Kohler Co. KOHLER026 Voice Lighted Mirror N82-KOHLER026 N82KOHLER026 kohler026
Report No. : EED32K00040202 1 COVER PAGE TEST REPORT Product Trade mark Model/Type reference Serial Number Report Number FCC ID Date of Issue Test Standards Test result : Voice Lighted Mirror : Kohler 99571-VLAN-NA, : 99572-VLAN-NA, 99573-VLAN-NA : N/A : EED32K00040202 : N82-KOHLER026 : Apr. 13, 2018 : 47 CFR Part 15 Subpart C : PASS Page 1 of 70 Prepared for: Kohler Co. 444 Highland Drive, Kohler, Wisconsin 53044 USA Prepared by: Centre Testing International Group Co., Ltd. Hongwei Industrial Zone, Bao'an 70 District, Shenzhen, Guangdong, China TEL: +86-755-3368 3668 FAX: +86-755-3368 3385 Tested By: Reviewed by: Date: Tom chen (Test Project) Kevin yang (Reviewer) Apr. 13, 2018 Compiled by: Approved by: Kevin lan (Project Engineer) Sheek Luo (Lab supervisor) Check No.:3096379408 Report No. : EED32K00040202 2 Version Version No. 00 Date Apr. 13, 2018 Page 2 of 70 Description Original Report No. : EED32K00040202 Page 3 of 70 3 Test Summary Test Item Antenna Requirement AC Power Line Conducted Emission Conducted Peak Output Power 20dB Occupied Bandwidth Carrier Frequencies Separation Hopping Channel Number Dwell Time Pseudorandom Frequency Hopping Sequence RF Conducted Spurious Emissions Radiated Spurious emissions Test Requirement 47 CFR Part 15 Subpart C Section 15.203/15.247 (c) 47 CFR Part 15 Subpart C Section 15.207 47 CFR Part 15 Subpart C Section 15.247 (b)(1) 47 CFR Part 15 Subpart C Section 15.247 (a)(1) 47 CFR Part 15 Subpart C Section 15.247 (a)(1) 47 CFR Part 15 Subpart C Section 15.247 (b) 47 CFR Part 15 Subpart C Section 15.247 (a)(1) 47 CFR Part 15 Subpart C Section 15.247(b)(4)&TCB Exclusion List (7 July 2002) 47 CFR Part 15 Subpart C Section 15.247(d) 47 CFR Part 15 Subpart C Section 15.205/15.209 Test method Result ANSI C63.10-2013 PASS ANSI C63.10-2013 PASS ANSI C63.10-2013 PASS ANSI C63.10-2013 PASS ANSI C63.10-2013 PASS ANSI C63.10-2013 PASS ANSI C63.10-2013 PASS ANSI C63.10-2013 PASS ANSI C63.10-2013 PASS ANSI C63.10-2013 PASS Remark: Test according to ANSI C63.4-2014 & ANSI C63.10-2013. The tested sample(s) and the sample information are provided by the client. Model No.:99571-VLAN-NA, 99572-VLAN-NA, 99573-VLAN-NA Only the model 99571-VLAN-NA was tested, since the electrical circuit design, layout, components used and internal wiring were identical for the above models, with difference being the appearance and size. Report No. : EED32K00040202 Page 4 of 70 4 Content 1 COVER PAGE......................................................................................................................................................................1 2 VERSION.............................................................................................................................................................................. 2 3 TEST SUMMARY................................................................................................................................................................ 3 4 CONTENT.............................................................................................................................................................................4 5 TEST REQUIREMENT....................................................................................................................................................... 5 5.1 TEST SETUP....................................................................................................................................................................5 5.1.1 For Conducted test setup................................................................................................................................... 5 5.1.2 For Radiated Emissions test setup................................................................................................................... 5 5.1.3 For Conducted Emissions test setup................................................................................................................6 5.2 TEST ENVIRONMENT...................................................................................................................................................... 6 5.3 TEST CONDITION............................................................................................................................................................6 6 GENERAL INFORMATION............................................................................................................................................... 7 6.1 CLIENT INFORMATION.................................................................................................................................................... 7 6.2 GENERAL DESCRIPTION OF EUT.................................................................................................................................. 7 6.3 PRODUCT SPECIFICATION SUBJECTIVE TO THIS STANDARD........................................................................................ 7 6.4 DESCRIPTION OF SUPPORT UNITS................................................................................................................................7 6.5 TEST LOCATION..............................................................................................................................................................7 6.6 DEVIATION FROM STANDARDS...................................................................................................................................... 8 6.7 ABNORMALITIES FROM STANDARD CONDITIONS.......................................................................................................... 8 6.8 OTHER INFORMATION REQUESTED BY THE CUSTOMER.............................................................................................. 8 6.9 MEASUREMENT UNCERTAINTY (95% CONFIDENCE LEVELS, K=2).............................................................................. 8 7 EQUIPMENT LIST...............................................................................................................................................................9 8 RADIO TECHNICAL REQUIREMENTS SPECIFICATION........................................................................................11 Appendix A): 20dB Occupied Bandwidth.................................................................................................................12 Appendix B): Carrier Frequency Separation........................................................................................................... 16 Appendix C): Dwell Time............................................................................................................................................20 Appendix D): Hopping Channel Number................................................................................................................. 24 Appendix E): Conducted Peak Output Power.........................................................................................................26 Appendix F): Band-edge for RF Conducted Emissions........................................................................................ 30 Appendix G): RF Conducted Spurious Emissions................................................................................................ 35 Appendix H): Pseudorandom Frequency Hopping Sequence............................................................................. 42 Appendix I): Antenna Requirement.......................................................................................................................... 43 Appendix J): AC Power Line Conducted Emission................................................................................................44 Appendix K):Restricted bands around fundamental frequency (Radiated)........................................................47 Appendix L): Radiated Spurious Emissions............................................................................................................60 PHOTOGRAPHS OF TEST SETUP..................................................................................................................................68 PHOTOGRAPHS OF EUT CONSTRUCTIONAL DETAILS......................................................................................... 70 Report No. : EED32K00040202 5 Test Requirement 5.1 Test setup 5.1.1 For Conducted test setup Page 5 of 70 5.1.2 For Radiated Emissions test setup Radiated Emissions setup: Figure 1. Below 30MHz Figure 2. 30MHz to 1GHz Figure 3. Above 1GHz Report No. : EED32K00040202 5.1.3 For Conducted Emissions test setup Conducted Emissions setup Page 6 of 70 5.2 Test Environment Operating Environment: Temperature: 24.1 C Humidity: 58 % RH Atmospheric Pressure: 1010mbar 5.3 Test Condition Test Mode Tx/Rx GFSK//4DQPSK/ 402MHz ~2480 MHz 8DPSK(DH1,DH3,DH5) Test mode: Pre-scan under all rate at lowest channel 1 Low(L) Channel 1 2402MHz RF Channel Middle(M) Channel 40 2441MHz High(H) Channel79 2480MHz Mode GFSK packets 1-DH1 1-DH3 1-DH5 EIRP(dBm) 4.145 4.184 4.496 Mode /4DQPSK packets 2-DH1 2-DH3 2-DH5 EIRP(dBm) 5.456 5.482 5.951 Mode 8DPSK packets 3-DH1 3-DH3 3-DH5 EIRP(dBm) 5.456 5.785 6.189 Through Pre-scan, 1-DH5 packet the power is the worst case of GFSK, 2-DH5 packet the power is the worst case of /4DQPSK, 3-DH5 packet the power is the worst case of 8DPSK. Report No. : EED32K00040202 Page 7 of 70 6 General Information 6.1 Client Information Applicant: Kohler Co. Address of Applicant: 444 Highland Drive, Kohler, Wisconsin 53044 USA Manufacturer: Kohler Co. Address of Manufacturer: 444 Highland Drive, Kohler, Wisconsin 53044 USA 6.2 General Description of EUT Product Name: Model No.(EUT): Test Model No.: Trade mark: EUT Supports Radios application: Voice Lighted Mirror 99571-VLAN-NA, 99572-VLAN-NA, 99573-VLAN-NA 99571-VLAN-NA Kohler BT 4.0 Dual mode, 2402-2480MHz; WiFi 802.11b/g/n(20MHz)/n(40MHz) ,2412-2462MHz; Hardware Version: V02A(manufacturer declare ) Firmware version: V29(manufacturer declare ) Power Supply: AC 120V, 60Hz Sample Received Date: Mar. 02, 2018 Sample tested Date: Mar. 02, 2018 to Apr. 12, 2018 6.3 Product Specification subjective to this standard Operation Frequency: 2402MHz~2480MHz Bluetooth Version: 3.0+EDR Modulation Technique: Frequency Hopping Spread Spectrum(FHSS) Modulation Type: GFSK, /4DQPSK, 8DPSK Number of Channel: 79 Hopping Channel Type: Adaptive Frequency Hopping systems Sample Type: Fixed production Test Power Grade: Test Software of EUT: N/A (manufacturer declare)RTLBTAPP.exe Antenna Type and Gain: Type: Balun antenna; Gain:2.5dBi Test Voltage: AC 120V, 60Hz 6.4 Description of Support Units The EUT has been tested independently. 6.5 Test Location All tests were performed at: Centre Testing International Group Co., Ltd. Hongwei Industrial Zone, Bao'an 70 District, Shenzhen, Guangdong, China518101 Telephone: +86 (0) 755 33683668 Fax:+86 (0) 755 33683385 No tests were sub-contracted. FCC Designation No.: CN1164 Report No. : EED32K00040202 Page 8 of 70 6.6 Deviation from Standards None. 6.7 Abnormalities from Standard Conditions None. 6.8 Other Information Requested by the Customer None. 6.9 Measurement Uncertainty (95% confidence levels, k=2) No. Item 1 Radio Frequency Measurement Uncertainty 7.9 x 10-8 2 RF power, conducted 3 Radiated Spurious emission test 4 Conduction emission 0.31dB (30MHz-1GHz) 0.57dB (1GHz-18GHz) 4.5dB (30MHz-1GHz) 4.8dB (1GHz-12.75GHz) 3.6dB (9kHz to 150kHz) 3.2dB (150kHz to 30MHz) 5 Temperature test 0.64°C 6 Humidity test 2.8% 7 DC power voltages 0.025% Report No. : EED32K00040202 Page 9 of 70 7 Equipment List RF test system Equipment Manufacturer Model No. Serial Number Signal Generator Keysight E8257D MY53401106 Spectrum Analyzer Keysight N9010A MY54510339 Signal Generator High-pass filter DC Power power meter & power sensor RF control unit Keysight Sinoscite Keysight R&S JS Tonscend N5182B FL3CX03WG 18NM120398-002 E3642A OSP120 JS0806-2 MY53051549 --- MY54426035 101374 158060006 Temperature / Humidity Defu TH128 --- Indicator Cal. Date (mm-dd-yyyy) 03-13-2018 03-13-2018 03-13-2018 01-10-2018 03-13-2018 03-13-2018 03-13-2018 07-08-2017 Cal. Due date (mm-dd-yyyy) 03-12-2019 03-12-2019 03-12-2019 01-09-2019 03-12-2019 03-12-2019 03-12-2019 07-07-2018 Equipment 3M Semi/full-anechoic Chamber Manufacturer Model No. Serial Number Cal. date (mm-dd-yyyy) 3MChamber&Accessory Equipment Spectrum Analyzer Receiver TRILOG Broadband Antenna Spectrum Analyzer Microwave Preamplifier Loop Antenna Horn Antenna Double ridge horn antenna Pre-amplifier Temperature/ Humidity Indicator TDK SAC-3 --- Agilent R&S E4443A ESCI MY45300910 100435 Schwarzbeck VULB 9163 9163-618 R&S FSP40 JS Tonscend EMC051845 SE ETS-LINDGREN 6502 ETS-LINGREN 3117 100416 980380 00071730 00057407 A.H.SYSTEMS SAS-574 6042 A.H.SYSTEMS TAYLOR PAP-1840-60 1451 6041 1905 06-04-2016 11-16-2017 06-14-2017 08-15-2017 06-13-2017 01-19-2018 06-22-2017 07-20-2015 06-30-2015 06-30-2015 05-08-2017 Cal. Due date (mm-dd-yyyy) 06-03-2019 11-15-2018 06-13-2018 08-14-2018 06-12-2018 01-18-2019 06-21-2019 07-18-2018 06-28-2018 06-28-2018 05-07-2018 Report No. : EED32K00040202 Page 10 of 70 Equipment Receiver Temperature/ Humidity Indicator LISN Conducted disturbance Test Manufacturer Model No. Serial Number R&S ESCI 100009 TAYLOR 1451 1905 schwarzbeck NNLK8121 8121-529 Cal. date (mm-dd-yyyy) 06-14-2017 06-14-2017 06-13-2017 Cal. Due date (mm-dd-yyyy) 06-13-2018 06-13-2018 06-12-2018 Report No. : EED32K00040202 Page 11 of 70 8 Radio Technical Requirements Specification Reference documents for testing: No. Identity 1 FCC Part15C 2 ANSI C63.10-2013 Test Results List: Document Title Subpart C-Intentional Radiators American National Standard for Testing Unlicesed Wireless Devices Test requirement Test method Test item Verdict Note Part15C Section 15.247 (a)(1) Part15C Section 15.247 (a)(1) Part15C Section 15.247 (a)(1) Part15C Section 15.247 (b) Part15C Section 15.247 (b)(1) Part15C Section 15.247(d) Part15C Section 15.247(d) Part15C Section 15.247 (a)(1) Part15C Section 15.203/15.247 (c) Part15C Section 15.207 Part15C Section 15.205/15.209 Part15C Section 15.205/15.209 ANSI 63.10 ANSI 63.10 ANSI 63.10 ANSI 63.10 ANSI 63.10 ANSI 63.10 ANSI 63.10 ANSI 63.10 ANSI 63.10 ANSI 63.10 ANSI 63.10 ANSI 63.10 20dB Occupied Bandwidth Carrier Frequencies Separation Dwell Time PASS Appendix A) PASS Appendix B) PASS Appendix C) Hopping Channel Number PASS Appendix D) Conducted Peak Output Power Band-edge for RF Conducted Emissions RF Conducted Spurious Emissions Pseudorandom Frequency Hopping Sequence PASS Appendix E) PASS Appendix F) PASS Appendix G) PASS Appendix H) Antenna Requirement PASS Appendix I) AC Power Line Conducted Emission Restricted bands around fundamental frequency (Radiated) Emission) Radiated Spurious Emissions PASS Appendix J) PASS Appendix K) PASS Appendix L) Report No. : EED32K00040202 Appendix A): 20dB Occupied Bandwidth Test Result Mode Channel. 20dB Bandwidth [MHz] GFSK LCH 0.9850 GFSK MCH 0.9836 GFSK HCH 0.9866 /4DQPSK LCH 1.284 /4DQPSK MCH 1.290 /4DQPSK HCH 1.287 8DPSK LCH 1.287 8DPSK MCH 1.289 8DPSK HCH 1.289 Page 12 of 70 99% OBW [MHz] 0.91385 0.91169 0.91446 1.1780 1.1764 1.1819 1.1719 1.1730 1.1735 Verdict PASS PASS PASS PASS PASS PASS PASS PASS PASS Report No. : EED32K00040202 Test Graph Graphs GFSK/LCH Page 13 of 70 GFSK/MCH GFSK/HCH Report No. : EED32K00040202 /4DQPSK/LCH /4DQPSK/MCH /4DQPSK/HCH Page 14 of 70 Report No. : EED32K00040202 8DPSK/LCH 8DPSK/MCH 8DPSK/HCH Page 15 of 70 Report No. : EED32K00040202 Appendix B): Carrier Frequency Separation Result Table Mode Channel. Carrier Frequency Separation [MHz] GFSK LCH 1.146 GFSK MCH 0.906 GFSK HCH 1.016 /4DQPSK LCH 1.068 /4DQPSK MCH 1.016 /4DQPSK HCH 1.000 8DPSK LCH 0.996 8DPSK MCH 1.004 8DPSK HCH 1.022 Page 16 of 70 Verdict PASS PASS PASS PASS PASS PASS PASS PASS PASS Report No. : EED32K00040202 Test Graph Graphs GFSK/LCH Page 17 of 70 GFSK/MCH GFSK/HCH Report No. : EED32K00040202 /4DQPSK/LCH /4DQPSK/MCH /4DQPSK/HCH Page 18 of 70 Report No. : EED32K00040202 8DPSK/LCH 8DPSK/MCH 8DPSK/HCH Page 19 of 70 Report No. : EED32K00040202 Appendix C): Dwell Time Result Table Mode Packet Channel Burst Width [ms/hop/ch] Total Hops[hop*ch] Dwell Time[s] GFSK DH1 LCH 0.3635333 320 0.116 GFSK DH1 MCH 0.363533 320 0.116 GFSK DH1 HCH 0.363533 320 0.116 GFSK DH3 LCH 1.618803 160 0.259 GFSK DH3 MCH 1.6188 160 0.259 GFSK DH3 HCH 1.6188 160 0.259 GFSK DH5 LCH 2.852 106.7 0.304 GFSK DH5 MCH 2.852 106.7 0.304 GFSK DH5 HCH 2.852 106.7 0.304 Remark : All modes are tested, only the worst mode GFSK is reported. Page 20 of 70 Duty Cycle [%] 0.64 0.64 0.64 0.89 0.89 0.89 0.93 0.93 0.93 Verdict PASS PASS PASS PASS PASS PASS PASS PASS PASS Report No. : EED32K00040202 Test Graph Graphs GFSK_DH1/LCH Page 21 of 70 GFSK_DH1/MCH GFSK_DH1/HCH Report No. : EED32K00040202 GFSK_DH3/LCH GFSK_DH3/MCH GFSK_DH3/HCH Page 22 of 70 Report No. : EED32K00040202 GFSK_DH5/LCH GFSK_DH5/MCH GFSK_DH5/HCH Page 23 of 70 Report No. : EED32K00040202 Appendix D): Hopping Channel Number Result Table Mode Channel. Number of Hopping Channel GFSK Hop 79 /4DQPSK Hop 79 8DPSK Hop 79 Page 24 of 70 Verdict PASS PASS PASS Report No. : EED32K00040202 Test Graph Graphs GFSK/Hop Page 25 of 70 /4DQPSK/Hop 8DPSK/Hop Report No. : EED32K00040202 Appendix E): Conducted Peak Output Power Result Table Mode Channel. Maximum Peak Output Power [dBm] GFSK LCH 4.496 GFSK MCH 5.540 GFSK HCH 6.164 /4DQPSK LCH 5.951 /4DQPSK MCH 6.898 /4DQPSK HCH 7.430 8DPSK LCH 6.189 8DPSK MCH 7.186 8DPSK HCH 7.791 Page 26 of 70 Verdict PASS PASS PASS PASS PASS PASS PASS PASS PASS Report No. : EED32K00040202 Test Graph Graphs GFSK/LCH Page 27 of 70 GFSK/MCH GFSK/HCH Report No. : EED32K00040202 /4DQPSK/LCH /4DQPSK/MCH /4DQPSK/HCH Page 28 of 70 Report No. : EED32K00040202 8DPSK/LCH 8DPSK/MCH 8DPSK/HCH Page 29 of 70 Report No. : EED32K00040202 Page 30 of 70 Appendix F): Band-edge for RF Conducted Emissions Result Table Mode Channel Carrier Frequency [MHz] Carrier Power [dBm] Frequency Hopping Max Spurious Level [dBm] Limit [dBm] GFSK LCH 2402 4.066 3.637 Off -58.900 -15.93 On -42.272 -16.36 GFSK HCH 2480 5.714 5.187 Off -54.205 -14.29 On -38.648 -14.81 /4DQPSK LCH 2402 3.950 3.205 Off -58.179 -16.05 On -44.391 -16.8 /4DQPSK HCH 2480 5.582 5.732 Off -54.256 -14.42 On -40.411 -14.27 8DPSK LCH 2402 3.877 2.399 Off -59.198 -16.12 On -41.440 -17.6 8DPSK HCH 2480 5.580 5.159 Off -55.684 -14.42 On -39.820 -14.84 Verdict PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS PASS Report No. : EED32K00040202 Test Graph Graphs GFSK/LCH/No Hop Page 31 of 70 GFSK/LCH/Hop GFSK/HCH/No Hop Report No. : EED32K00040202 GFSK/HCH/Hop /4DQPSK/LCH/No Hop /4DQPSK/LCH/Hop Page 32 of 70 Report No. : EED32K00040202 /4DQPSK/HCH/No Hop /4DQPSK/HCH/Hop 8DPSK/LCH/No Hop Page 33 of 70 Report No. : EED32K00040202 8DPSK/LCH/Hop 8DPSK/HCH/No Hop 8DPSK/HCH/Hop Page 34 of 70 Report No. : EED32K00040202 Appendix G): RF Conducted Spurious Emissions Result Table Mode Channel Pref [dBm] Puw[dBm] GFSK LCH 3.949 <Limit GFSK MCH 4.965 <Limit GFSK HCH 5.604 <Limit /4DQPSK LCH 3.888 <Limit /4DQPSK MCH 4.908 <Limit /4DQPSK HCH 5.524 <Limit 8DPSK LCH 3.964 <Limit 8DPSK MCH 4.873 <Limit 8DPSK HCH 5.564 <Limit Page 35 of 70 Verdict PASS PASS PASS PASS PASS PASS PASS PASS PASS Report No. : EED32K00040202 Test Graph GFSK_LCH_Graphs Pref Page 36 of 70 Puw GFSK_MCH_Graphs Pref Report No. : EED32K00040202 Puw GFSK_HCH_Graphs Pref Page 37 of 70 Puw Report No. : EED32K00040202 /4DQPSK_LCH_Graphs Pref Page 38 of 70 Puw /4DQPSK_MCH_Graphs Pref Report No. : EED32K00040202 Puw Page 39 of 70 /4DQPSK_HCH_Graphs Pref Puw Report No. : EED32K00040202 8DPSK_LCH_Graphs Pref Page 40 of 70 Puw 8DPSK_MCH_Graphs Pref Report No. : EED32K00040202 Puw Page 41 of 70 8DPSK_HCH_Graphs Pref Puw Report No. : EED32K00040202 Page 42 of 70 Appendix H): Pseudorandom Frequency Hopping Sequence Test Requirement: 47 CFR Part 15C Section 15.247 (a)(1) requirement: Frequency hopping systems shall have hopping channel carrier frequencies separated by a minimum of 25 kHz or the 20 dB bandwidth of the hopping channel, whichever is greater. Alternatively. Frequency hopping systems operating in the 2400-2483.5 MHz band may have hopping channel carrier frequencies that are separated by 25 kHz or two-thirds of the 20 dB bandwidth of the hopping channel, whichever is greater, provided the systems operate with an output power no greater than 125 mW. The system shall hop to channel frequencies that are selected at the system hopping rate from a Pseudorandom ordered list of hopping frequencies. Each frequency must be used equally on the average by each transmitter. The system receivers shall have input bandwidths that match the hopping channel bandwidths of their corresponding transmitters and shall shift frequencies in synchronization with the transmitted signals. EUT Pseudorandom Frequency Hopping Sequence The pseudorandom sequence may be generated in a nine-stage shift register whose 5th and 9th stage outputs are added in a modulo-two addition stage. And the result is fed back to the input of the first stage. The sequence begins with the first ONE of 9 consecutive ONEs; i.e. the shift register is initialized with nine ones. · Number of shift register stages: 9 · Length of pseudo-random sequence: 29 -1 = 511 bits · Longest sequence of zeros: 8 (non-inverted signal) An example of Pseudorandom Frequency Hopping Sequence as follow: Each frequency used equally on the average by each transmitter. The system receivers have input bandwidths that match the hopping channel bandwidths of their Corresponding transmitters and shift frequencies in synchronization with the transmitted signals. The device does not have the ability to be coordinated with other FHSS systems in an effort to avoid the simultaneous occupancy of individual hopping frequencies by multiple transmitters. Report No. : EED32K00040202 Page 43 of 70 Appendix I): Antenna Requirement 15.203 requirement: 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. The use of a permanently attached antenna or of an antenna that uses a unique coupling to the intentional radiator, the manufacturer may design the unit so that a broken antenna can be replaced by the user, but the use of a standard antenna jack or electrical connector is prohibited. 15.247(b) (4) requirement: The conducted output power limit specified in paragraph (b) of this section is based on the use of antennas with directional gains that do not exceed 6 dBi. Except as shown in paragraph (c) of this section, if transmitting antennas of directional gain greater than 6 dBi are used, the conducted output power from the intentional radiator shall be reduced below the stated values in paragraphs (b)(1), (b)(2), and (b)(3) of this section, as appropriate, by the amount in dB that the directional gain of the antenna exceeds 6 dBi. EUT Antenna: The antenna is attached to the inner shell of the EUT and no consideration of replacement. The best case gain of the antenna is 2.5dBi. Report No. : EED32K00040202 Page 44 of 70 Appendix J): AC Power Line Conducted Emission Test Procedure: Limit: Test frequency range :150KHz-30MHz 1)The mains terminal disturbance voltage test was conducted in a shielded room. 2) The EUT was connected to AC power source through a LISN 1 (Line Impedance Stabilization Network) which provides a 50/50µH + 5 linear impedance. The power cables of all other units of the EUT were connected to a second LISN 2, which was bonded to the ground reference plane in the same way as the LISN 1 for the unit being measured. A multiple socket outlet strip was used to connect multiple power cables to a single LISN provided the rating of the LISN was not exceeded. 3)The tabletop EUT was placed upon a non-metallic table 0.8m above the ground reference plane. And for floor-standing arrangement, the EUT was placed on the horizontal ground reference plane, 4) The test was performed with a vertical ground reference plane. The rear of the EUT shall be 0.4 m from the vertical ground reference plane. The vertical ground reference plane was bonded to the horizontal ground reference plane. The LISN 1 was placed 0.8 m from the boundary of the unit under test and bonded to a ground reference plane for LISNs mounted on top of the ground reference plane. This distance was between the closest points of the LISN 1 and the EUT. All other units of the EUT and associated equipment was at least 0.8 m from the LISN 2. 5) In order to find the maximum emission, the relative positions of equipment and all of the interface cables must be changed according to ANSI C63.10 on conducted measurement. Frequency range (MHz) Limit (dBµV) Quasi-peak Average 0.15-0.5 66 to 56* 56 to 46* 0.5-5 56 46 5-30 60 50 * The limit decreases linearly with the logarithm of the frequency in the range 0.15 MHz to 0.50 MHz. NOTE : The lower limit is applicable at the transition frequency Measurement Data An initial pre-scan was performed on the live and neutral lines with peak detector. Quasi-Peak and Average measurement were performed at the frequencies with maximized peake mission were detected. Report No. : EED32K00040202 Live line: Page 45 of 70 Report No. : EED32K00040202 Neutral line: Page 46 of 70 Notes: 1. The following Quasi-Peak and Average measurements were performed on the EUT: 2. Final Test Level =Receiver Reading + LISN Factor + Cable Loss. Report No. : EED32K00040202 Page 47 of 70 Appendix K):Restricted bands around fundamental frequency (Radiated) Receiver Setup: Frequency 30MHz-1GHz Above 1GHz Detector Quasi-peak Peak Peak RBW 100 kHz 1MHz 1MHz VBW 300kHz 3MHz 10Hz Remark Quasi-peak Peak Average Test Procedure: Limit: Below 1GHz test procedure as below: a. The EUT was placed on the top of a rotating table 0.8 meters above the ground at a 3 meter semi-anechoic camber. The table was rotated 360 degrees to determine the position of the highest radiation. b. The EUT was set 3 meters away from the interference-receiving antenna, which was mounted on the top of a variable-height antenna tower. c. The antenna height is varied from one meter to four meters above the ground to determine the maximum value of the field strength. Both horizontal and vertical polarizations of the antenna are set to make the measurement. d. For each suspected emission, the EUT was arranged to its worst case and then the antenna was tuned to heights from 1 meter to 4 meters and the rotatable table was turned from 0 degrees to 360 degrees to find the maximum reading. e. The test-receiver system was set to Peak Detect Function and Specified Bandwidth with Maximum Hold Mode. f. Place a marker at the end of the restricted band closest to the transmit frequency to show compliance. Also measure any emissions in the restricted bands. Save the spectrum analyzer plot. Repeat for each power and modulation for lowest and highest channel Above 1GHz test procedure as below: g. Different between above is the test site, change from Semi- Anechoic Chamber to fully Anechoic Chamber and change form table 0.8 meter to 1.5 meter( Above 18GHz the distance is 1 meter and table is 1.5 meter). h. b. Test the EUT in the lowest channel , the Highest channel i. The radiation measurements are performed in X, Y, Z axis positioning for Transmitting mode, and found the X axis positioning which it is worse case. j. Repeat above procedures until all frequencies measured was complete. Frequency 30MHz-88MHz 88MHz-216MHz 216MHz-960MHz 960MHz-1GHz Above 1GHz Limit (dBµV/m @3m) 40.0 43.5 46.0 54.0 54.0 74.0 Remark Quasi-peak Value Quasi-peak Value Quasi-peak Value Quasi-peak Value Average Value Peak Value Report No. : EED32K00040202 Page 48 of 70 Test plot as follows: GFSK: Worse case mode: GFSK (DH5) Test channel: Lowest Remark: Peak Vertical Worse case mode: GFSK (DH5) Test channel: Lowest Remark: Peak Horizontal Report No. : EED32K00040202 Worse case mode: GFSK (DH5) Test channel: Lowest Remark: Page 49 of 70 Average Vertical Worse case mode: GFSK (DH5) Test channel: Lowest Remark: Average Horizontal Report No. : EED32K00040202 Worse case mode: GFSK (DH5) Test channel: Highest Remark: Page 50 of 70 Peak Vertical Worse case mode: GFSK (DH5) Test channel: Highest Remark: Peak Horizontal Report No. : EED32K00040202 Worse case mode: GFSK (DH5) Test channel: Highest Remark: Page 51 of 70 Average Vertical Worse case mode: GFSK (DH5) Test channel: Highest Remark: Average Horizontal Report No. : EED32K00040202 /4DQPSK: /4DQPSK Worse case mode: (2DH5) Page 52 of 70 Test channel: Lowest Remark: Peak Vertical /4DQPSK Worse case mode: (2DH5) Test channel: Lowest Remark: Peak Horizontal Report No. : EED32K00040202 /4DQPSK Worse case mode: (2DH5) Test channel: Lowest Remark: Page 53 of 70 Average Vertical /4DQPSK Worse case mode: (2DH5) Test channel: Lowest Remark: Average Horizontal Report No. : EED32K00040202 /4DQPSK Worse case mode: (2DH5) Test channel: Highest Remark: Page 54 of 70 Peak Vertical /4DQPSK Worse case mode: (2DH5) Test channel: Highest Remark: Peak Horizontal Report No. : EED32K00040202 /4DQPSK Worse case mode: (2DH5) Test channel: Highest Remark: Page 55 of 70 Average Vertical /4DQPSK Worse case mode: (2DH5) Test channel: Highest Remark: Average Horizontal Report No. : EED32K00040202 Page 56 of 70 8DPSK: Worse case mode: 8DPSK (3DH5) Test channel: Lowest Remark: Peak Vertical Worse case mode: 8DPSK (3DH5) Test channel: Lowest Remark: Peak Horizontal Report No. : EED32K00040202 Worse case mode: 8DPSK (3DH5) Test channel: Lowest Remark: Page 57 of 70 Average Vertical Worse case mode: 8DPSK (3DH5) Test channel: Lowest Remark: Average Horizontal Report No. : EED32K00040202 Worse case mode: 8DPSK (3DH5) Test channel: Highest Remark: Page 58 of 70 Peak Vertical Worse case mode: 8DPSK (3DH5) Test channel: Highest Remark: Peak Horizontal Report No. : EED32K00040202 Worse case mode: 8DPSK (3DH5) Test channel: Highest Remark: Page 59 of 70 Average Vertical Worse case mode: 8DPSK (3DH5) Test channel: Highest Remark: Average Horizontal Note:1) Through Pre-scan Non-hopping transmitting mode and charge+transmitter mode with all kind of modulation and all kind of data type, find the DH5 of data type is the worse case of GFSK modulation type in charge + transmitter mode. 2) The field strength is calculated by adding the Antenna Factor, Cable Factor & Preamplifier. The basic equation with a sample calculation is as follows: Final Test Level =Receiver Reading -Correct Factor Correct Factor = Preamplifier Factor Antenna FactorCable Factor Report No. : EED32K00040202 Page 60 of 70 Appendix L): Radiated Spurious Emissions Receiver Setup: Frequency Detector RBW VBW Remark 0.009MHz-0.090MHz Peak 10kHz 30kHz Peak 0.009MHz-0.090MHz Average 10kHz 30kHz Average 0.090MHz-0.110MHz Quasi-peak 10kHz 30kHz Quasi-peak 0.110MHz-0.490MHz Peak 10kHz 30kHz Peak 0.110MHz-0.490MHz Average 10kHz 30kHz Average 0.490MHz -30MHz Quasi-peak 10kHz 30kHz Quasi-peak 30MHz-1GHz Quasi-peak 100 kHz 300kHz Quasi-peak Above 1GHz Peak Peak 1MHz 1MHz 3MHz 10Hz Peak Average Test Procedure: Below 1GHz test procedure as below: a. The EUT was placed on the top of a rotating table 0.8 meters above the ground at a 3 meter semi-anechoic camber. The table was rotated 360 degrees to determine the position of the highest radiation. b. The EUT was set 3 meters away from the interference-receiving antenna, whichwas mounted on the top of a variable-height antenna tower. c. The antenna height is varied from one meter to four meters above the ground to determine the maximum value of the field strength. Both horizontal and vertical polarizations of the antenna are set to make the measurement. d. For each suspected emission, the EUT was arranged to its worst case and then the antenna was tuned to heights from 1 meter to 4 meters (for the test frequency of below 30MHz, the antenna was tuned to heights 1 meter) and the rotatable table was turned from 0 degrees to 360 degrees to find the maximum reading. e. The test-receiver system was set to Peak Detect Function and Specified Bandwidth with Maximum Hold Mode. f. If the emission level of the EUT in peak mode was 10dB lower than the limit specified, then testing could be stopped and the peak values of the EUT would be reported. Otherwise the emissions that did not have 10dB margin would be re-tested one by one using peak, quasi-peak or average method as specified and then reported in a data sheet. Above 1GHz test procedure as below: g. Different between above is the test site, change from Semi- Anechoic Chamber to fully Anechoic Chamber and change form table 0.8 meter to 1.5 meter( Above 18GHz the distance is 1 meter and table is 1.5 meter). h. Test the EUT in the lowest channel ,the middle channel ,the Highest channel i. The radiation measurements are performed in X, Y, Z axis positioning for Transmitting mode, and found the X axis positioning which it is worse case. j. Repeat above procedures until all frequencies measured was complete. Limit: Frequency Field strength Limit Measurement Remark (microvolt/meter) (dBµV/m) distance (m) 0.009MHz-0.490MHz 2400/F(kHz) - - 300 0.490MHz-1.705MHz 24000/F(kHz) - - 30 1.705MHz-30MHz 30 - - 30 30MHz-88MHz 100 40.0 Quasi-peak 3 88MHz-216MHz 150 43.5 Quasi-peak 3 216MHz-960MHz 200 46.0 Quasi-peak 3 960MHz-1GHz 500 54.0 Quasi-peak 3 Above 1GHz 500 54.0 Average 3 Note: 15.35(b), Unless otherwise specified, the limit on peak radio frequency emissions is 20dB above the maximum permitted average emission limit applicable to the equipment under test. This peak limit applies to the total peak emission level radiated by the device. Report No. : EED32K00040202 Radiated Spurious Emissions test Data: Radiated Emission below 1GHz 30MHz~1GHz (QP) Test mode: Transmitting Vertical Page 61 of 70 Report No. : EED32K00040202 Test mode: Transmitting Horizontal Page 62 of 70 Report No. : EED32K00040202 Page 63 of 70 Transmitter Emission above 1GHz GFSK: Worse case mode: GFSK(1-DH5) Test channel: Lowest Frequency (MHz) Antenna Preamp Cable Factor Loss (dB) Gain (dB/m) (dB) Read Level (dBµV) Level Limit Line (dBµV/m) (dBµV/m) 1267.104 30.38 1.96 44.29 48.80 36.85 74.00 1832.785 31.45 2.67 43.65 48.52 38.99 74.00 4804.000 34.69 5.98 44.60 48.73 44.80 74.00 6032.401 35.92 7.43 44.50 49.62 48.47 74.00 7206.000 36.42 6.97 44.77 47.75 46.37 74.00 9608.000 37.88 6.98 45.58 46.60 45.88 74.00 1273.572 30.40 1.97 44.28 48.91 37.00 74.00 1638.585 31.12 2.46 43.85 48.77 38.50 74.00 4804.000 34.69 5.98 44.60 48.39 44.46 74.00 5986.509 35.89 7.43 44.50 48.93 47.75 74.00 7206.000 36.42 6.97 44.77 47.66 46.28 74.00 9608.000 37.88 6.98 45.58 46.25 45.53 74.00 Remark: Peak Over Result Limit (dB) -37.15 -35.01 -29.20 -25.53 -27.63 -28.12 -37.00 -35.50 -29.54 -26.25 -27.72 -28.47 Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Pass Antenna Polaxis H H H H H H V V V V V V Worse case mode: GFSK(1-DH5) Test channel: Middle Remark: Peak Frequency (MHz) Antenna Preamp Cable Factor Loss (dB) Gain (dB/m) (dB) Read Level (dBµV) Level Limit Line (dBµV/m) (dBµV/m) Over Result Limit (dB) 1276.818 30.41 1.98 44.28 48.96 37.07 74.00 -36.93 Pass 1549.344 30.96 2.35 43.94 49.28 38.65 74.00 -35.35 Pass 4882.000 34.85 6.14 44.60 48.06 44.45 74.00 -29.55 Pass 6001.768 35.90 7.44 44.50 49.06 47.90 74.00 -26.10 Pass 7323.000 36.43 6.85 44.87 47.39 45.80 74.00 -28.20 Pass 9764.000 38.05 7.12 45.55 47.61 47.23 74.00 -26.77 Pass 1263.883 30.38 1.96 44.29 48.37 36.42 74.00 -37.58 Pass 1549.344 30.96 2.35 43.94 49.05 38.42 74.00 -35.58 Pass 4882.000 34.85 6.14 44.60 48.28 44.67 74.00 -29.33 Pass 5806.408 35.76 7.25 44.52 48.95 47.44 74.00 -26.56 Pass 7323.000 36.43 6.85 44.87 47.88 46.29 74.00 -27.71 Pass 9764.000 38.05 7.12 45.55 46.69 46.31 74.00 -27.69 Pass Antenna Polaxis H H H H H H V V V V V V Report No. : EED32K00040202 Page 64 of 70 Worse case mode: GFSK(1-DH5) Test channel: Highest Remark: Peak Frequency (MHz) Antenna Preamp Cable Factor Loss (dB) Gain (dB/m) (dB) Read Level (dBµV) Level Limit Line (dBµV/m) (dBµV/m) Over Result Limit (dB) 1319.777 30.50 2.04 44.22 48.40 36.72 74.00 -37.28 Pass 1768.619 31.35 2.60 43.71 48.82 39.06 74.00 -34.94 Pass 4960.000 35.02 6.29 44.60 47.51 44.22 74.00 -29.78 Pass 5806.408 35.76 7.25 44.52 49.49 47.98 74.00 -26.02 Pass 7440.000 36.45 6.73 44.97 48.53 46.74 74.00 -27.26 Pass 9920.000 38.22 7.26 45.52 47.28 47.24 74.00 -26.76 Pass 1267.104 30.38 1.96 44.29 48.62 36.67 74.00 -37.33 Pass 1805.005 31.40 2.64 43.68 48.35 38.71 74.00 -35.29 Pass 4960.000 35.02 6.29 44.60 47.42 44.13 74.00 -29.87 Pass 6611.326 36.21 7.28 44.56 50.53 49.46 74.00 -24.54 Pass 7440.000 36.45 6.73 44.97 48.09 46.30 74.00 -27.70 Pass 9920.000 38.22 7.26 45.52 48.44 48.40 74.00 -25.60 Pass Antenna Polaxis H H H H H H V V V V V V Worse case mode: /4DQPSK(2-DH5) Test channel: Lowest Remark: Peak Frequency (MHz) Antenna Preamp Cable Factor Loss (dB) Gain (dB/m) (dB) Read Level (dBµV) Level Limit Line (dBµV/m) (dBµV/m) Over Result Limit (dB) 1260.670 30.37 1.95 44.30 48.89 36.91 74.00 -37.09 Pass 1755.164 31.32 2.59 43.73 48.32 38.50 74.00 -35.50 Pass 4804.000 34.69 5.98 44.60 48.88 44.95 74.00 -29.05 Pass 6412.427 36.12 7.33 44.54 50.09 49.00 74.00 -25.00 Pass 7206.000 36.42 6.97 44.77 47.71 46.33 74.00 -27.67 Pass 9608.000 37.88 6.98 45.58 46.39 45.67 74.00 -28.33 Pass 1273.572 30.40 1.97 44.28 49.31 37.40 74.00 -36.60 Pass 1800.416 31.40 2.64 43.68 47.88 38.24 74.00 -35.76 Pass 4804.000 34.69 5.98 44.60 49.03 45.10 74.00 -28.90 Pass 5986.509 35.89 7.43 44.50 49.54 48.36 74.00 -25.64 Pass 7206.000 36.42 6.97 44.77 47.61 46.23 74.00 -27.77 Pass 9608.000 37.88 6.98 45.58 45.98 45.26 74.00 -28.74 Pass Antenna Polaxis H H H H H H V V V V V V Report No. : EED32K00040202 Page 65 of 70 Worse case mode: /4DQPSK(2-DH5) Test channel: Middle Remark: Peak Frequency (MHz) Antenna Preamp Cable Factor Loss (dB) Gain (dB/m) (dB) Read Level (dBµV) Level Limit Line (dBµV/m) (dBµV/m) Over Result Limit (dB) 1399.353 30.67 2.15 44.12 49.20 37.90 74.00 -36.10 Pass 1860.992 31.49 2.70 43.62 48.13 38.70 74.00 -35.30 Pass 4882.000 34.85 6.14 44.60 48.67 45.06 74.00 -28.94 Pass 5986.509 35.89 7.43 44.50 49.16 47.98 74.00 -26.02 Pass 7323.000 36.43 6.85 44.87 48.15 46.56 74.00 -27.44 Pass 9764.000 38.05 7.12 45.55 47.66 47.28 74.00 -26.72 Pass 1283.335 30.42 1.99 44.27 48.96 37.10 74.00 -36.90 Pass 1759.638 31.33 2.59 43.72 47.59 37.79 74.00 -36.21 Pass 4882.000 34.85 6.14 44.60 48.15 44.54 74.00 -29.46 Pass 6379.864 36.10 7.34 44.54 48.78 47.68 74.00 -26.32 Pass 7323.000 36.43 6.85 44.87 48.36 46.77 74.00 -27.23 Pass 9764.000 38.05 7.12 45.55 46.34 45.96 74.00 -28.04 Pass Antenna Polaxis H H H H H H V V V V V V Worse case mode: /4DQPSK(2-DH5) Test channel: Highest Remark: Peak Frequency (MHz) Antenna Preamp Cable Factor Loss (dB) Gain (dB/m) (dB) Read Level (dBµV) Level Limit Line (dBµV/m) (dBµV/m) Over Result Limit (dB) 1267.104 30.38 1.96 44.29 48.30 36.35 74.00 -37.65 Pass 1814.218 31.42 2.65 43.67 48.07 38.47 74.00 -35.53 Pass 4960.000 35.02 6.29 44.60 47.38 44.09 74.00 -29.91 Pass 6187.929 36.00 7.39 44.52 48.94 47.81 74.00 -26.19 Pass 7440.000 36.45 6.73 44.97 46.54 44.75 74.00 -29.25 Pass 9920.000 38.22 7.26 45.52 47.26 47.22 74.00 -26.78 Pass 1273.572 30.40 1.97 44.28 48.29 36.38 74.00 -37.62 Pass 1875.258 31.51 2.72 43.61 48.44 39.06 74.00 -34.94 Pass 4960.000 35.02 6.29 44.60 47.47 44.18 74.00 -29.82 Pass 6611.326 36.21 7.28 44.56 50.73 49.66 74.00 -24.34 Pass 7440.000 36.45 6.73 44.97 48.73 46.94 74.00 -27.06 Pass 9920.000 38.22 7.26 45.52 46.89 46.85 74.00 -27.15 Pass Antenna Polaxis H H H H H H V V V V V V Report No. : EED32K00040202 Page 66 of 70 Worse case mode: 8DPSK(3-DH5) Test channel: Lowest Remark: Peak Frequency (MHz) Antenna Preamp Cable Factor Loss (dB) Gain (dB/m) (dB) Read Level (dBµV) Level Limit Line (dBµV/m) (dBµV/m) Over Result Limit (dB) 1251.079 30.35 1.94 44.31 49.25 37.23 74.00 -36.77 Pass 1514.252 30.90 2.31 43.98 48.31 37.54 74.00 -36.46 Pass 4804.000 34.69 5.98 44.60 48.84 44.91 74.00 -29.09 Pass 6017.064 35.91 7.44 44.50 49.05 47.90 74.00 -26.10 Pass 7206.000 36.42 6.97 44.77 47.88 46.50 74.00 -27.50 Pass 9608.000 37.88 6.98 45.58 45.97 45.25 74.00 -28.75 Pass 1254.268 30.35 1.94 44.31 48.05 36.03 74.00 -37.97 Pass 1899.278 31.55 2.74 43.59 48.13 38.83 74.00 -35.17 Pass 4804.000 34.69 5.98 44.60 48.33 44.40 74.00 -29.60 Pass 6494.564 36.16 7.31 44.55 49.31 48.23 74.00 -25.77 Pass 7206.000 36.42 6.97 44.77 48.48 47.10 74.00 -26.90 Pass 9608.000 37.88 6.98 45.58 45.76 45.04 74.00 -28.96 Pass Antenna Polaxis H H H H H H V V V V V V Worse case mode: 8DPSK(3-DH5) Test channel: Middle Remark: Peak Frequency (MHz) Antenna Preamp Cable Factor Loss (dB) Gain (dB/m) (dB) Read Level (dBµV) Level Limit Line (dBµV/m) (dBµV/m) Over Result Limit (dB) 1270.334 30.39 1.97 44.29 48.10 36.17 74.00 -37.83 Pass 1634.419 31.12 2.45 43.85 48.05 37.77 74.00 -36.23 Pass 4882.000 34.85 6.14 44.60 47.69 44.08 74.00 -29.92 Pass 6078.644 35.94 7.42 44.51 49.21 48.06 74.00 -25.94 Pass 7323.000 36.43 6.85 44.87 47.57 45.98 74.00 -28.02 Pass 9764.000 38.05 7.12 45.55 47.76 47.38 74.00 -26.62 Pass 1257.465 30.36 1.95 44.30 47.82 35.83 74.00 -38.17 Pass 1746.251 31.31 2.58 43.73 47.43 37.59 74.00 -36.41 Pass 4882.000 34.85 6.14 44.60 48.47 44.86 74.00 -29.14 Pass 6511.117 36.17 7.31 44.55 49.26 48.19 74.00 -25.81 Pass 7323.000 36.43 6.85 44.87 47.19 45.60 74.00 -28.40 Pass 9764.000 38.05 7.12 45.55 47.36 46.98 74.00 -27.02 Pass Antenna Polaxis H H H H H H V V V V V V Report No. : EED32K00040202 Page 67 of 70 Worse case mode: 8DPSK(3-DH5) Test channel: Highest Remark: Peak Frequency (MHz) Antenna Preamp Cable Factor Loss (dB) Gain (dB/m) (dB) Read Level (dBµV) Level Limit Line (dBµV/m) (dBµV/m) Over Result Limit (dB) 1260.670 30.37 1.95 44.30 48.46 36.48 74.00 -37.52 Pass 1818.842 31.43 2.66 43.66 47.80 38.23 74.00 -35.77 Pass 4960.000 35.02 6.29 44.60 46.85 43.56 74.00 -30.44 Pass 5940.967 35.86 7.38 44.51 48.82 47.55 74.00 -26.45 Pass 7440.000 36.45 6.73 44.97 46.17 44.38 74.00 -29.62 Pass 9920.000 38.22 7.26 45.52 47.03 46.99 74.00 -27.01 Pass 1263.883 30.38 1.96 44.29 49.72 37.77 74.00 -36.23 Pass 1777.646 31.36 2.61 43.70 48.44 38.71 74.00 -35.29 Pass 4960.000 35.02 6.29 44.60 47.31 44.02 74.00 -29.98 Pass 5588.881 35.59 7.02 44.54 49.42 47.49 74.00 -26.51 Pass 7440.000 36.45 6.73 44.97 46.56 44.77 74.00 -29.23 Pass 9920.000 38.22 7.26 45.52 47.19 47.15 74.00 -26.85 Pass Antenna Polaxis H H H H H H V V V V V V Note: 1) Through Pre-scan Non-hopping transmitting mode and charge+transmitter mode with all kind of modulation and all kind ofdata type, find the DH5 of data type is the worse case of GFSK modulation type in charge + transmitter mode. 2) The field strength is calculated by adding the Antenna Factor, Cable Factor & Preamplifier. The basic equation with a sample calculation is as follows: Final Test Level =Receiver Reading -Correct Factor Correct Factor = Preamplifier Factor Antenna FactorCable Factor 3) Scan from 9kHz to 25GHz, the disturbance above 13GHz and below 30MHz was very low, and the above harmonics were the highest point could be found when testing, so only the above harmonics had been displayed. The amplitude of spurious emissions from the radiator which are attenuated more than 20dB below the limit need not be reported. Report No. : EED32K00040202 PHOTOGRAPHS OF TEST SETUP Test model No.: 99571-VLAN-NA Page 68 of 70 Radiated spurious emission Test Setup-1(Below 30MHz) Radiated emission Test Setup-2(30MHz-1GHz) Report No. : EED32K00040202 Page 69 of 70 Radiated spurious emission Test Setup-3(Above 1GHz) Conducted Emissions Test Setup Report No. : EED32K00040202 Page 70 of 70 PHOTOGRAPHS OF EUT Constructional Details Refer to Report No.EED32K00040201 for EUT external and internal photos. *** End of Report *** The test report is effective only with both signature and specialized stamp, The result(s) shown in this report refer only to the sample(s) tested. Without written approval of CTI, this report can't be reproduced except in full.福昕PDF打印机 版本 7.2.0.0424