CANDD HPR1022

OBSOLETE PRODUCT
Contact Factory for Replacement Model
Product Data Sheet
1 0 WATT UNR
1.0
NREGULATED
REGULATE
ED
SIP DC/DC CONVERTER
HPR10XX
DESCRIPTION
The HPR10XX Series uses advanced circuit design and packaging technology to deliver superior reliability and performance.
A 170kHz push-pull oscillator is used in the input stage. Beatfrequency oscillation problems are reduced when using the
HPR10XX Series with high frequency isolation amplifiers.
FEATURES
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LOW COST
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SINGLE-IN-LINE PACKAGE (SIP)
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INTERNAL INPUT AND OUTPUT FILTERING
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NON-CONDUCTIVE CASE
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HIGH OUTPUT POWER DENSITY:
13 WATTS/INCH3
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EXTENDED TEMPERATURE RANGE:
-25°C TO +65°C
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HIGH EFFICIENCY: TO 72% TYPICAL
Reduced parts count and high efficiency add to the reliability
of the HPR10XX Series. The high efficiency of the HPR10XX
Series means less internal power dissipation, as low as 190mW.
With reduced heat dissipation the HPR10XX Series can operate
at higher temperatures with no degradation. In addition, the high
efficiency of the HPR10XX Series means the series is able to
offer greater than 13 W/inch3 of output power density. Operation down to no load will not impact the reliability of the series,
although a 1mA minimum load is needed to realize published
specifications.
The HPR10XX Series provides the user low cost without sacrificing reliability. The use of surface mounted devices and advanced
manufacturing technologies make it possible to offer premium
performance and low cost.
MECHANICAL
FRONT
VIEW
Notes: All dimensions are in inches (millimeters).
GRID: 0.100 inches (2.54 millimeters)
RIGHT
SIDE
VIEW
HPR10XX
PIN PLACEMENT TOLERANCE: ± 0.015"
PIN CONNECTIONS
1. +VIN
BOTTOM
VIEW
2. -VIN
4. -VOUT 5. COM*
6. +VOUT
* Common pin not present on
single output models.
Internet: http://www.cd4power.com
HPR10XX
REV D
Power Electronics Division, United States
Power Electronics Division, Europe
3400 E Britannia Drive, Tucson, Arizona 85706
Phone: 520.295.4100 Fax: 520.770.9369
C&D Technologies (Power Electronics) Ltd.
132 Shannon Industrial Estate, Shannon, Co. Clare, Ireland
Tel: +353.61.474.133
Fax:+353.61.474.141
8/2007
Page 1
ELECTRICAL SPECIFICATIONS
Specifications typical at TA = +25°C, nominal input voltage, rated output current unless otherwise specified.
NOMINAL
INPUT
VOLTAGE
RATED
OUTPUT
VOLTAGE
RATED
OUTPUT
CURRENT
INPUT CURRENT
NO LOAD
RATED LOAD
(mAp-p)
EFFICIENCY
(VDC)
(VDC)
(mA)
(mA)
HPR1000
HPR1001
HPR1002
HPR1003
HPR1004
5
5
5
5
5
5
12
15
±5
±12
200
83
67
±100
±42
33
33
33
33
33
290
290
285
285
285
8
8
8
8
8
68
69
70
70
70
HPR1005
HPR1006
HPR1007
HPR1008
HPR1009
5
12
12
12
12
±15
5
12
15
±5
±34
200
83
67
±100
33
18
18
18
18
285
110
107
107
107
8
10
10
10
10
70
70
71
71
71
HPR1010
HPR1011
HPR1012
HPR1013
HPR1014
12
12
15
15
15
±12
±15
5
12
15
±42
±34
200
83
67
18
18
15
15
15
107
107
96
94
94
10
10
10
10
10
71
71
70
70
71
HPR1015
HPR1016
HPR1017
HPR1018
HPR1019
15
15
24
24
±12
±15
5
12
±42
±34
200
83
15
15
12
12
94
94
60
60
10
10
15
15
71
71
71
71
HPR1020
HPR1021
HPR1022
HPR1023
24
24
24
24
15
±5
±12
±15
67
±100
±42
±34
12
12
12
12
58
58
58
58
15
15
15
15
72
72
72
72
MODEL
(mA)
REFLECTED
RIPPLE
CURRENT
(%)
Note: Other input to output voltages may be available. Please contact factory.
COMMON SPECIFICATIONS
Specifications typical at TA = +25°C, nominal input voltage, rated output current unless otherwise specified.
PARAMETER
INPUT
Voltage Range
Voltage Rise Time
ISOLATION
Rated Voltage
Test Voltage
Resistance
Capacitance
Leakage Current
OUTPUT
Rated Power
Voltage Setpoint Accuracy
Ripple & Noise
Voltage
Temperature Coefficent
REGULATION
Line Regulation
Load Regulation (5V out only)
Load Regulation (All other Models)
GENERAL
Switching Frequency
Frequency Change
Package Weight
MTTF per MIL-HDBK-217, Rev. E
Ground Benign
Fixed Ground
Naval Sheltered
Airborne Uninhabited Fighter
Moisture Sensitivity Level (MSL)
CONDITIONS
MIN
TYP
MAX
UNITS
4.5
5
5.5
VDC
10.8
12
13.2
VDC
13.5
15
16.5
VDC
21.6
24
26.4
VDC
See Typical Performance Curves & Application Notes: "Capacitive Loading Effects on Start-Up of DC/DC Converters"
60 Hz, 10 Seconds
1000
1000
10
25
2
VISO= 240VAC, 60Hz
100
8.5
1.0
VDC
Vpk
GΩ
pF
μArms
.01
W
%
mVp-p
mVrms
VDC
VDC
VDC
%/Deg C
High Line to Low Line
Rated Load to 1mA Load
Rated Load to 1mA Load
1
10
3
%/%Vin
%
%
Over Line and Load
170
24
2
kHz
%
g
3.8
1.4
685
211
2
MHr
MHr
kHr
kHr
±5
100
Rated Load, Nominal VIN
BW = DC to 10MHz
BW =10Hz to 2MHz
1mA Load, VOUT = 5V
1mA Load, VOUT = 12V
1mA Load, VOUT = 15V
30
7
15
18
Circuit Stress Method
TA = +25°C
TA = +35°C
TA = +35°C
TA = +35°C
IPC/JEDEC J-STD-20
TEMPERATURE
Specification
Storage
-25
-50
+25
+65
+110
°C
°C
* For demonstrated MTTF results reference Reliability Report HPR105
Page 2
HPR10XX
REV D
8/2007
TYPICAL PERFORMANCE CURVES
VOUT VS LOAD
(5Vout Models)
VOUT VS LOAD
(±5Vout Models)
5.7
VOUT VS LOAD
(12Vout Models)
12.5
5.4
12.4
5.2
5.3
12.3
Vout
Vout
Vout
5.5
5.0
12.2
12.1
5.1
4.8
4.9
4.6
12.0
0
80
40
120
160
11.9
0
Output Current (mA)
20
40
60
0
80
VOUT VS LOAD
(±12Vout Models)
60
80
VOUT VS LOAD
(±15Vout Models)
16.5
15.9
12.5
40
Output Current each load (mA)
VOUT VS LOAD
(15Vout Models)
12.6
16.0
15.7
12.4
15.5
12.3
15.5
Vout
Vout
Vout
20
Output Current each load (mA)
15.0
12.2
15.3
14.5
12.1
15.1
14.0
12.0
14.9
0
10
20
30
13.5
0
40
20
40
60
Output Current each load (mA)
Output Current each load (mA)
EFFICIENCY VS LOAD
OSCILLATION FREQUENCY VS
TEMPERATURE
90
80
0.2
0
0.4
0.6
0.8
1.0
Output Power each load (Watts)
220
Efficiency (%)
Efficiency (%)
75
60
45
30
200
180
160
15
0
20
0
40
140
60
80
-30
100
% of Rated Load (%)
0
30
60
90
Temperature (°C)
SAFE OPERATING AREA
LOAD CAPACITANCE vs INPUT RISE TIME
(5 Vout models)
600
50
Total Load Capacitance (uF)
Total Load Capacitance (uF)
500
400
300
SAFE OPERATING AREA
200
40
30
SAFE OPERATING AREA
20
10
100
0
0
0
5
10
15
20
25
30
35
Rise Time of Input Voltage (mS)
40
45
5
10
15
20
25
30
35
40
45
50
Rise Time of Input Voltage (mS)
LOAD CAPACITANCE vs INPUT RISE TIME
(12 Vout models)
NOTES:
1.) When operated within the SAFE OPERATING AREA as defined by the above curves, the output voltage of HPR10XX
devices is guaranteed to be within 95% of its steady-state
value within 100 milliseconds after the input voltage has
reached 95% of its steady-state value.
80
70
60
50
SAFE OPERATING AREA
40
0
50
90
Total Load Capacitance (uF)
LOAD CAPACITANCE vs INPUT RISE TIME
(15 Vout models)
60
30
20
2.) For dual output models, total load capacitance is the sum of
the capacitances on the plus and minus outputs.
10
0
0
5
10
15
20
25
30
35
40
45
50
Rise Time of Input Voltage (mS)
HPR10XX
REV D
8/2007
Page 3
ORDERING INFORMATION
ABSOLUTE MAXIMUM RATINGS
HPR 10XX /H
Device Family
HPR Indicates DC/DC Converter
Model Number
Selected from Table of Electrical Characteristics
Screening Option
Internal Power Dissipation.....................................................490mW
Short Circuit Duration......................................................Momentary
Lead Temperature (soldering, 10 seconds max)..................+300°C
THROUGH-HOLE SOLDERING INFORMATION
These devices are intended for wave soldering or manual soldering.
They are not intended to be subject to surface mount processes under any circumstances.
The normal wave soldering process can be used with these devices where the device is subjected to a maximum wave temperature of 260°C for a period of
no more than 10 seconds. Within this time and temperature range, the integrity of the device’s body will not be compromised and internal temperatures within
the converter will not exceed 175°C. Care should be taken to control manual soldering limits identical to that of wave soldering.
The information provided herein is believed to be reliable; however, C&D TECHNOLOGIES assumes no responsibility for inaccuracies or omissions. C&D TECHNOLOGIES assumes no responsibility for the use of
this information, and all use of such information shall be entirely at the user’s own risk. Prices and specifications are subject to change without notice. No patent rights or licenses to any of the circuits described herein
are implied or granted to any third party. C&D TECHNOLOGIES does not authorize or warrant any C&D TECHNOLOGIES product for use in life support devices/systems or in aircraft control applications.
Page 4
HPR10XX
REV D
8/2007