Test Report_DSS_Part 1

FCC ID: QISVOG-LX9

Test Report

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FCCID_4179108

FCC RF Test Report Product Name: Smart Phone Model Number: VOG-L29/VOG-L09 Report No.: SYBH(Z-RF)20181224014002-2003 FCC ID:QISVOG-LX9 APPROVED PREPARED Authorized (Lab Manager) (Test Engineer) BY DATE 2019-01-28 2019-01-28 Reliability Laboratory of Huawei Technologies Co., Ltd. (Global Compliance and Testing Center of Huawei Technologies Co., Ltd) No.2, New City Avenue, Songshan Lake Sci. & Tech. Industry Park, Dongguan, 523808, P.R.C Telephone: +86 769 23830808 Fax: +86 769 23837628

RF Report for VOG-L29/VOG-L09 Public ※ ※ Notice ※ ※ 1. The laboratory has passed the accreditation by The American Association for Laboratory Accreditation (A2LA). The accreditation number is 2174.01. 2. The laboratory has been recognized by the US Federal Communications Commission (FCC) to perform compliance testing subject to the Commission's Certification rules. The Designation Number is CN1173, and the Test Firm Registration Number is 294140. 3. The laboratory has been recognized by the Innovation, Science and Economic Development Canada (ISED) to test to Canadian radio equipment requirements. The CAB identifier is CN0003, and the ISED# is 21741. 4. The laboratory (Reliability Lab of Huawei Technologies Co., Ltd) is also named “Global Compliance and Testing Center of Huawei Technologies Co., Ltd”, the both names have coexisted since 2009. 5. The test report is invalid if not marked with the signatures of the persons responsible for preparing and approving the test report. 6. The test report is invalid if there is any evidence of erasure and/or falsification. 7. The test report is only valid for the test samples. 8. Content of the test report, in part or in full, cannot be used for publicity and/or promotional purposes without prior written approval from the laboratory. 9. If any question about this report, please contact the laboratory (PublicGCTC@huawei.com). Report No.: Huawei Proprietary and Confidential Page 2 of 25 SYBH(Z-RF)20181224014002-2 Copyright © Huawei Technologies Co., Ltd. 003

RF Report for VOG-L29/VOG-L09 Public MODIFICATION RECORD No. Report No Modification Description 1 SYBH(Z-RF)2018122 First release. 4014002-2003 DECLARATION Type Description Multiple The present report applies to single model. Models The present report applies to several models. The practical measurements are Applications performed with the model VOG-L29. These models utilize the similar radio design, shielding, interface, physical layout and so on. The differences and modifications between these models are declared by the applicant and showed in General Description All others between these models are identical. The present report only presents the worst test case of all modes, see relevant test results for detailed. Report No.: Huawei Proprietary and Confidential Page 3 of 25 SYBH(Z-RF)20181224014002-2 Copyright © Huawei Technologies Co., Ltd. 003

RF Report for VOG-L29/VOG-L09 Public 1 Table of contents 1 Table of contents .................................................................................................................................................... 4 2 General Information ................................................................................................................................................ 5 2.1 Test standard/s ......................................................................................................................................... 5 2.2 Test Environment ...................................................................................................................................... 5 2.3 Test Laboratories ...................................................................................................................................... 6 2.4 Applicant and Manufacturer ...................................................................................................................... 6 2.5 Application details ..................................................................................................................................... 6 3 Test Summary ........................................................................................................................................................ 7 4 Description of the Equipment under Test (EUT) ..................................................................................................... 8 4.1 General Description .................................................................................................................................. 8 4.2 EUT Identity ............................................................................................................................................ 11 4.3 Technical Description .............................................................................................................................. 12 5 General Test Conditions / Configurations ............................................................................................................. 13 5.1 EUT Configurations ................................................................................................................................. 13 5.2 Antenna requirements ............................................................................................................................. 14 5.3 Description of tests.................................................................................................................................. 15 5.4 Test Setups ............................................................................................................................................. 18 5.5 Test Conditions ....................................................................................................................................... 21 6 Main Test Instruments .......................................................................................................................................... 23 7 Measurement Uncertainty..................................................................................................................................... 25 Report No.: Huawei Proprietary and Confidential Page 4 of 25 SYBH(Z-RF)20181224014002-2 Copyright © Huawei Technologies Co., Ltd. 003

RF Report for VOG-L29/VOG-L09 Public 2 General Information 2.1 Test standard/s 47 CFR FCC Part 2, Subpart J Applied Rules : 47 CFR FCC Part 15, Subpart C FCC PUBLIC NOTICE DA 00-705 Filing and Measurement Guidelines for Frequency Hopping Spread Spectrum Systems (Released March 30, 2000) ANSI C63.4-2014, American National Standard for Methods of Test Method : Measurement of Radio-Noise Emissions from Low-Voltage Electrical and Electronic Equipment in the Range of 9 kHz to 40 GHz. ANSI C63.10-2013, American National Standard for Testing Unlicensed Wireless Devices. 2.2 Test Environment Temperature : TN 15 to 30 °C during room temperature tests Ambient Relative Humidity: 20 to 85 % Atmospheric Pressure: Not applicable VL 3.6 V Power supply : VN 3.82 V DC by Battery VH 4.35 V NOTE 1: 1) VN= nominal voltage, VL= low extreme test voltage, VH= High extreme test voltage; TN= normal temperature, TL= low extreme test temperature, TH= High extreme test temperature. NOTE 2: The values used in the test report may be stringent than the declared. Report No.: Huawei Proprietary and Confidential Page 5 of 25 SYBH(Z-RF)20181224014002-2 Copyright © Huawei Technologies Co., Ltd. 003

RF Report for VOG-L29/VOG-L09 Public 2.3 Test Laboratories RELIABILITY LABORATORY OF HUAWEI TECHNOLOGIES CO., Test Location 1 : LTD. No.2, New City Avenue, Songshan Lake Sci. & Tech. Industry Park, Address of Test Location 1 : Dongguan, 523808, P.R.C 2.4 Applicant and Manufacturer Company Name : HUAWEI TECHNOLOGIES CO., LTD Administration Building, Headquarters of Huawei Technologies Co., Ltd., Address : Bantian, Longgang District, Shenzhen, 518129, P.R.C 2.5 Application details Date of Receipt Sample: 2019-01-02 Start of test: 2019-01-03 End of test: 2019-01-28 Report No.: Huawei Proprietary and Confidential Page 6 of 25 SYBH(Z-RF)20181224014002-2 Copyright © Huawei Technologies Co., Ltd. 003

RF Report for VOG-L29/VOG-L09 Public 3 Test Summary FCC Rule Verdic Test Item Requirements Test Result No. t 20dB Emission Bandwidth Refer to No. 15.247(a)(1) No limit. PASS (EBW) SYBH(Z-RF)20181218028001-2003 ≥ MAX {25kHz, Carrier Frequency IIF{output power Refer to No. 15.247(a)(1) PASS Separation ≤125mW, 2/3*20dB SYBH(Z-RF)20181218028001-2003 EBW, 20dB EBW }}. Number of Hopping 15.247(a)(1) Refer to No. ≥15 channels. PASS Channel (iii) SYBH(Z-RF)20181218028001-2003 < 0.4s within a period Time of Occupancy (Dwell 15.247(a)(1) Refer to No. of (0.4s*hopping PASS Time) (iii) SYBH(Z-RF)20181218028001-2003 number). FCC: Conducted < 1 Maximum Peak Output W if using ≥75 Refer to No. 15.247(b)(1) PASS Power non-overlapping SYBH(Z-RF)20181218028001-2003 channels. Band edge spurious Refer to No. < -20 dBr/100 kHz if PASS emission SYBH(Z-RF)20181218028001-2003 15.247(d) total peak power ≤ Conducted RF Spurious Refer to No. power limit. PASS Emission SYBH(Z-RF)20181218028001-2003 Radiated Emissions in the 15.247(d) FCC Part 15.209 field Refer to No. PASS Restricted Bands 15.209 strength limit; SYBH(Z-RF)20181218028001-2003 AC Power Line Conducted FCC Part 15.207 Refer to No. 15.207 PASS Emissions conducted limit; SYBH(Z-RF)20181218028001-2003 Note1: The transmitter has an integral PCB loop antenna that is enclosed within the housing of the EUT and meets the requirements of FCC 15.203 Note2: We do not test Bluetooth of VOG-L29/VOG-L09, all test data can refer to No. SYBH(Z-RF)20181218028001-2003 of VOG-L04(FCC ID:QISVOG-L04). Report No.: Huawei Proprietary and Confidential Page 7 of 25 SYBH(Z-RF)20181224014002-2 Copyright © Huawei Technologies Co., Ltd. 003

RF Report for VOG-L29/VOG-L09 Public 4 Description of the Equipment under Test (EUT) 4.1 General Description VOG-L29 is a subscriber equipment in the GSM/WCDMA/LTE system. The GSM frequency band includes GSM850 and GSM900 and DCS1800 and PCS1900.The UMTS frequency band is B1 and B2 and B4 and B5 and B6 and B8 and B19. The LTE frequency band is B1 and B2 and B3 and B4 and B5 and B6 and B7 and B8 and B9 and B12 and B17and B18 and B19 and B20 and B26 and B28 and B32 and B34 and B38 and B39 and B40 and B41. The Mobile Phone implements such functions as RF signal receiving/transmitting, LTE/HSPA/UMTS and GSM/GPRS/EDGE protocol processing, voice, video MMS service, GPS, Bluetooth, NFC, Wi-Fi and Wirelessly Charging etc. VOG-L29 is a dual SIM smart phone, and one of the SIM card interfaces could be used as Nano memory card interface. Externally it provides type C USB charging port, and the port could be used as the earphone port or data-transfer port. VOG-L09 is a subscriber equipment in the GSM/WCDMA/LTE system. The GSM frequency band includes GSM850 and GSM900 and DCS1800 and PCS1900.The UMTS frequency band is B1 and B2 and B4 and B5 and B6 and B8 and B19. The LTE frequency band is B1 and B2 and B3 and B4 and B5 and B6 and B7 and B8 and B9 and B12 and B17and B18 and B19 and B20 and B26 and B28 and B32 and B34 and B38 and B39 and B40 and B41. The Mobile Phone implements such functions as RF signal receiving/transmitting, LTE/HSPA/UMTS and GSM/GPRS/EDGE protocol processing, voice, video MMS service, GPS, Bluetooth, NFC, Wi-Fi and Wirelessly Charging etc. VOG-L09 provides one SIM card interface and one Nano memory card interface. Externally it provides type C USB charging port, and the port could be used as the earphone port or data-transfer port. The difference between VOG-L29 and VOG-L09 The only difference between VOG-L29 and VOG-L09 is that VOG-L09 deletes into single SIM card by software. Other parts of the two models are the same. The difference between VOG-L29 and VOG-L04 is show in the below table. Model VOG-L29 VOG-L04 PCB The same The same Frequency-G The same The same SM Frequency-W The same The same CDMA Report No.: Huawei Proprietary and Confidential Page 8 of 25 SYBH(Z-RF)20181224014002-2 Copyright © Huawei Technologies Co., Ltd. 003

RF Report for VOG-L29/VOG-L09 Public The same Different Frequency-LT Support B32 Support B66 E Unsupport B66 Unsupport B32 The same Different 4*4 Mimo Support B1、B3、B7 Support B2、B4、B7、B66 SIM Card Dual Single Support B32 Location ID: SAW filter:Z3401,Z4104, B32 Diplexer:Z3402,Z5403 B32 RF RF low noise amplifier:U3405,U4103 Unsupport B32 circuit Capacitor:C3422,C3423,C3425,C3442,C2912,C3 Delete components related to the B32 RF circuit. 411,L3533,L4416,C3418,C4102 Inductor:L3412,L3422,L3413,L3408,L4124,L4137, L4139,L4140 Function Description:B32 main RF circuit and Har diversity RF circuit dwa Support B1/3/7 4*4MIMO and delete/replace Support B2/7/66(4) 4*4MIMO and delete/replace re components related circuit; components related circuit; Location ID: 4*4 Location ID: B1/3/7 MIMO(t B2/7/66(4) SAW filter: SAW filter of the 4th antenna :Z4403 he 3rd SAW filter of the 4th antenna :Z4403 (Vendor:KYOCERA type:SF18-1842M8SUA3) & 4th (Vendor:MURATA type:SATEY1G96AU3F0AR00) SAW filter of the 3rd antenna :Z4301 antenn SAW filter of the 3rd antenna :Z4301 (Vendor:KYOCERA type:SF18-1842M8SUA3) a) (Vendor:MURATA type:SATEY1G96AU3F0AR00) Capacitor:L5507,C5401,C5402,C5517,C3411,L35 Inductor:L4419,L4412,L4416,C5444,C5407,L5510 33,L4416 Function Description:B2/7/66(4) 4*4MIMO RF Inductor:L5510,L4330,L5415,L3408,L4419 circuit Function Description: B1/3/7 4*4MIMO RF circuit Report No.: Huawei Proprietary and Confidential Page 9 of 25 SYBH(Z-RF)20181224014002-2 Copyright © Huawei Technologies Co., Ltd. 003

RF Report for VOG-L29/VOG-L09 Public Unsupport CA_1-3-32 and delete/replace Unsupport B66 and delete/replace components components related circuit; related circuit; Support B66 &Support CA_2-66 Support CA_1-3-32 B1/B3/ Location ID: Location ID: B32 & B2/B7/B66(4) diversity TRI SAW filter:Z4105 B1/B3 Quadruplexer:Z3502(Vendor:QORVO, B2/B66 (Vendor:MURATA type:SATEY1G96AU3F0AR00) type:QM25002TR13-5KHW) RF B2/B66(B4) Quadruplexer:Z3502( Capacitor:C3533 &CA Vendor:KYOCERA type:SQ25-1745K6SUA4) B2 SAW filter: Z4101(Vendor:MURATA ect. circuit Capacitor:C3401,C3402,C3504,L4110 type:SAFFB1G96AB0F0AR1X ect. ) Inductor:L3532,L4111,L4112,L4107,L4109,L4114,L L4123,L4122,L3523,L3532,C3520,L3512,L4419 4108,L4118,C3520,L3533,L3512 Function Description:B2 RX and CA_1-3-32 Function Description:B2/B66 Single-band and CA diplexer RF circuit main and diversity RF circuits B7 receiving matching circuit is adjusted to include: B7 receive matching circuit include: B7 RX Inductor:C4101 circuit Inductor:L4127,L4126 B7 diversity TRI SAW filter:Z4105(Vendor:MURATA type:SATEY1G96AU3F0AR00) Software Different Different Dimensions The same The same Appearance The same The same main antenna The same The same DIV antenna The same The same BT/Wi-Fi The same The same antenna MIMO The same The same antenna NFC The same The same WPC The same The same Supported CA configuration Different Different s for DL CA Supported CA configuration The same The same s for UL CA Others NA NA Note1: Only Bluetooth test data included in this report. Note2: We do not test Bluetooth of VOG-L29/VOG-L09, all test data can refer to No. SYBH(Z-RF)20181218028001-2003 of VOG-L04(FCC ID:QISVOG-L04). Report No.: Huawei Proprietary and Confidential Page 10 of 25 SYBH(Z-RF)20181224014002-2 Copyright © Huawei Technologies Co., Ltd. 003

RF Report for VOG-L29/VOG-L09 Public 4.2 EUT Identity NOTE: Unless otherwise noted in the report, the functional boards installed in the units shall be selected from the below list, but not means all the functional boards listed below shall be installed in one unit. 4.2.1 Board Board Description Software Version Hardware Version Main Board 9.1.0.84(C432E84R1P1) HL2VOGUEM 4.2.2 Sub- Assembly Sub-Assembly Sub-Assembly Model Manufacturer Description Name Huawei Input voltage: 100-240V ~50/60Hz 1.2A Adapter HW-100400A00 Technologies Output voltage: 5V 2A OR 9V 2A Co., Ltd. OR 10V 4A Huawei Input voltage: 100-240V ~50/60Hz 1.2A Adapter HW-100400U00 Technologies Output voltage: 5V 2A OR 9V 2A Co., Ltd. OR 10V 4A Huawei Input voltage: 100-240V ~50/60Hz 1.2A Adapter HW-100400E00 Technologies Output voltage: 5V 2A OR 9V 2A Co., Ltd. OR 10V 4A Huawei Input voltage: 100-240V ~50/60Hz 1.2A Adapter HW-100400B00 Technologies Output voltage: 5V 2A OR 9V 2A Co., Ltd. OR 10V 4A Rated capacity: 4100mAh Huawei Nominal Voltage: +3.82V Battery HB486486ECW Technologies Co., Ltd. Charging Voltage: +4.4V Report No.: Huawei Proprietary and Confidential Page 11 of 25 SYBH(Z-RF)20181224014002-2 Copyright © Huawei Technologies Co., Ltd. 003

RF Report for VOG-L29/VOG-L09 Public 4.3 Technical Description Characteristics Description TX/RX Operating 2400-2483.5 fc = 2402 MHz + N * 1 MHz, where: Range MHz band - fc = “Operating Frequency” in MHz, - N = “Channel Number” with the range from 0 to 78. Modulation Type Carrier Frequency Hopping Spread Spectrum (FHSS) Digital GFSK, π/4-DQPSK, 8DPSK Emission Designator GFSK: 950KFXD for BT Normal power π/4-DQPSK: 1M32GXD 8DPSK: 1M32GXD Emission Designator GFSK: 950KFXD for BT High power π/4-DQPSK: 1M31GXD 8DPSK: 1M31GXD Bluetooth Power Class 1 Class Antenna Description Isotropic Antenna Type Integral External Dedicated Ports Ant 1, Ant 2, Ant 3 Gain -1.4 dBi (per antenna port, max.) Remark When the EUT is put into service, the practical maximum antenna gain should NOT exceed the value as described above. Power Supply Type External DC mains, Battery, AC/DC Adapter, Powered over Ethernet (PoE). Other Report No.: Huawei Proprietary and Confidential Page 12 of 25 SYBH(Z-RF)20181224014002-2 Copyright © Huawei Technologies Co., Ltd. 003

RF Report for VOG-L29/VOG-L09 Public 5 General Test Conditions / Configurations 5.1 EUT Configurations 5.1.1 General Configurations Configuration Description Test Antenna Ports Until otherwise specified, - All TX tests are performed at all TX antenna ports of the EUT, and - All RX tests are performed at all RX antenna ports of the EUT. Multiple RF Sources Other than the tested RF source of the EUT, other RF source(s) are disabled or shutdown during measurements. 5.1.2 Customized Configurations # EUT Conf. Signal Description Operating Frequency TM1_DH5_Hop GFSK modulation, package type DH5, hopping on. --- TM1_DH5_Ch0 GFSK modulation, package type DH5, hopping off. Ch No. 0 / 2402 MHz TM1_DH5_Ch39 GFSK modulation, package type DH5, hopping off. Ch No. 39 / 2441 MHz TM1_DH5_Ch78 GFSK modulation, package type DH5, hopping off. Ch No. 78 / 2480 MHz TM2_2DH5_Hop π/4-DQPSK modulation, package type 2DH5, hopping on. --- TM2_2DH5_Ch0 π/4-DQPSK modulation, package type 2DH5, hopping off. Ch No. 0 / 2402 MHz TM2_2DH5_Ch39 π/4-DQPSK modulation, package type 2DH5, hopping off. Ch No. 39 / 2441 MHz TM2_2DH5_Ch78 π/4-DQPSK modulation, package type 2DH5, hopping off. Ch No. 78 / 2480 MHz TM3_3DH5_Hop 8DPSK modulation, package type 3DH5, hopping on. --- TM3_3DH5_Ch0 8DPSK modulation, package type 3DH5, hopping off. Ch No. 0 / 2402 MHz TM3_3DH5_Ch39 8DPSK modulation, package type 3DH5, hopping off. Ch No. 39 / 2441 MHz TM3_3DH5_Ch78 8DPSK modulation, package type 3DH5, hopping off. Ch No. 78 / 2480 MHz Report No.: Huawei Proprietary and Confidential Page 13 of 25 SYBH(Z-RF)20181224014002-2 Copyright © Huawei Technologies Co., Ltd. 003

RF Report for VOG-L29/VOG-L09 Public 5.2 Antenna requirements Excerpt from §15.203 of the FCC Rules/Regulations: “An intentional radiator antenna shall be designed to ensure that no antenna other than that furnished by the responsible party can be used with the device. The use of a permanently attached antenna or of an antenna that uses a unique coupling to the intentional radiator shall be considered sufficient to comply with the provisions of this section.” The antennas of the VOG-L29/VOG-L09 are permanently attached. There are no provisions for connection to an external antenna. Conclusion: The Smart Phone FCC ID: QISVOG-LX9 unit complies with the requirement of §15.203. Ch. Frequency (MHz) Ch. Frequency (MHz) 00 2402 . . . . 39 2441 . . . . 78 2480 Frequency/ Channel Operations Report No.: Huawei Proprietary and Confidential Page 14 of 25 SYBH(Z-RF)20181224014002-2 Copyright © Huawei Technologies Co., Ltd. 003

RF Report for VOG-L29/VOG-L09 Public 5.3 Description of tests 5.3.1 Bandwidth measurement (a) Connect EUT test port to universal communication tester. (b) Set the EUT to transmit maximum output power at 2.4GHz and switch off frequency hopping function, then set the measuring frequency number, finally test the bandwidth with universal communication tester. 5.3.2 Carrier frequency separation measurement (a) Connect EUT test port to spectrum analyzer and universal communication tester. (b) Set the EUT to transmit maximum output power at 2.4GHz and switch off frequency hopping function, then set the measured frequency number to two adjacent channels separately and test the carrier frequency separation with spectrum analyzer. 5.3.3 Number of hopping channel (a) Connect EUT test port to spectrum analyzer and universal communication tester. (b) Set the EUT to transmit maximum output power at 2.4GHz and switch on frequency hopping function, then set enough count time (larger than 5000 times) to get all the hopping frequency channel displayed on the screen of spectrum analyzer. (c) Count the quantity of peaks to get the number of hopping channels. 5.3.4 Time of occupancy (a) Connect test port of EUT to spectrum analyzer and universal communication tester. (b) Set the EUT to transmit maximum output power at 2.4GHz and switch on frequency hopping function. (c) Set the span of spectrum analyzer to 0 Hz, and set the resolution bandwidth to1 MHz and the vedio bandwidth to 1 MHz, then get the time domain measured diagram. and set sweep time to 2 times of one burst occupancy time, and measure the time of occupancy of one burst. (d) Set the resolution bandwidth to1 MHz and the vedio bandwidth to 3 MHz ,and set the sweep time to a period (0.4 seconds multiplied by the number of hopping channels employed), and count the number of the bursts. (e) Calculate the time of occupancy in a period with time occupancy of a burst and quantity of bursts 5.3.5 Peak output power (a) Connect EUT test port to spectrum analyzer and universal communication tester. (b) Set the EUT to transmit maximum output power at 2.4GHz and switch off frequency hopping function. (c) Then set the EUT to transmit at high, middle and low frequency and measure the conducted output power separately. Report No.: Huawei Proprietary and Confidential Page 15 of 25 SYBH(Z-RF)20181224014002-2 Copyright © Huawei Technologies Co., Ltd. 003

RF Report for VOG-L29/VOG-L09 Public 5.3.6 Band edge spurious emission (a) Connect EUT test port to spectrum analyzer and universal communication tester (b) Set the EUT to transmit maximum output power at 2.4GHz and switch off frequency hopping function. (c) Then set the EUT to transmit at high, low frequency and measure the conducted band edge spurious separately. (d) Switch on the frequency hopping function, and repeat above measurement. 5.3.7 Conducted RF Spurious (a) Connect EUT test port to spectrum analyzer and universal communication tester (b) Set the EUT to transmit maximum output power at 2.4GHz and switch off frequency hopping function. (c) Then set the EUT to transmit at high, middle and low frequency and measure the conducted spurious separately. (d) Switch on the frequency hopping function, and repeat the above measurement. 5.3.8 Radiated spurious emission & spurious in restricted band For frequency below 1GHz, the test site semi-anechoic chamber has met the requirement of NSA tolerance 4dB according to the standards: ANSI C63.10 (2013). The EUT was set-up on insulator 80cm above the Ground Plane. For frequency above 1GHz, the test site full-anechoic chamber has met the requirement of ANSI C63.10 (2013). The EUT was set-up on insulator 150cm above the Ground Plane. The set-up and test methods were according to ANSI C63.10:2013.The Radiated Disturbance measurements were made using a Rohde and Schwarz Test Receiver and control software. A preliminary scan and a final scan of the emissions were made by using test script of software; the emissions were measured using a Quasi-Peak Detector below 1GHz, Peak Detector and AV detector above 1GHz. The maximal emission value was acquired by adjusting the antenna height, polarisation and turntable azimuth in accordance with the software setup. Normally, the height range of antenna was 1m to 4m, and the azimuth range of turntable was 0°to 360°.The receive antenna has two polarizations V and H. A portable or small unlicensed wireless device shall be placed on a non-metallic test fixture or other nonmetallic support during testing. The supporting fixture shall permit orientation of the EUT in each of three orthogonal (x, y, z) axis positions such that emissions from the EUT are maximized. The EUT communicates with the BTS simulator through Air interface. The EUT transmits maximum output power at 2.4GHz and switch off frequency hopping function. Measurement bandwidth: 30 MHz - 1000 MHz: 120 kHz Measurement bandwidth: 1000 MHz - 10th Carrier Frequency: 1 MHz Report No.: Huawei Proprietary and Confidential Page 16 of 25 SYBH(Z-RF)20181224014002-2 Copyright © Huawei Technologies Co., Ltd. 003

RF Report for VOG-L29/VOG-L09 Public 5.3.9 Conducted Emission at Power Port The Table-top EUT was placed upon a non-metallic table 0.8 m above the horizontal metal reference ground plane. EUT was connected to LISN and LISN was connected to reference Ground Plane. EUT was 80cm from LISN. The set-up and test methods were according to ANSI C63.10: 2013. Conducted Disturbance at AC Port measurements were undertaken on the L and N Lines. The emissions were measured using a Quasi-Peak Detector and Average Detector. The EUT communicates with the BTS simulator through Air interface, the BTS simulator controls the EUT to transmitter the maximum power which defined in specification of product. The EUT operated on the typical channel. Measurement bandwidth (RBW) for 150kHz to 30 MHz: 9 kHz; Report No.: Huawei Proprietary and Confidential Page 17 of 25 SYBH(Z-RF)20181224014002-2 Copyright © Huawei Technologies Co., Ltd. 003

RF Report for VOG-L29/VOG-L09 Public 5.4 Test Setups 5.4.1 Test Setup 1 The Bluetooth component’s antenna ports(s) of the EUT are connected to the measurement instrument per an appropriate attenuator. The EUT is controlled by Bluetooth System Simulator and/or PC/software to emit the specified signals for the purpose of measurements. Jumper Cable for connecting to RF Cables (If applicable) Measurement Attenuator Instrument EUT Bluetooth RF Cables Power for testing Component Splitter Bluetooth Bluetooth System component's antenna port Simulator Power Control Supply PC 5.4.2 Test Setup 2 The semi-anechoic chamber and full-anechoic chamber has met the requirement of ANSI C63.4. The test distance is 3m.The setup is according to ANSI C63.4 and CAN/CSA-CEI/IEC CISPR 22. The maximal emission value is acquired by adjusting the antenna height, polarisation and turntable azimuth. Normally, the height range of antenna is 1 m to 4 m, the azimuth range of turntable is 0°to 360°, and the receive antenna has two polarizations Vertical (V) and Horizontal (H). Report No.: Huawei Proprietary and Confidential Page 18 of 25 SYBH(Z-RF)20181224014002-2 Copyright © Huawei Technologies Co., Ltd. 003

RF Report for VOG-L29/VOG-L09 Public (Below 1 GHz) (Above 1 GHz) Report No.: Huawei Proprietary and Confidential Page 19 of 25 SYBH(Z-RF)20181224014002-2 Copyright © Huawei Technologies Co., Ltd. 003

RF Report for VOG-L29/VOG-L09 Public 5.4.3 Test Setup 3 The mains cable of the EUT (maybe per AC/DC Adapter) must be connected to LISN. The LISN shall be placed 0.8 m from the boundary of EUT and bonded to a ground reference plane for LISN mounted on top of the ground reference plane. This distance is between the closest points of the LISN and the EUT. All other units of the EUT and associated equipment shall be at least 0.8m from the LISN. Ground connections, where required for safety purposes, shall be connected to the reference ground point of the LISN and, where not otherwise provided or specified by the manufacturer, shall be of same length as the mains cable and run parallel to the mains connection at a separation distance of not more than 0.1 m. Shielding room 0.4m EUT Table m 0.8 0.8m m :1 a ble e rc m w :1 Po ble Receive a gc LISN din Power input ou Gr D≤10cm GRP Report No.: Huawei Proprietary and Confidential Page 20 of 25 SYBH(Z-RF)20181224014002-2 Copyright © Huawei Technologies Co., Ltd. 003

RF Report for VOG-L29/VOG-L09 Public 5.5 Test Conditions Test Case Test Conditions Configuration Description 20dB Emission Meas. Method DA 00-705 Bandwidth (EBW) Test Env. TN/VN Test Setup Test Setup 1 EUT Conf. TM1_DH5_Ch0, TM1_DH5_Ch39, TM1_DH5_Ch78, TM2_2DH5_Ch0, TM2_2DH5_Ch39, TM2_2DH5_Ch78, TM3_3DH5_Ch0, TM3_3DH5_Ch39, TM3_3DH5_Ch78. Carrier Frequency Meas. Method DA 00-705 Separation Test Env. TN/VN Test Setup Test Setup 1 EUT Conf. TM1_DH5_Hop, TM2_2DH5_Hop, TM3_3DH5_Hop. Number of Hopping Meas. Method DA 00-705 Channel Test Env. TN/VN Test Setup Test Setup 1 EUT Conf. TM1_DH5_Hop, TM2_2DH5_Hop, TM3_3DH5_Hop. Time of Occupancy Meas. Method DA 00-705 (Dwell Time) Test Env. TN/VN Test Setup Test Setup 1 EUT Conf. TM1_DH5_Ch39, TM2_2DH5_Ch39, TM3_3DH5_Ch39. Maximum Peak Meas. Method DA 00-705 Conducted Output Test Env. TN/VN Power Test Setup Test Setup 1 EUT Conf. TM1_DH5_Ch0, TM1_DH5_Ch39, TM1_DH5_Ch78, TM2_2DH5_Ch0, TM2_2DH5_Ch39, TM2_2DH5_Ch78, TM3_3DH5_Ch0, TM3_3DH5_Ch39, TM3_3DH5_Ch78. Band edge spurious Meas. Method DA 00-705 emission Test Env. TN/VN Test Setup Test Setup 1 EUT Conf. TM1_DH5_Ch0, TM1_DH5_Ch78, TM2_2DH5_Ch0, TM2_2DH5_Ch78, TM3_3DH5_Ch0, TM3_3DH5_Ch78. Conducted RF Meas. Method DA 00-705 Spurious Emission Test Env. TN/VN Report No.: Huawei Proprietary and Confidential Page 21 of 25 SYBH(Z-RF)20181224014002-2 Copyright © Huawei Technologies Co., Ltd. 003

RF Report for VOG-L29/VOG-L09 Public Test Case Test Conditions Configuration Description Test Setup Test Setup 1 EUT Conf. TM1_DH5_Ch0, TM1_DH5_Ch39, TM1_DH5_Ch78, TM2_2DH5_Ch0, TM2_2DH5_Ch39, TM2_2DH5_Ch78, TM3_3DH5_Ch0, TM3_3DH5_Ch39, TM3_3DH5_Ch78. Radiated Emissions Meas. Method DA 00-705, C63.4, C63.10. in the Restricted (1) 30 MHz to 1 GHz: Bands Pre: RBW = 100 kHz; VBW = 300 kHz; Det. = Peak. Final: RBW = 120 kHz; Det. = CISPR Quasi-Peak. (2) 1 GHz to 26.5 GHz: Average: RBW = 1 MHz; VBW = 10 Hz; Det. = Peak; Sweep-time = Auto; Trace = Single. Peak: RBW = 1 MHz; VBW = 3 MHz; Det. = Peak; Sweep-time = Auto; Trace ≥ Max Hold * 100. Test Env. TN/VN Test Setup Test Setup 2 EUT Conf. 30 MHz -1 GHz TM1_DH5_Ch0 (Worst Conf.). 1-3 GHz TM1_DH5_Ch0, TM1_DH5_Ch39, TM1_DH5_Ch78, TM2_2DH5_Ch0, TM2_2DH5_Ch39, TM2_2DH5_Ch78, TM3_3DH5_Ch0, TM3_3DH5_Ch39, TM3_3DH5_Ch78. 3-18 GHz TM1_DH5_Ch0 (Worse Conf.), TM1_DH5_Ch39 (Worse Conf.), TM1_DH5_Ch78 (Worse Conf.). 18-26.5 GHz TM1_DH5_Ch0 (Worst Conf.). AC Power Line Meas. Method AC mains conducted. Conducted Pre: RBW = 10 kHz; Det. = Peak. Emissions Final: RBW = 9 kHz; Det. = CISPR Quasi-Peak & Average. Test Env. TN/VN Test Setup Test Setup 3 EUT Conf. TM1_DH5_Ch78. Report No.: Huawei Proprietary and Confidential Page 22 of 25 SYBH(Z-RF)20181224014002-2 Copyright © Huawei Technologies Co., Ltd. 003

RF Report for VOG-L29/VOG-L09 Public 6 Main Test Instruments This table gives a complete overview of the RF measurement equipment. Devices used during the test described are marked Main Test Equipment (BT/WIFI test system) Marked Equipment Name Manufacturer Model Serial Number Cal Date Cal-Due JS1120-3 BT/WIFI test JS Tonscend JS0806-2 / 2018/05/30 2019/05/30 system Power Detecting & R&S OSP-B157 101429 2018/07/23 2019/07/23 Samplig Unit Power Sensor R&S NRP2 103085/106211 2018/05/17 2018/05/17 DC Power Supply KEITHLEY 2303 1342889 2018/10/24 2019/10/24 DC Power Supply KEITHLEY 2303 000500E 2018/05/21 2019/05/21 DC Power Supply KEITHLEY 2303 1288003 2018/12/21 2019/12/21 DC Power Supply KEITHLEY 2303 000381E 2018/05/21 2019/05/21 DC Power Supply KEITHLEY 2303 000510E 2018/05/21 2019/05/21 DC Power Supply KEITHLEY 2303 1342896 2018/10/24 2019/10/24 5624600294001 2018/12/13 2019/12/13 Temperature Chamber WEISS WKL64 0 Spectrum Analyzer Agilent N9030A MY51380032 2018/07/23 2019/07/23 Spectrum Analyzer Agilent N9030A MY49431698 2018/07/23 2019/07/23 Spectrum Analyzer Keysight N9040B MY57212529 2018/06/28 2019/06/28 Signal Analyzer R&S FSQ31 200021 2018/07/23 2019/07/23 Signal Analyzer R&S FSU26 201069 2018/11/2 2019/11/2 Universal Radio R&S CMW500 164699 2018/03/15 2019/03/15 Communication Tester Universal Radio R&S CMW500 159302 2018/07/23 2019/07/23 Communication Tester Wireless Agilent N4010A MY49081592 2018/07/23 2019/07/23 Communication Test set Signal generator Agilent E8257D MY51500314 2018/04/27 2019/04/27 Signal generator Agilent E8257D MY49281095 2018/07/23 2019/07/23 Vector Signal Generator R&S SMW200A 103447 2018/05/31 2019/05/31 Vector Signal Generator R&S SMU200A 104162 2018/07/23 2019/07/23 Main Test Equipment( RE test system) Marked Equipment Name Manufacturer Model Serial Number Cal Date Cal-Due Test receiver R&S ESU26 100387 2019/01/15 2020/01/14 LOOP Antennas(9kHz-30M R&S HFH2-Z2 100262 2017/04/25 2019/04/25 Hz) Report No.: Huawei Proprietary and Confidential Page 23 of 25 SYBH(Z-RF)20181224014002-2 Copyright © Huawei Technologies Co., Ltd. 003

RF Report for VOG-L29/VOG-L09 Public LOOP Antennas(9kHz-30M R&S HFH2-Z2 100263 2017/04/25 2019/04/25 Hz) Trilog Broadband SCHWARZB Antenna VULB 9163 9163-357 2017/04/21 2019/04/20 ECK (30M~3GHz) Trilog Broadband SCHWARZB Antenna VULB 9163 9163-520 2017/3/29 2019/3/28 ECK (30M~3GHz) Trilog Broadband SCHWARZB Antenna VULB 9163 9163-491 2017/3/29 2019/3/28 ECK (30M~3GHz) Trilog Broadband SCHWARZB Antenna VULB 9163 9163-356 2018/4/9 2020/4/8 ECK (30M~3GHz) Double-Ridged Waveguide Horn R&S HF907 100305 2017/4/21 2019/4/20 Antenna (1G~18GHz) Double-Ridged Waveguide Horn R&S HF906 100684 2017/5/27 2019/5/26 Antenna (1G~18GHz) Double-Ridged Waveguide Horn R&S HF906 100683 2017/3/29 2019/3/28 Antenna (1G~18GHz) Pyramidal Horn ETS-Lindgre Antenna(18GHz-26.5 3160-09 5140299 2017/07/20 2019/07/19 n GHz) Pyramidal Horn ETS-Lindgre Antenna(18GHz-26.5 3160-09 00206665 2018/4/21 2020/4/20 n GHz) Pyramidal Horn ETS-Lindgre Antenna(26.5GHz-40 3160-10 00205695 2018/04/20 2020/04/19 n GHz) Pyramidal Horn ETS-Lindgre Antenna(26.5GHz-40 3160-10 LM5947 2017/07/20 2019/07/19 n GHz) Measurement EMC32 R&S / / / Software V9.25.0 Main Test Equipment ( CE test system) Marked Equipment Name Manufacturer Model Serial Number Cal Date Cal-Due Test receiver R&S ESU26 100387 2019/01/15 2020/01/14 Test receiver R&S ESCI 101163 2019/01/15 2020/01/14 Report No.: Huawei Proprietary and Confidential Page 24 of 25 SYBH(Z-RF)20181224014002-2 Copyright © Huawei Technologies Co., Ltd. 003

RF Report for VOG-L29/VOG-L09 Public Artificial Main Network R&S ENV4200 100134 2018/05/08 2019/05/07 Line Impedance R&S ENV216 100382 2018/05/08 2019/05/07 Stabilization Network Measurement Software R&S EMC32 V9.25.0 / / / 7 Measurement Uncertainty For a 95% confidence level (k = 2), the measurement expanded uncertainties for defined systems, in accordance with the recommendations of ISO 17025 as following: Test Item Extended Uncertainty Transmit Output Power Data Power [dBm] U = 0.39 dB Bandwidth Magnitude [%] U=7% Band Edge Compliance Disturbance Power [dBm] U = 0.9 dB Spurious Emissions, Conducted Disturbance Power [dBm] 20MHz~3.6GHz:U=0.88dB 3.6GHz~8.4GHz:U=1.08dB 8.4GHz~13.6GHz:U=1.24dB 13.6GHz~22GHz:U=1.34dB 22GHz~26.5GHz:U=1.36dB Field Strength of Spurious ERP/EIRP [dBm] For 3 m Chamber: Radiation U = 5.90 dB (30 MHz-1 GHz) U = 4.94 dB (1 GHz-18 GHz) U = 4.24 dB (18 GHz-26.5 GHz) Frequency Stability Frequency Accuracy [Hz] U=41.58Hz AC Power Line Conducted Disturbance U=2.3 dB Emissions Voltage[dBμV] Duty Cycle Duty Cycle [%] U=±2.06 % END Report No.: Huawei Proprietary and Confidential Page 25 of 25 SYBH(Z-RF)20181224014002-2 Copyright © Huawei Technologies Co., Ltd. 003


Document Created: 2019-01-31 15:35:04
Document Modified: 2019-01-31 15:35:04
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