C6200 C6250 Test Report

We help ideas meet the real world
DELTA Test Report
TEST Reg. no. 19
Type approval testing of C6200 and C6250
Performed for Selco A/S
DANAK-1910203
Project no.: A505341
Page 1 of 54
including 6 annexes
19 June 2008
DELTA
Danish Electronics,
Light & Acoustics
Venlighedsvej 4
2970 Hørsholm
Denmark
Tel. (+45) 72 19 40 00
Fax (+45) 72 19 40 01
www.delta.dk
This report is issued under the rules of DANAK (Danish Accreditation) and ILAC
(International Laboratory Accreditation Cooperation) including its MRA (Mutual Recognition
Arrangement). Further information can be found at www.danak.dk and www.ilac.org.
The report must not be reproduced, except in full, without the written approval of DELTA.
Version m
DANAK-1910203
DELTA-A505341
Page 2 of 54
Title
Type approval testing of C6200 and C6250
Test object
C6200 and C6250
Detailed information is given in Section 2.
The test objects were received on 25 March 2008.
Report no.
DANAK-1910203
Project no.
A505341
Test period
25 March - 16 June 2008
Client
Selco A/S
Betonvej 10
4000 Roskilde
Denmark
Tel.: +45 70 26 11 22
Fax: +45 70 26 25 22
Contact person
Mr Jesper Højland
E-mail: [email protected]
Manufacturer
Selco A/S
Specifications
IACS E10: Rev. 5, Dec 2006. “Test Specification for
Type Approval. Test specification applicable, but not
confined to, all equipment used for: - Control, protection
and safety; - internal communication”.
IEC 60945: Fourth edition, 2002 “Maritime navigation
and radio communication equipment and systems General requirements - Methods of testing and required
test results”.
IEC 60533: Second edition, 1999. “Electrical and
electronic installations in ships - Electromagnetic
compatibility”.
Results
No malfunctions were detected. The criteria for
compliance are listed in Section 3.2.
Test personnel
Karsten Kruse Jensen
Henrik Egeberg Nielsen
Poul Nørgaard
Poul Terkelsen
Olling Truelsen
HFR/lko
DANAK-1910203
DELTA-A505341
Page 3 of 54
Date
19 June 2008
Project manager
Henrik Funding Raun, B.Sc.E.E.
DELTA
Responsible
Susanne Otto, B.Sc.E.E.
DELTA
HFR/lko
DANAK-1910203
DELTA-A505341
Page 4 of 54
Table of contents
Page
1.
1.1
1.2
Summary of test
Test requirements
Conclusion
6
6
7
2.
2.1
2.2
Test objects
Test object(s)
Auxiliary equipment
8
8
9
3.
3.1
3.2
3.3
3.4
3.5
General test conditions
Test setup
Criteria for compliance
Functional test
Standard environment
Test sequence
10
10
10
10
11
11
4.
4.1
4.2
4.3
4.4
4.5
4.6
4.7
4.8
4.9
4.10
4.11
4.12
4.13
4.14
4.15
4.16
4.17
4.18
Test and results
Power supply failure
Power supply variations (permanent)
Low temperature (cold)
Dry heat
Damp heat, cyclic
Insulation resistance
High voltage
Resonance search (4 g)
Endurance - random (4 grms)
Electrostatic discharge
Radiated radio frequency interference
Conducted low frequency interference
Conducted radio frequency interference
Fast transients (burst)
Slow transients (surge)
Radiated emissions
Conducted emissions
Enclosure protection, IP 2X
12
12
12
13
13
14
15
15
16
16
17
18
19
19
20
21
21
22
23
Annex 1 List of instruments
24
Annex 2 Photos
26
Annex 3 Test record sheets - Conducted emissions
35
Annex 4 Test record sheets - Radiated emissions
42
Annex 5 Measurement curves - Vibration
47
HFR/lko
DANAK-1910203
DELTA-A505341
Page 5 of 54
Annex 6 Functional test procedure (from Client) (This annex is informative
and not part of the accredited report)
HFR/lko
53
DANAK-1910203
DELTA-A505341
Page 6 of 54
1.
Summary of test
1.1
Test requirements
Test
Power supply failure
Power supply variations
Low temperature (cold)
Dry heat
Damp heat (cyclic)
Insulation resistance
High voltage
Vibration (resonance search)
Vibration (endurance - random)
Electrostatic discharges
Radiated radio frequency interference
Conducted low frequency interference
Conducted radio frequency interference
Electrical fast transients (burst)
Slow transients (surge)
Radiated emissions
Conducted emissions
Enclosure protection, IP 2X
HFR/lko
Test method
IACS E10:2006
IEC 60945:2002, IACS E10:2006
IEC 60068-2-1:2007
IEC 60068-2-2:2007
IEC 60068-2-30:2005
IACS E10:2006
IACS E10:2006
IEC 60068-2-6:2007
IEC 60068-2-64:1993
IEC 61000-4-2:2001
IEC 61000-4-3:2006
IACS E10:2006
IEC 61000-4-6:2004
IEC 61000-4-4:2004
IEC 61000-4-5:2005
CISPR 16-1:1999, CISPR 16-2:2002,
CISPR 16-1:1999, CISPR 16-2:2002,
IEC 60529:2001
DANAK-1910203
DELTA-A505341
Page 7 of 54
1.2
Conclusion
The test objects mentioned in this report meet the relevant requirements of the standards
stated below.
•
IACS E10:2004
•
IEC 60533:1999
•
IEC 60945:2002
The test results relate only to the object tested.
HFR/lko
DANAK-1910203
DELTA-A505341
Page 8 of 54
2.
Test objects
2.1
Test object(s)
Test object 2.1.1
Name of test object
Model / type
Part no.
Serial no.
FCC ID
Manufacturer
Supply voltage
Comments
Generator Controller
C6200
C6200.0010
413643
Selco A/S
24 VDC
The customer states as follows, regarding
modifications of the test object:
“Modification 1:
A capacitor of 10nF has been added to the reset pin
44 of the DSP (ADSP2184, IC8).
Modification 2:
A T-Filter 22nF has been added to the analogue
output 1 and 2.”
Test object 2.1.2
Name of test object
Model / type
Part no.
Serial no.
FCC ID
Manufacturer
Supply voltage
Comments
HFR/lko
Hand Terminal for C6200
C6250
C6250.0010
409497
Selco A/S
24 VDC through CAN bus
-
DANAK-1910203
DELTA-A505341
Page 9 of 54
2.2
Auxiliary equipment
Auxiliary equipment 2.2.1
Name of auxiliary equipment
Model / type
Part no.
Serial no.
FCC ID
Manufacturer
Supply voltage
Comments
HFR/lko
Sigma UI Module
S6500
S6500.0010
381405
Selco A/S
24 VDC
-
DANAK-1910203
DELTA-A505341
Page 10 of 54
3.
General test conditions
3.1
Test setup
A drawing of the test setup is enclosed in Annex 6.
3.2
Criteria for compliance
No change of the actual operational states of the test objects is allowed. However,
temporary change is allowed during the power supply failure test.
In addition, the following generic acceptance criteria for compliance were in force
during the EMC immunity testing:
3.3
•
Performance Criterion A: (For continuous phenomena): The EUT shall continue
to operate as intended during and after the test. No degradation of performance or
loss of function is allowed as defined in the relevant equipment standard and in
the technical specification published by the manufacturer.
•
Performance Criterion B: (For transient phenomena): The EUT shall continue to
operate as intended after the tests. No degradation of performance or loss of
function is allowed as defined in the technical specification published by the
manufacturer. During the test, degradation or loss of function or performance
which is self-recoverable is, however, allowed but no change of actual operating
state or stored data is allowed.
•
Performance Criterion C: Temporary degradation or loss of function or
performance is allowed during and after the test, provided the function is selfrecoverable, or can be restored by the operation of the controls as defined in the
relevant equipment standard and in the technical specification published by the
manufacturer.
Functional test
A functional test was performed before, during (if specified) and after each test. The
functional test was carried out in accordance with the functional test procedure provided
by the customer.
The functional test procedure is given in Annex 6.
HFR/lko
DANAK-1910203
DELTA-A505341
Page 11 of 54
3.4
Standard environment
Normal environmental condition:
3.5
HFR/lko
Temperature
:
15 °C - 35 °C
Humidity
:
25 %RH - 75 %RH
Air pressure
:
86 kPa - 106 kPa (860 mbar - 1060 mbar)
Power supply voltage
:
Unom. ±3%
Test sequence
DANAK-1910203
DELTA-A505341
Page 12 of 54
4.
Test and results
4.1
Power supply failure
Test methods
IACS E10, Test No. 3.
Procedure
The power supply is interrupted 3 times within 5 minutes with a break time of 60
seconds.
Normal power-up procedure is to be obtained after each power break.
Results
No malfunction was observed during the exposure, and the function of the test objects
was OK after each exposure.
One of the power supply failures was made during the boot sequence.
Performance criterion: C.
4.2
Power supply variations (permanent)
Test method
IACS E10, Test No. 4.
IEC 60945, Section 5.2.2.
Procedure (24 VDC input)
Unom. =
Nominal supply voltage
=
24 VDC
Exposures, each with a duration of 15 minutes, are performed at the following supply
voltages:
U1
=
Un +30 % =
31.2 VDC
U2
=
Un -25 %
18.0 VDC
=
The test objects are observed during the exposures, and a functional test is performed at
the end of each exposure.
An additional power supply variations test is performed as part of the functional test
during the low temperature and the dry heat test profiles.
HFR/lko
DANAK-1910203
DELTA-A505341
Page 13 of 54
Results
No malfunction was observed during the exposure, and the function of the test objects
was OK after the exposure.
Performance criterion: A.
4.3
Low temperature (cold)
Test method
IEC 60068-2-1:2007, Test Ad: Cold for heat-dissipating object with gradual change of
temperature.
Severity and procedure
Temperature
:
-15 °C
Duration
:
16 hours
The test objects are de-energised during the exposure. However, during the last 2 hours
of the exposure, the test objects are energised and a functional test is performed.
A power supply variations test ref. Section 4.2 is performed as part of the functional test
during the low temperature test profile.
After recovery, a functional test and an insulation resistance test are performed in
standard environment.
Results
No malfunction was observed during the exposure and the function of the test objects
was OK during the last 2 hours of the exposure and after recovery.
4.4
Dry heat
Test method
IEC 60068-2-2:1974, Test Bd: Dry heat for heat-dissipating object with gradual change
of temperature, Amendment 1 (1993), Amendment 2 (1994).
Severity and procedure
HFR/lko
Temperature
:
+70 °C
Duration
:
16 hours
Humidity
:
Below 50 %RH
DANAK-1910203
DELTA-A505341
Page 14 of 54
The test objects are energised and in normal operating condition during the exposure.
During the last hour of the exposure, a functional test is performed.
A power supply variations test ref. Section 4.2 is performed as part of the functional test
during the dry heat test profile.
After recovery the functional test is repeated in standard environment.
Results
No malfunction was observed during the exposure and the function of the test objects
was OK during the last 2 hours of the exposure and after recovery.
4.5
Damp heat, cyclic
Test method
IEC 60068-2-30 (2005), Test Db: Damp heat cyclic (12 + 12 hours’ cycle), Variant 1.
Severity and procedure
Lower temperature
:
25 °C
Humidity at lower temperature
:
>95 %RH
Upper temperature
:
55 °C
Humidity at upper temperature
:
93 %RH
Number of cycles
:
2
During the first cycle, the test objects are energised and in normal operational mode. A
functional test is performed during the first 2 hours of the 55 °C phase.
During the second cycle, the test objects are de-energised. However, during the last 2
hours of the second 55 °C phase, the test objects are energised and a functional test is
performed.
After recovery the test objects are energised and a functional test and an insulation
resistance test are performed in standard environment.
Results
No malfunction was observed during the exposure, and the function of the test objects
was OK during the first and second cycle at 55 °C and 93 %RH and after recovery.
No corrosion attack was observed after the exposure.
HFR/lko
DANAK-1910203
DELTA-A505341
Page 15 of 54
4.6
Insulation resistance
Test method
IACS E10, Test No. 9.
Procedure
The insulation resistance is measured between shorted supply terminals and earth with
50 VDC for 24 VDC power ports. The insulation resistance has to be above 10 MΩ
initially, and above 1 MΩ after the cold, damp heat and high voltage exposures.
Results
Cable
designation
Test condition
Test voltage
[Vrms]
Duration
[sec]
Insulation
resistance
[MΩ]
Initial
50 VDC
60 sec.
> 10 MΩ
After Low
temperature test
50 VDC
60 sec.
> 1 MΩ
After Damp
heat test
50 VDC
60 sec.
> 1 MΩ
After High voltage
test
50 VDC
60 sec.
> 1 MΩ
DC power port
4.7
High voltage
Test method
IACS E10, Test No. 10.
Procedure
550 VAC, 50 Hz is applied between shorted supply terminals and earth for 1 minute for
the 24 VDC supply line.
No flashover, breakdown etc. is acceptable.
Results
No flashover or breakdown was observed during the exposure. The insulation resistance
was OK after the exposure.
HFR/lko
DANAK-1910203
DELTA-A505341
Page 16 of 54
4.8
Resonance search (4 g)
Test method
IEC 60068-2-6:2007, Test Fc: Vibration (sinusoidal).
Severity and procedure
Frequency range
:
2 - 100 Hz
Frequency / amplitude :
2 - 25 Hz :
25 - 100 Hz :
± 1.6 mm
±4g
Sweep rate
:
Max. 0.5 octave/min.
Number of axes
:
3 mutually perpendicular
The test objects are de-energised during the exposure.
During the resonance search, the resonance frequencies are determined by means of
stroboscopic light with slow motion facility and accelerometer measurements of the
amplification factors (Q).
Resonance frequencies with an amplification factor above 2 are recorded.
Results
Amplification factor above 2 was recorded.
Place of measurement
C6200
C6250
4.9
Axis
Frequency
[Hz]
Amplification factor
X
2 - 100
<2
Y
2 - 100
<2
Z
75
7.8
X
2 - 100
<2
Y
2 - 100
<2
Z
100
2.7
Endurance - random (4 grms)
The sinusoidal vibration test according to IACS E10 is replaced by random vibration test
according to “Environmental test specification for instrumentation and automation
equipment” No. 2.4, issued April 2006 by DNV.
This random vibration test will cover the requirements of the sinusoidal vibration test
according to IACS E10.
HFR/lko
DANAK-1910203
DELTA-A505341
Page 17 of 54
Test method
IEC 60068-2-64:1993, Test Fh: Vibration, broadband random (digital control).
Severity and procedure
Frequency range
:
2 - 100 Hz
Acceleration spectral
:
2 - 25 Hz
Density
:
25 - 100 Hz :
Total RMS level
:
4.0 g
Duration
:
150 minutes per axis
Number of axes
:
3 mutually perpendicular
:
+12 dB/octave
0.2 g2/Hz
The test objects are energised and in normal operational mode during the exposures.
A functional test is performed during and after the exposure in each axis.
A visual inspection is performed after the exposure.
Results
No malfunction was observed during the exposure and the function of the test specimens
was OK during and after the exposure in each axis.
No damage was observed after the exposures.
4.10
Electrostatic discharge
Test method
IEC 61000-4-2:2001: Testing and measurement techniques - Electrostatic discharge
immunity test.
Severity and procedure
Air discharge
:
2, 4 and 8 kV
Contact discharge
:
2, 4 and 6 kV
Energy storage capacitance
:
150 pF
Discharge resistance
:
330 Ω
Polarity
:
+ and -
Number of discharges
:
10 per polarity at each test point
The discharges are applied only to such points and surfaces of the test objects, which are
accessible to personnel during normal use.
HFR/lko
DANAK-1910203
DELTA-A505341
Page 18 of 54
Contact discharges are applied to conductive surfaces and coupling planes. Air
discharges are applied to insulating surfaces.
The test objects are energised and in normal operational mode during the exposure. The
test objects are observed during the exposure, and a functional test is performed after the
exposure.
Results
No malfunction was observed during the exposure and the function of the test objects
was OK after the exposure.
Performance criterion: B.
4.11
Radiated radio frequency interference
Test method
IEC 61000-4-3:2006: Testing and measurement techniques - Radiated, radio-frequency,
electromagnetic field immunity test.
Severity and procedure
Frequency range :
80 - 2000 MHz
Field strength
:
10 V/m
Modulation
:
80 % AM, 1000 Hz sine wave
The test is performed in a semi anechoic room. The field is generated using linearly
polarised broadband antennas.
The test objects are energised and in normal operational mode during the exposure. The
test objects are observed during the exposure and a functional test is performed after the
exposure.
Results
No malfunction was observed during the exposure and the function of the test objects
was OK after the exposure.
Performance criterion: A.
HFR/lko
DANAK-1910203
DELTA-A505341
Page 19 of 54
4.12
Conducted low frequency interference
Test method
IACS E10:2006, Test No. 15.
Severity and procedure
Frequency range
:
0.05 - 10 kHz
Amplitude (DC-supplied)
:
0.05 - 10 kHz
Maximum applied power
:
2.0 W
: 10 % of Unom./ min. 3 Vrms
The impedance of the test generator is less than 1 Ω.
The test signal is superimposed on the power supply lines via a coupling transformer.
The test objects are energised and in normal operational mode during the exposure. The
test objects are observed during the exposure, and a functional test is performed after the
exposure.
Results
No malfunction was observed during the exposure, and the function of the test objects
was OK after the exposure.
Performance criterion: A.
4.13
Conducted radio frequency interference
Test method
IEC 61000-4-6:2004: Testing and measurement techniques - Immunity to conducted
disturbances, induced by radio-frequency fields.
Severity and procedure
Frequency range :
150 kHz - 80 MHz
Amplitude
:
0.15 - 80 MHz
Modulation
:
80 % AM, 400 Hz sine wave
Sweep rate
:
0.15 - 80 MHz
:
:
10 Vrms
1.5 × 10−3 decades/s
The test objects are supplied with power via a coupling / decoupling network.
The test signal is coupled to the power lines and signal lines via coupling networks. The
coupling impedance is 150 Ω.
HFR/lko
DANAK-1910203
DELTA-A505341
Page 20 of 54
The test objects are energised and in normal operational mode during the exposure. The
test objects are observed during the exposure, and a functional test is performed after the
exposure.
Results
No malfunction was observed during the exposure, and the function of the test objects
was OK after the exposure.
Performance criterion: A.
4.14
Fast transients (burst)
Test method
IEC 61000-4-4:2004: Testing and measurement techniques - Section 4: Electrical fast
transient / burst immunity test.
Severity and procedure
Amplitude
:
:
2 kV on power lines
1 kV on signal lines
Pulse rise time
:
5 ns
Pulse duration
:
50 ns
Generator impedance
:
50 Ω
Repetition rate
:
5 kHz
Burst duration
:
15 ms
Burst period time
:
300 ms
The test objects are supplied with power via a transient coupling network. The test signal
is successively coupled to each power line and protective earth with reference to the
ground plane.
The test signal is injected on the signal lines using a capacitive coupling clamp. The
clamp is successively used on selected signal cables.
The test signal is injected on the power lines for 5 minutes, using each coupling mode
and each polarity, and then on the signal lines for 5 minutes using each polarity.
The test objects are energised and in normal operational mode during the exposure. The
test objects are observed during the exposure and a functional test is performed after the
exposure.
HFR/lko
DANAK-1910203
DELTA-A505341
Page 21 of 54
Results
No malfunction was observed during the exposure and the function of the test objects
was OK after the exposure.
Performance criterion: B.
4.15
Slow transients (surge)
Test method
IEC 61000-4-5:2005: Testing and measurement techniques - Surge immunity test.
Severity and procedure
Amplitude power ports
:
1 kV line-to-earth, 0.5 kV line-to-line
Voltage rise time
:
1.2 µs (open circuit)
Voltage decay time
:
50 µs (open circuit)
The impedance of the test generator is 2 Ω for line-to-line coupling and 12 Ω for line-toearth coupling.
The test objects are energised and in normal operational mode during the exposure. The
test objects are observed during the exposure, and a functional test is performed after the
exposure.
Results
No malfunction was observed during the exposure and the function of the test objects
was OK after the exposure.
Performance criterion: B.
4.16
Radiated emissions
Test methods
CISPR 16-1:1999: Specification for radio disturbance and immunity measuring
apparatus and methods - Part 1: Radio disturbance and immunity measuring apparatus.
CISPR 16-2:2002: Specification for radio disturbance and immunity measuring
apparatus and methods. Part 2: Methods of measurement of disturbances and immunity.
HFR/lko
DANAK-1910203
DELTA-A505341
Page 22 of 54
Severity and procedure
General power distribution zone.
Frequency range
:
0.15 - 2000 MHz
Limits (quasi-peak)
:
0.15 - 30 MHz
30 - 100 MHz
100 - 2000 MHz
156 - 165 MHz
:
:
:
:
80 - 50 dBμV/m
60 - 54 dBμV/m
54 dBμV/m, except for
24 dBμV/m
The electric field is measured with antennas at a distance of 3 m.
The measuring bandwidth is 200 Hz in the frequency range 10 kHz - 150 kHz, 9 kHz in
the frequency range 150 kHz - 30 MHz and 120 kHz in the frequency range 30 MHz 2000 MHz, except for the frequency range 156 MHz - 165 MHz where the measuring
bandwidth is 9 kHz.
The test objects are energised and in normal operational mode during the measurement.
Results
The radiated emissions were within the specified limits. Test record sheets of the
radiated emission measurements are enclosed in Annex 4.
4.17
Conducted emissions
Test methods
CISPR 16-1:1999: Specification for radio disturbance and immunity measuring
apparatus and methods - Part 1: Radio disturbance and immunity measuring apparatus.
CISPR 16-2:2002: Specification for radio disturbance and immunity measuring
apparatus and methods. Part 2: Methods of measurement of disturbances and immunity.
Severity and procedure
General power distribution zone.
Frequency range
:
0.01 - 30 MHz
Limits (quasi-peak)
:
0.01 - 0.15 MHz :
0.15 - 0.50 MHz :
0.50 - 30 MHz :
120 - 69 dBμV
79 dBμV
73 dBμV
The radio frequency voltage is measured at the power supply terminals of the test object
by a receiver through an artificial mains network.
HFR/lko
DANAK-1910203
DELTA-A505341
Page 23 of 54
The measuring bandwidth is 200 Hz in the frequency range 10 kHz - 150 kHz and 9 kHz
in the frequency range 150 kHz - 30 MHz.
The test objects are energised and in normal operational mode during the measurement.
Results
The conducted emissions were within the specified limits. Test record sheets of the
conducted emission measurements are enclosed in Annex 3.
4.18
Enclosure protection, IP 2X
Test method
IEC 60529:2001: Degrees of protection provided by enclosures (IP Code).
Severity and procedure
The test specimen was subjected to a test corresponding to IEC 60529:2001, table 1, first
characteristic numeral 2 (IP 2X): “Protection against access to hazardous parts with a
finger”, and thus IEC 60945:2001, clause 12.1: “Protection against access to dangerous
voltages”.
Results
The test objects have adequate protection against access to hazardous parts with a finger,
i.e. no openings greater than 12 mm Ø were measured.
HFR/lko
DANAK-1910203
DELTA-A505341
Page 24 of 54
Annex 1
List of instruments
HFR/lko
DANAK-1910203
DELTA-A505341
Page 25 of 54
List of instruments
NO.
Y221A
Acc. 91
22617
Acc. 72
22603
22604
22585
22613
22631
22601
22616
EVFGT-19
EVFGT-28
DESCRIPTION
EL.DYN SHAKER
ACCELEROMETER
ACCELEROMETER
ACCELEROMETER
ACCELEROMETER
ACCELEROMETER
ACC. PRE-AMP.
ACC. PRE-AMP. 4-CHAN.
VIBR. CONTROLLER
VOLTMETER
OSCILLOSCOPE
CLIMATIC CHAMBER
CLIMATIC CHAMBER
MANUFACTURER
LING DYNAMICS
BRÜEL & KJÆR
BRÜEL & KJÆR
BRÜEL & KJÆR
BRÜEL & KJÆR
BRÜEL & KJÆR
BRÜEL & KJÆR
BRÜEL & KJÆR
SIGNALSTAR
HEWLETT-PACKARD
ISOTECH
DELTA
DELTA
TYPE NO.
V875-440
4371
4393
4393
4393
4393
2626
2692
VECTOR U2
34401A
ISR620
VKF875-3
VF 10
29223
CURRENT PROBE
SINGER
91550-4
29342
REFLECTOMETER COUPLER, 600-4200 MHz
ROHDE & SCHWARZ
29410
CURRENT PROBE AMPLIFIER FOR 29707 AND 49035
TEKTRONIX
ZPD
TM501 &
AM503T
29691
0.01 - 20 GHz. SYNTH. SWEEPER
HEWLETT-PACKARD
83620A
29694
1-12 GHz. HORN ANTENNA.
LOGIMETRICS
AN 8200 F
29696
HF CURRENT INJ. CLAMP
LUTHI
EM 101
29703
LF POWER AMPLIFIER
BRÜEL & KJÆR
2708
29781
DIGITAL MULTIMETER W. HPIB
HEWLETT-PACKARD
34401A
29800
SUHNER
6810.17.A
29806
RF ATTENUATOR, 50 OHM, 10 dB, DC-12.4 GHz
BROADBAND POWER AMPLIFIER, 10 kHz-220 MHz,
75 W
AMPLIFIER RESEARCH
75A220
29813
2-LINE CDN NETWORK, IEC 61000-4-6
MEB
M2
29815
3-LINE CDN NETWORK, IEC 61000-4-6
MEB
29844
-40 dBc VOLTAGE SAMPLER, DC-100 MHz
DELTA EMC DEPT.
M3
SAMPLER_VER_
2
29846
RF GENERATOR, 9 kHz-2.4 GHz
MARCONI
2024
29864
CAPACITIVE COUPLING CLAMP
DELTA EMC
IEC 1000-4-4
29865
CAPACITIVE COUPLING CLAMP
DELTA EMC
IEC 1000-4-4
29879
DIFFERENTIAL HIGH VOLTAGE PROBE, DC-25 MHz
TEKTRONIX
P5200
29911
HEWLETT-PACKARD
34401A
29913
DIGITAL MULTIMETER W. HPIB
ELECTRICAL FAST TRANSIENT (BURST)
GENERATOR
EM TEST
EFT 500
29914
ELECTRONIC SURGE GENERATOR
EM TEST
VCS 500
29936
SAMPLING OSCILLOSCOPE, 100 MHz, 500 MS/s
TEKTRONIX
TDS 340A
29977
RF POWER ATTENUATOR, 50 OHM, 6 dB, 150 W
NARDA
769-6
29984
RF POWER AMPLIFIER, 0.8-2.2 GHz, 200W
MILMEGA
29994
ESD GENERATOR, AIR AND CONTACT DISCHARGE
EM TEST
AS0822-200
ESD 30, P18 &
P30
49000
ROHDE & SCHWARZ
NRVS
49009
SINGLE CHANNEL POWER METER DISPLAY UNIT
CABLE#36, 3,25 M, 50 OHM, COAX CABLE,
N(STRAIGHT)-7/16, ROOM1
SUHNER
RG 214/U
49035
ACTIVE CURRENT PROBE HEAD FOR 29410
TEKTRONIX
49521
SHIELD-LINE CDN NETWORK, IEC 61000-4-6
DELTA EMC DEPT.
A6302
SHIELD-LINE
CDN
49526
COAX RF DIODE DETECTOR, NEG. OUTPUT, CS TEST AGILENT
8471D
49527
COAX RF DIODE DETECTOR, NEG. OUTPUT, CS TEST AGILENT
15 MHz FUNCTION / ARBITRARY WAVE
GENERATOR
HEWLETT-PACKARD
8471D
49552
HFR/lko
33120A
DANAK-1910203
DELTA-A505341
Page 26 of 54
Annex 2
Photos
HFR/lko
DANAK-1910203
DELTA-A505341
Page 27 of 54
Photo 1.
Vibration, resonance search, C6200.
Photo 2.
Vibration, resonance search, C6250.
HFR/lko
DANAK-1910203
DELTA-A505341
Page 28 of 54
Photo 3.
Vibration, endurance, e.g. Z-axis.
Photo 4.
Radiated emissions (0.15 - 30 MHz).
HFR/lko
DANAK-1910203
DELTA-A505341
Page 29 of 54
Photo 5.
Radiated emissions (30 - 2000 MHz).
Photo 6.
Conducted emissions.
HFR/lko
DANAK-1910203
DELTA-A505341
Page 30 of 54
Photo 7.
Radiated radio frequency interference (80 - 1000 MHz).
Photo 8.
Radiated radio frequency interference (1000 - 2000 MHz).
HFR/lko
DANAK-1910203
DELTA-A505341
Page 31 of 54
Photo 9.
Conducted radio frequency interference.
Photo 10.
Conducted low frequency interference.
HFR/lko
DANAK-1910203
DELTA-A505341
Page 32 of 54
Photo 11.
Electrostatic discharge.
Photo 12.
Slow transients (surge).
HFR/lko
DANAK-1910203
DELTA-A505341
Page 33 of 54
Photo 13.
Fast transients (burst).
Photo 14.
Climatic testing, in test chamber.
HFR/lko
DANAK-1910203
DELTA-A505341
Page 34 of 54
Photo 15.
HFR/lko
Climatic testing, test setup.
DANAK-1910203
DELTA-A505341
Page 35 of 54
Annex 3
Test record sheets - Conducted emissions
HFR/lko
DANAK-1910203
DELTA-A505341
Page 36 of 54
DELTA Electronics Testing, EMC Section
EUT:
Manufacturer:
Operating Condition:
Test Site:
Operator:
Test Specification:
Comment:
Start of Test:
C6200 & C6250
Selco A/S
Line: Line. Power input: BUSBAR Voltage, 230 VAC
EMC - 4
KKJ - A505341
IEC 60945, E10
Sheet 06
2008-03-28
SCAN TABLE: "CE 0.01-30 PK"
Unit:
Curve 1:
dBµV
Detector:
MaxPeak
Mode:
ClearWrite
Level [dBµV]
100
80
60
xxxxxxxxxx
xxxxxx xxx
xxx x
xxxxx
xxxxxxxxxx
x
x
x
xx
xxx
xxx
xxxx
xx
x
40
20
0
x
HFR/lko
10k
30k
100k
300k
Frequency [Hz]
MES CE 0.01-30 PK MaxPk
MES CE 0.01-30 QP QPk
LIM CE, IEC 60945, QP Conducted Emission
LIM CE, E-10 deck bridge Conducted Emission
1M
2M
4M
10M
30M
DANAK-1910203
DELTA-A505341
Page 37 of 54
DELTA Electronics Testing, EMC Section
EUT:
Manufacturer:
Operating Condition:
Test Site:
Operator:
Test Specification:
Comment:
Start of Test:
C6200 & C6250
Selco A/S
Line: Neutral. Power input: BUSBAR Voltage, 230 VAC
EMC - 4
KKJ - A505341
IEC 60945, E10
Sheet 07
2008-03-28
SCAN TABLE: "CE 0.01-30 PK"
Unit:
Curve 1:
dBµV
Detector:
MaxPeak
Mode:
ClearWrite
Level [dBµV]
100
80
60
xxxxxxxxx
xxxx xxxx
xx
40
20
0
x
HFR/lko
10k
30k
100k
300k
Frequency [Hz]
MES CE 0.01-30 PK MaxPk
MES CE 0.01-30 QP QPk
LIM CE, IEC 60945, QP Conducted Emission
LIM CE, E-10 deck bridge Conducted Emission
1M
2M
4M
10M
30M
DANAK-1910203
DELTA-A505341
Page 38 of 54
DELTA Electronics Testing, EMC Section
EUT:
Manufacturer:
Operating Condition:
Test Site:
Operator:
Test Specification:
Comment:
Start of Test:
C6200 & C6250
Selco A/S
Line: Line. Power input: Generator Voltage, 230 VAC
EMC - 4
KKJ - A505341
IEC 60945, E10
Sheet 08
2008-03-28
Level [dBµV]
100
80
60
xxxxxx
xxxxxxxxxxx
x
x
xx
40
20
0
x
HFR/lko
10k
30k
100k
300k
Frequency [Hz]
MES CE 0.01-30 PK MaxPk
MES CE 0.01-30 QP QPk
LIM CE, IEC 60945, QP Conducted Emission
LIM CE, E-10 deck bridge Conducted Emission
1M
2M
4M
10M
30M
DANAK-1910203
DELTA-A505341
Page 39 of 54
DELTA Electronics Testing, EMC Section
EUT:
Manufacturer:
Operating Condition:
Test Site:
Operator:
Test Specification:
Comment:
Start of Test:
C6200 & C6250
Selco A/S
Line: Neutral. Power input: Generator Voltage, 230 VAC
EMC - 4
KKJ - A505341
IEC 60945, E10
Sheet 09
2008-03-28
Level [dBµV]
100
80
60
x
xxxxxxxxx
xxxxxxx
x
xx
xxxxxxxxx
xxxx
xxxx
x
xxx
xxxx
xxx
40
20
0
x
HFR/lko
10k
30k
100k
300k
Frequency [Hz]
MES CE 0.01-30 PK MaxPk
MES CE 0.01-30 QP QPk
LIM CE, IEC 60945, QP Conducted Emission
LIM CE, E-10 deck bridge Conducted Emission
1M
2M
4M
10M
30M
DANAK-1910203
DELTA-A505341
Page 40 of 54
DELTA Electronics Testing, EMC Section
EUT:
Manufacturer:
Operating Condition:
Test Site:
Operator:
Test Specification:
Comment:
Start of Test:
C6200 & C6250
Selco A/S
Line: Pos. Power input: AUX Supply, 24VDC
EMC - 4
KKJ - A505341
IEC 60945, E10
Sheet 10
2008-03-28
Level [dBµV]
100
80
60
40
20
0
10k
30k
100k
300k
Frequency [Hz]
MES CE 0.01-30 PK MaxPk
LIM CE, IEC 60945, QP Conducted Emission
LIM CE, E-10 deck bridge Conducted Emission
HFR/lko
1M
2M
4M
10M
30M
DANAK-1910203
DELTA-A505341
Page 41 of 54
DELTA Electronics Testing, EMC Section
EUT:
Manufacturer:
Operating Condition:
Test Site:
Operator:
Test Specification:
Comment:
Start of Test:
C6200 & C6250
Selco A/S
Line: Neg. Power input: AUX Supply, 24VDC
EMC - 4
KKJ - A505341
IEC 60945, E10
Sheet 11
2008-03-28
Level [dBµV]
100
80
60
40
20
0
10k
30k
100k
300k
Frequency [Hz]
MES CE 0.01-30 PK MaxPk
LIM CE, IEC 60945, QP Conducted Emission
LIM CE, E-10 deck bridge Conducted Emission
HFR/lko
1M
2M
4M
10M
30M
DANAK-1910203
DELTA-A505341
Page 42 of 54
Annex 4
Test record sheets - Radiated emissions
HFR/lko
DANAK-1910203
DELTA-A505341
Page 43 of 54
DELTA Electronics Testing EMC Section
EUT:
Manufacturer:
Operating Condition:
Test Site:
Operator:
Test Specification:
Comment:
Start of Test:
C6200 & C6250
Selco A/S
Ant: Activ loop 0 Deg. Voltage: 24 VDC and 230 VAC
EMC - 5
PFN - A505341
E10 & IEC 60945 & IEC 60533
Sheet 04
27-03-2008 / 13:20:40
Level [dBµV/m]
80
70
60
50
40
30
20
10
0
150k
300k
500k
1M
2M
Frequency [Hz]
MES ME IEC 945 (0 MaxPk
LIM ME, IEC60533, QP
Magnetic Emission
LIM ME, IEC 60945, QP Magnetic Emission
LIM ME, E10, QP
Magnetic Emission
HFR/lko
3M
5M
7M
10M
30M
DANAK-1910203
DELTA-A505341
Page 44 of 54
DELTA Electronics Testing EMC Section
EUT:
Manufacturer:
Operating Condition:
Test Site:
Operator:
Test Specification:
Comment:
Start of Test:
C6200 & C6250
Selco A/S
Ant: Activ loop 90 Deg. Voltage: 24 VDC and 230 VAC
EMC - 5
PFN - A505341
E10 & IEC 60945 & IEC 60533
Sheet 05
27-03-2008 / 13:20:40
Level [dBµV/m]
80
70
60
50
40
x
30
20
10
0
150k
x
HFR/lko
300k
500k
1M
2M
Frequency [Hz]
MES ME IEC 945 (90 MaxPk
MES mfield 0001_fin QP
LIM ME, IEC 60945, QP Magnetic Emission
LIM ME, E10, QP
Magnetic Emission
3M
5M
7M
10M
30M
DANAK-1910203
DELTA-A505341
Page 45 of 54
DELTA Electronics Testing EMC Section
EUT:
Manufacturer:
Operating Condition:
Test Site:
Operator:
Test Specification:
Comment:
Start of Test:
C6200 and C6250
Selco A/S
Ant. 1 m vertical
EMC - 5
HEN - A505341
IEC 60945, E10 and IEC 60533
Sheet 12
27-05-2008
Level [dBµV/m]
60
50
x
x x
x
40
30
20
x
x
10
0
30M
x
50M
70M
100M
200M
Frequency [Hz]
300M
500M
1G
MES Maximering_fin QP
MES IEC945 1m 30 MaxPk 1
LIM RE, IEC 60945
Radiated Emission
MEASUREMENT RESULT: "Maximering_fin QP"
27-05-2008 15:07
Frequency
Level
MHz
dBµV/m
69.600000
160.015000
162.000000
400.050000
500.060000
550.070000
HFR/lko
41.50
15.00
18.00
49.40
49.10
48.00
Transd
dB
Limit
dBµV/m
Margin
dB
Height
cm
Azimuth
deg
8.0
12.7
12.7
18.9
20.8
21.8
54.0
24.0
24.0
54.0
54.0
54.0
12.5
9.0
6.0
4.6
4.9
6.0
124.0
167.0
101.0
124.0
104.0
104.0
18.00
214.00
181.00
318.00
27.00
25.00
Polarisation
VERTICAL
HORIZONTAL
VERTICAL
VERTICAL
VERTICAL
VERTICAL
2G
DANAK-1910203
DELTA-A505341
Page 46 of 54
DELTA Electronics Testing EMC Section
EUT:
Manufacturer:
Operating Condition:
Test Site:
Operator:
Test Specification:
Comment:
Start of Test:
C6200 and C6250
Selco A/S
Ant. 4 m horizontal
EMC - 5
HEN - A505341
IEC 60945, E10 and IEC 60533
Sheet 13
27-05-2008
Level [dBµV/m]
60
50
x
x x
x
40
30
20
x
x
10
0
30M
x
HFR/lko
50M
70M
100M
200M
Frequency [Hz]
MES IEC945 4m 30 MaxPk 1
MES IEC945 4m 30 MaxPk 3
MES Maximering_fin QP
LIM RE, IEC 60945
Radiated Emission
300M
500M
1G
2G
DANAK-1910203
DELTA-A505341
Page 47 of 54
Annex 5
Measurement curves - Vibration
HFR/lko
DANAK-1910203
DELTA-A505341
Page 48 of 54
CH1
100.0
Mea1/Mea5
X: 99.9553
Y : 1.83774
LogMag, Ratio
10.0
1.0
100.0m
10.0m
2.0
10.0
Frequency, Hz
SKIB_4_RES start 09:07:13
Curve 1
100.0
test date 09-04-2008
Resonance search, X-axis (max. ampl. fact.), C6200.
CH1
100.0
Mea1/Mea5
X: 99.9553
Y : 1.80966
LogMag, Ratio
10.0
1.0
100.0m
10.0m
2.0
10.0
Frequency, Hz
SKIB_4_RES start 12:30:27
Curve 2
HFR/lko
100.0
test date 09-04-2008
Resonance search, Y-axis (max. ampl. fact.), C6200.
DANAK-1910203
DELTA-A505341
Page 49 of 54
CH1
100.0
Mea1/Mea5
X: 75.4316
Y : 7.80534
LogMag, Ratio
10.0
1.0
100.0m
10.0m
2.0
10.0
Frequency, Hz
SKIB_4_RES start 16:09:20
Curve 3
100.0
test date 09-04-2008
Resonance search, Z-axis (max. ampl. fact.), C6200.
CH4
100.0
Mea4/Mea5
X: 99.9553
Y : 0.940748
LogMag, Ratio
10.0
1.0
100.0m
10.0m
2.0
SKIB_4_R ES start 09:07:13
10.0
Frequency, Hz
Curve 4
HFR/lko
test date 09-04-2008
Resonance search, X-axis (max. ampl. fact.), C6250.
100.0
DANAK-1910203
DELTA-A505341
Page 50 of 54
CH4
100.0
Mea4/Mea5
X: 99.9553
Y : 1.67339
LogMag, Ratio
10.0
1.0
100.0m
10.0m
2.0
SKIB_4_R ES start 09:23:51
10.0
Frequency, Hz
Curve 5
100.0
test date 09-04-2008
Resonance search, Y-axis (max. ampl. fact.), C6250.
CH4
100.0
Mea4/Mea5
X: 99.9553
Y : 2.71566
LogMag, Ratio
10.0
1.0
100.0m
10.0m
2.0
SKIB_4_R ES start 16:09:20
10.0
Frequency, Hz
Curve 6
HFR/lko
test date 09-04-2008
Resonance search, Z-axis (max. ampl. fact.), C6250.
100.0
DANAK-1910203
DELTA-A505341
Page 51 of 54
10.0
1.0
LogMag, g²/Hz
100.0m
10.0m
1.0m
100.0u
RMS: 3.94583
10.0u
1.0u
2.0
10.0
100.0
Frequency,
SKBDNV4GRMS start 09:36:13 test date
09-04-2008Hz
Curve 7
Endurance vibration, X-axis, 4 g rms.
10.0
1.0
LogMag, g²/Hz
100.0m
10.0m
1.0m
100.0u
RMS: 3.9663
10.0u
1.0u
2.0
10.0
Frequency,
SKBDNV4GRMS start 12:41:53 test date
09-04-2008Hz
Curve 8
HFR/lko
Endurance vibration, Y-axis, 4 g rms.
100.0
DANAK-1910203
DELTA-A505341
Page 52 of 54
10.0
1.0
LogMag, g²/Hz
100.0m
10.0m
1.0m
100.0u
RMS: 3.9679
10.0u
1.0u
2.0
10.0
Frequency,
SKBDNV4GRMS start 16:25:01 test date
09-04-2008Hz
Curve 9
HFR/lko
Endurance vibration, Z-axis, 4 g rms.
100.0
DANAK-1910203
DELTA-A505341
Page 53 of 54
Annex 6
Functional test procedure (from Client)
(This annex is informative and
not part of the accredited report)
HFR/lko
DANAK-1910203
DELTA-A505341
Page 54 of 54
C6200 Test description
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
18.
19.
HFR/lko
Attach 9VDC batteries to the 3 wire’s ALARM, PROT TRIP and PROGRAMMABLE OUTPUTS Attach 24VDC to AUX SUPPLY on C6200 and see AUX SUPPLY led light up Attach CANBUS connection between C6200 and S6500 Attach 24VDC to S6500 AUX module, after a few seconds it will show the BUS and GEN Voltage on the display. Attach C6250, after a few seconds it will show data on the display Attach 220VAC to GENERATOR VOLTAGE and BUSBAR VOLTAGE and see the GENERATOR VOLTAGE and BUSBAR VOLTAGE led’s light up, and see 220VAC in the display’s of the S6500 and the C6250 The green SYNC led on C6200 will now light up Bridge C/B and see the C/B led on the C6200 and the C/B CLOSED led on the S6500 light up Bridge PROGRAMMABLE INPUTS and see led 1 on PROGRAMMABLE INPUTS and PROGRAMMABLE OUTPUTS light up. Attach a voltmeter on PAR LINES and measure 5VDC Attach a voltmeter on ANA OUT and measure 5VDC Attach a voltmeter on GOV CONTROL and measure 5VDC Attach a voltmeter on AVR CONTROL and measure 500HZ with a duty cycle at 50% Bridge ANA IN Attach the RS485 cable from laptop to RS485 on the C6200 Run the C6200_RS485 test on the laptop push the start button on the C6200_RS485 test program on the laptop The unit are now ready for test It is consider an error if any of the led’s on the C6200 alters its state