FCC TestReport WLan

FCC ID: QISLEO-BX9

Test Report

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FCCID_3301538

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RF Test Report of LEO-BX9 Notice 1. The laboratory has passed the accreditation by China National Accreditation Service for Conformity Assessment (CNAS). The accreditation number is L0310. 2. The laboratory has passed the accreditation by The American Association for Laboratory Accreditation (A2LA). The accreditation number is 2174.01. 3. The laboratory has been listed by the US Federal Communications Commission to perform electromagnetic emission measurements. The site recognition number is 97456. 4. The laboratory has been listed by Industry Canada to perform electromagnetic emission measurements. The recognition numbers of test site are 6369A-1. 5. 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. 6. The test report is invalid if not marked with the signatures of the persons responsible for preparing and approving the test report. 7. The test report is invalid if there is any evidence of erasure and/or falsification. 8. The test report is only valid for the test samples. 9. 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. Report No: Huawei Proprietary and Confidential Page 2 of 20 SYBH(Z-RF)002122016-2001 Copyright © Huawei Technologies Co., Ltd.

RF Test Report of LEO-BX9 Applicant: Huawei Technologies Co., Ltd. Address: Administration Building, Headquarters of Huawei Technologies Co., Ltd., Bantian, Longgang District, Shenzhen, 518129, P.R.C Date of Receipt Sample: 2017-02-17 Start Date of Test: 2017-02-20 End Date of Test: 2017-02-23 Test Result: Pass Approved by Senior 2017-02-23 Roger zhang Engineer: Date Name Signature Prepared by: 2017-02-23 Wangjinfeng Date Name Signature Report No: Huawei Proprietary and Confidential Page 3 of 20 SYBH(Z-RF)002122016-2001 Copyright © Huawei Technologies Co., Ltd.

RF Test Report of LEO-BX9 CONTENT 1 General Information ................................................................................................................................................ 5 1.1 Applied Standard........................................................................................................................................ 5 1.2 Test Location ............................................................................................................................................. 5 1.3 Test Environment Condition ....................................................................................................................... 5 2 Test Summary ........................................................................................................................................................ 6 3 Description of the Equipment under Test (EUT) ..................................................................................................... 7 3.1 General Description ................................................................................................................................... 7 3.2 EUT Identity ............................................................................................................................................... 7 3.3 Technical Description ................................................................................................................................. 9 4 General Test Conditions / Configurations ............................................................................................................. 10 4.1 Test Modes .............................................................................................................................................. 10 4.2 EUT Configurations .................................................................................................................................. 10 4.3 Test Environments ................................................................................................................................... 11 4.4 Antenna requirements .............................................................................................................................. 11 4.5 Description of tests................................................................................................................................... 12 4.6 Test Setups .............................................................................................................................................. 14 4.7 Test Conditions ........................................................................................................................................ 17 5 Main Test Instruments .......................................................................................................................................... 19 6 Appendixes ........................................................................................................................................................... 20 Report No: Huawei Proprietary and Confidential Page 4 of 20 SYBH(Z-RF)002122016-2001 Copyright © Huawei Technologies Co., Ltd.

RF Test Report of LEO-BX9 1 General Information 1.1 Applied Standard Applied Rules: 47 CFR FCC Part 2, Subpart J 2014 47 CFR FCC Part 15, Subpart C 2014 Test Method: FCC KDB 558074 D01 DTS Meas Guidance v03r04 ANSI C63.10-2013, American National Standard for Testing Unlicensed Wireless Devices. 1.2 Test Location Test Location 1: Reliability Laboratory of Huawei Technologies Co., Ltd. Address: Administration Building, Headquarters of Huawei Technologies Co., Ltd., Bantian, Longgang District, Shenzhen, 518129, P.R.C 1.3 Test Environment Condition Ambient Temperature: 19.5to 25 °C Ambient Relative Humidity: 40 to 55 % Atmospheric Pressure: Not applicable Report No: Huawei Proprietary and Confidential Page 5 of 20 SYBH(Z-RF)002122016-2001 Copyright © Huawei Technologies Co., Ltd.

aliz Huawe; RF Test Report of LEO—BX9 2 Test Summary Test Item FCC Part No. Requirements Test Result Verdict DTS (6 dB) Bandwidth 15.247(a)(2) 2500 kHz. Appendix A Pass Occupied Bandwidth No limit Appendix B Pass KDB 558074 : Duty Cycle No limit Appendix C Pass (6.0) For directional gain: < 30 Maximum Conducted dBm — (G[dBi] — 6 [dB]), . 15.247(0)(3) . Appendix D Pass Average Output Power Average; Otherwise: < 30 dBm, Average. For directional gain: < 8 NMaximum Power Spectral dBm/3 kHz — (G[dBi] — 6 . 15.247(e) . Appendix E Pass Density Level [dB]), Average. Otherwise: < 8 dBm/3 kHz, Average. Band Edges Compliance . Appendix F Pass <—30 dBr/100 kHz if total Unwanted Emissions into 15.247(d) average power < power Non—Restricted Frequency limit. Appendix G Pass Bands Unwanted Emissions into 15.247(d) FCC Part 15.209 field Restricted Frequency 15.209 strength limit; Appendix H Pass Bands (Radiated) (NOTE 1) FCC Part 15.207 AC Power Line Conducted 22 . 15.207 conducted limit; Appendix I Pass Emissions NOTE 1: According to KDB 558074, antenna—port conducted measurements are acceptable as an alternative to radiated measurements for demonstrating compliance to the limits in the restricted frequency bands. If conducted measurements are performed, then proper impedance matching must be ensured and an additional radiated test for cabinet/case emissions will also be required. Report No: Huawei Proprietary and Confidential Page 6 of 20 SYBH(Z—RF)002122016—2001 Copyright © Huawei Technologies Co., Ltd.

RF Test Report of LEO-BX9 3 Description of the Equipment under Test (EUT) 3.1 General Description LEO-BX9 is a smart watch based on Android wear OS; it can be communicated with mobile phone via Bluetooth. Watch also support MP3 player function, voice communication, alarm clock, gyro sensor, intelligent user can judge the state of motion, with PPG measurement of heart rate and supports IP68 dustproof and waterproof level. The WiFi/BT frequency is 2.4GHz. Note:only 2.4G WLAN test data included in this report. 3.2 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. 3.2.1 Board Board Description Hardware Version Software Version Main Board EA1LEOUM sawshark-userdebug7.1.1NFF47 3.2.2 Sub- Assembly Name Manufacture Description MODEL NO.:HW-050100C01 Adapter Huawei Technologies Co., Ltd. INPUT:100-240V~50/60HZ 0.2A OUTPUT:5.0V 1.0A MODEL NO.:HW-050100U01 Adapter Huawei Technologies Co., Ltd. INPUT:100-240V~50/60HZ 0.2A OUTPUT:5.0V 1.0A MODEL NO.:HW-050100E01 Adapter Huawei Technologies Co., Ltd. INPUT:100-240V~50/60HZ 0.2A OUTPUT:5.0V 1.0A MODEL NO.:HW-050100B01 Adapter Huawei Technologies Co., Ltd. INPUT:100-240V~50/60HZ 0.2A OUTPUT:5.0V 1.0A MODEL NO.:HW-050100A01 Adapter Huawei Technologies Co., Ltd. INPUT:100-240V~50/60HZ 0.2A OUTPUT:5.0V 1.0A MODEL NO.:HW-050100Z01 Adapter Huawei Technologies Co., Ltd. INPUT:100-240V~50/60HZ 0.2A OUTPUT:5.0V 1.0 Report No: Huawei Proprietary and Confidential Page 7 of 20 SYBH(Z-RF)002122016-2001 Copyright © Huawei Technologies Co., Ltd.

aliz Huawe; RF Test Report of LEO—BX9 MODEL NO.:HW—050100R01 Adapter Huawei Technologies Co., Ltd. INPUT:100—240V~50/60HZ 0.2A QUTPUT:5.0V —=—= 1.0 MODEL NO.:HW—050100.J01 Adapter Huawei Technologies Co., Ltd. INPUT:100—240V~50/60HZ 0.2A OUTPUT:5.0V _=—= 1.0 Battery Model: HB512627ECW Li—polymer Battery Huawei Technologies Co., Ltd. 3.82V,410mAh,Single Cell, Max5.1"26.1*26.6 Serials number: Leo—Cradle Charge Dock Huawei Technologies Co., Ltd. SV/1IA Report No: Huawei Proprietary and Confidential Page 8 of 20 SYBH(Z—RF)002122016—2001 Copyright © Huawei Technologies Co., Ltd.

RF Test Report of LEO-BX9 3.3 Technical Description Characteristics Description IEEE 802.11 WLAN 802.11b (20 MHz channel bandwidth), 802.11g (20 MHz channel bandwidth) Mode Supported 802.11n (20 MHz channel bandwidth), TX/RX Operating 2412-2462 fc = 2407 MHz + N * 5 MHz, where: Range MHz band - fc = “Operating Frequency” in MHz, - N = “Channel Number” with the range from 1 to 11 for the 20 MHz channel bandwidth Data Rate 802.11b 1 Mbps, 2 Mbps, 5.5 Mbps, 11 Mbps 802.11g 6 Mbps, 9 Mbps, 12 Mbps, 18 Mbps, 24 Mbps, 36 Mbps, 48 Mbps, 54 Mbps 802.11n (SISO) MCS 0 to MCS 7 Modulation Type DBPSK/DQPSK/CCK (DSSS), BPSK/QPSK/16QAM/64QAM (OFDM). Emission Designator 9M10G7D (for 802.11b mode), 15M2G7D (for 802.11g mod), 15M2G7D (for 802.11n20 mode) TX Power Control Supported, Not Supported Standby Mode Supported, Not Supported Equipment Type Stand-alone equipment, Plug-in radio device, Combined equipment Antenna Description Isotropic Antenna Type External, Integrated Ports Ant 1, Ant 2, Ant 3 Smart System SISO (for 802.11b/g/n), MIMO (for 802.11n): 2 Tx & 2 Rx, Diversity (for 802.11b/g) : Tx & Rx Gain -5 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 AC/DC Adapter PoE: Other: Report No: Huawei Proprietary and Confidential Page 9 of 20 SYBH(Z-RF)002122016-2001 Copyright © Huawei Technologies Co., Ltd.

RF Test Report of LEO-BX9 4 General Test Conditions / Configurations 4.1 Test Modes NOTE: Worst cases for each IEEE 802.11 mode are selected to perform tests. Test Mode Test Modes Description 11B IEEE 802.11b with data rate of 1 Mbps using SISO mode. 11G IEEE 802.11g with data rate of 6 Mbps using SISO mode. 11N20 IEEE 802.11n with data date of MCS0 and bandwidth of 20 MHz using SISO mode. 4.2 EUT Configurations 4.2.1 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. 4.2.2 Customized Configurations RX Freq. Ch. BW Power Conf., per Duty cycle [%] Test Mode RF Ch. TX Freq. [MHz] [MHz] [MHz] Port L Ch No. 1 / 2412 MHz --- 20 16 99 11B M Ch No. 6 / 2437 MHz --- 20 16 99 H Ch No. 11 / 2462 MHz --- 20 16 99 L Ch No. 1 / 2412 MHz --- 20 11 95 11G M Ch No. 6 / 2437 MHz --- 20 11 95 H Ch No. 11 / 2462 MHz --- 20 11 95 L Ch No. 1 / 2412 MHz --- 20 10 94 11N20 M Ch No. 6 / 2437 MHz --- 20 10 94 H Ch No. 11 / 2462 MHz --- 20 10 94 Report No: Huawei Proprietary and Confidential Page 10 of 20 SYBH(Z-RF)002122016-2001 Copyright © Huawei Technologies Co., Ltd.

RF Test Report of LEO-BX9 4.3 Test Environments NOTE: The values used in the test report may be stringent than the declared. Environment Parameter Selected Values During Tests Temperature Voltage Relative Humidity NTNV Ambient 3.82 VDC Ambient 4.4 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 LEO-BX9 are permanently attached. There are no provisions for connection to an external antenna. Conclusion: The EUT FCC ID: QISLEO-BX9 unit complies with the requirement of §15.203. Ch. Frequency (MHz) Ch. Frequency (MHz) 01 2412 . . . . 06 2437 . . . . 11 2462 Frequency/ Channel Operations Report No: Huawei Proprietary and Confidential Page 11 of 20 SYBH(Z-RF)002122016-2001 Copyright © Huawei Technologies Co., Ltd.

RF Test Report of LEO-BX9 4.5 Description of tests 4.5.1 Bandwidth measurement (a) Connect EUT test port to spectrum analyzer. (b) Set the EUT to transmit maximum output power at 2.4GHz, then set the measured frequency number and test the bandwidth with spectrum analyzer. 4.5.2 Average output power (a) Connect EUT test port to spectrum analyzer. (b) Set the EUT to transmit maximum output power at 2.4GHz. (c) Then set the EUT to transmit at high, middle and low frequency and measure the conducted output power separately. 4.5.3 Band edge spurious emission (a) Connect EUT test port to spectrum analyzer (b) Set the EUT to transmit maximum output power at 2.4GHz. (c) Then set the EUT to transmit at high, low frequency and measure the conducted band edge spurious separately. 4.5.4 Conducted RF spurious (a) Connect EUT test port to spectrum analyzer (b) Set the EUT to transmit maximum output power at 2.4GHz. (c) Then set the EUT to transmit at high, middle and low frequency and measure the conducted spurious separately. 4.5.5 Power spectral density (a) Connect EUT test port to spectrum analyzer (b) Set the EUT to transmit maximum output power at 2.4GHz. (c) Then set the EUT to transmit at high, middle and low frequency and measure the conducted power spectral density. 4.5.6 Radiated spurious emission & spurious in restricted band 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. 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. Report No: Huawei Proprietary and Confidential Page 12 of 20 SYBH(Z-RF)002122016-2001 Copyright © Huawei Technologies Co., Ltd.

RF Test Report of LEO-BX9 The EUT communicates with the BTS simulator through Air interface. The EUT operated on the typical channel. Measurement bandwidth: 30 MHz – 1000 MHz: 120 kHz th Measurement bandwidth: 1000 MHz – 10 Carrier Frequency: 1 MHz 4.5.7 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 Wireless Modem to transmitter the maximum power which defined in specification of product. The Wireless Modem operated on the typical channel. Measurement bandwidth (RBW) for 150kHz to 30 MHz: 9 kHz; Report No: Huawei Proprietary and Confidential Page 13 of 20 SYBH(Z-RF)002122016-2001 Copyright © Huawei Technologies Co., Ltd.

RF Test Report of LEO-BX9 4.6 Test Setups 4.6.1 Test Setup 1 The WLAN component’s antenna ports(s) of the EUT are connected to the measurement instrument per an appropriate attenuator. The EUT is controlled by PC/software to emit the specified signals for the purpose of measurements. Jumper Cable for connecting to RF Cables (If applicable) RF Cables for testing EUT Attenuator WLAN Measurement Component Instrument WLAN component's antenna port(s) Power Control Supply PC 4.6.2 Test Setup 2 The test site semi-anechoic chamber has met the requirement of NSA tolerance 4 dB according to the standards: 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 14 of 20 SYBH(Z-RF)002122016-2001 Copyright © Huawei Technologies Co., Ltd.

RF Test Report of LEO-BX9 Semi-Anechoic Chamber MAX:4 m Antenna EUT Preamplifier MIN:1 m 0.8 m AE Signal wire GRP Ferrite Clamp Receiver (Below 1 GHz) (Above 1 GHz) Report No: Huawei Proprietary and Confidential Page 15 of 20 SYBH(Z-RF)002122016-2001 Copyright © Huawei Technologies Co., Ltd.

RF Test Report of LEO-BX9 4.6.3 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 1m le : c ab w er 1m Po le: Receive c ab ing Power input LISN ou d Gr D≤10cm GRP Report No: Huawei Proprietary and Confidential Page 16 of 20 SYBH(Z-RF)002122016-2001 Copyright © Huawei Technologies Co., Ltd.

RF Test Report of LEO-BX9 4.7 Test Conditions Test Case Test Conditions Configuration Description DTS (6 dB) Measurement Method FCC KDB 558074 §8.1 Option 2. Bandwidth Test Environment NTNV Test Setup Test Setup 1 EUT Configuration 11B_L@Ant1, 11B_M@Ant1, 11B_H@Ant1, 11G_L@Ant1, 11G_M@Ant1, 11G_H@Ant1, 11N20_L@Ant1, 11N20_M@Ant1, 11N20_H@Ant1, Occupied Measurement Method FCC KDB 558074 §8.2 Option 2. Bandwidth Test Environment NTNV Test Setup Test Setup 1 EUT Configuration 11B_L@Ant1, 11B_M@Ant1, 11B_H@Ant1, 11G_L@Ant1, 11G_M@Ant1, 11G_H@Ant1, 11N20_L@Ant1, 11N20_M@Ant1, 11N20_H@Ant1, Maximum Measurement Method FCC KDB 558074 §9.2 .2. 4 Conducted Test Environment NTNV Average Output Test Setup Test Setup 1 Power EUT Configuration 11B_L@Ant1, 11B_M@Ant1, 11B_H@Ant1, 11G_L@Ant1, 11G_M@Ant1, 11G_H@Ant1, 11N20_L@Ant1, 11N20_M@Ant1, 11N20_H@Ant1, Maximum Power Measurement Method FCC KDB 558074§10.1 (peak PSD). Spectral Density Test Environment NTNV Level Test Setup Test Setup 1 EUT Configuration 11B_L@Ant1, 11B_M@Ant1, 11B_H@Ant1, 11G_L@Ant1, 11G_M@Ant1, 11G_H@Ant1, 11N20_L@Ant1, 11N20_M@Ant1, 11N20_H@Ant1, Band Edges Measurement Method FCC KDB 558074 §13.0. Compliance Test Environment NTNV Test Setup Test Setup 1 EUT Configuration 11B_L@Ant1, 11B_M@Ant1, 11B_H@Ant1, 11G_L@Ant1, 11G_M@Ant1, 11G_H@Ant1, 11N20_L@Ant1, 11N20_M@Ant1, 11N20_H@Ant1, Unwanted Measurement Method FCC KDB 558074 §11.0 Emissions into Test Environment NTNV Non-Restricted Test Setup Test Setup 1 Frequency Bands EUT Configuration 11B_L@Ant1, 11B_M@Ant1, 11B_H@Ant1, 11G_L@Ant1, 11G_M@Ant1, 11G_H@Ant1, 11N20_L@Ant1, 11N20_M@Ant1, 11N20_H@Ant1, Unwanted Measurement Method ANSI C63.10; FCC KDB 558074 §12.1, Radiated Emissions into Test Environment NTNV Report No: Huawei Proprietary and Confidential Page 17 of 20 SYBH(Z-RF)002122016-2001 Copyright © Huawei Technologies Co., Ltd.

RF Test Report of LEO-BX9 Test Case Test Conditions Configuration Description Restricted Test Setup Test Setup 2 Frequency Bands EUT Placement Flatwise, Upright, Hung (Radiated) EUT Configuration (1) 30 MHz to 1 GHz: 11B_L@Ant1 (Worst Conf.). (2) 1 GHz to 3 GHz: 11B_L@Ant1, 11B_M@Ant1, 11B_H@Ant1, 11G_L@Ant1, 11G_M@Ant1, 11G_H@Ant1, 11N20_L@Ant1, 11N20_M@Ant1, 11N20_H@Ant1, (3) 3 GHz to 18 GHz: 11B_L@Ant1 (Worse Conf.), 11B_H@Ant1 (Worse Conf.). (4) 18 GHz to 26.5 GHz: 11B_L@Ant1 (Worse Conf.), 11B_H@Ant1 (Worse Conf.). AC Power Line Measurement Method AC mains conducted. Conducted Test Environment NTNV Emissions Test Setup Test Setup 3 EUT Configuration 11B_L@Ant1 (Worst Conf.). Report No: Huawei Proprietary and Confidential Page 18 of 20 SYBH(Z-RF)002122016-2001 Copyright © Huawei Technologies Co., Ltd.

s < HUAWEI RF Test Report of LEO—BX9 5 Main Test Instruments Main Test Equipments Equipment Name Manufacturer Model Serial Number Cal Date Cal— Due Power supply KEITHLEY 2303 1342889 2016/10/13 2017/10/12 Wireless Communication Agilent N4010A MY49081592 2016/875 2017/8/5 Test set Spectrum Analyzer Agilent N020A MY52090652 2016/6729 2017/6/29 Universal Radio 2ol R&S CMW500 126854 2016/12/29 2017/12/29 Communication Tester Spectrum Analyzer Agilent N9O30A MY49431698 2016/875 2017/8/5 Temperature Chamber WEISS WKL64 56246002940010 2016/12/21 2017/12/21 Signal generator Agilent E8257D MY49281095 2016/875 2017/8/5 Vector Signal Generator R&AS SMU200A 104162 2016/875 2017875 Test receiver R&AS ESU26 100387 2016/67/21 2017/6/21 Test receiver R&AS ESCI 101163 2016/11/10 2017/11/10 LOOP R&AS HFH2—22 100262 2015/4/30 2017/4/29 Antennas(OkHz—30MHz) LOOP R&AS HFH2—22 100263 2015/4/30 2017/4/29 Antennas(OkHz—30MHz) Trilog Broadband Antenna VULB SCHWARZBECK 9163—490 2015/4/30 2017/4/29 (30M~3GHz) 9163 Trilog Broadband Antenna VULB SCHWARZBECK 9163—520 2015/4/30 2017/4/29 (30M~3GHz) 9163 Double—Ridged Waveguide R&AS HF907 100304 2015/4/30 2017/4/29 Horn Antenna (1G~18GHz) double ridged horn R&AS HF907 100305 2015/4/30 2017/4/29 antenna (0.8G—18GHz) Pyramidal Horn ETS—Lindgren Sep—60 5140299 20157715 201777714 Antenna(18GHz—26.5GHz) Artificial Main Network R&AS ENV4200 100134 2016/672 2017672 Line Impedance m R&AS ENV216 100382 2016/672 2017672 Stabilization Network Signal Generator Agilent E4438C MY49071538 2016/12/15 2017712715 Power Detecting & . . R&AS OSP—B157 100914 2016/875 2017/8/5 Sampling Unit Software Information Test Item Software Name Manufacturer Version RE EMC32 R&AS V9.25.0 CE EMC32 R&AS V9.25.0 Report No: Huawei Proprietary and Confidential Page 19 of 20 SYBH(Z—RF)002122016—2001 Copyright © Huawei Technologies Co., Ltd.

RF Test Report of LEO-BX9 6 Appendixes Appendix No. Description SYBH(Z-RF)002122016-2001-A Appendix for WLAN END Report No: Huawei Proprietary and Confidential Page 20 of 20 SYBH(Z-RF)002122016-2001 Copyright © Huawei Technologies Co., Ltd.


Document Created: 2017-02-23 17:08:33
Document Modified: 2017-02-23 17:08:33
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