vbn_vib_13_062_e_c_ac3mo_038

11-13, Avenue de Bel Air ALSTOM Transport SA 69627 VILLEURBANNE Cedex (France) ACCRDITATION Sige social : 3 avenue Andr Malraux Tl. : 33 (0) 4 72 81 46 27 N 1-1082 92300 LEVALLOIS PERRET (France) Fax : 33 (0) 4 72 81 46 58 PORTE SIRET 389 191 982 00088 DISPONIBLE SUR www.cofrac.fr

COFRAC accreditation certifies that the laboratories are competent only for the tests covered by the accreditation, which are identified by one in the table defined in chapter 1.

T ranspor t I n fo rma t ion So lu t ions

EQ Labs Test report n: VBN VIB 13 062 E C Revision: A Date: 18/11/2013

MECHANICAL TEST REPORT

TTYYPPEE TTEESSTTSS Equipment under test:

AC3MO-038 DTR0000264992

Issue:

Recipient name Company name Ex number.

Confidential issue

Mr. Christophe CROZET Copy: Mr. Adrien DAGOIS

ALSTOM TIS Villeurbanne ADENEO

1 1

Mr. Carlos QUEIROS DE OLIVEIRA Laboratory Manager

Test report N Date : 18/11/2013

VBN VIB 13 062 E C Revision: A

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MECHANICAL TEST REPORT TTYYPPEE TTEESSTTSS

CONFIDENTIAL all rights reserved ALSTOM Passing on and copying of this document, use and communication of its content are not permitted without prior written authorization.

A copy of this report has to be allowed only by unabridged facsimile.

IT CONTAINTS 28 PAGES INCLUDING 3 APPENDICES

C O N T E N T S

1 TESTS IDENTIFICATION AND CONCLUSION ........................................................3

2 GENERALITIES ......................................................................................................4

3 INFORMATION RELATING TO THE EQUIPMENT UNDER TEST .............................5

3.1 Generalities ................................................................................................................................ 53.1.1 Equipment description .............................................................................................................. 53.1.2 Test means .............................................................................................................................. 7

3.2 Installation diagram..................................................................................................................... 73.3 Checking procedure of the Equipment under Test .......................................................................... 8

4 PERFORMANCE CRITERIA .....................................................................................9

4.1 General definition ....................................................................................................................... 94.2 Manufacturer specification ........................................................................................................... 9

5 REFERENCE FILE .................................................................................................10

6 EQUIPMENT AC3MO-038 ..................................................................................12

6.1 Test program (EN 61373 category 1 class B) .............................................................................. 126.2 Test progress (EN 61373 category 1 class B) ............................................................................... 12

6.2.1 Initial visual inspection ........................................................................................................... 126.2.2 Tests results ........................................................................................................................... 136.2.3 Final visual inspection ............................................................................................................ 136.2.4 Curves results ........................................................................................................................ 14

7 APPENDIX A: REFERENCES OF USED MAIN TEST EQUIPMENTS ........................26

8 APPENDIX B: GLOSSARY ...................................................................................27

9 APPENDIX C: TESTS SHEET .................................................................................28

9.1.1 Random vibration .................................................................................................................. 289.1.2 Shocks test ............................................................................................................................ 28



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WARNING: The results in this test report apply only to the equipment under test. It does not presume conformity of the whole of the products identical to the equipment under test. It cannot be reproduced partially without written approval of the laboratory.

1 TESTS IDENTIFICATION AND CONCLUSION

Accreditation Standard

(Kind of tests) Product standard Results Comments

EN 60068-2-64 (2008) Simulated Long Life Random Vibration test

EN 61373 (1999) C

EN 60068-2-27 (2009) Shocks test

EN 61373 (1999) C

EN 60068-2-64 (2008) Functional Random vibration test

EN 61373 (1999) C

C: Compliant NC: Not Compliant Miss Elodie GOURSAUD Mr. Loc LEVIS In charge of tests Technical Manager



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2 GENERALITIES Name and address of the client: Mr. Cristophe CROZET ALSTOM Transport Information Solutions 11-13, Avenue de Bel Air 69627 VILLEURBANNE Cedex (France) Test location: EQ Labs - Villeurbanne ALSTOM Transport Information Solutions 11-13, Avenue de Bel Air 69627 VILLEURBANNE Cedex (France) Date of the tests: From the 17/10/2013 to the 18/10/2013 Test applicant: Mr. Adrien DAGOIS Telephone: 39 94 Person attending the tests: Mr. Adrien DAGOIS Telephone: 39 94 Offer reference: 13 062



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3 INFORMATION RELATING TO THE EQUIPMENT UNDER TEST 3.1 Generalities 3.1.1 Equipment description The voltage supply of the UUT is 24Vdc @7A

The EUT can be decomposed into 2 parts:

the supervisor part : it is constituted by NPU, BIMN, EVR and inputs/outputs boards (EBT, SBT, SST1). The main functions of the supervisor are :

Command control equipment chain of traction Management of the MVB interface with the command control system Management of the maintenance and control-command Ethernet interfaces

the CRT4 part : it is constituted by the CCN4-2, CCA4 and CCB4 boards. The main functions of the CRT4 are :

The command of the inverter The command of the rheostatic chopper The command of the PMCF

Auxiliary equipment for the functional test



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Identification of the EUT

The constitution of the product is:

BPM2

EVR

A L N V 1

A L A 1

N P U

B I M N

C C N 4

C C A 4

C C B 4

C C B 4

E B Y 1

S S T 1

E B Y 1

S B T

S S T 1

A L A 1

The hardware configuration of the UUT is described in the table below:

Address Board TRV/DTR 0002 BPM2 DTR0000254169 0022 EVR DTR0000228337 0301 ALNV1 TRVS339673001 0302 ALA1 TRVS339339001 0304 NPU DTR0000239158 0306 BIMN DTR0000248258 0308 CCN4-2 TRVS339568000 0309 - 0310 CCA4 TRVC062437000 0312 CCB4 TRVC062117000 0313 CCB4 TRVC062117000 0314 - - 0315 EBY1 TRVC062314000 0316 SST1 TRVC062461000 0317 EBY1 TRVC062314000 0318 SBT TRVC070789000 0319 SST1 TRVC062461000 0320 ALA1 TRVS339339001



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3.1.2 Test means

The aim of the tests is to verify that the UUT is working correctly during and/or after each test. It is carried out in a configuration as close as possible from the real conditions, typically the wiring rules applied to the train are used and the system environment is re-created:

MVB and EHERNET interfaces, LV inputs/outputs, Analog inputs of voltage sensors, line current, Speed sensor inputs, Pulse/status return interface for inverters and rheostatic chopper

3.2 Installation diagram The synoptic of the test bench is:

UUT

24Vdc Power Supply

Resistive loads

MVB miror

Shielded cables coming from supply boards

MVB links

Analog loadsAnalog inputs/outputs shielded cables

Supply wires

Ethernet link (10Mb/s)

Software of tests is used to check the functioning of the UUT:

SYSTEM test : check power supplies and SYSFAIL and the functioning of CCN4 boards I2C test : read/write in the I2C EEPROM CCN4 test : check the state of the CCN4 board CAN-IO test : check the CAN IO topology and the connections between EBT/SBT/SST NETWORK test : check the dialogue with an AL3 equipment connected to the MVB

network and Ethernet communication The version of the software is identified as follows:

Clearcase Label : 0.0.0.5 Acronym : citadis2_mas

Note: the LED SPD is ON but it is not a defect.



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3.3 Checking procedure of the Equipment under Test The visualization interfaces are a users friendly mean to quickly get basic information on the AG3 status:

Type Signal name Abbrev LED

Id.

LED

Id. Abbrev Signal name Type

System status

DELVISU1#

OFF after startup ON if SYSFAIL = 0 V

SFL DS4 DS5 SRT DELVISU2#

OFF after startup ON if SYSRST = 0 V System

status DELVISU3#

OFF after startup ON if SYSBLP = 0 V

SBP DS6 DS7 SBS Not Used

Application

status

DELVISU5#

Application free use

UR1 DS8 DS9 UR2 DELVISU6#


Application

status

DELVISU7#




DELVISU9#




Not used Not Used SR1 DS14 DS15 SG2 Not Used Not used

Power Supply Status

OKNU#

ON if ALNV output OK

NU DS16 DS17 15V OK15V#

ON if ALAX output OK

Power Supply Status

OK24P#


24P DS18 DS19 24S OK24S#


OKUENU#

ON if ALNV input OK

UEN DS20 DS21 UES OKUES#

ON if ALAX input OK

OKUEP#

ON if ALAX input OK

UEP DS22 DS23 URN URGNU#

ON 0,2ms before loss of ALNV out

Ethernet status

LEDET1# (LILED)

ON if speed > 10Mb/s

SPD DS1 DS24 DAS Not Used IDE Status

Not Used LI DS3 DS2 ACT LEDET2# (ACTLED)

ON if link integrity OK BLINK if activity on link

Ethernet status



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4 PERFORMANCE CRITERIA 4.1 General definition The criteria defined below come from the generic standards: EN 50121-1. Criterion A: The apparatus shall continue to operate as intended. No degradation of performance or loss of function is allowed below a performance level specified by the manufacturer, when the apparatus is used as intended. In some cases the performance level may be replaced by a permissible loss of performance. If the minimum performance level or the permissible performance loss is not specified by the manufacturer then either of these may be derived from the product description and documentation and what the user may reasonably expect from the apparatus if used as intended. Criterion B: The apparatus shall continue to operate as intended after the test. No degradation of performance or loss of function is allowed below a performance level specified by the manufacturer, when the apparatus is used as intended. In some cases the performance level may be replaced by a permissible loss of performance. During the test, degradation of performance is however allowed. No change of actual operating state or stored data is allowed. If the minimum performance level or the permissible performance loss is not specified by the manufacturer then either of these may be derived from the product description and documentation and what the user may reasonable expect from the apparatus if used as intended. Criterion C: Temporary loss of function is allowed, provided the loss of function is self-recoverable or can be restored by the operation of the controls. 4.2 Manufacturer specification Performance level or permissible loss of performance: For criterion A: No errors events should appear in the fault log of the tool TrainTracer UTM (citadis2_mas).



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5 REFERENCE FILE



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6 EQUIPMENT AC3MO-038 6.1 Test program (EN 61373 category 1 class B)

Test standard EN 60068-2-64 (Random vibrations test) EN 60068-2-27 (Shocks test)

Category 1 class B Product standard EN 61373 Performance criterion A

Test parameters

OX Simulated Long Life Random Vibration

Shocks Functional Random vibration

5.5m/s rms 50m/s / 30ms

0.7m/s rms

OY Simulated Long Life Random Vibration


5.5m/s rms 50m/s / 30ms

0.7m/s rms

OZ Simulated Long Life Random Vibration


7.9m/s rms 30m/s / 30ms

1m/s rms U Supply voltage Un=24VDC

6.2 Test progress (EN 61373 category 1 class B) 6.2.1 Initial visual inspection

Points examined Results / Comments

EUT: Fixation mobiles connectors Oxidation of the hardware Fixing brackets

OK OK OK

Sub-rack: Connectors Oxidation of the hardware Slides Checking the torque

Fixing mechanical shielding

OK OK OK M3: 1N.m Board

M6: 6.5N.m Rack/Sub-rack M8: 16.5N.m Sub-rack/Assembly

OK Wiring of test:

Connectors Oxidation of the hardware Fixing mechanical shielding

OK OK OK

Board: Fixation board (mezzanine, Front face, ) Fixation internal cables

OK OK



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6.2.2 Tests results

Date, hour Axis Duration Test Results Comments

17/10 09:51 AM

OZ (Vertical)

5 hours Simulated Long Life Random Vibration

C

17/10 03:07 PM 30ms/shock Shocks C

17/10 03:12 PM 10 minutes Functional Random

vibration C

17/10 05:09 PM

OY (Transversal)


C

18/10 08:52 AM 30ms/shock Shocks C

18/10 08:54 AM 10 minutes Functional Random

vibration C

18/10 09:33 AM

OX (Longitudinal)


C

18/10 02:59 PM 30ms/shock Shocks C

18/10 03:08 PM 10 minutes Functional Random

vibration C

6.2.3 Final visual inspection

Points examined Results / Comments

EUT: Fixation mobiles connectors Oxidation of the hardware Fixing brackets

OK OK OK

Sub-rack: Connectors Oxidation of the hardware Slides Checking the torque

Fixing mechanical shielding

OK OK OK M3: 1N.m Board

M6: 6.5N.m Rack/Sub-rack M8: 16.5N.m Sub-rack/Assembly

OK Wiring of test:

Connectors Oxidation of the hardware Fixing mechanical shielding

OK OK OK

Board: Fixation board (mezzanine, Front face, ) Fixation internal cables

OK OK

No cracks No Breaks No lost screws

OK OK OK



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6.2.4 Curves results Pilotage During random vibration tests, the control of the driver is performed on a strategy average (Average signals provided by each reference point). In shocks tests, the control of the driver is performed by the signal supplied by a single reference point. Definition measurement:

Measurement Explication

Reference Point

Control and this transverses represent a picture of the control of the vibrator to a given template. Profile(f), high-alarm(f), low-alarm(f) Template

according to standard Control(f) Average of the control points Input1 (f)

and Input2 (f) = reference point fictive The single point of control for shocks

Input3(f), Input4(f) Transverses

Response Point

A picture of the control of the vibrator to a given template. Profile(f) Template according to standard InputX(f) Response of measurement point

Transfer function

The presentation of vibratory behaviour of EUT is translated by the transfer function following:

excitationresponse

FXH ==

Cursors are on the frequencies of resonance of EUT: TransX_c0 Transfer function at the beginning of test TransX Transfer function at the end of test



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Position of measurement accelerometers: Accelerometers were glued with cyanoacrylate glue.

Accelerometric measurements:

Curves n 1 to 3: Control accelerometer during Long Life Random Vibration Test

Curves n4 to 9: Transfer functions measured during the Long Life Test.

Curves n10 to 12: Control accelerometer during the Functional Random Vibration Test

Curves n13 to 18: Control accelerometers during the Shocks Test. (Purple and red curves presents the transversal movement; blue curve presents the limit requested by the standard EN 60068-2-27 (2009)).

Reference Point n2

Response Point n1

OZ (Verticale)

OX (longitudinal)

OY (transversal) Reference Point n1

Response Point n2



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CURVE N 1

Axis: OZ Specimen: AC3MO-038 Title: Long Life random vibration test

Measurement: Reference Point

profile(f)

high-alarm(f)

low-alarm(f)

input3(f)

input4(f)

control(f)

150.005.00 10.00 100.00

0.1122

1.78E-07

1.00E-06

1.00E-05

0.0001

0.0010

0.0100

Frequency (Hz)

(gn)/Hz

CURVE N 2

Axis: OY Specimen: AC3MO-038 Title: Long Life random vibration test


profile(f)

high-alarm(f)

low-alarm(f)

input3(f)

input4(f)

control(f)

150.005.00 10.00 100.00

0.0891

3.98E-09

1.00E-08

1.00E-07

1.00E-06

1.00E-05

0.0001

0.0010

0.0100

Frequency (Hz)

(gn)/Hz



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CURVE N 3 Axis: OX Specimen: AC3MO-038

Title: Long Life random vibration test Measurement: Reference Point

profile(f)

high-alarm(f)

low-alarm(f)

input3(f)

input4(f)

control(f)

150.005.00 10.00 100.00

0.0891

1.00E-08

1.00E-07

1.00E-06

1.00E-05

0.0001

0.0010

0.0100

Frequency (Hz)

(gn)/Hz



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CURVE N 4

Axis: OZ Specimen: AC3MO-038 Title: Long Life random vibration test

Measurement: Transfer function point n1

Trans1

Trans1_0

150.005.00 10.00 100.00

25.1189

0.5012

1.0000

10.0000

Frequency (Hz)

1

2

Signal X Y1 Trans1_0 114.075 4.114812 Trans1 113.342 9.98809

CURVE N 5

Axis: OY Specimen: AC3MO-038 Title: Long Life random vibration test


Trans5

Trans5_0

150.005.00 10.00 100.00

15.8489

0.6457

1.0000

10.0000

Frequency (Hz)

12




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Title: Long Life random vibration test Measurement: Transfer function point n1

Trans5

Trans5_0

150.005.00 10.00 100.00

3.3113

0.5012

1.0000

Frequency (Hz)

CURVE N 7 Axis: OZ Specimen: AC3MO-038


Trans2

Trans2_0

150.005.00 10.00 100.00

3.5481

0.8433

1.0000

Frequency (Hz)



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CURVE N 8 Axis: OY Specimen: AC3MO-038


Trans6

Trans6_0

150.005.00 10.00 100.00

5.0119

0.7586

1.0000

Frequency (Hz)

12


CURVE N 9

Axis: OX Specimen: AC3MO-038 Title: Long Life random vibration test


Trans6

Trans6_0

150.005.00 10.00 100.00

5.9566

0.5623

1.0000

Frequency (Hz)

1

2




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CURVE N 10

Axis: OZ Specimen: AC3MO-038 Title: Functional random vibration test


profile(f)

high-alarm(f)

low-alarm(f)

control(f)

150.005.00 10.00 100.00

0.0016

1.26E-06

1.00E-05

0.0001

0.0010

Frequency (Hz)

(gn)/Hz

CURVE N 11

Axis: OY Specimen: AC3MO-038 Title: Functional random vibration test


profile(f)

high-alarm(f)

low-alarm(f)

control(f)

150.005.00 10.00 100.00

0.0008

3.98E-07

1.00E-06

1.00E-05

0.0001

Frequency (Hz)

(gn)/Hz



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Title: Functional random vibration test Measurement: Reference Point

profile(f)

high-alarm(f)

low-alarm(f)

control(f)

150.005.00 10.00 100.00

0.0008

3.98E-07

1.00E-06

1.00E-05

0.0001

Frequency (Hz)

(gn)/Hz

Remark: The bad behaviour of the set constituted by the specimen and by its assembly during the random vibrations test in this axis did not allow a correct feedback control of this test in the -6 dB slope down. The ADS level between 5 and 20 Hz has been respected.



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CURVE N 13

Axis: OZ Specimen: AC3MO-038 Title: Positive shocks


profile(t)

high-abort(t)

low-abort(t)

control(t)

input3(t)

input4(t)

0.10-0.08 -0.06 -0.04 -0.02 0 0.02 0.04 0.06 0.08

4.2000

-1.8000-1.6000

-1.2000

-0.8000

-0.4000

0

0.4000

0.8000

1.2000

1.6000

2.0000

2.4000

2.8000

3.2000

3.6000

Time (Seconds)

gny1= 0.9000 y2= -0.9000 dy= -1.8000

CURVE N 14 Axis: OZ Specimen: AC3MO-038

Title: Negative shocks Measurement: Reference Point

profile(t)

high-abort(t)

low-abort(t)

control(t)

input3(t)

input4(t)

0.10-0.08 -0.06 -0.04 -0.02 0 0.02 0.04 0.06 0.08

1.8000

-4.2000-4.0000

-3.6000

-3.2000

-2.8000

-2.4000

-2.0000

-1.6000

-1.2000

-0.8000

-0.4000

0

0.4000

0.8000

1.2000

Time (Seconds)

gn

y1= 0.9000 y2= -0.9000 dy= -1.8000



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CURVE N 15

Axis: OY Specimen: AC3MO-038 Title: Positive shocks


profile(t)

high-abort(t)

low-abort(t)

control(t)

input3(t)

input4(t)

0.10-0.08 -0.06 -0.04 -0.02 0 0.02 0.04 0.06 0.08

6.9000

-2.8000-2.5000

-2.0000

-1.5000

-1.0000

-0.5000

0

0.5000

1.0000

1.5000

2.0000

2.5000

3.0000

3.5000

4.0000

4.5000

5.0000

5.5000

6.0000

6.5000

Time (Seconds)

gn

y1= 1.5000 y2= -1.5000 dy= -3.0000

CURVE N 16 Axis: OY Specimen: AC3MO-038

Title: Negative shocks Measurement: Reference Point

profile(t)

high-abort(t)

low-abort(t)

control(t)

input3(t)

input4(t)

0.10-0.08 -0.06 -0.04 -0.02 0 0.02 0.04 0.06 0.08

2.8000

-6.9000-6.5000

-6.0000

-5.5000

-5.0000

-4.5000

-4.0000

-3.5000

-3.0000

-2.5000

-2.0000

-1.5000

-1.0000

-0.5000

0

0.5000

1.0000

1.5000

2.0000

2.5000

Time (Seconds)

gn

y1= 1.5000 y2= -1.5000 dy= -3.0000



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CURVE N 17

Axis: OX Specimen: AC3MO-038 Title: Positive shocks


profile(t)

high-abort(t)

low-abort(t)

control(t)

input3(t)

input4(t)

0.10-0.08 -0.06 -0.04 -0.02 0 0.02 0.04 0.06 0.08

6.9000

-2.8000-2.5000

-2.0000

-1.5000

-1.0000

-0.5000

0

0.5000

1.0000

1.5000

2.0000

2.5000

3.0000

3.5000

4.0000

4.5000

5.0000

5.5000

6.0000

6.5000

Time (Seconds)

gny1= 1.5000 y2= -1.5000 dy= -3.0000

CURVE N 18

Axis: OX Specimen: AC3MO-038 Title: Negative shocks


profile(t)

high-abort(t)

low-abort(t)

control(t)

input3(t)

input4(t)

0.10-0.08 -0.06 -0.04 -0.02 0 0.02 0.04 0.06 0.08

2.8000

-6.9000-6.5000

-6.0000

-5.5000

-5.0000

-4.5000

-4.0000

-3.5000

-3.0000

-2.5000

-2.0000

-1.5000

-1.0000

-0.5000

0

0.5000

1.0000

1.5000

2.0000

2.5000

Time (Seconds)

gny1= 1.5000 y2= -1.5000 dy= -3.0000



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7 APPENDIX A: REFERENCES OF USED MAIN TEST EQUIPMENTS

Definition Chanel input Reference constructor

ID Constructor Validity Sensibility

(mV/g)

Reference point 2 2

ACC-302 356A15 PCB 10/2013 OX: 101,6

3 OY: 100,5 4 OZ: 97,94

Reference point 1 1 ACC-114 352A21 PCB 06/2014 102,8 Response point 1 5 ACC-115 352A21 PCB 06/2014 9,128 Response point 2 6 ACC-116 352A21 PCB 06/2014 9,194

VIBRATION / SHOCKS Equipment Manufacturer / Type Identification Validity

Electro-dynamic excitator Type V850440 LPT 600 C combo

LINK DYNAMIC SYSTEM VIB 001 09/2014

Power amplifier - SPA 30 K LINK DYNAMIC SYSTEM VIB 001 09/2014

Shaker control unit DACTRON LASER USB


Shaker control unit DACTRON LASER USB SLAVE


P.C. DELL INTEL CELERON 2.8 Ghz LINK DYNAMIC SYSTEM / /

Shaker Control Version 5.82

LINK DYNAMIC SYSTEM LOG 011 09/2014

Bracket assembly ATIS 3 /

Key Dynamometer FACOM CDY 001 10/2014

Key Dynamometer FACOM CDY 003 10/2014



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8 APPENDIX B: GLOSSARY B.T. : Battery EUT : Equipment Under Test H.F. : High Frequency hPa : Hecto Pascal IEC : International Electrotechnical Commission ISM : Industrial, Scientific and Medical I/O : Input / Output ITE : Information Technology Equipment R.H. : Relative humidity Un : Nominal voltage L : Longitudinal T : Transversal V : Vertical Simulated Long Life Random Vibration: This test is aimed at establishing the mechanical integrity of the equipment at increased service levels. It is not necessary to demonstrate ability to function under these conditions. Functional Random vibration: The functional random test levels are the minimum test levels to be applied on order to demonstrate that the equipment under test is capable of functioning when subjected to conditions which are likely to occur in service, on railway vehicles. The functional tests are not intended to be a full performance evaluation under simulated service conditions.



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9 APPENDIX C: TESTS SHEET 9.1.1 Random vibration Tests carried out were complied with the standard EN 60068-2-64 requirement. Random vibrations transmitted with Gaussian distribution of instantaneous values with a clipping factor of 3, are defined by their Power Spectral Density of acceleration G(f) and their frequency bandwidth f=f2-f1. The number of degrees of freedom used is 120. RMS acceleration is worked out using the equation:

=2

1

2).(

f

f

dffG with G(f) in g/Hz and f in Hz

Control is made on the average of 2 reference sensors located close to the specimen fixations.

Measurement accuracy of each accelerometric channels is of 4.21 % with a k factor =2 (frequencies range 5-500Hz). 9.1.2 Shocks test Tests carried out were complied with the standard EN 60068-2-27 requirement. Half sine shocks are defined bY their acceleration peak in g and their duration D in ms as shown on the following scheme. Control is made on the filtered signal of one reference sensor located close to the specimens fixations.

1 TESTS IDENTIFICATION AND CONCLUSION 2 GENERALITIES 3 INFORMATION RELATING TO THE EQUIPMENT UNDER TEST 3.1 Generalities 3.2 Installation diagram 3.3 Checking procedure of the Equipment under Test 4 PERFORMANCE CRITERIA 4.1 General definition 4.2 Manufacturer specification

5 REFERENCE FILE 6 EQUIPMENT AC3MO-038 6.1 Test program (EN 61373 category 1 class B) 6.2 Test progress (EN 61373 category 1 class B)

7 APPENDIX A: REFERENCES OF USED MAIN TEST EQUIPMENTS 8 APPENDIX B: GLOSSARY 9 APPENDIX C: TESTS SHEET

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