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F2000ERW Datasheet(PDF) 2 Page - MicroPower Direct, LLC

Part No. F2000ERW
Description  Low Cost, Compact 20W, 2:1 Input Range DC/DC Converters
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Maker  MPD [MicroPower Direct, LLC]
Homepage  http://www.micropowerdirect.com
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F2000ERW Datasheet(HTML) 2 Page - MicroPower Direct, LLC

   
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MicroPower Direct
We Power Your Success - For Less!
292 Page Street Ste D Stoughton, MA 02072
TEL: (781) 344-8226
FAX: (781) 344-8481
E-Mail: sales@micropowerdirect.com
Model Selection Guide
Mechanical Dimensions
Mechanical Notes:
All dimensions are typical in inches (mm)
Tolerance x.xx = ±0.01 (±0.25)
Pin
Single Dual
1
+Vin
+Vin
2
-Vin
-Vin
4
Remote On/Off
5
No Pin
+Vout
6
+Vout
Comm.
7
-Vout
-Vout
8
Trim
Trim
Pin Connections
Remote ON/OFF Notes:
1. Maximum sink current at the on/off pin (pin 6) during a logic
low is 100 µA.
2. Maximum allowable leakage current of a switch connected to
the on/off terminal (Pin 6) at logic high (2.5V to 100V) is 5 µA.
Parameter
Min
Max
Units
Supply On
0.5
40.0 or Open
VDC
Supply Off
Grnd
<0.5
VDC
Control Common Referenced to Gnd
Remote ON/OFF
www.micropowerdirect.com
Derating Curve
Notes:
1. When measuring output ripple, it is recommended that an external ceramic capacitor (approx 1 µF to
10 µF) be placed from the +Vout to the -Vout pins or single output units and from each output to common for
dual output units.
2. These converters are specified for operation
without external components. However, in some
applications the addition of input/ouput capacitors
will enhance stability and reduce output ripple.
Recommended capacitor values are given in the
table at right. For applications requiring very low
output noise levels, a simple LC filter should be
effective.
3. Overload protection is provided by a power limiting circuit. Long term operation under overload conditions
may cause damage to the unit.
4. Transient recovery is measured to within a 1% error band for a load step change of 75% to 100%.
5. These units should not be operated with a load under 10% of full load. Operation at no-load will not damage
the unit, but they may not meet all specifications.
6. A simple external circuit may be used to adjust the converter output. To adjust the output DOWN, connect a
5%, 3W resistor between the plus output pin and the Vout trim pin. To adjust the output UP, connect a 5%, 3W
resistor between the minus output pin and the Vout trim pin. For UP/Down trimming capability, connect a
10 kW potentiometer between the plus and minus outputs with the wiper arm connected to the Vout trim pin.
7. These units should not be operated over +71°C (see derating curve). Exceeding +71°C may damage the unit.
8. It is recommended that a fuse be used on the input of a power supply for protection. See the Model Selection
table above for the correct rating.
Model
Number
Input
Output
Efficiency
(%, Typ)
Overvoltage
Protection
(VDC)
Capacitive
Load
(µF Max.)
Fuse Rating
Slow-Blow
(mA)
Voltage (VDC)
Current (mA)
Voltage
(VDC)
Current
(mA, Max)
Current
(mA, Min)
Nominal
Range
Full-Load
No-Load
F2001ERW
12
9.0 - 18.0
1,937
40
3.3
5,400
540
86
4.29
13,000
4,000
F2002ERW
12
9.0 - 18.0
2,109
40
5.0
4,000
400
79
6.5
6,800
4,000
F2003ERW
12
9.0 - 18.0
2,057
40
12.0
1,670
167
81
15.6
2,200
4,000
F2004ERW
12
9.0 - 18.0
2,032
40
15.0
1,330
133
82
19.5
755
4,000
F2005ERW
12
9.0 - 18.0
2,008
40
24.0
830
83
83
31.2
500
4,000
F2006ERW
12
9.0 - 18.0
2,083
40
±5.0
±2,000
±200
80
±6.5
±3,400
4,000
F2007ERW
12
9.0 - 18.0
2,032
40
±12.0
±833
±84
82
±15.6
±680
4,000
F2008ERW
12
9.0 - 18.0
2,032
40
±15.0
±666
±67
82
±19.5
±450
4,000
F2009ERW
12
9.0 - 18.0
2,008
40
±24.0
±416
±42
83
±31.2
±220
4,000
F2011ERW
24
18.0 - 36.0
968
20
3.3
5,400
540
86
4.29
13,000
2,000
F2012ERW
24
18.0 - 36.0
1,028
20
5.0
4,000
400
81
6.5
6,800
2,000
F2013ERW
24
18.0 - 36.0
1,004
20
12.0
1,670
167
83
15.6
2,200
2,000
F2014ERW
24
18.0 - 36.0
980
20
15.0
1,330
133
85
19.5
755
2,000
F2015ERW
24
18.0 - 36.0
968
20
24.0
830
83
86
31.2
500
2,000
F2016ERW
24
18.0 - 36.0
1,028
20
±5.0
±2,000
±200
81
±6.5
±3,400
2,000
F2017ERW
24
18.0 - 36.0
968
20
±12.0
±833
±84
86
±15.6
±680
2,000
F2018ERW
24
18.0 - 36.0
968
20
±15.0
±666
±67
86
±19.5
±450
2,000
F2019ERW
24
18.0 - 36.0
968
20
±24.0
±416
±42
86
±31.2
±220
2,000
F2021ERW
48
36.0 - 75.0
479
10
3.3
5,400
540
87
4.29
13,000
1,000
F2022ERW
48
36.0 - 75.0
502
10
5.0
4,000
400
83
6.5
6,800
1,000
F2023ERW
48
36.0 - 75.0
496
10
12.0
1,670
167
84
15.6
2,200
1,000
F2024ERW
48
36.0 - 75.0
496
10
15.0
1,330
133
84
19.5
755
1,000
F2025ERW
48
36.0 - 75.0
484
10
24.0
830
83
86
31.2
500
1,000
F2026ERW
48
36.0 - 75.0
514
10
±5.0
±2,000
±200
81
±6.5
±3,400
1,000
F2027ERW
48
36.0 - 75.0
484
10
±12.0
±833
±84
86
±15.6
±680
1,000
F2028ERW
48
36.0 - 75.0
484
10
±15.0
±666
±67
86
±19.5
±450
1,000
F2029ERW
48
36.0 - 75.0
484
10
±24.0
±416
±42
86
±31.2
±220
1,000
Vin
Input
Capacitor
Output
Capacitor
12 VDC
100 µF
1,000 µF per 1A of Iout
24 VDC
100 µF
1,000 µF per 1A of Iout
48 VDC
100 µF
1,000 µF per 1A of Iout


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