MA624DMRW-15RI5 [MPD]
EN 60601 Approved 2:1 Input, DIP, 6W DC/DC Con vert ers;型号: | MA624DMRW-15RI5 |
厂家: | MICROPOWER DIRECT, LLC |
描述: | EN 60601 Approved 2:1 Input, DIP, 6W DC/DC Con vert ers |
文件: | 总3页 (文件大小:408K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
MA600MRWRI5
EN 60601 Approved
2:1 Input, DIP, 6W
DC/DC Converters
Electrical Specifications
Key Features:
Specifications typical @ +25°C, nominal input voltage & rated output current, unless otherwise noted. Specifications subject to change without notice.
• EN 60601 3RD Ed. Approved
• 6W Output Power
Input
Parameter
Conditions
12 VDC Input
Min.
Typ.
Max.
9.0
Units
• 5.0 kVrms Isolation
• Reinforced Insulation
• 2 x MOPP per EN 60601-1
3RD Edition & ANSI/AAMI
ES 60601-1
Input Start Voltage
24 VDC Input
48 VDC Input
12 VDC Input
24 VDC Input
48 VDC Input
18.0
36.0
VDC
8.0
16.0
34.0
Under Voltage Shutdown
VDC
mS
Input Filter
Start Up Time
(Pi) Filter
Nominal VIN, Constant, Resistive Load
30
Output
• 2 µA Leakage Current Max
• Wide 2:1 Input Range
• Compact 24 Pin DIP Case
• Single & Dual Outputs
• 4.667 MH MTBF
Parameter
Conditions
Min.
Typ.
Max.
1.0
2.0
0.ꢀ
0.ꢀ
1.0
ꢀ.0
70
Units
%
%
Output Voltage Accuracy
Output Voltage Balance
Line Regulation
Dual Output , Balanced Loads
VIN = Min to Max
Single Output
0.ꢀ
%
Load Regulation, IOUT = 0% to 100%
%
Dual Output
See Note 2
See Note 3
Cross Regulation, Dual Output
Ripple & Noise (20 MHz)
Output Power Protection
Transient Recovery Time, See Note 4
Transient Response Deviation
Temperature Coefficient
Output Short Circuit
%
mV P - P
%
µSec
%
1ꢀ0
300
3.0
2ꢀ% Load Step Change
ꢀ.0
0.01
%/ºC
Continuous (Autorecovery)
General
Parameter
Conditions
Min.
60 Seconds ꢀ,000
2ꢀ0 Vrms
Typ.
Max.
Units
Vrms
Isolation Voltage
Reinforced Insulation Working Voltage
Leakage Current
240 VAC, 60 Hz
ꢀ00 VDC
2
µA
G⍀
pF
Isolation Resistance
10
Isolation Capacitance
Switching Frequency
EMI Characteristics
Parameter
100 kHz, 1V
40
330
Criteria
kHz
Standard
Level
See Page 3
Environmental
Parameter
Conditions
Min.
-40
Typ.
+2ꢀ
Max.
+9ꢀ
+10ꢀ
+12ꢀ
Units
Ambient
Case
Operating Temperature Range
°C
Storage Temperature Range
Cooling
Humidity
-ꢀ0
Free Air Convection
RH, Non-condensing
9ꢀ
%
Physical
Case Size
See Mechanical Diagram (Page 3)
MicroPower Direct
292 Page Street
Suite D
Stoughton, MA 02072
USA
Case Material
Weight
Reliability Specifications
Parameter
Non-Conductive Black Plastic (UL94-V0)
0.ꢀꢀ Oz (1ꢀ.ꢀg)
Conditions
Min.
Typ.
Max.
Units
MHours
MTBF
MIL HDBK 217F, 2ꢀºC, Gnd Benign 4.667
IEC/EN 60601-1, EN 60601-1 3RD Edition, 2xMOPP
T: (781) 344-8226
F: (781) 344-8481
E: sales@micropowerdirect.com
W: www.micropowerdirect.com
Safety Standards
ANSI/AAMI ES 60601-1 2xMOPP Recognition, (UL Certificate)
ANSI/AAMI ES 60601-1, CAN/CSA-C22.2 No.60601-1
Absolute Maximum Ratings
Parameter
Conditions
12 VDC Input
24 VDC Input
48 VDC Input
1.ꢀ mm From Case For 10 Sec
Min.
Typ.
Max.
12.0
ꢀ0.0
100.0
260
Units
VDC
ºC
Input Voltage Surge (1.0 Sec)
Lead Temperature
Caution: Exceeding Absolute Maximum Ratings may damage the module. These are not continuous operating ratings.
www.micropowerdirect.com
Model Selection Guide
www.micropowerdirect.com
Input
Output
Over
Voltage
Protection
(mA, Max) (mA, Min)
(VDC)
Capacitive Fuse Rating
Model
Efficiency
(%, Typ)
Voltage (VDC)
Current (mA)
Load
Slow-Blow
(mA)
Voltage Current Current
Number
(µF Max)
(VDC)
Nominal Range Full-Load No-Load
MA612SMRW-0ꢀRIꢀ
MA612SMRW-12RIꢀ
MA612SMRW-1ꢀRIꢀ
MA612DMRW-12RIꢀ
MA612DMRW-1ꢀRIꢀ
MA624SMRW-0ꢀRIꢀ
MA624SMRW-12RIꢀ
MA624SMRW-1ꢀRIꢀ
MA624DMRW-12RIꢀ
MA624DMRW-1ꢀRIꢀ
MA648SMRW-0ꢀRIꢀ
MA648SMRW-12RIꢀ
MA648SMRW-1ꢀRIꢀ
MA648DMRW-12RIꢀ
MA648DMRW-1ꢀRIꢀ
12
12
12
12
12
24
24
24
24
24
48
48
48
48
48
9.0 - 18.0
9.0 - 18.0
9.0 - 18.0
9.0 - 18.0
9.0 - 18.0
18.0 - 36.0
18.0 - 36.0
18.0 - 36.0
18.0 - 36.0
18.0 - 36.0
36.0 - 7ꢀ.0
36.0 - 7ꢀ.0
36.0 - 7ꢀ.0
36.0 - 7ꢀ.0
36.0 - 7ꢀ.0
ꢀ9ꢀ
ꢀ7ꢀ
ꢀ81
ꢀ7ꢀ
ꢀ7ꢀ
298
287
287
291
287
149
144
140
144
142
10
10
10
10
10
8
ꢀ.0
12.0
1ꢀ.0
12.0
1ꢀ.0
ꢀ.0
1,200
ꢀ00
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
6.2
84
87
86
87
87
84
87
87
86
87
84
87
89
87
89
1,ꢀ00
260
210
1ꢀ0
110
1,ꢀ00
260
210
1ꢀ0
110
1,ꢀ00
260
210
1ꢀ0
110
1,200
1,200
1,200
1,200
1,200
600
1ꢀ.0
18.0
1ꢀ.0
18.0
6.2
400
2ꢀ0
200
1,200
ꢀ00
8
12.0
1ꢀ.0
12.0
1ꢀ.0
ꢀ.0
1ꢀ.0
18.0
1ꢀ.0
18.0
6.2
600
8
400
600
8
2ꢀ0
200
1,200
ꢀ00
600
8
600
ꢀ
300
ꢀ
12.0
1ꢀ.0
12.0
1ꢀ.0
1ꢀ.0
18.0
1ꢀ.0
18.0
300
ꢀ
400
300
ꢀ
2ꢀ0
200
300
ꢀ
300
Notes:
6. The converter should be connected to a low ac-impedance source. An input source with a highly
inductive impedance may affect the stability of the converter. In applications where the converter
output loading is high and input power is supplied over long lines, it may be necessary to use
a capacitor on the input to insure start-up. In this case, it is recommended that a low ESR (ESR
<1.0⍀ at 100 kHz) capacitor be mounted close to the converter. For 12V input units a 10.0 µF
is recommended, for 24V a 4.7 µF and for 48V units a 2.2 µF.
1. The specified maximum capacitive load is for each output.
2. Cross regulation is measured with the +VOUT (pin 13) set to 50% load and the -VOUT (pin 12) varied
from 25% to 100% load.
3. Output ripple is measured with an external 1 µF/25V MLCC connected from the +VOUT pin to the
-VOUT pin for single output units and from each output to common for dual output units.
4. Transient recovery is measured to within a 1% error band for a load step change of 75% to 100%.
5. Dual output units may be connected to provide a 24 VDC or 30 VDC output. To do this, connect
the load across the positive (+VOUT) and negative (-VOUT) outputs and float the output common.
7. It is recommended that a fuse be used on the input of a power supply for protection. See the
table above for the correct rating.
Temperature Derating, 20 LFM (Ambient Air)
Temperature Derating, 100 LFM
Temperature Derating, 200 LFM
Temperature Derating, 400 LFM
Page 2
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Typical Connection/ EMI Characteristics
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These converters are specified for operation without external components.
However, in some applications the addition of input/output capacitors, as shown
in the typical connection diagram above, will enhance stability and reduce output
ripple.This simple connection includes a low ESR (<1ม at 100 kHz) capacitor
connected across the input (C1). It is recommended that a 22 µF be used
for 5V input models, a 10 µF for 12V input models, a 4.7 µF for 24V and
a 2.2 µF for 48V input units. To improve the output ripple performance,
a 4.7 µF is connected across the output. For dual output units, a 4.7 µF
capacitor should be connected from each output to common.
EMI Characteristics
Parameter
Standard
Criteria
Level
Class A
Class A
1ꢀ kV Air
8 kV Contact
10V/m
Conducted Emissions
Radiated Emissions
EN ꢀꢀ011 4TH Edition
EN ꢀꢀ011 4TH Edition
ESD
EN 61000-4-2
A
RS
EN 61000-4-3
EN 61000-4-4
EN 61000-4-ꢀ
EN 61000-4-6
EN 61000-4-8
A
A
A
A
A
To meet the EN 61000-4-4
and EN 61000-4-5 limits,
EFT, See Note at right
2 kV
Input Component Values
Model
C1
Surge, See Note at right
2 kV
the components in the table
at right must be connected
across the input pins of the
module. These components
should be mounted as close to
the module as possible.
12V Input
24V Input
48V Input
470 µF/100V
330 µF/100V
220 µF/100V
CS
10 Vrms
30A/m
PFMF
Mechanical Dimensions
Pin Connections
Pin Single
Dual
1
+VIN
+VIN
11
12
13
1ꢀ
23
24
No Pin Common
-VOUT
+VOUT
No Pin
-VIN
No Pin
-VOUT
+VOUT
-VIN
-VIN
-VIN
Mechanical Notes:
• All dimensions are typical in inches (mm)
• Tolerance x.xx = 0.01 ( 0.25)
Medical Approved Power Products
Thousands of standard power products ranging from 0.5W to 500W are available from MPD in
a wide variety of packages and pin-outs. This includes many more DC/DC and AC/DC product
families with EN 60601 medical approval. Go to micropowerdirect.com for full information.
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
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