etsi en 300 440 v2.1.1 (2017-03) test reportbwave.cc/bw8800/re/test report/rks170417008-00e_en 300...

Note: This test report is prepared for the customer shown above and for the device described herein. It may not be duplicated or used in part without prior written consent from Bay Area Compliance Laboratories Corp. (Kunshan). This report is valid only with a valid digital signature. The digital signature may be available only under the Adobe software above version 7.0.

ETSI EN 300 440 V2.1.1 (2017-03)

TEST REPORT For

Shanghai Bwave Technology Co., Ltd.

6F, Building 12, 399 Keyuan Road, Zhangjiang Hi-Tech Park, Shanghai, China

Model: BW8800

Report Type:

Amended Report

Product Type:

wireless module

Test Engineer:

Chris Wang

Report Number: RKS170417008-00E

Report Date: 2017-05-10

Reviewed By: Oscar Ye RF Leader

Test Laboratory:

Bay Area Compliance Laboratories Corp. (Kunshan) No.248 Chenghu Road, Kunshan, Jiangsu province, China Tel: +86-0512-86175000 Fax: +86-0512-88934268 www.baclcorp.com.cn

Bay Area Compliance Laboratories Corp. (Kunshan) Report No.: RKS170417008-00E

ETSI EN 300 440 V2.1.1 (2017-03) of 4

TABLE OF CONTENTS

DOCUMENT REVISION HISTORY ......................................................................................................................... 3

BELOW IS THE ORIGINAL REPORT .................................................................................................................... 4


ETSI EN 300 440 V2.1.1 (2017-03) of 4

DOCUMENT REVISION HISTORY

Revision Number

Report Number Description of Revision Date of Issue

1 RKS160310001-00D Original Report 2016-03-22

2 RKS170417008-00E Amended Report 2017-05-10

Note: This is an standard updated application based on RKS160310001-00D, the details as below: Update ETSI EN 300 440-2 V1.4.1 (2010-08) to ETSI EN 300 440 V2.1.1 (2017-03). For above difference, all the test data and EUT photos refer to the original report RKS160310001-00D that issued on 2016-03-22.


ETSI EN 300 440 V2.1.1 (2017-03) of 4

BELOW IS THE ORIGINAL REPORT

FINAL

Note: This test report is prepared for the customer shown above and for the device described herein. It may not be duplicated or used in part without prior written consent from Bay Area Compliance Laboratories Corp. (Dongguan). This report is valid only with a valid digital signature. The digital signature may be available only under the Adobe software above version 7.0.

ETSI EN 300 440-2 V1.4.1 (2010-08)

TEST REPORT For

Shanghai Bwave Technology Co., Ltd.

6F, Building 12, 399 Keyuan Road, Zhangjiang Hi-Tech Park, Shanghai, China

Model: BW8800

Report Type:

Original Report

Product Type:

wireless module

Test Engineer:

Matt Yao

Report Number: RKS160310001-00D

Report Date: 2016-03-22

Reviewed By:

Jesse Huang EMC Manager

Test Laboratory:

Bay Area Compliance Laboratories Corp. (Kunshan) Chenghu Road,Kunshan Development Zone No.248,Kunshan, Jiangsu, China Tel: +86-0512-86175000 Fax: +86-0512-88934268 www.baclcorp.com.cn

FINAL

Bay Area Compliance Laboratories Corp. (Kunshan) Report No.: RKS160310001-00D

ETSI EN 300 440-2 V1.4.1 (2010-08) Page 2 of 29

TABLE OF CONTENTS

GENERAL INFORMATION ...................................................................................................................................... 4

PRODUCT DESCRIPTION FOR EQUIPMENT UNDER TEST (EUT) .................................................................................... 4 OBJECTIVE................................................................................................................................................................... 4 TEST METHODOLOGY .................................................................................................................................................. 4 MEASUREMENT UNCERTAINTY ................................................................................................................................... 4 TEST FACILITY ............................................................................................................................................................ 5

SYSTEM TEST CONFIGURATION ......................................................................................................................... 6

JUSTIFICATION ............................................................................................................................................................. 6 EUT EXERCISE SOFTWARE.......................................................................................................................................... 6 SUPPORT EQUIPMENT LIST AND DETAILS .................................................................................................................... 6 EXTERNAL I/O CABLE ................................................................................................................................................. 6 BLOCK DIAGRAM OF TEST SETUP ................................................................................................................................ 7

SUMMARY OF TEST RESULTS............................................................................................................................... 8

ETSI EN 300 440-2 V1.4.1 (2010-08) §4.2.1.1 –EQUIVALENT ISOTROPIC RADIATED POWER .................. 9

STANDARD APPLICABLE .............................................................................................................................................. 9 TEST PROCEDURE ........................................................................................................................................................ 9 TEST EQUIPMENT LIST AND DETAILS ........................................................................................................................ 10 TEST DATA ................................................................................................................................................................ 10

ETSI EN 300 440-2 V1.4.1 (2010-08) §4.2.1.2 – PERMITTED RANGE OF OPERATING FREQUENCIES ... 13

APPLICABLE STANDARD ............................................................................................................................................ 13 TEST PROCEDURE ...................................................................................................................................................... 13 TEST EQUIPMENT LIST AND DETAILS ........................................................................................................................ 14 TEST DATA ................................................................................................................................................................ 14

ETSI EN 300 440-2 V1.4.1 (2010-08) §4.2.1.3 – UNWANTED EMISSION IN THE SPURIOUS EMISSIONS DOMAIN ..................................................................................................................................................................... 16

APPLICABLE STANDARD ............................................................................................................................................ 16 EUT SETUP ............................................................................................................................................................... 16 TEST PROCEDURE ...................................................................................................................................................... 16 TEST EQUIPMENT LIST AND DETAILS ........................................................................................................................ 17 TEST DATA ................................................................................................................................................................ 17

ETSI EN 300 440-2 V1.4.1 (2010-08) §4.2.2.3 – RECEIVER SPURIOUS RADIATIONS ................................... 19

APPLICABLE STANDARD ............................................................................................................................................ 19 EUT SETUP ............................................................................................................................................................... 19 TEST PROCEDURE ...................................................................................................................................................... 19 TEST EQUIPMENT LIST AND DETAILS ........................................................................................................................ 20 TEST DATA ................................................................................................................................................................ 21

EXHIBIT A - CE PRODUCT LABELING .............................................................................................................. 22

CE LABEL FORMAT ................................................................................................................................................... 22 PROPOSED LABEL LOCATION ON EUT ...................................................................................................................... 22

EXHIBIT C - EUT PHOTOGRAPHS ...................................................................................................................... 23

EUT –TOP VIEW ....................................................................................................................................................... 23 EUT –BOTTOM VIEW ................................................................................................................................................ 23 EUT –FRONT VIEW ................................................................................................................................................... 24 EUT –REAR VIEW ..................................................................................................................................................... 24 EUT –LEFT VIEW ...................................................................................................................................................... 25

FINAL


ETSI EN 300 440-2 V1.4.1 (2010-08) Page 3 of 29

EUT –RIGHT VIEW .................................................................................................................................................... 25 EUT –COVER OFF VIEW ............................................................................................................................................ 26 EUT – MAIN BOARD TOP VIEW ................................................................................................................................ 26 EUT – MAIN BOARD BOTTOM VIEW ......................................................................................................................... 27 EUT –SHIELDING OFF VIEW ...................................................................................................................................... 27 EUT –ANTENNA TOP VIEW ....................................................................................................................................... 28 EUT –ANTENNA BOTTOM VIEW ............................................................................................................................... 28

EXHIBIT D - TEST SETUP PHOTOGRAPHS ...................................................................................................... 29

RADIATED SPURIOUS EMISSIONS VIEW (BELOW 1 GHZ) .......................................................................................... 29 RADIATED SPURIOUS EMISSIONS VIEW (ABOVE 1 GHZ) ........................................................................................... 29

FINAL


ETSI EN 300 440-2 V1.4.1 (2010-08) Page 4 of 29

GENERAL INFORMATION Product Description for Equipment under Test (EUT) The Shanghai Bwave Technology Co., Ltd.’s product, model number: BW8800 or the "EUT" in this report was a wireless module, which was measured approximately: 50mm (L) x23mm (W)) x8mm (H). Rated input voltage: DC 5 V. *All measurement and test data in this report was gathered from production sample serial number: 20160223002 (Assigned by the BACL. The EUT supplied by the applicant was received on 2016-02-23) Objective The following report of is prepared on behalf of the Shanghai Bwave Technology Co., Ltd.. in accordance with ETSI EN 300 440-2 V1.4.1 (2010-08), Electromagnetic compatibility and Radio spectrum Matters (ERM); Short range devices; Radio equipment to be used in the 1 GHz to 40 GHz frequency range; Part 2: Harmonized EN covering the essential requirements of article 3.2 of the R&TTE Directive. The object is to determine the compliance of the EUT with ETSI EN 300 440-2 V1.4.1 (2010-08). Test Methodology All measurements contained in this report were conducted with ETSI EN 300 440-1. Measurement Uncertainty According to the requirements of ETSI EN 300 440-1, Flab (the value of the measurement uncertainty according to the requirements of ETSI TR 100 028) shall be, for each measurement, equal to or lower than the figure in the following table:

SN Parameter Flab Maximum allowable

uncertainty 1 Radio Frequency ±0.082×10-6 ±1×10-7

2 RF Power (Conducted) ±0.61dB ±2,5dB

3 Radiated emission of transmitter, valid to 26,5 GHz ±3.62dB ±6dB

4 Radiated emission of transmitter, valid between 26,5 GHz and 66 GHz

±3.62dB ±8dB

5 Radiated emission of receiver, valid to 26,5 GHz ±3.62dB ±6dB

6 Radiated emission of receiver, valid between 26,5

GHz and 66 GHz ±3.62dB ±8dB

7 Humidity ±5% ±5%

8 Temperature ±1℃ ±1℃

9 Voltage(DC) ±0.4% ±1%

10 Voltage(AC,<10kHz) ±1% ±2%

FINAL


ETSI EN 300 440-2 V1.4.1 (2010-08) Page 5 of 29

Test Facility The test site A used by Bay Area Compliance Laboratories Corp. (Kunshan) to collect test data is located on the Chenghu Lake Road,Kunshan Development Zone No.248,Kunshan, Jiangsu, China Test site at Bay Area Compliance Laboratories Corp. (Kunshan) has been fully described in reports submitted to the Federal Communication Commission (FCC). The details of these reports have been found to be in compliance with the requirements of Section 2.948 of the FCC Rules on November 06, 2014. The facility also complies with the radiated and AC line conducted test site criteria set forth in ANSI C63.4. The Federal Communications Commission has the reports on file and is listed under FCC Registration No.: 815570. The test site has been approved by the FCC for public use and is listed in the FCC Public Access Link (PAL) database.

FINAL


ETSI EN 300 440-2 V1.4.1 (2010-08) Page 6 of 29

SYSTEM TEST CONFIGURATION Justification For 802.11a/n(HT20) bandwidth system, Channel 5745MHz, 5785MHz and 5825MHz was tested. For 802.11n(HT40) bandwidth system, Channel 5755MHz and 5795MHz was tested. For 802.11ac80 bandwidth system, Channel 5775MHz was tested.

Channel No. Frequency Channel No. Frequency

149 5745 MHz 157 5785 MHz

151 5755 MHz 159 5795 MHz

153 5765 MHz 163 5825 MHz

155 5775 MHz

The worst-case data rates are determined to be as follows for each mode based upon investigation by measuring the average power and PSD across all date rates bandwidths, and modulations. EUT Exercise Software RF test tool :Laptool. The test command was used for testing,which was provided by manufacturer. The worst condition(maximum power with 100% duty cycle) was performed under: 802.11a: Data rate:1 Mbps, Power level: 13 802.11n-HT20: Data rate: MCS0, Power level: 12 802.11n-HT40: Data rate: MCS0, Power level: 10 802.11ac80: Data rate: MCS0, Power level: 8 Support Equipment List and Details

Manufacturer Description Model Serial Number

Bwave Control board N/A N/A

GPE Power Supply GPE248-120200-6 N/A

External I/O Cable

Cable Description Shielding

Type Length

(m) From Port To

Usb cable No 0.3 EUT Control board

FINAL


ETSI EN 300 440-2 V1.4.1 (2010-08) Page 7 of 29

Block Diagram of Test Setup

Non-Conductive Table 150 cm above Ground Plane

1.0 meter

1.5 meters

EUT-crtl board

FINAL


ETSI EN 300 440-2 V1.4.1 (2010-08) Page 8 of 29

SUMMARY OF TEST RESULTS ETSI EN 300 440-2 V1.4.1 (2010-08)

ETSI EN 300 440-2 V1.4.1 (2010-08)

Description of test Result

§ 4.2.1.1 Equivalent isotropically radiated power Compliance

§ 4.2.1.2 Permitted range of operating frequencies Compliance

§ 4.2.1.3 Unwanted emission in the Spurious Emissions domain Compliance

§ 4.2.1.4 Duty Cycle Not Applicable*

§ 4.2.2.3 Receiver Spurious Radiations Compliance

Not Applicable *: Testing is not required for this EUT.

FINAL


ETSI EN 300 440-2 V1.4.1 (2010-08) Page 9 of 29

ETSI EN 300 440-2 V1.4.1 (2010-08) §4.2.1.1 –EQUIVALENT ISOTROPIC RADIATED POWER Standard Applicable According to ETSI EN 300 440-1 section 7.1.3, the effective radiated power applies to equipment with an integral antenna and to equipment supplied with a dedicated antenna. If the equipment is designed to operate with different carrier powers, the rated power for each level of range of levels shall be declared by the manufacturer. The transmitter maximum e.i.r.p. under normal and extreme test conditions shall not exceed the values given in table 4. Test Procedure This method of measurement in clauses 7.1.2.1.1 or 7.1.2.1.2 shall only be used for:

• non spread spectrum equipment with a -6 dB bandwidth of 20 MHz or less and a duty cycle above 50 %;

• spread spectrum equipment with a -6 dB channel bandwidth of 1 MHz or less.

For peak power measurements, a spectrum analyzer or frequency-selective voltmeter shall be used and tuned to the transmitter carrier at which the highest level is detected.

FINAL


ETSI EN 300 440-2 V1.4.1 (2010-08) Page 10 of 29

For FHSS systems, the hop frequency which provides the maximum indicated level shall be used. The frequency shall be indicated in the test report. Other transmitters are tested according to clause 7.1.2.2. For practical reasons, measurements shall be performed only at the highest power level at which the transmitter is intended to operate. The measurement arrangement in figure 6 shall be used. The measurement shall be performed preferably in the absence of modulation. When it is not possible to measure it in the absence of modulation, this fact shall be stated in test reports. The transmitter shall be set in continuous transmission mode. If this is not possible, the measurements shall be carried out in a period shorter than the duration of the transmitted burst. It may be necessary to extend the duration of the burst. The transmitter shall be connected to an artificial antenna (see clause 6.2) and the power delivered to this artificial antenna shall be measured. The equivalent isotropically radiated power is then calculated from the measured value, the known antenna gain, relative to an isotropic antenna, and if applicable, any losses due to cables and connectors in the measurement system. Test Equipment List and Details

Manufacturer Description Model Serial

Number Calibration

Date Calibration Due Date

Rohde & Schwarz Signal Analyzer FSIQ26 100048 2015-11-12 2016-11-11

BACL High Temperature

Test Chamber BTH-150 30023 / /

* Statement of Traceability: Bay Area Compliance Laboratories Corp. (Kunshan) attests that all calibrations have been performed, traceable to National Primary Standards and International System of Units (SI).

Test Data

Environmental Conditions

Temperature: 28.1oC

Relative Humidity: 62 %

ATM Pressure: 100.6 kPa

The testing was performed by Matt Yao on 2016-3-21.

Test Mode: Transmitting,Chain 0 + Chain 1

FINAL


ETSI EN 300 440-2 V1.4.1 (2010-08) Page 11 of 29

For 802.11a mode:

Test Condition Reading (dBm)

Antenna gain (dBi)

Total e.i.r.p. (dBm)

Limit (dBm) Frequency

(MHz) Temperature

(℃) Voltage (Vdc)

5745

-20

5.0

9.44 2.25 11.69 14

+25 9.39 2.25 11.64 14

+55 9.35 2.25 11.60 14

5785

-20 9.88 2.25 12.13 14

+25 9.80 2.25 12.05 14

+55 9.77 2.25 12.02 14

5825

-20 9.65 2.25 11.90 14

+25 9.65 2.25 11.90 14

+55 9.58 2.25 11.83 14

For 802.11n(HT20) mode:


Antenna gain (dBi)



(MHz) Temperature

(℃) Voltage (Vdc)

5745

-20

5.0

8.31 2.25 10.56 14

+25 8.24 2.25 10.49 14

+55 8.26 2.25 10.51 14

5785

-20 7.95 2.25 10.20 14

+25 7.89 2.25 10.14 14

+55 7.85 2.25 10.10 14

5825

-20 8.19 2.25 10.44 14

+25 8.14 2.25 10.39 14

+55 8.10 2.25 10.35 14

FINAL


ETSI EN 300 440-2 V1.4.1 (2010-08) Page 12 of 29

For 802.11n(HT40) mode:


Antenna gain (dBi)



(MHz) Temperature

(℃) Voltage (Vdc)

5755

-20

5.0

8.24 2.25 10.49 14

+25 8.21 2.25 10.46 14

+55 8.15 2.25 10.40 14

5795

-20 8.11 2.25 10.36 14

+25 8.04 2.25 10.29 14

+55 7.84 2.25 10.09 14

For 802.11 ac80 mode:


Antenna gain (dBi)



(MHz) Temperature

(℃) Voltage (Vdc)

5775

-20

5.0

6.23 2.25 8.48 14

+25 6.16 2.25 8.41 14

+55 6.20 2.25 8.45 14

FINAL


ETSI EN 300 440-2 V1.4.1 (2010-08) Page 13 of 29

ETSI EN 300 440-2 V1.4.1 (2010-08) §4.2.1.2 – PERMITTED RANGE OF OPERATING FREQUENCIES Applicable Standard Per EN 300 440-1 section 7.2.4, the width of the power spectrum envelope is fH -fL for a given operating frequency. In equipment that allows adjustment or selection of different operating frequencies, the power envelope takes up different positions in the allowed band. The frequency range is determined by the lowest value of fL and the highest value of fH resulting from the adjustment of the equipment to the lowest and highest operating frequencies. The occupied bandwidth (i.e. the bandwidth in which 99 % of the wanted emission is contained) and the necessary bandwidth of the transmitter shall fall within the assigned frequency band. For all equipment the frequency range shall lie within the frequency band given by clause 7.1.3, table 4. For non-harmonized frequency bands the available frequency range may differ between national administrations. FH is the highest frequency of the power envelope, it is the frequency furthest above the frequency of maximum power where the output power envelope drops below the level of -75 dBm/Hz spectral power density (e.g. -30 dBm if measured in a 30 kHz reference bandwidth) e.i.r.p. FL is the lowest frequency of the power envelope; it is the frequency furthest below the frequency of maximum power where the output power drops below the level of -75 dBm/Hz spectral power density (e.g. -30 dBm if measured in a 30 kHz reference bandwidth) e.i.r.p. The power envelope shall contain the occupied bandwidth representing 99 % of the emissions. The occupied and necessary bandwidths of the transmitter shall be declared. Where differing modes of emission are available, all modes and their associated bandwidths shall be stated. Test Procedure a) put the spectrum analyser in video averaging mode with a minimum of 50 sweeps selected; b) select the lowest operating frequency of the equipment under test and activate the transmitter with modulation applied. The RF emission of the equipment shall be displayed on the spectrum analyser; c) using the marker of the spectrum analyser, find the lowest frequency below the operating frequency at which the spectral power density drops below the level given in clause 7.2. This frequency shall be recorded in the test report; d) select the highest operating frequency of the equipment under test and find the highest frequency at which the spectral power density drops below the value given in clause 7.2. This frequency shall be recorded in the test report; e) the difference between the frequencies measured in steps c) and d) is the operating frequency range. It shall be recorded in the test report. This measurement shall be repeated for each frequency range declared by the manufacturer.

FINAL


ETSI EN 300 440-2 V1.4.1 (2010-08) Page 14 of 29

Test Equipment List and Details


Number Calibration



BACL High Temperature Test Chamber BTH-150 30023 / /


Test Data


Temperature: 28.1oC




Test Mode: Transmitting

Test Conditions Frequency (MHz)

802.11a

Temperature Voltage fL at Low Channel

fH at High Channel

fL Limit fH Limit (℃) (Vdc)

-20

5.0

5733.68 5835.58 5725 5875

+25 5733.24 5835.41 5725 5875

+55 5733.55 5835.45 5725 5875

802.11n(HT20)


fH at High Channel


-20

5.0

5732.58 5836.58 5725 5875

+25 5732.44 5836.14 5725 5875

+55 5732.69 5836.47 5725 5875

FINAL


ETSI EN 300 440-2 V1.4.1 (2010-08) Page 15 of 29

Test Conditions Frequency (MHz)

802.11n(HT40)


fH at High Channel


-20

5.0

5738.69 5812.98 5725 5875

+25 5738.58 5812.58 5725 5875

+55 5738.44 5812.69 5725 5875

802.11ac80


fH at High Channel


-20

5.0

5737.75 5813.24 5725 5875

+25 5737.45 5813.12 5725 5875

+55 5737.69 5813.19 5725 5875

FINAL


ETSI EN 300 440-2 V1.4.1 (2010-08) Page 16 of 29

ETSI EN 300 440-2 V1.4.1 (2010-08) §4.2.1.3 – UNWANTED EMISSION IN THE SPURIOUS EMISSIONS DOMAIN Applicable Standard Per EN 300 440-1 section 7.3.6, the power of any spurious emission shall not exceed the following values given in table 5.

Table 5: Spurious emissions

FrequencyRanges

47 to 74 MHz87.5 to 108 MHz 174 to 230 MHz 470 to 862 MHz

Other frequencies ≤ 1000 MHz

Frequencies > 1000 MHz

State

Operating 4 nW 250 nW 1 μW

Standby 2 nW 2 nW 20 nW

EUT Setup The radiated emission tests were performed in the 3-meter Chamber, using the setup accordance with ETSI EN 300 440-1. The specifications used were the ETSI EN 300 440-1 limits. Test Procedure According to ETSI EN 300 440-1, the EUT was tested from 25 MHz to 40 GHz. Additional requirements for equipment employing FHSS modulation are given in clause 7.3.6. a) A test site selected from annex A which fulfils the requirements of the specified frequency range of this measurement shall be used. The test antenna shall be oriented initially for vertical polarization and connected to a measuring receiver, through a suitable filter to avoid overloading of the measuring receiver if required. The bandwidth of the measuring receiver shall be adjusted until the sensitivity of the measuring receiver is at least 6 dB below the spurious emission limit given in table 5, see clause 7.3.6. This bandwidth shall be recorded in the test report. For the measurement of spurious emissions below the second harmonic of the carrier frequency the optional filter used shall be a high "Q" (notch) filter centred on the transmitter carrier frequency and attenuating this signal by at least 30 dB. For the measurement of spurious emissions at and above the second harmonic of the carrier frequency the optional filter used shall be a high pass filter with a stop band rejection exceeding 40 dB. The cut-off frequency of the high pass filter shall be approximately 1,5 times the transmitter carrier frequency. The transmitter under test shall be placed on the support in its standard position and shall be switched on without modulation. If modulation cannot be inhibited then the test shall be carried out with modulation (see clause 6.1) and this fact shall be recorded in the test report. b) The same method of measurement as steps b) and k) of clause 7.3.3 shall be used.

FINAL


ETSI EN 300 440-2 V1.4.1 (2010-08) Page 17 of 29



Number Calibration


Sonoma Instrunent

Amplifier 330 171377 2015-09-16 2016-09-16

Rohde & Schwarz EMI Test Receiver ESCI 100195 2015-11-12 2016-11-11

Sunol Sciences Broadband Antenna JB3 A090314-2 2015-11-07 2016-11-06

Sunol Sciences Broadband Antenna JB3 A090314-1 2015-11- 07 2016-11-06

ETS Horn Antenna 3115 6229 2015-11-07 2016-11-06

ETS Horn Antenna 3115 9311-4159 2015-11- 07 2016-11-06


Mini Pre-amplifier ZVA-183-S+ 857001418 2015-09-16 2016-09-16

HP Signal Generator E4421B 3426A01336 2015-11- 04 2016-11- 03

R&S Auto test Software EMC32 V 09.10.0 - -


Test Data


Temperature: 26.7 ℃




FINAL


ETSI EN 300 440-2 V1.4.1 (2010-08) Page 18 of 29

Test Mode: 802.11a Transmitting,Chain 0+ Chain 1 (worst case)

Frequency (MHz)

Polar (H/V)

Receiver Reading (dBµV)

Substituted Method Absolute

Level (dBm)

Limit (dBm)

Margin (dB)

S.G. Level (dBm)

Antenna Gain

(dBd/dBi)

Cable Loss (dB)

Frequency:5745.000 MHz

11490 V 52.9 -43.6 12.5 11.2 -42.3 -30 12.3

11490 H 53.7 -38.8 12.5 11.2 -37.5 -30 7.5

254 V 40.2 -59.6 3.5 1.1 -57.2 -36 21.2

254 H 46.1 -53.8 3.5 1.1 -51.4 -36 15.4

Frequency:5825.000 MHz

11650 V 51.7 -44.8 12.5 11.2 -43.5 -30 13.5

11650 H 55.8 -40.7 12.5 11.2 -39.4 -30 9.4

254 V 41.3 -58.5 3.5 1.1 -56.1 -36 20.1

254 H 45.2 -54.7 3.5 1.1 -52.3 -36 16.3 Note: Absolute Level = SG Level - Cable loss + Antenna Gain Margin = Limit- Absolute Level

FINAL


ETSI EN 300 440-2 V1.4.1 (2010-08) Page 19 of 29

ETSI EN 300 440-2 V1.4.1 (2010-08) §4.2.2.3 – RECEIVER SPURIOUS RADIATIONS Applicable Standard According to EN 300440-2§4.2.2.3.The spurious radiations, as defined in EN 300 440-1 [1], clause 8.3.1, shall not exceed the limits in EN 300 440-1 [1] clause 8.3.5. The power of any spurious emission shall not exceed 2 nW in the range 25 MHz to 1 GHz and shall not exceed 20 nW on frequencies above 1 GHz. EUT Setup The radiated emission tests were performed in the 3-meter Chamber, using the setup accordance with ETSI EN 300 440-1. The specifications used were the ETSI EN 300 440-1 limits. Test Procedure According to ETSI EN 300 440-1, the EUT was tested from 25 MHz to 40 GHz. This method of measurement applies to receivers having a permanent antenna connector.

a) A test site selected from annex A which fulfils the requirements of the specified frequency range of this measurement shall be used. The test antenna shall be oriented initially for vertical polarization and connected to a measuring receiver. The bandwidth of the measuring receiver shall be adjusted until the sensitivity of the measuring receiver is at least 6 dB below the spurious emission limit given in clause 8.1.5. This bandwidth shall be recorded in the test report. The receiver under test shall be placed on the support in its standard position and connected to an artificial antenna, see clause 6.2. b) For carrier frequencies in the range 1 GHz to 20 GHz the frequency of the measuring receiver shall be adjusted over the frequency range 25 MHz to 10 times the carrier frequency, not exceeding 40 GHz. For carrier frequencies above 20 GHz the measuring receiver shall be tuned over the range 25 MHz up to twice the carrier frequency not exceeding 100 GHz. The frequency of each spurious component shall be noted. If the test site is disturbed by radiation coming from outside the site, this qualitative search may be performed in a screened room with reduced distance between the transmitter and the test antenna. c) At each frequency at which a component has been detected, the measuring receiver shall be tuned and the test antenna shall be raised or lowered through the specified height range until the maximum signal level is detected on the measuring receiver. d) The receiver shall be rotated up to 360° about a vertical axis, to maximize the received signal. e) The test antenna shall be raised or lowered again through the specified height range until a maximum is obtained. This level shall be noted.

f) The substitution antenna (see clause A.3.2) shall replace the receiver antenna in the same position and in vertical polarization. It shall be connected to the signal generator.

FINAL


ETSI EN 300 440-2 V1.4.1 (2010-08) Page 20 of 29

g) At each frequency at which a component has been detected, the signal generator, substitution antenna and measuring receiver shall be tuned. The test antenna shall be raised or lowered through the specified height range until the maximum signal level is detected on the measuring receiver. The level of the signal generator giving the same signal level on the measuring receiver as in step e) shall be noted. This level, after correction due to the gain of the substitution antenna and the cable loss, is the radiated spurious component at this frequency. h) The frequency and level of each spurious emission measured and the bandwidth of the measuring receiver shall be recorded in the test report. i) Measurements b) to h) shall be repeated with the test antenna oriented in horizontal polarization.



Number Calibration


Sonoma Instrunent Amplifier 330 171377 2015-09-16 2016-09-16

Rohde & Schwarz EMI Test Receiver ESCI 100195 2015-11-12 2016-11-11

Sunol Sciences Broadband Antenna JB3 A090314-2 2015-11-07 2016-11-06

Sunol Sciences Broadband Antenna JB3 A090314-1 2015-11- 07 2016-11-06

ETS Horn Antenna 3115 6229 2015-11-07 2016-11-06

ETS Horn Antenna 3115 9311-4159 2015-11- 07 2016-11-06


Mini Pre-amplifier ZVA-183-S+ 857001418 2015-09-16 2016-09-16

HP Signal Generator E4421B 3426A01336 2015-11- 04 2016-11- 03

R&S Auto test Software EMC32 V 09.10.0 - -


FINAL


ETSI EN 300 440-2 V1.4.1 (2010-08) Page 21 of 29

Test Data


Temperature: 26.7 ℃




Test Mode: Receiving, Chain 0+ Chain 1

Frequency (MHz)

Polar (H/V)

Receiver Reading (dBµV)

Substituted Method Absolute

Level (dBm)

Limit (dBm)

Margin (dB)

S.G. Level (dBm)

Antenna Gain

(dBd/dBi)

Cable Loss (dB)

Frequency: 5745.000 MHz

1587.000 V 38.9 -65.8 11 1.5 -56.3 -47 9.3

1587.000 H 39.5 -65.2 11 1.5 -55.7 -47 8.7

260.000 V 22.9 -76.8 3.5 1.2 -74.5 -57 17.5

260.000 H 22.1 -77.6 3.5 1.2 -75.3 -57 18.3

Frequency: 5825.000 MHz

1600.000 V 38.3 -66.4 11 1.5 -56.9 -47 9.9

1600.000 H 38.9 -65.8 11 1.5 -56.3 -47 9.3

260.000 V 21.8 -77.9 3.5 1.2 -75.6 -57 18.6

260.000 H 21.6 -78.1 3.5 1.2 -75.8 -57 18.8

FINAL


ETSI EN 300 440-2 V1.4.1 (2010-08) Page 22 of 29

EXHIBIT A - CE PRODUCT LABELING CE Label Format Specifications: The marking set out above must be affixed to the apparatus or to its data plate and have a minimum

height of 5 mm. The elements should be easily readable and indelible. They may be placed anywhere on the apparatus case or in its battery compartment. No tool should be needed to view the marking.

Note: The label should contain the below content: ① The name of the manufacturer or the person responsible for placing the apparatus on the market ② Type ③ Batch and/or serial numbers

Proposed Label Location on EUT Proposed Label Location

FINAL


ETSI EN 300 440-2 V1.4.1 (2010-08) Page 23 of 29

EXHIBIT C - EUT PHOTOGRAPHS

EUT –Top View

EUT –Bottom View

FINAL


ETSI EN 300 440-2 V1.4.1 (2010-08) Page 24 of 29

EUT –Front View

EUT –Rear View

FINAL


ETSI EN 300 440-2 V1.4.1 (2010-08) Page 25 of 29

EUT –Left View

EUT –Right View

FINAL


ETSI EN 300 440-2 V1.4.1 (2010-08) Page 26 of 29

EUT –Cover off View

EUT – Main Board Top View

FINAL


ETSI EN 300 440-2 V1.4.1 (2010-08) Page 27 of 29

EUT – Main Board Bottom View

EUT –Shielding off View

FINAL


ETSI EN 300 440-2 V1.4.1 (2010-08) Page 28 of 29

EUT –Antenna Top View

EUT –Antenna Bottom View

FINAL


ETSI EN 300 440-2 V1.4.1 (2010-08) Page 29 of 29

EXHIBIT D - TEST SETUP PHOTOGRAPHS

Radiated Spurious Emissions View (Below 1 GHz)

Radiated Spurious Emissions View (Above 1 GHz)

*****END OF REPORT*****

etsi en 300 440 v2.1.1 (2017-03) test reportbwave.cc/bw8800/re/test report/rks170417008-00e_en 300...

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