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01 050118 B. Gorini G.Mangili
ED DATE CHANGE NOTE APPRAISAL AUTHORITY ORIGINATOR
1AA000140004(97
11)A4
OND
ED 01
3AL 36420 0000 QZZZA 1/2
Allrightsreserved.
Passingonandco
pyingofthis
document,useandcommunicationofitscontents,not
permittedwithoutwrittenauthorization
fromA
lcatel
EMC TEST REPORT OF
1660 SM Rel.5.2B
TEST REPORT
TABLE OF CONTENTS
TEST REPORT 1
1 UPGRADES 2
2 WARNING 2
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2/2
ED 01
OND 3AL 36420 0000 QZZZA
Allrightsreserved.
Passingonandcopy
ingofthis
document,useandcommunicationofitscontents,not
permittedwithoutwrittenauthorizationfromA
lcatel
1AA000140004(9711)A4
1 UPGRADES
EDITION DATE CHANGE NOTE
01 18/01/2005 First edition
2 WARNING
This page and the previous one are not part of the original document. They have been added to give aformal structure to the document provided by the EMC Laboratory.
The original document starts on the next page.
END OF DOCUMENT
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ALCATEL ITALIA
EMI-EMC LABORATORY
Report
TR/EMC/02/067
Alcatel Italia S.p.A. Laboratory accredited according to IEC/ISO17025
Via Trento, 30 - 20059 Vimercate (Mi) by MINISTERO DELLE COMUNICAZIONI
Ph. +39 (039) 686.4325 Accreditation certificates No. 028 / 029 / 069
Fax +39 (039) 686.3189 Competent Body for the EMC directive 89/336
Conformity Assessment Body for the EU/USAMRA in the EMC sector
EMC TEST REPORT OF1660SM Rel.5.2B
Applicant:
G. Festa Low Capacity Laboratory
(Centre 4108)
Alcatel
Via Trento 30 20059 Vimercate
Total pages of the report: 40
Test reference number :
N of original distributed: 2
This report may be reproduced in full or partially only with the written consent of the Laboratory.
The test results in this report apply only to the sample(s) tested.
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SUMMARY
This report is concerning the EMC characteristics of the equipment 1660SM Rel.5.2B, cod. 3AL 81407 ACAA
manufactured by Alcatel.
The equipment has been tested with reference to the following harmonised standard to demonstrate the
conformity to the protection requirements of the council directive 89/336 EEC, according to the article 10.1:
- ETSI EN 300386 V1.3.2 (Ed. 05/2003) for transmission equipment, location "TELECOMMUNICATION
CENTRES".
Additional measurements have been performed, as requested by the customer, in accordance to the following
voluntary requirements:
- CISPR/I/105/CDV (ed. 2004)
- CISPR/I/106/CDV (ed. 2004)
for radiated emission above 1GHz (Frequency range test: 1 - 18 GHz).
- ETSI ES 201468 v1.2.1 (ed. 09/2002):
location " TELECOMMUNICATION CENTRES " "LEVEL 2" for immunity requirements.
The test performed, the reference basic standards and the results are summarised in the paragraph 7.
(Request of activity N469/02).
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CONTENTS
1 SCOPE ........................................................................................................................................................................................... 5
2 CONCLUSIONS........................................................................................................................................................................... 5
3 EQUIPMENT UNDER TEST (EUT)......................................................................................................................................... 6
3.1 IDENTIFICATION OF THE EUT...................................................................................................................................................... 6
3.2 DESCRIPTION OF THE EUT.......................................................................................................................................................... 6
3.3 EUT CONFIGURATION ................................................................................................................................................................ 6
3.4 CARD PRE-SETTING STRAPS........................................................................................................................................................ 7
3.5 MODIFICATIONS INCORPORATED IN THE EUT (NOT IN THE PRODUCT DOCUMENTATION).......................................................... 7
3.6 SUPPORT EQUIPMENT ................................................................................................................................................................. 7
4 REFERENCE STANDARDS...................................................................................................................................................... 8
5 EMISSION TESTS.................................................................................................................................................................... 10
5.1 RADIATED EMISSIONS TESTS (PLANE WAVE)........................................................................................................... 10
5.1.1 Test specification, methods and procedures.................................................................................................................. 10
5.1.2 Test configuration.......................................................................................................................................................... 105.1.2.1 Environmental conditions: ........................................................................................................................................................ 10
5.1.2.2 Operating voltage: ..................................................................................................................................................................... 10
5.1.2.3 Operating mode: ........................................................................................................................................................................ 10
5.1.2.4 Line attenuation: ........................................................................................................................................................................ 10
5.1.2.5 Support equipment: ................................................................................................................................................................... 11
5.1.2.6 Cable lengths: ............................................................................................................................................................................ 11
5.1.3 Tests results .................................................................................................................................................................... 11
5.2 RADIATED EMISSIONS TESTS (PLANE WAVE) 1 - 18 GHZ ...................................................................................... 12
5.2.1 Test specification, methods and procedures.................................................................................................................. 12
5.2.2 Test configuration.......................................................................................................................................................... 125.2.2.1 Environmental conditions: ........................................................................................................................................................ 125.2.2.2 Operating voltage: ..................................................................................................................................................................... 12
5.2.2.3 Operating mode: ........................................................................................................................................................................ 12
5.2.2.4 Line attenuation: ........................................................................................................................................................................ 12
5.2.2.5 Support equipment: ................................................................................................................................................................... 12
5.2.2.6 Cable lengths: ............................................................................................................................................................................ 12
5.2.3 Tests results .................................................................................................................................................................... 13
5.3 CONDUCTED EMISSIONS ................................................................................................................................................. 14
5.3.1 EMISSION TESTS ON POWER CABLES..................................................................................................................... 145.3.1.1 Test specification, methods and procedures.............................................................................................................................. 14
5.3.1.2 Test configuration...................................................................................................................................................................... 14
5.3.1.2.1 Environmental conditions: ................................................................................................................................................... 14
5.3.1.2.2 Operating voltage: ................................................................................................................................................................ 14
5.3.1.2.3 Operating mode:................................................................................................................................................................... 14
5.3.1.2.4 Line attenuation:................................................................................................................................................................... 14
5.3.1.2.5 Support equipment: .............................................................................................................................................................. 14
5.3.1.2.6 Cable lengths: ....................................................................................................................................................................... 14
5.3.1.3 Tests results................................................................................................................................................................................ 14
6 IMMUNITY TESTS.................................................................................................................................................................. 15
6.1 PERFORMANCE CRITERIA OF SIGNAL INTERFACE.................................................................................................. 15
6.2 RADIATED IMMUNITY TESTS (80MHZ2GHZ) ............................................................................................................ 16
6.2.1 Test specification, methods and procedures.................................................................................................................. 16
6.2.2 Test configuration.......................................................................................................................................................... 166.2.2.1 Environmental conditions: ........................................................................................................................................................ 16
6.2.2.2 Operating voltage: ..................................................................................................................................................................... 16
6.2.2.3 Operating mode: ........................................................................................................................................................................ 16
6.2.2.4 Line attenuation: ........................................................................................................................................................................ 16
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6.2.2.5 Support equipment: ................................................................................................................................................................... 16
6.2.2.6 Cable lengths: ............................................................................................................................................................................ 16
6.2.3 Tests results .................................................................................................................................................................... 17
6.3 POWER FREQUENCY MAGNETIC FIELD...................................................................................................................... 18
6.3.1.1 Test specification, methods and procedures.............................................................................................................................. 186.3.1.2 Test configuration...................................................................................................................................................................... 18
6.3.1.2.1 Environmental conditions: ................................................................................................................................................... 18
6.3.1.2.2 Operating voltage: ................................................................................................................................................................ 18
6.3.1.2.3 Operating mode:................................................................................................................................................................... 18
6.3.1.2.4 Line attenuation:................................................................................................................................................................... 18
6.3.1.2.5 Support equipment: .............................................................................................................................................................. 18
6.3.1.2.6 Cable lengths: ....................................................................................................................................................................... 18
6.3.1.3 Tests results................................................................................................................................................................................ 18
6.4 CONDUCTED IMMUNITY TESTS .................................................................................................................................... 19
6.4.1 IMMUNITY TESTS ON DC POWER CABLES............................................................................................................. 196.4.1.1 Test specification, methods and procedures.............................................................................................................................. 19
6.4.1.2 Test configuration...................................................................................................................................................................... 19
6.4.1.2.1 Environmental conditions: ................................................................................................................................................... 19
6.4.1.2.2 Operating voltage: ................................................................................................................................................................ 196.4.1.2.3 Operating mode:................................................................................................................................................................... 19
6.4.1.2.4 Line attenuation:................................................................................................................................................................... 19
6.4.1.2.5 Support equipment: .............................................................................................................................................................. 20
6.4.1.2.6 Cable lengths: ....................................................................................................................................................................... 20
6.4.1.3 Tests results................................................................................................................................................................................ 20
6.5 ELECTROSTATIC DISCHARGES (ESD)........................................................................................................................... 21
6.5.1 Test specification, methods and procedures.................................................................................................................. 21
6.5.2 Test configuration.......................................................................................................................................................... 216.5.2.1 Environmental conditions: ........................................................................................................................................................ 21
6.5.2.2 Operating voltage: ..................................................................................................................................................................... 21
6.5.2.3 Operating mode: ........................................................................................................................................................................ 21
6.5.2.4 Line attenuation: ........................................................................................................................................................................ 21
6.5.2.5 Support equipment: ................................................................................................................................................................... 216.5.2.6 Cable lengths: ............................................................................................................................................................................ 21
6.5.3 Tested points................................................................................................................................................................... 22
6.5.4 Tests results .................................................................................................................................................................... 22
7 SUMMARY OF THE TESTS RESULTS .............................................................................................................................. 23
7.1 MANDATORY EMISSION REQUIREMENTS. ................................................................................................................................ 23
7.2 MANDATORY IMMUNITY REQUIREMENTS. .............................................................................................................................. 24
7.3 VOLUNTARY EMISSION REQUIREMENTS. ................................................................................................................................. 25
7.4 VOLUNTARY IMMUNITY REQUIREMENTS................................................................................................................................. 26
7.5 R ADIATED EMISSION TESTS ...................................................................................................................................................... 27
7.6 CONDUCTED EMISSION TESTS .................................................................................................................................................. 27
7.7 R ADIATED IMMUNITY TESTS .................................................................................................................................................... 28
7.8 POWER FREQUENCY MAGNETIC FIELD.............................................................................................................................. 28
7.9 CONDUCTED IMMUNITY TESTS................................................................................................................................................. 29
7.10 ESD TEST ............................................................................................................................................................................ 29
8 TEST SITE CHARACTERISTICS......................................................................................................................................... 30
8.1 TEN METERS SEMI ANECHOIC CHAMBER.................................................................................................................. 30
8.2 THREE METERS FULLY ANECHOIC CHAMBER.......................................................................................................... 30
9 ANNEX CONTENTS................................................................................................................................................................ 31
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1
SCOPE
The EMC tests were performed on the 1660SM Rel.5.2B, to demonstrate the compliance with the protection
requirements of the Council Directive 89/336 EEC Article 10.1.
The protection requirements for this type of equipment are covered by the following standards:
- ETSI EN 300386 V1.3.2 (Ed. 05/2003) for transmission equipment, location "TELECOMMUNICATION
CENTRES".
Additional measurements have been performed, as requested by the customer, in accordance to the following
voluntary requirements:
-
CISPR/I/105/CDV (ed. 2004)- CISPR/I/106/CDV (ed. 2004)
for radiated emission above 1GHz (Frequency range test: 1 - 18 GHz).
- ETSI ES 201468 v1.2.1 (ed. 09/2002):
location " TELECOMMUNICATION CENTRES " "LEVEL 2" for immunity requirements.
2
CONCLUSIONS
The tests performed, the reference standards and the test results are summarised in the paragraph 7.
Details on each test are described in the relevant paragraphs.
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3
EQUIPMENT UNDER TEST (EUT)
3.1
Identification of the EUT
Brand name:ALCATEL
Model name:1660SM Rel.5.2B
Unique type identification:cod. 3AL 81407 ACAA
Serial N: Not applicable
Date of receipt:26thOctober 2004
Documentation submitted by the manufacturer: Technical Description 3AL 78911 0758 DSBUF.
3.2
Description of the EUTThe 1660SM Rel.5.2B is a synchronous multiplexing system which controls asynchronous tributaries (2Mbit/s,
34Mbit/s, 45Mbit/s, 140Mbit/s) and synchronous into a 155Mbit/s signal line (on optical fibre or cable), into a
622Mbit/s signal (on optical fibre) or into a 2488Mbit/s signal (on optical fibre) and Ethernet 10/100 interfaces
(cable) , Gb Ethernet interfaces (optical fiber) and ATM interfaces.
The EUT can be supplied by 4860 VDC battery. It can be installed in "TELECOMMUNICATION CENTRES"
location.
3.3
EUT Configuration
The configuration for the EMC tests, identified by the manufacturer is composed by:
Subrack 1660SM Shelf Code Pos.
N1 1660 SM SHELF 3AL78834AAAE
N2 BUS TERMINATION 3AL79088ACAA
N1 SERVICE I/F 3AL78817AAAF 11
N1 EQUIP. CONTROLLER EQUICOE 3AL78836ABAA 22
N1 STM16 Slim Port UP/SFP 3AL81289AAAA 33
N1 Optical Access 12xSTM1 3AL89669AAAA 8
N1 2xCH Transponder SFP W/O Optics 3AL81427AAAA 34
N1 ISA ES 16 Board 3AL81915AAAA 37
N1 ISA GBE Access 3AL80411ABAA 18
N2 Port 16xSTM1 - 4x STM4 3AL89668AAAA 29-30N1 MUX-DEMUX 8CH 3AL81348AAAA 2-3
N1 COADM 1CH (1550) 3AL81344AEAA 15-16
N1 COADM 2CH (1570) 3AL81346ACAA 13-14
N2 MATRIX ENH. 3AL81072AAAC 23-40
N2 Control and general I/F CONGI 3AL78830ADAA 10-12
N16 OPTO TRX SFP S-1.1 Plugin 1AB194670001 8-30
N4 OPTO TRX SFP S-4.1 Plugin 1AB196360001 29
N1 OPTO TRX SFP S-16.1 Plugin 1AB196370001 34
N3 OPTO TRX SFP L-16.1 Plugin 1AB196370004 33-34
N1 CWDM 1490NM ADP Plugin 1AB196350002 34
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N10 Dummy plate W20 3AN49397AAAA 1-9-17-21-26-27
28-31-32-41
N8 Dummy plate W40 3AN49589AAAA 4-5,6-7,13-14
15-16,19-20,24-25,35-36,38-39
FAN SHELF 19
Code
N1 FAN SHELF 19 3AL79773AAAA
N4 FAN UNIT FOR SHELF 19 3AL79772AAAC
N2 ANTI-DUST FILTER FOR SHELF 19 3AL80371AAAB
N.B. The 75 Ohm interfaces have the shield connected to ground.
3.4
Card Pre-setting Straps
All tests were performed with the electrical units set according to the default factory pre-setting as defined in the
product documentation.
3.5
Modifications incorporated in the EUT (not in the product documentation)
None.
3.6
Support Equipment
Description: SDH/PDH TEST SET
Brand name: HP
Model: 37724A
Serial:
Alcatel code: L67KWV08
Calibration expiry:Not included in the calibration plane.
Inter-connection cables:
Description: 155/622 MB/s OPTICAL INTERFACE 1310 nm.
Brand name: HP
Model: 37776A
Serial:Alcatel code: L36LTV01
Calibration expiry:Not included in the calibration plane.
Inter-connection cables: n2 optical fibres
Description: PDH/SDH ATM TEST SET
Brand name: HP
Model: 37717C
Serial:
Alcatel code: L67MMV02
Calibration expiry:Not included in the calibration plane.
Inter-connection cables: n2 optical fibres
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4
REFERENCE STANDARDS
The reference standards for this report are listed below.
1)
EN 55022: "LIMITS AND METHODS OF MEASUREMENT OF RADIO INTERFERENCE
CHARACTERISTICS OF INFORMATION TECHNOLOGY EQUIPMENT". [SEPTEMBER 1998]
1a) EN 55022/A1: "INFORMATION TECHNOLOGY EQUIPMENT, RADIO DISTURBANCE
CHARACTERISTICS, LIMITS AND METHODS OF MEASUREMENT". [OCTOBER 2001]
2)
EN 61000-4-2: "ELECTROMAGNETIC COMPATIBILITY, PART 4: TESTING AND MEASUREMENT
TECHNIQUES, SECTION 2: ELECTROSTATIC DISCHARGE IMMUNITY TEST". [MARCH 1995]
3)
EN 61000-4-3: "ELECTROMAGNETIC COMPATIBILITY, PART 4: TESTING AND MEASUREMENT
TECHNIQUES, SECTION 3: RADIATED, RADIO-FREQUENCY, ELECTROMAGNETIC FIELD
IMMUNITY TEST". [SEPTEMBER 1996]
3a) EN 61000-4-3/A1: "ELECTROMAGNETIC COMPATIBILITY, PART 4/3: TESTING AND
MEASUREMENT TECHNIQUES, SECTION 3: RADIATED, RADIO-FREQUENCY, ELECTROMAGNETIC
FIELD IMMUNITY TEST". [AUGUST 1998]
4)
EN 61000-4-4: "ELECTROMAGNETIC COMPATIBILITY, PART 4: TESTING AND MEASUREMENT
TECHNIQUES, SECTION 4: ELECTRICAL FAST TRANSIENTS/BURST IMMUNITY TEST". [MARCH
1995]
5)
EN 61000-4-5: "ELECTROMAGNETIC COMPATIBILITY, PART 4: TESTING AND MEASUREMENT
TECHNIQUES, SECTION 5: SURGE IMMUNITY TEST". [MARCH 1995]
6)
EN 61000-4-6: "ELECTROMAGNETIC COMPATIBILITY, PART 4: TESTING AND MEASUREMENT
TECHNIQUES, SECTION 6: IMMUNITY TO CONDUCTED DISTURBANCES, INDUCED BY RADIO
FREQUENCY FIELDS". [JULY 1996]
7)
EN 61000-4-8: "ELECTROMAGNETIC COMPATIBILITY (EMC) - PART 4: TESTING AND
MEASUREMENT TECHNIQUES- SECTION 8: POWER FREQUENCY MAGNETIC FIELD IMMUNITY
TEST". [SEPTEMBER 1993]
8)
ETSI EN 300 386 v1.3.2: "ELECTROMAGNETIC COMPATIBILITY AND RADIO SPECTRUM
MATTERS (ERM);TELECOMMUNICATIONS NETWORK EQUIPMENT; ELECTROMAGNETIC
COMPATIBILITY (EMC) REQUIREMENTS" [MAY 2003]
9)
ETSI ES 201 468 v1.2.1: "ELECTROMAGNETIC COMPATIBILITY AND RADIO SPECTRUM
MATTERS (ERM) ; ADDITIONAL ELECTROMAGNETIC COMPATIBILITY (EMC) REQUIREMENTS
AND RESISTIBILITY REQUIREMENTS FOR TELECOMMUNICATIONS EQUIPMENT FOR ENHANCED
AVAILABILITY OF SERVICE IN SPECIFIC APPLICATION" [SEPTEMBER 2002]
10)
CISPR 22: "INFORMATION TECHNOLOGY EQUIPMENT RADIO DISTURBANCE
CHARACTERISTICS-LIMITS AND METHODS OF MEASUREMENT. [NOVEMBER 1997]
11)
CISPR/I/105/CDV: : AMENDMENT OF CISPR 22 (EMISSION LIMITS AND METHOD OF
MEASUREMENT FROM 1GHz TO 6GHz). [2004]
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12)
CISPR/I/106/CDV: AMENDMENT OF CISPR 22 (EMISSION LIMITS AND METHOD OF
MEASUREMENT FROM 6GHz TO 18GHz). [2004]
13)
CISPR PUB. 16.1: "CISPR SPECIFICATION FOR RADIO INTERFERENCE MEASURING
APPARATUS AND MEASUREMENT METHODS - PART 1: RADIO DISTURBANCE AND IMMUNITY
MEASURING APPARATUS". [AUGUST 1993]
14)
CISPR PUB. 16.4: SPECIFICATION FOR RADIO DISTURBANCE AND IMMUNITY MEASURING
APPARATUS AND METHODS. - PART 4: UNCERTANTY IN EMC MEASUREMENTS [MAY 2002]
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5
EMISSION TESTS
5.1
RADIATED EMISSIONS TESTS (PLANE WAVE)
Date of tests:5thNovember 2004 Test performed by: G. Mangili
5.1.1
Test specification, methods and procedures
Test specifications:
- the test limits are defined in: EN 55022 [Reference 1]
- the test method is defined in: EN 55022 [Reference 1]
Test method:
The test was performed according to EN 55022. The worst emission was searched with several cables position.
The receiving antenna was placed at distance of 10 m from the EUT border with scanning in height from 1 to 4 m.
The EUT was turned from 0to 360.The test was performed in the semi-anechoic chamber whose characteristics are reported in the paragraph 9.
Test lay out:
The EUT was placed on an isolated table at 0.1m from ground floor.
The EUT configuration was provided by the customer. The ports were connected with the cables specified in the
product Technical Description (3AL 78911 0758 DSBUF).
The test lay out is in the Annex 2, figure B.
5.1.2
Test configuration
5.1.2.1
Environmental conditions:
Temperature 21C, Humidity 50%
5.1.2.2
Operating voltage:
The EUT input voltage was -48VDC
5.1.2.3
Operating mode:
The test was performed with the optical stream cables connected to the SDH/PDH TEST SET.
The block scheme of the EUT configuration is in the annex 2 figure A.
5.1.2.4
Line attenuation:
None
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5.1.2.5
Support equipment:
ANT-20 WANDEL & GOLTERMANN
5.1.2.6
Cable lengths:
The length of cables are:
Signal Number and type of cable Code Length
Battery Interface Sub.
1660 SM
N 2 shielded bipolar
cables041.931.031 2.5 m
Battery Interface Fan shelf N 2 shielded bipolar cable 041.931.031 2.5 m
GB Ethernet interfaceN 5 optical fibres multi
mode
Optical interface STM-1 N 17 optical fibres singlemode
Optical interface STM-4N 5 optical fibre single
mode
Optical interface STM-16N 5 optical fibre single
mode
Ground connection N 1 cable
5.1.3
Tests results
The maximum emissions are shown in Annex 1 figures1.1 and 1.2.
The test result is in COMPLIANCEto the requirements of the standard EN 55022 class A as the emissions are
under the quasi-peak limits with a margin higher than the uncertainty interval.
The uncertainty interval "U", based on the 95% level of confidence (determined with the procedure N 8BP400500016URBUF, Annex 1, of this laboratory based on the CISPR 16-4), is:
frequency range Polarisation uncertainty
30 MHz - 200 MHz Horizontal +4.2dB / -4.1dB
30 MHz - 200 MHz Vertical +4.5dB / -4.4dB
200 MHz - 1000 MHz Horizontal and Vertical 3.6dB
For test instrumentation and their uncertainties, see paragraph 8.
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5.2
RADIATED EMISSIONS TESTS (PLANE WAVE) 1 - 18 GHz
Date of tests:24thNovember 2004 Test performed by: G. Mangili
5.2.1
Test specification, methods and procedures
Test specifications:
- the test limits are defined in: CISPR/I/105/CDV 1GHz-6GHz (amendment of CISPR 22) [Reference 11]
CISPR/I/106/CDV 6GHz-18GHz (amendment of CISPR 22) [Reference 12]
- the test method is defined in: CISPR/I/105/CDV 1GHz-6GHz (amendment of CISPR 22) [Reference 11]
CISPR/I/106/CDV 6GHz-18GHz (amendment of CISPR 22) [Reference 12]
Test method:
The test was performed according to the CISPR/I/105/CDV and CISPR/I/106/CDV with the receiving antennaplaced at a distance of 3m from the border of the EUT. The antenna was a double-ridged, with peak-detector
(1MHz of resolution bandwidth) as requested by the CISPR/I/105/CDV and CISPR/I/106/CDV. This test was
performed with antenna height of 1m and turning the EUT from 0 to 360.
The test was performed in the semi-anechoic chamber whose characteristics are reported in the paragraph 9.
Additional RF absorber were placed on the floor to guarantee free-reflection conditions as requested by the
reference document.
Test lay out:
The EUT was placed on an isolated table at 0.1m from ground floor.
The EUT configuration was provided by the customer. The ports were connected with the cables specified in the
product Technical Description (3AL 78911 0758 DSBUF).
The test lay out is in the Annex 2, figure C.
5.2.2
Test configuration
5.2.2.1
Environmental conditions:
Temperature 20C, Humidity 53%
5.2.2.2
Operating voltage:
The EUT input voltage was -48VDC
5.2.2.3
Operating mode:
See paragraph 5.1.2.3.
5.2.2.4
Line attenuation:
None
5.2.2.5
Support equipment:
See paragraph 5.1.2.5.
5.2.2.6
Cable lengths:
See paragraph 5.1.2.6.
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5.2.3
Tests results
The test result is in COMPLIANCE to the requirements of the documents CISPR/I/105/CDV and
CISPR/I/106/CDV as the emissions are under the peak and the average limits (peak detector) with a margin higher
than the uncertainty interval.
The uncertainty interval, based on the 95% level of confidence (determined with the procedure N8BP400500016URBUF, Annex 1, of this laboratory based on the document CISPR 16-4), is:
frequency range 1.0 GHz - 2.9 GHz +2,7dB / -2,8dB
frequency range 2.9 GHz - 6,5 GHz +3,4dB / -3,6dB
frequency range 6,5 GHz - 13,2 GHz +4.2dB / -4.8dB
frequency range 13,2 GHz - 18 GHz +4.2dB / -4.5dB
The maximum emissions are shown in the graphs in Annex 1, figure 1.3 .
For test instrumentation and their uncertainties, see paragraph 8.
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5.3
CONDUCTED EMISSIONS
5.3.1
EMISSION TESTS ON POWER CABLES
Date of tests:8thNovember 2004 Test performed by: G. Mangili
5.3.1.1
Test specification, methods and procedures
Test specification:
- the test limits are defined in: EN 55022 [Reference 1]
- the test method is defined in: EN 55022 [Reference 1]
Test method:
The test was performed with the LISN (Line Impedance Stabilisation Network) defined in the EN 55022
[Reference 1].
Test lay out:
The EUT configuration was provided by the customer. The ports were connected with the cables specified in the
product Technical Description (3AL 78911 0758 DSBUF).
The test lay out is in the Annex 2, figure D.
5.3.1.2
Test configuration
5.3.1.2.1
Environmental conditions:
Temperature 21C, Humidity 51%
5.3.1.2.2
Operating voltage:The EUT input voltage was -48VDC
5.3.1.2.3
Operating mode:
See paragraph 5.1.2.3.
5.3.1.2.4
Line attenuation:
None
5.3.1.2.5
Support equipment:
See paragraph 5.1.2.5.
5.3.1.2.6
Cable lengths:See paragraph 5.1.2.6.
5.3.1.3
Tests results
The maximum emissions are shown in Annex 1 figures 1.4 and 1.5.
The test is in COMPLIANCEto the requirements of the standard EN 55022 class A as the emissions are under
the average and quasi-peak limits with a margin higher than the uncertainty interval.
The uncertainty interval, based on the 95% level of confidence (determined with the procedure N8BP400500016URBUF, Annex 2, of this laboratory), is:
frequency range 150 kHz - 30 MHz 3.0 dB
For test instrumentation and their uncertainties, see paragraph 8.
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6
IMMUNITY TESTS
The EUT interfaces monitored during the immunity tests are:
N.1 channel 155Mbit/s optical stream connected to HP37724A
N.1 channel 622Mbit/s optical stream connected to HP37717C
Local alarms on frontal unit (LED's).
6.1
PERFORMANCE CRITERIA OF SIGNAL INTERFACE
The performance criteria applied, derived from the EN 300386 V1.3.2 (ed.05/2003) valid also for the document
ETSI ES 201468 v1.2.1 (ed. 09/2002) (see NOTE 1) and from customer's specifications, are the following:
- Performance criterion A (continuous phenomena)
The EUT has to operate correctly without signal and software degradation during and after the test.
155 and 622Mbit/s optical stream: no bit errors, loss of frame or loss of synchronisation are allowed during andafter the test.
During Conducted Immunity tests some signal degradation is allowed (additional errors) if the system is adaptive
that is, testing again with interfering signal in the frequency range where degradation was verified, the system re-
trains.
Because the customer has not declared that the system is adaptive, during Conducted Immunity tests some signal
degradation is not allowed.
Alarm interface: no alarms or false alarms are allowed during and after the test.
- Performance criterion B (transient phenomena)
The EUT has to operate correctly without signal and software degradation after the application of the test.
155 and 622Mbit/s optical stream: no loss of frame or loss of synchronisation are allowed during and after the
test.
-This doesn't apply to surge testing where some loss of frame alignment may be expected. However, the EUT
shall continue to operate as intended after the test
Alarm interface: no alarms or false alarms are allowed after the test.
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6.2
RADIATED IMMUNITY TESTS (80MHz2GHz)
Date of tests: 26thOctober 2004 Test performed by: G.Mangili
6.2.1
Test specification, methods and procedures
Test specification:
- the test levels are defined in: ETSI EN 300 386 [Reference 8]
ETSI ES 201 468 [Reference 9]
- the test method is defined in: EN 61000-4-3 [Reference 3]
EN 61000-4-3/A1 [Reference 3a]
Test method:
The test method applied is defined in the basic standard EN 61000-4-3+A1.
The graphs concerning the field distribution on the 16 points defined by the standard EN 61000-4-3 are available
by this laboratory.The distance between the antennas and the centre of the volume occupied by the EUT was 3m.
The field calibration was performed without modulation of the signal, whereas the test was carried out with 80%
AM modulated with 1kHz. The frequencies increment steps were 1% of the fundamental.
The EUT performances are assessed by monitoring the ports defined in the paragraph 6 of this report.
Test lay out:
The EUT configuration was provided by the customer. The ports were connected with the cables specified in the
product Technical Description (3AL 78911 0758 DSBUF).
The test lay out is in the Annex 2, figure E for the frequency range 80MHz-1000MHz, and figure F for the
frequency range 1GHz-2GHz.
6.2.2
Test configuration
6.2.2.1
Environmental conditions:
Temperature 22C, Humidity 47%
6.2.2.2
Operating voltage:
The EUT input voltage was -48VDC
6.2.2.3
Operating mode:
See paragraph 5.1.2.3.
6.2.2.4
Line attenuation:None
6.2.2.5
Support equipment:
See paragraph 5.1.2.5.
6.2.2.6
Cable lengths:
See paragraph 5.1.2.6.
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6.2.3
Tests results
The EUT operated correctly as intended without signal and software degradation.
The test result is in COMPLIANCE with the performance Criterion A for interference level of 10V/m, as
requested by the standard ETSI EN 300386 v1.3.2 and the document ETSI ES 201468 v1.2.1 for voluntary
requirements (Level 2 for TLC centres).
The field was calibrated in horizontal and vertical polarisation with field intensity of 0/+6dB on the nominal
value. The reading uncertainty of the field sensor is:
HORIZONTAL POSITION
frequency range 80MHz - 2000MHz 2.0dB
VERTICAL POSITION
frequency range 80MHz - 2000MHz 2.0dB
For test instrumentation and measurement uncertainty, see paragraph 8.
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6.3
POWER FREQUENCY MAGNETIC FIELD
Date of tests:29th
October 2004 Test performed by: G.Mangili
6.3.1.1
Test specification, methods and procedures
Test specification:
- the test levels are defined in: ETSI ES 201 468 [Reference 9]
- the test methods are defined in: EN 61000-4-8 [Reference 7]
Test method:
The calibration of the interfering magnetic field was carried out in absence of the EUT, using a magnetic field
meter placed in the centre of the induction coil. The magnetic field was calibrated in order to guarantee the field
intensity level requested. The interfering field was applied to the EUT by the immersion method (according to the
sub-clause 4.4 of the basic standard), placing the coil on each orthogonal axis.The EUT performances are assessed by monitoring the ports defined in the paragraph 6 of this report.
Test lay out:
The test lay out is in the Annex 2, figure G.
6.3.1.2
Test configuration
6.3.1.2.1
Environmental conditions:
Temperature 21C, Humidity 50%
6.3.1.2.2
Operating voltage:The EUT input voltage was -48VDC
6.3.1.2.3
Operating mode:
See paragraph 5.1.2.3.
6.3.1.2.4
Line attenuation:
None
6.3.1.2.5
Support equipment:
See paragraph 5.1.2.5.
6.3.1.2.6
Cable lengths:See paragraph 5.1.2.6.
6.3.1.3
Tests results
The EUT continued to operate correctly as intended without signal or software degradation. The test result is in
COMPLIANCEwith the performance criterion A for magnetic field intensity of 3 A/m, as requested by the
document ETSI ES 201468 v1.2.1, voluntary requirements "level 2".
Furthermore the field intensity was increased till 30 A/m and the EUT continued to operate correctly as intended
without signal or software degradation, in compliance to the performance criterion A.
The current generator used is within the tolerance of 8%, as defined in the basic standard EN 61000-4-8.
For test instrumentation and their uncertainties, see paragraph 8.
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6.4
CONDUCTED IMMUNITY TESTS
6.4.1
IMMUNITY TESTS ON DC POWER CABLES
Date of tests: EFT 28thOctober 2004 CW 29
thOctober 2004 Test performed by: G.Mangili
6.4.1.1
Test specification, methods and procedures
Test specification:
- the test levels are defined in: ETSI EN 300386 [Reference 8]
ETSI ES 201 468 [Reference 9]
the test methods are defined in:
EFT (Electrical Fast Transient) EN 61000-4-4 [Reference 4]
CW (Continuous Wave) 150KHz-80MHz EN 61000-4-6 [Reference 6]
The tests were performed on the DC power cables. Each cable was tested separately.
Test method:
- EFT (Electrical Fast Transient): the EFT's were injected into the wires at a distance of 1m from the EUT
power input. The interference was injected in common mode for 2 minutes in each polarity. The reference test
method is in the basic standard EN61000-4-4, sub-clause 7.2.2 "Methods of coupling the test voltage to the EUT:
power supply lines".
- CW (Continuous Wave) 150kHz-80MHz:the interfering signal was injected into the wires at 0.3m from the
EUT power input port, with the equipment floating from the ground. The interference was injected using theCDN-M2 according to the method described in the basic standard EN61000-4-6 sub-clause 6.2.2 "Coupling and
decoupling network".
The interfering signal was 80% AM modulated with 1kHz.
The frequencies increment steps were 1% of the fundamental.
The EUT performances are assessed by monitoring the ports defined in the paragraph 6 of this report.
Test lay out:
The test lay out is in the Annex 2, figures H (EFT) and I (CW).
6.4.1.2
Test configuration
6.4.1.2.1
Environmental conditions:
EFT Temperature 21C, Humidity 52%
CW Temperature 21C, Humidity 50%
6.4.1.2.2
Operating voltage:
The EUT input voltage was -48VDC
6.4.1.2.3
Operating mode:
See paragraph 5.1.2.3.
6.4.1.2.4
Line attenuation:
None
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6.4.1.2.5
Support equipment:
See paragraph 5.1.2.5.
6.4.1.2.6
Cable lengths:
See paragraph 5.1.2.6.
6.4.1.3
Tests results
- EFT (Electrical Fast Transients):
The EUT continued to operate correctly as intended without signal or software degradation.
The test result is in COMPLIANCEwith the performance criterion A for interference of 0.5kV. For this test the
standard ETSI EN 300386 v1.3.2 requests the performance criterion B, while the EUT is compliant with the more
severe performance criterion A.
Furthermore the EUT is in COMPLIANCEwith the performance Criterion A for interference level of 1.0kV.
For this test the document ETSI ES 201468 v1.2.1, for voluntary requirements (Level 2 for TLC centres), requests
the performance criterion B, while the EUT is compliant with the more severe performance criterion A.
The pulse characteristics have been measured at the output of the generator and are within the tolerance of 10%,as defined in the basic standard EN 61000-4-4.
- CW (Continuous Wave) 150kHz - 80MHz:
The EUT continued to operate correctly as intended without signal or software degradation.
The test result is in COMPLIANCEwith the performance criterion A for interference of 3V (rms), as requested
by the standard ETSI EN 300386 v1.3.2.
Furthermore the EUT is in COMPLIANCEwith the performance criterion A for interference level of 10V (rms),
as requested by the document ETSI ES 201468 v1.2.1, for voluntary requirements (Level 2 for TLC centres).
The interfering signal was calibrated with an uncertainty interval, based on the 95% level of confidence
determined with the procedure N 8BP400500016URBUF, Annex 4, of this laboratory.
The calibration uncertainty of the interference voltage is:
frequency range 150 kHz - 80 MHz 1.6 dB
For test instrumentation and their uncertainties, see paragraph 8.
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6.5
ELECTROSTATIC DISCHARGES (ESD)
Date of tests: 28thOctober 2004 Test performed by: G.Mangili
6.5.1
Test specification, methods and procedures
Test specification:
- the test limits are defined in: ETSI EN 300 386 [Reference 8]
- the test method is defined in: EN 61000-4-2 [Reference 2]
Test method:
The EUT was tested with the following methods:
Direct discharges: the direct discharges were applied to the points and surfaces of the EUT that are
accessible to personnel during normal usage.
Each accessible point was tested with 10 discharges with positive polarity and 10 discharges with negative
polarity. Air discharges were applied on not conductive points, while contact discharges were applied onconductive points according to the sub-clause 8.3.1 of the basic standard EN61000-4-2.
Indirect discharges: according to the sub-clause 8.3.2 of the basic standard EN61000-4-2, the ESD were
applied to a vertical coupling plane through a contact discharge adapter. The vertical coupling plane (0.5m x
0.5m dimensions) was placed parallel to, and positioned at a distance of 0.1m, from each side of the EUT.
On each side of the EUT were applied 10 discharges with positive polarity and 10 discharges with negative
polarity.
The ESD were not applied to pins of non-cabled connectors and to local monitoring ports as these are protected
by proper caps.
The EUT performances are assessed by monitoring the ports defined in the paragraph 6 of this report.
Test lay out:
The test lay out is in the Annex 2, figures L and M.
6.5.2
Test configuration
6.5.2.1
Environmental conditions:
Temperature 21C, Humidity 52%
6.5.2.2
Operating voltage:
The EUT input voltage was -48VDC
6.5.2.3
Operating mode:
See paragraph 5.1.2.3.
6.5.2.4
Line attenuation:
None
6.5.2.5
Support equipment:
See paragraph 5.1.2.5.
6.5.2.6
Cable lengths:
See paragraph 5.1.2.6.
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6.5.3
Tested points
The EUT tested points are:
DIRECT DISCHARGES ON NOT CONDUCTIVE SURFACES
-
Painted enclosure surfaces
- Extraction levers.
- LED's on frontal unit.
- Plastic push button on frontal unit.
- Plastic cover on uncabled BNC connector
- Plastic cover on uncabled RS232 connector
DIRECT DISCHARGES ON CONDUCTIVE SURFACES
- Cover on wired connector (48VDC power supply)
-
Mechanical ground- Unit screws
- Frontal units
INDIRECT DISCHARGES
- Vertical coupling plane.
6.5.4
Tests results
The EUT was in COMPLIANCEto the more severe performance criterion A for Air discharges level of 4kV
and for Contact discharges level of 4kV, instead of the performance criterion B as requested by the standard
ETSI EN 300386 v1.3.2.Furthermore the EUT is COMPLIANCEto the more severe performance Criterion A for Air discharges level of
8kV and for Contact discharges level of 6kV, instead of the performance criterion B as requested by the
document ETS ES 201468 v1.2.1 for voluntary requirements (Level 2 for TLC centres).
The tolerances of the generator are according to the basic standard EN61000-4-2:
DC output voltage: 5%,
Pulse: Peak current 10%, rise time: 10%, curve decay point at 30 and 60ns: 30%.
For test instrumentation and their uncertainty, see paragraph 8.
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7
SUMMARY OF THE TESTS RESULTS
7.1
Mandatory Emission requirements.
Reference of the Harmonised standard: EN 300386 V1.3.2 (ed.05/2003) Location: TLC Centres
PHENOMENONBASIC
STANDARDSREQUIREMENTS
COMPLIANCE
CLASS
FIG. RESULT
GRAPHSNOTE
AC POWER CABLES
0,15 MHZ-30 MHzEN 55022
Required in the
EN 300386 V1.3.2
Par.6.1
Limits defined in the
EN 55022 Tab.2
N.A. N.A. 2)
DC POWER PORTS
0,15 MHZ-30 MHzEN 55022
Required in the
EN 300386 V1.3.2
Par.6.1
Limits defined in the
EN 55022 Tab.2
COMPLIANCE Fig. 1.4, 1.5CONDUCTED
EMISSIONS
TELECOMMUNICATIONPORTS
EN 55022
Required in the
EN 300386 V1.3.2Par.6.1
Limits defined in the
EN 55022 Tab.4
N.A. N.A.
HARMONICS AC POWER PORTS EN 61000-3-2
Required in the
EN 300386V1.3.2par.6.1
Requirements
See basic std.
N.A. N.A. 2)
VOLTAGE
FLUCTUATIONAC POWER PORTS EN 61000-3-3
Required in the
EN 300386V1.3.2par.6.1
Requirements
See basic std.
N.A. N.A. 2)
RADIATED
EMISSIONS
PLANE WAVE
30 MHz - 1 GHzEN 55022+A1
Required in the
EN 300386 V1.3.2Par.6.1
Limits defined in the
EN 55022 Tab.6
COMPLIANCE Fig. 1.1, 1.2 1)
NOTE:
1) In the configuration of the apparatus under test has been applied the standard EN 55022/A1 (ed.10/2001),
requested for floor-standing equipment; about other tests we referred to the standard EN 55022 (ed.09/98).
2) N.A: Not Applicable because the apparatus is DC power supply.
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7.2
Mandatory Immunity requirements.
Reference of the Harmonised standard: EN 300386 V1.3.2 (ed.05/2003) Location: TLC Centres
TEST LEVELPHENOMENON
BASIC
STANDARDSREQUIREMENTS RESULTS
REF.COMPL.
CRITER.
RESULTCOMPL.
CRITER.
NOTE
ELECTROSTATIC
DISCHARGES (ESD)EN 61000-4-2
4 kV cont.
4 kV air
4 kV cont.
4 kV air
COMPLIANCE
B
B
A
A
RADIATED IMMUNITY (80-2000MHz) EN 61000-4-3+A1
80-800MHz 3 V/m
800-960MHz 10 V/m
960-1000MHz 3 V/m
1.4-2.0GHz 10 V/m
10 V/m
10 V/m
10 V/m
10 V/m
COMPLIANCE
A
A
A
A
A
A
A
A
AC POWER
PORTS EN 61000-4-4 1.0 kV N.A. B N.A. 2)
DC POWER
PORTSEN 61000-4-4 0.5 kV
0.5 kV
COMPLIANCEB A
INDOOR SIGNAL
CABLESEN 61000-4-4 0.5 kV N.A. B N.A. 3)
ELECTRICAL
FAST
TRANSIENT
(EFT)
OUTDOOR
SIGNAL CABLESEN 61000-4-4 0.5 kV N.A. B N.A. 1)
INDOOR SIGNAL
CABLES1.2s/50s
EN 61000-4-5 0.5 kV N.A. B N.A. 3)
OUTDOOR
SIGNAL CABLES1.2s/50s
EN 61000-4-5 1.0 kV N.A. B N.A. 1)SURGES
AC POWER
PORTS1.2s/50s
EN 61000-4-5
0.5 kV (line to line.)
1.0 kV(line to
ground)
N.A.B
BN.A. 2)
VOLTAGE DIPS
and SHORT
INTERRUPTIONS
AC POWER
PORTSEN 61000-4-11
>95% 10 ms
30% 500 ms
>95% 5000ms
N.A.
B
C
C
N.A. 2)
POWER CABLES
(DC)EN 61000-4-6 3 V
3 V
COMPLIANCEA A
POWER CABLES
(AC)EN 61000-4-6 3 V N.A. A N.A. 2)
OUTDOOR
SIGNAL CABLESEN 61000-4-6 3 V N.A. A N.A. 1)
CONDUCTED
IMMUNITY
CW
(0.15-80 MHz)
INDOOR SIGNAL
CABLESEN 61000-4-6 3 V N.A. A N.A. 3)
NOTE:
1) N.A.: Not Applicable because no cable is considered "OUTDOOR SIGNAL LINE".
2) N.A.: Not Applicable because the apparatus is DC power supply.
3) N.A.: Not Applicable because no cable is considered "INDOOR SIGNAL LINE".
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7.3
Voluntary Emission requirements.
EMISSION REQUIREMENTS
The requirements of the reference documentETSI ES 201468 V1.2.1 (ed.09/2002) are the same of the Standard
EN 300386 V1.3.2 (ed.05/2003).
Reference document: CISPR/I/105/CDV and CISPR/I/106/CDV (ed. 2004) Location: TLC Centres
PHENOMENON BASICSTANDARDS
REQUIREMENTS COMPLIANCECLASS
FIG. RESULTGRAPHS
NOTE
RADIATED
EMISSIONS
PLANE WAVE
1 GHz -18 GHz
CISPR/I/105/CDV
CISPR/I/106/CDV
Limits defined in
table 7
COMPLIANCE
Tab.7Fig. 1.3
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7.4
Voluntary Immunity requirements.
Reference document: ETSI ES 201468 V1.2.1(ed. 09-2002) Level 2 - Location: TLC Centres
TEST LEVELPHENOMENON
BASIC
STANDARDSREQUIREMENTS RESULTS
REF.COMPL.
CRITER.
RESULTCOMPL.
CRITER.
NOTE
ELECTROSTATIC
DISCHARGES (ESD)EN 61000-4-2
6 kV cont.
8 kV air
6 kV cont.
8 kV air
COMPLIANCE
B
B
A
A
RADIATED IMMUNITY (80-2000MHz) EN 61000-4-3 10 V/m10 V/m
COMPLIANCEA A
POWER FREQUENCY
MAGNETIC FIELDEN 61000-4-8 3 A/m (rms)
30 A/m (rms)
COMPLIANCEA A
AC POWER PORTS EN 61000-4-4 2.0 kV N.A. B N.A. 3)
DC POWER PORTS EN 61000-4-4 1.0 kV1.0 kV
COMPLIANCEB A
INDOOR SIGNAL
CABLESEN 61000-4-4 1.0 kV N.A. B N.A. 4)
ELECTRICAL
FAST
TRANSIENT
(EFT)
OUTDOOR SIGNAL
CABLESEN 61000-4-4 1.0 kV N.A. B N.A. 1)
INDOOR SIGNALCABLES 1.2s/50s
EN 61000-4-5 0.5 kV N.A. B N.A. 4)
EN 61000-4-5 1.0 kV) N.A.B
BN.A. 1)
OUTDOOR
SIGNAL LINES
1.2s/50s
(10s/700s for ITU-T K20)
ITU-T K204.0 kV
1.0 kV N.A.R
R N.A. 1)
SURGES
AC POWERPORTS 1.2s/50s
EN 61000-4-5
1.0 kV (line to line)
2.0 kV (line to
ground)
N.A.B
BN.A. 3)
PERMANENT
POWER
INDUCTION
OUTDOOR
SIGNAL
CABLES
ITU-T K54
60 V,
15 min,
50/162/3 Hz
N.A. A N.A. 1)
POWER
INDUCTION
OUTDOOR
SIGNAL
CABLES
ITU-T K20
600 V,
200 ms,
50 Hz
N.A. R N.A.1)
2)
VOLTAGE DIPS and
SHORT
INTERRUPTIONS
AC POWER PORTS EN 61000-4-11
>95% 10 ms
30% 500 ms
>95% 5000ms
N.A.
B
C
C
N.A. 3)
AC POWER PORTS EN 61000-4-6 10 V N.A. A N.A. 3)
DC POWER PORTS EN 61000-4-6 10 V10 V
COMPLIANCEA A
OUTDOOR SIGNAL
CABLESEN 61000-4-6 10 V N.A. A N.A. 1)
CONDUCTED
IMMUNITY CW
(0.15-80 MHz)
INDOOR SIGNAL
CABLESEN 61000-4-6 10 V N.A. A N.A. 4)
NOTE: 1) N.A.: Not Applicable because no cable is considered "OUTDOOR SIGNAL LINE".
2) Resistibility Tests are not mandatory for the compliance to the EMC Directive.3) N.A.: Not Applicable because the apparatus is DC power supply.
4) N.A.: Not Applicable because no cable is considered "INDOOR SIGNAL LINE".
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TEST INSTRUMENTATION
7.5
Radiated emission tests
These tests were carried out in the semi-anechoic chamber, see paragraph 9 for characteristics.
Test instrumentation (30-1000 MHz):
INSTRUMENT MODEL ALCATEL CODE
- SPECTRUM ANALYZER .100Hz-22GHz HP 8566B 16712A04
- PRESELECTOR 20Hz-2GHz HP 85685A 19816A00
- QP ADAPTER 9kHz-1GHz HP 85650A 16642A00
- BICONICAL ANTENNA EMCO 3108 L98DC001
- LOG PERIODIC ANTENNA EMCO 3146 L98CZ003
- PRE AMPLIFIER HP 8447D L05CC001
- PRE AMPLIFIER ELECTRO-METRICS BPA-1000 L05CY002
- COAXIAL CABLE CAVO 1
- COAXIAL CABLE CAVO 6
- COAXIAL CABLE CAVO 7
Test instrumentation (1-18 GHz):
INSTRUMENT MODEL ALCATEL CODE
- SPECTRUM ANALYZER .100Hz-22GHz HP 8566B 16712A04
- PRESELECTOR 20Hz-2GHz HP 85685A 19816A00
- QP ADAPTER 9kHz-1GHz HP 85650A 16642A00
- DOUBLE-RIDGED ANTENNA ELECTRO-METRICS RGA-60 L98HXV01
- LOW NOISE PREAMPLIFIER.1-18 GHz. BONN.BLMA 0118-1A 404604600
- COAXIAL CABLE CAVO 41
- COAXIAL CABLE CAVO 42
INSTRUMENTATION UNCERTAINTY (30-1000 MHz):
-
SPECTRUM ANALYSER Amplitude accuracy = 1dB- BICONICAL ANTENNA Calibration accuracy = 0.9dB
- LOG PERIODIC ANTENNA Calibration accuracy = 1dB
- COAXIAL CABLES Calibration accuracy = 1.1dB
INSTRUMENTATION UNCERTAINTY (1-18 GHz):
- SPECTRUM ANALYSER Amplitude accuracy (1GHz - 2.9GHz) = 0.8dB
- Amplitude accuracy (2.9GHz - 6.5GHz) = 1.4dB
- Amplitude accuracy (6.5GHz - 13.2GHz) = 2.2dB
- Amplitude accuracy (13.2GHz - 18GHz) = 2.5dB
- DOUBLE-RIDGED ANTENNA Calibration accuracy = 0.8dB
- COAXIAL CABLES Calibration accuracy = 1.1dB
7.6
Conducted emission tests
DC Ports
These tests were carried out in the semi-anechoic chamber, see paragraph 9 for characteristics.
INSTRUMENT MODEL ALCATEL CODE
- SPECTRUM ANALYZER .100Hz-22GHz HP 8566B 16712A04
- PRESELECTOR 20Hz-2GHz HP 85685A 19816A00
- QP ADAPTER 9kHz-1GHz HP 85650A 16642A00
- V-NETWORK LISN R&S ESH 3-Z5 L65AT002
- COAXIAL CABLE CAV 53
- COAXIAL CABLE CAV 56
INSTRUMENTATION UNCERTAINTY:
-
SPECTRUM ANALYSER Amplitude accuracy = 1dB- V-NETWORK LISN Tolerance on the impedance curve = 20%
- COAXIAL CABLES Calibration accuracy = 1.1dB
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7.7
Radiated immunity tests
These tests were carried out in the anechoic chamber, see paragraph 9 for characteristics. During this test, in the
frequency range 1GHz-2GHz, additional absorbers were placed on the floor in order to get the field uniformity as
requested by the basic standard EN61000-4-3.
Test instrumentation (80-1000 MHz):
INSTRUMENT MODEL ALCATEL CODE
- CW GENERATOR MARCONI 2030 VI610612
- POWER AMPLIFIER IFI M406 L05CU001
- POWER AMPLIFIER AR 200W 1000M7A VI615395
- BICONICAL ANTENNA EMCO 3109 403754900
- LOG PERIODIC ANTENNA EMCO 3146 L98CZ002
- FIELD PROBE HOLIDAY FP 3000 L40DN001
- COAXIAL CABLE CAV 19
- COAXIAL CABLE CAV 21
Test instrumentation (1-2 GHz):
INSTRUMENT MODEL ALCATEL CODE
- SYNTHESISED SWEEPER HP 83620A L34N2V01
- POWER METER HP 438A L28BRD03
- POWER TWT AMPLIFIER LOGIMETRICS A610/L VI615398
- CONTROL UNIT LOGIMETRICS MICROPROCESSOR VI616753
- HORN ANTENNA LOGIMETRICS AN 8200 C VI616752
- ISOTROPIC FIELD PROBE AR FP 2080 VI616749
- ISOTROPIC FIELD MONITOR AR FM 2000 VI616745
- COAXIAL CABLE CAV 32
- COAXIAL CABLE CAV 33
INSTRUMENTATION UNCERTAINTY (80-1000 MHz):- FIELD PROBE Calibration accuracy = 2.0dB on three orthogonal axes
INSTRUMENTATION UNCERTAINTY (1-2 GHz):- ISOTROPIC FIELD PROBE Calibration accuracy = 1.1dB on three orthogonal axes
7.8
Power Frequency MAGNETIC FIELD
INSTRUMENT MODEL ALCATEL CODE
- ELF MAGNETIC FIELD METER HOLADAY HI-3627 3-AXIS VI623764
- MAGNETIC FIELD GENERATOR DANA DAS-G 120 VI616422
- INDUCTION COIL DANA DAS-S 120 (dimension 1x1 m)
INSTRUMENTATION UNCERTAINTY:- MAGNETIC FIELD METER Calibration accuracy (at the calibration frequency) = 5%
(According to EN 61000-4-8 requirements:
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7.9
Conducted immunity tests
Electrical Fast Transients (EFT):
INSTRUMENT MODEL ALCATEL CODE- EFT GENERATOR EM TEST EFT 500 VI624893
- COUPLER/DECOUPLER EM TEST CNI 503 VI624893
- HIGH VOLTAGE PROBE TEKTRONIX P6015A L60C7V03
- OSCILLOSCOPE TEKTRONIX 620A L35GBV01
- COAXIAL CABLE CAV 51
INSTRUMENTATION UNCERTAINTY:
- EFT GENERATOR Rise time = CHARACTERISTICS ACCORDING
- (Open circuit voltage) Pulse duration = TO EFT IMMUNITY TEST
- Burst period = (EN61000-4-4)
- OSCILLOSCOPE Vertical accuracy = 1%
Time base accuracy = 0,01%
Continuous wave (CW):
INSTRUMENT MODEL ALCATEL CODE
- SYNTHESISED GENERATOR 8662A Agilent L34PJV01
- POWER AMPLIFIER AR 75A250 VI615396
- POWER METER E 4419B L28MQV02
- POWER METER Agilent E4419B L28MQV02
- CDN 2 pole 25A, freq.150kHz230MHz 801-M2-25 FCC VI605532
- CURRENT PROBE (monitoring probe) SCHAFFNER CSP 8455 403749300
- ATTENUATOR (10dB) WEINSCHEL CORP 341034 BJ7046
- ATTENUATOR (10dB) WEINSCHEL CORP 341034 BJ7047
- COAXIAL CABLE CAV 14
-
INSTRUMENTATION UNCERTAINTY:
-
CDN 2 pole 25A 801-M2-25 FCC Calibration Accuracy = 2.0dB
- COAXIAL CABLE Calibration Accuracy = 1.1dB
7.10
ESD test
INSTRUMENT MODEL ALCATEL CODE
- ESD SIMULATOR SCHAFFNER NSG 435 L34NLV01
- VCP 0.5m x 0.5m + n2 RESISTORS (470K) ALCATEL
INSTRUMENTATION UNCERTAINTY:
- ESD SIMULATOR Tolerance of the output voltage = 10%
(According to ESD EN 61000-4-2)
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8
TEST SITE CHARACTERISTICS
8.1
TEN METERS SEMI ANECHOIC CHAMBER
The test site is a shielded semi-anechoic chamber with the following characteristics:
Internal size (distance between walls, absorber to absorber): 17.1m (l) x 10.1m (w) x 7.45m (h)
RF attenuation in accordance to MIL STD 285
magnetic field 70dB at 15kHz, 100dB at 100kHz to 10MHz
electric field > 100dB 15KHz to 100MHz
plane wave > 100dB 500MHz to 18GHz
The chamber is a ground reflection design without absorber on the working floor surface.
Thus, the chamber test environment can be related to an open area reflection test site. The site attenuation of the
chamber is available in this laboratory.
The test room is completed with the turntable and the antenna position mast.
Measurement instrumentation is located in a shielded control room.
For radiated immunity test the field uniformity is guaranteed over 75% of surface (1.5m x 1.5m, 0.8m above
ground plane) with 42 pcs of ferrite plate absorber, installed on floor.
8.2
THREE METERS FULLY ANECHOIC CHAMBER
The test site is a shielded fully anechoic chamber with the following
characteristics:
Internal size: 6.42m (l) x 3.97m (w) x 4.05m (h)
RF attenuation in accordance to MIL STD 285
magnetic field 50dB at 10kHz, 60dB at 100kHz
electric field > 90dB
plane wave > 90dB up to 1GHz
For radiated emission test (frequency range 1-18 GHz) additional absorbers were placed on the floor in order to
rely on free-reflection conditions, as requested by the reference document.
For radiated immunity test (frequency range 1-2 GHz) the field uniformity is guaranteed over the 75% of thesurface (1.5m x 1.5m, 0.8m above ground plane) with additional absorbers, installed on the floor.
The site attenuation of the chamber is available in this laboratory.
The test room is completed with the turntable and the antenna position mast.
Measurement instrumentation is located in a shielded control room.
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9
ANNEX CONTENTS
ANNEX 1: MEASUREMENT GRAPHS.........................................................................pag.3
ANNEX 2: TEST LAY-OUT's...............................................................................................pag.6
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ANNEX 1 MEASUREMENT GRAPHS
Fig. 1.1 RADIATED EMISSION (plane wave) 30MHz200MHz
Standard: EN55022, Class A QUASI-PEAK LIMIT, PEAK DETECTOR
Fig. 1.2 RADIATED EMISSION (plane wave) 200MHz1GHzStandard: EN55022, Class A QUASI-PEAK LIMIT, PEAK DETECTOR
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Fig. 1.3 RADIATED EMISSION (plane wave) 1GHz18GHz
PEAK AND AVERAGE LIMITS, PEAK DETECTOR
Fig. 1.4 CONDUCTED EMISSION (150kHz30MHz) ON DC POWER CABLES (Positive)
QUASI-PEAK AND AVERAGE LIMITS , PEAK DETECTOR
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Fig. 1.5 CONDUCTED EMISSION (150kHz30MHz) ON DC POWER CABLES (Negative)
QUASI-PEAK AND AVERAGE LIMITS , PEAK DETECTOR
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ANNEX 2 TEST LAY OUT's
Fig. A TEST LAY OUT: EUT configuration
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Fig. B TEST LAY OUT: Radiated emission(plane wave): Frequency range:301000MHz
Fig. C TEST LAY OUT: Radiated emission(plane wave) Frequency range:118GHz
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Fig. D TEST LAY OUT: Conducted emission on DC power cables
Fig. E TEST LAY OUT: Radiated immunity
Frequency range:80MHz1000MHz
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Fig. F TEST LAY OUT: Radiated immunity
Frequency range:1GHz2GHz
Fig. G TEST LAY OUT: Power frequency magnetic field
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Fig. H TEST LAY OUT: Conducted immunity (EFT) on DC power cables
Fig. I TEST LAY OUT: Conducted immunity (CW) on DC power cables
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Fig. L TEST LAY OUT: Electrostatic discharge (direct method)
Fig. M TEST LAY OUT: Electrostatic discharge (indirect method) vertical coupling plane