radio test report - logitech ce... · 2017. 11. 11. · parameter uncertainty radio frequency...

Report No.: RE110624E07 1 Report Format Version 4.0.0

RADIO TEST REPORT

REPORT NO.: RE110624E07

MODEL NO.: Y-R0026

RECEIVED: June 24, 2011

TESTED: June 28 to July 01, 2011

ISSUED: July 25, 2011

APPLICANT: LOGITECH FAR EAST LTD.

ADDRESS: #2 Creation Rd. 4, Science-Based Ind. Park Hsinchu Taiwan, R.O.C.

ISSUED BY: Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch Hsin Chu Laboratory

LAB ADDRESS: No. 81-1, Lu Liao Keng, 9th Ling, Wu Lung Tsuen, Chiung Lin Hsiang, Hsin Chu Hsien 307, Taiwan

This test report consists of 38 pages in total. It may be duplicated completely for legal use with the approval of the applicant. It should not be reproduced except in full, without the written approval of our laboratory. The client should not use it to claim product endorsement by TAF or any government agencies. The test results in the report only apply to the tested sample.


TABLE OF CONTENTS RELEASE CONTROL RECORD ................................................................................... 4 1. CERTIFICATION................................................................................................ 5 2. SUMMARY OF TEST RESULTS ....................................................................... 6

2.1. TEST INSTRUMENTS....................................................................................... 7 2.2. MEASUREMENT UNCERTAINTY..................................................................... 8 2.3. MAXIMUM MEASUREMENT UNCERTAINTY .................................................. 8

3. GENERAL INFORMATION................................................................................ 9 3.1. GENERAL DESCRIPTION OF EUT .................................................................. 9 3.2. DESCRIPTION OF TEST MODES .................................................................. 11

3.3. TEST MODE APPLICABILITY AND TESTED CHANNEL DETAIL .................. 12 3.4. GENERAL DESCRIPTION OF APPLIED STANDARDS ................................. 14 3.5. DESCRIPTION OF SUPPORT UNITS............................................................. 15

3.6. CONFIGURATION OF SYSTEM UNDER TEST ............................................. 15 4. TEST PROCEDURES AND RESULTS............................................................ 16 TRANSMITTER PARAMETERS.................................................................................. 16

4.1. EQUIVALENT ISOTROPIC RADIATED POWER ............................................ 16 4.1.1. LIMITS OF EQUIVALENT ISOTROPIC RADIATED POWER.......................... 16 4.1.2. TEST PROCEDURES...................................................................................... 16

4.1.3. DEVIATION FROM TEST STANDARD ........................................................... 16 4.1.4. TEST SETUP................................................................................................... 16 4.1.5. TEST RESULTS .............................................................................................. 17

4.2. FREQUENCY RANGE..................................................................................... 18 4.2.1. LIMIT OF FREQUENCY RANGE..................................................................... 18 4.2.2. TEST PROCEDURES...................................................................................... 18


4.3. DWELL TIME ON EACH CHANNEL................................................................ 20 4.3.1. LIMIT OF DWELL TIME USED ........................................................................ 20 4.3.2. TEST PROCEDURES...................................................................................... 20

4.3.3. DEVIATION FROM TEST STANDARD ........................................................... 20 4.3.4. TEST SETUP................................................................................................... 20


4.3.5. TEST RESULTS .............................................................................................. 21

4.4. HOPPING CHANNEL ...................................................................................... 25 4.4.1. DEFINITION..................................................................................................... 25 4.4.2. LIMIT................................................................................................................ 25

4.4.3. TEST PROCEDURES...................................................................................... 25 4.4.4. TEST RESULTS .............................................................................................. 26 4.5. HOPPING SEQUENCE ................................................................................... 28

4.5.1. DEFINITION..................................................................................................... 28 4.5.2. LIMIT................................................................................................................ 28 4.5.3. REQUIREMENT............................................................................................... 28

4.6. MEDIUM ACCESS PROTOCOL...................................................................... 29 4.6.1. DEFINITION..................................................................................................... 29 4.6.2. REQUIREMENT............................................................................................... 29

4.7. TRANSMITTER SPURIOUS EMISSIONS ....................................................... 30 4.7.1. LIMITS OF TRANSMITTER SPURIOUS EMISSIONS..................................... 30 4.7.2. TEST PROCEDURES...................................................................................... 30


RECEIVER PARAMETERS......................................................................................... 33 4.8. RECEIVER SPURIOUS RADIATION............................................................... 33 4.8.1. LIMIT OF RECEIVER SPURIOUS RADIATION .............................................. 33

4.8.2. TEST PROCEDURES...................................................................................... 33 4.8.3. DEVIATION FROM TEST STANDARD ........................................................... 33 4.8.4. TEST SETUP................................................................................................... 33

4.8.5. TEST RESULTS .............................................................................................. 34 5. PHOTOGRAPHS OF THE TEST CONFIGURATION...................................... 36 6. INFORMATION ON THE TESTING LABORATORIES .................................... 38


RELEASE CONTROL RECORD

ISSUE NO. REASON FOR CHANGE DATE ISSUED RE110624E07 NA July 25, 2011


1. CERTIFICATION

PRODUCT : Bluetooth Keyboard

MODEL NO. : Y-R0026

BRAND : Logitech

TEST SAMPLE : ENGINEERING SAMPLE

APPLICANT : LOGITECH FAR EAST LTD.

TESTED : June 28 to July 01, 2011

STANDARD : EN 300 328 V1.7.1 (2006-10)

The above equipment (Model: Y-R0026) has been tested by Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch, and found compliance with the requirement of the above standards. The test record, data evaluation & Equipment Under Test (EUT) configurations represented herein are true and accurate accounts of the measurements of the sample’s EMC

characteristics under the conditions specified in this report.

PREPARED BY : , DATE: July 25, 2011 ( Midoli Peng, Specialist )

APPROVED BY :

, DATE: July 25, 2011

( May Chen, Deputy Manager )


2. SUMMARY OF TEST RESULTS The EUT has been tested according to the following specifications:

EN 300 328 V1.7.1

Clause Test Parameter Result

TRANSMITTER PARAMETERS

4.3.1 Equivalent isotropic Radiated Power (Radiated) Pass

4.3.1 Equivalent isotropic Radiated Power (Conducted) NA

4.3.3 Frequency Range of Equipment Using FHSS Modulation

Pass

4.3.3 Frequency Range of Equipment Using Other Forms Of Modulation

NA

4.3.4.1 Dwell time Pass

4.3.4.2 Hopping Channel Pass

4.3.4.3 Hopping Sequence Pass

4.3.5 Medium Access Protocol Pass

4.3.6 Spurious Emissions (Operating – Radiated) Pass

4.3.6 Spurious Emissions (Standby – Radiated) Pass (See Note)

4.3.6 Spurious Emissions (Operating – Conducted) NA

4.3.6 Spurious Emissions (Standby – Conducted) NA

RECEIVER PARAMETERS

4.3.7 Spurious Emissions (Radiated) Pass

4.3.7 Spurious Emissions (Conducted) NA

NOTE: The emission of the transmitter on standby mode is equal to that of receiving mode.


2.1. TEST INSTRUMENTS

Test date: June 28, 2011 DESCRIPTION & MANUFACTURER

MODEL NO. SERIAL NO. CALIBRATED DATE

CALIBRATED UNTIL

Spectrum Analyzer FSP 40 100060 May 11, 2011 May 10, 2012 Mini-Circuits Pre_Amplifier

ZFL-1000VH2 QA0838008 NA NA

HP Pre_Amplifier 8449B 3008A01281 Jan. 21, 2011 Jan. 20, 2012 Schaffer antenna 6112B 2731 NA NA EMCO Horn_Antenna 3115 6787 NA NA Schwarzbeck Horn_Antenna

BBHA 9170 BBHA9170153 Jan. 17, 2011 Jan. 16, 2012

Software ADT_Radiated_V7.6.15.9.2

NA NA NA

CT Antenna Tower & Turn Table

NA NA NA NA

Anritsu Power meter ML2495A 1014008 Apr. 25, 2011 Apr. 24, 2012 Anritsu Power sensor MA2411B 0917122 Apr. 25, 2011 Apr. 24, 2012 ESG Vector signal generator

E4438C MY47271330 506 602 UNJ

May 16, 2011 May 15, 2012

NOTE: 1. The test was performed in RF Chamber No. C. 2. The calibration interval of the above test instruments is 12 months and the calibrations

are traceable to NML/ROC and NIST/USA. Test date: July 01, 2011 DESCRIPTION & MANUFACTURER

MODEL NO. SERIAL NO. CALIBRATED DATE

CALIBRATED UNTIL

Spectrum Analyzer FSP 40 100037 Sep. 08, 2010 Sep. 07, 2011 Spectrum Analyzer E4446A MY48250113 Nov. 30, 2010 Nov. 29, 2011 Anritsu Power meter ML2495A 0824006 May 04, 2011 May 03, 2012 Anritsu Power sensor MA2411B 0738172 May 03, 2011 May 02, 2012 Electronics AC Power Source

6502 1140503 NA NA

OVEN MHU-225AU 911033 Dec. 17, 2010 Dec. 16, 2011

DC Power Supply GPC - 3030D 7700087 NA NA

ESG Vector signal generator

E4438C MY47271330 506 602 UNJ

May 16, 2011 May 15, 2012

NOTE: 1. The test was performed in Oven room A. 2. The calibration interval of the above test instruments is 12 months and the calibrations

are traceable to NML/ROC and NIST/USA.


2.2. MEASUREMENT UNCERTAINTY Where relevant, the following measurement uncertainty levels have been estimated for tests performed on the EUT: This uncertainty represents an expanded uncertainty expressed at approximately the 95% confidence level using a coverage factor of k=2.

Parameter Uncertainty

Radio Frequency ±1.132x10-6

Total RF power, conducted ±1.017dB RF power density, conducted ±1.017dB All emissions, radiated ±2.855dB Temperature ±0.7°C Humidity ±2.5% DC and low frequency voltages ±0.04%

2.3. MAXIMUM MEASUREMENT UNCERTAINTY For the test methods, according to ETSI EN 300 328 standard, the measurement uncertainty figures shall be calculated in accordance with TR 100 028-1 [4] and shall correspond to an expansion factor (coverage factor) k = 1,96 or k = 2 (which provide confidence levels of respectively 95 % and 95,45 % in the case where the distributions characterizing the actual measurement uncertainties are normal (Gaussian)).

Maximum measurement uncertainty

Parameter Uncertainty Radio frequency ±1x10-5

Total RF power, conducted ±1.5 dB RF power density, conducted ±3.0 dB All emissions, radiated ±6.0 dB Temperature ±1°C Humidity ±5.0 % DC and low frequency voltages ±3.0 %


3. GENERAL INFORMATION 3.1. GENERAL DESCRIPTION OF EUT

PRODUCT Bluetooth Keyboard MODEL NO. Y-R0026 TYPE OF THE EQUIPMENT Stand alone

NOMINAL VOLTAGE 3.7V from battery or 5V form host equipment

VOLTAGE OPERATING RANGE

Vnom= 3.7Vdc Vmin= 2.9Vdc Vmax= 4.2Vdc

MODULATION TYPE GFSK MODULATION TECHNOLOGY

FHSS

OPERATING FREQUENCY

2402MHz ~ 2480MHz

NUMBER OF CHANNEL 79

CHANNEL SPACING 1 MHz

EIRP POWER -3.89dBm (Measured Max. Average) ANTENNA TYPE PCB printed antenna(Gain: -4.78dBi) TEMPERATURE OPERATING RANGE -20 ~ ℃ 55℃

DATA CABLE Please see note 2 I/O PORTS USB port x 1

ASSOCIATED DEVICES Battery x1 NOTE:

1. The EUT must be supplied with a battery as following table:

Brand Synergy Model No. AHB303450PRT Rating 3.7V, 510mAh

2. The EUT must be supplied with a USB charging cable, and it has two different cables could be chosen: No. Different cables A USB charging cable (shielded, 0.9m, without core) B USB charging cable (shielded, 1.8m, without core)


3. The EUT was pre-tested under the following modes:

Test Mode Description

Mode A EUT with Battery

Mode B EUT with USB charging cable A Mode C EUT with USB charging cable B The worse spurious emissions test was found in Mode A. Therefore only the test data of the modes were recorded in this report.

4. The above EUT information was declared by the manufacturer and for more detailed feature descriptions, please refer to the manufacturer's specifications or User's Manual.


3.2. DESCRIPTION OF TEST MODES

Seventy-nine channels are provided to this EUT.

Channel Freq. (MHz) Channel Freq. (MHz) Channel

Freq. (MHz) Channel

Freq. (MHz)

0 2402 20 2422 40 2442 60 2462 1 2403 21 2423 41 2443 61 2463 2 2404 22 2424 42 2444 62 2464 3 2405 23 2425 43 2445 63 2465 4 2406 24 2426 44 2446 64 2466 5 2407 25 2427 45 2447 65 2467 6 2408 26 2428 46 2448 66 2468 7 2409 27 2429 47 2449 67 2469 8 2410 28 2430 48 2450 68 2470 9 2411 29 2431 49 2451 69 2471

10 2412 30 2432 50 2452 70 2472 11 2413 31 2433 51 2453 71 2473 12 2414 32 2434 52 2454 72 2474 13 2415 33 2435 53 2455 73 2475 14 2416 34 2436 54 2456 74 2476 15 2417 35 2437 55 2457 75 2477 16 2418 36 2438 56 2458 76 2478 17 2419 37 2439 57 2459 77 2479 18 2420 38 2440 58 2460 78 2480 19 2421 39 2441 59 2461


3.3. TEST MODE APPLICABILITY AND TESTED CHANNEL DETAIL

APPLICABLE TO EUT

CONFIGURE MODE EIRP FR DT HC SE


HOPPING CHANNEL: Pre-Scan has been conducted to determine the worst-case mode from all possible combinations

between available modulations, packet type, data rates and antenna ports (if EUT with antenna diversity architecture).

Following channel(s) was (were) selected for the final test as listed below. Available Channel

Tested Channel

Modulation Technology

Modulation Type

0 to 78 0, 39, 78 FHSS GFSK

SPURIOUS EMISSIONS TEST (BELOW 1 GHZ): Pre-Scan has been conducted to determine the worst-case mode from all possible combinations

between available modulations, data rates and antenna ports (if EUT with antenna diversity architecture).


Tested Channel


Modulation Type

0 to 78 0 FHSS GFSK 0 to 78

( Receiver) 0 FHSS -

SPURIOUS EMISSIONS TEST (ABOVE 1 GHZ): Pre-Scan has been conducted to determine the worst-case mode from all possible combinations

between available modulations, data rates and antenna ports (if EUT with antenna diversity architecture).


Tested Channel


Modulation Type

0 to 78 0, 39, 78 FHSS GFSK

TEST CONDITION:

APPLICABLE TO ENVIRONMENTAL NOMIANL CONDITIONS INPUT POWER TESTED BY

EIRP 25deg. C, 60%RH DC 3.7V Rex Huang

FR 25deg. C, 60%RH DC 3.7V Rex Huang

DT 25deg. C, 60%RH DC 3.7V Rex Huang

HC 25deg. C, 60%RH DC 3.7V Rex Huang

SE


3.4. GENERAL DESCRIPTION OF APPLIED STANDARDS

The EUT is a RF Product, according to the specifications of the manufacturers; it must comply with the requirements of the following standard: EN 300 328 V1.7.1 (2006-10) All test items have been performed and recorded as per the above standard.


3.5. DESCRIPTION OF SUPPORT UNITS

The EUT has been tested as an independent unit. 3.6. CONFIGURATION OF SYSTEM UNDER TEST

TEST TABLE

EUT


4. TEST PROCEDURES AND RESULTS TRANSMITTER PARAMETERS 4.1. EQUIVALENT ISOTROPIC RADIATED POWER 4.1.1. LIMITS OF EQUIVALENT ISOTROPIC RADIATED POWER

Condition Limit (e.i.r.p) Under all test conditions AV: 20dBm / -10dBW

4.1.2. TEST PROCEDURES

Reference to chapter 5.7 of ETSI EN 300 328 V1.7.1 (2006-10). (Radiated measurements)

4.1.3. DEVIATION FROM TEST STANDARD No deviation 4.1.4. TEST SETUP The test setup has been constructed as the normal and extreme test conditions. The EUT was placed on the turn-table. Controlling software (BlueToolInstall_v1.0.0.3.exe) has been activated to set the EUT on specific status.


4.1.5. TEST RESULTS

EIRP POWER (dBm)

TEST CONDITION (CH0) 2402 MHz

(CH39) 2441 MHz

(CH78) 2480 MHz

Tnom(℃) 25 Vnom(v) -3.89 -4.36 -5.10

Vmin(v) -4.06 -4.37 -5.26 Tmin(℃) -20

Vmax(v) -4.09 -4.39 -5.23

Vmin(v) -4.37 -4.91 -5.53 Tmax(℃) 55

Vmax(v) -4.33 -4.86 -5.56 Note: For all EU market, channel 0 ~ 78 are allowed. So, only channel 0, 39 and 78 under

extreme condition are recorded in the above table.


4.2. FREQUENCY RANGE 4.2.1. LIMIT OF FREQUENCY RANGE

Condition Country Limit

Under all test conditions EU FL > 2400.0MHz

FH < 2483.5 MHz


Reference to chapter 5.7 of ETSI EN 300 328 V1.7.1 (2006-10). (Option 1: Using a spectrum analyzer average detector) (Option 2: Using a spectrum analyzer video averaging mode)

4.2.3. DEVIATION FROM TEST STANDARD

No deviation

4.2.4. TEST SETUP

The EUT and probe antenna was placed into the temperature oven. The probe has to be connected with spectrum analyzer. The power source of the EUT has to be connected with the power supply for voltage change. The frequency has to be recorded for the right and left end above threshold of highest and lowest channel respectively.


4.2.5. TEST RESULTS

FREQUENCY (MHz) TEST CONDITIONS

Lowest Highest

Tnom 25℃ Vnom(V) 2401.48 2480.44

Vmin(V) 2401.29 2480.47 Tmin -20℃

Vmax(V) 2401.34 2480.49

Vmin(V) 2401.46 2480.48 Tmax 55℃

Vmax(V) 2401.43 2480.49

Measured frequencies (lowest and highest) FL = 2401.29 FH = 2480.49

Note: For EU market, only channel 0 ~ 78 are allowed. So, only lowest edge of channel 0 and

highest edge of channel 78 under extreme condition are recorded in the above table.


4.3. DWELL TIME ON EACH CHANNEL

4.3.1. LIMIT OF DWELL TIME USED

The maximum dwell time shall be 0.4 s.

4.3.2. TEST PROCEDURES a. Check the calibration of the measuring instrument (SA) using either an internal

calibrator or a known signal from an external generator.

b. Turn on the EUT and connect its antenna terminal to measurement via a low loss cable. Then set it to any one measured frequency within its operating range and make sure the instrument is operated in its linear range.

c. Adjust the center frequency of SA on any frequency be measured and set SA to zero span mode. And then, set RBW and VBW of spectrum analyzer to proper value.

d. Measure the time duration of one transmission on the measured frequency. And then plot the result with time difference of this time duration.

e. Repeat above procedures until all different time-slot modes have been completed.


No deviation.

4.3.4. TEST SETUP

EUT SPECTRUM

ANALYZER


4.3.5. TEST RESULTS

Mode Number of transmission in a 31.6 (79Hopping*0.4) Length of

transmission time (msec)

Result (msec)

Limit (msec)

DH1 45 (times / 5 sec) *6.32=284.4 times 0.510 145.0 400



Test plots of the transmitting time slot are shown on next three pages.


DH1


DH3


DH5


4.4. HOPPING CHANNEL

4.4.1. DEFINITION A hopping channel is any of the centre frequencies defined within the hopping sequence of a FHSS system.

4.4.2. LIMIT Non-adaptive Frequency Hopping systems shall make use of non-overlapping hopping channels separated by the channel bandwidth as measured at 20 dB below peak power. The hopping channels defined within a hopping sequence shall be at least 1 MHz apart (channel separation).


a. Check the calibration of the measuring instrument using either an internal calibrator or a known signal from an external generator.

b. Turn on the EUT and connect it to measurement instrument. Then set it to any one convenient frequency within its operating range.

c. By using the MaxHold function record the separation of two adjacent channels.

d. Measure the frequency difference of these two adjacent channels by SA MARK function. And then plot the result on SA screen.

e. Repeat above procedures until all frequencies measured were complete.


4.4.4. TEST RESULTS

CHANNEL FREQUENCY (MHz)

ADJACENT CHANNEL

SEPARATION (MHz)

20dB BANDWIDTH

(MHz) PASS / FAIL

0 2402 1.000 0.960 PASS

39 2441 1.007 0.970 PASS

78 2480 1.008 0.960 PASS

20dB BANDWIDTH: Channel 39


ADJACENT CHANNEL SEPARATION: Channel 78


4.5. HOPPING SEQUENCE

4.5.1. DEFINITION The hopping sequence of a FHSS system is the sequence of the hopping channels used by the equipment.

4.5.2. LIMIT Non-adaptive Frequency Hopping systems shall make use of a hopping sequence(s) that contains at least 15 hopping channels. Adaptive Frequency Hopping systems shall make use of a hopping sequence(s) that is capable of operating over a minimum of 90 % of the band specified in EN 300 328 table 1, from which at any given time a minimum of 20 hopping channels shall be used. Each hopping channel of the hopping sequence shall be occupied at least once during a period not exceeding four times the product of the dwell time per hop and the number of channels.

4.5.3. REQUIREMENT Manufacturer provides declaration form to meet this requirement.


4.6. MEDIUM ACCESS PROTOCOL 4.6.1. DEFINITION A medium access protocol is a mechanism designed to facilitate spectrum sharing with other devices in a wireless network. 4.6.2. REQUIREMENT Manufacturer will provide declaration form to meet this requirement.


4.7. TRANSMITTER SPURIOUS EMISSIONS 4.7.1. LIMITS OF TRANSMITTER SPURIOUS EMISSIONS Transmitter limits for narrowband spurious emissions

Frequency Range Operating Limit Standby Limit 30MHz ~ 1GHz -36dBm -57dBm

Above 1GHz ~ 12.75GHz -30dBm -47dBm 1.8~1.9GHz 5.15~5.3GHz -47dBm -47dBm


Reference to chapter 5.7 of ETSI EN 300 328 V1.7.1 (2006-10).


No deviation

4.7.4. TEST SETUP

1. For the actual test configuration, please refer to the related Item in this test report (Photographs of the Test Configuration).

2. The test setup has been constructed as the normal use condition. Controlling software (BlueToolInstall_v1.0.0.3.exe) has been activated to set the EUT on specific status.


4.7.5. TEST RESULTS

BELOW 1GHz WORST-CASE DATA:

SPURIOUS EMISSION FREQUENCY RANGE 30MHz ~ 1GHz

OPERATING CHANNEL 0

SPURIOUS EMISSION LEVEL

Frequency

(MHz)

Antenna

Polarization

Level

(dBm)

Limit

(dBm) Margin

39.72 V -68.76 -36.00 -32.76

80.22 V -72.55 -36.00 -36.55

143.94 V -77.65 -36.00 -41.65

151.50 V -77.50 -36.00 -41.50

202.26 V -76.68 -36.00 -40.68

240.06 H -61.29 -36.00 -25.29

251.94 H -61.91 -36.00 -25.91

252.48 V -80.98 -36.00 -44.98

264.36 H -61.89 -36.00 -25.89

276.24 H -65.02 -36.00 -29.02

288.12 H -65.98 -36.00 -29.98

300.00 H -65.95 -36.00 -29.95

311.20 H -66.18 -36.00 -30.18

323.80 H -67.93 -36.00 -31.93

347.60 H -68.72 -36.00 -32.72

371.40 H -69.74 -36.00 -33.74

696.20 H -70.26 -36.00 -34.26

720.00 H -67.45 -36.00 -31.45

798.40 V -75.92 -36.00 -39.92

805.40 V -75.61 -36.00 -39.61

834.80 V -75.55 -36.00 -39.55

899.20 V -75.72 -36.00 -39.72

939.80 V -75.58 -36.00 -39.58

974.80 V -74.33 -36.00 -38.33

NOTE: The emission behavior belongs to narrowband spurious emission.


ABOVE 1GHz DATA:

SPURIOUS EMISSION FREQUENCY RANGE 1GHz ~ 12.75GHz

OPERATING CHANNEL 0, 39 & 78


Channel Frequency (MHz) Antenna

Polarization Level (dBm)

Limit (dBm)

Margin (dB)

4803.94 V -47.08 -30.00 -17.08

4803.95 H -48.92 -30.00 -18.92

7205.43 V -39.82 -30.00 -9.82

7205.44 H -42.56 -30.00 -12.56

9607.48 H -59.76 -30.00 -29.76

0

9607.95 V -59.26 -30.00 -29.26

4881.96 H -45.87 -30.00 -15.87

4882.24 V -43.60 -30.00 -13.60

7322.43 H -42.26 -30.00 -12.26

7322.43 V -39.04 -30.00 -9.04

9763.87 H -59.09 -30.00 -29.09

39

9763.89 V -59.08 -30.00 -29.08

4959.66 H -41.41 -30.00 -11.41

4960.23 V -41.48 -30.00 -11.48

7439.43 V -37.92 -30.00 -7.92

7439.44 H -42.33 -30.00 -12.33

9919.88 V -58.36 -30.00 -28.36

78

9919.90 H -58.66 -30.00 -28.66



RECEIVER PARAMETERS 4.8. RECEIVER SPURIOUS RADIATION 4.8.1. LIMIT OF RECEIVER SPURIOUS RADIATION Narrowband spurious emission limits for receivers

Frequency Range Limit 30MHz ~ 1GHz -57dBm

Above 1GHz ~ 12.75GHz -47dBm 4.8.2. TEST PROCEDURES

Reference to chapter 5.7 of ETSI EN 300 328 V1.7.1 (2006-10).


No deviation

4.8.4. TEST SETUP

1. For the actual test configuration, please refer to the related Item in this test report (Photographs of the Test Configuration).

2. The test setup has been constructed as the normal use condition. Controlling software (BlueToolInstall_v1.0.0.3.exe) has been activated to set the EUT on specific status.


4.8.5. TEST RESULTS

BELOW 1GHz WORST-CASE DATA

SPURIOUS EMISSION FREQUENCY RANGE 30MHz ~ 1GHz

OPERATING CHANNEL 1


Frequency

(MHz)

Antenna

Polarization

Level

(dBm)

Limit

(dBm) Margin

38.64 V -68.59 -57.00 -11.59

69.96 V -76.88 -57.00 -19.88

80.22 V -72.24 -57.00 -15.24

120.18 V -75.53 -57.00 -18.53

151.50 V -72.22 -57.00 -15.22

166.62 H -63.61 -57.00 -6.61

177.96 H -60.22 -57.00 -3.22

195.24 H -60.69 -57.00 -3.69

202.26 V -75.41 -57.00 -18.41

240.06 H -60.96 -57.00 -3.96

252.48 H -61.67 -57.00 -4.67

264.36 H -60.49 -57.00 -3.49

300.00 H -63.97 -57.00 -6.97

311.20 V -77.21 -57.00 -20.21

323.80 H -65.88 -57.00 -8.88

358.80 H -67.34 -57.00 -10.34

371.40 H -68.74 -57.00 -11.74

720.00 H -67.07 -57.00 -10.07

743.80 H -70.87 -57.00 -13.87

826.40 V -75.57 -57.00 -18.57

850.20 V -75.81 -57.00 -18.81

951.00 V -75.95 -57.00 -18.95

967.80 V -74.88 -57.00 -17.88

980.40 V -74.62 -57.00 -17.62



ABOVE 1GHz DATA: SPURIOUS EMISSION FREQUENCY RANGE 1GHz ~ 12.75GHz

OPERATING CHANNEL 0, 39 & 78


Channel Frequency (MHz) Antenna

Polarization Level (dBm)

Limit (dBm)

Margin (dB)

1623.19 V -67.23 -47.00 -20.23

1623.22 H -56.74 -47.00 -9.74

2434.81 V -69.84 -47.00 -22.84

2434.85 H -62.23 -47.00 -15.23

3246.19 V -71.83 -47.00 -24.83

0

3246.49 H -73.77 -47.00 -26.77

1628.65 H -56.47 -47.00 -9.47

1628.65 V -68.46 -47.00 -21.46

2442.96 V -70.32 -47.00 -23.32

2442.97 H -62.47 -47.00 -15.47

3257.31 H -73.25 -47.00 -26.25

39

3257.50 V -71.71 -47.00 -24.71

1654.63 V -70.29 -47.00 -23.29

1654.65 H -56.54 -47.00 -9.54

2481.97 H -63.95 -47.00 -16.95

2481.97 V -70.73 -47.00 -23.73

3309.30 H -72.45 -47.00 -25.45

78

3309.43 V -72.03 -47.00 -25.03



5. PHOTOGRAPHS OF THE TEST CONFIGURATION

TX and RX SPURIOUS EMISSION TEST


RF OUTPUT POWER TEST


6. INFORMATION ON THE TESTING LABORATORIES We, Bureau Veritas Consumer Products Services (H.K.) Ltd., Taoyuan Branch, were founded in 1988 to provide our best service in EMC, Radio, Telecom and Safety consultation. Our laboratories are accredited and approved according to ISO/IEC 17025. Copies of accreditation certificates of our laboratories obtained from approval agencies can be downloaded from our web site: www.adt.com.tw/index.5.phtml. If you have any comments, please feel free to contact us at the following:

Linko EMC/RF Lab: Tel: 886-2-26052180 Fax: 886-2-26051924

Hsin Chu EMC/RF Lab: Tel: 886-3-5935343 Fax: 886-3-5935342

Hwa Ya EMC/RF/Safety/Telecom Lab: Tel: 886-3-3183232 Fax: 886-3-3185050

Email: [email protected] Web Site: www.adt.com.tw

The address and road map of all our labs can be found in our web site also. --- END ---

http://www.adt.com.tw/index.5.phtmlmailto:[email protected]://www.adt.com.tw

CONSTRUCTION PHOTOS OF EUT

USB charging cable (shielded, 0.9m)

USB charging cable (shielded, 1.8m)

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