FMH-461 Datasheet, PDF(1/9 Page) Interpoint Corporation Company

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FMH-461 Datasheet, PDF (1/9 Pages) Interpoint Corporation Company – EMI INPUT FILTER 28 VOLT INPUT

FEATURES

â¢ â55Â°C to +125Â°C operation

â¢ 50 dB minimum attenuation

at 500 kHz

â¢ Compliant to MIL-STD-461C, CE03

â¢ Compatible with MIL-STD-704E

DC power bus

EMI INPUT FILTER

28 VOLT INPUT

FMH EMI FILTER

1.5 AMP

MODEL

FMH-461 1.5 amp

Size (max.): Non-flanged, case E3

1.460 x 1.130 x 0.330 (37.08 x 28.70 x 8.38 mm)

Flanged, case G3

2.005 x 1.130 x 0.330 inches (50.93 x 28.70 x 8.38 mm)

See Section B8, cases E3 and G3, for dimensions.

Weight: 22 grams typical, 28 grams maximum

Screening: Standard, ES, or 883 (Class H). See Section C2 for screening

options, see Section A5 for ordering information.

DESCRIPTION

Interpoint specifically designed the FMH-461â¢ EMI filter to reduce

the input line reflected ripple current of the following high frequency

DC/DC converters: MHD, MHF, MHF+, MHV, MSA1, and MTR

series converters. It will also reduce EMI for several of Interpointâs

lower frequency converters: MHE/MLP, MHL, MTO, and MTW

series. The FMH-461 filter is ideal for use in applications which must

meet MIL-STD-461C levels of conducted and radiated emissions.

Throughput current is 1.5 amps. At 16 VDC input (low line), the filter

provides 24 watts of throughput power.

MIL-STD NOISE MANAGEMENT

When used in conjunction with Interpoint converters, the FMH-461

EMI filter reduces input ripple current by 35 dB or greater at 200 kHz

and by at least 50 dB at 500 kHz (see Figures 5 and 6 and electrical

characteristics table). This attenuation gives the converter/filter

combination performance which exceeds MIL-STD-461Câs CE03

test.

FILTER OPERATION

FMH-461 filters are rated for full power operation from â55Â°C to

+125Â°C baseplate temperature. Operation is offered up to the

absolute maximum of +135Â°C with derating as defined in

âRecommended Operating Conditionsâ on the following page. The

maximum DC insertion loss at full load and nominal input voltage

(28 VDC) represents a power loss of less than 2%.

LAYOUT REQUIREMENTS

The case of the filter must be connected to the case of the converter

through a low impedance connection to minimize EMI.

1. MSA models may require an inductor in series with the MSAâs positive input.

2 ÂµH is the suggested value.

B3-17

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