorded the maximum PAPR level associated with a probability of 0.1 %. 5. Record the deviation as Peak to Average Ratio. CCIC-SET/T00 Page 13 of 65 Report No.: SET2019-09281 2.2.4 Test Setup 2.2.5 Test Results of Peak-to-Average Ratio Band Channel GPRS 1900MHz EDGE 1900MHz WCDMA 1900MHz 512 661 810 512 661 810 9262 9400 9538 Frequency Peak to Average radio

(MHz) 1850.2 1880.0 1909.8 1850.2 1880.0 1909.8 1852.4 1880.0 1907.6 dB 0.3 0.3 0.3 3.2 3.2 3.3 3.39 3.55 3.36 Limit dB 13 13 13 Verdict PASS PASS PASS PASS PASS PASS PASS PASS PASS CCIC-SET/T00 Page 14 of 65 Report No.: SET2019-09281 99% Occupied Bandwidth and 26dB Bandwidth Measurement 2.3 2.3.1 Definition The 99% occupied bandwidth is the width of a frequency band such that, below the lower and above the upper frequency limits, the mean powers emitted are each equal to a specified percentage 0.5% of the total mean transmitted power. The emission bandwidth is defined as the width of the signal between two points, located at the 2 sides of the carrier frequency, outside of which all emissions are attenuated at least 26 dB below the transmitter power. 2.3.2 Measuring Instruments The measuring equipment is listed in the section 3 of this test report. 2.3.3 Test Procedures 1. The testing follows FCC KDB 971168 D01 v03r01 Section 4.2. 2. The EUT was connected to the spectrum analyzer and system simulator via a power divider. 3. The RF output of the EUT was connected to the spectrum analyzer by RF cable and attenuator. The path loss was compensated to the results for each measurement. 4. The 99% occupied bandwidth were measured, set RBW= 1% of span, VBW= 3*RBW, sample detector, trace maximum hold. 5. The 26dB bandwidth were measured, set RBW= 1% of EBW, VBW= 3*RBW, peak detector, trace maximum hold. 2.3.4 Test Setup CCIC-SET/T00 Page 15 of 65 Report No.: SET2019-09281 2.3.5 Test Results of 99% Occupied Bandwidth and 26dB Bandwidth Band Channel Frequency

(MHz) GPRS 850MHz GPRS 1900MHz EDGE 850MHz EDGE 1900MHz WCDMA 850MHz WCDMA 1900MHz 128 190 251 512 661 810 128 190 251 512 661 810 4132 4183 4233 9262 9400 9538 1412 1513 824.2 836.6 848.8 1850.2 1880.0 1909.8 824.2 836.6 848.8 1850.2 1880.0 1909.8 826.4 836.6 846.6 1852.4 1880 1907.6 1732.4 1752.6 26dB bandwidth 99% Occupied Bandwidth Refer to Plot

(KHz) 313.6 307.4 313.9 310.1 303.8 292.9 312.9 304.7 291.3 303.9 299.9 298.3 4692 4691 4681 4687 4679 4677 313.6 307.4

(KHz) 244.42 245.52 243.52 245.63 242.45 241.62 246.5 244.25 245.1 248.4 246.86 244.14 4164.6 4159.7 4158.6 4155 4164.8 4156.7 244.42 245.52 Plot A1 Plot A2 Plot A3 Plot B1 Plot B2 Plot B3 Plot C1 Plot C2 Plot C3 Plot D1 Plot D2 Plot D3 Plot E1 Plot E2 Plot E3 Plot F1 Plot F2 Plot F3 Plot G2 Plot G3 CCIC-SET/T00 Page 16 of 65 Report No.: SET2019-09281 2.3.6 Test Results (Plots) of 99% Occupied Bandwidth and 26dB Bandwidth

(Plot A1: GPRS 850MHz Channel = 128 Occupied bandwidth)

(Plot A2: GPRS 850MHz Channel = 190 Occupied bandwidth)

(Plot A3: GPRS 850MHz Channel = 251 Occupied bandwidth) CCIC-SET/T00 Page 17 of 65 Report No.: SET2019-09281

(Plot B1: GPRS 1900MHz Channel = 512 Occupied bandwidth)

(Plot B2: GPRS 1900MHz Channel = 661 Occupied bandwidth)

(Plot B3: GPRS 1900MHz Channel = 810 Occupied bandwidth) CCIC-SET/T00 Page 18 of 65 Report No.: SET2019-09281

(Plot C1:

EDGE 850MHz Channel = 128 Occupied bandwidth)

(Plot C2:

EDGE 850MHz Channel = 190 Occupied bandwidth)

(Plot C3:

EDGE 850MHz Channel = 251 Occupied bandwidth) CCIC-SET/T00 Page 19 of 65 Report No.: SET2019-09281

(Plot D1:

EDGE 1900MHz Channel = 512 Occupied bandwidth)

(Plot D2:

EDGE 1900MHz Channel = 661 Occupied bandwidth)

(Plot D3:

EDGE 1900MHz Channel = 810 Occupied bandwidth) CCIC-SET/T00 Page 20 of 65 Report No.: SET2019-09281

(Plot E1: WCDMA 850MHz Channel = 4132 Occupied bandwidth)

(Plot E2: WCDMA 850MHz Channel = 4183 Occupied bandwidth)

(Plot E3: WCDMA 850MHz Channel = 4233 Occupied bandwidth) CCIC-SET/T00 Page 21 of 65 Report No.: SET2019-09281

(Plot F1: WCDMA 1900MHz Channel = 9262 Occupied bandwidth)

(Plot F2: WCDMA 1900MHz Channel = 9400 Occupied bandwidth)

(Plot F3: WCDMA 1900MHz Channel = 9538 Occupied bandwidth) CCIC-SET/T00 Page 22 of 65 Report No.: SET2019-09281 2.4 Frequency Stability 2.4.1 Requirement The frequency stability shall be measured by variation of ambient temperature and variation of primary supply voltage to ensure that the fundamental emission stays within the authorized frequency block. The frequency stability of the transmitter shall be maintained within 0.00025%

(2.5ppm) of the center frequency. 2.4.2 Measuring Instruments The measuring equipment is listed in the section 3 of this test report. 2.4.3 Test Procedures for Temperature Variation 1. The testing follows FCC KDB 971168 D01 v03r01 Section 9.0. 2. The EUT was set up in the thermal chamber and connected with the system simulator. 3. With power OFF, the temperature was decreased to -30C and the EUT was stabilized before testing. Power was applied and the maximum change in frequency was recorded within one minute. 4. With power OFF, the temperature was raised in 10C steps up to 50C. The EUT was stabilized at each step for at least half an hour. Power was applied and the maximum frequency change was recorded within one minute. 2.4.4 Test Procedures for Voltage Variation 1. The testing follows FCC KDB 971168 D01 v03r01 Section 9.0. 2. The EUT was placed in a temperature chamber at 255 C and connected with the system simulator. 3. The power supply voltage to the EUT was varied from BEP to 115% of the nominal value measured at the input to the EUT. 4. The variation in frequency was measured for the worst case. CCIC-SET/T00 Page 23 of 65 Report No.: SET2019-09281 2.4.5 Test Setup Common Antenna Temperature Chamber System Simulator EUT DC Power Supply 2.4.6 Test Results of Frequency Stability GPRS 850MHz Band GPRS 850 2.5 Channel:

Frequency:

190 836.6MHz Temperature

()

-30

-20

-10 0

+10

+20

+30

+40

+50

+25

+25 GPRS Deviation EDGE Deviation Result

(ppm) 0.0032 0.0031 0.0027 0.0027 0.0008 0.0032 0.0049 0.0033 0.0037 0.0042 0.0040

(ppm) 0.0057 0.0012 0.0009 0.0033 0.0027 0.0032 0.0020 0.0017 0.0043 0.0020 0.0021 PASS Band:

Limit(ppm):

Power

(VDC) 3.8 4.4 3.5 CCIC-SET/T00 Page 24 of 65 Report No.: SET2019-09281 GPRS 1900MHz Band GPRS 1900 2.5 Channel:

Frequency:

661 1880.0MHz Temperature

()

-30

-20

-10 0

+10

+20

+30

+40

+50

+25

+25 GPRS Deviation EDGE Deviation Result

(ppm) 0.0027 0.0034 0.0010 0.0015 0.0043 0.0012 0.0023 0.0024 0.0013 0.0020 0.0037

(ppm) 0.0032 0.0040 0.0031 0.0023 0.0033 0.0028 0.0020 0.0011 0.0033 0.0018 0.0028 PASS Band:

Limit(ppm):

Power

(VDC) 3.8 4.4 3.5 WCDMA 850MHz Band Band:

Limit(ppm):

WCDMA Band V 2.5 Channel:

Frequency:

4183 836.6MHz Power

(VDC) 3.8 4.4 3.5 Temperature

()

-30

-20

-10 0

+10

+20

+30

+40

+50

+25

+25 RMC 12.2Kbps Deviation Result

(ppm) 0.0017 0.0010 0.0008 0.0027 0.0032 0.0019 0.0035 0.0021 0.0008 0.0011 0.0023 PASS CCIC-SET/T00 Page 25 of 65 Report No.: SET2019-09281 WCDMA 1900MHz Band Band:

Limit(ppm):

WCDMA Band II 2.5 Power

(VDC) 3.8 4.4 3.5 Temperature

()

-30

-20

-10 0

+10

+20

+30

+40

+50

+25

+25 Channel:

Frequency:

RMC 12.2Kbps Deviation 9400 1880.0MHz Result

(ppm) 0.0012 0.0012 0.0034 0.0024 0.0023 0.0010 0.0017 0.0020 0.0023 0.0022 0.0021 PASS CCIC-SET/T00 Page 26 of 65 Report No.: SET2019-09281 Conducted Out of Band Emissions 2.5 2.5.1 Requirement The power of any emission outside of the authorized operating frequency ranges must be lower than the transmitter power (P) by a factor of at least 43 + 10 log (P) dB. It is measured by means of a calibrated spectrum analyzer and scanned from 30 MHz up to a frequency including its 10th harmonic. 2.5.2 Measuring Instruments The measuring equipment is listed in the section 3 of this test report. 2.5.3 Test Procedures 1. The testing follows FCC KDB 971168 D01 v03r01 Section 6.0. 2. The EUT was connected to the spectrum analyzer and system simulator via a power divider. 3. The RF output of EUT was connected to the spectrum analyzer by an RF cable and attenuator. The path loss was compensated to the results for each measurement. 4. The middle channel for the highest RF power within the transmitting frequency was measured. 5. The conducted spurious emission for the whole frequency range was taken. 6. The RF fundamental frequency should be excluded against the limit line in the operating frequency band. 7. The limit line is derived from 43 + 10log(P) dB below the transmitter power P(Watts)

= P(W) - [43 + 10log(P)] (dB)

= [30 + 10log(P)] (dBm) - [43 + 10log(P)] (dB)

= -13dBm. 8. For 9KHz to 30MHz: the amplitude of spurious emissions are attenuated by more than 20dB below the permissible value has no need to be reported. CCIC-SET/T00 Page 27 of 65 Report No.: SET2019-09281 2.5.4 Test Setup CCIC-SET/T00 Page 28 of 65 Report No.: SET2019-09281 2.5.5 Test Result (Plots) of Conducted Spurious Emission Note: For 9 KHz to 30MHz: the amplitude of spurious emissions is attenuated by more than 20dB below the permissible value, so we not provide the test result here. GPRS 850MHz Channel = 128, 30MHz to 1GHz GPRS 850MHz Channel = 128, 1GHz to 9GHz CCIC-SET/T00 Page 29 of 65 Report No.: SET2019-09281 GPRS 850MHz Channel = 190, 30MHz to 1GHz GPRS 850MHz Channel = 190, 1GHz to 9GHz CCIC-SET/T00 Page 30 of 65 Report No.: SET2019-09281 GPRS 850MHz Channel = 251, 30MHz to 1GHz GPRS 850MHz Channel = 251, 1GHz to 9GHz CCIC-SET/T00 Page 31 of 65 Report No.: SET2019-09281 GPRS 1900MHz Channel = 512, 30MHz to 1GHz GPRS 1900MHz Channel = 512, 1GHz to 20GHz CCIC-SET/T00 Page 32 of 65 Report No.: SET2019-09281 GPRS 1900MHz Channel = 661, 30MHz to 1GHz GPRS 1900MHz Channel = 661, 1GHz to 20GHz CCIC-SET/T00 Page 33 of 65 Report No.: SET2019-09281 GPRS 1900MHz Channel = 810, 30MHz to 1GHz GPRS 1900MHz Channel = 810, 1GHz to 20GHz CCIC-SET/T00 Page 34 of 65 Report No.: SET2019-09281 EDGE 850MHz Channel = 128, 30MHz to 1GHz EDGE 850MHz Channel = 128, 1GHz to 9GHz CCIC-SET/T00 Page 35 of 65 Report No.: SET2019-09281 EDGE 850MHz Channel = 190, 30MHz to 1GHz EDGE 850MHz Channel = 190, 1GHz to 9GHz CCIC-SET/T00 Page 36 of 65 Report No.: SET2019-09281 EDGE 850MHz Channel = 251, 30MHz to 1GHz EDGE 850MHz Channel = 251, 1GHz to 9GHz CCIC-SET/T00 Page 37 of 65 Report No.: SET2019-09281 EDGE 1900MHz Channel = 512, 30MHz to 1GHz EDGE 1900MHz Channel = 512, 1GHz to 20GHz CCIC-SET/T00 Page 38 of 65 Report No.: SET2019-09281 EDGE 1900MHz Channel = 661, 30MHz to 1GHz EDGE 1900MHz Channel = 661, 1GHz to 20GHz CCIC-SET/T00 Page 39 of 65 Report No.: SET2019-09281 EDGE 1900MHz Channel = 810, 30MHz to 1GHz EDGE 1900MHz Channel = 810, 1GHz to 20GHz CCIC-SET/T00 Page 40 of 65 Report No.: SET2019-09281 WCDMA850MHz Channel = 4132, 30MHz to 1GHz WCDMA850MHz Channel = 4132, 1GHz to 9GHz CCIC-SET/T00 Page 41 of 65 Report No.: SET2019-09281 WCDMA850MHz Channel = 4183, 30MHz to 1GHz WCDMA850MHz Channel = 4183, 1GHz to 9GHz CCIC-SET/T00 Page 42 of 65 Report No.: SET2019-09281 WCDMA850MHz Channel = 4233, 30MHz to 1GHz WCDMA850MHz Channel = 4233, 1GHz to 9GHz CCIC-SET/T00 Page 43 of 65 Report No.: SET2019-09281 WCDMA1900MHz Channel = 9262, 30MHz to 1GHz WCDMA1900MHz Channel = 9262, 1GHz to 20GHz CCIC-SET/T00 Page 44 of 65 Report No.: SET2019-09281 WCDMA1900MHz Channel = 9400, 30MHz to 1GHz WCDMA1900MHz Channel = 9400, 1GHz to 20GHz CCIC-SET/T00 Page 45 of 65 Report No.: SET2019-09281 WCDMA1900MHz Channel = 9538, 30MHz to 1GHz WCDMA1900MHz Channel = 9538 1GHz to 20GHz CCIC-SET/T00 Page 46 of 65 Report No.: SET2019-09281 2.6 Bandedge 2.6.1 Requirement The power of any emission outside of the authorized operating frequency ranges must be lower than the transmitter power (P) by a factor of at least 43 + 10 log (P) dB. 2.6.2 Measuring Instruments The measuring equipment is listed in the section 3 of this test report. 2.6.3 Test Procedures 1. The testing follows FCC KDB 971168 D01 v03r01 Section 6.0. 2. The EUT was connected to the spectrum analyzer and system simulator via a power divider. 3. The RF output of EUT was connected to the spectrum analyzer by an RF cable and attenuator. The path loss was compensated to the results for each measurement. 4. The band GPRSs of low and high channels for the highest RF powers were measured. 5. The RF fundamental frequency should be excluded against the limit line in the operating frequency band. 6. The limit line is derived from 43 + 10log(P) dB below the transmitter power P(Watts)

= P(W) - [43 + 10log(P) ] (dB)

= [30 + 10log(P)] (dBm) - [43 + 10log(P) ] (dB)

= -13dBm. 2.6.4 Test Setup CCIC-SET/T00 Page 47 of 65 Report No.: SET2019-09281 2.6.5 Test Result of Conducted Bandedge

(Plot A: GPRS 850 Channel = 128)

(Plot B: GPRS 850 Channel = 251) CCIC-SET/T00 Page 48 of 65 Report No.: SET2019-09281

(Plot C: GPRS 1900 Channel = 512)

(Plot D: GPRS 1900 Channel = 810) CCIC-SET/T00 Page 49 of 65 Report No.: SET2019-09281

(Plot E: EDGE 850 Channel = 128)

(Plot F: EDGE 850 Channel = 251) CCIC-SET/T00 Page 50 of 65 Report No.: SET2019-09281

(Plot G: EDGE 1900 Channel = 512)

(Plot H: EDGE 1900 Channel = 810) CCIC-SET/T00 Page 51 of 65 Report No.: SET2019-09281

(Plot I: WCDMA 850 Channel = 4132)

(Plot J: WCDMA 850 Channel = 4233) CCIC-SET/T00 Page 52 of 65 Report No.: SET2019-09281

(Plot K: WCDMA 1900 Channel = 9262)

(Plot L: WCDMA 1900 Channel = 9538) CCIC-SET/T00 Page 53 of 65 Report No.: SET2019-09281 2.7 Transmitter Radiated Power (EIRP/ERP) 2.7.1 Requirement The substitution method, in ANSI / TIA / EIA-603-D-2010, was used for ERP/EIRP measurement, and the spectrum analyzer configuration follows KDB 971168 D01 Power Meas. License Digital Systems v03r01. The ERP of mobile transmitters must not exceed 7 Watts (Cellular Band) and the EIRP of mobile transmitters are limited to 2 Watts (PCS Band) and 1 Watts (AWS Band). 2.7.2 Measuring Instruments The measuring equipment is listed in the section 3 of this test report. 2.7.3 Test Procedures 1. The testing follows FCC KDB 971168 D01 v03r01 Section 5.2.1. (for CDMA/WCDMA), Section 5.2.2.2 (for GPRS/GPRS/GPRS) and ANSI / TIA-603-D-2010 Section 2.2.17. 2. The EUT was placed on a turntable 1.5 meters high in a fully anechoic chamber. 3. The EUT was placed 3 meters from the receiving antenna, which was mounted on the antenna tower. 4. GPRS operating modes: Set RBW= 1MHz, VBW= 3MHz, RMS detector over burst;

UMTS operating modes: Set RBW= 100 kHz, VBW= 300 kHz, RMS detector over frame, and use channel power option with bandwidth=5MHz, per KDB 971168 D01 v03r01. 5. The table was rotated 360 degrees to determine the position of the highest radiated power. 6. The height of the receiving antenna is adjusted to look for the maximum ERP/EIRP. 7. Taking the record of maximum ERP/EIRP. 8. A dipole antenna was substituted in place of the EUT and was driven by a signal generator. CCIC-SET/T00 Page 54 of 65 Report No.: SET2019-09281 9. The conducted power at the terminal of the dipole antenna is measured. 10. Repeat step 3 to step 5 to get the maximum ERP/EIRP of the substitution antenna. 11. ERP/EIRP = Ps + Et Es + Gs = Ps + Rt Rs + Gs Ps (dBm)Input power to substitution antenna. Gs (dBi or dBd)Substitution antenna Gain. Et = Rt + AF Es = Rs + AF AF (dB/m)Receive antenna factor RtThe highest received signal in spectrum analyzer for EUT. RsThe highest received signal in spectrum analyzer for substitution antenna. 2.7.4 Test Setup CCIC-SET/T00 Page 55 of 65 Report No.: SET2019-09281 2.7.5 Test Result of Transmitter Radiated Power Test Notes:

1. This device employs GMSK technology with GPRS capabilities. All configurations were investigated and the worst case emissions were found in GPRS mode. 2. This device employs UMTS technology with WCDMA (AMR/RMC), HSDPA, HSUPA capabilities. All configurations were investigated and the worst case UMTS emissions were found in RMC WCDMA mode at 12.2Kbps. 3. This unit was tested with its standard battery. 4. The worst case test configuration was found in the vertical positioning where the EUT is laying on its side. The data reported in the tables below were measured in this test setup. Band Channel Frequency

(MHz) PCL GPRS 850MHz 128 190 251 824.20 836.60 848.80 5 5 5 Antenna Pol Measured ERP

(H/V) H V H V H V dBm 31.58 29.68 31.12 29.07 31.43 28.98 Band Channel Frequency

(MHz) PCL GPRS 1900MHz 512 661 810 1850.2 1880.0 1909.8 0 0 0 Antenna Pol Measured EIRP

(H/V) H V H V H V dBm 28.04 26.23 28.21 26.17 28.24 26.20 Limit dBm Verdict PASS 38.5 PASS Limit dBm PASS Verdict PASS 33 PASS PASS CCIC-SET/T00 Page 56 of 65 Report No.: SET2019-09281 Band Channel Frequency

(MHz) PCL EDGE 850MHz 128 190 251 824.20 836.60 848.80 5 5 5 Antenna Pol Measured ERP

(H/V) H V H V H V dBm 25.72 24.35 25.58 24.65 25.55 24.07 Band Channel Frequency

(MHz) PCL EDGE 1900MHz 512 661 810 1850.2 1880.0 1909.8 0 0 0 Antenna Pol Measured EIRP

(H/V) H V H V H V dBm 24.24 23.40 24.78 23.20 24.56 23.21 Limit dBm 38.5 Limit dBm 33 Verdict PASS PASS PASS Verdict PASS PASS PASS Frequency Antenna Pol Measured ERP Band Channel 4132

(MHz) 826.4 WCDMA 850MHz 4175 835 4233 846.6 Band Channel

(MHz) WCDMA 1900MHz 9262 1852.4 9400 1880 9538 1907.6

(H/V) H V H V H V dBm 23.21 21.79 23.24 22.01 23.18 21.42

(H/V) H V H V H V dBm 22.20 21.00 22.19 21.23 22.04 21.05 Frequency Antenna Pol Measured EIRP Limit dBm Verdict PASS 38.5 PASS PASS Verdict PASS Limit dBm 33 PASS PASS CCIC-SET/T00 Page 57 of 65 Report No.: SET2019-09281 Radiated Spurious Emissions 2.8 2.8.1 Requirement The power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitter power (P) by a factor of at least 43 + 10 log (P) dB. The spectrum is scanned from 30 MHz up to a frequency including its 10th harmonic. 2.8.2 Measuring Instruments The measuring equipment is listed in the section 3 of this test report. 2.8.3 Test Setup For radiated emissions from 9 kHz to 30MHz CCIC-SET/T00 Page 58 of 65 Report No.: SET2019-09281 For radiated emissions from 30MHz to 1GHz For radiated emissions above 1GHz CCIC-SET/T00 Page 59 of 65 Report No.: SET2019-09281 2.8.4 Test Procedures 1. The testing follows FCC KDB 971168 D01 v03r01 Section 5.8 and ANSI /

TIA-603-D-2010 Section 2.2.12. 2. The EUT was placed on a rotatable wooden table 0.8 meters above the ground. 3. The EUT was set 3 meters from the receiving antenna, which was mounted on the antenna tower. 4. The table was rotated 360 degrees to determine the position of the highest spurious emission. 5. The height of the receiving antenna is varied between one meter and four meters to search for the maximum spurious emission for both horizontal and vertical polarizations. 6. Make the measurement with the spectrum analyzer's RBW = 1MHz, VBW = 3MHz, taking record of maximum spurious emission. 7. A horn antenna was substituted in place of the EUT and was driven by a signal generator. 8. Tune the output power of signal generator to the same emission level with EUT maximum spurious emission. 9. Taking the record of output power at antenna port. 10. Repeat step 7 to step 8 for another polarization. 11. The RF fundamental frequency should be excluded against the limit line in the operating frequency band. 12. The limit line is derived from 43 + 10log(P) dB below the transmitter power P(Watts)

= P(W) - [43 + 10log(P)] (dB)

= [30 + 10log(P)] (dBm) - [43 + 10log(P)] (dB)

= -13dBm. 13. This device employs GMSK technology with GPRS and GPRS capabilities. All configurations were investigated and the worst case emissions were found in GPRS mode. 14. This device employs UMTS technology with WCDMA (AMR/RMC), HSDPA, HSUPA capabilities. All configurations were investigated and the worst case UMTS emissions were found in RMC WCDMA mode at 12.2Kbps. 15. This unit was tested with its standard battery. CCIC-SET/T00 Page 60 of 65 Report No.: SET2019-09281 16. All Spurious Emission tests were performed in X, Y, Z axis direction and low, middle, high channel. And only the worst axis test condition was recorded in this test report. 17. The spectrum is measured from 9 KHz to the 10th harmonic of the fundamental frequency of the transmitter using CISPR quasi peak detector below 1GHz. The worst case emissions are reported however emissions whose levels were not within 20dB of the respective limits were not reported. 18. For 9KHz to 30MHz: the amplitude of spurious emissions are attenuated by more than 20dB below the permissible value has no need to be reported. CCIC-SET/T00 Page 61 of 65 Report No.: SET2019-09281 2.8.5 Test Results of Radiated Spurious Emissions Worst-Case test data provide as below:

Note: 1. within 30MHz-1GHz were found more than 20dB below limit line Note: 2. Absolute Level=Reading Level + Factor GPRS 850 (Mid Channel) Suspected List NO. Freq.

[MHz]

1 53.9346 2 79.8099 3 1672.33 4 3197.09 5 3873.43 6 6898.94 Suspected List NO. 1 2 3 4 5 6 Freq.

[MHz]

61.3738 80.7803 2448.72 3197.09 4021.51 6810.90 Reading Absolute Level

[dBm]

-87.58

-93.09

-46.35

-55.00

-53.59

-54.94 Level

[dBm]

-68.83

-74.56

-43.91

-42.34

-40.56

-35.43 Reading Absolute Limit

[dBm]

-13.00

-13.00

-13.00

-13.00

-13.00

-13.00 Margin

[dB]

Factor

[dB]

55.83 61.56 30.91 29.34 27.56 22.43 18.75 18.53 2.44 12.66 13.03 19.51 Polarity Horizontal Horizontal Horizontal Horizontal Horizontal Horizontal Level

[dBm]

-93.19

-93.45

-53.31

-54.39

-53.21

-54.45 Level

[dBm]

-73.69

-71.85

-44.99

-41.61

-40.09

-36.18 Limit

[dBm]

Margin

[dB]

Factor

[dB]

-13.00

-13.00

-13.00

-13.00

-13.00

-13.00 60.69 58.85 31.99 28.61 27.09 23.18 19.50 21.60 8.32 12.78 13.12 18.27 Polarity Vertical Vertical Vertical Vertical Vertical Vertical Worst-Case test data provide as below:

30MHz~20GHz:

PCS1900 (Mid Channel) Suspected List NO. 1 2 3 4 5 6 Freq.

[MHz]

34.8516 53.9346 1480.82 3211.07 6500.16 13994.6 Reading Absolute Level

[dBm]

-96.75

-86.90

-50.86

-54.11

-55.50

-58.39 Level

[dBm]

-74.63

-68.35

-49.44

-40.78

-36.02

-30.10 Limit

[dBm]

-13.00

-13.00

-13.00

-13.00

-13.00

-13.00 Margin

[dB]

Factor

[dB]

61.63 55.35 36.44 27.78 23.02 17.10 22.12 18.55 1.42 13.33 19.48 28.29 Polarity Horizontal Horizontal Horizontal Horizontal Horizontal Horizontal CCIC-SET/T00 Page 62 of 65 Report No.: SET2019-09281 Suspected List NO. 1 2 3 4 5 6 Freq.

[MHz]

53.9346 79.8099 3221.07 6604.20 10817.6 14090.6 Reading Absolute Level

[dBm]

-89.41

-92.32

-53.87

-54.46

-55.81

-56.22 Level

[dBm]

-70.82

-71.03

-40.71

-35.91

-33.29

-29.94 Limit

[dBm]

-13.00

-13.00

-13.00

-13.00

-13.00

-13.00 Margin

[dB]

Factor

[dB]

57.82 58.03 27.71 22.91 20.29 16.94 18.59 21.29 13.16 18.55 22.52 26.28 Polarity Vertical Vertical Vertical Vertical Vertical Vertical Worst-Case test data provide as below:

30MHz~10GHz:

WCDMA Band V (Middle Channel) Suspected List NO. Freq.

[MHz]

1 79.5195 2 1670.33 3 3220.61 4 4034.01 5 7092.54 6 12633.3 Suspected List NO. 1 2 3 4 5 6 Freq.

[MHz]

79.5195 1671.33 2382.69 3219.10 6570.28 15232.6 Reading Absolute Level

[dBm]

-91.59

-47.26

-54.59

-53.41

-55.30

-56.52 Level

[dBm]

-73.06

-44.86

-41.45

-40.15

-36.02

-31.24 Reading Absolute Level

[dBm]

-90.84

-49.20

-53.96

-53.70

-54.05

-57.83 Level

[dBm]

-69.38

-46.72

-45.19

-40.49

-35.51

-29.66 Limit

[dBm]

-13.00

-13.00

-13.00

-13.00

-13.00

-13.00 Limit

[dBm]

-13.00

-13.00

-13.00

-13.00

-13.00

-13.00 Margin

[dB]

Factor

[dB]

60.06 31.86 28.45 27.15 23.02 18.24 18.53 2.40 13.14 13.26 19.28 25.28 Margin

[dB]

Factor

[dB]

56.38 33.72 32.19 27.49 22.51 16.66 21.46 2.48 8.77 13.21 18.54 28.17 Polarity Horizontal Horizontal Horizontal Horizontal Horizontal Horizontal Polarity Vertical Vertical Vertical Vertical Vertical Vertical Worst-Case test data provide as below:

CCIC-SET/T00 Page 63 of 65 Report No.: SET2019-09281 30MHz~20GHz:

WCDMA Band II (Mid Channel) Suspected List NO. Freq.

[MHz]

53.3033 80.4905 3169.58 3996.49 6876.43 13995.9 1 2 3 4 5 6 Suspected List NO. 1 2 3 4 5 6 Freq.

[MHz]

60.1001 79.5195 3199.59 3819.40 6696.34 14302.1 Reading Absolute Level

[dBm]

-88.81

-86.64

-53.68

-53.22

-55.08

-59.03 Level

[dBm]

-70.24

-68.31

-40.82

-39.83

-35.76

-30.70 Reading Absolute Level

[dBm]

-92.61

-91.99

-54.87

-53.05

-54.77

-57.37 Level

[dBm]

-73.47

-70.73

-41.20

-39.95

-36.46

-30.39 Limit

[dBm]

-13.00

-13.00

-13.00

-13.00

-13.00

-13.00 Limit

[dBm]

-13.00

-13.00

-13.00

-13.00

-13.00

-13.00 Margin

[dB]

Factor

[dB]

57.24 55.31 27.82 26.83 22.76 17.70 18.57 18.33 12.86 13.39 19.32 28.33 Margin

[dB]

Factor

[dB]

60.47 57.73 28.20 26.95 23.46 17.39 19.14 21.26 13.67 13.10 18.31 26.98 Polarity Horizontal Horizontal Horizontal Horizontal Horizontal Horizontal Polarity Vertical Vertical Vertical Vertical Vertical Vertical Worst-Case test data provide as below:

CCIC-SET/T00 Page 64 of 65 Report No.: SET2019-09281 3. LIST OF MEASURING EQUIPMENT Description EMI Test Receiver Manufactu rer R&S Loop Antenna Schwarz beck Model ESIB26 HFH2-Z2 Serial No. Cal. Date Due Date Remark A0304218 100047 2018.09.03 2019.04.26 2019.09.20 2022.04.25 Radiation Radiation Broadband antenna

(30MHz~1GHz) Broadband antenna

(30MHz~1GHz) Double ridge horn R&S R&S HL562 101341 2017.07.14 2020.07.13 Radiation HL562 101339 2017.07.14 2020.07.13 Radiation antenna R&S HF906 100150 2019.04.27 2022.04.26 Radiation

(1GHz~18GHz) Double ridge horn antenna R&S HF906 100149 2019.04.17 2022.04.16 Radiation

(1GHz~18GHz) Horn antenna

(18GHz~26.5GHz) Horn antenna

(18GHz~26.5GHz) Amplifier 1GHz-18GHz Ampilier 20M~3GHz Spectrum Analyzer LISN Test Receiver Temperature chamber Wideband Radio Communication tester Power Supply AR AR AR AT4002A 305753 2017.11.10 2020.11.09 Radiation AT4003A 0329293 2018.09.17 2020.09.16 Radiation 25S1G4AM1 22018 2018.09.17 2020.09.16 Radiation MILMEGA 80RF1000-250 1064573 2017.10.09 2020.10.08 Radiation KEYSIGHT ROHDE&SC HWARZ R&S Dongguan gaoda instrument CO.LTD R&S R&S N9030A A160702554 2018.11.15 2019.11.14 Conducted ESH2-Z5 A0304221 2019.04.30 2020.04.29 Conducted ESCS30 A0304260 2019.05.25 2020.05.24 Conducted GD-7005-100 130130101 2019.04.22 2020.04.21 Conducted CMW500 149332 2019.04.01 2020.03.31 Conducted 101037 NGMO1

** END OF REPORT **

2018.08.06 2019.08.05 Conducted CCIC-SET/T00 Page 65 of 65