TEST REPORT of R&TTE (1999/5/EC ) Directive ETSI EN 300 328 V1.7.1: 2006 Product : Brand: Model: Model different: Applicant: Address: BT 4.0 Dual Mode Module BlueRadios BR-LE4.0-D2A N/A BlueRadios, Inc. 7173 S. Hanava Street, Suite 600, Englewood, CO/USA Test Performed by: <Lung-Tan LAB> *Address: No. 120, Lane 180, San Ho Tsuen, Hsin Ho Rd. Lung-Tan Hsiang, Tao Yuan County 325, Taiwan *Tel : 886-3-407-1718; Fax: 886-3-407-1738 Report No.: ISL-12LR100E328 Issue Date : 2012/08/07 Test results given in this report apply only to the specific sample(s) tested and are traceable to national or international standard through calibration of the equipment and evaluating measurement uncertainty herein. This report MUST not be used to claim product endorsement by TAF, NEMKO or any agency of the Government. This test report shall not be reproduced except in full, without the written approval of International Standards Laboratory. Page: 1 of 46
-2 of 46- VERIFICATION OF COMPLIANCE Applicant: BlueRadios, Inc. Equipment Under Test: BT 4.0 Dual Mode Module Brand: BlueRadios Model: BR-LE4.0-D2A Model different: N/A Date of Test: 2012/06/19 ~ 2012/07/24 Date of EUT Received: 2012/06/19 APPLICABLE STANDARDS STANDARD ETSI EN 300 328 v1.7.1:2006 TEST RESULT Complied The above equipment was tested by for compliance with the requirements set forth in the European Standard ETSI EN 300 328 v1.7.1: 2006. class I device under R&TTE Directive 1999/05/EC. The results of testing in this report apply to the product/system that was tested only. Other similar equipment will not necessarily produce the same results due to production tolerance and measurement uncertainties. Test By: Date: 2012/08/07 Dino Chen / Engineer Prepared By: Date: 2012/08/07 Eva Kao / Technical Supervisor Approved By: Date: 2012/08/07 Vincent Su / Technical Manager
-3 of 46- Version Version No. Date Description 00 2012/08/07 Initial creation of document
-4 of 46- TABLE OF CONTENTS 1. DESCRIPTION OF EQUIPMENT UNDER TEST (EUT)... 5 2. DESCRIPTION OF TEST MODES... 6 3. GENERAL DESCRIPTION OF APPLIED STANDARDS... 6 4. TEST FACILITY... 6 5. SUPPORT EQUIPMENT... 7 6. ETSI EN 300 328 SUB-CLAUSE 4.3.1 MAXIMUM TRANSMIT POWER... 8 7. ETSI EN 300 328 SUB-CLAUSE 4.3.2 MAXIMUM E.I.R.P. SPECTRAL DENSITY... 10 8. ETSI EN 300 328 SUB-CLAUSE 4.3.3 FREQUENCY RANGE... 13 9. ETSI EN 300 328 SUB-CLAUSE 4.3.4 FREQUENCY HOPPING REQUIREMENTS... 17 10. ETSI EN 300 328 SUB-CLAUSE 4.3.5 MEDIUM ACCESS PROTOCOL... 18 11. ETSI EN 300 328 SUB-CLAUSE 4.3.6 TRANSMITTER SPURIOUS EMISSIONS... 34 12. TSI EN 300 328 SUB-CLAUSE 4.3.7 RECEIVER SPURIOUS EMISSIONS... 40 APPENDIX 1 PHOTOGRAPHS OF SET UP... 43 APPENDIX 2 PHOTOGRAPHS OF EUT... 45
-5 of 46-1. DESCRIPTION OF EQUIPMENT UNDER TEST (EUT) General: Product Name Brand Name Model Name Model Difference Power Supply BT 4.0 Dual Mode Module BlueRadios BR-LE4.0-D2A N/A 3.0Vdc from host Bluetooth: Bluetooth Version V2.1 + EDR (GFSK + π /4 DQPSK + 8DPSK) V4.0(GFSK) Frequency Range: 2402 2480MHz 2402 2480MHz Channel number: Modulation type: Transmit Power: EIRP 79 channels Frequency Hopping Spread Spectrum (FHSS) 11.63dBm Dwell Time: <= 0.4s Operating Mode: Antenna Designation: Type of Emission: Point-to-Point Type: Chip Antenna, 2dBi max. P/N:ANT8030-2R4-01A 1M19FXD The EUT is compliance with Bluetooth 4.0 + EDR 2.1 Standard. Remark: The above DUT's information was declared by manufacturer. Please refer to the specifications or user's manual for more detailed description.
-6 of 46-2. DESCRIPTION OF TEST MODES The EUT has been tested under Operating and standby condition. And used to control the EUT for staying in continuous transmitting and receiving mode is programmed. Channel 0, 39 and 78 of Bluetooth witheach data rate were chosen for testing. After compared the power of two modulation type: GFSK, π /4 DQPSK and 8DPSK and found the power of 8DPSK is larger than others and the Duty Cycle of DH5 also larger than DH1, DH3. So chose modulation: GFSK and Data Rate: DH5 as a worst case to carry out every test item. 3. GENERAL DESCRIPTION OF APPLIED STANDARDS The EUT According to the Specifications, it must comply with the requirements of the following standards: ETSI EN 300 328 V1.7.1 : 2006 Electromagnetic compatibility and Radio spectrum Matters (ERM) ; Wideband transmission systems; Data transmission equipment operating in the 2.4GHz ISM band and using wide band modulation techniques: 4. TEST FACILITY <Lung-Tan LAB> No. 120, Lane 180, San Ho Tsuen, Hsin Ho Rd., Lung-Tan Hsiang, Tao Yuan County 325, Taiwan A fully anechoic chamber was used for the radiated spurious emissions test. TAF Accreditation Lab. Lab number: 0997 NEMKO Laboratory Authoration Aut. No.: ELA 113B
-7 of 46-5. SUPPORT EQUIPMENT Fig. 5-1 Configuration of Tested System NB EUT+JIG Item Equipment Mrf/Brand Table 5-1 Equipment Used in Tested System Model name Series No Data Cable Power Cable 1 NB Dell P19G 6LCQCT1 Shield No- Shielding 2 JIG N/A N/A N/A N/A N/A
-8 of 46-6. ETSI EN 300 328 SUB-CLAUSE 4.3.1 MAXIMUM TRANSMIT POWER 6.1. Limit: ETSI EN 300 328 Sub-Clause 4.3.1.2: The equivalent isotropic radiated power shall be equal to or less than -10 dbw (100 mw) E.I.R.P.. This limit shall apply for any combination of power level and intended antenna assembly. 6.2. Measurement Equipment Used: Conducted Emission Test Site EQUIPMENT MFR MODEL SERIAL LAST CAL DUE. TYPE NUMBER NUMBER CAL. Power Meter 05 Anritsu ML2495A 1116010 04/17/2012 04/16/2013 Power Sensor 05 Anritsu MA2411B 34NKF50 04/16/2012 04/15/2013 Temperature Chamber KSON THS-B4H100 2287 03/03/2012 03/02/2013 DC Power supply ABM 51850 N/A 06/17/2012 06/16/2013 AC Power supply EXTECH CFC105W NA 12/19/2011 12/18/2012 Splitter MCLI PS4-199 12465 07/18/2012 07/17/2013 Spectrum analyzer Agilent N9030A MY51360021 03/11/2012 03/10/2013 6.3. Test Setup: Spectrum analyzer / AV power meter Temperature Chamber EUT 6.4. Test Procedure: Variable DC power supply See Sub-Clause 5.3 of ETSI EN 300 328 for the test conditions See Sub-Clause 5.7.2.2 of ETSI EN 300 328 for conducted measurement method.
-9 of 46-6.5. Equivalent Isotropic Radiated Power E.I.R.P. Test results: Bluetooth, Modulation type: GFSK Ambient temperature: 25 Relative humidity: 65% Test Date: 07/24/2012 Duty Cycle measurement X: (Ton/Ton + Toff) = 0.76 Antenna assembly gain: 2.00 dbi Cable Loss= 0.00 db EIRP= Av (Average Power ) + G + 10 log (1/X) TRANSMITTER POWER (dbm) TEST CONDITIONS Vmin 2.55 V Temp (-20) C Vmax 3.45 V Temp (25) C Vnom 3 V Vmin 2.55 V Temp (55) C Vmax 3.45 V Limit(PK) Measurement uncertainty Lowest Frequency (CH Low) Middle Frequency (CH Mid) Highest Frequency (CH High) EIRP = 10.02 dbm EIRP = 10.12 dbm EIRP = 10.38 dbm Av = 6.85 dbm Av = 6.95 dbm Av = 7.21 dbm EIRP = 10.11 dbm EIRP = 10.19 dbm EIRP = 10.40 dbm Av = 6.94 dbm Av = 7.02 dbm Av = 7.23 dbm EIRP = 10.39 dbm EIRP = 10.41 dbm EIRP = 10.62 dbm Av = 7.22 dbm Av = 7.24 dbm Av = 7.45 dbm EIRP = 10.27 dbm EIRP = 10.28 dbm EIRP = 10.40 dbm Av = 7.1 dbm Av = 7.11 dbm Av = 7.23 dbm EIRP = 10.31 dbm EIRP = 10.30 dbm EIRP = 10.43 dbm Av = 7.14 dbm Av = 7.13 dbm Av = 7.26 dbm 20dBm + 0.28dB / - 0.30dB Note: 1. E.I.R.P.. shall be calculated from the above measured power output A, the observed duty cycle X, and the applicable antenna assembly gain G in dbi. 2. Av is the Average value at antenna port.
-10 of 46- Test results: Bluetooth, EDR Modulation type: π/4dqpsk Ambient temperature: 25 Relative humidity: 65% Test Date: 07/24/2012 Duty Cycle measurement X: (Ton/Ton + Toff) = 0.40 Antenna assembly gain: 2.00 dbi Cable Loss= 0.00 db EIRP= Av (Average Power ) + G + 10 log (1/X) TRANSMITTER POWER (dbm) TEST CONDITIONS Vmin 2.55 V Temp (-20) C Vmax 3.45 V Temp (25) C Vnom 3 V Vmin 2.55 V Temp (55) C Vmax 3.45 V Limit(PK) Measurement uncertainty Lowest Frequency (CH Low) Middle Frequency (CH Mid) Highest Frequency (CH High) EIRP = 10.08 dbm EIRP = 10.27 dbm EIRP = 10.59 dbm Av = 4.13 dbm Av = 4.32 dbm Av = 4.64 dbm EIRP = 10.04 dbm EIRP = 10.41 dbm EIRP = 10.73 dbm Av = 4.09 dbm Av = 4.46 dbm Av = 4.78 dbm EIRP = 10.01 dbm EIRP = 11.02 dbm EIRP = 11.19 dbm Av = 4.06 dbm Av = 5.07 dbm Av = 5.24 dbm EIRP = 10.57 dbm EIRP = 10.52 dbm EIRP = 10.52 dbm Av = 4.62 dbm Av = 4.57 dbm Av = 4.57 dbm EIRP = 10.48 dbm EIRP = 10.43 dbm EIRP = 10.44 dbm Av = 4.53 dbm Av = 4.48 dbm Av = 4.49 dbm 20dBm + 0.28dB / - 0.30dB Note: 1. E.I.R.P.. shall be calculated from the above measured power output A, the observed duty cycle X, and the applicable antenna assembly gain G in dbi. 2. Av is the Average value at antenna port.
-11 of 46- Test results: Bluetooth, EDR Modulation type: 8-DPSK Ambient temperature: 25 Relative humidity: 65% Test Date: 07/24/2012 Duty Cycle measurement X: (Ton/Ton + Toff) = 0.28 Antenna assembly gain: 2.00 dbi Cable Loss= 0.00 db EIRP= Av (Average Power ) + G + 10 log (1/X) TRANSMITTER POWER (dbm) TEST CONDITIONS Vmin 2.55 V Temp (-20) C Vmax 3.45 V Temp (25) C Vnom 3 V Vmin 2.55 V Temp (55) C Vmax 3.45 V Limit(PK) Measurement uncertainty Lowest Frequency (CH Low) Middle Frequency (CH Mid) Highest Frequency (CH High) EIRP = 10.22 dbm EIRP = 10.74 dbm EIRP = 10.73 dbm Av = 2.73 dbm Av = 3.25 dbm Av = 3.24 dbm EIRP = 10.47 dbm EIRP = 10.62 dbm EIRP = 10.85 dbm Av = 2.98 dbm Av = 3.13 dbm Av = 3.36 dbm EIRP = 11.21 dbm EIRP = 11.63 dbm EIRP = 11.35 dbm Av = 3.72 dbm Av = 4.14 dbm Av = 3.86 dbm EIRP = 11.06 dbm EIRP = 11.43 dbm EIRP = 10.22 dbm Av = 3.57 dbm Av = 3.94 dbm Av = 2.73 dbm EIRP = 11.11 dbm EIRP = 11.30 dbm EIRP = 10.36 dbm Av = 3.62 dbm Av = 3.81 dbm Av = 2.87 dbm 20dBm + 0.28dB / - 0.30dB Note: 1. E.I.R.P.. shall be calculated from the above measured power output A, the observed duty cycle X, and the applicable antenna assembly gain G in dbi. 2. Av is the Average value at antenna port.
-12 of 46-7. ETSI EN 300 328 SUB-CLAUSE 4.3.2 MAXIMUM E.I.R.P. SPECTRAL DENSITY 7.1. Limit: ETSI EN 300 328 Sub-Clause 4.3.2.2: For wide band modulations other then FHSS (e.g. DSSS, OFDM, etc.), the maximum spectrum power density is limited to 10 mw per MHz E.I.R.P.. 7.2. Measurement Equipment Used: Same as section 6.2 in this report. 7.3. Test Setup: Same as section 6.3 in this report. 7.4.Test Procedure: See Sub-Clause 5.3 of ETSI EN 300 328 for the test conditions See Sub-Clause 5.7.3.1 of ETSI EN 300 328 for conducted measurement method. 7.5. Maximum Spectral Power: N/A,
-13 of 46-8. ETSI EN 300 328 SUB-CLAUSE 4.3.3 FREQUENCY RANGE 8.1. Limit: For all equipment the frequency range shall lie within the band 2.4 GHz to 2.4835 GHz (f L >2.4GHz and f H <2.4835GHz). 8.2. Measurement Equipment Used: Same as section 6.2 in this report. 8.3. Test Setup: Same as section 6.3 in this report. 8.4.Test Procedure: See Sub-Clause 5.3 of ETSI EN 300 328 for the test conditions See Sub-Clause 5.7.4.1 (Option 1: Using a spectrum analyzer averaging detector) of ETSI EN 300 328 for conducted measurement method.
-14 of 46-8.5. Frequency Range Test results: Bluetooth, BDR Modulation type: GFSK Ambient temperature: 25 Relative humidity: 65% Test Date: 07/24/2012 Duty Cycle measurement X: (Ton/Ton + Toff) = 0.76 Antenna assembly gain: 2.0 dbi Cable Loss= 0.0 db Spectrum Offset = cable loss + G + 10 log (1/X) = 3.19 db TEST CONDITIONS Tmax( -20 ) C Lowest FREQUENCY (MHz) Highest V min 2.55 V 2401.2400 2480.8400 V max 3.45 V 2401.2300 2480.9100 Tnom( 25 ) C V nom 3.00 V 2401.2400 2480.8400 Tnom( 55 ) C V min 2.55 V 2401.2400 2480.8000 V max 3.45 V 2401.2200 2480.8200 Measured frequencies (lowest and highest) fl= 2401.2200 MHz fh= 2480.9100 MHz Limit 2400.0000 MHz 2483.5000 MHz Measurement Uncertainty +/- 120kHz
-15 of 46- Test results: Bluetooth, EDR Modulation type: π/4dqpsk Ambient temperature: 25 Relative humidity: 65% Test Date: 07/24/2012 Duty Cycle measurement X: (Ton/Ton + Toff) = 0.40 Antenna assembly gain: 2.0 dbi Cable Loss= 0.0 db Spectrum Offset = cable loss + G + 10 log (1/X) = 5.95 db TEST CONDITIONS Tmax( -20 ) C Lowest FREQUENCY (MHz) Highest V min 2.55 V 2400.9600 2481.5600 V max 3.45 V 2400.9300 2481.3400 Tnom( 25 ) C V nom 3.00 V 2400.4800 2481.6000 Tnom( 55 ) C V min 2.55 V 2400.8710 2481.5530 V max 3.45 V 2400.7340 2481.5760 Measured frequencies (lowest and highest) fl= 2400.4800 MHz fh= 2481.6000 MHz Limit 2400.0000 MHz 2483.5000 MHz Measurement Uncertainty +/- 120kHz
-16 of 46- Test results: Bluetooth, EDR Modulation type: 8-DPSK Ambient temperature: 25 Relative humidity: 65% Test Date: 07/24/2012 Duty Cycle measurement X: (Ton/Ton + Toff) = 0.28 Antenna assembly gain: 2.0 dbi Cable Loss= 0.0 db Spectrum Offset = cable loss + G + 10 log (1/X) = 7.49 db TEST CONDITIONS Tmax( -20 ) C Lowest FREQUENCY (MHz) Highest V min 2.55 V 2400.5200 2481.5600 V max 3.45 V 2400.5700 2481.7300 Tnom( 25 ) C V nom 3.00 V 2400.4400 2481.5600 Tnom( 55 ) C V min 2.55 V 2400.5310 2481.7330 V max 3.45 V 2400.5520 2481.8360 Measured frequencies (lowest and highest) fl= 2400.4400 MHz fh= 2481.8360 MHz Limit 2400.0000 MHz 2483.5000 MHz Measurement Uncertainty +/- 120kHz
-17 of 46-9. ETSI EN 300 328 SUB-CLAUSE 4.3.4 FREQUENCY HOPPING REQUIREMENTS 9.1. Limit: Dwell time: The maximum dwell time shall be 0.4s Hopping channel: Non-adaptive frequency hopping systems shall make use of non-overlapping hopping channels separated by the channel bandwidth as measured at 20dB below peak power. The hopping channels defined within a hopping sequence shall be at least 1MHz apart (channel separation) Hopping sequence: Non-adaptive Frequency Hopping systems shall use of a hopping sequence(s) that contains at least 15 hopping channels. Adaptive frequency hopping systems shall make use of hopping sequence(s) that is capable of operating over a minimum of 90% of the band specified in 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. 9.2. Measurement Equipment Used: Same as section 6.2 in this report. 9.3. Test Setup: Same as section 6.3 in this report. 9.4.Test Procedure: See Sub-Clause 5.3 of ETSI EN 300 328 for the test conditions See Sub-Clause 5.7.4.1 of ETSI EN 300 328 for conducted measurement method.
-18 of 46-9.5. Measurement result 9.5.1. Dwell Time: Ambient temperature: 25 Relative humidity: 65% Test Date: 07/24/2012 GFSK A period time = 0.4 (ms) * 79 = 31.6 (s) CH Low DH1 time slot = 0.384 (ms) * (1600/2/79) * 31.6 = DH3 time slot = 1.642 (ms) * (1600/4/79) * 31.6 = DH5 time slot = 2.880 (ms) * (1600/6/79) * 31.6 = 122.88 (ms) 262.72 (ms) 307.20 (ms) CH Mid DH1 time slot = 0.384 (ms) * (1600/2/79) * 31.6 = DH3 time slot = 1.635 (ms) * (1600/4/79) * 31.6 = DH5 time slot = 2.860 (ms) * (1600/6/79) * 31.6 = 122.88 (ms) 261.60 (ms) 305.07 (ms) CH High DH1 time slot = 0.381 (ms) * (1600/2/79) * 31.6 = DH3 time slot = 1.627 (ms) * (1600/4/79) * 31.6 = DH5 time slot = 2.870 (ms) * (1600/6/79) * 31.6 = π /4 DQPSK A period time = 0.4 (ms) * 79 = 31.6 (s) CH Low DH1 time slot = 0.282 (ms) * (1600/2/79) * 31.6 = DH3 time slot = 0.900 (ms) * (1600/4/79) * 31.6 = DH5 time slot = 1.522 (ms) * (1600/6/79) * 31.6 = CH Mid DH1 time slot = 0.284 (ms) * (1600/2/79) * 31.6 = DH3 time slot = 0.900 (ms) * (1600/4/79) * 31.6 = DH5 time slot = 1.514 (ms) * (1600/6/79) * 31.6 = CH High DH1 time slot = 0.282 (ms) * (1600/2/79) * 31.6 = DH3 time slot = 0.905 (ms) * (1600/4/79) * 31.6 = DH5 time slot = 1.529 (ms) * (1600/6/79) * 31.6 = 121.92 (ms) 260.32 (ms) 306.13 (ms) 90.24 (ms) 144.00 (ms) 162.35 (ms) 90.88 (ms) 144.00 (ms) 161.49 (ms) 90.24 (ms) 144.80 (ms) 163.09 (ms)
-19 of 46-8DPSK A period time = 0.4 (ms) * 79 = 31.6 (s) CH Low DH1 time slot = 0.242 (ms) * (1600/2/79) * 31.6 = DH3 time slot = 0.655 (ms) * (1600/4/79) * 31.6 = DH5 time slot = 1.060 (ms) * (1600/6/79) * 31.6 = CH Mid DH1 time slot = 0.236 (ms) * (1600/2/79) * 31.6 = DH3 time slot = 0.660 (ms) * (1600/4/79) * 31.6 = DH5 time slot = 1.060 (ms) * (1600/6/79) * 31.6 = CH High DH1 time slot = 0.242 (ms) * (1600/2/79) * 31.6 = DH3 time slot = 0.655 (ms) * (1600/4/79) * 31.6 = DH5 time slot = 1.070 (ms) * (1600/6/79) * 31.6 = 77.44 (ms) 104.80 (ms) 113.07 (ms) 75.52 (ms) 105.60 (ms) 113.07 (ms) 77.44 (ms) 104.80 (ms) 114.13 (ms)
-20 of 46- GFSK Mode: Low Channel DH1 DH3
-21 of 46- DH5 GFSK Mode: Mid Channel DH1
-22 of 46- DH3 DH5
-23 of 46- GFSK Mode: High Channel DH1 DH3
-24 of 46- DH5
-25 of 46-9.5.2 Hopping channel Result: Ambient temperature: 25 Relative humidity: 65% Test Date: 07/24/2012 Channel separation between carries =1.0 MHz Measurement uncertainty: 120 khz
-26 of 46-9.5.3. Hopping sequence Type of system: Adaptive Frequency Hopping. 1. The number of hopping channels used is 79 (see next two plots). The nominal frequency of the hopping channels are: 2402+n (MHz), where 0 S n S 78, So the hopping frequencies are from 2402MHz to 2480 MHz which is a 93.4 % of the band2.4 GHz- 2.4835 GHz Ambient temperature: 25 Relative humidity: 65% Test Date: 07/24/2012 2.4 GHz 2.441GHz, Number of hopping frequencies: 39
-27 of 46-2.441 GHz 2.482GHz Number of hopping frequencies: 40 Result: Total number of hopping frequencies: 79 2. Each hopping channel of the hopping sequence is occupied at least once during a period of four times the product of the dwell time per hop and the number of channels (see next plots for channel 39 for reference): The equipment is set in hopping on mode with each type of packet selected. With a spectrum analyzer tuned in one hopping channel, with zero span and sweep time : four times the product of the dwell time measured in 9.5.1 and 79 (number of channels) a single sweep is performed and the number of transmissions in this time period captured. The number of transmissions shall be at least one during this period, for each type of packet. The plots show the results in central channel: 244lMHz.
-28 of 46- Ambient temperature: 25 Relative humidity: 65% Test Date: 07/24/2012 GFSK π /4 DQPSK 8DPSK Type of packet Maximum dwell time recorded during a single hop (ms) at Mid Channel DH1 121.34 DH3 516.66 DH5 903.76 DH1 89.74 DH3 284.40 DH5 478.42 DH1 74.58 DH3 208.56 DH5 334.96 GFSK Packet DH1:
-29 of 46- Packet DH3: Packet DH5:
-30 of 46- π /4 DQPSK Packet DH1: Packet DH3:
-31 of 46- Packet DH5: 8DPSK Packet DH1:
-32 of 46- Packet DH3: Packet DH5:
-33 of 46-10. ETSI EN 300 328 SUB-CLAUSE 4.3.5 MEDIUM ACCESS PROTOCOL 10.1. Requirement: A medium access protocol shall be implemented by the equipment. 10.2. Result: This function requirement is verified and declared by the manufacturer.
-34 of 46-11. ETSI EN 300 328 SUB-CLAUSE 4.3.6 TRANSMITTER SPURIOUS EMISSIONS 11.1. Limit: The spurious emissions of the transmitter shall not exceed the values in tables 1 and 2 in the indicated bands. Table 1: Transmitter limits for Narrowband Spurious emissions Frequency Range Limit when operating Limit when in standby 30MHz to 1 GHz -36 dbm -57 dbm above 1 GHz to 12.75 GHz -30 dbm -47 dbm 1.8 GHz to 1.9 GHz 5.15 GHz to 5.3 GHz -47 dbm -47 dbm The above limit values apply to narrowband emissions, e.g. as caused by local oscillator leakage. The measurement bandwidth for such emissions may be as small as necessary to achieve a reliable measurement result. Wideband emissions shall not exceed the values given in table 2. Table 2: Transmitter limits for Wideband Spurious emissions Frequency Range Limit when operating Limit when in standby 30MHz to 1 GHz -86 dbm/hz -107 dbm/hz above 1 GHz to 12.75 GHz -80 dbm/hz -97 dbm/hz 1.8 GHz to 1.9 GHz 5.15 GHz to 5.3 GHz -97 dbm/hz -97 dbm/hz
-35 of 46-11.2. Measurement Equipment Used: Chamber 05(743) EQUIPMENT MFR MODEL SERIAL LAST CAL DUE. TYPE NUMBER NUMBER CAL. Spectrum Analyzer 21(26.5GHz) Agilent N9010A MY52100117 04/12/2012 04/11/2013 Dipole antenna SCHWARZBECK VHAP,30-300 919 11/16/2011 11/15/2013 Dipole antenna SCHWARZBECK UHAP,300-100 0 1195 10/25/2011 10/24/2013 Loop Antenna A.H.SYSTEM SAS-564 294 02/28/2011 02/27/2013 Bilog Antenna Schaffner CBL 6111B 2755 05/06/2012 05/05/2013 Horn antenna1-18g EM EM-AH-10180 2011071401 08/04/2011 08/03/2012 Horn antenna1-18g COM-POWER AH118 2011071401 03/01/2012 02/29/2013 Horn antenna18-26g Com-power AH-826 081001 05/04/2011 05/03/2013 Preamplifier9-1.3G HP 8447F NA 05/04/2012 05/03/2013 Preamplifier1-26G EM EM01M26G NA 02/21/2012 02/20/2013 Cable HUBER SUHNER SUCOFLEX10 NA 02/24/2012 02/23/2013 4A 3+7m SUCOFLEX HUBER SUHNER Sucoflex 102 27963/2&3742 09/21/2011 09/20/2012 1GHz~40GHz cable 1/2 Signal Generator R&S SMU200A 102330 02/07/2012 02/06/2013 Signal Generator Anritsu MG3692A 20311 05/07/2012 05/06/2013 2.4G Filter Micro-Tronics Brm50702 76 10/22/2011 10/21/2012 11.3. Test Setup: 11.3.1. Step 1. Field Strength Measurement: EUT 3m Amplifier 1.5m 1.5m Spectrum analyzer
-36 of 46-11.3.2. Step 2. Substitution Measurement: Frequency Below 1GHz Fully Anechoic Chamber d: distance in meters Antenna mast d: 3 meter 1.5m Turntable Signal Generator Substituted Biconical Or LP antenna Frequency above 1 GHz 1.5m High Biconical or LP antenna Spectrum analyzer / pre-amp. Fully Anechoic Chamber Antenna mast 1.5m d: distance 3 or 1 meters d 1.5 m high Signal Generator Turntable Horn antenna Substituted Horn antenna Spectrum analyzer/pre-amp 11.4. Test Procedure: See Sub-Clause 5.3 of ETSI EN 300 328 for the test conditions See Sub-Clause 5.7.5 of ETSI EN 300 328 for transmitter spurious emissions for radiated test method.
-37 of 46- Transmitter Spurious Emissions Test Results: (Radiated) Ambient temperature: 25 Relative humidity: 60 % Test Date: 07/24/2012 Test Mode: Bluetooth TX CH Low, Worst case: 8DPSK No Freq Reading Aux Level Limit Over Limit Pol MHz dbm db dbm dbm db V/H 1 54.25-61.18 4.62-56.56-36.00-20.56 VERTICAL 2 84.32-62.65-1.13-63.78-36.00-27.78 VERTICAL 3 147.37-60.43-5.86-66.29-36.00-30.29 VERTICAL 4 299.66-73.30 2.56-70.74-36.00-34.74 VERTICAL 5 499.48-66.81 1.93-64.88-36.00-28.88 VERTICAL 6 844.80-79.11 6.88-72.23-36.00-36.23 VERTICAL 7 3345.00-57.63 5.60-52.03-30.00-22.03 VERTICAL 8 4804.00-43.67 10.50-33.17-30.00-3.17 VERTICAL 1 54.25-61.32 4.62-56.70-36.00-20.70 HORIZONTAL 2 88.20-60.75-2.01-62.76-36.00-26.76 HORIZONTAL 3 140.58-61.16-5.44-66.60-36.00-30.60 HORIZONTAL 4 268.62-68.73-0.43-69.16-36.00-33.16 HORIZONTAL 5 353.01-70.64 3.75-66.89-36.00-30.89 HORIZONTAL 6 844.80-78.99 6.88-72.11-36.00-36.11 HORIZONTAL 7 3884.00-56.13 7.38-48.75-30.00-18.75 HORIZONTAL 8 4804.00-44.65 10.37-34.28-30.00-4.28 HORIZONTAL Measurement uncertainty 30MHz - 80MHz: 5.04dB 80MHz -1000MHz: 3.76dB 1GHz - 26GHz: 4.45dB Remark: 1. The emission behaviors belong to narrowband spurious emission. 2. Remark '' --- '' means that the emission level is too low to be measured 3. The result basic equation calculation is as follows: 4. ERP/EIRP (dbm) = SG Setting(dBm) + Antenna Gain (db/dbi) Cable loss (db) 5. Measurement Range upto 12.75GHz.
-38 of 46- Ambient temperature: 25 Relative humidity: 60 % Test Date: 07/24/2012 Test Mode: Bluetooth TX CH High No Freq Reading Aux Level Limit Over Limit Pol MHz dbm db dbm dbm db V/H 1 54.25-61.38 5.05-56.33-36.00-20.33 VERTICAL 2 140.58-59.26-3.20-62.46-36.00-26.46 VERTICAL 3 269.59-69.90-2.21-72.11-36.00-36.11 VERTICAL 4 353.01-75.27 3.65-71.62-36.00-35.62 VERTICAL 5 461.65-75.76 4.02-71.74-36.00-35.74 VERTICAL 6 593.57-75.77 4.60-71.17-36.00-35.17 VERTICAL 7 3639.00-56.41 6.53-49.88-30.00-19.88 VERTICAL 8 4960.00-43.25 10.96-32.29-30.00-2.29 VERTICAL 1 53.28-61.01 4.94-56.07-36.00-20.07 HORIZONTAL 2 67.83-60.78 3.54-57.24-36.00-21.24 HORIZONTAL 3 147.37-62.19-5.86-68.05-36.00-32.05 HORIZONTAL 4 282.20-71.16 0.92-70.24-36.00-34.24 HORIZONTAL 5 520.82-71.68 3.12-68.56-36.00-32.56 HORIZONTAL 6 696.39-79.01 5.74-73.27-36.00-37.27 HORIZONTAL 7 4960.00-43.28 11.03-32.25-30.00-2.25 HORIZONTAL 8 7440.00-57.49 19.07-38.42-30.00-8.42 HORIZONTAL Measurement uncertainty 30MHz - 80MHz: 5.04dB 80MHz -1000MHz: 3.76dB 1GHz - 26GHz: 4.45dB Remark: 1. The emission behaviors belong to narrowband spurious emission. 2. Remark '' --- '' means that the emission level is too low to be measured 3. The result basic equation calculation is as follows: 4. ERP/EIRP (dbm) = SG Setting(dBm) + Antenna Gain (db/dbi) Cable loss (db) 5. Measurement Range upto 12.75GHz.
-39 of 46-11.5. Transmitter Spurious Emissions Test Results: (Radiated) Ambient temperature: 25 Relative humidity: 60 % Test Date: 07/24/2012 Test Mode: Standby No Freq Reading Aux Level Limit Over Limit Pol MHz dbm db dbm dbm db V/H 1 67.83-64.17 3.06-61.11-57.00-4.11 VERTICAL 2 92.08-61.43 0.98-60.45-57.00-3.45 VERTICAL 3 281.23-68.19-1.49-69.68-57.00-12.68 VERTICAL 4 352.04-73.04 3.73-69.31-57.00-12.31 VERTICAL 5 513.06-72.51 3.22-69.29-57.00-12.29 VERTICAL 6 963.14-79.67 8.27-71.40-57.00-14.40 VERTICAL 7 1847.00-60.13 0.15-59.98-47.00-12.98 VERTICAL 8 2463.00-59.74 3.10-56.64-47.00-9.64 VERTICAL 1 54.25-63.71 4.62-59.09-57.00-2.09 HORIZONTAL 2 67.83-63.35 3.54-59.81-57.00-2.81 HORIZONTAL 3 89.17-60.23-2.22-62.45-57.00-5.45 HORIZONTAL 4 332.64-72.64 3.49-69.15-57.00-12.15 HORIZONTAL 5 493.66-73.03 1.99-71.04-57.00-14.04 HORIZONTAL 6 843.83-78.22 6.87-71.35-57.00-14.35 HORIZONTAL 7 1840.00-62.52-0.04-62.56-47.00-15.56 HORIZONTAL 8 2617.00-65.73 3.66-62.07-47.00-15.07 HORIZONTAL Measurement uncertainty 30MHz - 80MHz: 5.04dB 80MHz -1000MHz: 3.76dB 1GHz - 26GHz: 4.45dB Remark: 1. The emission behaviors belong to narrowband spurious emission. 2. Remark '' --- '' means that the emission level is too low to be measured 3. The result basic equation calculation is as follows: 4. ERP/EIRP (dbm) = SG Setting(dBm) + Antenna Gain (db/dbi) Cable loss (db) 5. Measurement Range upto 12.75GHz.
-40 of 46-12. TSI EN 300 328 SUB-CLAUSE 4.3.7 RECEIVER SPURIOUS EMISSIONS 12.1. Limit: The spurious emissions of the receiver shall not exceed the values in tables 3 and 4 in the indicated bands. Table 3: Narrowband spurious emission limits for receivers Frequency Range 30MHz to 1 GHz above 1 GHz to 12.75 GHz Limit -57 dbm -47 dbm The above limit values apply to narrowband emissions, e.g. as caused by local oscillator leakage. The measurement bandwidth for such emissions may be as small as necessary to get a reliable measurement result. Wideband emissions shall not exceed the values given in table 4. Table 4: Wideband spurious emission limits for receivers Frequency Range 30MHz to 1 GHz above 1 GHz to 12.75 GHz 12.2. Measurement Equipment Used: Same as section 11.2 in this report. Limit -107 dbm/hz -97 dbm/hz 12.3. Test Setup: Same as section 11.3 in this report. 12.4. Test Procedure: See Sub-Clause 5.3 of ETSI EN 300 328 for the test conditions See Sub-Clause 5.7.6 of ETSI EN 300 328 for transmitter spurious emissions for radiated test method.
-41 of 46-12.5. Receiver Spurious Emissions Test Results: (Radiated) Ambient temperature: 25 Relative humidity: 60 % Test Date: 07/24/2012 Test Mode: Bluetooth RX CH Low No Freq Reading Aux Level Limit Over Limit Pol MHz dbm db dbm dbm db V/H 1 38.73-72.16 8.39-63.77-57.00-6.77 VERTICAL 2 67.83-64.11 3.06-61.05-57.00-4.05 VERTICAL 3 89.17-60.96 1.02-59.94-57.00-2.94 VERTICAL 4 282.20-69.18-1.43-70.61-57.00-13.61 VERTICAL 5 353.01-72.00 3.65-68.35-57.00-11.35 VERTICAL 6 845.77-78.42 5.73-72.69-57.00-15.69 VERTICAL 7 1847.00-60.93 0.15-60.78-47.00-13.78 VERTICAL 8 4605.00-69.18 9.90-59.28-47.00-12.28 VERTICAL 1 38.73-71.77 8.32-63.45-57.00-6.45 HORIZONTAL 2 66.86-63.15 3.46-59.69-57.00-2.69 HORIZONTAL 3 89.17-59.54-2.22-61.76-57.00-4.76 HORIZONTAL 4 281.23-73.21 0.83-72.38-57.00-15.38 HORIZONTAL 5 353.01-71.07 3.75-67.32-57.00-10.32 HORIZONTAL 6 499.48-62.82 1.93-60.89-57.00-3.89 HORIZONTAL 7 1847.00-60.99 0.01-60.98-47.00-13.98 HORIZONTAL 8 2897.00-67.03 4.44-62.59-47.00-15.59 HORIZONTAL Measurement uncertainty 30MHz - 80MHz: 5.04dB 80MHz -1000MHz: 3.76dB 1GHz - 26GHz: 4.45dB Remark: 1. The emission behaviors belong to narrowband spurious emission. 2. Remark '' --- '' means that the emission level is too low to be measured 3. The result basic equation calculation is as follows: 4. ERP/EIRP (dbm) = SG Setting(dBm) + Antenna Gain (db/dbi) Cable loss (db) 5. Measurement Range upto12.75ghz.
-42 of 46- Ambient temperature: 25 Relative humidity: 60 % Test Date: 07/24/2012 Test Mode: Bluetooth RX CH High No Freq Reading Aux Level Limit Over Limit Pol MHz dbm db dbm dbm db V/H 1 54.25-64.70 5.05-59.65-57.00-2.65 VERTICAL 2 83.35-61.86 1.29-60.57-57.00-3.57 VERTICAL 3 148.34-59.33-3.86-63.19-57.00-6.19 VERTICAL 4 195.87-67.43 0.31-67.12-57.00-10.12 VERTICAL 5 514.03-67.84 3.24-64.60-57.00-7.60 VERTICAL 6 948.59-76.44 8.39-68.05-57.00-11.05 VERTICAL 7 1847.00-59.58 0.15-59.43-47.00-12.43 VERTICAL 8 4318.00-67.96 9.07-58.89-47.00-11.89 VERTICAL 1 67.83-64.53 3.54-60.99-57.00-3.99 HORIZONTAL 2 85.29-60.27-1.35-61.62-57.00-4.62 HORIZONTAL 3 147.37-63.52-5.86-69.38-57.00-12.38 HORIZONTAL 4 282.20-68.85 0.92-67.93-57.00-10.93 HORIZONTAL 5 352.04-71.94 3.81-68.13-57.00-11.13 HORIZONTAL 6 518.88-74.08 3.01-71.07-57.00-14.07 HORIZONTAL 7 2617.00-66.67 3.66-63.01-47.00-16.01 HORIZONTAL 8 4647.00-69.36 9.69-59.67-47.00-12.67 HORIZONTAL Measurement uncertainty 30MHz - 80MHz: 5.04dB 80MHz -1000MHz: 3.76dB 1GHz - 26GHz: 4.45dB Remark: 1. The emission behaviors belong to narrowband spurious emission. 2. Remark '' --- '' means that the emission level is too low to be measured 3. The result basic equation calculation is as follows: 4. ERP/EIRP (dbm) = SG Setting(dBm) + Antenna Gain (db/dbi) Cable loss (db) 5. Measurement Range upto 12.75GHz.
-43 of 46- APPENDIX 1 PHOTOGRAPHS OF SET UP
-44 of 46-
-45 of 46- APPENDIX 2 PHOTOGRAPHS OF EUT
-46 of 46- EUT 1 Antenna EUT 2 ~ End of Report ~