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 3^RDEd. 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

3^RDEdition & 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

Input Filter

Start Up Time

␲ (Pi) Filter

Nominal VIN, Constant, Resistive Load

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.ꢀ

1.0

ꢀ.0

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

µA

G⍀

Isolation Resistance

Isolation Capacitance

Switching Frequency

EMI Characteristics

Parameter

100 kHz, 1V

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 3^RDEdition, 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.

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Model Selection Guide

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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

9.0 - 18.0

18.0 - 36.0

36.0 - 7ꢀ.0

ꢀ9ꢀ

ꢀ7ꢀ

ꢀ81

ꢀ7ꢀ

298

287

291

287

149

144

140

144

142

ꢀ.0

12.0

1ꢀ.0

12.0

1ꢀ.0

ꢀ.0

1,200

ꢀ00

0.0

6.2

1,ꢀ00

260

210

1ꢀ0

110

1,ꢀ00

260

210

1ꢀ0

110

1,ꢀ00

260

210

1ꢀ0

110

1,200

600

1ꢀ.0

18.0

1ꢀ.0

18.0

6.2

400

2ꢀ0

200

1,200

ꢀ00

12.0

1ꢀ.0

12.0

1ꢀ.0

ꢀ.0

1ꢀ.0

18.0

1ꢀ.0

18.0

6.2

600

400

600

2ꢀ0

200

1,200

ꢀ00

600

ꢀ

300

ꢀ

12.0

1ꢀ.0

12.0

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 +V^OUT(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 +V^OUTpin to the

-V^OUTpin 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 (+V^OUT) 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

1ꢀ kV Air

8 kV Contact

10V/m

Conducted Emissions

Radiated Emissions

EN ꢀꢀ011 4^THEdition

ESD

EN 61000-4-2

EN 61000-4-3

EN 61000-4-4

EN 61000-4-ꢀ

EN 61000-4-6

EN 61000-4-8

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

10 Vrms

30A/m

PFMF

Mechanical Dimensions

Pin Connections

Pin Single

Dual

+VIN

1ꢀ

No Pin Common

-VOUT

+VOUT

No Pin

-VIN

No Pin

-VOUT

+VOUT

-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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