PM972 datasheet, PDF - EEWORLD Datasheet

Datasheet> All Categories > accessories> PM972

Preview

PM972: Description2-OUTPUT DC-DC REG PWR SUPPLY MODULE; Categoryaccessories; File Size36KB，2 Pages; ManufacturerArtesyn; Websitehttp://www.artesyn.com

Download Datasheet View All

PM972 Overview

2-OUTPUT DC-DC REG PWR SUPPLY MODULE

PM972 Preview

PM900 SERIES

Single and dual output

•

Extremely tight line and load regulation

Short circuit protection

Pi input filter

Low ripple output current

Conducted noise EN55022, EN55011 level B

Linear topology for high output accuracy and regulation

[ 2 YEAR WARRANTY ]

The PM900 Series of 5 and 6 Watt DC/DC converters are a broad line of high

performance modules with many important features and specifications as

standard. All models contain Pi-type input filters to minimise reflected ripple

current. They are packaged in low profile 2.0 x 2.0 x 0.4 inch cases with

standard and two alternate pin-outs designed for direct PC card mounting. The

units also feature output current limiting, short-circuit protection and

input/output isolation of 500VDC. Other specifications include: an efficiency of

65%; line regulation of ±0.02%; load regulation of ±0.04% for single output

models and ±0.05% for dual output models; low ripple and noise (10mV pk-pk

for single output models and 6mV pk-pk for dual output models); and an output

voltage accuracy of ±1.0%. PM900 Series DC/DC converters are intended for a

wide variety of general industrial applications, especially where low noise

performance is required.

SPECIFICATION

OUTPUT SPECIFICATIONS

Voltage accuracy

Line regulation

Load regulation

Cross regulation

Ripple and noise

20MHz BW

All specifications are typical at nominal input, full load at 25°C unless otherwise stated

EMC CHARACTERISTICS

±1.0%, max.

Conducted emissions

EN55022, EN55011, FCC 15

Level B

NL to FL

FL to NL, Single outputs

FL to NL, Dual outputs

Dual outputs

(Voltage balance)

Single output

Dual output

±0.02%

±0.04%

±0.05%

±0.5%, max

10mV pk-pk, typical,

65mV pk-pk, max.

6mV pk-pk, typical,

35mV pk-pk, max.

10µs

200µs

20µs

±0.02%/°C

±0.01%/°C

130% to 180% Iout

GENERAL SPECIFICATIONS

Efficiency

Isolation voltage

Switching frequency

Case material

Weight

MTBF

ENVIRONMENTAL SPECIFICATIONS

Thermal performance

Operating ambient

–25°C to +71°C

Non-operating amb. –40°C to +125°C

Case

+95°C, max

Derating

None required

Cooling

Free-air convection

cooled

Non-condensing

Operating

Non operating

5Hz to 500Hz

20% to 95% RH

10,000 feet max.

40,000 feet max.

2.4G rms (approx.)

Fixed

UL94V-0

Single output

Dual output

61%, min.

62%, min.

500VDC, min.

20kHz, min.

Non-conductive

black plastic

57g (2oz)

680,000 hours

Transient recovery

time to 0.1% of final

value

NL to FL, all outputs

FL to NL, single output

FL to NL, dual output

Temperature coefficient Single output

Dual output

Current limit

Short circuit protection

See Note 4

Thermal limit

Relative humidity

See table on facing page

Altitude

Vibration

Pi network

INPUT SPECIFICATIONS

Input voltage range

Input filter

See Note 3

Data Sheet © Artesyn Technologies® 2000

The information and specifications contained in this data sheet are believed to be correct at time of publication. However, Artesyn Technologies accepts no responsibility for consequences arising

from printing errors or inaccuracies. Specifications are subject to change without notice. No rights under any patent accompany the sale of any such product(s) or information contained herein.

PAGE 1

SPECIAL APPLICATION MODELS

5-6W DC/DC

5 to 6 Watt

Nominal input DC/DC converters

INPUT

OUTPUT

INPUT CURRENT

NO LOAD FULL LOAD

125mA

140mA

150mA

130mA

135mA

50mA

60mA

55mA

25mA

30mA

25mA

30mA

13mA

14mA

1.54A

1.73A

1.84A

1.65A

1.7A

0.64A

0.72A

0.69A

0.71A

0.32A

0.36A

0.38A

0.34A

0.35A

0.16A

0.17A

REFLECTED

RIPPLE CURRENT

(1)

54mA

61mA

64mA

58mA

60mA

22mA

26mA

24mA

25mA

22mA

25mA

27mA

24mA

25mA

22mA

24mA

INPUT

VOLTAGE

12V

24V

48V

0.40

(10.2)

MAX.

0.20 (5.1)

REGULATION

LINE

±0.02%

LOAD

±0.04%

±0.05%

±0.04%

±0.05%

±0.04%

±0.05%

±0.04%

±0.05%

ALT.

PIN-OUT

A, B

(2)

MODEL

NUMBER

PM901

PM903

PM904

VOLTAGE VOLTAGE CURRENT

5VDC

12VDC

24VDC

48VDC

5VDC

12VDC

15VDC

±12VDC

±15VDC

5VDC

12VDC

±12VDC

±15VDC

5VDC

12VDC

15VDC

±12VDC

±15VDC

5VDC

±12VDC

1000mA

470mA

400mA

±230mA

±190mA

1000mA

470mA

±230mA

±190mA

1000mA

470mA

400mA

±230mA

±190mA

1000mA

±230mA

PM951

PM952

PM911

PM913

PM961

PM962

PM921

PM923

PM924

PM971

PM972

PM941

PM991

Notes

Figures are peak-to-peak.

Alternate pin-out versions, if available, are designated by the suffixes

shown. For example, model PM901 is available in two alternate pin-out

versions, i.e. PM901A and PM901B. See case drawings below.

Fixed frequency design provides for easier input filtering and better noise

performance.

Short circuit protection is achieved using a thermal limit at 130°C max. An

extended short circuit of >8 hours will affect the units reliability.

60% FL

4.4 to 6.5V

10.56 to 15.6V

21.12 to 31.2V

42.24 to 62.4V

80% FL

4.5 to 6.0V

10.8 to 14.4V

21.6 to 28.8V

43.2 to 57.6V

100% FL

4.65 to 5.5V

11.16 to 13.2V

22.32 to 26.4V

44.64 to 52.8V

Alternate Pin Configuration - Suffix A

2.00

(50.8)

1.80

(45.7)

0.10

(2.5)

+ IN

0.15

(3.81)

+ OUT

0.50 (12.7)

CASE G

Standard Pin Configuration

2.00

(50.8)

0.80

(20.3)

0.60

(15.2)

0.22

(5.6)

MIN.

0.40

(10.2)

MAX

0.30 (7.5)

2.00

(50.8)

0.15

(3.81)

COM/NC

BOTTOM

VIEW

- IN

- OUT

0.50 (12.7)

ALL DIMENSIONS IN INCHES (mm)

0.02 (0.5) DIA.

0.15

(3.8) MIN.

0.90

(22.9)

+ OUT

2.00

(50.8)

+ IN

- IN

0.20

(5.1)

- OUT

BOTTOM VIEW

PIN*

COM

0.40

(10.2)

0.60

(15.2)

Alternate Pin Configuration-Suffix B

2.00

(50.8)

0.175

(4.4)

+ IN

1.70

(43.2)

+ OUT

0.15 0.22

(3.8) (5.6)

0.15 MIN

(3.8)

0.40

(10.2)

MAX.

0.40

(10.2)

0.04

(1.0)

DIA

ALL DIMENSIONS IN INCHES (mm)

2.00

(50.8)

0.85

(21.6)

1.65

(41.9)

COM/NC*

BOTTOM VIEW

- IN

- OUT

0.04

(1.0)

DIA.

0.85

(21.6)

* On single output models this pin is either not present or should not be

connected.

DS_PM900_19980401.PDF

ALL DIMENSIONS IN INCHES (mm)

http://www.artesyn.com

PAGE 2

More (Only the first 5 pages are displayed. Please Download Datasheet to view the full content.) >

Recommended Resources

Use Y976 to make light-controlled flashing warning lights

Stereo record player amplifier circuit with bass control

Typical application circuit diagram of DC and DC converter composed of SI9114

Intermittent operation control circuit diagram

Mining lamp alarm circuit

Fahrenheit Thermometer Circuit

Huawei employee detained for 251 days for extortion over severance pay: I saw a piece of news these days. It was first circulated in the circle of friends and was finally exposed in the media yesterday. Some people say that as a company gets bigger, it’s inevitable that t...; eric_wang Talking

How many kilometers does it take to change tires? [I recently rented a car and wanted to know more]: Car fans all want to get a bigger wheel hub for their car. Don’t ask why? There’s nothing wrong with being willful! But when it comes to fixing the tires, do you still dare not understand what the par...; btty038 Talking

TMS320C6748 development board EDMA routine: EDMA routine (1) Manually trigger event 11 to run the passed parameters in PaRAM11 and link to PaRAM10 through PaRAM.LINK. Then manually trigger event 11 to run the passed parameters in PaRAM10. exter...; 灞波儿奔 Microcontroller MCU

This indicator has an EVM indicator in the previous high-speed rail or subway PA.: Analysis of the relationship between 5G NR modulation order and EVM and system SNR requirements Mobile communication technology has higher and higher requirements for data transmission rate. One way t...; btty038 RF/Wirelessly

Domestic MCU replacement: a pitfall: As a fan of Butterfly, I feel sorry for the shortage and price increase of STM32. But whether you are making products or playing with DIY, you can't ignore the cost (there is a limit to not caring). 　...; cruelfox Domestic Chip Exchange

Can the power supply master give me some advice on how to calculate the secondary winding wire diameter of the flyback switching power supply transformer?: I need to use the effective value of current. I downloaded a flyback transformer calculation table from the Internet, but I don't understand how the secondary peak current is obtained from the output ...; 西里古1992 Analog electronics

Shortcut: L0 L1 L2 L3 L4 L5 L6 L7 L8 L9 LA LB LC LD LE LF LG LH LI LJ LK LL LM LN LO LP LQ LR LS LT LU LV LW LX LY LZ M0 M1 M2 M3 M4 M5 M6 M7 M8 M9 MA MB MC MD ME MF MG MH MI MJ MK ML MM MN MO MP MQ MR MS MT MU MV MW MX MY MZ N0 N1 N2 N3 N4 N5 N6 N7 N8 NA NB NC ND NE NF NG NH NI NJ NK NL NM NN NO NP NQ NR NS NT NU NV NX NZ O0 O1 O2 O3 OA OB OC OD OE OF OG OH OI OJ OK OL OM ON OP OQ OR OS OT OV OX OY OZ P0 P1 P2 P3 P4 P5 P6 P7 P8 P9 PA PB PC PD PE PF PG PH PI PJ PK PL PM PN PO PP PQ PR PS PT PU PV PW PX PY PZ Q1 Q2 Q3 Q4 Q5 Q6 Q8 Q9 QA QB QC QE QF QG QH QK QL QM QP QR QS QT QV QW QX QY R0 R1 R2 R3 R4 R5 R6 R7 R8 R9 RA RB RC RD RE RF RG RH RI RJ RK RL RM RN RO RP RQ RR RS RT RU RV RW RX RY RZ

Popular Components