Power-One CPD250-4530 200 - 250 watt compactpci dc-dc converter Datasheet

CPD Series Data Sheet
200 – 250 Watt CompactPCI ® DC-DC Converters
®
Features
Compliant with PCIMG® CompactPCI® specifications.
Input-to-output isolation.
4 high current outputs.
• RoHS lead-free solder and
exempted products are available
lead-free-solder-
• Flexible load-distribution
• Integrated ORing FETs / diodes for true redundancy
• Inhibit and enable inputs
• Remote sense lines
• Single-wire current share for 3 outputs
• Hot-swap capability
• Extremely low inrush current
• Extremely high efficiency
• 1500 VDC input to PE (case) electric strength test
• Positronic 47-pin connector
• Automatic output power derating at high temperature
• Overtemperature,
protection
3U
100
3.9"
8 HP
41
1.6"
overvoltage,
and
overcurrent
Safety according to IEC/EN 60950-1, UL 60950
162.5
6.4"
PRODUCT SERVICE
Production monitored
Type tested
Description
The CPD Series are highly reliable power supplies for
CompactPCI® systems, which are increasingly used in
communications, industrial, military, aerospace, and other
applications. These power supplies offer high power
density in plug-in modules that meet the requirements of
the PICMG® power interface specification for CompactPCI® systems.
The converters use the patented EDGETM technology and
provide important advantages such as flexible output
power, extremely high efficiency, excellent reliability, full
input-to-output isolation, negligible inrush current, hot
swap capability, soft start, and overtemperature
protection. The inputs are protected against surges and
transients occurring on the source lines and cover an
input voltage range from 36 VDC up to 75 VDC. The
outputs have continuous overload, open-circuit, and
Table of Contents
The aluminium case acts as a heat sink and as RFI shield.
It is particularly suitable for vertical mounting in 19" rack
systems, but it can also be mounted in any other position
as long as the necessary airflow is ensured. The
connector is a 47-pin type from Positronic.
Page
Description ..................................................................... 1
Model Selection ............................................................. 2
Functional Description ................................................... 2
Electrical Input Data ....................................................... 3
Electrical Output Data .................................................... 4
Auxiliary Functions ......................................................... 6
NOV 28, 2006 revised to JAN 29, 2007
short-circuit protection. LEDs on the front panel, a
temperature warning signal, and a fail signal indicate the
status of the power supply. Voltage suppressor diodes
protect the input against overvoltage. Full n+1 redundant
operating mode is made by integrated ORing FETs /
diodes. When several converters are connected in
parallel, a single-wire connection between converters
ensures current sharing. The converters are designed as
two separate forward converters with synchronous
rectifiers at the outputs. The switching frequency is fixed at
approx. 135 kHz.
Page
Electromagnetic Compatibility (EMC) ............................ 9
Immunity to Environmental Conditions ........................ 10
Mechanical Data .......................................................... 11
Installation Instructions ................................................ 12
Declaration of Conformity ............................................ 13
Page 1 of 13
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CPD Series Data Sheet
200 – 250 Watt CompactPCI ® DC-DC Converters
®
Model Selection
Model 3
Output
Input voltage
No.
Vo nom
[VDC]
Io nom
[A]
Io max
[A]
CPD200-4530
CPD200-4530G
Vo1
Vo2
Vo3
Vo4
5.0
3.3
12
–12
20
20
2.5
0.5
CPD250-4530
CPD250-4530G
Vo1
Vo2
Vo3
Vo4
5.0
3.3
12
–12
25
20
4
1
1
2
3
Rated power 1
Efficiency 2
Case
ηtyp
[%]
2
1
Vi min – Vi max
Po nom
[W]
40
40
5.5
2
36 – 75 VDC
200
82
3U x 8HP
40
40
5.5
2
36 – 75 VDC
250
82
3U x 8HP
The sum of the power of all outputs may not exceed the total power for the specified required forced-air cooling.
Typical efficiency at Vi nom, Io nom.
Models ending with G are RoHS-compliant for all 6 substances.
Product Marking
Label with specific type designation, applicable safety
approvals and recognition marks, CE mark, warnings,
Power-One patents and company logo, input voltage range,
Functional Description
The converter input is protected against surges and
transients occurring on the source lines. The highly efficient
input filter and the active inrush limiter ensure a very low
inrush current of short duration. This prevents circuit
nominal output voltage and output current, degree of
protection, batch no., serial no. and data code including
production site, modification status and date of
production. Identification of LEDs.
breakers and fuses from being damaged at switch on.
The converter is equipped with two independent high
efficiency 2-switch forward converters, switching 180° out
of phase to minimize ripple current at the input. Both
converters are fully regulated. On the secondary side, two
Secondary control circuit
Forward
converter
140 kHz
Forward
converter
140 kHz
Secondary
control
circuit
Inrush
current
limiter
Primary control circuit
Vi
Input filter
03110a
Linear
Regulator
Or-ing
FET
Vo1
Or-ing
FET
Vo2
Or-ing
diode
Vo3
Or-ing
diode
Vo4
Fig. 1
Block diagram. Pin allocation see Mechanical Data
NOV 28, 2006 revised to JAN 29, 2007
Page 2 of 13
www.power-one.com
CPD Series Data Sheet
200 – 250 Watt CompactPCI ® DC-DC Converters
®
high current synchronous rectifiers supply the 5 V and 3.3 V
outputs with up to 40 A. The secondary controlled +12 V
post regulator is supplied by an additional winding of the
3.3 V main transformer, and the linear regulator for the –12
V output is supplied by the output choke of the +12 V
output. After rectification, the output filter reduces ripple
and noise to a minimum without compromising the dynamic
response.
All outputs are protected from the bus by decoupling FETs
or diodes. A current monitor calculates the output power. As
soon as the output power exceeds the maximum threshold
level, the converter starts to reduce the output power by
decreasing the output voltages.
In contrast to the outputs 5 V, 3.3 V and +12 V with
active current sharing, the –12 V output has a droop
characteristic for passive current sharing. Each converter
has a switching frequency of around 135 kHz.
Power-One's Efficient Dual Geometric Edge (EDGETM)
Technology facilitates high current density, increases
reliability by reducing component stresses, and
decreases the amount of heat dissipated. The backbone
of this patented technology is an interleaved, multichannel forward converter utilising transitional resonant
switching techniques and proprietary leading and trailingedge pulse width modulation. It has a proven track record
in high-availability power solutions.
Electrical Input Data
General Conditions:
TA = 25 °C, unless TC is specified.
Table 2: Input data
Input
CPD200
Characteristics
Conditions
min
typ
Vi
Operating input voltage
Vi nom
Nominal input voltage
Vi abs
Input voltage limits
without damage
Ii
Typical input current
Vi nom, Io nom
5.1
Ii max
Max. input current
Vi min, Io nom
7.0
Io = 0 – Io max
TC min – TC max
36
CPD250
max
min
75
36
typ
48
max
Unit
75
VDC
48
80
80
6.3
7.6
8.7
A
9.5
Iinr p
Peak inrush current
Vi max, Io nom
12
12
P i0
No-load input power
Vi min – Vi max
Io = 0
30
30
P i inh
Input power, when disabled Vi min – Vi max
3.2
3.2
Ci
Input Capacitance
1360
1360
µF
fswitch
Switching frequency
135
135
kHz
Input Fuse
A fuse mounted inside the converter protects the module
against further damage in the case of a failure. The fuse
cannot be made externally accessible. Reverse polarity at
the input will cause the fuse to blow but no other damage.
Note: Fuse is not customer-accessible.
Fuse type
Fuse rating
CDP200/250
slow blow
T 250 V, 12.5 A
Input Transient Protection
The CPD Series input range and input filters have been
designed and tested to meet the requirements of
EN 61000-4-5, criterion B.
Inrush Current Limitation
The CPD Series incorporates an active inrush current
limiter in the input circuitry, which reduces the peak inrush
current value by a factor of 10 – 15 to protect connectors
and switching devices from damage.
NOV 28, 2006 revised to JAN 29, 2007
Note: The inrush current limitation is achieved using an
electronic circuitry. For effective limitation the converter
should not be switched on and off more frequently than
every 8 seconds.
A metal oxide VDR (Voltage Dependent Resistor)
together with the input fuse and suppressor diode form
an effective protection against high input voltage
transients, which typically occur in most installations.
Table 3: Fuse specification
Model
W
Reverse Polarity
The converters are not protected against reverse polarity
at the input to avoid unwanted power loss. In case of
reversed input voltage, the suppressor diode conducts
blowing the fuse, but preventing further damage.
Page 3 of 13
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CPD Series Data Sheet
200 – 250 Watt CompactPCI ® DC-DC Converters
®
Electrical Output Data
General Conditions:
– TA = 25 °C, unless Tc is specified.
– CPD200: 250 LFM (1.25 m/s), CPD250: 400 LFM (2 m/s),
– Sense lines connected directly at the connector.
Table 4a: Output data for Vo1, Vo2
Output
Vo1
5.0 V
Vo2
3.3 V
Characteristics
Conditions
min
typ
max
min
typ
max
Unit
Vo
Vi nom, 50% Io nom
4.95
5.0
5.05
3.267
3.3
3.333
VDC
Output voltage
20/25 1
Io nom Nominal output current
Io max Max. output current
IoL
Output current limit
Io min
Minimum load
vo
Output
voltage
noise
Switch. frequ.
Total
Vi min – Vi max
TC min – TC max
20
40
40
50
50
no min. load required
no min. load required
Vi nom, Io nom
BW = 20 MHz
C ext = 22 µF + 100 nF
mVpp
60
60
∆VoV Static line regulation
Vi min – Vi max, Io nom
±25
±18
∆VoL
Vi nom, 50 – 100% Io max
±50
±33
Static load regulation
∆VoS Overshoot at switch on/off
vo d
td
Dynamic Voltage
load
deviation
regulation
Recovery
time
0
mV
0
± 120
± 120
100
100
Vo1: ∆Io = 10 A, dI o/dt = 2 A/µs
Vo2: ∆Io = 10 A, dI o/dt = 2 A/µs
αVo
Temperature coefficient
of output voltage
TC min – TC max
0 – Io nom, Vi min – Vi max
th
Hold-up time
starting at Vi nom, Io nom
ts
Start-up time
Vi nom, Io nom
1
A
±0.3
±0.2
4
mV/K
4
150
200
µs
ms
150
200
CPD200: 20 A, CPD250: 25 A
NOV 28, 2006 revised to JAN 29, 2007
Page 4 of 13
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CPD Series Data Sheet
200 – 250 Watt CompactPCI ® DC-DC Converters
®
Table 4b: Output data for Vo3, Vo4
Output
Vo3
12 V
Characteristics
Conditions
Vo
Vi nom, 50% Io nom
Output voltage
min
11.88
IoL
Output current limit
Io min
Minimum load
vo
Output
voltage
noise
Switch. frequ.
Total
typ
max
min
12.0
12.12
–11.52
2.5/4 1
Io nom Nominal output current
Io max Max. output current
Vo4
–12 V
Vi min – Vi max
TC min – TC max
typ
max
Unit
–12.0
–12.48
VDC
0.5/1 1
5.5
2
7
I o3 > 75% Io 4
Vi nom, Io nom
BW = 20 MHz
Cext = 22 µF + 100 nF
2
3.5
no min. load required
mVpp
120
120
∆VoV Static line regulation
Vi min – Vi max, Io nom
±60
±60
∆VoL
Vi nom, 50 – 100% Io max
±120
– 480 3
Static load regulation
∆VoS Overshoot at switch on/off
vo d
td
0
Temperature coefficient
of output voltage
TC min – TC max
0 – Io nom, Vi min – Vi max
th
Hold-up time
starting at Vi nom, Io nom
ts
Start-up time
Vi nom, Io nom
1
Values for CPD200/CPD250
2 Required
mV
0
Dynamic Voltage
Vo3: ∆Io = 2 A, dIo /dt = 2 A/µs
load
deviation
Vo4: ∆Io = 0.5 A, dIo /dt = 2 A/µs
regulation Recovery time
αVo
A
± 200
± 200
500
500
±0.3
±0.5
4
mV/K
4
150
to maintain regulation of Vo4
3 Droop
200
µs
ms
150
200
characteristic for passive current sharing
Hold-up Time
For extended hold-up time, use external output capacitors
or decoupling diodes and input capacitors of adequate
size.
Formula for additional external input capacitor
2 • Po • (t h total – t h) • 100
C i ext = ––––––––––––––––––––
η • (Vti2 – Vi min2)
where as:
C i ext
=
=
Po
η
=
th total =
th
=
Vi min
=
Vti
=
All outputs have a constant current limitation with a
rectangular characteristic (see figure below). The total
current from the main power trains Vo1, Vo2 and Vo3 is
limited by Po max. So there is a free choice of load
distribution between these outputs.
Vo/Vo nom
1.0
0.95
external input capacitance [mF]
output power [W]
efficiency [%]
total hold-up time [ms]
hold-up time [ms]
minimum input voltage [V]
threshold level [V]
Io nom
Io max
Io L
05186a
0.5
Hot Swap
Hot swap is possible. Using the hot-swap capability, the
output voltages may deviate dynamically by max. 5%
during the plug-in / plug-out operations.
Output Protection and Current Limitation
Io
0
Fig. 2
Current limitation behavior of a CPD.
The outputs are fully protected against continuous open
circuit (no load) and also against continuous short circuit.
NOV 28, 2006 revised to JAN 29, 2007
Page 5 of 13
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CPD Series Data Sheet
200 – 250 Watt CompactPCI ® DC-DC Converters
®
Thermal Considerations
If a converter CPD is mounted in an upright position with air
flow of 250 LFM (CPD200) or 400 LFM (CPD250) allowing
unrestricted forced air cooling, and is operated at its
nominal input voltage and power at maximum ambient
temperature TA max (see: Temperatures), the temperature
measured at the measurement point of the case
temperature TC (see: Mechanical Data) will approach the
indicated maximum value TC max (105 °C) after an initial
warm-up phase. However, the relationship between TA and
TC depends heavily on the operating conditions and
system integration. The thermal conditions are influenced
significantly by the input voltage, the output current, the
airflow, and the temperature of the adjacent elements and
surfaces. TA max is therefore contrary to TC max only an
indicative value.
Caution: The installer must ensure that under all
operating conditions TC remains within the limits shown in
the diagrams fig. 3 valid for a converter mounted in free
and quasi-stationary air, allowing unrestricted convection
cooling.
Note: Forced-air cooling or an additional heat sink can
improve the reliability or allow TA to be increased above
TA max provided that TC max is not exceeded.
Thermal Protection
A temperature sensor fitted on the main PCB provides an
over temperature warning (degrade) signal 15 °C before
the temperature Tc max at which the thermal derating
begins to reduce the output power. The output power
returns to the nominal value, if the temperature drops
back below this limit. See Temperature Warning and
Shut-Down.
Po /Po nom
Po /Po nom
250 LFM = 1.25 m/s
200 LFM = 1 m/s
05190-CPA200
1.0
0.6
0.5
400 LFM
= 2 m/s
0.6
0.5
Convection cooling
in upright position
Convection cooling
in upright position
0
05190a
1.0
TA min
30
40
50
70
0
90 °C
Fig. 3a
Output power versus temperature TA (CPD200)
30
TA min
40
50
90 °C
70
Fig. 3b
Output power versus temperature TA (CPD250)
Auxiliary Functions
pin 24), the internal logic will disable all outputs. The inhibit
input is protected by a decoupling diode.
Inhibit
Table 5: Inhibit data
The inhibit input enables (logic high, pull up) or disables
(logic low, pull down) all outputs, if a logic signal (TTL,
CMOS) is applied. In systems consisting of several
converters this feature may be used to control the
activation sequence of the converters by means of logic
signals, or to enable the source to start up, before full load
is applied.
Characteristics
Vinh
Conditions min
typ max Unit
Inhibit
Vo = off Vi min – Vi max –2
voltage
I = 0 – Io max
Vo = on o
2.4
0.8
tr
Rise time
120
tf
Fall time
Note: If this function is not used, the inhibit pin 39 can be left
open (not connected). If pin 39 is connected to a return (e.g.
V
50
ms
depending on I o
Vo /Vo nom
1
06155a
06153b
46
INH#
0.1
0
39
RTN
Fig. 4
Definition of Vinh.
NOV 28, 2006 revised to JAN 29, 2007
tf
Inhibit
1
Vinh
47
t
tr
0
(24)
t
Fig. 5
Typical output response as a function of inhibit voltage.
Page 6 of 13
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CPD Series Data Sheet
200 – 250 Watt CompactPCI ® DC-DC Converters
®
Enable
Power Fail Signal
Connect enable pin 27 (EN#) with signal return pin 22
(RTN) externally to start the converter. Pin 27 is shorter
than the others ensuring startup only when all other pins
are already connected to the system providing a true hotswap capability.
The power fail circuitry monitors the input voltage and all
output voltages. Its output signal Vfail changes from high to
low impedance, when one of the monitored voltages falls
below the threshold level; Vfail changes back to high
impedance, when the monitored voltage exceeds the
threshold level again.
Temperature Warning and Shut-Down
The temperature warning circuitry monitors the case
temperature. Its output signal changes from high to low
impedance, when the case temperature exceeds the
upper threshold level, and changes back to high
impedance, when the case temperature falls below the
lower threshold level.
Pin 38 (degrade signal VDEG#) is internally connected via
the collector-emitter path of an NPN transistor to the
signal return pin 22. The current I DEG# through should not
exceed 40 mA. To prevent the NPN transistor from
damage, VDEG# should not exceed 40 V.
The threshold levels correspond to approx. 90% of Vi min
and approx. 85% of Vo nom.
Connector pin 42 (fail signal Vfail) is internally connected
via the drain-source path of a JFET (self-conducting type)
to the signal return pin 22. The current Ifail should not
exceed 2.5 mA. The JFET is not protected against
overvoltage; Vfail should not exceed 40 V.
11006a
Vo+
46
Rp
42
Input
If the case temperature TC exceeds 105 °C, the converter
will be disabled. It resumes operation, once TC falls below
105 °C.
Ifail
FAL#
Vfail
11056a
Vo+
46
47
22
RTN
Input
Rp
Fig. 8
Power Fail: JFET output, Ifail ≤2.5 mA.
IDEG#
38
DEG#
Sense Lines
VDEG#
(Only for Vo1, Vo2 and Vo3.)
22
47
RTN
Fig. 6
Degrade signal: NPN output VDEG# ≤40 V, I DEG# ≤20 mA
Po /Po max
VDEG# [V]
10
05189a
1
8
0.8
0.6
degrade signal
4
0.4
2
0.2
0
0
60
70
80
100
90
110 °C
Fig. 7
Degrade signal VDEG# versus case temperature TC
Case Temperature
min
typ
max
80 °C
85 °C
90 °C
NOV 28, 2006 revised to JAN 29, 2007
The voltage difference between any sense line at its respective power output pin (as measured on the connector)
should not exceed the following values.
Table 7: Sense line data
Output
[V]
3.3
Total voltage difference between sense lines
and their respective outputs
0.8 V
5
1V
12
1V
Note: The output terminals Vo+ and Vo – must always be
connected to the load before connecting the sense lines S+
and S–, otherwise the converter will be damaged.
Table 6: Degrade threshold level
Threshold level
To ensure correct operation, each sense line (S+ and S–)
should be connected to its respective power output (Vo+
and Vo–).
Note: All outputs have a common sense return.
thermal shut-down
6
This feature allows the compensation of voltage drops
across the connector contacts and if necessary, across
the load lines.
Note: If the sense lines S+ and S– compensate for a
considerable voltage drop, the output loads shall be
reduced in order to respect the maximum output power.
Page 7 of 13
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CPD Series Data Sheet
200 – 250 Watt CompactPCI ® DC-DC Converters
®
Active Current Sharing for Vo1, Vo2, Vo3
without further precautions, when several converters are
connected in parallel. An increase in output current
decreases the output voltage according to the formula:
The current sharing facility, consisting of a single-wire link,
should be used, where several converters are operated in
parallel connection, for example, high reliability n+1
redundant systems or systems providing higher output
power. Not more than six converters should be connected
in parallel.
Vo = 12 V + (0.5 –
Io
) • 0.96 V
Io nom
∆Vo
Using this feature reduces the stress on the individual
converters and improves the reliablity of the system.
Interconnection of the current sharing terminals causes the
converters to share the output current evenly. In n+1
redundant systems a failure of a single converter will not
lead to a system failure, since the outputs are already
decoupled by FETs and diodes internally.
05188a
4%
Vo set 0
–4%
Load
regulation
Io /Io nom
0.01
Passive Current Sharing for Vo4
0.5
1
Fig. 9
Output voltage Vo 4 versus output current Io 4.
The output voltage changes slightly with the output current
(droop characteristic) ensuring automatic current sharing
LEDs
A green LED "Input OK" and a red LED "Fault" are incorporated in the front panel.
06156a
Input OK
Fault
Vi
LEDs "Input OK" and "Fault" status versus input voltage.
Conditions: Po – Po max , TC – TC max , Vinh = open
IO
LED "Fault" status versus output current.
Conditions: Vi min – Vi max, TC – TC max , Vinh = open
TC
LED "Fault" status versus case temperature.
Conditions: Po – Po max , Vi min – Vi max , Vinh = open
Vi max
Vi min
Fault
IoL
Fault
TC max
Vinh threshold
LED "Fault" status versus Vinh.
Fault
Vi inh Conditions: Po – Po max , Vi min – Vi max , TC – TC max
-2 V
+0.8 V
+2.4 V
+50 V
LED Status undefined
LED off
LED on
If +12 V bus voltage is present, LED is on.
NOV 28, 2006 revised to JAN 29, 2007
Page 8 of 13
Fig. 10
Display status of LEDs
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CPD Series Data Sheet
200 – 250 Watt CompactPCI ® DC-DC Converters
®
Electromagnetic Compatibility (EMC)
A metal oxide VDR together with an input fuse and filter
form an effective protection against high input transient
voltages which typically occur in most installations. The
CPD Series has been successfully tested to the following
specifications:
Electromagnetic Immunity
Table 8: Immunity type tests
Phenomenon
Standard
Level
Coupling
mode 1
Value
applied
Waveform
Source
imped.
Test
procedure
Electrostatic
discharge
(to case)
IEC/EN
61000-4-2
4
contact discharge
8000 Vp
1/50 ns
330 Ω
yes
A
air discharge
15000 Vp
10 positive and
10 negative
discharges
Electromagnetic IEC/EN
field
61000-4-3
3
antenna
10 V/m
AM 80%
1 kHz
n.a.
80 – 1000 MHz
yes
A
10 V/m
50% duty cycle
200 Hz repetition frequency
capacitive, o/c
1000 Vp
50 Ω
A
2000 Vp
60 s positive
60 s negative
transients per
coupling mode
yes
direct, i/c, +i/– i
bursts of 5/50 ns
2.5/5 kHz over
15 ms; burst
period: 300 ms
1.2/50 µs
12 Ω
5 pos. and 5 neg.
surges per
coupling mode
yes
B
2Ω
150 Ω
0.15 – 80 MHz
yes
A
Electrical fast
transients/burst
IEC/EN
61000-4-4
3
Surges
IEC/EN
61000-4-5
3
IEC/EN
61000-4-6
3
Conducted
disturbances
1
2
i/c
2000 Vp
+i/– i
1000 Vp
i, o, signal wires
10 VAC
(140 dBmV)
AM 80%
1 kHz
In
Peroper. form. 2
900 ±5 MHz
i = input, o = output, c = case connedted to PE
A = normal operation, no deviation from specifications, B = temporary deviation from specs possible.
Electromagnetic Emission
Radiated and conducted emissions meet class A according
to EN 55011/55022.
[dBmV/m]
50
EN 55022 A
40
EN 55022 B
EN 55022 A
CPD250_cond_qp
07122a
30
EN 55022 B
20
10
Fig. 11
Typical disturbance voltage (quasi peak) at the input
according to EN 55022, measured at Vi nom and Io nom
(CPD250-4530).
NOV 28, 2006 revised to JAN 29, 2007
300
250
230
200
150
100
50
30
[MHz]
Fig. 12
Typical radiated electromagnetic field strength (quasi
peak) according to EN 55011/55022, normalised to a
distance of 10 m, measured at Vi nom and Io nom.
Page 9 of 13
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CPD Series Data Sheet
200 – 250 Watt CompactPCI ® DC-DC Converters
®
Immunity to Environmental Conditions
Table 9: Mechanical and climatic stress
Test method
Ca
Standard
Test conditions
Status
Temperature:
Relative humidity:
Duration:
40 ±2 °C
IEC/EN 60068-2-27
Acceleration amplitude:
Bump duration:
Number of bumps:
20 gn
11 ms
18 (3 in each direction)
Converter
operating
Bump
(half-sinusoidal)
IEC/EN 60068-2-29
Acceleration amplitude:
Bump duration:
Number of bumps:
15 gn
6 ms
6000 (1000 in each direction)
Converter
operating
Random vibration
wide band
Reproducibility
high
IEC/EN 60068-2-35
Acceleration spectral density:
Frequency band:
Acceleration magnitude:
Test duration:
0.05 g n2/Hz
20 – 500 Hz
4.9 gn rms
3 h (1 h in each axis)
Converter
operating
Drop test
Converter in proper packing
0.75 m
3 directions
Not
operating
Damp heat
steady state
IEC/EN 60068-2-78
Ea
Shock
(half-sinusoidal)
Eb
Fda
Converter
not
operating
93 +2/-3 %
56 days
Temperatures
Table 10: Temperature specifications, valid for an air pressure of 800 – 1200 hPa (800 – 1200 mbar)
Relative humidity 3 [%]
Characteristics
Conditions
min
TA
Operational 1
Ambient temperature
temperature 2
TC
Case
TS
Storage temperature
Rth C-A
Thermal resistance case to ambient in still air
1
2
3
Non operational
typ
Temperature [°C]
max
min
5
95
–25
50
5
95
–25
105 2
95
–40
85
10
typ
max
2 K/W
See: Thermal Considerations.
Overtemperature shut-down at TC ≥105 °C
Non condensing humidity
Reliability
Table 11: MTBF
Ratings at specified
case temperature
Model
MTBF acc. to
CPD250-4530
MIL-HDBK-217F, notice 2
NOV 28, 2006 revised to JAN 29, 2007
Ground
benign
40 °C
Ground fixed
40 °C
288 000
59 000
Page 10 of 13
Unit
70 °C
Ground
mobile
50 °C
33 000
27 000
h
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CPD Series Data Sheet
200 – 250 Watt CompactPCI ® DC-DC Converters
®
Mechanical Data
European
Projection
Dimensions in mm.
169.4 (6.671")
2.54 (0.1")
162.5 (6.399")
09135a
128.7 (5.067")
95 (3.74")
100 (3.937")
Measuring point for
case temperature TC
12.88 (0.507")
6.6 (0.26")
Airflow
Fig. 13
Overall size: 162.5 mm x 128.7 mm x 40.6 mm
Weight: 0.8 kg
40.6 (1.60")
Fig. 14
View of the Positronic
connector
Connector: Positronic PCIH47M400A1
10087a
1 3 5 7 9 11 13 15 17 19 21 24 27 30 33 36 39 42
46
22 25 28 31 34 37 40 43
23 26 29 32 35 38 41 44
Connector Pin Allocation
The connector pin allocation table defines the electrical
potentials and the physical pin positions on the Positronic
connector. Pin no. 45 (protective earth) pin is a leading
pin, ensuring that it makes contact with the female
connector first.
45
2 4 6 8 10 12 14 16 18 20
47
Fig. 15
Pinout of the Positronic (PCIH47M400A1) connector.
Maiting connector: PCIH47F300A1
Table 12: Pin allocation of the Positronic (PCIH47M400A1) connector
Pin1
Length 2
1-4
5-12
13-18
19
20
21
22
23
24
25
26
27
28
29
30
31
B
B
B
B
B
C
C
C
C
C
C
D
C
C
C
C
1
2
3
Signal
name
Vo1
RTN
Vo2
RTN
Vo3
Vo4
RTN
Reserved
RTN
n.c.
Reserved
EN#
n.c.
n.c.
Vo1SENSE
n.c.
Description
Output 1
Return (Vo1 and Vo2)
Output 2
Return (Vo3)
Output 3
Output 4
Return
Reserved
Return (Vo4)
Do not connect
Reserved
Enable
Do not connect
Do not connect
Vo1 remote sense
Do not connect
Pin1 Length 2
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
C
C
C
C
C
C
C
C
C
C
C
C
C
A3
A
A
Signal
name
n.c.
Vo2SENSE
SRTN
Vo1SHARE
Vo3SENSE
n.c.
DEG#
INH#
n.c.
Vo2SHARE
FAL#
n.c.
Vo3SHARE
CGND
+DCIN
–DCIN
Description
Do not connect
Vo2 remote sense
Sense return
Vo1 current share
Vo3 remote sense
Do not connect
Degrade signal
Inhibit
Do not connect
Vo2 current share
Fail signal
Do not connect
Vo3 current share
Chassis ground
Positive input
Negative input
Pin numbers shown are for the female backplane connector
A = very long pins, B = long pins, C = short pins, D = very short pins.
Pin 45 of the female connector is leading, ensuring that chassis ground makes contact first.
NOV 28, 2006 revised to JAN 29, 2007
Page 11 of 13
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CPD Series Data Sheet
200 – 250 Watt CompactPCI ® DC-DC Converters
®
Installation Instructions
Standards and Approvals
These converters are components, intended exclusively for
installation within other equipment by an industrial
assembly process or by a professionally, competent
person. Installation must strictly follow the national safety
regulations in respect of the enclosure, mounting,
creepage distances, clearance, casualty markings, and
segregation requirements of the end-use application.
The converters correspond to class I equipment.
Connection to the system shall be made via the mating
female connector (see fig. 15). Other installation methods
may not meet the safety requirements. Check for
hazardous voltages before altering any connections.
The converters are provided with a leading pin no. 45,
which is reliably connected to the case. For safety reasons
it is essential to connect this pin to the protective earth of
the supply system, see also: Safety of Operator-Accessible
Output Circuits.
All converters are UL-recognized according to UL 60950
and CAN/CSA C22.2 No. 60950, and approved by TÜV
to IEC/EN 60950-1:2001. The following considerations
have been made during design concerning safety :
• Build-in component
• Basic insulation between input and output, based on
75 VDC. The input is identified as TNV-2.
• Operational insulation between output(s) and case
• Use in a pollution degree 2 environment.
The converters are subject to manufacturing surveillance
in accordance with the above mentioned UL standards
and ISO 9001:2000.
Isolation
The electric strength test is performed as factory test in
The Vi input (pin no. 46) is internally fused. This fuse is
accordance with EN 50116 and EN/IEC 60950 and
designed to protect the converter in case of over current,
should not be repeated in the field (see table Isolation).
but may not be able to satisfy all customer requirements.
Power-One will not honour any guarantee claims
External fuses in the wiring to one or both input pins (no. 46
resulting from electric strength field tests.
and/or no. 47) may therefore be necessary to ensure
compliance with local requirements.
Table 13: Isolation
Important: If the inhibit function is not used, pin
39 (i) should be left unconnected to enable the
outputs. Enable Pin 27 (EN#) should be
connected to pin 22 (RTN) to enable the outputs.
Do not open the converters, or the warranty
will be invalidated. Make sure that there is
sufficient airflow available for convection
cooling. This should be verified by measuring
the case temperature, when the converter is
installed and operated in the end-use
application. The maximum specified case
temperature TC max should not be exceeded.
Characteristic
Electric
strength
test
Unit
Actual factory test ≥1 s
15001
700
VDC
AC test voltage equivalent
to factory test
1000
500
VAC
>300
>300
MΩ
Insulation resistance at 500 VDC
1
Input to
Outputs
case + outputs to case
According to IEC/EN 60950, subassemblies connecting input to output
are pre-tested with ≥ 3 kVDC.
Make sure that a converter failure (e.g., by an internal
short-circuit) does not result in a hazardous condition.
Cleaning Agents
The power supplies are not hermetically sealed. In order to
avoid possible damage, any penetration of cleaning fluids
is to be avoided.
Protection Degree
The converters correspond to protection degree IP 20,
provided that the female connector is fitted.
Safety of Operator-Accessible Output Circuits
If the output circuit of a DC-DC converter is operatoraccessible, it shall be a SELV circuit according to the
IEC/EN 60950 related safety standards.
However, it is the sole responsibility of the installer to
ensure the compliance with the relevant and applicable
safety regulations.
NUCLEAR AND MEDICAL APPLICATIONS - Power-One products are not designed, intended for use in, or authorized for use as
critical components in life support systems, equipment used in hazardous environments, or nuclear control systems without the
express written consent of the respective divisional president of Power-One, Inc.
TECHNICAL REVISIONS - The appearance of products, including safety agency certifications pictured on labels, may change depending
on the date manufactured. Specifications are subject to change without notice.
NOV 28, 2006 revised to JAN 29, 2007
Page 12 of 13
www.power-one.com
CPD Series Data Sheet
200 – 250 Watt CompactPCI ® DC-DC Converters
®
Declaration of Conformity
Declaration of Conformity
CE MARKING
We, Power-One, Inc.,740 Calle Plano, Camarillo, CA. 93012 USA
declare under our sole responsibility that the products;
Power Supply Model: CPD200 and CPD250 Series
to which this declaration relates, is/are in compliance with the following document(s):
Quality Standard(s):
ISO 9001, EN 29001
Directive:
DIR 73/23/EEC, Low Voltage Directive
Product Safety Standard(s):
EN 60950-1: 2001
IEC 60950-1: 2001
(Licensed by a Notified Body to the European Union )
These component level power supplies are intended exclusively for inclusion within
other equipment by an industrial assembly operation or by professional installers per the
Installation Instructions provided with the power supplies. The power supply is
considered Class I and must be connected to a reliable earth grounding system.
Camarillo, Ca.
(Manufacturer)
(Place)
October 24, 2006
(Date)
Robert P. White Jr.
Product Safety Director
NOV 28, 2006 revised to JAN 29, 2007
Page 13 of 13
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