R&TTE (99/5/EC ) Directive EN 300 440-2 V 1.4.1: 2010 TEST ...€¦ · ETSI EN 300 440-1[V1.6.1]...
Transcript of R&TTE (99/5/EC ) Directive EN 300 440-2 V 1.4.1: 2010 TEST ...€¦ · ETSI EN 300 440-1[V1.6.1]...
Report No: EF/2013/20013 Issue Date: Mar.18, 2013 Page: 1 of 33
R&TTE (99/5/EC ) Directive EN 300 440-2 V 1.4.1: 2010
TEST REPORT
FOR
Product Name: TomTom GPS watch
Brand Name: TomTom
Model No.: 8RS00
Model Difference:
N/A
Report No.: EF/2013/20013
Issue Date: Mar.18, 2013
Prepared for: TomTom International BV Rembrandtplein 35 1017 CT Amsterdam The Netherlands
Prepared by:
SGS Taiwan Ltd. Electronics & Communication Laboratory No.134, Wu Kung Road, New Taipei Industrial Park, Wuku District, New Taipei City, Taiwan 24803
Note: This report shall not be reproduced except in full, without the written approval of SGS Taiwan Ltd. This document may be altered or revised by SGS Taiwan Ltd. personnel only, and shall be noted in the revision section of the document.
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VERIFICATION OF COMPLIANCE
Applicant: TomTom International BV Rembrandtplein 35 1017 CT Amsterdam The Netherlands
Product Name: TomTom GPS watch
Brand Name: TomTom
Model No.: 8RS00
Model Difference: N/A
File Number: EF/2013/20013
Date of test: Feb.23, 2013~ Mar.18, 2013
Date of EUT Received: Feb.23, 2013
APPLICABLE STANDARDS
STANDARD TEST RESULT
ETSI EN 300 440-1 v1.6.1:2010 ETSI EN 300 440-2 v1.4.1:2010
Complied
The above equipment was tested by SGS Taiwan Ltd. Electronics & Communication Laboratory for compliance with the requirements set forth in the European Standard ETSI EN 300 440-2 v1.4.1: 2010. under R&TTE Directive 99/05/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: Mar. 18, 2013
Marcus Tseng/ Engineer
Prepared By:
Date: Mar. 18, 2013
Julia Chang / Clerk
Approved By: Date: Mar. 18, 2013
Jim Chang / Supervisor
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Version
Version No. Date Description
00 Mar.18, 2013 Initial creation of document
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TABLE OF CONTENTS
1. DESCRIPTION OF EQUIPMENT UNDER TEST (EUT) ........................................................ 5
2. DESCRIPTION OF TEST MODES ............................................................................................. 6
3. TEST FACILITY ............................................................................................................................ 6
4. BLOCK DIAGRAM OF TEST SETUP ....................................................................................... 7
5. SPURIOUS EMISSIONS MEASUREMENT UNCERTAINTY ............................................... 7
6. TRANSMITTER REQUIREMENTS ........................................................................................... 8
6.1. ETSI EN 300 440-2 SUBCLAUSE 4.2.1.1: EQUIVALENT ISOTROPICALLY RADIATED POWER ..... 8 6.2. ETSI EN 300 440-2 SUBCLAUSE 4.2.1.2: PERMITTED RANGE OF OPERATING FREQUENCIES ... 12 6.3. ETSI EN 300 440-2 SUBCLAUSE 4.2.1.3: SPURIOUS EMISSIONS OF TRANSMITTER .................. 14 6.4. ETSI EN 300 440-2 SUBCLAUSE 4.2.2.1: THE ADJACENT CHANNEL SELECTIVITY-IN-BAND ... 15 6.5. ETSI EN 300 440-2 SUBCLAUSE 4.2.2.2: BLOCKING OR DESENSITIZATION ............................. 15 6.6. ETSI EN 300 440-2 SUBCLAUSE 4.2.2.3: SPURIOUS EMISSIONS .............................................. 15 6.7. ETSI EN 300 440-2 SUBCLAUSE 6: INTERPRETATION OF MEASUREMENT RESULTS ................ 19
PHOTOGRAPHS OF TEST SETUP .................................................................................................. 20
PHOTOGRAPHS OF EUT .................................................................................................................. 22
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1. DESCRIPTION OF EQUIPMENT UNDER TEST (EUT)
General:
Product Name: TomTom GPS watch
Brand Name: TomTom
Model No.: 8RS00
Model difference: N/A
Hardware Version: 1.0
Software Version: 1.0
USB Dock: Model No.: 2UJ0, Brand Name: TomTom
Power Supply:
3.7Vdc from rechargeable Li-ion battery
Battery: Model: SP332230AB Supplier : TIANJIN LISHEN BATTERY JOINT-STOCK CO., LTD
GPS:
Receiver Frequency: L1 Band, 1575.42MHz
Frequency Conversion oscillator:
26MHz
Antenna Designation: PIFA Antenna
This test report applies for GPS function, and complies with ETSI EN 300 440
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2. DESCRIPTION OF TEST MODES
The EUT has been tested under engineering operating condition. No test engineering mode was used to control the EUT for staying in continuous receiving mode, the channel mid was chosen for testing.
3. TEST FACILITY
SGS Taiwan Ltd. Electronics & Communication Laboratory No.134, Wu Kung Road, New Taipei Industrial Park, Wuku District, New Taipei City, Taiwan The 11m*6m*6m fully anechoic chamber was used for the radiated spurious emissions test.
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4. BLOCK DIAGRAM OF TEST SETUP
Fig. 4-1 Configuration of Tested System
Fig. 4-2 Configuration (Remote Side, on the corner)
Table 4-1 Support Equipment Used in Tested System
Item Equipment Mfr/Brand Model/Type No. Series No. Data Cable Power Cord
1. GPS Singal. WELNAVIGATE GS-50 607492 N/A Un-shield
Note: All the above equipment/cables were placed in worse case positions to maximize emission signals
during emission test. Grounding: Grounding was in accordance with the manufacturer’s requirements and conditions for the
intended use.
5. SPURIOUS EMISSIONS MEASUREMENT UNCERTAINTY
Measurement uncertainty 30MHz - 80MHz: 5.04dB
80MHz -1000MHz: 2.45dB
1GHz – 26.5GHz: 2.67dB
GPS S.G.
EUT
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6. TRANSMITTER REQUIREMENTS
6.1. ETSI EN 300 440-2 Subclause 4.2.1.1: Equivalent Isotropically Radiated Power
Measurement Equipment Used:
EQUIPMENT TYPE
MFR MODEL
NUMBER SERIAL
NUMBER LAST CAL.
CAL DUE.
Spectrum Analyzer R&S FSV-30 101398 10/18/2011 10/17/2013
Bi-log Antenna SCHWAZBECK VULB9160 9160-3158 11/24/2011 11/23/2013
Bi-log Antenna SCHWAZBECK VULB9168 300 01/18/2012 01/17/2014
Horn antenna ETS.LINDGREN 3117 123995 05/19/2011 05/18/2013
Horn antenna ETS.LINDGREN 3117 123991 01/22/2013 01/21/2015
Horn Antenna Schwarzbeck BBHA9170 184 01/17/2012 01/17/2014
Horn Antenna Schwarzbeck BBHA9170 185 07/11/2011 07/10/2013
RF amplifier Miteq AMF-6F-26004
00-40-8P 971576 01/29/2013 01/28/2014
Dipole Antenna SCHWAZBECK VHAP 908/909 07/17/2012 07/16/2014
Dipole Antenna SCHWAZBECK UHAP 891/892 07/17/2012 07/16/2014Filter 2400-2483.5
MHz EWT EWT-14-0166 M1 02/28/2013 02/27/2014
Pre-Amplifier HP 8447F 3113A06892 01/04/2013 01/03/2014
Pre-Amplifier HP 8449B 3008A01973 01/04/2013 01/03/2014
Signal Generator R&S SMR40 100210 02/02/2012 02/01/2014
Signal Generator Agilent E4438C MY45093613 07/15/2011 07/14/2013
Turn Table HD DT420 N/A N.C.R N.C.R
Antenna Tower HD MA240-N 240/657 N.C.R N.C.R
Controller HD HD100 N/A N.C.R N.C.R
Low Loss Cable HUBER+SUHNERSUCOFLEX 104PEA-10M
10m 01/04/2013 01/03/2014
Low Loss Cable HUBER+SUHNERSUCOFLEX
104PEA-0.5M0.5m 01/04/2013 01/03/2014
Attenuator Mini-Circuit BW-S10W2+ 003 02/28/2013 02/27/2014
Site Cal SGS 1166 chamber N/A 01/04/2013 01/03/2014
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Antenna mast
d: distance in meters
d: 3 meter
Turntable Signal Generator
Substituted Biconical Or LP antenna Biconical or LP antenna
Spectrum analyzer / pre-amp.
1.5m
1.5m
Test Setup:
SUBSTITUTION METHOD: (Radiated Emissions) Radiated Below 1GHz
Spectrum Analyzer
EUT 3m
1.5m
1.5m
Amplifier
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Radiated Above 1 GHz
Minimum requirement: ETSI EN 300 440-1[V1.6.1] Subclause 7.1.3 Limits:
1.5 meter
Antenna mast
d
d: distance 3 or 1 meters
Spectrum analyzer/pre-amp
Horn antenna
Substituted Horn antenna
1.5m
Signal Generator Turntable
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Test Procedure: EUT was placed on an 1.5m outdoor wooden table. The search antenna is placed at 3m distance from the EUT and search antenna height is from 1.5m. With the transmitter operating at continuously mode, the turntable was slowly rotated to locate the direction of maximum emission. Once maximum direction is determined, the search antenna was raised and lowered in both vertical and horizontal polarizations. The EUT was removed from the turntable and replaced with a linearly polarized antenna connected to a calibrated RF signal generator. The RF generator was set to a measured emission frequency and the search antenna was raised and lowered to produced a maximum received reading. The generator output was increased to match the radiated emission reading measured previously, and the result expressed in dB E.I.R.P. or ERP. Test results: N/A
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6.2. ETSI EN 300 440-2 Subclause 4.2.1.2: Permitted Range of operating Frequencies
CEPT/ERC Recommendation 70-03. Limit. the frequency range shall lie within the frequency band allocated 2400MHz –2483.5MHz Measurement Equipment Used: Same as
Conducted Emission Test Site EQUIPMENT
TYPE MFR
MODEL NUMBER
SERIAL NUMBER
LAST CAL.
CAL DUE.
Spectrum Analyzer Agilent E4446A MY51100003 04/15/2011 04/14/2013
Spectrum Analyzer Agilent E4440A MY45304525 03/17/2012 03/16/2014
Power Sensor Anritsu MA2490A 32910 06/06/2012 06/05/2014
Power Meter Anritsu ML2487A 6K00003260 06/06/2012 06/05/2014
Power Sensor Anritsu ML2495A 1005007 02/08/2012 02/07/2014
Power Meter Anritsu MA2411B 917032 02/08/2012 02/07/2014
DC Block Mini-Circuits BLK-18-S+ 1 02/28/2013 02/27/2014
Attenuator Mini-Circuit BW-S10W2+ 002 02/28/2013 02/27/2014
Splitter Agilent 11636B 51728 02/28/2013 02/27/2014
DC Power Supply Agilent E3640A MY40005907 07/15/2011 07/14/2013
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Test Setup:
Test Procedure: 1. Put the spectrum analyzer in video averaging mode with a minimum of 50 sweeps selected. 2. Select the lowest operating frequency of the equipment under test and activate the transmitter with
modulation applied. 3. Using the marker of the spectrum analyzer, find lowest and highest frequency at which the spectral
power density drops below the level the level of –74.8 dBm/Hz spectral power density ( –30dBm if measured in a 30KHz bandwidth) EIRP, those frequencies were recorded in the test report.
4. The difference between the frequencies is the operating frequency range. Recorded in the test report. Test results: N/A
Antenna
Variable AC/DC power supply
Spectrum analyzer EUT
Temperature Chamber
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6.3. ETSI EN 300 440-2 Subclause 4.2.1.3: Spurious Emissions of Transmitter
Measurement Equipment Used: Same as Subclause 4.2.1.1: Equivalent Isotropically Radiated Power Measuring receiver: Test Setup: Same as Subclause 4.2.1.1: Equivalent Isotropically Radiated Power Substitution Method: Radiated Emissions Minimum requirement: ETSI EN 300 440-1[V1.6.1] Subclause 7.3.6 Limits: The power of any spurious emission shall not exceed the following values given in table
Test Procedure: Same as Subclause 4.2.1.1: Equivalent Isotropically Radiated Power Test results: N/A ETSI EN 300 440-2 Subclause 4.2.1.4: Duty Cycle N/A
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Receiver Requirements
ETSI EN 300 440-1 Subclause 4.1.1: Receiver classification
This device is a class 3 device.
6.4. ETSI EN 300 440-2 Subclause 4.2.2.1: The Adjacent channel selectivity-in-band
This requirement applies to Equipment Class 1 receiver, N/A. This device is a class 3 device.
6.5. ETSI EN 300 440-2 Subclause 4.2.2.2: Blocking or desensitization
This requirement applies to Equipment Class 1 and 2 receivers, N/A. This device is a class 3 device.
6.6. ETSI EN 300 440-2 Subclause 4.2.2.3: Spurious Emissions
Measurement Equipment Used: Same as Subclause 4.1.1: Equivalent Isotropically Radiated Power Test Setup: Same as Subclause 4.1.1: Equivalent Isotropically Radiated Power SUBSTITUTION METHOD: Radiated Emissions Minimum requirement: ETSI EN 300 440-1[V1.6.1] Subclause 8.3.5 Limits: The power of any spurious emission, conducted or radiated, shall not exceed the following values given in table 13 below.
Below 1000MHz Above 1000MHz Operating 2 nW 20 nW
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Test Procedure: EUT was placed on a 1.5m outdoor wooden table. The search antenna is placed at 3m distances from the EUT and search antenna height is from 1.5m. With the transmitter operating at continuously mode, the turntable was slowly rotated to locate the direction of maximum emission. Once maximum direction is determined, the search antenna was raised and lowered in both vertical and horizontal polarizations. The EUT was removed from the turntable and replaced with a linearly polarized antenna connected to a calibrated RF signal generator. The RF generator was set to a measured emission frequency and the search antenna was raised and lowered to produce a maximum received reading. The generator output was increased to match the radiated emission reading measured previously, and the result expressed in dB EIRP or ERP, correcting for substitution antenna gain at each frequency.
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Test results: Operation Band :GPS Test Date :2013-03-15 ARFCN : Temp./Humi. :26 deg_C / 65 RH Fundamental Frequency
:1575.42 MHz Engineer :JJ
Operation Mode :RX EUT Pol. :E1 Plane Measurement Antenna Pol. :VERTICAL EIRP(dBm) = SG Level(dBm) + Antenna Gain(dBi) + Cable Loss(dB) Note : “F” : denotes Fundamental Frequency. ; “H” : denotes Harmonic Frequency.
“E” : denotes Band Edge Frequency. ; “S” : denotes Spurious Frequency.
Freq. Note EIRP SG Antenna Cable Limit Margin Output Level Gain Loss
MHz F/H/E/S dBm dBm dBi dB dBm dB
57.16 S -71.30 -63.87 -6.85 -0.59 -57.00 -14.30 152.22 S -74.36 -74.55 1.16 -0.97 -57.00 -17.36 242.43 S -79.28 -84.63 6.58 -1.23 -57.00 -22.28 466.50 S -76.57 -81.55 6.70 -1.72 -57.00 -19.57 612.00 S -74.35 -78.58 6.20 -1.97 -57.00 -17.35 951.50 S -69.68 -72.94 5.79 -2.54 -57.00 -12.68 3150.84 H -52.63 -56.74 8.77 -4.67 -47.00 -5.63 4726.26 H --- 6301.68 H --- 7877.10 H ---
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Operation Band :GPS Test Date :2013-03-15 ARFCN : Temp./Humi. :26 deg_C / 65 RH Fundamental Frequency
:1575.42 MHz Engineer :JJ
Operation Mode :RX EUT Pol. :E1 Plane Measurement Antenna Pol. :HORIZONTAL EIRP(dBm) = SG Level(dBm) + Antenna Gain(dBi) + Cable Loss(dB) Note : “F” : denotes Fundamental Frequency. ; “H” : denotes Harmonic Frequency.
“E” : denotes Band Edge Frequency. ; “S” : denotes Spurious Frequency.
Freq. Note EIRP SG Antenna Cable Limit Margin Output Level Gain Loss
MHz F/H/E/S dBm dBm dBi dB dBm dB
47.46 S -72.14 -62.07 -9.54 -0.53 -57.00 -15.14 142.52 S -74.78 -74.72 0.87 -0.93 -57.00 -17.78 241.46 S -79.73 -85.07 6.56 -1.23 -57.00 -22.73 440.31 S -76.08 -81.05 6.66 -1.68 -57.00 -19.08 698.33 S -74.02 -78.16 6.30 -2.16 -57.00 -17.02 968.96 S -70.82 -74.18 5.92 -2.56 -57.00 -13.82 3150.84 H -54.68 -57.30 7.29 -4.67 -47.00 -7.68 4726.26 H --- 6301.68 H --- 7877.10 H ---
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6.7. ETSI EN 300 440-2 Subclause 6: Interpretation of Measurement Results
All the measurement equipments and accessories have been carefully selected to meet the maximum measurement uncertainty specified below:
P.S. For the test methods, according to the present document the uncertainty figures shall be calculated according to the methods described in the TR 100 028 [i.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 case where the distributions characterizing the actual measurement uncertainties are normal (Gaussian)). Table 10 is based on such expansion factors. The particular expansion factor used for the evaluation of the measurement uncertainty shall be stated.
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APPENDIX 1
PHOTOGRAPHS OF TEST SETUP
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Set up photo
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APPENDIX 2
PHOTOGRAPHS OF EUT
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All View of EUT
Front View of EUT
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Back View of EUT
Side View of EUT – 1
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Side View of EUT – 2
Side View of EUT – 3
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Side View of EUT – 4
USB Dock
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Battery
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Open View of EUT – 1
Open View of EUT – 2
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Open View of EUT – 3
Open View of EUT – 4
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Internal View of EUT – 1
Internal View of EUT – 2
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Internal View of EUT – 3
Internal View of EUT – 4
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Internal View of EUT – 5
Internal View of EUT – 6
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Internal View of EUT – 7
Internal View of EUT – 8
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Internal View of EUT – 9
Antenna-GPS
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