TEST REPORT. No. I17Z60153-GTE01. for. TCL Communication Ltd. GSM Quad band/umts 3 Band/LTE 4 Band Mobile phone. Model Name: A574BL FCC ID: 2ACCJB079

TEST REPORT No. I7Z653-GTE for TCL Communication Ltd. GSM Quad band/umts 3 Band/LTE 4 Band Mobile phone Model Name: 574BL FCC ID: 2CCJB79 with Hardware Version: PIO Software Version: vg48 Issued Date: 27-3-6 Note: The test results in this test report relate only to the devices specified in this report. This report shall not be reproduced except in full without the written approval of CTTL. Test Laboratory: FCC 2.948 Listed: No.525429 CTTL,Telecommunication Technology Labs, cademy of Telecommunication Research, MIIT No. 52, Huayuan North Road, Haidian District, Beijing, P. R. China 9. Tel:+86()-6234633-252, Fax:+86()-6234633-254 Email: cttl_terminals@catr.cn, website: www.chinattl.com

REPORT HISTORY Report Number Revision Description Issue Date I7Z653-GTE Rev. st edition 27-3-6 I7Z653-GTE Rev. 2nd edition 27-5-25

No. I7Z653-GTE Page3 of 74 CONTENTS. TEST LBORTORY... 4.. TESTING LOCTION... 4.2. TESTING ENVIRONMENT... 4.3. PROJECT DT... 4.4. SIGNTURE... 4 2. CLIENT INFORMTION... 5 2.. PPLICNT INFORMTION... 5 2.2. MNUFCTURER INFORMTION... 5 3. EQUIPMENT UNDER TEST (EUT) ND NCILLRY EQUIPMENT (E)... 6 3.. BOUT EUT... 6 3.2. INTERNL IDENTIFICTION OF EUT USED DURING THE TEST... 6 3.3. INTERNL IDENTIFICTION OF E USED DURING THE TEST... 6 3.4. NORML CCESSORY SETTING... 6 3.5. GENERL DESCRIPTION... 6 4. REFERENCE DOCUMENTS... 7 4.. REFERENCE DOCUMENTS FOR TESTING... 7 5. LBORTORY ENVIRONMENT... 8 6. SUMMRY OF TEST RESULTS... 9 7. TEST EQUIPMENTS UTILIZED... NNEX : MESUREMENT RESULTS.... OUTPUT POWER....2 EMISSION LIMIT... 7.3 FREQUENCY STBILITY... 23.4 OCCUPIED BNDWIDTH... 26.5 EMISSION BNDWIDTH... 39.6 BND EDGE COMPLINCE... 5.7 CONDUCTED SPURIOUS EMISSION... 58

No. I7Z653-GTE Page4 of 74. Test Laboratory.. Testing Location Company Name: CTTL,Telecommunication Technology Labs, cademy of ddress: Telecommunication Research, MIIT No. 52, Huayuan North Road, Haidian District, Beijing, P. R. China 9. No. 5, Xueyuan Road, Haidian District, Beijing, P. R. China 9. Telephone: 866234633 Fax: 866234793.2. Testing Environment Normal Temperature: 5-35 Relative Humidity: 2-75%.3. Project data Testing Start Date: 26-2- Testing End Date: 26-2-3.4. Signature Shen Yi (Prepared this test report) Zhong Nan (Reviewed this test report) Sun Xiang Qian Deputy Director of the laboratory (pproved this test report)

No. I7Z653-GTE Page5 of 74 2. Client Information 2.. pplicant Information Company Name: TCL Communication Ltd. ddress /Post: City: 5F, C building, No. 232, Liang Jing Road ZhangJiang High-Tech Park, Pudong rea Shanghai, P.R. China. 223 Shanghai Postal Code: 223 Country: China Telephone: 86-2-3363544 Fax: 86-2-64662 2.2. Manufacturer Information Company Name: TCL Communication Ltd. ddress /Post: City: 5F, C building, No. 232, Liang Jing Road ZhangJiang High-Tech Park, Pudong rea Shanghai, P.R. China. 223 Shanghai Postal Code: 223 Country: China Telephone: 86-2-3363544 Fax: 86-2-64662

No. I7Z653-GTE Page6 of 74 3. Equipment Under Test (EUT) and ncillary Equipment (E) 3.. bout EUT Description Model Name FCC ID ntenna Output power Extreme vol. Limits Extremetemp. Tolerance GSM Quad band/umts 3 Band/LTE 4 Band Mobile phone 574BL 2CCJB79 Integrated 3.22dBm maximum EIRP measured for PCS9 3.5VDC to 4.35VDC (nominal: 3.7VDC) -3 C to +5 C Note: Components list, please refer to documents of the manufacturer; it is also included in the original test record of CTTL, Telecommunication Technology Labs, cademy of Telecommunication Research, MIIT The EUT is a variant model of 544R. ll the result is coming from the initial model. 3.2. Internal Identification of EUT used during the test EUT ID* IMEI HW Version SW Version / / PIO vg48 *EUT ID: is used to identify the test sample in the lab internally. 3.3. Internal Identification of E used during the test E ID* Description E Battery E2 Travel charger E Model CB27C(CB289C) Manufacturer BYD Capacitance 2mh E2 Model CB58GC2(CB58GDC2) Manufacturer TENPO *E ID: is used to identify the test sample in the lab internally. 3.4. Normal ccessory setting Fully charged battery was used during the test. 3.5. General Description The Equipment Under Test (EUT) is a model of GSM Quad band/umts 3 Band/LTE 4 Band Mobile phone with integrated antenna. Manual and specifications of the EUT were provided to fulfil the test.

No. I7Z653-GTE Page7 of 74 4. Reference Documents 4.. Reference Documents for testing The following documents listed in this section are referred for testing. Reference Title Version FCC Part 24 PERSONL COMMUNICTIONS SERVICES --5 Edition FCC Part 22 PUBLIC MOBILE SERVICES --5 NSI/TI-63-D NSI C63.4 KDB 9768 D Land Mobile FM or PM Communications Equipment Measurement and Performance Standards Methods of Measurement of Radio-Noise Emissions from Low-Voltage Electrical and Electronic Equipment in the Range of 9 khz to 4 GHz Measurement Guidance for Certification of Licensed Digital Transmitters Edition 25 24 v2r2

No. I7Z653-GTE Page8 of 74 5. LBORTORY ENVIRONMENT Control room / conducted chamber did not exceed following limits along the EMC testing: Temperature Min. = 5, Max. = 35 Relative humidity Min. =2 %, Max. = 8 % Shielding effectiveness > db Electrical insulation > 2 M Ground system resistance <.5 Fully-anechoic chamber 2 (8.6 meters 6. meters 3.85 meters) did not exceed following limits along the EMC testing: Temperature Min. = 5, Max. = 3 Relative humidity Min. = 35 %, Max. = 6 % Shielding effectiveness > db Electrical insulation > 2 M Ground system resistance < Site voltage standing-wave ratio (S VSWR) Between and 6 db, from GHz to 8GHz Uniformity of field strength Between and 6 db, from 8 to 4 MHz Semi-anechoic chamber 2 / Fully-anechoic chamber 3 ( meters 6.7 meters 6.5 meters) did not exceed following limits along the EMC testing: Temperature Min. = 5, Max. = 3 Relative humidity Min. = 35 %, Max. = 6 % Shielding effectiveness > db Electrical insulation > 2 M Ground system resistance <.5 Normalised site attenuation (NS) < ±3.5 db, 3 m distance Site voltage standing-wave ratio (S VSWR) Between and 6 db, from GHz to 8GHz Uniformity of field strength Between and 6 db, from 8 to 3 MHz

No. I7Z653-GTE Page9 of 74 6. SUMMRY OF TEST RESULTS Items List Clause in FCC rules Verdict Output Power 22.93(a)/24.232(c) P 2 Emission Limit 2.5/22.97/24.238 P 3 Frequency Stability 2.55/24.235 P 4 Occupied Bandwidth 2.49(h)(i) P 5 Emission Bandwidth 22.97(b)/24.238(b) P 6 Band Edge Compliance 22.97(b)/24.238(b) P 7 Conducted Spurious Emission 2.57/22.97/24.238 P

No. I7Z653-GTE Page of 74 7. Test Equipments Utilized NO. Description TYPE series CL DUE Calibration number MNUFCTURE DTE interval Test Receiver ESU26 235 R&S 27-3-2 year 2 Test Receiver ESU26 376 R&S 27--26 year 3 EMI ntenna VULB 963 32 Schwarzbeck 27--3 3 year 4 EMI ntenna 37 924 ETS-Lindgren 27-3 year 5 Universal Radio Communication CMU2 8646 R&S 27--27 year Tester 6 Universal Radio Communication E555C MY483683 gilent 27-2-25 year Tester 7 Spectrum nalyzer E444 MY4825642 gilent 27-3-2 year 8 EMI ntenna 97 77 Schwarzbeck 27-6-25 3 year 9 EMI ntenna VULB963 963-235 Schwarzbeck 27--29 3 year Signal Generator N583 MY49652 gilent 27-3-7 year Climate chamber SH-24 927454 ESPEC 27-2-4 2 year 2 Loop ntenna HFH2-Z2 829324/7 R&S 27-2- 3 year

No. I7Z653-GTE Page of 74 NNEX : MESUREMENT RESULTS. OUTPUT POWER.. Summary During the process of testing, the EUT was controlled via Rhode & Schwarz Digital Radio Communication tester (CMU) to ensure max power transmission and proper modulation. In all cases, output power is within the specified limits...2 Conducted..2. Method of Measurements The EUT was set up for the max output power with pseudo random data modulation. These measurements were done at 3 frequencies, 85.2 MHz, 88.MHz and 99.8MHz for PCS9 band; 824.4MHz, 836.6MHz and 848.8MHz for GSM85 band. (bottom, middle and top of operational frequency range). GSM85 Power step Nominal Peak output power (dbm) GSM 5 33dBm(2W) GPRS 3 33dBm(2W) EGPRS 6 33dBm(2W) Measurement result GSM(GMSK) Frequency(MHz) Power Step Output power(dbm) 824.2 5 32.7 836.6 5 32.2 848.8 5 32.8 GPRS(GMSK,Slot) Frequency(MHz) Power Step Output power(dbm) 824.2 3 32. 836.6 3 32. 848.8 3 32.5 EGPRS(8PSK,Slot) Frequency(MHz) Power Step Output power(dbm) 824.2 6 26.44 836.6 6 26.34 848.8 6 26.29

No. I7Z653-GTE Page2 of 74 PCS9 Power step Nominal Peak output power (dbm) GSM 3dBm(W) GPRS 3 3dBm(W) EGPRS 5 3dBm(W) Measurement result GSM(GMSK) Frequency(MHz) Power Step Output power(dbm) 85.2 29.22 88. 29. 99.8 29.3 GPRS(GMSK,Slot) Frequency(MHz) Power Step Output power(dbm) 85.2 3 29.5 88. 3 29.2 99.8 3 29.9 EGPRS(8PSK,Slot) Frequency(MHz) Power Step Output power(dbm) 85.2 5 25.38 88. 5 25.34 99.8 5 25.33

No. I7Z653-GTE Page3 of 74..3 Radiated..3. Description This is the test for the maximum radiated power from the EUT. Rule Part 24.232(c) specifies, "Mobile/portable stations are limited to 2 watts e.i.r.p. Peak power" and 24.232(c) specifies that "Peak transmit power must be measured over any interval of continuous transmission using instrumentation calibrated in terms of an rms-equivalent voltage." Rule Part 22.93(a) specifies The ERP of mobile transmitters and auxiliary test transmitters must not exceed 7 Watts...3.2 Method of Measurement The measurements procedures in TI-63D5 are used.. EUT was placed on a.5 meter high non-conductive stand at a 3 meter test distance from the receive antenna. receiving antenna was placed on the antenna mast 3 meters from the EUT for emission measurements. The height of receiving antenna is.5m. The test setup refers to figure below. Detected emissions were maximized at each frequency by rotating the EUT through 36 and adjusting the receiving antenna polarization. The radiated emission measurements of all transmit frequencies in three channels (High, Middle, Low) were measured with peak detector. 2. The EUT is then put into continuously transmitting mode at its maximum power level during the test. nd the maximum value of the receiver should be recorded as (Pr). 3. The EUT shall be replaced by a substitution antenna. The test setup refers to figure below. In the chamber, an substitution antenna for the frequency band of interest is placed at the reference point of the chamber. n RF Signal source for the frequency band of interest is connected to the substitution antenna with a cable that has been constructed to not interfere

No. I7Z653-GTE Page4 of 74 with the radiation pattern of the antenna. power (P Mea) is applied to the input of the substitution antenna, and adjust the level of the signal generator output until the value of the receiver reach the previously recorded (P r). The power of signal source (P Mea) is recorded. The test should be performed by rotating the test item and adjusting the receiving antenna polarization. 4. amplifier should be connected to the Signal Source output port. nd the cable should be connect between the mplifier and the Substitution ntenna. The cable loss (P cl),the Substitution ntenna Gain (G a) and the mplifier Gain (P g) should be recorded after test. The measurement results are obtained as described below: Power(EIRP)=P Mea- P g - P cl - G a 5. This value is EIRP since the measurement is calibrated using an antenna of known gain (2.5 dbi) and known input power. 6. ERP can be calculated from EIRP by subtracting the gain of the dipole, ERP = EIRP -2.5dBi.

No. I7Z653-GTE Page5 of 74 GSM 85-ERP Limits Power Step Burst Peak ERP (dbm) GSM 5 38.45dBm (7W) GPRS 3 38.45dBm (7W) EGPRS 6 38.45dBm (7W) Measurement result GSM Frequency(MHz) PMea(dBm) Pcl(dB) Pg(dB) Ga ntenna Gain(dB) Correction (db) ERP(dBm) Limit(dBm) Margin(dB) Polarization 824.2-5.35 2.26-45.79 -.96 2.5 26.99 38.45.46 H 836.6-5.5 2.26-45.66 -.82 2.5 26.92 38.45.53 H 848.8-3.99 2.28-45.54 -.79 2.5 27.9 38.45.54 V GPRS Frequency(MHz) PMea(dBm) Pcl(dB) Pg(dB) Ga ntenna Gain(dB) Correction (db) ERP(dBm) Limit(dBm) Margin(dB) Polarization 824.2-5.28 2.26-45.79 -.96 2.5 27.6 38.45.39 H 836.6-5. 2.26-45.66 -.82 2.5 26.97 38.45.48 H 848.8-3.79 2.28-45.54 -.79 2.5 28. 38.45.34 V EGPRS-8PSK Frequency(MHz) PMea(dBm) Pcl(dB) Pg(dB) Ga ntenna Gain(dB) Correction (db) ERP(dBm) Limit(dBm) Margin(dB) Polarization 824.2-2.8 2.26-45.79 -.96 2.5 2.54 38.45 7.9 H 836.6-2.23 2.26-45.66 -.82 2.5 2.84 38.45 7.6 V 848.8.46 2.28-45.54 -.79 2.5 2.44 38.45 7. V Frequency: 848.8MHz Peak ERP(dBm)=P Mea(-3.79dBm)-P cl(2.28db)-p g(-45.54db)-g a (-.79dB)-2.5dB=28.dBm NLYZER SETTINGS: RBW = VBW = 3MHz

No. I7Z653-GTE Page6 of 74 PCS9-EIRP Limits Power Step Burst Peak EIRP (dbm) GSM 33dBm (2W) GPRS 3 33dBm (2W) EGPRS 5 33dBm (2W) Measurement result GSM Frequency(MHz) PMea(dBm) Pcl(dB) Pg(dB) Ga ntenna Gain(dB) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 85.2-4.47 2.93-43.75-4.87 3.22 33..78 H 88. -4.68 2.85-43.75-4.82 3.4 33..96 H 99.8-4.52 2.89-43.77-4.76 3.2 33..88 H GPRS Frequency(MHz) PMea(dBm) Pcl(dB) Pg(dB) Ga ntenna Gain(dB) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 85.2-4.48 2.93-43.75-4.87 3.2 33..79 H 88. -4.7 2.85-43.75-4.82 3. 33..99 H 99.8-4.56 2.89-43.77-4.76 3.8 33..92 H EGPRS-8PSK Frequency(MHz) PMea(dBm) Pcl(dB) Pg(dB) Ga ntenna Gain(dB) EIRP(dBm) Limit(dBm) Margin(dB) Polarization 85.2-8.89 2.93-43.75-4.87 26.8 33. 6.2 H 88. -9.9 2.85-43.75-4.82 26.53 33. 6.47 H 99.8-9.22 2.89-43.77-4.76 26.42 33. 6.58 H Frequency: 85.2MHz Peak EIRP(dBm)= P Mea(-4.47dBm) - P cl(2.93db) - P g(-43.75db) - G a (-4.87dB) = 3.22dBm NLYZER SETTINGS: RBW = VBW = 3MHz

No. I7Z653-GTE Page7 of 74.2 EMISSION LIMIT.2. Measurement Method The measurement procedures in TI-63D5 are used. The spectrum was scanned from 3 MHz to the th harmonic of the highest frequency generated within the equipment, which is the transmitted carrier that can be as high as 9 MHz. The resolution bandwidth is set as outlined in Part 24.238 and Part 22.97. The spectrum is scanned with the mobile station transmitting at carrier frequencies that pertain to low, mid and high channels of PCS9 and GSM85. The procedure of radiated spurious emissions is as follows:. EUT was placed on a.5 meter high non-conductive stand at a 3 meter test distance from the receive antenna. receiving antenna was placed on the antenna mast 3 meters from the EUT for emission measurements. The height of receiving antenna is.5m. The test setup refers to figure below. Detected emissions were maximized at each frequency by rotating the EUT through 36 and adjusting the receiving antenna polarization. The radiated emission measurements of all non-harmonic and harmonics of the transmit frequency through the th harmonic were measured with peak detector. 2. The EUT is then put into continuously transmitting mode at its maximum power level during the test. nd the maximum value of the receiver should be recorded as (Pr). 3. The EUT shall be replaced by a substitution antenna. The test setup refers to figure below. In the chamber, an substitution antenna for the frequency band of interest is placed at the reference point of the chamber. n RF Signal source for the frequency band of interest is connected to the substitution antenna with a cable that has been constructed to not interfere with the radiation pattern of the antenna. power (P Mea) is applied to the input of the

No. I7Z653-GTE Page8 of 74 substitution antenna, and adjust the level of the signal generator output until the value of the receiver reach the previously recorded (P r). The power of signal source (P Mea) is recorded. The test should be performed by rotating the test item and adjusting the receiving antenna polarization. 4. The Path loss (P pl) between the Signal Source with the Substitution ntenna and the Substitution ntenna Gain (G a) should be recorded after test. amplifier should be connected in for the test. The Path loss (P pl) is the summation of the cable loss and the gain of the amplifier. The measurement results are obtained as described below: Power(EIRP)=P Mea - P pl - G a 5. This value is EIRP since the measurement is calibrated using an antenna of known gain (2.5 dbi) and known input power. 6. ERP can be calculated from EIRP by subtracting the gain of the dipole, ERP = EIRP -2.5dBi.

No. I7Z653-GTE Page9 of 74.2.2 Measurement Limit Part 24.238 and Part 22.97 specify that the power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitting power (P) by a factor of at least 43 + log(p) db. The specification that emissions shall be attenuated below the transmitter power (P) by at least 43 + log (P) db, translates in the relevant power range ( to. W) to -3 dbm. t W the specified minimum attenuation becomes 43 db and relative to a 3 dbm ( W) carrier becomes a limit of -3 dbm. t. W ( dbm) the minimum attenuation is 3 db, which again yields a limit of -3 dbm. In this way a translation of the specification from relative to absolute terms is carried out..2.3 Measurement Results Radiated emissions measurements were made only at the upper, middle, and lower carrier frequencies of the PCS9 band (85.2 MHz, 88 MHz and 99.8 MHz) and GSM85 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 PCS9,GSM85 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.

No. I7Z653-GTE Page2 of 74.2.4 Measurement Results Table Frequency Channel Frequency Range Result GSM 85MHz Low 3MHz-GHz Pass Middle 3MHz-GHz Pass High 3MHz-GHz Pass GSM 9MHz Low 3MHzGHz Pass Middle 3MHzGHz Pass High 3MHzGHz Pass.2.5 Sweep Table Working Frequency 85MHz 9MHz Subrange (GHz) RBW VBW Sweep time (s).3~ KHz 3KHz -2 MHz 3 MHz 2 2~5 MHz 3 MHz 3 5~8 MHz 3 MHz 3 8~ MHz 3 MHz 3.3~ KHz 3KHz -2 MHz 3 MHz 2 2~5 MHz 3 MHz 3 5~8 MHz 3 MHz 3 8~ MHz 3 MHz 3 ~4 MHz 3 MHz 3 4~8 MHz 3 MHz 3 8~2 MHz 3 MHz 2

No. I7Z653-GTE Page2 of 74 GSM Mode Channel 28/824.2MHz Frequency(MHz) P Mea(dBm) Path ntenna Correction Peak Limit Loss Gain (db) ERP(dBm) (dbm) Margin(dB) Polarization 648.4-49.86 3.9-5.23 2.5-5.68-3. 37.68 V 2472.58-35.52 4.76-6.2 2.5-36.4-3. 23.4 V 3284.5-43.5 5.49-7.68 2.5-43.46-3. 3.46 V 478.84-6.59 6.5-8.98 2.5-59.9-3. 46.9 H 4837.78-6.3 6.63-9.74 2.5-6.7-3. 47.7 H 566.4-4. 7.8 -.58 2.5-38.75-3. 25.75 V GSM Mode Channel 9/836.6MHz Frequency(MHz) P Mea(dBm) Path ntenna Correction Peak Limit Loss Gain (db) ERP(dBm) (dbm) Margin(dB) Polarization 673.34-5.2 3.9-5.9 2.5-5.7-3. 38.7 V 259.95-37.43 4.79-6.2 2.5-38.25-3. 25.25 V 3336.93-6.33 5.56-7.8 2.5-6.23-3. 47.23 H 446.67-59.99 6.7-9.5 2.5-59.26-3. 46.26 H 4944.76-67.36 6.74-9.84 2.5-66.4-3. 53.4 V 5724. -67.99 7.23 -.56 2.5-66.8-3. 53.8 V GSM Mode Channel 25/848.8MHz Frequency(MHz) P Mea(dBm) Path ntenna Correction Peak Limit Loss Gain (db) ERP(dBm) (dbm) Margin(dB) Polarization 697.54-49.4 4. -5.4 2.5-5.5-3. 37.5 V 2546.8-33.2 4.8-6.8 2.5-33.79-3. 2.79 V 3323.86-67.95 5.57-7.78 2.5-67.89-3. 54.89 V 49.62-66.52 6.2-9.9 2.5-65.78-3. 52.78 H 4927.3-63.22 6.72-9.83 2.5-62.26-3. 49.26 V 578.77-64.93 7.26 -.54 2.5-63.8-3. 5.8 H

No. I7Z653-GTE Page22 of 74 GSM Mode Channel 52/85.2MHz Frequency(MHz) P Mea(dBm) Path ntenna Peak Limit Loss Gain EIRP(dBm) (dbm) Margin(dB) Polarization 3787.99-65.82 5.89-8.6-63. -3. 5. H 555.9-49.98 7.2 -.59-46.5-3. 33.5 H 7775.4-62.66 8.33-2.42-58.57-3. 45.57 H 963.72-6.5 9.23-3.27-57. -3. 44. V 62.22-57.2.32-3.8-54.36-3. 4.36 V 3225.86-57.2.8-3.82-54.28-3. 4.28 H GSM Mode Channel 66/88.MHz Frequency(MHz) P Mea(dBm) Path ntenna Peak Limit Loss Gain EIRP(dBm) (dbm) Margin(dB) Polarization 376.9-58.35 5.86-8.56-55.65-3. 42.65 H 564.2-52.7 7.22 -.57-48.72-3. 35.72 H 7633.72-65.83 8.34-2.3-6.86-3. 48.86 H 957.9-64.9 9.26-3.33-6.2-3. 47.2 H 422.25-58.85.9-3.2-55.92-3. 42.92 H 327.25-54.54.9-3.79-5.84-3. 38.84 V GSM Mode Channel 8/99.8MHz Frequency(MHz) P Mea(dBm) Path ntenna Peak Limit Loss Gain EIRP(dBm) (dbm) Margin(dB) Polarization 3763.36-64.74 5.86-8.57-62.3-3. 49.3 H 5729.66-49.59 7.24 -.55-46.28-3. 33.28 H 7524.5-59.98 8.37-2.22-56.3-3. 43.3 H 964.3-66.2 9.2-3.26-62.5-3. 49.5 V 69.4-59.75.33-3.6-57.2-3. 44.2 H 3623.2-52.2.29-4.27-49.23-3. 36.23 V

No. I7Z653-GTE Page23 of 74.3 FREQUENCY STBILITY.3. Method of Measurement In order to measure the carrier frequency under the condition of FC lock, it is necessary to make measurements with the EUT in a call mode. This is accomplished with the use of R&S CMU2 DIGITL RDIO COMMUNICTION TESTER.. Measure the carrier frequency at room temperature. 2. Subject the EUT to overnight soak at -3. 3. With the EUT, powered via nominal voltage, connected to the CMU2 and in a simulated call on mid channel of PCS 9 and GSM85, 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 increments from -3 to +5. llow at least /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.volt increments remeasuring carrier frequency at each voltage. Pause at nominal voltage for /2 hours unpowered, to allow any self-heating to stabilize, before continuing. 6. Subject the EUT to overnight soak at +5. 7. With the EUT, powered via nominal voltage, connected to the CMU2 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 C increments from +5 to -3. llow at least /2 hours at each temperature, unpowered, before making measurements. 9. t all temperature levels hold the temperature to +/-.5 during the measurement procedure..3.2 Measurement Limit.3.2. For Hand carried battery powered equipment ccording to the JTC standard the frequency stability of the carrier shall be accurate to within. 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. s this transceiver is considered "Hand carried, battery powered equipment" Section 2.55(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 4.35VDC, with a nominal voltage of 3.7VDC. 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 - % and +2.5 %. For the purposes of measuring frequency stability these voltage limits are to be used..3.2.2 For equipment powered by primary supply voltage ccording to the JTC standard the frequency stability of the carrier shall be accurate to within. 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. I7Z653-GTE Page24 of 74 2.55(d)() applies. This requires varying primary supply voltage from 85 to 5 percent of the nominal value for other than hand carried battery equipment..3.3 Measurement results GSM 85 Frequency Error vs Voltage Voltage(V) Frequency error(hz) Frequency error(ppm) 3.5 3.5 3.7 3.6 4.35 4.4 Frequency Error vs Temperature temperature( ) Frequency error(hz) Frequency error(ppm) -3 23.28 3.6-8.9-24.29-25.3 2 3.5 3. 4-6.7 5 2.4 EGPRS 85-8PSK Frequency Error vs Voltage Voltage(V) Frequency error(hz) Frequency error(ppm) 3.5-69.83 3.7-65.77 4.35-62.74 Frequency Error vs Temperature temperature( ) Frequency error(hz) Frequency error(ppm) -3-63.76-63.75 - -65.78-63.75-66.79 2-75.89 3-64.77 4-69.82 5-59.7

No. I7Z653-GTE Page25 of 74 PCS 9 Frequency Error vs Voltage Voltage(V) Frequency error(hz) Frequency error(ppm) 3.5 6.3 3.7-7.9 4.35-4.7 Frequency Error vs Temperature temperature( ) Frequency error(hz) Frequency error(ppm) -3-6.9-4.8 - -4.8-2.7-3.7 2-2.7 3-7.9 4-7.9 5-4.7 EGPRS 9-8PSK Frequency Error vs Voltage Voltage(V) Frequency error(hz) Frequency error(ppm) 3.5-62.33 3.7-69.37 4.35-54.29 Frequency Error vs Temperature temperature( ) Frequency error(hz) Frequency error(ppm) -3-5.27-6.32 - -58.3-6.32-69.37 2-54.29 3-54.29 4-48.26 5-54.29

No. I7Z653-GTE Page26 of 74.4 OCCUPIED BNDWIDTH Reference FCC: CFR Part 2.49(h)(i).4. Occupied Bandwidth Results Occupied bandwidth measurements are only provided for selected frequencies in order to reduce the amount of submitted data. Data were taken at the extreme and mid frequencies of the US Cellular/PCS frequency bands. The table below lists the measured 99% BW. Spectrum analyzer plots are included on the following pages. The measurement method is from KDB 9768 4.2: a) The spectrum analyzer center frequency is set to the nominal EUT channel center frequency. The frequency span for the spectrum analyzer shall be set wide enough to capture all modulation products including the emission skirts (i.e., two to five times the OBW). b) The nominal IF filter bandwidth (3 db RBW) shall be in the range of to 5 % of the anticipated OBW, and the VBW shall be at least 3 times the RBW. c) Set the reference level of the instrument as required to keep the signal from exceeding the maximum input mixer level for linear operation. In general, the peak of the spectral envelope must be at least log (OBW / RBW) below the reference level. d) Set the detection mode to peak, and the trace mode to max hold. e) Use the 99 % power bandwidth function of the spectrum analyzer and report the measured bandwidth.

No. I7Z653-GTE Page27 of 74 GSM 85(99% BW) Frequency(MHz) Occupied Bandwidth (99% BW)( khz) 824.2 245.92 836.6 244.39 848.8 245.92 GSM 85 Channel 28-Occupied Bandwidth (99% BW) * VBW 2 khz 28.25 dbm Ref 3 dbm tt 35 db SWT 2 ms 824.78365385 MHz 3 OBW245.9237692 khz Temp [T OBW] P * 2 T 2.55 dbm T2 824.7743846 MHz Temp 2 [T OBW] 3.89 dbm 824.32259654 MHz - -3-4 -5-6 -7 Center 824.2 MHz 5 khz/ Span 5 khz Date: 2.DEC.26 :48:5

No. I7Z653-GTE Page28 of 74 Channel 9-Occupied Bandwidth (99% BW) Ref 3 dbm tt 35 db * VBW 2 khz SWT 2 ms 29.59 dbm 836.57596538 MHz 3 OBW244.392564 khz Temp [T OBW] 2 T 4.79 dbm T2 836.47964 MHz P * Temp 2 [T OBW] 4.3 dbm 836.723397436 MHz - -3-4 -5-6 -7 Center 836.6 MHz 5 khz/ Span 5 khz Date: 2.DEC.26 :49:22 Channel 25-Occupied Bandwidth (99% BW) * VBW 2 khz 28.22 dbm Ref 3 dbm tt 35 db SWT 2 ms 848.78477564 MHz 3 OBW245.9237692 khz Temp [T OBW] P * 2 T 3.58 dbm T2 848.67743846 MHz Temp 2 [T OBW] 4.86 dbm 848.92259654 MHz - -3-4 -5-6 -7 Center 848.8 MHz 5 khz/ Span 5 khz Date: 2.DEC.26 :49:54

No. I7Z653-GTE Page29 of 74 GPRS 85(99% BW) Frequency(MHz) Occupied Bandwidth (99% BW)( khz) 824.2 243.59 836.6 24.385 848.8 24.987 GPRS 85 Channel 28-Occupied Bandwidth (99% BW) * VBW 2 khz 28.3 dbm Ref 3 dbm tt 35 db SWT 2 ms 824.938465 MHz 3 OBW243.58974359 khz Temp [T OBW] P * 2 T 3.6 dbm T2 824.782528 MHz Temp 2 [T OBW] 5.6 dbm 824.32794872 MHz - -3-4 -5-6 -7 Center 824.2 MHz 5 khz/ Span 5 khz Date: 2.DEC.26 2:54:43

No. I7Z653-GTE Page3 of 74 Channel 9-Occupied Bandwidth (99% BW) Ref 3 dbm tt 35 db * VBW 2 khz SWT 2 ms 29.2 dbm 836.627949 MHz 3 OBW24.38465385 khz Temp [T OBW] P * 2 T 4.58 dbm T2 836.47987692 MHz Temp 2 [T OBW] 3.7 dbm 836.729238 MHz - -3-4 -5-6 -7 Center 836.6 MHz 5 khz/ Span 5 khz Date: 2.DEC.26 2:55:6 Channel 25-Occupied Bandwidth (99% BW) * VBW 2 khz 27.96 dbm Ref 3 dbm tt 35 db SWT 2 ms 848.88843 MHz 3 OBW24.98779487 khz Temp [T OBW] P * 2 T 3.38 dbm T2 848.67964 MHz Temp 2 [T OBW] 3.3 dbm 848.9299359 MHz - -3-4 -5-6 -7 Center 848.8 MHz 5 khz/ Span 5 khz Date: 2.DEC.26 2:55:48

No. I7Z653-GTE Page3 of 74 EGPRS 85-8PSK(99% BW) Frequency(MHz) Occupied Bandwidth (99% BW)( khz) 824.2 243.59 836.6 242.788 848.8 247.596 EGPRS 85-8PSK Channel 28-Occupied Bandwidth (99% BW) * VBW 2 khz 2.33 dbm Ref 3 dbm tt 35 db SWT 2 ms 824.246667 MHz 3 OBW243.58974359 khz Temp [T OBW] 2 5.4 dbm 824.782528 MHz P * T Temp 2 [T OBW] T2 7.5 dbm 824.32794872 MHz - -3-4 -5-6 -7 Center 824.2 MHz 5 khz/ Span 5 khz Date: 2.DEC.26 22::2

No. I7Z653-GTE Page32 of 74 Channel 9-Occupied Bandwidth (99% BW) Ref 3 dbm tt 35 db * VBW 2 khz SWT 2 ms 2.4 dbm 836.585753 MHz 3 OBW242.78846538 khz Temp [T OBW] 2 4.6 dbm 836.47964 MHz P * T Temp 2 [T OBW] 5. dbm T2 836.72794872 MHz - -3-4 -5-6 -7 Center 836.6 MHz 5 khz/ Span 5 khz Date: 2.DEC.26 22::54 Channel 25-Occupied Bandwidth (99% BW) Ref 3 dbm tt 35 db * VBW 2 khz SWT 2 ms 2.33 dbm 848.82323779 MHz 3 OBW247.59653846 khz 2 Temp [T OBW] 3.93 dbm 848.675 MHz P * T Temp 2 [T OBW] 3.97 dbm T2 848.92259654 MHz - -3-4 -5-6 -7 Center 848.8 MHz 5 khz/ Span 5 khz Date: 2.DEC.26 22::26

No. I7Z653-GTE Page33 of 74 PCS 9(99% BW) Frequency(MHz) Occupied Bandwidth (99% BW)( khz) 85.2 24.987 88. 243.59 99.8 246.795 PCS 9 Channel 52-Occupied Bandwidth (99% BW) Ref 3 dbm tt 35 db 3 * VBW 2 khz SWT 2 ms 25.54 dbm.852689 GHz OBW24.98779487 khz Temp [T OBW] 2.48 dbm.857825 GHz P * T T2 Temp 2 [T OBW] 9.66 dbm.853292 GHz - -3-4 -5-6 -7 Center.852 GHz 5 khz/ Span 5 khz Date: 2.DEC.26 2:5:29

No. I7Z653-GTE Page34 of 74 Channel 66-Occupied Bandwidth (99% BW) Ref 3 dbm tt 35 db * VBW 2 khz SWT 2 ms 25.6 dbm.886656 GHz 3 OBW243.58974359 khz Temp [T OBW] 2.2 dbm.87987744 GHz P * T T2 Temp 2 [T OBW] 9.8 dbm.882994 GHz - -3-4 -5-6 -7 Center.88 GHz 5 khz/ Span 5 khz Date: 2.DEC.26 2:6: Channel 8-Occupied Bandwidth (99% BW) Ref 3 dbm tt 35 db * VBW 2 khz SWT 2 ms 25.3 dbm.998689 GHz 3 OBW246.79487795 khz Temp [T OBW] 2.2 dbm.9967663 GHz P * T Temp T2 2 [T OBW] 9.69 dbm.99923397 GHz - -3-4 -5-6 -7 Center.998 GHz 5 khz/ Span 5 khz Date: 2.DEC.26 2:6:34

No. I7Z653-GTE Page35 of 74 GPRS 9(99% BW) Frequency(MHz) Occupied Bandwidth (99% BW)( khz) 85.2 242.788 88. 244.39 99.8 243.59 GPRS 9 Channel 52-Occupied Bandwidth (99% BW) * VBW 2 khz 24.75 dbm Ref 3 dbm tt 35 db SWT 2 ms.85246 GHz 3 OBW242.78846539 khz Temp [T OBW] 2.2 dbm.857825 GHz P * T Temp 2 [T OBW] T2 8.89 dbm.8532994 GHz - -3-4 -5-6 -7 Center.852 GHz 5 khz/ Span 5 khz Date: 2.DEC.26 3:2:53

No. I7Z653-GTE Page36 of 74 Channel 66-Occupied Bandwidth (99% BW) Ref 3 dbm tt 35 db * VBW 2 khz SWT 2 ms 25.2 dbm.879985577 GHz 3 OBW244.392564 khz Temp [T OBW] 2 9.98 dbm.87987825 GHz P * T Temp T2 2 [T OBW].59 dbm.8822596 GHz - -3-4 -5-6 -7 Center.88 GHz 5 khz/ Span 5 khz Date: 2.DEC.26 3:3:25 Channel 8-Occupied Bandwidth (99% BW) Ref 3 dbm tt 35 db * VBW 2 khz SWT 2 ms 24.5 dbm.99783974 GHz 3 OBW243.58974359 khz Temp [T OBW] 2 9.49 dbm.9967825 GHz P * T Temp 2 [T OBW] T2 9.4 dbm.9992795 GHz - -3-4 -5-6 -7 Center.998 GHz 5 khz/ Span 5 khz Date: 2.DEC.26 3:3:57

No. I7Z653-GTE Page37 of 74 EGPRS 9-8PSK(99% BW) Frequency(MHz) Occupied Bandwidth (99% BW)( khz) 85.2 243.59 88. 243.59 99.8 243.59 EGPRS 9-8PSK Channel 52-Occupied Bandwidth (99% BW) * VBW 2 khz 2.97 dbm Ref 3 dbm tt 35 db SWT 2 ms.8579968 GHz 3 OBW243.58974359 khz Temp [T OBW] 2 4.3 dbm.857744 GHz P * T Temp 2 [T OBW] 5.8 dbm T2.8532994 GHz - -3-4 -5-6 -7 Center.852 GHz 5 khz/ Span 5 khz Date: 2.DEC.26 22:34:57

No. I7Z653-GTE Page38 of 74 Channel 66-Occupied Bandwidth (99% BW) Ref 3 dbm tt 35 db * VBW 2 khz SWT 2 ms 2.96 dbm.879984776 GHz 3 OBW243.58974359 khz Temp [T OBW] 2 6.2 dbm.87987825 GHz P * T Temp 2 [T OBW] 5.38 dbm T2.882795 GHz - -3-4 -5-6 -7 Center.88 GHz 5 khz/ Span 5 khz Date: 2.DEC.26 22:35:28 Channel 8-Occupied Bandwidth (99% BW) Ref 3 dbm tt 35 db * VBW 2 khz SWT 2 ms 2.67 dbm.99863 GHz 3 OBW243.58974359 khz Temp [T OBW] 2 4.53 dbm.996796 GHz P * T Temp 2 [T OBW] 4.59 dbm T2.99922596 GHz - -3-4 -5-6 -7 Center.998 GHz 5 khz/ Span 5 khz Date: 2.DEC.26 22:36:

No. I7Z653-GTE Page39 of 74.5 EMISSION BNDWIDTH Reference FCC: CFR Part 22.97(b), 24.238(a).5.Emission Bandwidth Results The emission bandwidth is defined as the width of the signal between two points, one below the carrier center frequency and one above the carrier center frequency, outside of which all emissions are attenuated at least 26 db below the transmitter power. GSM 85 Frequency(MHz) Emission Bandwidth ( khz) 824.2 38. 836.6 37.3 848.8 3.9 GSM 85 Channel 28-Emission Bandwidth * VBW 2 khz 28.7 dbm Ref 3 dbm tt 55 db SWT 2 ms 824.92788462 MHz 3 ndb [T] 26. db BW 38.8974359 khz 2 Temp [T ndb].83 dbm PK 824.4544872 MHz Temp 2 [T ndb] T 2.7 dbm T2 824.358653846 MHz - -3-4 -5-6 -7 Center 824.2 MHz 5 khz/ Span 5 khz Date: 2.DEC.26 :5:2

No. I7Z653-GTE Page4 of 74 Channel 9-Emission Bandwidth Ref 3 dbm tt 55 db * VBW 2 khz SWT 2 ms 28.76 dbm 836.6568974 MHz PK 3 2 T ndb [T] 26. db BW 37.3769238 khz Temp [T ndb] 2.86 dbm 836.43974359 MHz Temp 2 [T ndb] 2.33 dbm T2 836.7575282 MHz - -3-4 -5-6 -7 Center 836.6 MHz 5 khz/ Span 5 khz Date: 2.DEC.26 :52: Channel 25-Emission Bandwidth Ref 3 dbm tt 55 db * VBW 2 khz SWT 2 ms 29.3 dbm 848.8256426 MHz PK 3 2 T ndb [T] 26. db BW 3.897435897 khz Temp [T ndb] 3. dbm 848.64455282 MHz Temp 2 [T ndb] T2 3.4 dbm 848.95544878 MHz - -3-4 -5-6 -7 Center 848.8 MHz 5 khz/ Span 5 khz Date: 2.DEC.26 :53:7

No. I7Z653-GTE Page4 of 74 GPRS 85 Frequency(MHz) Emission Bandwidth ( khz) 824.2 38. 836.6 34.9 848.8 3.9 GPRS 85 Channel 28-Emission Bandwidth PK Ref 3 dbm tt 55 db 3 2 T * VBW 2 khz SWT 2 ms 27.97 dbm 824.7966667 MHz ndb [T] 26. db BW 38.8974359 khz Temp [T ndb] 2.4 dbm 824.434654 MHz Temp 2 [T ndb].46 dbm T2 824.35945528 MHz - -3-4 -5-6 -7 Center 824.2 MHz 5 khz/ Span 5 khz Date: 2.DEC.26 2:56:56

No. I7Z653-GTE Page42 of 74 Channel 9-Emission Bandwidth Ref 3 dbm tt 55 db 3 * VBW 2 khz SWT 2 ms 28.4 dbm 836.68282 MHz ndb [T] 26. db BW 34.9384654 khz PK 2 T Temp [T ndb] 2.9 dbm 836.44375 MHz Temp 2 [T ndb] T2 2.48 dbm 836.758653846 MHz - -3-4 -5-6 -7 Center 836.6 MHz 5 khz/ Span 5 khz Date: 2.DEC.26 2:58:3 Channel 25-Emission Bandwidth Ref 3 dbm tt 55 db 3 * VBW 2 khz SWT 2 ms 28.94 dbm 848.785753 MHz ndb [T] 26. db BW 3.897435897 khz PK 2 T Temp [T ndb] 3.5 dbm 848.645352564 MHz Temp 2 [T ndb] T2 2.86 dbm 848.95625 MHz - -3-4 -5-6 -7 Center 848.8 MHz 5 khz/ Span 5 khz Date: 2.DEC.26 2:59:

No. I7Z653-GTE Page43 of 74 EGPRS 85-8PSK Frequency(MHz) Emission Bandwidth ( khz) 824.2 33.3 836.6 36.89 848.8 37.69 EGPRS 85-8PSK Channel 28-Emission Bandwidth Ref 3 dbm tt 55 db * VBW 2 khz SWT 2 ms 2.38 dbm 824.2 MHz PK 3 2 T ndb [T] 26. db BW 33.32825 khz Temp [T ndb] -5.48 dbm 824.4455282 MHz Temp 2 [T ndb] -3.68 dbm 824.357852564 MHz T2 - -3-4 -5-6 -7 Center 824.2 MHz 5 khz/ Span 5 khz Date: 2.DEC.26 22:2:34

No. I7Z653-GTE Page44 of 74 Channel 9-Emission Bandwidth Ref 3 dbm tt 55 db * VBW 2 khz SWT 2 ms 2.66 dbm 836.58798769 MHz PK 3 2 T ndb [T] 26. db BW 36.892564 khz Temp [T ndb] -4.7 dbm 836.4477564 MHz Temp 2 [T ndb] -4.62 dbm 836.754647436 MHz T2 - -3-4 -5-6 -7 Center 836.6 MHz 5 khz/ Span 5 khz Date: 2.DEC.26 22:3:4 Channel 25-Emission Bandwidth Ref 3 dbm tt 55 db * VBW 2 khz SWT 2 ms 2.34 dbm 848.76538462 MHz PK 3 2 T ndb [T] 26. db BW 37.69237692 khz Temp [T ndb] -4.44 dbm 848.64455282 MHz Temp 2 [T ndb] -4.8 dbm 848.95224359 MHz T2 - -3-4 -5-6 -7 Center 848.8 MHz 5 khz/ Span 5 khz Date: 2.DEC.26 22:4:48

No. I7Z653-GTE Page45 of 74 PCS 9 Frequency(MHz) Emission Bandwidth ( khz) 85.2 3.9 88. 34. 99.8 34. PCS 9 Channel 52-Emission Bandwidth * VBW 2 khz 25.95 dbm Ref 3 dbm tt 55 db SWT 2 ms.8526656 GHz 3 ndb [T] 26. db BW 3.897435897 khz 2 Temp [T ndb] -.3 dbm PK.8545353 GHz Temp 2 [T ndb] -.33 dbm T.8535625 T2 GHz - -3-4 -5-6 -7 Center.852 GHz 5 khz/ Span 5 khz Date: 2.DEC.26 2:7:42

No. I7Z653-GTE Page46 of 74 Channel 66-Emission Bandwidth * VBW 2 khz 26.4 dbm Ref 3 dbm tt 55 db SWT 2 ms.88689 GHz 3 ndb [T] 26. db BW 34.25642 khz 2 Temp [T ndb] -.2 dbm PK.87984455 GHz Temp 2 [T ndb] -.24 dbm T.8858654 T2 GHz - -3-4 -5-6 -7 Center.88 GHz 5 khz/ Span 5 khz Date: 2.DEC.26 2:8:5 Channel 8-Emission Bandwidth Ref 3 dbm tt 55 db * VBW 2 khz SWT 2 ms 25.57 dbm.998689 GHz 3 ndb [T] 26. db BW 34.25643 khz 2 Temp [T ndb] -.34 dbm PK.99642949 GHz Temp 2 [T ndb].7 dbm T.999575 T2 GHz - -3-4 -5-6 -7 Center.998 GHz 5 khz/ Span 5 khz Date: 2.DEC.26 2:9:58

No. I7Z653-GTE Page47 of 74 GPRS 9 Frequency(MHz) Emission Bandwidth ( khz) 85.2 35.7 88. 35.7 99.8 39.7 GPRS 9 Channel 52-Emission Bandwidth Ref 3 dbm tt 55 db * VBW 2 khz SWT 2 ms 25.45 dbm.8579968 GHz 3 ndb [T] 26. db BW 35.752825 khz 2 Temp [T ndb] -.53 dbm PK.8542949 GHz Temp 2 [T ndb] -.56 dbm T.85358654 T2 GHz - -3-4 -5-6 -7 Center.852 GHz 5 khz/ Span 5 khz Date: 2.DEC.26 3:5:6

No. I7Z653-GTE Page48 of 74 Channel 66-Emission Bandwidth Ref 3 dbm tt 55 db * VBW 2 khz SWT 2 ms 25.56 dbm.8828 GHz 3 ndb [T] 26. db BW 35.752825 khz 2 Temp [T ndb] -.42 dbm PK.87984375 GHz Temp 2 [T ndb] -.83 dbm T.8859455 T2 GHz - -3-4 -5-6 -7 Center.88 GHz 5 khz/ Span 5 khz Date: 2.DEC.26 3:6:4 Channel 8-Emission Bandwidth Ref 3 dbm tt 55 db * VBW 2 khz SWT 2 ms 24.98 dbm.998722 GHz PK 3 2 T ndb [T] 26. db BW 39.753846 khz Temp [T ndb] -.6 dbm.99638942 GHz Temp 2 [T ndb] -.63 dbm.99958654 T2 GHz - -3-4 -5-6 -7 Center.998 GHz 5 khz/ Span 5 khz Date: 2.DEC.26 3:7:2

No. I7Z653-GTE Page49 of 74 EGPRS 9-8PSK Frequency(MHz) Emission Bandwidth( khz) 85.2 32.5 88. 37.69 99.8 32.8 EGPRS 9-8PSK Channel 52-Emission Bandwidth Ref 3 dbm tt 55 db * VBW 2 khz SWT 2 ms 2.76 dbm.85263 GHz PK 3 2 T ndb [T] 26. db BW 32.5 khz Temp [T ndb] -5.22 dbm.854455 GHz Temp 2 [T ndb] -5.57 dbm.853575 GHz T2 - -3-4 -5-6 -7 Center.852 GHz 5 khz/ Span 5 khz Date: 2.DEC.26 22:37:7

No. I7Z653-GTE Page5 of 74 Channel 66-Emission Bandwidth Ref 3 dbm tt 55 db * VBW 2 khz SWT 2 ms 22. dbm.87999987 GHz PK 3 2 T ndb [T] 26. db BW 37.69237693 khz Temp [T ndb] -4.4 dbm.87984654 GHz Temp 2 [T ndb] -4.6 dbm.8853846 GHz T2 - -3-4 -5-6 -7 Center.88 GHz 5 khz/ Span 5 khz Date: 2.DEC.26 22:38:5 Channel 8-Emission Bandwidth Ref 3 dbm tt 55 db * VBW 2 khz SWT 2 ms 24.69 dbm.99758333 GHz PK 3 2 T ndb [T] 26. db BW 32.83333333 khz Temp [T ndb] -.92 dbm.99648558 GHz Temp 2 [T ndb] -.85 dbm T2.999564 GHz - -3-4 -5-6 -7 Center.998 GHz 5 khz/ Span 5 khz Date: 2.DEC.26 22:39:22

No. I7Z653-GTE Page5 of 74.6 BND EDGE COMPLINCE Reference FCC: CFR Part 22.97(b), 24.238(a) Measurement limit On any frequency outside frequency band of the US Cellular/PCS spectrum, the power of any emission shall be attenuated below the transmitter power (P, in Watts) by at least 43+Log (P) db. For all power levels +3 dbm to dbm, this becomes a constant specification limit of -3 dbm. ccording to KDB 9768 6., a relaxation of the reference bandwidth is often provided for measurements within a specified frequency range at the edge of the authorized frequency block/band. This is often implemented by permitting the use of a narrower RBW (typically limited to a minimum RBW of % of the OBW) for measuring the out-of-band emissions without a requirement to integrate the result over the full reference bandwidth. GSM 85 LOW BND EDGE BLOCK- (GSM85)-Channel 28 * VBW 2 khz Ref 25 dbm * tt 2 db * SWT 3 ms -4.58 dbm 823.998397436 MHz 2 RM * - -3-4 -5-6 -7 Center 824 MHz khz/ Span MHz Date: 2.DEC.26 2:7:

No. I7Z653-GTE Page52 of 74 HIGH BND EDGE BLOCK-C (GSM85) Channel 25 * VBW 2 khz Ref 25 dbm * tt 2 db * SWT 3 ms -3.4 dbm 849.2833333 MHz 2 RM * - -3-4 -5-6 -7 Center 849 MHz khz/ Span MHz Date: 2.DEC.26 2:9:4

No. I7Z653-GTE Page53 of 74 GPRS 85 LOW BND EDGE BLOCK- (GSM85)-Channel 28 * VBW 2 khz Ref 25 dbm * tt 2 db * SWT 3 ms -4.84 dbm 823.9938465 MHz 2 RM * - -3-4 -5-6 -7 Center 824 MHz khz/ Span MHz Date: 2.DEC.26 3:4:5 HIGH BND EDGE BLOCK-C (GSM85) Channel 25 * VBW 2 khz Ref 25 dbm * tt 2 db * SWT 3 ms -3.26 dbm 849.32528 MHz 2 RM * - -3-4 -5-6 -7 Center 849 MHz khz/ Span MHz Date: 2.DEC.26 3:6:9

No. I7Z653-GTE Page54 of 74 EGPRS 85-8PSK LOW BND EDGE BLOCK- (GSM85)-Channel 28 * VBW 2 khz Ref 25 dbm * tt 2 db * SWT 3 ms -24.5 dbm 823.96794878 MHz 2 RM * - -3-4 -5-6 -7 Center 824 MHz khz/ Span MHz Date: 2.DEC.26 22:4:57 HIGH BND EDGE BLOCK-C (GSM85) Channel 25 * VBW 2 khz Ref 25 dbm * tt 2 db * SWT 3 ms.4 dbm 849.2833333 MHz 2 RM * - -3-4 -5-6 -7 Center 849 MHz khz/ Span MHz Date: 2.DEC.26 22:7:

No. I7Z653-GTE Page55 of 74 PCS 9 LOW BND EDGE BLOCK- (PCS-9)-Channel 52 * VBW 2 khz Ref 25 dbm * tt 2 db * SWT 3 ms -7.56 dbm.849975962 GHz 2 RM * - -3-4 -5-6 -7 Center.85 GHz khz/ Span MHz Date: 2.DEC.26 2:2:7 HIGH BND EDGE BLOCK-C (PCS-9) Channel 8 * VBW 2 khz Ref 25 dbm * tt 2 db * SWT 3 ms -5.88 dbm.92833 GHz 2 RM * - -3-4 -5-6 -7 Center.9 GHz khz/ Span MHz Date: 2.DEC.26 2:22:

No. I7Z653-GTE Page56 of 74 GPRS 9 LOW BND EDGE BLOCK- (PCS-9)-Channel 52 * VBW 2 khz Ref 25 dbm * tt 2 db * SWT 3 ms -7. dbm.84999987 GHz 2 RM * - -3-4 -5-6 -7 Center.85 GHz khz/ Span MHz Date: 2.DEC.26 3:7:3 HIGH BND EDGE BLOCK-C (PCS-9) Channel 8 * VBW 2 khz Ref 25 dbm * tt 2 db * SWT 3 ms -5.64 dbm.92833 GHz 2 RM * - -3-4 -5-6 -7 Center.9 GHz khz/ Span MHz Date: 2.DEC.26 3:9:34

No. I7Z653-GTE Page57 of 74 EGPRS 9-8PSK LOW BND EDGE BLOCK- (PCS-9)-Channel 52 * VBW 2 khz Ref 25 dbm * tt 2 db * SWT 3 ms -2.87 dbm.849967949 GHz 2 RM * - -3-4 -5-6 -7 Center.85 GHz khz/ Span MHz Date: 2.DEC.26 22:39:3 HIGH BND EDGE BLOCK-C (PCS-9) Channel 8 * VBW 2 khz Ref 25 dbm * tt 2 db * SWT 3 ms.89 dbm.9282 GHz 2 RM * - -3-4 -5-6 -7 Center.9 GHz khz/ Span MHz Date: 2.DEC.26 22:4:34

No. I7Z653-GTE Page58 of 74.7 CONDUCTED SPURIOUS EMISSION Reference FCC: CFR Part 2.57, 22.97, 24.238..7. Measurement Method The following steps outline the procedure used to measure the conducted emissions from the EUT.. Determine frequency range for measurements: From CFR 2.57 the spectrum should be investigated from the lowest radio frequency generated in the equipment up to at least the th harmonic of the carrier frequency. For the mobile station equipment tested, this equates to a frequency range of 3 MHz to 9 GHz, data taken from MHz to 25 GHz. 2. Determine EUT transmit frequencies: below outlines the band edge frequencies pertinent to conducted emissions testing. 3. ccording to KDB 9768 6., the applicable rule part specifies the reference bandwidth for measuring unwanted emission levels (typically, khz if the authorized frequency band/block is at or below GHz and MHz if the authorized frequency band/block is above GHz) GSM85 Transmitter Channel Frequency (MHz) 28 824.2 9 836.6 25 848.8 PCS9 Transmitter Channel Frequency (MHz) 52 85.2 66 88. 8 99.8. 7.2 Measurement Limit Part 24.238 and Part 22.97 specify that the power of any emission outside of the authorized operating frequency ranges must be attenuated below the transmitting power (P) by a factor of at least 43 + log(p) db. The specification that emissions shall be attenuated below the transmitter power (P) by at least 43 + log (P) db, translates in the relevant power range ( to. W) to -3 dbm. t W the specified minimum attenuation becomes 43 db and relative to a 3 dbm ( W) carrier becomes a limit of -3 dbm. t. W ( dbm) the minimum attenuation is 3 db, which again yields a limit of -3 dbm. In this way a translation of the specification from relative to absolute terms is carried out.

No. I7Z653-GTE Page59 of 74.7.3 Measurement result GSM85 Channel 28: 3MHz GHz Spurious emission limit 3dBm. NOTE: peak above the limit line is the carrier frequency. * RBW MHz VBW 3 MHz 33.49 dbm Ref 5 dbm * tt 2 db SWT 2.5 ms 825.897435897 MHz PK - -3-4 -5-6 -7-8 -9 Start 3 MHz 97 MHz/ Stop GHz Date: 2.DEC.26 :57:56 Channel 28: GHz 2.5GHz Spurious emission limit 3dBm. * RBW MHz VBW 3 MHz -28.24 dbm Ref 5 dbm * tt 2 db SWT 5 ms 2.48653846 GHz PK - -3-4 -5-6 -7-8 -9 Start GHz 5 MHz/ Stop 2.5 GHz Date: 2.DEC.26 :58:24

No. I7Z653-GTE Page6 of 74 Channel 28: 2.5GHz 7.5GHz Spurious emission limit 3dBm. * RBW MHz VBW 3 MHz -29.72 dbm Ref 5 dbm * tt 2 db SWT 3 ms 7.955282 GHz PK - -3-4 -5-6 -7-8 -9 Start 2.5 GHz 5 MHz/ Stop 7.5 GHz Date: 2.DEC.26 :58:53 Channel 28: 7.5GHz GHz Spurious emission limit 3dBm. * RBW MHz VBW 3 MHz -29.4 dbm Ref 5 dbm * tt 2 db SWT 2 ms 7.582825 GHz PK - -3-4 -5-6 -7-8 -9 Start 7.5 GHz 25 MHz/ Stop GHz Date: 2.DEC.26 :59:2

No. I7Z653-GTE Page6 of 74 Channel 9: 3MHz GHz Spurious emission limit 3dBm NOTE: peak above the limit line is the carrier frequency. * RBW MHz VBW 3 MHz 33.8 dbm Ref 5 dbm * tt 2 db SWT 2.5 ms 836.77884654 MHz PK - -3-4 -5-6 -7-8 -9 Start 3 MHz 97 MHz/ Stop GHz Date: 2.DEC.26 :59:49 Channel 9: GHz 2.5GHz Spurious emission limit 3dBm * RBW MHz VBW 3 MHz -28.38 dbm Ref 5 dbm * tt 2 db SWT 5 ms 2.457692 GHz PK - -3-4 -5-6 -7-8 -9 Start GHz 5 MHz/ Stop 2.5 GHz Date: 2.DEC.26 2::7

No. I7Z653-GTE Page62 of 74 Channel 9: 2.5GHz 7.5GHz Spurious emission limit 3dBm * RBW MHz VBW 3 MHz -29.4 dbm Ref 5 dbm * tt 2 db SWT 3 ms 3.5965385 GHz PK - -3-4 -5-6 -7-8 -9 Start 2.5 GHz 5 MHz/ Stop 7.5 GHz Date: 2.DEC.26 2::46 Channel 9: 7.5GHz GHz Spurious emission limit 3dBm * RBW MHz VBW 3 MHz -29.5 dbm Ref 5 dbm * tt 2 db SWT 2 ms 8.4887825 GHz PK - -3-4 -5-6 -7-8 -9 Start 7.5 GHz 25 MHz/ Stop GHz Date: 2.DEC.26 2::4

No. I7Z653-GTE Page63 of 74 Channel 25: 3MHz GHz Spurious emission limit 3dBm. NOTE: peak above the limit line is the carrier frequency. * RBW MHz VBW 3 MHz 33.43 dbm Ref 5 dbm * tt 2 db SWT 2.5 ms 85.76923769 MHz PK - -3-4 -5-6 -7-8 -9 Start 3 MHz 97 MHz/ Stop GHz Date: 2.DEC.26 2::42 Channel 25: GHz 2.5GHz Spurious emission limit 3dBm. * RBW MHz VBW 3 MHz -28.3 dbm Ref 5 dbm * tt 2 db SWT 5 ms 2.4346538 GHz PK - -3-4 -5-6 -7-8 -9 Start GHz 5 MHz/ Stop 2.5 GHz Date: 2.DEC.26 2:2:

No. I7Z653-GTE Page64 of 74 Channel 25:2.5GHz 7.5GHz Spurious emission limit 3dBm. * RBW MHz VBW 3 MHz -29.74 dbm Ref 5 dbm * tt 2 db SWT 3 ms 3.4544878 GHz PK - -3-4 -5-6 -7-8 -9 Start 2.5 GHz 5 MHz/ Stop 7.5 GHz Date: 2.DEC.26 2:2:38 Channel 25: 7.5GHz GHz Spurious emission limit 3dBm. * RBW MHz VBW 3 MHz -29.23 dbm Ref 5 dbm * tt 2 db SWT 2 ms 8.96634654 GHz PK - -3-4 -5-6 -7-8 -9 Start 7.5 GHz 25 MHz/ Stop GHz Date: 2.DEC.26 2:3:7

No. I7Z653-GTE Page65 of 74 PCS9 Channel 52: 3MHz GHz Spurious emission limit 3dBm. * RBW MHz VBW 3 MHz -33.72 dbm Ref 5 dbm * tt 2 db SWT 2.5 ms 3. MHz PK - -3-4 -5-6 -7-8 -9 Start 3 MHz 97 MHz/ Stop GHz Date: 2.DEC.26 2:24:37 Channel 52: GHz 2.5GHz Spurious emission limit 3dBm. NOTE: peak above the limit line is the carrier frequency. * RBW MHz VBW 3 MHz 3.4 dbm Ref 5 dbm * tt 2 db SWT 5 ms.8596538 GHz PK - -3-4 -5-6 -7-8 -9 Start GHz 5 MHz/ Stop 2.5 GHz Date: 2.DEC.26 2:25:5

No. I7Z653-GTE Page66 of 74 Channel 52: 2.5GHz 7.5GHz Spurious emission limit 3dBm. * RBW MHz VBW 3 MHz -29.66 dbm Ref 5 dbm * tt 2 db SWT 3 ms 3.58974359 GHz PK - -3-4 -5-6 -7-8 -9 Start 2.5 GHz 5 MHz/ Stop 7.5 GHz Date: 2.DEC.26 2:25:33 Channel 52: 7.5GHz GHz Spurious emission limit 3dBm. * RBW MHz VBW 3 MHz -29.4 dbm Ref 5 dbm * tt 2 db SWT 2 ms 9.2644238 GHz PK - -3-4 -5-6 -7-8 -9 Start 7.5 GHz 25 MHz/ Stop GHz Date: 2.DEC.26 2:26:

No. I7Z653-GTE Page67 of 74 Channel 52: GHz 5GHz Spurious emission limit 3dBm. * RBW MHz VBW 3 MHz -27.74 dbm Ref 5 dbm * tt 2 db SWT 3 ms 4.85576923 GHz PK - -3-4 -5-6 -7-8 -9 Start GHz 5 MHz/ Stop 5 GHz Date: 2.DEC.26 2:26:29 Channel 52: 5GHz 2GHz Spurious emission limit 3dBm. * RBW MHz VBW 3 MHz -26.9 dbm Ref 5 dbm * tt 2 db SWT 3 ms 9.9877949 GHz PK - -3-4 -5-6 -7-8 -9 Start 5 GHz 5 MHz/ Stop 2 GHz Date: 2.DEC.26 2:26:57

No. I7Z653-GTE Page68 of 74 Channel 66: 3MHz GHz Spurious emission limit 3dBm * RBW MHz VBW 3 MHz -34.29 dbm Ref 5 dbm * tt 2 db SWT 2.5 ms 644.22435897 MHz PK - -3-4 -5-6 -7-8 -9 Start 3 MHz 97 MHz/ Stop GHz Date: 2.DEC.26 2:27:26 Channel 66: GHz 2.5GHz Spurious emission limit 3dBm NOTE: peak above the limit line is the carrier frequency. * RBW MHz VBW 3 MHz 3.73 dbm Ref 5 dbm * tt 2 db SWT 5 ms.8822538 GHz PK - -3-4 -5-6 -7-8 -9 Start GHz 5 MHz/ Stop 2.5 GHz Date: 2.DEC.26 2:27:54

No. I7Z653-GTE Page69 of 74 Channel 66: 2.5GHz 7.5GHz Spurious emission limit 3dBm * RBW MHz VBW 3 MHz -29.99 dbm Ref 5 dbm * tt 2 db SWT 3 ms 7.3942377 GHz PK - -3-4 -5-6 -7-8 -9 Start 2.5 GHz 5 MHz/ Stop 7.5 GHz Date: 2.DEC.26 2:28:22 Channel 66: 7.5GHz GHz Spurious emission limit 3dBm * RBW MHz VBW 3 MHz -29.7 dbm Ref 5 dbm * tt 2 db SWT 2 ms 8.5977564 GHz PK - -3-4 -5-6 -7-8 -9 Start 7.5 GHz 25 MHz/ Stop GHz Date: 2.DEC.26 2:28:5

No. I7Z653-GTE Page7 of 74 Channel 66: GHz 5GHz Spurious emission limit 3dBm. * RBW MHz VBW 3 MHz -27.24 dbm Ref 5 dbm * tt 2 db SWT 3 ms 4.783653846 GHz PK - -3-4 -5-6 -7-8 -9 Start GHz 5 MHz/ Stop 5 GHz Date: 2.DEC.26 2:29:8 Channel 66: 5GHz 2GHz Spurious emission limit 3dBm. * RBW MHz VBW 3 MHz -26.22 dbm Ref 5 dbm * tt 2 db SWT 3 ms 9.983974359 GHz PK - -3-4 -5-6 -7-8 -9 Start 5 GHz 5 MHz/ Stop 2 GHz Date: 2.DEC.26 2:29:46

No. I7Z653-GTE Page7 of 74 Channel 8: 3MHz GHz Spurious emission limit 3dBm. * RBW MHz VBW 3 MHz -33.77 dbm Ref 5 dbm * tt 2 db SWT 2.5 ms 235.9237692 MHz PK - -3-4 -5-6 -7-8 -9 Start 3 MHz 97 MHz/ Stop GHz Date: 2.DEC.26 2:3:5 Channel 8: GHz 2.5GHz Spurious emission limit 3dBm. NOTE: peak above the limit line is the carrier frequency. * RBW MHz VBW 3 MHz 3.25 dbm Ref 5 dbm * tt 2 db SWT 5 ms.957692 GHz PK - -3-4 -5-6 -7-8 -9 Start GHz 5 MHz/ Stop 2.5 GHz Date: 2.DEC.26 2:3:43

No. I7Z653-GTE Page72 of 74 Channel 8:2.5GHz 7.5GHz Spurious emission limit 3dBm. * RBW MHz VBW 3 MHz -29.9 dbm Ref 5 dbm * tt 2 db SWT 3 ms 7.2955282 GHz PK - -3-4 -5-6 -7-8 -9 Start 2.5 GHz 5 MHz/ Stop 7.5 GHz Date: 2.DEC.26 2:3: Channel 8: 7.5GHz GHz Spurious emission limit 3dBm. * RBW MHz VBW 3 MHz -29. dbm Ref 5 dbm * tt 2 db SWT 2 ms 9.899839744 GHz PK - -3-4 -5-6 -7-8 -9 Start 7.5 GHz 25 MHz/ Stop GHz Date: 2.DEC.26 2:3:39

No. I7Z653-GTE Page73 of 74 Channel 8: GHz 5GHz Spurious emission limit 3dBm. * RBW MHz VBW 3 MHz -27.22 dbm Ref 5 dbm * tt 2 db SWT 3 ms 4.87987692 GHz PK - -3-4 -5-6 -7-8 -9 Start GHz 5 MHz/ Stop 5 GHz Date: 2.DEC.26 2:32:8 Channel 8: 5GHz 2GHz Spurious emission limit 3dBm. * RBW MHz VBW 3 MHz -25.87 dbm Ref 5 dbm * tt 2 db SWT 3 ms 9.983974359 GHz PK - -3-4 -5-6 -7-8 -9 Start 5 GHz 5 MHz/ Stop 2 GHz Date: 2.DEC.26 2:32:36

No. I7Z653-GTE Page74 of 74 ***END OF REPORT***