LINEAGEPOWER JPW200S52R51-BH

Data Sheet
March 26, 2008
JPW200S52R5-BH Power Module; dc-dc Converter
38 Vdc - 75 Vdc Input, 52.5 Vdc Output; 200W
RoHS Compliant
Features
Compatible with RoHS EU Directive 2002/95/EC (-Z Versions)
n
Compatible in RoHS EU Directive 2002/95/EC with lead
solder exemption (non -Z versions)
n
Applications
n
High efficiency: 92.5% typical
n
Industry standard Half Brick:
61.0mm x 57.9 mm x 12.7 mm
(2.4 in x 2.28 in x 0.43 in)
n
Industry standard pinout
n
Isolation voltage:2250 Vdc
n
Open-frame construction
n
2:1 input voltage range
n
Remote Sense/Remote On/Off
n
Auto restart after fault shutdown
n
Constant switching frequency
n
Enterprise Networks
n
Output overvoltage and Overcurrent protection
n
Distributed power architectures
n
Overtemperature protection
n
Voice Over IP
n
Adjustable output voltage (trim)
n
Local Area Networks
n
Isolated Bus Voltage applications.
n Meets the voltage and current requirements for
ETSI 300-132-2 and complies with and is approved for
Basic Insulation rating per EN60950-1
n
Options
n
Choice of Remote On/Off option
UL* 60950 Recognized, CSA† C22.2 No. 60950-00 Certified, and VDE‡ 0805 (IEC60950, 3rd edition) Licensed
n
CE mark meets 73/23/EEC and 93/68/EEC directives§
n
ISO** 9001 certified manufacturing facilities
Description
The JPW200S52R5-BH Power Module is a dc-dc converter that operates over an input voltage range of 38 Vdc to 75 Vdc
and provides a precisely regulated dc output. The output is fully isolated from the input, allowing versatile polarity configurations and grounding connections. The module has a maximum power rating of 200 W at a typical full-load efficiency of
92.5%.
The open-frame module offers direct cooling of dissipative components for excellent thermal performance. The optional baseplate is offered to provide easy mounting of a heat sink, for high-temperature applications. The standard feature set includes
remote sensing, output trim, and remote on/off for convenient flexibility in distributed power applications.
*
†
‡
§
**
UL is a registered trademark of Underwriters Laboratories, Inc.
CSA is a registered trademark of Canadian Standards Association.
VDE is a trademark of Verband Deutscher Elektrotechniker e.V.
This product is intended for integration into end-use equipment. All the required procedures for CE marking of end-use equipment should be followed. (The CE mark is placed on selected products.)
ISO is a registered trademark of the Internation Organization of Standards
Document Name:DS03-090 ver. 1.2
PDF Name:jpw200s52r5-bh.pdf
JPW200S52R5-BH Power Module; dc-dc Converter
38 Vdc - 75 Vdc Input, 52.5 Vdc Output; 200W
Data Sheet
March 26, 2008
Absolute Maximum Ratings
Stresses in excess of the absolute maximum ratings can cause permanent damage to the device. These are absolute stress
ratings only, functional operation of the device is not implied at these or any other conditions in excess of those given in the
operations sections of the data sheet. Exposure to absolute maximum ratings for extended periods can adversely affect the
device reliabiltiy.
Device
Symbol
Min
Max
Unit
Input Voltage:Continuous
Parameter
All
VI
—
75
Vdc
Operating Ambient Temperature
(See Thermal Considerations section)
All
TA
–40
85
°C
Storage Temperature
All
Tstg
–55
125
°C
I/O Isolation Voltage
—
—
—
2250
Vdc
Electrical Specifications
Unless otherwise indicated, specifications apply over all operating input voltage, resistive load, and temperature conditions.
Parameter
Operating Input Voltage
Under Voltage Lock-out
turn on
turn off
Symbol
Min
Typ
Max
Unit
VIN
38
52
75
Vdc
37.9
36
Vdc
Vdc
7.0
Adc
2
A 2s
VITON
VITOFF
Maximum Input Current
(VI = 0 V to 75 V; IO = IO, max)
Inrush Transient
Input Current @ No Output Load
(VI = 52 Vdc; Io = 0A; TA = 25° C; on/off pin enabled
Input Reflected Ripple Current, peak-peak
(5 Hz to 20 MHz, 12 µH source impedance
See Test configuration section)
Input Ripple Rejection (120 Hz)@Vin=52V
36.5
34.6
—
—
—
—
I2 t
Iin, no load
—
140
—
mA
—
5
—
mAp-p
34
dB
CAUTION: This power module is not internally fused. An input line fuse must always be used.
This power module can be used in a wide variety of applications, ranging from simple stand-alone operation to an integrated
part of a sophisticated power architecture. To preserve maximum flexibility, internal fusing is not included; however, to achieve
maximum safety and system protection, always use an input line fuse. The safety agencies require a fast-acting fuse with a
maximum rating of 10 A (see Safety Considerations section). Based on the information provided in this data sheet on inrush
energy and maximum dc input current, the same type of fuse with a lower rating can be used. Refer to the fuse manufacturer’s
data for further information.
Lineage Power
2
JPW200S52R5-BH Power Module; dc-dc Converter
38 Vdc - 75 Vdc Input, 52.5 Vdc Output; 200W
Data Sheet
March 26, 2008
Electrical Specifications (continued)
Output Specifications
Parameter
Symbol
Min
Typ
Max
Unit
VO, set
51.19
52.5
53.55
Vdc
VO
50.90
—
54.08
Vdc
Output Regulation:
Line (VI = 38 V to 75 V)
Load (IO = IO, min to IO, max)
Temperature (TA = –40 °C to +85 °C)
—
—
—
—
—
—
0.01
0.05
100
0.2
0.4
300
%VO
%VO
mV
Output Ripple and Noise Voltage
(See Figure 10.):
RMS
Peak-to-peak (5 Hz to 20 MHz)
—
—
—
—
—
—
115
345
mVrms
mVp-p
External Load Capacitance (ESR < 150 mohm)
—
200
—
1000
µF
Output Current
IO
0
—
3.81
A
IO, cli
4.0
—
5.5
A
Output Short-circuit Current (VO = 250 mV)
—
—
170
—
%IO, max
Efficiency
(VI = 52 V; IO = IO, max; TA = 25 °C)
h
—
92.5
—
%
Switching Frequency
All
—
300
—
kHz
—
—
—
—
165
2
200
4
mV
mS
—
—
—
—
165
2
200
4
mV
mS
Output Voltage Set Point
(VI = 52 V; IO = IO, max; TA= 25 °C)
Output Voltage
(Over all operating input voltage, resistive load, and
temperature conditions until end of life. See Figure 11.)
Output Current-limit Inception
(VO = 90% of VO, nom)
Dynamic Response
(DIO/Dt = 1 A/µs, VI = 52 V, TA = 25 °C; tested with a 200 µF
aluminum and a 1.0 µF ceramic capacitor across the load):
Load Change from IO = 50% to 75% of IO, max:
Peak Deviation
Settling Time (VO < 10% of peak deviation)
Load Change from IO = 50% to 25% of IO, max:
Peak Deviation
Settling Time (VO < 10% of peak deviation)
Isolation Specifications
Parameter
Min
Typ
Max
Unit
Isolation Capacitance
—
6000
—
pF
Isolation Resistance
10
—
—
MΩ
General Specifications
Parameter
Min
Calculated MTBF (IO = 80% of IO, max TA = 40 °C,standard half brick
0.75 inch heatsink)
Weight
Lineage Power
Typ
Max
1,260,000
—
71(2.5)
Unit
Hours
—
g (oz.)
3
JPW200S52R5-BH Power Module; dc-dc Converter
38 Vdc - 75 Vdc Input, 52.5 Vdc Output; 200W
Data Sheet
March 26, 2008
Feature Specifications
Unless otherwise indicated, specifications apply over all operating input voltage, resistive load, and temperature conditions.
See Feature Descriptions for additional information.
Parameter
Remote On/Off Signal Interface
(VI = 38 V to 75 V; open collector or equivalent compatible;
signal referenced to VI(–) terminal; see Figure 12 and
Feature Descriptions.):
JPW200S52R51-BH Preferred Logic:
Logic Low—Module On
Logic High—Module Off
JPW200S52R5-BH Optional Logic:
Logic Low—Module Off
Logic High—Module On
Logic Low:
At Ion/off = 1.0 mA
At Von/off = 0.0 V
Logic High:
At Ion/off = 0.0 µA
Leakage Current
Turn-On Delay and Rise Times
(IO=IO, max)
Tdelay = Time until VO = 10% of VO,set from either application of
Vin with Remote On/Off set to On or operation of Remote On/Off
from Off to On with Vin already applied for at least one second.
Trise = time for VO to rise from 10% of VO,set to 90% of VO,set.
Output Voltage Adjustment (See Feature Descriptions.):
Output Voltage Remote-sense Range
Output Voltage Set-point Adjustment Range (trim)
Note: Ensure that the combination of remote sense and trim do not
exceed 56.5 V on the output.
Output Overvoltage Protection
Overtemperature Protection (shutdown)
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Symbol
Min
Typ
Max
Unit
Von/off
Ion/off
0
—
—
—
0.3
1.0
V
mA
Von/off
Ion/off
—
—
—
—
5V
50
V
µA
Tdelay, on/off
Trise, on/off
—
—
12
25
—
—
ms
ms
Tdelay, Vin
Trise, Vin
—
—
25
25
—
—
ms
ms
—
—
—
95
—
—
0.5
104
V
%VO, nom
VO, clamp
56.5
—
58.5
V
TC
—
100
—
°C
4
JPW200S52R5-BH Power Module; dc-dc Converter
38 Vdc - 75 Vdc Input, 52.5 Vdc Output; 200W
Data Sheet
March 26, 2008
Characteristic Curves
The following figures provide typical characteristics curves for the power module at room temperature (TA = 25 °C).The figures
are identical for both on/off configurations.
Io = 3.8A
Io = 1.9A
Io = 0.1A
Figure 1. Input Voltage and Current Characteristics.
Figure 3.
Typical Converter Efficiency vs. Ouput
Current.
OUTPUT VOLTAGE, Vo (V)
(100 mV/div)
60
50
40
30
20
10
0
0 0.5
1 1.5
2 2.5 3 3.5
4 4.5
5 5.5
TIME, t (2.00 µs/div)
Figure 2. Typical Output Characteristics.
Note: Tested with a 200 µF aluminum and a 1.0 µF ceramic capacitor
across the load
OUTPUT VOLTAGE, Vo (V)
(100 mV/div)
OUTPUT CURRENT, Io (A)
TIME, t
Note: R1 = Ref1 curve; 5A/div; 500mS/div : Trace 1: Zoom detail of
current pulse : 5A/div; 20 mS/div;Vin = 52Vdc; Cout = 200uF
Figure 2a. Typical Current limit Hic-cup Characteristics.
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Typical Output Ripple at Io=Io,max.
OUTPUT CURRENT, Io (A)
(1 A/div)
Figure 4.
TIME, t (1 ms/div)
Note: Tested with a 200 µF aluminum and a 1.0 µF ceramic capacitor
across the load
Figure 5.
Typical Transient Response to Step Change
in Load from 25% to 50% to 25% of Full Load
at VI = 52V.
5
JPW200S52R5-BH Power Module; dc-dc Converter
38 Vdc - 75 Vdc Input, 52.5 Vdc Output; 200W
Data Sheet
March 26, 2008
Characteristic Curves
OUTPUT VOLTAGE, Vo (V)
(100 mV/div)
OUTPUT VOLTAGE, Vo (V)
(10 V/div)
INPUT VOLTAGE, Vo (V)
(20 V/div)
OUTPUT CURRENT, Io (A)
(1 A/div)
The following figures provide typical characteristics curves for the power module at room temperature (TA = 25 °C)
TIME, t (10 ms/div)
TIME, t (1 ms/div)
Note: Tested with a 200 µF aluminum and a 1.0 µF ceramic capacitor across the load.
Note: Tested with a 200 µF aluminum and a 1.0 µF ceramic capacitor across the load.
Figure 6. Typical Transient Response to Step Change
Figure 8.
Typical Start-Up from Vin(IO = IO, max).
OUTPUT VOLTAGE, Vo (V)
(10 V/div)
REMOTE ON/OFF
VOLTAGE, Von/off (V)
in Load from 50% to 75% to 50% of Full Load
at VI = 52V.
TIME, t (10 ms/div)
Note: Tested with a 200 µF aluminum and a 1.0 µF ceramic capacitor across the load.
Figure 7. Typical Start-Up from Remote On/Off at
Io=Io,max.
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6
JPW200S52R5-BH Power Module; dc-dc Converter
38 Vdc - 75 Vdc Input, 52.5 Vdc Output; 200W
Data Sheet
March 26, 2008
Test Configurations
Design Considerations
Input Source Impedance
TO OSCILLOSCOPE
CURRENT
PROBE
LTEST
VI(+)
12 μH
CS 220 μF
ESR < 0.1 Ω
@ 20 °C, 100 kHz
BATTERY
100 μF
ESR < 0.7 Ω
@ 100 kHz
VI(–)
Note: Measure input reflected-ripple current with a simulated source
inductance (LTEST) of 12 µH. Capacitor CS offsets possible
battery impedance. Measure current as shown above.
Figure 9.
Input Reflected-Ripple Test Setup.
COPPER STRIP
VO(+)
1.0 μF
200 μF SCOPE
RESISTIVE
LOAD
VO(–)
The power module should be connected to a low
ac-impedance input source. Highly inductive source impedances can affect the stability of the power module. For the
test configuration in 9, a 100 µF electrolytic capacitor (ESR <
0.7 W at 100 kHz) mounted close to the power module helps
ensure stability of the unit. For other highly inductive source
impedances, consult the factory for further application guidelines.
Safety Considerations
For safety-agency approval of the system in which the power
module is used, the power module must be installed in compliance with the spacing and separation requirements of the
end-use safety agency standard, i.e., UL60950, CSA C22.2
No. 60950-00, and EN 60950 (VDE 0805):2001-12.
These converters have been evaluated to the spacing
requirements for Basic Insulation per the above safety standards. For Basic Insulation models, 2250 Vdc is applied from
Vi to Vo to 100% of outgoing production.
For end products connected to –48V dc, or –60Vdc nominal
DC MAINS (i.e. central office dc battery plant), no further fault
testing is required. *Note: -60V dc nominal battery plants are
not available in the U.S. or Canada.
Note: The use of a 200 µF aluminum capacitor is needed for stability.
Use a 1.0 µF ceramic capacitor on the output. Scope measurement should be made using a BNC socket. Position the load
between 51 mm and 76 mm (2 in. and 3 in.) from the module.
Figure 10. Peak-to-Peak Output Noise Measurement Test
Setup.
SENSE(+)
VI(+)
CONTACT AND
DISTRIBUTION LOSSES
VO(+)
For all input voltages, other than DC MAINS, where the input
voltage is less than 60V dc, if the input meets all of the
requirements for SELV, then:
n
The output may be considered SELV. Output voltages will
remain within SELV limits even with internally-generated
non-SELV voltages. Single component failure and fault
tests were performed in the power converters.
n
One pole of the input and one pole of the output are to be
grounded, or both circuits are to be kept floating, to maintain the output voltage to ground voltage within ELV or
SELV limits.
IO
II
SUPPLY
LOAD
VI(–)
CONTACT
RESISTANCE
VO(–)
SENSE(–)
Note:All measurements are taken at the module terminals. When
socketing, place Kelvin connections at module terminals to
avoid measurement errors due to socket contact resistance.
[ V O (+) – V O (-) ]I O
η = ⎛ ----------------------------------------------⎞ × 100 %
⎝ [ V I (+) – V I (-) ]I I ⎠
Figure 11. Output Voltage and Efficiency Measurement.
For all input sources, other than DC MAINS, where the input
voltage is between 60 and 75V dc (Classified as TNV-2 in
Europe), the following must be meet, if the converter’s output
is to be evaluated for SELV:
n
The input source is to be provided with reinforced insulation from any hazardous voltage, including the ac mains.
n
One Vi pin and one Vo pin are to be reliably earthed, or
both the input and output pins are to be kept floating.
Another SELV reliability test is conducted on the whole
system, as required by the safety agencies, on the combination of supply source and the subject module to verify
that under a single fault, hazardous voltages do not appear
at the module’s output.
The power module has ELV (extra-low voltage) outputs when
all inputs are ELV.
All flammable materials used in the manufacturing of these
Lineage Power
7
JPW200S52R5-BH Power Module; dc-dc Converter
38 Vdc - 75 Vdc Input, 52.5 Vdc Output; 200W
Data Sheet
March 26, 2008
modules are rated 94V-0.
Remote Sense
The input to these units is to be provided with a maximum 10
A fast-acting (or time-delay) fuse in the unearthed lead.
Remote sense minimizes the effects of distribution losses by
regulating the voltage at the remote-sense connections. The
voltage between the remote-sense pins and the output terminals must not exceed the output voltage sense range
given in the Feature Specifications table, i.e.:
Feature Descriptions
[VO(+) – VO(–)] – [SENSE(+) – SENSE(–)] = 0.5 V
Overcurrent Protection
To provide protection in an overcurrent fault condition, the
module is equipped with internal current-limiting circuitry and
can endure current limiting for an unlimited duration. Upon
current limit inception threshold, the module enters a “hiccup” mode of operation, whereby it shutdown and automatically attempts to restart. While the overcurrent fault condition
persist, the module will remain in the hic-cup mode until the
overcurrent fault is cleared. See Figure 2a.
Remote On/Off
Two remote on/off options are available. Positive logic
remote on/off turns the module on during a logic-high voltage on the ON/OFF pin, and off during a logic low. Negative
logic remote on/off turns the module off during a logic high
and on during a logic low. Negative logic (code suffix “1”) is
the factory-preferred configuration.
To turn the power module on and off, the user must supply a
switch to control the voltage between the
on/off terminal (Von/off) and the VI(–) terminal . The switch
can be an open collector or equivalent (see
Figure 12). A logic low is Von/off = 0 V to 0.3 V. The
maximum Ion/off during a logic low is 1 mA. The switch
should maintain a logic-low voltage while sinking 1 mA.
The voltage between the VO(+) and VO(–) terminals must
not exceed 56.5 V. This limit includes any increase in voltage
due to remote-sense compensation and output voltage setpoint adjustment (trim). See Figure 13.
If not using the remote-sense feature to regulate the output
at the point of load, then connect SENSE(+) to VO(+) and
SENSE(–) to VO(–) at the module.
Although the output voltage can be increased by both the
remote sense and by the trim, the maximum increase for the
output voltage is not the sum of both. The maximum
increase is the larger of either the remote sense or the trim.
The amount of power delivered by the module is defined as
the voltage at the output terminals multiplied by the output
current. When using remote sense and trim, the output voltage of the module can be increased, which at the same output current would increase the power output of the module.
Care should be taken to ensure that the maximum output
power of the module remains at or below the maximum rated
power.
During a logic high, the maximum Von/off generated by the
power module is 5 V. The maximum allowable leakage current of the switch at Von/off = 5 V is 50 µA.
If not using the remote on/off feature, do one of the
following:
n
n
For negative logic, short ON/OFF pin to VI(–).
For positive logic, leave ON/OFF pin open.
+
ON/OFF
Von/off
–
VO(+)
LOAD
VI(–)
VO(–)
SENSE(–)
Figure 12. Remote On/Off Implementation.
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SUPPLY
VI(+)
VO(+)
VI(–)
VO(–)
II
CONTACT
RESISTANCE
IO
LOAD
CONTACT AND
DISTRIBUTION LOSSES
Output Overvoltage Protection
SENSE(+)
VI(+)
SENSE(–)
Figure 13. Effective Circuit Configuration for
Single-Module Remote-Sense Operation
Output Voltage.
.
Ion/off
SENSE(+)
The output overvoltage clamp consists of control circuitry,
independent of the primary regulation loop, that monitors the
voltage on the output terminals. The over voltage clamp circuit has a higher voltage set point than the primary loop (see
Feature Specifications table). This provides a redundant
voltage control that reduces the risk of output overvoltage. If
the output voltage exceeds the overvoltage threshold, the
module enters a “hic-cup” mode of operation, whereby it
shutdown and automatically attempts to restart. While the
fault condition exists, the module will remain in the hic-cup
mode until the overvoltage fault is cleared.
8
JPW200S52R5-BH Power Module; dc-dc Converter
38 Vdc - 75 Vdc Input, 52.5 Vdc Output; 200W
Data Sheet
March 26, 2008
Feature Descriptions (Continued)
Overtemperature Protection
This limit includes any increase in voltage due to remotesense compensation and output voltage set-point adjustment
(trim). See Figure 13.
This module features an overtemperature protection circuit to
safeguard against thermal damage. The protection circuit will
shutdown the module when the maximum case temperature
is exceeded. The module will restart automatically when the
case temperature falls below shutdown threshold.
Although the output voltage can be increased by both the
remote sense and by the trim, the maximum increase for the
output voltage is not the sum of both. The maximum increase
is the larger of either the remote sense or the trim.
Output Voltage Set-Point Adjustment (Trim)
Output voltage trim allows the user to increase or decrease
the output voltage set point of a module. This is accomplished by connecting an external resistor between the TRIM
pin and either the SENSE(+) or SENSE(–) pins. The trim
resistor should be positioned close to the module.
The amount of power delivered by the module is defined as the
voltage at the output terminals multiplied by the output current.
When using remote sense and trim, the output voltage of the
module can be increased, which at the same output current
would increase the power output of the module. Care should be
taken to ensure that the maximum output power of the module
remains at or below the maximum rated power.
If not using the trim feature, leave the TRIM pin open.
With an external resistor between the TRIM and SENSE(–)
pins (Radj-down), the output voltage set point (VO, adj)
decreases (see Figure 14). The following equation determines the required external-resistor value to obtain a percentage output voltage change of Δ%.
100
R adj-down = ⎛ ---------- – 2⎞ kΩ
⎝ Δ%
⎠
VI(+)
ON/OFF
VO(+)
SENSE(+)
Radj-up
CASE
VI(–)
TRIM
RLOAD
SENSE(–)
VO(–)
With an external resistor connected between the TRIM and
SENSE(+) pins (Radj-up), the output voltage set point (VO,
adj) increases (see Figure 15).
Figure 15. Circuit Configuration to Increase Output
Voltage.
Note: Do not exceed 56.5 V between the VO(+) and VO(–)
terminals.
The following equation determines the required externalresistor value to obtain a percentage output voltage change
of ý%.
100 + 2Δ% )⎞
V O ( 100 + Δ% -) – (--------------------------------- kΩ
R adj-up = ⎛ ------------------------------------⎝ 1.225Δ%
⎠
Δ%
The voltage between the VO(+) and VO(–) terminals must not
exceed the minimum output voltage clamp value as indicated
in the Feature Specifications table.
VI(+)
ON/OFF
CASE
VO(+)
SENSE(+)
TRIM
Radj-down
VI(–)
RLOAD
SENSE(–)
VO(–)
Figure 14. Circuit Configuration to Decrease Output
Voltage.
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9
JPW200S52R5-BH Power Module; dc-dc Converter
38 Vdc - 75 Vdc Input, 52.5 Vdc Output; 200W
Data Sheet
March 26, 2008
Thermal Considerations
Example
The power modules operate in a variety of thermal environments; however, sufficient cooling should be provided to
help ensure reliable operation of the unit. Heat-dissipating
components inside the unit are thermally coupled to the
base plate. Heat is removed by conduction, convection, and
radiation to the surrounding environment. Proper cooling can
be verified by measuring the base plate temperature. Peak
temperature (TC) occurs at the position indicated in
Figure 16.
What is the minimum airflow necessary for the
JPW200S52R5-BH operating at VI = 52 V, an output current
of 3.5 A, and a maximum ambient temperature of 40 °C?
Solution
Given:
VI = 52 V
IO = 3.5 A
TA = 40 °C
Determine airflow (v) (Use Figure 17.):
v = 1.0 m (200 ft/min)
VI(+)
ON/OFF
VO(+)
+ SEN
TRIM
33.02
(1.30)
CASE
VI(–)
– SEN
VO(–)
O U T P U T C U R R E N T, IO (A )
MEASURE CASE
TEMPERATURE HERE
5.0
4.5
4.0
3.5
3.0
2.5
2.0
1.5
1.0
0.5
0.0
20
6.35
(0.25)
30
40
50
60
70
80
90
LOCAL AMBIENT TEMPERATURE, TA (°C)
Figure 17. Derating Curve for JPW200S52R5-BH
(Vo = 52.5V) with base plate; Vin = 52V.
Note:Top view, pin locations are for reference only.
Figure 16. Case Temperature Measurement Location.
The temperature at this location should not exceed 100 °C.
The output power of the module should not exceed the rated
power for the module as listed in the Ordering Information
table.
Although the maximum case temperature of the power modules is 100 °C, you can limit this temperature to a lower
value for extremely high reliability.
Heat Transfer Without Heat Sinks
EMC Considerations
For assistance with designing for EMC compliance, please
refer to the FLTR100V10 data sheet
(FDS01-043EPS).
Layout Considerations
Copper paths must not be routed beneath the power module
mounting inserts. For additional layout guidelines, refer to
the FLTR100V10 data sheet
(DS98-152EPS).
Increasing airflow over the module enhances the heat transfer via convection. Figure 17 shows the maximum output
current that can be delivered by the module without exceeding the maximum case temperature versus local ambient
temperature (TA) for natural convection through 3 m/s (600
ft./min.).
Note that the natural convection condition was measured at
0.05 m/s to 0.1 m/s (10 ft./min. to 20 ft./min.); however, systems in which these power modules may be used typically
generate natural convection airflow rates of 0.3 m/s (60 ft./
min.) due to other heat dissipating components in the system. The use of Figure 17 is shown in the following example.
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10
Data Sheet
March 26, 2008
JPW200S52R5-BH Power Module; dc-dc Converter
38 Vdc - 75 Vdc Input, 52.5 Vdc Output; 200W
Through-Hole Lead-Free Soldering Information
The RoHS-compliant through-hole products use the SAC
(Sn/Ag/Cu) Pb-free solder and RoHS-compliant components.
They are designed to be processed through single or dual
wave soldering machines. The pins have an RoHS-compliant finish that is compatible with both Pb and Pb-free wave
soldering processes. A maximum preheat rate of 3°C/s is
suggested. The wave preheat process should be such that
the temperature of the power module board is kept below
210°C. For Pb solder, the recommended pot temperature is
260°C, while the Pb-free solder pot is 270°C max. Not all
RoHS-compliant through-hole products can be processed
with paste-through-hole Pb or Pb-free reflow process. If additional information is needed, please consult with your Tyco
Electronics Power System representative for more details.
Post Solder Cleaning and Drying Considerations
Post solder cleaning is usually the final circuit-board
assembly process prior to electrical board testing. The result
of inadequate cleaning and drying can affect both the
reliability of a power module and the testability of the finished
circuit-board assembly. For guidance on appropriate
soldering, cleaning and drying procedures, refer to Lineage
Power Board Mounted Power Modules: Soldering and
Cleaning Application Note (AP01-056EPS).
Lineage Power
11
JPW200S52R5-BH Power Module; dc-dc Converter
38 Vdc - 75 Vdc Input, 52.5 Vdc Output; 200W
Data Sheet
March 26, 2008
Outline Diagram
Dimensions are in millimeters and (inches)
Tolerences: x.x mm 0.5 mm (x.xx in. 0.02 in.)
x.xx mm 0.25 mm (x.xxx in. 0.010 in.)
3.2 (.125) X 45°
10.80
(.425)
57.4
(2.26)
4.3 TYP
(.17)
2.06
(.081)
2 PLCS
55.6
(2.19)
50.80
(2.000)
43.18
(1.700)
43.18 VI (-)
(1.700)
VO (-)
33.02 CASE
(1.300)
SEN (-) 33.02
(1.300)
25.40
TRIM
(1.000)
SEN (+) 17.78
(.700)
17.78
(.700)
7.62
(.300)
ON/
OFF
VI (+)
VO (+)
60.5
(2.38)
7.62
(.300)
.00
(.000)
4.8
(.19)
4.6
.00
(.18) (.000)
1.02
(.040)
7 PLCS
48.26 52.8
(1.900) (2.08)
.76 MIN
(.03)
*Bottom Side label includes Lineage Power name, product designation, and data code.
.
Lineage Power
12
JPW200S52R5-BH Power Module; dc-dc Converter
38 Vdc - 75 Vdc Input, 52.5 Vdc Output; 200W
Data Sheet
March 26, 2008
Recommended Hole Pattern
Component side footprint.
Dimensions are in millimeters and (inches).
57.9 (2.28) MAX
48.3 (1.90)
VI (+)
35.56
(1.400)
50.8
(2.00)
ON/OFF
25.40
(1.000)
10.16
(0.400)
48.26
(1.900)
VO (+)
35.56
(1.400)
+SEN
TRIM
CASE
–SEN
VI (–)
VO (–)
25.40
(1.000)
17.78
10.16 (0.700)
(0.400)
61.0
(2.40)
MAX
MOUNTING INSERTS
MODULE OUTLINE
Lineage Power
13
JPW200S52R5-BH Power Module; dc-dc Converter
38 Vdc - 75 Vdc Input, 52.5 Vdc Output; 200W
Data Sheet
March 26, 2008
Ordering Information
For assistance in ordering, please contact your Lineage Power Account Manager or Field Application Engineer for pricing and availability.
Input Voltage
Output
Voltage
Output
Current
Remote On/Off
Logic
48V
48V
52.5V
52.5V
200W
200W
Negative
Negative
Connector Type
Through hole
Through hole
Device Code
Comcodes
JPW200S52R51-BH 108982851
JPW200S52R51-BHZ CC109121456
Optional features can be ordered using the suffixes shown in table below. The suffixes follow the last letter of the device code
and are placed in descending order. For example, the device codes for a JPW200S52R5-BH module with the following options
are shown below:
Negative Logic remote on/off JPW200S52R51-BH
Option
Negative Logic remote on/off
Base plate version for Heat Sink attachment
Pin Length: 3.68 mm ± 0.25 mm
(0.145 in. ± 0.010 in)
RoHS compliant
Suffix
1
–H
6
–Z
A sia-Pacific Head qu art ers
T el: +65 6 41 6 4283
World W ide Headq u arters
Lin eag e Po wer Co rp oratio n
World
Wide Headquarters
30
00 Skyline
D rive, Mesquite, T X 75149, U SA
Tyco Electronics Power Systems, Inc.
+1-800-526-7819
3000 Skyline
Drive,
Mesquite,
TX -2626)
75149, USA
(Outs
id e U .S.A
.: +197 2-2 84
+1-800-526-7819 FAX: +1-888-315-5182
www.line ag ep ower.co m
(Outside U.S.A.: +1-972-284-2626, FAX: +1-972-284-2900)
e-m
ail: tech sup port1@ lin ea gep ower.co m
www.power.tycoelectronics.com
Europe, Middle-East and Africa Headquarters
Tyco Electronics (UK) Ltd
Tel:M+44
(0) 1344 469
300,
Fax:a +44
(0)qu
1344
469 301
Eu ro pe,
id dle-East
an d
Afric
He ad
arters
T el: +49 8 9 6089 286
Central America-Latin America Headquarters
Tyco Electronics Power Systems
Tel: +54 11 4316 2866, Fax: +54 11 4312 9508
Ind ia Head qu arters
Asia-Pacific
Headquarters
T el: +91
8 0 28411633
Tyco Electronics Singapore Pte Ltd
Tel: +65 482 0311, Fax: 65 480 9299
e-mail: [email protected]
Lineage Power reserves the right to make changes to the produc t(s) or information contained herein without notice. No liability is ass umed as a res ult of their use or
applic
ation. NoCorporation
rights under
any patent
accto
ompany
the saletoofthe
any
s uc h pr oduct(s
) or information.
Tyco
Electronics
reserves
the right
make changes
product(s)
or information
contained herein without notice. No liability is assumed as a result of their use or application.
No rights under any patent accompany the sale of any such product(s) or information.
© 2008 Lineage Power Corpor ation, (Mesquite, Texas ) All International Rights Res er ved.
© 2001 Tyco Electronics Power Systems, Inc. (Mesquite, Texas) All International Rights Reserved.
Printed in U.S.A.
Document No:DS03-090 ver. 1.2
PDF Name:jpw200s52r5-bh.pdf