FCC ID: Q78-ZTEMF190 HSUPA USB Stick

MF190 USB Modem Quick Guide ZTE CORPORATION NO. 55, Hi-tech Road South, ShenZhen, P.R.China Postcode: 518057 LEGAL INFORMATION Copyright 2010 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 C h a p t e r 1 Quick Guide Introduction ZTE USB modem in The HSUPA/HSDPA/WCDMA/EDGE/GPRS/GSM networks. With USB interface connecting to a laptop or a desktop PC, it integrates the functionality of a modem and a mobile phone (SMS), and combines mobile communication with Internet perfectly. It supports data and SMS services through the mobile phone network, enabling you to communicate anytime and anywhere. multi-mode working modem, USB is a Specification The following table shows the specification of your device. Interface Type Systems supported Operating systems supported Functions Network Standards Transmission speed (Max) Temperature Dimension Weight USB 2.0 HIGH SPEED Supports most types of laptop and desktop PC. Windows XP, Vista, 7 MAC OS X SMS service, Data service, Applications management, etc. HSUPA/HSDPA/WCDMA/EDGE/GPRS/GSM HSUPA: 5.76Mbps UL HSDPA: 7.2Mbps DL Storage: -40 ~ +80 Operation:-10 ~ +60 76mm26mm11mm About 26g Getting to know your device The following figure shows the appearance of the MF190. It is only for your reference. The actual product may be different. Confidential and Proprietary Information of ZTE CORPORATION 1 MF190 Quick Guide 1. Indicator 2. Front Cover 3. Modem Cap 4. SIM/USIM card slot 5. USB Connector Hardware Installation 1. Put finger on the bottom finger grip, and then lift the front cover of the modem to release and remove. Notes:

Do not open the front cover rudely so as to avoid the damage of the front cover. 2. Insert the SIM/USIM card into the SIM/USIM card slot. Insert the SIM/USIM card with the metal contact area facing downwards into the slot, and then push SIM/USIM card as far as possible, shown as the following picture. 2 Confidential and Proprietary Information of ZTE CORPORATION MF190 Quick Guide 3. Put the front cover of the modem flatly upon the body of modem. Direct the front cover towards the locking catches on the sides of the modem and push the front cover of the modem to lock the front cover into its place. 4. Connect the Modem to your laptop or desktop PC. Plug the USB connector into your computers USB port and make sure that it is tightly inserted. The OS automatically detects and recognizes new hardware and starts the installation wizard. Software Installation Guide On different operating systems, the installation procedures may be difference. Follow the system prompts during operation. For Windows OS Your system will start the software setup process automatically when you connect the modem to your Confidential and Proprietary Information of ZTE CORPORATION 3 MF190 Quick Guide computer correctly. Follow the system prompts to complete the software installation. Notes:

If the system does not launch installation automatically, you can run the installation program in path of My Computer > ZTEMODEM. For Mac OS The system will automatically display a ZTEMODEM CD-ROM icon on the desktop, when you connect the modem to your computer correctly. Double click the installation software package in the ZTEMODEM, and follow the system prompts to complete the software installation. Safe removal from your system Please close the application software, and then you can pull out the USB Modem safely. How to use your modem Various icons are presented to enable quick operation of the following functions:

Connect SMS Phonebook Settings Connect to the Internet. Click New button, enter recipients number and content, and then click Send to send new message. Click New to fill in a new contact person and contact details. Set the configuration for the USB modem. Data records Show the connection information. Warning and Notice To the owner Some electronic devices are susceptible to electromagnetic interference sent by modem if inadequately shielded, such as the electronic system of vehicles. Please consult the manufacturer of the device before using the modem if necessary. Operating of laptop and desktop PCs and the modem may interfere with medical devices like hearing aids and pacemakers. Please always keep them more than 20 centimeters away from such medical devices when they are turned on. Turn the modem off if necessary. Consult a physician or the manufacturer of the medical device before using the modem. Be aware of the usage limitation when using a modem at places such as oil warehouses or chemical factories, where there are explosive gases or explosive products being processed. Turn off your modem if required. The use of electronic transmitting devices is forbidden in aircrafts, at petrol stations and in hospitals. Please observe and obey all warning signs and switch off your modem in these conditions. 4 Confidential and Proprietary Information of ZTE CORPORATION MF190 Quick Guide Do not touch the inner antenna area if not necessary. Otherwise it will affect your modems performance. Store the modem out of the reach of little children. The modem may cause injury if used as a toy. Do not touch the metallic parts of the modem so as to avoid a burn, when the modem is working. Using your USB Modem Please use original accessories or accessories that are authorized. Using any unauthorized accessories may affect your modems performance, and violate related national regulations about telecom terminals. Avoid using the modem near or inside metallic structures or establishments that can emit electromagnetic waves. Otherwise it may influence signal reception. The modem is not waterproof. Please keep it dry and store in a shady and cool place. Do not use the modem immediately after a sudden temperature change. In such case, it will produce dew inside and outside the modem, so dont use it until it becomes dry. Handle the modem carefully. Do not drop, bend or strike it. Otherwise the modem will be damaged. No dismantling by non-professionals and only qualified technicians can undertake repair work. Operating temperature range of -10 ~ +60 and humidity range of 5% ~ 95% are recommended. 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 made by ZTE or a ZTE-certified individual. v. Power failures, surges, fire, flood, accidents, 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 provided that such defects are due to the combined usage. vii. Any other cause beyond the range of normal usage intended for the Product. End User shall 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. 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, 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. Confidential and Proprietary Information of ZTE CORPORATION 5 FCC Compliance MF190 Quick Guide 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 Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:

Reorient or relocate the receiving antenna. Increase the separation between the equipment and receiver. Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. Consult the dealer or an experienced radio/TV technician for help. Changes or modifications not expressly approved by the party responsible for compliance could void the users authority to operate the equipment. The antenna(s) used for this transmitter must not be co-located or operating in conjunction with any other antenna or transmitter. Radio Frequency (RF) Energy This model device meets the governments requirements for exposure to radio waves. 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 U.S. Government:

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 1.6W/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. Although the SAR is determined at the highest certified power level, the actual SAR level of the device while operating can be well below the maximum value. This is because the device is designed to operate at multiple power levels so as to use only the poser required to reach the network. In general, the closer you are to a wireless base station antenna, the lower the power output. The highest SAR value for the model device as reported to the FCC when worn on the body, as described in this user guide, is 1.14W/kg (Body-worn measurements differ among device models, depending upon available enhancements and FCC requirements.) While there may be differences between the SAR levels of various devices and at various positions, they all meet the government requirement. 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 http://www.fcc.gov/oet/fccid after searching on FCC ID: Q78-ZTEMF190. For body worn operation, this modem has been tested and meets the FCC RF exposure guidelines for use 6 Confidential and Proprietary Information of ZTE CORPORATION MF190 Quick Guide with an accessory that contains no metal and the positions the handset a minimum of 0.5 cm from the body. Use of other enhancements may not ensure compliance with FCC RF exposure guidelines. How to get help You can get Help by:

Clicking Help on the software. Sending E-mail to mobile@zte.com.cn Visiting http://www.zte.com.cn Calling Service Hotline: +8675526779999 Confidential and Proprietary Information of ZTE CORPORATION 7

ZTE CORPORATION ZTE Plaza, Keji Road South, Hi-Tech Industrial Park, Nanshan District, Shenzhen, Guangdong, 518057, P.R.China Date: Jun 17, 2010 Federal Communications Commission Office of Engineering and Technology Equipment Authorization Division 7345 Oakland Mills Road Columbia, Maryland 21046 Subject: Permanent Confidentiality request for FCC ID: Q78-ZTEMF190 To Whom It May Concern, Pursuant to sections 0.457 and 0.459 of CFR 47, the applicant requests permanent confidential treatment of the following information accompanying this application:

- Block Diagram

- Schematics

- Operational Description

- BOM list/Tune-Up-Procedure The above materials contain trade secrets and proprietary information not customarily released to the public. The public disclosure of these matters might be harmful to the applicant and provide unjustified benefits to its competitors. Sincerely yours, Royce Wang ZTE CORPORATION Tel: 0755-26770345 Fax: 0755-26770347 E-Mail: wang.zhihui@zte.com.cn 1 1

ZTE CORPORATION ZTE Plaza, Keji Road South, Hi-Tech Industrial Park, Nanshan District, Shenzhen, Guangdong, 518057, P.R.China Date: Jun 17, 2010 To:

Federal Communications Commission, Authorization & Evaluation Division, 7435 Oakland Mills Road, Columbia, MD 21046 And American Telecommunications Certification Body, Inc. 6731 Whittier Avenue Suite C110 McLean, VA 22101 To Whom It May Concern:

TMC(Telecommunication Metrology Center of MII) is authorized to act on our behalf, until otherwise notified, for applications to American Telecommunications Certification Body, Inc. (ATCB). We certify that we are not subject to denial of federal benefits, that includes FCC benefits, pursuant to Section 5301 of the Anti-Drug Abuse Act of 1988, U.S.C. 862. Further, no party, as defined in 47 CFR 1.2002 (b) to the application is subject to denial of federal benefits, that includes FCC benefits. Thank you. Sincerely yours, Royce Wang ZTE CORPORATION Tel: 0755-26770345 Fax: 0755-26770347 E-Mail: wang.zhihui@zte.com.cn 1 1

No.2010TAR232 Page1 of 71 TEST REPORT No. 2010TAR232 for ZTE CORPORATION HSUPA USB Stick Model Name: MF190 FCC ID : Q78-ZTEMF190 with Hardware Version: dg5A Software Version: EN_ZTE_MF190V1.0.0B01 Issued Date: June 12th, 2010 Note:

The test results in this test report relate only to the devices specified in this report. This report shall not be reproduced except in full without the written approval of TMC Beijing. Test Laboratory:

DAR accreditation (DIN EN ISO/IEC 17025): No. DGA-PL-114/01-02 FCC 2.948 Listed: No.733176 IC O.A.T.S listed: No.6629A-1 TMC Beijing, Telecommunication Metrology Center of Ministry of Industry and Information Technology 3/F Shou Xiang Technology Building, No.51 Xueyuan Road, Hai Dian District, Beijing, P. R. China,100191. Tel:+86(0)10-62304633-2604, Fax:+86(0)10-62304793, Email:welcome@emcite.com, web: www.emcite.com CONTENTS No.2010TAR232 Page2 of 71 1. TEST LABORATORY ............................................................................................................... 3 1.1. TESTING LOCATION ........................................................................................................... 3 1.2. TESTING ENVIRONMENT ................................................................................................... 3 1.3. PROJECT DATA ................................................................................................................... 3 1.4. SIGNATURE .......................................................................................................................... 3 2. CLIENT INFORMATION ........................................................................................................... 4 2.1. APPLICANT INFORMATION ................................................................................................ 4 2.2. MANUFACTURER INFORMATION ...................................................................................... 4 3. EQUIPMENT UNDER TEST (EUT) AND ANCILLARY EQUIPMENT (AE) ............................ 5 3.1. ABOUT EUT .......................................................................................................................... 5 3.2. INTERNAL IDENTIFICATION OF EUT USED DURING THE TEST ................................... 5 3.3. GENERAL DESCRIPTION ................................................................................................... 5 4. REFERENCE DOCUMENTS .................................................................................................... 6 4.1. REFERENCE DOCUMENTS FOR TESTING....................................................................... 6 5. LABORATORY ENVIRONMENT .............................................................................................. 7 6. SUMMARY OF TEST RESULTS .............................................................................................. 8 7. TEST EQUIPMENTS UTILIZED ............................................................................................... 9 ANNEX A: MEASUREMENT RESULTS ....................................................................................... 10 A.1 OUTPUT POWER .............................................................................................................. 10 A.2 EMISSION LIMT ................................................................................................................. 15 A.3 FREQUENCY STABILITY .................................................................................................. 29 A.4 OCCUPIED BANDWIDTH .................................................................................................. 31 A.5 EMISSION BANDWIDTH ................................................................................................... 43 A.6 BAND EDGE COMPLIANCE .............................................................................................. 55 A.7 CONDUCTED SPURIOUS EMISSION .............................................................................. 61 1. Test Laboratory No.2010TAR232 Page3 of 71 1.1. Testing Location Company Name:

TMC Beijing, Telecommunication Metrology Center of MIIT Address:

3/F Shou Xiang Technology Building, No.51 Xueyuan Road, Hai Dian District, Beijing, P. R. China Postal Code:

Telephone:

Fax:

100191 00861062304633 00861062304793 1.2. Testing Environment Normal Temperature:

15-35 Relative Humidity:

20-75%

1.3. Project data Testing Start Date:

May 25, 2010 Testing End Date:

June 12, 2010 1.4. Signature Zi Xiaogang

(Prepared this test report) Sun Xiangqian

(Reviewed this test report) Lu Bingsong Deputy Director of the laboratory

(Approved this test report) 2. Client Information 2.1. Applicant Information Company Name:

ZTE CORPORATION No.2010TAR232 Page4 of 71 Address /Post:

City:

Postal Code:

Country:

Telephone:

Fax:

ZTE Plaza, Keji Road South, Hi-Tech Industrial Park, Nanshan District, Shenzhen, Guangdong, 518057, P.R.China Shenzhen 518057 China 0086 21 68895196 0086 21 61460600 2.2. Manufacturer Information Company Name:

ZTE CORPORATION Address /Post:

City:

Postal Code:

Country:

Telephone:

Fax:

ZTE Plaza, Keji Road South, Hi-Tech Industrial Park, Nanshan District, Shenzhen, Guangdong, 518057, P.R.China Shenzhen 518057 China 0086 21 68895196 0086 21 61460600 No.2010TAR232 Page5 of 71 3. Equipment Under Test (EUT) and Ancillary Equipment (AE) 3.1. About EUT Description HSUPA USB Stick Model Name MF190 FCC ID Frequency Antenna Power supply Output power Q78-ZTEMF190 GSM 850MHz; PCS 1900MHz; WCDMA Band II; WCDMA Band V Internal USB 25.24 dBm maximum EIRP measured for GSM1900 Extreme vol. Limits 4.8VDC to 5.2VDC (nominal: 5VDC) Extreme temp. Tolerance

-30C to +50C Note: Components list, please refer to documents of the manufacturer; it is also included in the original test record of Telecommunication Metrology Center of MIIT of Peoples Republic of China. 3.2. Internal Identification of EUT used during the test EUT ID* SN or IMEI HW Version SW Version N01 N02

/

/

dg5A dg5A EN_ZTE_MF190V1.0.0B01 EN_ZTE_MF190V1.0.0B01

*EUT ID: is used to identify the test sample in the lab internally. 3.3. General Description The Equipment Under Test (EUT) is a model of HSUPA USB Stick with integrated antenna. Manual and specifications of the EUT were provided to fulfil the test. Samples undergoing test were selected by the Client. No.2010TAR232 Page6 of 71 4. Reference Documents 4.1. Reference Documents for testing The following documents listed in this section are referred for testing. Reference Title FCC Part 24 PERSONAL COMMUNICATIONS SERVICES FCC Part 22 PUBLIC MOBILE SERVICES Version V 10.1.09 V 10.1.09 ANSI/TIA-603-C Land Mobile FM or PM Communications Equipment 2004 Measurement and Performance Standards ANSI C63.4 Methods of Measurement of Radio-Noise Emissions from 2003 Low-Voltage Electrical and Electronic Equipment in the Range of 9 kHz to 40 GHz No.2010TAR232 Page7 of 71 5. LABORATORY ENVIRONMENT Semi-anechoic chamber (23 meters17meters10meters) did not exceed following limits along the EMC testing:

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

> 110 dB

> 10 k

< 0.5 Normalised site attenuation (NSA)

< 3.2 dB, 10 m distance, from 30 to 1000 MHz Uniformity of field strength Between 0 and 6 dB, from 80 to 2000 MHz Control room did not exceed following limits along the EMC testing:

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

> 110 dB

> 10 k

< 0.5 Conducted chamber did not exceed following limits along the EMC testing:

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

> 110 dB

> 10 k

< 0.5 Fully-anechoic chamber (6.8 meters3.08 meters3.53 meters) did not exceed following limits along the EMC testing:

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

> 110 dB

> 10 k

< 0.5 Uniformity of field strength Between 0 and 6 dB, from 80 to 2000 MHz No.2010TAR232 Page8 of 71 6. SUMMARY OF TEST RESULTS Items 1 2 3 4 5 6 7 List Clause in FCC rules Verdict Output Power Emission Limit Frequency Stability Occupied Bandwidth Emission Bandwidth Band Edge Compliance 22.913(a)/24.232(b) 2.1051/22.917/24.238 2.1055/24.235 2.1049(h)(i) 22.917(b)/24.238(b) 22.917(b)/24.238(b) Conducted Spurious Emission 2.1057/22.917/24.238 P P P P P P P 7. Test Equipments Utilized No.2010TAR232 Page9 of 71 NO. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 NAME Test Receiver Test Receiver BiLog Antenna BiLog Antenna Signal Generator Signal Generator TYPE ESS ESI40 3142B 3142B SMT06 SMP04 SERIES NUMBER 847151/015 831564/002 9908-1403 9908-1405 831285/005 100070 LISN ESH2-Z5 829991/012 Spectrum Analyzer FSU26 200030 CMU200 100680 PRODUCER R&S R&S EMCO EMCO R&S R&S R&S R&S R&S Universal Radio Communication Tester Dual-Ridge Waveguide Horn Antenna Dual-Ridge Waveguide Horn Antenna Dual-Ridge Waveguide Horn Antenna Dual-Ridge Waveguide Horn Antenna 3115 9906-5827 EMCO 3115 9906-5831 EMCO 3116 3116 2663 EMCO 2661 EMCO CAL DUE DATE 2010-10-30 2011-2-10 2011-1-15 2010-9-19 2010-12-25 2011-4-19 2010-8 2010-6-18 2010-8-23 2011-3 2011-3 2011-3 2011-3 Climatic chamber PL-2G 343074 ESPEC 2011-5-14 ANNEX A: MEASUREMENT RESULTS A.1 OUTPUT POWER A.1.1 Summary No.2010TAR232 Page10 of 71 During the process of testing, the EUT was controlled via Rhode & Schwarz Digital Radio Communication tester (CMU-200) to ensure max power transmission and proper modulation. This result contains peak output power and EIRP measurements for the EUT. In all cases, output power is within the specified limits. A.1.2 Conducted A.1.2.1 Method of Measurements The EUT was set up for the max output power with pseudo random data modulation. The power was measured with Rhode & Schwarz Spectrum Analyzer FSU (peak) These measurements were done at 3 frequencies, 1850.2 MHz, 1880.0MHz and 1909.8MHz for PCS1900 band;824.4MHz, 836.6MHz and 848.8MHz for GSM850 band. (bottom, middle and top of operational frequency range). GSM850 Limit Power step Nominal Peak output power (dBm) Tolerance (dB) GSM GPRS EGPRS 5 3 6 33dBm(2W) 33dBm(2W) 27dBm(0.5W) 2 2 2 Target

(dB) 331 331 271 Measurement result GSM Frequency(MHz) Power Step Peak output power(dBm) 824.2 836.6 848.8 GPRS 5 5 5 32.28 32.27 32.17 Frequency(MHz) Power Step Peak output power(dBm) 824.2 836.6 848.8 EGPRS 3 3 3 31.82 31.88 31.80 Frequency(MHz) Power Step Peak output power(dBm) 824.2 836.6 848.8 6 6 6 27.17 27.17 27.15 No.2010TAR232 Page11 of 71 Nominal Peak output power (dBm) 30dBm(1W) 30dBm(1W) 26 dBm(0.4W) Tolerance (dB) 2 2 2 Target

(dB) 301 301 251.5 PCS1900 Limit Power step GSM GPRS EGPRS 0 3 5 Measurement result GSM Frequency(MHz) Power Step Peak output power(dBm) 1850.2 1880.0 1909.8 GPRS 0 0 0 29.80 29.90 29.80 Frequency(MHz) Power Step Peak output power(dBm) 1850.2 1880.0 1909.8 EGPRS 3 3 3 29.85 29.80 29.37 Frequency(MHz) Power Step Peak output power(dBm) 1850.2 1880.0 1909.8 5 5 5 24.14 24.11 23.76 A.1.3 Radiated A.1.3.1 Description No.2010TAR232 Page12 of 71 This is the test for the maximum radiated power from the EUT. Rule Part 24.232(b) specifies, "Mobile/portable stations are limited to 2 watts e.i.r.p. Peak power"

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

Rule Part 22.913(a) specifies Maximum ERP. The effective radiated power (ERP) of base transmitters and cellular repeaters must not exceed 500 Watts. The ERP of mobile transmitters and auxiliary test transmitters must not exceed 7 Watts. A.1.3.2 Method of Measurement The measurements procedures in TIA-603C-2004 are used. 1. In an anechoic antenna test chamber, a half-wave dipole antenna for the frequency band of interest is placed at the reference centre of the chamber. An RF Signal source for the frequency band of interest is connected to the dipole with a cable that has been constructed to not interfere with the radiation pattern of the antenna. A known (measured) power (Pin) is applied to the input of the dipole, and the power received (Pr) at the chamber's probe antenna is recorded. 2. The substitution method is used. Substitution values at each frequency are measured before and saved to the test software. A "reference path loss" is established as ARpl=Pin - Pr. The ARpl is the attenuation of reference path loss, and including the gain of receive antenna, the cable loss and the air loss. The measurement results are obtained as described below:

Power(EIRP)=PMea+ARpl 3. The EUT is substituted for the dipole at the reference centre of the chamber and a scan is performed to obtain the radiation pattern. 4. From the radiation pattern, the co-ordinates where the maximum antenna gain occurs are identified. 5. The EUT is then put into continuously transmitting mode at its maximum power level. 6. Power mode measurements are performed with the receiving antenna placed at the coordinates determined in Step 3 to determine the output power as defined in Rule 24.232 (b) and (c). The "reference path loss" from Step1 is added to this result. 7. This value is EIRP since the measurement is calibrated using a half-wave dipole antenna of known gain (2.15 dBi) and known input power (Pin). 8. ERP can be calculated from EIRP by subtracting the gain of the dipole, ERP = EIRP -2.15dBi. 9. The test system should be checked before test by a standard comb signal source. The signal source put on the position, instead of the EUT. The test result should be compared with the test result before. If the test result is similar with the initial one, then the test system can work stably. GSM 850-ERP 22.913(a) Limits No.2010TAR232 Page13 of 71 GSM GPRS EGPRS Measurement result GSM Frequency(MHz) Power Step Burst Peak ERP (dBm) 5 3 6 38.45dBm (7W) 38.45dBm (7W) 38.45dBm (7W) Power Peak ARpl Correction PMea(dBm) Polarization Step ERP(dBm)

(dBm)

(dBm) 824.2 836.6 848.8 5 5 5 22.03 23.21 23.28 45.95 45.98 45.82 2.15 2.15 2.15

-21.77

-20.62

-20.39 Horizontal Horizontal Horizontal GPRS Frequency(MHz) Power Peak ARpl Correction PMea(dBm) Polarization Step ERP(dBm)

(dBm)

(dBm) 824.2 836.6 848.8 3 3 3 20.11 20.81 19.96 45.95 45.98 45.82 2.15 2.15 2.15

-23.69

-23.02

-23.71 Horizontal Horizontal Horizontal EGPRS Frequency(MHz) Power Peak ARpl Correction PMea(dBm) Polarization Step ERP(dBm)

(dBm)

(dBm) 824.2 836.6 848.8 6 6 6 14.39 15.27 14.9 45.95 45.98 45.82 2.15 2.15 2.15

-29.41

-28.56

-28.77 Horizontal Horizontal Horizontal Frequency: 848.8MHz Peak ERP(dBm)= PMea(-20.39dBm)+ ARpl (45.82dBm)-2.15dBm= 23.28dBm ANALYZER SETTINGS: RBW = VBW = 3MHz PCS1900-EIRP 24.232(b) Limits GSM GPRS EGPRS Measurement result GSM No.2010TAR232 Page14 of 71 Power Step Burst Peak EIRP (dBm) 0 3 5 33dBm (2W) 33dBm (2W) 33dBm (2W) Frequency(MHz) Power Step Peak EIRP(dBm) ARpl (dBm) PMea(dBm) Polarization 1850.2 1880.0 1909.8 GPRS 0 0 0 25.24 24.49 25.19 47.6 47.92 48.22

-22.36

-23.43

-23.03 Vertical Vertical Vertical Frequency(MHz) Power Step Peak EIRP(dBm) ARpl (dBm) PMea(dBm) Polarization 1850.2 1880.0 1909.8 EGPRS 3 3 3 18.65 17.99 18.71 47.11 47.37 47.54

-28.46

-29.38

-28.83 Horizontal Horizontal Horizontal Frequency(MHz) Power Step Peak EIRP(dBm) ARpl (dBm) PMea(dBm) Polarization 1850.2 1880.0 1909.8 5 5 5 14.57 13.98 14.54 47.11 47.37 47.54

-32.54

-33.39

-33 Horizontal Horizontal Horizontal Frequency: 1850.2MHz Peak EIRP(dBm)= PMea(-22.36dBm)+ ARpl (47.6dBm) = 25.24 dBm ANALYZER SETTINGS: RBW = VBW = 3MHz A.2 EMISSION LIMT A.2.1 Measurement Method No.2010TAR232 Page15 of 71 The measurements procedures in TIA-603C-2004 are used. The spectrum was scanned from 30 MHz to the 10th harmonic of the highest frequency generated within the equipment, which is the transmitted carrier that can be as high as 1910 MHz. The resolution bandwidth is set 1MHz as outlined in Part 24.238. The spectrum was scanned with the mobile station transmitting at carrier frequencies that pertain to low, mid and high channels of the PCS1900 band ,GSM850 band. The procedure of radiated spurious emissions is as follows:

a) Pre-calibration With pre-calibration method, the Radiated Spurious Emissions(RSE) is calculated as, RSE=RxdBuV+CLdB+SAdB+GaindBi-107dBuV to dBm The SA is calibrated using following setup. b) System check The test system was checked before test by a standard comb signal source. The signal source put on the position, instead of the EUT. The test result should be compared with the test result before. If the test result is similar with the initial one, then the test system can work stably. c) EUT test EUT was placed on a 1.5 meter high non-conductive stand at a 3 meter test distance from the receive antenna. A receiving antenna was placed on the antenna mast 3 meters from the test item for emission measurements. The height of receiving antenna is 1.5m. The test setup refers to figure below. Detected emissions were maximized at each frequency by rotating the test item and adjusting the receiving antenna polarization. The radiated emission measurements of all non-harmonic and harmonics of the transmit frequency through the 10th harmonic were measured with peak detector and 1MHz bandwidth. No.2010TAR232 Page16 of 71 A.2.2 Measurement Limit Sec. 24.238 Emission Limits.

(a) On any frequency outside a licensees frequency block (e.g. A, D, B, etc.) within the USPCS spectrum, the power of any emission shall be attenuated below the transmitter power (P, in Watts) by at least 43+10Log(P) dB. The specification that emissions shall be attenuated below the transmitter power (P) by at least 43 + 10 log (P) dB, translates in the relevant power range (1 to 0.001 W) to -13 dBm. At 1 W the specified minimum attenuation becomes 43 dB and relative to a 30 dBm (1 W) carrier becomes a limit of -13 dBm. At 0.001 W (0 dBm) the minimum attenuation is 13 dB, which again yields a limit of -13 dBm. In this way a translation of the specification from relative to absolute terms is carried out. A.2.3 Measurement Results Radiated emissions measurements were made only at the upper, middle, and lower carrier frequencies of the PCS band (1850.2 MHz, 1880 MHz and 1909.8 MHz) ,GSM850 band

(824.2MHz, 836.6MHz, 848.8MHz) . It was decided that measurements at these three carrier frequencies would be sufficient to demonstrate compliance with emissions limits because it was seen that all the significant spurs occur well outside the band and no radiation was seen from a carrier in one block of the PCS1900 ,GSM850 into any of the other blocks. The equipment must still, however, meet emissions requirements with the carrier at all frequencies over which it is capable of operating and it is the manufacturer's responsibility to verify this. The substitution method is used. Substitution values at each frequency are measured before and saved to the test software. A "reference path loss" is established and the ARpl is the attenuation of reference path loss, and including the gain of receive antenna, the gain of the preamplifier, the cable loss and the air loss. The measurement results are obtained as described below:

Power=PMea+ARpl A.2.4 Sweep Table Working Frequency 850MHz 1900MHz No.2010TAR232 Page17 of 71 Subrange

(GHz) 0.03~1 1-2 2~5 5~8 8~10 0.03~1 1-2 2~5 5~8 8~11 11~14 14~18 18~20 RBW VBW Sweep time (s) 100KHz 300KHz 1 MHz 1 MHz 1 MHz 1 MHz 3 MHz 3 MHz 3 MHz 3 MHz 100KHz 300KHz 1 MHz 1 MHz 1 MHz 1 MHz 1 MHz 1 MHz 1 MHz 3 MHz 3 MHz 3 MHz 3 MHz 3 MHz 3 MHz 3 MHz 10 2 3 3 3 10 2 3 3 3 3 3 2 GSM Mode Channel 128/824.2MHz Frequency(MHz) Power(dBm) 1298.2 1440.4 1751.55 1921.5 2498.25 8219.5

-57.05696089

-53.90590707

-53.82801934

-54.12722651

-52.82172264

-48.25990367 GSM Mode Channel 190/836.6MHz Frequency(MHz) Power(dBm) 1295.55 1440.65 1751.85 7898.5 9761.2

-57.10434207

-54.62175453

-53.60477501

-47.50706784

-45.7404653 GSM Mode Channel 251/848.8MHz Frequency(MHz) Power(dBm) 1294.05 1437.95 1698 1751.85 2492.55 8036.2

-56.50027936

-54.22570014

-53.94950996

-54.24861962

-53.50475451

-47.30550941 No.2010TAR232 Page18 of 71 ARpl

(dBm)

-3.65

-2.15

-0.35 0.65 0.15 8.55 ARpl

(dBm)

-3.55

-2.15

-0.85 7.85 9.75 ARpl

(dBm)

-3.65

-2.15

-2.25

-0.85 0.15 7.45 PMea(dBm) Limit Polarity dBm

-53.40696089

-51.75590707

-53.47801934

-54.77722651

-52.97172264

-56.80990367

-13

-13

-13

-13

-13

-13 Horizontal Horizontal Vertical Horizontal Vertical Horizontal PMea(dBm) Limit Polarity dBm

-53.55434207

-52.47175453

-52.75477501

-55.35706784

-55.4904653

-13

-13

-13

-13

-13 Vertical Horizontal Horizontal Horizontal Horizontal PMea(dBm) Limit Polarity dBm

-52.85027936

-52.07570014

-51.69950996

-53.39861962

-53.65475451

-54.75550941

-13

-13

-13

-13

-13

-13 Horizontal Horizontal Vertical Horizontal Vertical Horizontal GSM Mode Channel 512/1850.2MHz Frequency(MHz) Power(dBm) 2001.4 2490.5 8105.6 9709.1 15790.8 17765.6

-47.11290051

-50.17450584

-46.4992337

-45.74898497

-38.74027288

-31.14138596 ARpl

(dBm) 9.8 3.5 9.3 12.3 13.9 17.7 PMea(dBm) Limit Polarity dBm

-56.91290051

-53.67450584

-55.7992337

-58.04898497

-52.64027288

-48.84138596

-13

-13

-13

-13

-13

-13 Vertical Vertical Horizontal Vertical Horizontal Horizontal GSM Mode Channel 661/1880.0MHz Frequency(MHz) Power(dBm) 2001.7 2498 7520.6 9716.3 15822.4 17772

-47.51921425

-50.61291652

-45.94991912

-45.61087152

-38.46963871

-32.30670473 GSM Mode Channel 810/1909.8MHz Frequency(MHz) Power(dBm) 2001 2490.5 7639.4 9548.9 12373.7 15794

-46.34240985

-51.54591621

-43.31571847

-45.01791798

-42.7652901

-38.92628703 ARpl

(dBm) 9.8 3.5 10.1 11.9 13.8 17.1 ARpl

(dBm) 9.6 3.5 8.4 11.3 13.2 13.9 No.2010TAR232 Page19 of 71 PMea(dBm) Limit Polarity dBm

-57.31921425

-54.11291652

-56.04991912

-57.51087152

-52.26963871

-49.40670473

-13

-13

-13

-13

-13

-13 Vertical Vertical Horizontal Vertical Horizontal Vertical PMea(dBm) Limit Polarity dBm

-55.94240985

-55.04591621

-51.71571847

-56.31791798

-55.9652901

-52.82628703

-13

-13

-13

-13

-13

-13 Horizontal Vertical Horizontal Horizontal Vertical Horizontal GSM 850 No.2010TAR232 Page20 of 71 A.2.3.1 RADIATED SPURIOUS EMISSIONS-Channel 128: 30MHz 1GHz Radiated spurious emission limit :-13dBm. NOTE: peak above the limit line is the Carrier frequency @ ch-128 A.2.3.2 RADIATED SPURIOUS EMISSIONS-Channel 190: 30MHz 1GHz Radiated spurious emission limit :-13dBm. NOTE: peak above the limit line is the Carrier frequency @ ch-190

-60-50-40-30-20-1001020Level [dBm]30M40M50M70M100M200M300M400M600M1GFrequency [Hz]MES 10TA620_8L1_pre PK LIM FCC Part24_22 Receiver, CDMA-60-50-40-30-20-10010Level [dBm]30M40M50M70M100M200M300M400M600M1GFrequency [Hz]MES 10TA620_8M1_pre PK LIM FCC Part24_22 Receiver, CDMA No.2010TAR232 Page21 of 71 A.2.3.3 RADIATED SPURIOUS EMISSIONS-Channel 251: 30MHz 1GHz Radiated spurious emission limit :-13dBm. NOTE: peak above the limit line is the Carrier frequency @ ch-251 A.2.3.4 RADIATED SPURIOUS EMISSIONS-Channel 128: 1GHz 10GHz Radiated spurious emission limit :-13dBm.

-60-50-40-30-20-1001020Level [dBm]30M40M50M70M100M200M300M400M600M1GFrequency [Hz]MES 10TA620_8H1_pre PK LIM FCC Part24_22 Receiver, CDMA-70 -60 -50 -40 -30 -20 -10 01 2 3 4 5 6 7 8 9 10Level in dBmFrequency in GHzFCC22 1-10 GHzFCC -13dBm No.2010TAR232 Page22 of 71 A.2.3.5 RADIATED SPURIOUS EMISSIONS-Channel 190: 1GHz 10GHz Radiated spurious emission limit :-13dBm. A.2.3.6 RADIATED SPURIOUS EMISSIONS-Channel 251: 1GHz 10GHz Radiated spurious emission limit :-13dBm.

-70 -60 -50 -40 -30 -20 -10 01 2 3 4 5 6 7 8 9 10Level in dBmFrequency in GHzFCC22 1-10 GHzFCC -13dBm-70 -60 -50 -40 -30 -20 -10 01 2 3 4 5 6 7 8 9 10Level in dBmFrequency in GHzFCC22 1-10 GHzFCC -13dBm No.2010TAR232 Page23 of 71 A.2.3.7 RADIATED SPURIOUS EMISSIONS-EUT in Idle Mode: 30MHz 1GHz Radiated spurious emission limit :-13dBm. A.2.3.8 RADIATED SPURIOUS EMISSIONS-EUT in Idle Mode: 1GHz 10GHz Radiated spurious emission limit :-13dBm.

-60-50-40-30-20-10Level [dBm]30M40M50M70M100M200M300M400M600M1GFrequency [Hz]MES 10TA620_8I1_pre PK LIM FCC Part24_22 Receiver, CDMA-70 -60 -50 -40 -30 -20 -10 01 2 3 4 5 6 7 8 9 10Level in dBmFrequency in GHzFCC22 1-10 GHzFCC -13dBm PCS 1900 No.2010TAR232 Page24 of 71 A.2.3.9 RADIATED SPURIOUS EMISSIONS-Channel 512: 30MHz 2GHz Radiated spurious emission limit :-13dBm. NOTE: peak above the limit line is the Carrier frequency @ ch-512 A.2.3.10 RADIATED SPURIOUS EMISSIONS-Channel 661: 30MHz 2GHz Radiated spurious emission limit :-13dBm. NOTE: peak above the limit line is the Carrier frequency @ ch-661

-60-50-40-30-20-10010Level [dBm]30M50M70M100M200M300M500M700M1G2GFrequency [Hz]MES 10TA620_PL1_pre PK LIM FCC Part24_22 Receiver, CDMA-60-50-40-30-20-10010Level [dBm]30M50M70M100M200M300M500M700M1G2GFrequency [Hz]MES 10TA620_PM1_pre PK LIM FCC Part24_22 Receiver, CDMA No.2010TAR232 Page25 of 71 A.2.3.11 RADIATED SPURIOUS EMISSIONS-Channel 810: 30MHz 2GHz Radiated spurious emission limit :-13dBm. NOTE: peak above the limit line is the Carrier frequency @ ch-810 A.2.3.12 RADIATED SPURIOUS EMISSIONS-Channel 512: 2GHz 18GHz Radiated spurious emission limit :-13dBm.

-60-50-40-30-20-10010Level [dBm]30M50M70M100M200M300M500M700M1G2GFrequency [Hz]MES 10TA620_PH1_pre PK LIM FCC Part24_22 Receiver, CDMA-70 -60 -50 -40 -30 -20 -10 02 4 6 8 10 12 14 16 18Level in dBmFrequency in GHzFCC24 2-18 GHzFCC -13dBm No.2010TAR232 Page26 of 71 A.2.3.13 RADIATED SPURIOUS EMISSIONS-Channel 661: 2GHz 18GHz Radiated spurious emission limit :-13dBm. A.2.3.14 RADIATED SPURIOUS EMISSIONS-Channel 810: 2GHz 18GHz Radiated spurious emission limit :-13dBm.

-70 -60 -50 -40 -30 -20 -10 02 4 6 8 10 12 14 16 18Level in dBmFrequency in GHzFCC24 2-18 GHzFCC -13dBm-70 -60 -50 -40 -30 -20 -10 02 4 6 8 10 12 14 16 18Level in dBmFrequency in GHzFCC24 2-18 GHzFCC -13dBm No.2010TAR232 Page27 of 71 A.2.3.15 Radiated spurious emission (18GHz-20GHz) Radiated spurious emission limit :-13dBm. Note: This plot is valid for low, mid & high channels. It is same as the floor noise. A.2.3.16 RADIATED SPURIOUS EMISSIONS-EUT in Idle Mode: 30MHz 2GHz Radiated spurious emission limit :-13dBm.

-70 -65 -60 -55 -50 -45 -40 -35 -30 -25 -20 -15 -1018000 18500 19000 19500 20000Level in dBmFrequency in MHzPreview Measurement Detector 1FCC -13dBmFCC -13dBm-60-50-40-30-20-10Level [dBm]30M50M70M100M200M300M500M700M1G2GFrequency [Hz]MES 10TA620_PI1_pre PK LIM FCC Part24_22 Receiver, CDMA No.2010TAR232 Page28 of 71 A.2.3.17 RADIATED SPURIOUS EMISSIONS-EUT in Idle Mode: 2GHz 18GHz Radiated spurious emission limit :-13dBm. A.2.3.18 RADIATED SPURIOUS EMISSIONS-EUT in Idle Mode: 18GHz 20GHz Radiated spurious emission limit :-13dBm. Note: It is same as the floor noise.

-70 -60 -50 -40 -30 -20 -10 02 4 6 8 10 12 14 16 18Level in dBmFrequency in GHzFCC24 2-18 GHzFCC -13dBm-70 -65 -60 -55 -50 -45 -40 -35 -30 -25 -20 -15 -1018000 18500 19000 19500 20000Level in dBmFrequency in MHzPreview Measurement Detector 1FCC -13dBmFCC -13dBm A.3 FREQUENCY STABILITY A.3.1 Method of Measurement No.2010TAR232 Page29 of 71 In order to measure the carrier frequency under the condition of AFC lock, it is necessary to make measurements with the EUT in a call mode. This is accomplished with the use of R&S CMU200 DIGITAL RADIO COMMUNICATION TESTER. 1. Measure the carrier frequency at room temperature. 2. Subject the EUT to overnight soak at -30. 3. With the EUT, powered via nominal voltage, connected to the CMU200 and in a simulated call on channel 661 for PCS 1900, channel 190 for GSM850 measure the carrier frequency. These measurements should be made within 2 minutes of Powering up the EUT, to prevent significant self-warming. 4. Repeat the above measurements at 10 increments from -30 to +50. Allow at least 1 1/2 hours at each temperature, unpowered, before making measurements. 5. Remeasure carrier frequency at room temperature with nominal voltage. Vary supply voltage from minimum voltage to maximum voltage, in 0.1Volt increments remeasuring carrier frequency at each voltage. Pause at nominal voltage for 1 1/2 hours unpowered, to allow any self-heating to stabilize, before continuing. 6. Subject the EUT to overnight soak at +50. 7. With the EUT, powered via nominal voltage, connected to the CMU200 and in a simulated call on the centre channel, measure the carrier frequency. These measurements should be made within 2 minutes of Powering up the EUT, to prevent significant self-warming. 8. Repeat the above measurements at 10 C increments from +50 to -30. Allow at least 1 1/2 hours at each temperature, unpowered, before making measurements. 9. At all temperature levels hold the temperature to +/- 0.5 during the measurement procedure. A.3.2 Measurement Limit A.3.2.1 For Hand carried battery powered equipment According to the JTC standard the frequency stability of the carrier shall be accurate to within 0.1 ppm of the received frequency from the base station. This accuracy is sufficient to meet Sec. 24.235, Frequency Stability. The frequency stability shall be sufficient to ensure that the fundamental emission stays within the authorized frequency block. As this transceiver is considered "Hand carried, battery powered equipment" Section 2.1055(d)(2) applies. This requires that the lower voltage for frequency stability testing be specified by the manufacturer. This transceiver is specified to operate with an input voltage of between 3.5VDC and 4.2VDC, with a nominal voltage of 3.8VDC. Operation above or below these voltage limits is prohibited by transceiver software in order to prevent improper operation as well as to protect components from overstress. These voltages represent a tolerance of -10 % and +12.5 %. For the purposes of measuring frequency stability these voltage limits are to be used. A.3.2.2 For equipment powered by primary supply voltage According to the JTC standard the frequency stability of the carrier shall be accurate to within 0.1 ppm of the received frequency from the base station. This accuracy is sufficient to meet Sec. 24.235, Frequency Stability. The frequency stability shall be sufficient to ensure that the fundamental emission stays within the authorized frequency block. For this EUT section No.2010TAR232 Page30 of 71 2.1055(d)(1) applies. This requires varying primary supply voltage from 85 to 115 percent of the nominal value for other than hand carried battery equipment. A.3.3 Measurement results GSM 850 Frequency Error vs Voltage Voltage(V) Frequency error(Hz) Frequency error(ppm) 4.8 5 5.2

-22

-21

-24 0.024 0.023 0.026 Frequency Error vs Temperature temperature() Frequency error(Hz) Frequency error(ppm)

-30

-20

-10 0 10 20 30 40 50

-33

-33

-31

-31

-30

-21

-21

-25

-35 0.036 0.036 0.034 0.034 0.033 0.023 0.023 0.027 0.038 PCS 1900 Frequency Error vs Voltage Voltage(V) Frequency error(Hz) Frequency error(ppm) 4.8 5 5.2

-31

-28

-33 0.016 0.015 0.017 Frequency Error vs Temperature temperature() Frequency error(Hz) Frequency error(ppm)

-30

-20

-10 0 10 20 30 40 50

-40

-38

-38

-30

-31

-28

-28

-30

-38 0.021 0.020 0.020 0.016 0.010 0.015 0.015 0.016 0.020 No.2010TAR232 Page31 of 71 A.4 OCCUPIED BANDWIDTH (2.1049(h)(i)) A.4.1 Occupied Bandwidth Results Similar to conducted emissions; occupied bandwidth measurements are only provided for selected frequencies in order to reduce the amount of submitted data. Data were taken at the extreme and mid frequencies of the USPCS frequency band. The table below lists the measured -20dBc BW

(99%). Spectrum analyzer plots are included on the following pages. GSM 850(99%) Frequency(MHz) Occupied Bandwidth (99%)( kHz) 824.2 836.6 848.8 248.397 243.590 245.192 GSM 850 Channel 128-Occupied Bandwidth (99%) A TDFRef 30 dBmEXTAtt 35 dB100 kHz/Center824.2 MHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 24.07 dBm 824.198397436 MHzOBW248.397435897 kHzT1Temp 1 [T1 OBW] 11.22 dBm 824.075000000 MHzT2Temp 2 [T1 OBW] 10.06 dBm 824.323397436 MHzDate: 7.JUN.2010 03:50:13 Channel 190-Occupied Bandwidth (99%) No.2010TAR232 Page32 of 71 Channel 251-Occupied Bandwidth (99%) A TDFRef 30 dBmAtt 35 dBEXT100 kHz/Center836.6 MHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 24.51 dBm 836.593589744 MHzOBW243.589743590 kHzT1Temp 1 [T1 OBW] 10.06 dBm 836.478205128 MHzT2Temp 2 [T1 OBW] 6.92 dBm 836.721794872 MHzDate: 7.JUN.2010 03:50:41 A TDFRef 30 dBmAtt 35 dBEXT100 kHz/Center848.8 MHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 25.78 dBm 848.783974359 MHzOBW245.192307692 kHzT1Temp 1 [T1 OBW] 9.84 dBm 848.676602564 MHzT2Temp 2 [T1 OBW] 7.23 dBm 848.921794872 MHzDate: 7.JUN.2010 03:51:09 GPRS 850(99%) No.2010TAR232 Page33 of 71 Frequency(MHz) Occupied Bandwidth (99%)( kHz) 824.2 836.6 848.8 243.590 245.192 246.795 GPRS 850 Channel 128-Occupied Bandwidth (99%) A TDFRef 30 dBmAtt 35 dBEXT100 kHz/Center824.2 MHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 25.20 dBm 824.200000000 MHzOBW243.589743590 kHzT1Temp 1 [T1 OBW] 9.81 dBm 824.078205128 MHzT2Temp 2 [T1 OBW] 8.66 dBm 824.321794872 MHzDate: 7.JUN.2010 04:43:58 Channel 190-Occupied Bandwidth (99%) No.2010TAR232 Page34 of 71 Channel 251-Occupied Bandwidth (99%) A TDFRef 30 dBmAtt 35 dBEXT100 kHz/Center836.6 MHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 24.46 dBm 836.580769231 MHzOBW245.192307692 kHzT1Temp 1 [T1 OBW] 9.91 dBm 836.478205128 MHzT2Temp 2 [T1 OBW] 8.89 dBm 836.723397436 MHzDate: 7.JUN.2010 04:44:25 A TDFRef 30 dBmAtt 35 dBEXT100 kHz/Center848.8 MHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 24.58 dBm 848.817628205 MHzOBW246.794871795 kHzT1Temp 1 [T1 OBW] 9.14 dBm 848.678205128 MHzT2Temp 2 [T1 OBW] 9.63 dBm 848.925000000 MHzDate: 7.JUN.2010 04:44:53 EGPRS 850(99%) No.2010TAR232 Page35 of 71 Frequency(MHz) Occupied Bandwidth (99%)( kHz) 824.2 836.6 848.8 245.192 243.590 243.590 EGPRS 850 Channel 128-Occupied Bandwidth (99%) A TDFRef 30 dBmEXTAtt 35 dB100 kHz/Center824.2 MHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 19.36 dBm 824.166346154 MHzOBW245.192307692 kHzT1Temp 1 [T1 OBW] 2.89 dBm 824.076602564 MHzT2Temp 2 [T1 OBW] 2.48 dBm 824.321794872 MHzDate: 7.JUN.2010 05:18:27 Channel 190-Occupied Bandwidth (99%) No.2010TAR232 Page36 of 71 Channel 251-Occupied Bandwidth (99%) A TDFRef 30 dBmAtt 35 dBEXT100 kHz/Center836.6 MHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 20.35 dBm 836.640064103 MHzOBW243.589743590 kHzT1Temp 1 [T1 OBW] 2.64 dBm 836.478205128 MHzT2Temp 2 [T1 OBW] 4.60 dBm 836.721794872 MHzDate: 7.JUN.2010 05:18:55 A TDFRef 30 dBmAtt 35 dBEXT100 kHz/Center848.8 MHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 19.53 dBm 848.775961538 MHzOBW243.589743590 kHzT1Temp 1 [T1 OBW] 2.99 dBm 848.679807692 MHzT2Temp 2 [T1 OBW] 2.15 dBm 848.923397436 MHzDate: 7.JUN.2010 05:19:22 PCS 1900(99%) No.2010TAR232 Page37 of 71 Frequency(MHz) Occupied Bandwidth (99%)( kHz) 1850.2 1880.0 1909.8 245.192 246.795 245.192 PCS 1900 Channel 512-Occupied Bandwidth (99%) A TDFRef 30 dBmEXTAtt 35 dB100 kHz/Center1.8502 GHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 22.47 dBm 1.850265705 GHzOBW245.192307692 kHzT1Temp 1 [T1 OBW] 5.98 dBm 1.850076603 GHzT2Temp 2 [T1 OBW] 3.38 dBm 1.850321795 GHzDate: 7.JUN.2010 04:03:07 Channel 661-Occupied Bandwidth (99%) No.2010TAR232 Page38 of 71 Channel 810-Occupied Bandwidth (99%) A TDFRef 30 dBmAtt 35 dBEXT100 kHz/Center1.88 GHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 21.14 dBm 1.880019231 GHzOBW246.794871795 kHzT1Temp 1 [T1 OBW] 6.03 dBm 1.879876603 GHzT2Temp 2 [T1 OBW] 5.23 dBm 1.880123397 GHzDate: 7.JUN.2010 04:03:34 A TDFRef 30 dBmAtt 35 dBEXT100 kHz/Center1.9098 GHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 23.12 dBm 1.909793590 GHzOBW245.192307692 kHzT1Temp 1 [T1 OBW] 8.25 dBm 1.909678205 GHzT2Temp 2 [T1 OBW] 4.26 dBm 1.909923397 GHzDate: 7.JUN.2010 04:04:00 GPRS 1900(99%) No.2010TAR232 Page39 of 71 Frequency(MHz) Occupied Bandwidth (99%)( kHz) 1850.2 1880.0 1909.8 243.590 243.590 243.590 GPRS 1900 Channel 512-Occupied Bandwidth (99%) A TDFRef 30 dBmEXTAtt 35 dB100 kHz/Center1.8502 GHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 21.48 dBm 1.850180769 GHzOBW243.589743590 kHzT1Temp 1 [T1 OBW] 5.24 dBm 1.850078205 GHzT2Temp 2 [T1 OBW] 6.02 dBm 1.850321795 GHzDate: 7.JUN.2010 04:59:56 Channel 661-Occupied Bandwidth (99%) No.2010TAR232 Page40 of 71 Channel 810-Occupied Bandwidth (99%) A TDFRef 30 dBmAtt 35 dBEXT100 kHz/Center1.88 GHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 22.16 dBm 1.879963141 GHzOBW243.589743590 kHzT1Temp 1 [T1 OBW] 7.58 dBm 1.879878205 GHzT2Temp 2 [T1 OBW] 5.43 dBm 1.880121795 GHzDate: 7.JUN.2010 05:00:23 A TDFRef 30 dBmAtt 35 dBEXT100 kHz/Center1.9098 GHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 21.56 dBm 1.909833654 GHzOBW243.589743590 kHzT1Temp 1 [T1 OBW] 7.15 dBm 1.909679808 GHzT2Temp 2 [T1 OBW] 7.29 dBm 1.909923397 GHzDate: 7.JUN.2010 05:00:50 EGPRS 1900(99%) No.2010TAR232 Page41 of 71 Frequency(MHz) Occupied Bandwidth (99%)( kHz) 1850.2 1880.0 1909.8 243.590 245.192 243.589 EGPRS 1900 Channel 512-Occupied Bandwidth (99%) A TDFRef 30 dBmEXTAtt 35 dB100 kHz/Center1.8502 GHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 18.92 dBm 1.850191987 GHzOBW243.589743590 kHzT1Temp 1 [T1 OBW] 2.37 dBm 1.850078205 GHzT2Temp 2 [T1 OBW] 1.49 dBm 1.850321795 GHzDate: 7.JUN.2010 05:32:21 Channel 661-Occupied Bandwidth (99%) No.2010TAR232 Page42 of 71 Channel 810-Occupied Bandwidth (99%) A TDFRef 30 dBmAtt 35 dBEXT100 kHz/Center1.88 GHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 18.83 dBm 1.879996795 GHzOBW245.192307692 kHzT1Temp 1 [T1 OBW] 2.92 dBm 1.879878205 GHzT2Temp 2 [T1 OBW] 3.29 dBm 1.880123397 GHzDate: 7.JUN.2010 05:32:48 A TDFRef 30 dBmAtt 35 dBEXT100 kHz/Center1.9098 GHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 17.98 dBm 1.909801603 GHzOBW243.589743590 kHzT1Temp 1 [T1 OBW] 2.76 dBm 1.909678205 GHzT2Temp 2 [T1 OBW] 3.43 dBm 1.909921795 GHzDate: 7.JUN.2010 05:33:14 No.2010TAR232 Page43 of 71 A.5 EMISSION BANDWIDTH (22.917(b)/24.238(b)) A.5.1Emission Bandwidth Results Similar to conducted emissions; Emission bandwidth measurements are only provided for selected frequencies in order to reduce the amount of submitted data. Data were taken at the extreme and mid frequencies of the PCS1900 band and GSM850 band. Table below lists the measured -26dBc BW. Spectrum analyzer plots are included on the following pages. GSM 850(-26dBc) Frequency(MHz) Occupied Bandwidth (26dBc BW)( kHz) 824.2 836.6 848.8 307.692 306.090 307.692 GSM 850 Channel 128-Occupied Bandwidth (-26dBc BW) A TDFRef 30 dBmEXTAtt 35 dB100 kHz/Center824.2 MHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 25.41 dBm 824.267307692 MHzOBW307.692307692 kHzT1Temp 1 [T1 OBW] -1.07 dBm 824.046153846 MHzT2Temp 2 [T1 OBW] -0.03 dBm 824.353846154 MHzDate: 7.JUN.2010 03:51:38 Channel 190-Occupied Bandwidth (-26dBc BW) No.2010TAR232 Page44 of 71 Channel 251-Occupied Bandwidth (-26dBc BW) A TDFRef 30 dBmAtt 35 dBEXT100 kHz/Center836.6 MHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 25.37 dBm 836.667307692 MHzOBW306.089743590 kHzT1Temp 1 [T1 OBW] 1.82 dBm 836.446153846 MHzT2Temp 2 [T1 OBW] 0.95 dBm 836.752243590 MHzDate: 7.JUN.2010 03:52:08 A TDFRef 30 dBmAtt 35 dBEXT100 kHz/Center848.8 MHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 24.17 dBm 848.782371795 MHzOBW307.692307692 kHzT1Temp 1 [T1 OBW] -0.26 dBm 848.646153846 MHzT2Temp 2 [T1 OBW] 1.12 dBm 848.953846154 MHzDate: 7.JUN.2010 03:52:35 GPRS 850(-26dBc) No.2010TAR232 Page45 of 71 Frequency(MHz) Occupied Bandwidth (26dBc BW)( kHz) 824.2 836.6 848.8 309.295 307.692 306.090 GPRS 850 Channel 128-Occupied Bandwidth (-26dBc BW) A TDFRef 30 dBmEXTAtt 35 dB100 kHz/Center824.2 MHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 23.32 dBm 824.179166667 MHzOBW309.294871795 kHzT1Temp 1 [T1 OBW] 0.10 dBm 824.046153846 MHzT2Temp 2 [T1 OBW] 1.13 dBm 824.355448718 MHzDate: 7.JUN.2010 04:45:21 Channel 190-Occupied Bandwidth (-26dBc BW) No.2010TAR232 Page46 of 71 Channel 251-Occupied Bandwidth (-26dBc BW) A TDFRef 30 dBmAtt 35 dBEXT100 kHz/Center836.6 MHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 24.27 dBm 836.585576923 MHzOBW307.692307692 kHzT1Temp 1 [T1 OBW] 0.55 dBm 836.446153846 MHzT2Temp 2 [T1 OBW] 0.43 dBm 836.753846154 MHzDate: 7.JUN.2010 04:45:48 A TDFRef 30 dBmAtt 35 dBEXT100 kHz/Center848.8 MHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 24.32 dBm 848.803205128 MHzOBW306.089743590 kHzT1Temp 1 [T1 OBW] -0.15 dBm 848.647756410 MHzT2Temp 2 [T1 OBW] 0.28 dBm 848.953846154 MHzDate: 7.JUN.2010 04:46:16 EGPRS 850(-26dBc) No.2010TAR232 Page47 of 71 Frequency(MHz) Occupied Bandwidth (26dBc BW)( kHz) 824.2 836.6 848.8 301.282 299.679 302.885 EGPRS 850 Channel 128-Occupied Bandwidth (-26dBc BW) A TDFRef 30 dBmEXTAtt 35 dB100 kHz/Center824.2 MHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 18.90 dBm 824.187179487 MHzOBW301.282051282 kHzT1Temp 1 [T1 OBW] -3.84 dBm 824.049358974 MHzT2Temp 2 [T1 OBW] -3.70 dBm 824.350641026 MHzDate: 7.JUN.2010 05:19:51 Channel 190-Occupied Bandwidth (-26dBc BW) No.2010TAR232 Page48 of 71 Channel 251-Occupied Bandwidth (-26dBc BW) A TDFRef 30 dBmAtt 35 dBEXT100 kHz/Center836.6 MHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 19.85 dBm 836.609615385 MHzOBW299.679487180 kHzT1Temp 1 [T1 OBW] -5.27 dBm 836.450961538 MHzT2Temp 2 [T1 OBW] -4.52 dBm 836.750641026 MHzDate: 7.JUN.2010 05:20:18 A TDFRef 30 dBmAtt 35 dBEXT100 kHz/Center848.8 MHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 20.52 dBm 848.764743590 MHzOBW302.884615385 kHzT1Temp 1 [T1 OBW] -3.31 dBm 848.647756410 MHzT2Temp 2 [T1 OBW] -1.67 dBm 848.950641026 MHzDate: 7.JUN.2010 05:20:45 PCS 1900(-26dBc) No.2010TAR232 Page49 of 71 Frequency(MHz) Occupied Bandwidth (26dBc BW)( kHz) 1850.2 1880.0 1909.8 307.692 306.090 306.090 PCS 1900 Channel 512-Occupied Bandwidth (-26dBc BW) A TDFRef 30 dBmEXTAtt 35 dB100 kHz/Center1.8502 GHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 22.45 dBm 1.850267308 GHzOBW307.692307693 kHzT1Temp 1 [T1 OBW] -2.74 dBm 1.850046154 GHzT2Temp 2 [T1 OBW] -2.20 dBm 1.850353846 GHzDate: 7.JUN.2010 04:04:29 Channel 661-Occupied Bandwidth (-26dBc BW) No.2010TAR232 Page50 of 71 Channel 810-Occupied Bandwidth (-26dBc BW) A TDFRef 30 dBmAtt 35 dBEXT100 kHz/Center1.88 GHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 22.38 dBm 1.879990385 GHzOBW306.089743590 kHzT1Temp 1 [T1 OBW] -2.43 dBm 1.879846154 GHzT2Temp 2 [T1 OBW] -1.68 dBm 1.880152244 GHzDate: 7.JUN.2010 04:04:56 A TDFRef 30 dBmAtt 35 dBEXT100 kHz/Center1.9098 GHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 22.30 dBm 1.909868910 GHzOBW306.089743590 kHzT1Temp 1 [T1 OBW] -0.93 dBm 1.909646154 GHzT2Temp 2 [T1 OBW] -0.20 dBm 1.909952244 GHzDate: 7.JUN.2010 04:05:23 GPRS 1900(-26dBc) No.2010TAR232 Page51 of 71 Frequency(MHz) Occupied Bandwidth (26dBc BW)( kHz) 1850.2 1880.0 1909.8 307.692 306.090 304.487 GPRS 1900 Channel 512-Occupied Bandwidth (-26dBc BW) A TDFRef 30 dBmEXTAtt 35 dB100 kHz/Center1.8502 GHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 21.72 dBm 1.850167949 GHzOBW307.692307692 kHzT1Temp 1 [T1 OBW] -2.38 dBm 1.850047756 GHzT2Temp 2 [T1 OBW] -2.32 dBm 1.850355449 GHzDate: 7.JUN.2010 05:01:18 Channel 661-Occupied Bandwidth (-26dBc BW) No.2010TAR232 Page52 of 71 Channel 810-Occupied Bandwidth (-26dBc BW) A TDFRef 30 dBmAtt 35 dBEXT100 kHz/Center1.88 GHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 21.58 dBm 1.879987179 GHzOBW306.089743590 kHzT1Temp 1 [T1 OBW] -2.26 dBm 1.879847756 GHzT2Temp 2 [T1 OBW] -1.78 dBm 1.880153846 GHzDate: 7.JUN.2010 05:01:45 A TDFRef 30 dBmAtt 35 dBEXT100 kHz/Center1.9098 GHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 21.96 dBm 1.909772756 GHzOBW304.487179487 kHzT1Temp 1 [T1 OBW] -3.97 dBm 1.909647756 GHzT2Temp 2 [T1 OBW] -3.55 dBm 1.909952244 GHzDate: 7.JUN.2010 05:02:12 EGPRS 1900(-26dBc) No.2010TAR232 Page53 of 71 Frequency(MHz) Occupied Bandwidth (26dBc BW)( kHz) 1850.2 1880.0 1909.8 302.885 299.679 304.487 EGPRS 1900 Channel 512-Occupied Bandwidth (-26dBc BW) A TDFRef 30 dBmEXTAtt 35 dB100 kHz/Center1.8502 GHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 18.05 dBm 1.850225641 GHzOBW302.884615385 kHzT1Temp 1 [T1 OBW] -5.00 dBm 1.850049359 GHzT2Temp 2 [T1 OBW] -5.96 dBm 1.850352244 GHzDate: 7.JUN.2010 05:33:41 Channel 661-Occupied Bandwidth (-26dBc BW) No.2010TAR232 Page54 of 71 Channel 810-Occupied Bandwidth (-26dBc BW) A TDFRef 30 dBmAtt 35 dBEXT100 kHz/Center1.88 GHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 17.72 dBm 1.880025641 GHzOBW299.679487180 kHzT1Temp 1 [T1 OBW] -4.97 dBm 1.879849359 GHzT2Temp 2 [T1 OBW] -6.92 dBm 1.880149038 GHzDate: 7.JUN.2010 05:34:08 A TDFRef 30 dBmAtt 35 dBEXT100 kHz/Center1.9098 GHzSpan1 MHz**RBW 3 kHzVBW 10 kHzSWT 300 ms*1 PKVIEW-70-60-50-40-30-20-1001020301Marker 1 [T1 ] 17.66 dBm 1.909796795 GHzOBW304.487179487 kHzT1Temp 1 [T1 OBW] -6.00 dBm 1.909647756 GHzT2Temp 2 [T1 OBW] -6.05 dBm 1.909952244 GHzDate: 7.JUN.2010 05:34:34 No.2010TAR232 Page55 of 71 A.6 BAND EDGE COMPLIANCE (22.917(b)/24.238(b)) GSM 850 LOW BAND EDGE BLOCK-A (GSM850)-Channel 128 HIGH BAND EDGE BLOCK-C (GSM850) Channel 251 A TDFAtt 30 dBRBW 3 kHz*SWT 300 msRef 35 dBmCenter824 MHzSpan2 MHz200 kHz/EXT*VBW 10 kHz**1 AVVIEW-100-80-60-40-200201Marker 1 [T1 ] -15.16 dBm 823.996794872 MHz2224Date: 7.JUN.2010 03:55:49 A TDFAtt 30 dBRBW 3 kHz*SWT 300 msRef 35 dBmCenter849 MHzSpan2 MHz200 kHz/EXT*VBW 10 kHz**1 AVVIEW-100-80-60-40-200201Marker 1 [T1 ] -16.35 dBm 849.025641026 MHz2224Date: 7.JUN.2010 03:56:18 GPRS 850 LOW BAND EDGE BLOCK-A (GSM850)-Channel 128 No.2010TAR232 Page56 of 71 HIGH BAND EDGE BLOCK-C (GSM850) Channel 251 A TDFAtt 30 dBRBW 3 kHz*SWT 300 msRef 35 dBmCenter824 MHzSpan2 MHz200 kHz/EXT*VBW 10 kHz**1 AVVIEW-100-80-60-40-200201Marker 1 [T1 ] -16.73 dBm 823.980769231 MHz2224Date: 7.JUN.2010 04:49:26 A TDFAtt 30 dBRBW 3 kHz*SWT 300 msRef 35 dBmCenter849 MHzSpan2 MHz200 kHz/EXT*VBW 10 kHz**1 AVVIEW-100-80-60-40-200201Marker 1 [T1 ] -16.65 dBm 849.016025641 MHz2224Date: 7.JUN.2010 04:49:53 EGPRS 850 LOW BAND EDGE BLOCK-A (GSM850)-Channel 128 No.2010TAR232 Page57 of 71 HIGH BAND EDGE BLOCK-C (GSM850) Channel 251 A TDFAtt 30 dBRBW 3 kHz*SWT 300 msRef 35 dBmCenter824 MHzSpan2 MHz200 kHz/EXT*VBW 10 kHz**1 AVVIEW-100-80-60-40-200201Marker 1 [T1 ] -23.48 dBm 823.964743590 MHz2224Date: 7.JUN.2010 05:24:00 A TDFAtt 30 dBRBW 3 kHz*SWT 300 msRef 35 dBmCenter849 MHzSpan2 MHz200 kHz/EXT*VBW 10 kHz**1 AVVIEW-100-80-60-40-200201Marker 1 [T1 ] -24.33 dBm 849.032051282 MHz2224Date: 7.JUN.2010 05:24:27 PCS 1900 LOW BAND EDGE BLOCK-A (PCS-1900)-Channel 512 No.2010TAR232 Page58 of 71 HIGH BAND EDGE BLOCK-C (PCS-1900) Channel 810 A TDFAtt 30 dBRBW 3 kHz*SWT 300 msRef 35 dBmCenter1.85 GHzSpan2 MHz200 kHz/EXT*VBW 10 kHz**1 AVVIEW-100-80-60-40-200201Marker 1 [T1 ] -19.25 dBm 1.849996795 GHz2224Date: 7.JUN.2010 04:08:37 A TDFAtt 30 dBRBW 3 kHz*SWT 300 msRef 35 dBmCenter1.91 GHzSpan2 MHz200 kHz/EXT*VBW 10 kHz**1 AVVIEW-100-80-60-40-200201Marker 1 [T1 ] -17.96 dBm 1.910019231 GHz2224Date: 7.JUN.2010 04:09:05 GPRS 1900 LOW BAND EDGE BLOCK-A (PCS-1900)-Channel 512 No.2010TAR232 Page59 of 71 HIGH BAND EDGE BLOCK-C (PCS-1900) Channel 810 A TDFAtt 30 dBRBW 3 kHz*SWT 300 msRef 35 dBmCenter1.85 GHzSpan2 MHz200 kHz/EXT*VBW 10 kHz**1 AVVIEW-100-80-60-40-200201Marker 1 [T1 ] -19.48 dBm 1.849983974 GHz2224Date: 7.JUN.2010 05:05:27 A TDFAtt 30 dBRBW 3 kHz*SWT 300 msRef 35 dBmCenter1.91 GHzSpan2 MHz200 kHz/EXT*VBW 10 kHz**1 AVVIEW-100-80-60-40-200201Marker 1 [T1 ] -19.68 dBm 1.910016026 GHz2224Date: 7.JUN.2010 05:05:55 EGPRS 1900 LOW BAND EDGE BLOCK-A (PCS-1900)-Channel 512 No.2010TAR232 Page60 of 71 HIGH BAND EDGE BLOCK-C (PCS-1900) Channel 810 A TDFAtt 30 dBRBW 3 kHz*SWT 300 msRef 35 dBmCenter1.85 GHzSpan2 MHz200 kHz/EXT*VBW 10 kHz**1 AVVIEW-100-80-60-40-200201Marker 1 [T1 ] -23.60 dBm 1.849987179 GHz2224Date: 7.JUN.2010 05:37:43 A TDFAtt 30 dBRBW 3 kHz*SWT 300 msRef 35 dBmCenter1.91 GHzSpan2 MHz200 kHz/EXT*VBW 10 kHz**1 AVVIEW-100-80-60-40-200201Marker 1 [T1 ] -24.40 dBm 1.910028846 GHz2224Date: 7.JUN.2010 05:38:11 No.2010TAR232 Page61 of 71 A.7 CONDUCTED SPURIOUS EMISSION (2.1057/22.917/24.238) A.7.1 Measurement Method The following steps outline the procedure used to measure the conducted emissions from the EUT. 1. Determine frequency range for measurements: From CFR 2.1057 the spectrum should be investigated from the lowest radio frequency generated in the equipment up to at least the 10th harmonic of the carrier frequency. For the equipment of PCS1900 band, this equates to a frequency range of 30 MHz to 19.1 GHz, data taken from 30 MHz to 20 GHz. For GSM850, data taken from 30 MHz to 9 GHz. 2. Determine EUT transmit frequencies: below outlines the band edge frequencies pertinent to conducted emissions testing. GSM850 Transmitter Channel 128 190 251 PCS1900 Transmitter Channel 512 661 810 A. 7.2 Measurement Limit Sec. 24.238 Emission Limits. Frequency (MHz) 824.2 836.6 848.8 Frequency (MHz) 1850.2 1880.0 1909.8

(a) On any frequency outside frequency band of the USPCS spectrum, the power of any emission shall be attenuated below the transmitter power (P, in Watts) by at least 43+10Log(P) dB. For all power levels +30 dBm to 0 dBm, this becomes a constant specification limit of -13 dBm. A. 7.3 Measurement result GSM850 Tx ch. 128 Harmonic 2 3 4 5 6 7 8 9 10 Freq.

(MHz) 1648.4 2472.6 3296.8 4121 4945.2 5769.4 6593.6 7417.8 8242 No.2010TAR232 Page62 of 71 Level

(dBm) nf nf nf nf nf nf nf nf nf Tx ch. 190 Freq.

(MHz) 1673.2 2509.8 3346.4 4183 5019.6 5856.2 6692.8 7529.4 8366 Level

(dBm) Tx ch. Freq.

(MHz) 251 Level

(dBm) nf nf nf nf nf nf nf nf nf 1697.6 2546.4 3395.2 4244 5092.8 5941.6 6790.4 7639.2 8488 nf nf nf nf nf nf nf nf nf nf: Noise floor A.7.3.1 Channel 128: 30MHz 4GHz Spurious emission limit 13dBm. NOTE: peak above the limit line is the carrier frequency. A TDFAtt 30 dBRBW 1 MHz*VBW 3 MHz*SWT 300 msRef 35 dBmStart30 MHzStop4 GHz397 MHz/EXT*1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] 30.39 dBm 825.272435897 MHz2Marker 2 [T1 ] -20.97 dBm 3.580096154 GHz2224Date: 7.JUN.2010 03:56:47 A.7.3.2 Channel 128: 4GHz 10GHz Spurious emission limit 13dBm. No.2010TAR232 Page63 of 71 A.7.3.3 Channel 190: 30MHz 4GHz Spurious emission limit 13dBm NOTE: peak above the limit line is the carrier frequency. A TDFAtt 30 dBRBW 1 MHz*VBW 3 MHz*SWT 300 msRef 35 dBmStart4 GHzStop10 GHz600 MHz/EXT*1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] -18.47 dBm 10.000000000 GHz2224Date: 7.JUN.2010 03:57:15 A TDFAtt 30 dBRBW 1 MHz*VBW 3 MHz*SWT 300 msRef 35 dBmStart30 MHzStop4 GHz397 MHz/EXT*1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] 30.42 dBm 837.996794872 MHz2Marker 2 [T1 ] -21.36 dBm 3.433766026 GHz2224Date: 7.JUN.2010 03:57:43 A.7.3.4 Channel 190: 4GHz 10GHz Spurious emission limit 13dBm No.2010TAR232 Page64 of 71 A.7.3.5 Channel 251: 30MHz 4GHz Spurious emission limit 13dBm. NOTE: peak above the limit line is the carrier frequency. A TDFAtt 30 dBRBW 1 MHz*VBW 3 MHz*SWT 300 msRef 35 dBmStart4 GHzStop10 GHz600 MHz/EXT*1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] -18.02 dBm 9.894230769 GHz2224Date: 7.JUN.2010 03:58:11 A TDFAtt 30 dBRBW 1 MHz*VBW 3 MHz*SWT 300 msRef 35 dBmStart30 MHzStop4 GHz397 MHz/EXT*1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] 30.39 dBm 850.721153846 MHz2Marker 2 [T1 ] -21.44 dBm 3.478301282 GHz2224Date: 7.JUN.2010 03:58:40 A.7.3.6 Channel 251: 4GHz 10GHz Spurious emission limit 13dBm. No.2010TAR232 Page65 of 71 A.7.3.7 Idle mode: 30MHz 4GHz Spurious emission limit 13dBm. A TDFAtt 30 dBRBW 1 MHz*VBW 3 MHz*SWT 300 msRef 35 dBmStart4 GHzStop10 GHz600 MHz/EXT*1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] -18.59 dBm 9.855769231 GHz2224Date: 7.JUN.2010 03:59:08 A TDFAtt 30 dBRBW 1 MHz*VBW 3 MHz*SWT 300 msRef 35 dBmStart30 MHzStop4 GHz397 MHz/EXT*1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] -21.26 dBm 3.586458333 GHz2224Date: 7.JUN.2010 03:59:36 A.7.3.8 Idle mode: 4GHz 10GHz Spurious emission limit 13dBm. No.2010TAR232 Page66 of 71 A TDFAtt 30 dBRBW 1 MHz*VBW 3 MHz*SWT 300 msRef 35 dBmStart4 GHzStop10 GHz600 MHz/EXT*1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] -17.98 dBm 9.951923077 GHz2224Date: 7.JUN.2010 04:00:04 No.2010TAR232 Page67 of 71 Level

(dBm) nf nf nf nf nf nf nf nf nf Tx ch. 661 Freq.

(MHz) 3760 5640 7520 9400 11280 13160 15040 16920 18800 Level

(dBm) nf nf nf nf nf nf nf nf nf Tx ch. 810 Freq.

(MHz) 3819.6 5729.4 7639.2 9549.0 11458.8 13368.6 15278.4 17188.2 19098.0 Level

(dBm) nf nf nf nf nf nf nf nf nf PCS1900 Harmonic 2 3 4 5 6 7 8 9 10 Tx ch. 512 Freq.

(MHz) 3700.4 5550.6 7400.8 9251.0 11101.2 12951.4 14801.6 16651.8 18502.0 nf: Noise floor A. 7.3.9 Channel 512: 30MHz 4GHz Spurious emission limit 13dBm. NOTE: peak above the limit line is the carrier frequency. A TDFAtt 30 dBRBW 1 MHz*VBW 3 MHz*SWT 300 msRef 35 dBmStart30 MHzStop4 GHz397 MHz/EXT*1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] 29.49 dBm 1.849583333 GHz2Marker 2 [T1 ] -20.31 dBm 3.535560897 GHz2224Date: 7.JUN.2010 04:09:34 A. 7.3.10 Channel 512: 4GHz 20GHz Spurious emission limit 13dBm. No.2010TAR232 Page68 of 71 A. 7.3.11 Channel 661: 30MHz 4GHz Spurious emission limit 13dBm NOTE: peak above the limit line is the carrier frequency. A TDFAtt 30 dBRBW 1 MHz*VBW 3 MHz*SWT 300 msRef 35 dBmStart4 GHzStop20 GHz1.6 GHz/EXT*1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] -14.06 dBm 18.948717949 GHz2224Date: 7.JUN.2010 04:10:02 A TDFAtt 30 dBRBW 1 MHz*VBW 3 MHz*SWT 300 msRef 35 dBmStart30 MHzStop4 GHz397 MHz/EXT*1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] 29.49 dBm 1.881394231 GHz2Marker 2 [T1 ] -21.00 dBm 3.541923077 GHz2224Date: 7.JUN.2010 04:10:30 A. 7.3.12 Channel 661: 4GHz 20GHz Spurious emission limit 13dBm No.2010TAR232 Page69 of 71 A. 7.3.13 Channel 810: 30MHz 4GHz Spurious emission limit 13dBm. NOTE: peak above the limit line is the carrier frequency. A TDFAtt 30 dBRBW 1 MHz*VBW 3 MHz*SWT 300 msRef 35 dBmStart4 GHzStop20 GHz1.6 GHz/EXT*1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] -13.49 dBm 19.205128205 GHz2224Date: 7.JUN.2010 04:10:58 A TDFAtt 30 dBRBW 1 MHz*VBW 3 MHz*SWT 300 msRef 35 dBmStart30 MHzStop4 GHz397 MHz/EXT*1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] 29.32 dBm 1.913205128 GHz2Marker 2 [T1 ] -21.18 dBm 3.198365385 GHz2224Date: 7.JUN.2010 04:11:27 A. 7.3.14 Channel 810: 4GHz 20GHz Spurious emission limit 13dBm. No.2010TAR232 Page70 of 71 A. 7.3.15 Idle mode: 30MHz 4GHz Spurious emission limit 13dBm. A TDFAtt 30 dBRBW 1 MHz*VBW 3 MHz*SWT 300 msRef 35 dBmStart4 GHzStop20 GHz1.6 GHz/EXT*1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] -14.16 dBm 19.051282051 GHz2224Date: 7.JUN.2010 04:11:55 A TDFAtt 30 dBRBW 1 MHz*VBW 3 MHz*SWT 300 msRef 35 dBmStart30 MHzStop4 GHz397 MHz/EXT*1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] -20.54 dBm 3.561009615 GHz2224Date: 7.JUN.2010 04:12:23 A. 7.3.16 Idle mode: 4GHz 20GHz Spurious emission limit -13dBm. No.2010TAR232 Page71 of 71

***END OF REPORT***

A TDFAtt 30 dBRBW 1 MHz*VBW 3 MHz*SWT 300 msRef 35 dBmStart4 GHzStop20 GHz1.6 GHz/EXT*1 PKVIEW-60-50-40-30-20-1001020301Marker 1 [T1 ] -13.93 dBm 19.102564103 GHz2224Date: 7.JUN.2010 04:12:51