Scanstrut ROKK wireless charger 15.209 FCC

FCC ID: 2APUP-SCCW01

Test Report

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FCCID_3866274

Page 1 of 20 Report No.: UNIA2018050219-1FR-01 FCC RADIO TEST REPORT FCC ID: 2APUP-SCCW01 Product: ROKK wireless charger Trade Name: Scanstrut Model Name: SC-CW-01 Serial Model: SC-CW-02, SC-CW-03, SC-CW-04, SC-CW-05 Report No.: UNIA2018050219-1FR-01 Prepared for Scanstrut Ltd. 5 Darts Business Park, Clyst St. George, Exeter, United Kingdom Prepared by Shenzhen United Testing Technology Co., Ltd. 2F, Annex Bldg, Jiahuangyuan Tech Park, #365 Baotian 1 Rd, Tiegang Community, Xixiang Str, Bao'an District, Shenzhen, China

Page 2 of 20 Report No.: UNIA2018050219-1FR-01 TEST RESULT CERTIFICATION Applicant’s name............... : Scanstrut Ltd. 5 Darts Business Park, Clyst St. George, Exeter, United Address ................................ : Kingdom Manufacture's Name ......... : Huizhou Hengrun Industry Co.,Ltd. Room 408, Customs Clearance Center, Lixin Road, Address ................................ : Zhongkai Hi-Tech. zone, Huizhou, Guangdong, P.R.China Product description Product name ...................... : ROKK wireless charger Model name ............................... : SC-CW-01 Serial Model ......................... : SC-CW-02, SC-CW-03, SC-CW-04, SC-CW-05 FCC Rules and Regulations Part 15 Subpart C (Section Standards............................ : 15.209) Test procedure ....................... : ANSI C63.10-2013 This device described above has been tested by Shenzhen United Testing Technology Co., Ltd., and the test results show that the equipment under test (EUT) is in compliance with the FCC requirements. And it is applicable only to the tested sample identified in the report. This report shall not be reproduced except in full, without the written approval of UNI, this document may be altered or revised by Shenzhen United Testing Technology Co., Ltd., personnel only, and shall be noted in the revision of the document. Date of Test..........................................: Date (s) of performance of tests.............: May 08, 2018 ~ May 18, 2018 Date of Issue ........................................: May 18, 2018 Test Result ............................................: Pass Prepared by: Kahn yang/Editor Reviewer: Sherwin Qian/Supervisor Approved & Authorized Signer: Liuze/Manager

Page 3 of 20 Report No.: UNIA2018050219-1FR-01 Table of Contents Page 1 . TEST SUMMARY 4 1.1 TEST PROCEDURES AND RESULTS 4 1.2 TEST FACILITY 4 1.3 MEASUREMENT UNCERTAINTY 4 2. GENERAL INFORMATION 5 2.1 General Description of EUT 5 2.2. Carrier Frequency of Channels 6 2.3 Operation of EUT during testing 6 2.4 Description of Test Setup 6 2.5 Measurement Instruments List 7 3. CONDUCTED EMISSION TEST 8 3.1 Block Diagram of Test Setup 8 3.2 Conducted Power Line Emission Limit 8 3.3 Test Procedure 8 3.4 Test Result 8 4. Occupied Bandwidth 11 4.1 Block Diagram of Test Setup 11 4.2 Rules and specifications 11 4.3 Test Procedure 11 4.4 Test Result 12 5. RADIA TED EMISSIONS 13 5.1 Block Diagram of Test Setup 13 5.2 Rules and specifications 14 5.3 Test Procedure 15 5.4 Test Result 15 6 ANTENNA REQUIREMENT 18 7. PHOTOGRAPH OF TEST 19 7.1 Radiated Emission 19 7.2 Conducted Emission 20

Page 4 of 20 Report No.: UNIA2018050219-1FR-01 1. TEST SUMMARY 1.1 TEST PROCEDURES AND RESULTS DESCRIPTION OF TEST RESULT CONDUCTED EMISSIONS TEST COMPLIANT OCCUPIED BANDWIDTH COMPLIANT RADIA TED EMISSIONS COMPLIANT ANTENNA REQUIREMENT COMPLIANT 1.2 TEST FACILITY Test Firm : Shenzhen United Testing Technology Co., Ltd. Address : 2F, Annex Bldg, Jiahuangyuan Tech Park, #365 Baotian 1 Rd, Tiegang Community, Xixiang Str, Bao'an District, Shenzhen, China The testing quality ability of our laboratory meet with "Quality Law of People's Republic of China" Clause 19.The testing quality system of our laboratory meets with ISO/IEC-17025 requirements, which is approved by CNAS. This approval result is accepted by MRA of APLAC. Our test facility is recognized, certified, or accredited by the following organizations: CNAS-LAB Code: L6494 The EMC Laboratory has been assessed and in compliance with CNAS-CL01 accreditation criteria for testing Laboratories (identical to ISO/IEC 17025:2017 General Requirements) for the Competence of testing Laboratories. Designation Number: CN1227 Test Firm Registration Number: 674885 The EMC Laboratory has been registered and fully described in a report filed with the (FCC) Federal Communications commission. The acceptance letter from the FCC is maintained in our files. 1.3 MEASUREMENT UNCERTAINTY Measurement Uncertainty Conducted Emission Expanded Uncertainty = 2.23dB, k=2 Radiated emission expanded uncertainty(9kHz-30MHz) = 3.08dB, k=2 Radiated emission expanded uncertainty(30MHz-1000MHz) = 4.42dB, k=2 Radiated emission expanded uncertainty(Above 1GHz) = 4.06dB, k=2

Page 5 of 20 Report No.: UNIA2018050219-1FR-01 2. GENERAL INFORMATION 2.1 General Description of EUT Equipment ROKK wireless charger Model Name SC-CW-01 Serial No. SC-CW-02, SC-CW-03, SC-CW-04, SC-CW-05 Trade Mark N/A All model’s the function, software and electric circuit are Model Difference the same, only with a product color and model named different. Test sample model: SC-CW-01. FCC ID 2APUP-SCCW01 Antenna Type Coil Antenna Antenna Gain 0.2dBi Operation frequency 125KHz Number of Channels 1CH Modulation Type ASK Battery N/A Power Source DC 12V from adapter with AC 120V/60Hz M/N: EQ-24BCN Adapter Model Input: AC 100-240V, 50/60Hz, 0.8A Output: DC 12V, 2.0A

Page 6 of 20 Report No.: UNIA2018050219-1FR-01 2.2. Carrier Frequency of Channels Operation Frequency each of channel Channel Frequency 01 125KHz 2.3 Operation of EUT during testing Operating Mode The mode is used: Transmitting mode 2.4 Description of Test Setup Operation of EUT during testing AC 120V/60Hz Adapter EUT Mobile phone Setup: Transmission mode Table for auxiliary euqipment Equipment Description Manufacturer Model Calibration Due Date Adapter Kunxing EQ-24BCN N/A USB Cable Binshi M1 N/A Mobile phone Haixin M30T N/A

Page 7 of 20 Report No.: UNIA2018050219-1FR-01 2.5 Measurement Instruments List Item Equipment Manufacturer Model No. Serial No. Calibrated until 1 Horn Antenna Sunol DRH-118 A101415 2018.9.29 2 BicoNILog Antenna Sunol JB1 Antenna A090215 2018.9.29 3 PREAMP HP 8449B 3008A00160 2018.9.9 4 PREAMP HP 8447D 2944A07999 2018.9.9 EMI TEST 5 Rohde&Schwarz ESR3 101891 2018.9.9 RECEIVER VECTOR Signal 6 Rohde&Schwarz SMU200A 101521 2018.9.28 Generator 7 Signal Generator Agilent E4421B MY4335105 2018.9.28 8 MXA Signal Analyzer Agilent N9020A MY50510140 2018.9.28 9 MXA Signal Analyzer Agilent N9020A MY51110104 2018.9.9 ANT Tower&Turn 10 Champro EM 1000 60764 2018.9.28 table Controller 11 Anechoic Chamber Taihe Maorui 9m*6m*6m 966A0001 2018.9.9 12 Shielding Room Taihe Maorui 6.4m*4m*3m 643A0001 2018.9.9 13 RF Power sensor DARE RPR3006W 15I00041SNO88 2019.3.14 14 RF Power sensor DARE RPR3006W 15I00041SNO89 2019.3.14 15 RF power divider Anritsu K241B 992289 2018.9.28 Wideband radio 16 Rohde&Schwarz CMW500 154987 2018.9.28 communication tester 17 Biconical antenna Schwarzbeck VHA 9103 91032360 2018.9.8 18 Biconical antenna Schwarzbeck VHA 9103 91032361 2018.9.8 Broadband Hybrid 19 Schwarzbeck VULB9163 VULB9163#958 2018.9.8 Antennas 20 Horn Antenna Schwarzbeck BBHA9120D 9120D-1680 2019.1.12 Active Receive Loop 21 Schwarzbeck FMZB 1919B 00023 2018.11.02 Antenna 22 Horn Antenna Schwarzbeck BBHA 9170 BBHA9170651 2019.03.14 Microwave 23 Broadband Schwarzbeck BBV 9721 100472 2018.10.24 Preamplifier 24 Active Loop Antenna Com-Power AL-130R 10160009 2019.05.10

Page 8 of 20 Report No.: UNIA2018050219-1FR-01 3. CONDUCTED EMISSION TEST 3.1 Block Diagram of Test Setup 3.2 Conducted Power Line Emission Limit For unintentional device, according to § 15.107 Line Conducted Emission Limits is as following Maximum RF Line Voltage(dBV) Frequency CLASS A CLASS B (MHz) Q.P. Ave. Q.P. Ave. 0.15~0.50 79 66 66~56* 56~46* 0.50~5.00 73 60 56 46 5.00~30.0 73 60 60 50 * Decreasing linearly with the logarithm of the frequency For intentional device, according to §15.107Line Conducted Emission Limit is same as above table. 3.3 Test Procedure 1, The equipment was set up as per the test configuration to simulate typical actual usage per the user’s manual. The EUT is a tabletop system, a wooden table with a height of 0.8 meters is used and is placed on the ground plane as per ANSI C63.10. 2, Support equipment, if needed, was placed as per ANSI C63.10. 3, All I/O cables were positioned to simulate typical actual usage as per ANSI C63.10. 4, If a EUT received DC power from the USB Port of Notebook PC, the PC’s adapter received AC120V/60Hz power through a Line Impedance Stabilization Network (LISN) which supplied power source and was grounded to the ground plane. 5, All support equipments received AC power from a second LISN, if any. 6, The EUT test program was started. Emissions were measured on each current carrying line of the EUT using a spectrum Analyzer / Receiver connected to the LISN powering the EUT. The LISN has two monitoring points: Line 1 (Hot Side) and Line 2 (Neutral Side). Two scans were take n: one with Line 1 connected to Analyzer / Receiver and Line 2 connected to a 50 ohm load; the second scan had Line 1 connected to a 50 ohm load and Line 2 connected to the Analyzer / Receiver. 7, Analyzer / Receiver scanned from 150 KHz to 30MHz for emissions in each of the test modes 3.4 Test Result PASS

Page 9 of 20 Report No.: UNIA2018050219-1FR-01 Test Specification: Line Remark: Factor = Insertion Loss + Cable Loss, Result=Reading + Factor, Margin=Result – Limit.

Page 10 of 20 Report No.: UNIA2018050219-1FR-01 Test Specification: Neutral Remark: Factor = Insertion Loss + Cable Loss, Result=Reading + Factor, Margin=Result – Limit.

Page 11 of 20 Report No.: UNIA2018050219-1FR-01 4. Occupied Bandwidth 4.1 Block Diagram of Test Setup 4.2 Rules and specifications CFR 47 Part 15.215(c) ANSI C63.10-2013 4.3 Test Procedure Intentional radiators operating under the alternative provisions to the general emission limits, as contained in §§15.217 through 15.257 and in subpart E of this part, must be designed to ensure that 20dB bandwidth of the emission, or whatever bandwidth may otherwise be specified in the specific rule section under which the equip compliance with the 20dB attenuation specification may base on measurement at the intentional radiator’s antenna output terminal unless the intentional radiator uses a permanently attached antenna, in which case compliance shall be.deomonstrated by measuring the radiated emissions.

Page 12 of 20 Report No.: UNIA2018050219-1FR-01 4.4 Test Result PASS 20dB Bandwidth Mode Frequency(KHz) Limit (kHz) Conclusion (KHz) TX 125 2.946 / PASS

Page 13 of 20 Report No.: UNIA2018050219-1FR-01 5. RADIA TED EMISSIONS 5.1 Block Diagram of Test Setup

Page 14 of 20 Report No.: UNIA2018050219-1FR-01 5.2 Rules and specifications CFR 47 Part 15, section 15.205 Only spurious emissions are permitted in any of the frequency bands listed the tables in these sections. CFR 47 Part 15, section 15.209 The emissions from an intentional radiator shall not exceed the limits in the tables in these sections using an average detector CFR 47 Part 15, section 15.35 When average radiated emission measurements are specified, the limit on the peak level of the radio Frequency emission is 20dB above the maximum permitted average emission limit. Transmitter Spurious Emissions 9KHz-30MHz 9-150KHz 150-490KHz 490KHz-30MHz Resolution Bandwidth 200Hz 9KHz 9KHz Video Bandwidth 2KHz 100KHz 100KHz Detector Peak Peak Peak Trace Mode Max Hold Max Hold Max Hold Sweep Time Auto Auto Auto

Page 15 of 20 Report No.: UNIA2018050219-1FR-01 5.3 Test Procedure Measurement distance is 3m. For the measurement range up to 30MHz in the following plots the field strength result from 3m Distance measurement are extrapolated to 300m and 30m distance respectively, by 40dB/decade, According to part 15.31(f)(2), per antenna factor scaling. Measurements below 1000MHz are performed with a peak detector and compared to average limits, Measurements with an average detector are not required. Note: For battery operated equipment, the equipment tests shall be performed using a new battery. 5.4 Test Result PASS For 9KHz-30MHz Detector Actual Limits Freq. Reading Factor Margin Mode FS 3m (MHz) (dBuV) (dB) (dBuV/m) (PK/QP) (dBuV/m) (dBuV/m) 0.206 Peak 24.82 25.02 49.84 126.77 76.93 0.386 Peak 43.26 25.02 68.28 125.67 57.39 0.508 Peak 24.03 25.28 49.31 113.71 64.40 0.624 Peak 27.61 25.28 52.89 113.62 60.73 N/A

Page 16 of 20 Report No.: UNIA2018050219-1FR-01 For 30MHz-1GHz Antenna polarity: H Remark: Absolute Level= Reading Level+ Factor, Margin= Absolute Level – Limit Factor=Ant. Factor + Cable Loss – Pre-amplifi

LN Antenna polarity: V Page 17 of 20 Report No.: UNIA2018050219—1F R—01 80.0 dBu¥/m Limit: — Marginc — 0.0 30.000 40 50 6o 70 80 (MHz) 300 400 500 600 700 1000.000 No. Frequency Reading Correction Result Limit Margin Degree Height Remark (MHz) (dBuV) _|factor(dB/m)| (dBuV/im)_| (dBuV/im) (dB) (deg.) (cm) 1! 31.6202 44.05 —8.01 36.04 40.00 —3.96 peak 2* 45.5348 55.42 —~18.87 36.55 40.00 —3.45 peak 31 130.8369 52.95 —14.01 38.94 43.50 —4.56 peak 4 308.9126 49.07 —11.88 37.19 46.00 —8.81 peak 5 447.9822 36.88 ~10.25 26.63 46.00 ~19.37 peak 6 737.0714 3344 5.22 28.22 46.00 ~17.78 peak Remark: Absolute Level= Reading Level+ Factor, Margin= Absolute Level — Limit Factor=Ant. Factor + Cable Loss — Pre—amplifier Remark: (1) Measuring frequencies from 9 KHz to the 1 GHz, Radiated emission test from 9KHz to 3OMHz was verified, and no any emission was found except system noise floor. (2) * denotes emission frequency which appearing within the Restricted Bands specified in provision of 15.205, then the general radiated emission limits in 15.209 apply. (3) The IF bandwidth of EMI Test Receiver between 30MHz to 1GHz was 120KHz, 1 MHz for measuring above 1 GHz, below 30MHz was 10KHz. olbOtmitnIHANSGIRAS Shenzhen United Testing Technology Co.,Ltd. 2F, Annex Bldg, Jiahuangyuan Tech Park, #365 Baotian 1. Rd, Tiegang Community, Xixiang Str, Bac‘an District, Shenzhen, China United Testing Technology(Hong Kong) Limited mms5eEe9e+ ttXmattese—I3651em IBFLIRIRIIEHE2NR BM : 518102 Tel +86—755—86180996 Fax +86—755—86180156 http: // ww w.uni—lab.hik

Page 18 of 20 Report No.: UNIA2018050219-1FR-01 6 ANTENNA REQUIREMENT Standard Applicable: For intentional device, according to FCC 47 CFR Section 15.203, an intentional radiator shall be designed to ensure that no antenna other than that furnished by the responsible party shall be used with the device. Antenna Connected Construction The antenna used in this product is a Coil Antenna, The directional gains of antenna used for transmitting is 0.2dBi. ANTENNA

Page 19 of 20 Report No.: UNIA2018050219-1FR-01 7. PHOTOGRAPH OF TEST 7.1 Radiated Emission

Page 20 of 20 Report No.: UNIA2018050219-1FR-01 7.2 Conducted Emission ***End of Report***


Document Created: 2018-05-28 15:20:16
Document Modified: 2018-05-28 15:20:16
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