AME28461X/ES - INFINEON TECHNOLOGIES AG

02/16/10

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EMI FILTER

HYBRID-HIGH RELIABILITY

AME28461 SERIES

Description

nUp to 15 Ampere Output Current

nAttenuation > 35dB @ 200 KHz

nLow Profile (0.38”) Seam Welded Package

nCeramic Feedthru Copper-Core Pins

nOperation Over Full Military Temp. Range

nStandard Military Drawings Available

Features

AME

Typical Connection Diagram

The AME Series of EMI filters have been designed to

provide full compliance with the input line reflected

ripple current requirement specified by CE03 of MIL-

STD-461C over the full military temperature range while

operating in conjunction with the corresponding AFL

series of DC-DC converters. These filters are offered

as part of a complete family of conversion products

providing single and dual output voltages while

operating from nominal +28 or +270 input line voltage.

Other converters operating with a similar switching

frequency will also benefit by use of this device.

These EMI filters are hermetically packaged in two

enclosure variations, utilizing copper-core pins to

minimize resistive DC losses. Three lead styles are

available, each fabricated with International Rectifier’s

rugged ceramic lead-to-package seal assuring long

term hermetic seal integrity in harsh environments.

Manufactured in a facility fully qualified to MIL-PRF-

38534, these converters are available in four screening

grades to satisfy a wide range of applications. The CH

grade is fully compliant to the requirements of MIL-

PRF-38534 for class H. The HB grade is fully processed

and screened to the class H requirement, but does not

include element evaluation to the class H requirement.

Both grades are tested to meet the complete

group “A” test specification over the full military

temperature range with no derating. Two grades

with more limited screening are also available

for use in less demanding applications. Variations

in electrical, mechanical and screen requirements

can be accommodated. Contact IR San Jose for

special requirements.

AME28461

EMI Filter

AFL28XX

or Other

DC/DC Converter

+Vin

Input Return

+Vout

Output Return

To Additional Converters up to Total

of Filter Rated Output Current

System

Bus

AFL28XX

or Other

DC/DC Converter

+Vout

Output Return

+Vin

Input Return

Note: Filter and Converter

Cases Should be

Electrically Connected

PD-94597A

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AME28461 Series

Specifications

Electrical Characteristics -55°C ≤ TCASE ≤ +125°C, -40V ≤ VIN ≤ +40V unless otherwise specified

Notes to Specifications

ABSOLUTE MAXIMUM RATINGS, Note 1

Input Voltage -100V to +100V Note 2

Input Current 30A

Lead Soldering Temperature 300°C for 10 seconds

Case Temperature Operating -55°C to +125°C

Storage -65°C to +135°C

Parameter

Group A

Subgroups

Test Conditions

Min

Max

Unit

Leakage Current Note 3 1, 2, 3 ± 100V DC Input Voltage 0 50 µA

DC Resistance Note 4 1, 2, 3 TC = 25°C

TC = 125°C

70 mΩ

Noise Reduction 4, 5, 6

200 KHz - 500 KHz

500 KHz - 1 MHz

1 MHz – 10 MHz

Isolation 1 Any Pin to Case, Tested @ 500VDC 100 MΩ

Capacitance

2, 3 Measured Between Any Pin and Case

62 nF

1. Operation above maximum ratings may cause permanent damage to the device. Operation at maximum ratings

may degrade performance and affect reliability.

2. Device can tolerate ± 100 Volt transient whose duration is ≤ 100 ms when RS ≥ 0.5 Ω.

3. Derate Output Current linearly from 100% at 125°C to 0 at 135°C.

4. DC resistance is the total resistance of the device and includes the sum of the input to output resistance and the

return in to return out resistance paths.

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AME28461 Series

Block Diagram

Refer to last page for Pin Designation

Circuit Operation and Application Information

The AME series of filters employ three stages of

filtering in a low pass configuration designed to

attenuate the higher frequency components of ripple

currents generated by high frequency switching DC-

DC converters. The Block Diagram describes the

general arrangement of the principal elements which

have been connected to provide both differential and

normal mode buffering between the input and output

terminals.

When a single AME filter is used in conjunction with

multiple DC-DC converters, the use will be limited to

the maximum output current capability specified in

the AME electrical table.1 A typical connection

utilizing one filter to drive two converters is illustrated

on page 1.

1 To calculate the input current (iin) requirement of any one converter, first determine the maximum output power by

multiplying output voltage by maximum load current, divide this power by the efficiency to obtain input power and then divide

input power by input voltage to obtain the input current (iin). Note that to obtain worst case input current, you must use

maximum load current, minimum efficiency and minimum line voltage in this calculation.

121

22 µF 11 µF

20 nF

Case

Output

Return

Input

Return

Employing only passive elements, AME filter

operation is initiated simply by insertion into the input

power path between one or more DC-DC converters

and their input DC voltage bus. In this connection,

output pins of the filter will be connected to input

pins of the converters.

Although expressly designed to complement the AFL

series of DC-DC converters, when operated within

their specified limits the AME filters can be

successfully operated in conjunction with other

converters in the Advanced Analog line including

the ASA, AHF, AHV and ATR series.

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AME28461 Series

Requirement

MIL-STD-883

Method

Suffix

Temperature Range -20 to +85°C -55°C to +125°C -55°C to +125°C -55°C to +125°C

Element Evaluation MIL-PRF-38534

Internal Visual 2017



Yes Yes Yes

Temperature Cycle 1010 Cond B Cond C Cond C

Constant Acceleration 2001 500g Cond A Cond A

Burn-in 1015 48hrs@ 85°C 48hrs@ 125°C 160hrs @ 125°C 160hrs @ 125°C

Final Electrical

(Group A)

MIL-PRF-38534

& Specification

25°C 25°C -55, +25, +125°C -55, +25, +125°C

Seal, Fine & Gross 1014 Cond A Cond A, C Cond A, C Cond A, C

External Visual 2009



Yes Yes Yes

Available Screening Levels and Process Variations

Available Standard Military Drawing (SMD) Cross Reference

* Per Commercial Standards

Standard

Military Drawing

Vendor

CAGE

Code

Vendor

similar

98027-01HUA 52467 AME28461W/CH

98027-01HUC 52467 AME28461W/CH

98027-01HXA 52467 AME28461X/CH

98027-01HXC 52467 AME28461X/CH

98027-01HYA 52467 AME28461Y/CH

98027-01HYC 52467 AME28461Y/CH

98027-01HZA 52467 AME28461Z/CH

98027-01HZC 52467 AME28461Z/CH

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AME28461 Series

Mechanical Diagrams

Case X

Case W

Pin Variation of Case Y

1.260 1.500

2.500

2.760

3.000

ø 0.128

0.250

1.000

Ref 0.200 Typ

Non-cum

0.050

0.220

ø 0.040

0.238 max

0.380

Max

2.975 max

712

0.050

0.220

0.250

1.000

ø 0.040

0.525

0.380

Max

2.800

0.42

Case Y Case Z

Pin Variation of Case Y

1.500 1.750

2.500

0.25 typ

1.150

0.050

0.220

712

1.750 0.375

2.00

0.250

1.000

Ref 0.200 Typ

Non-cum

ø 0.040

0.300

ø 0.140

0.238 max

0.380

Max

2.975 max

0.050

0.220

0.250

1.000

Ref

ø 0.040

0.525

0.380

Max

2.800

0.36

Tolerances, unless otherwise specified: .XX = ±0.010

.XXX = ±0.005

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AME28461 Series

Pin Designation

Pin No. Designation

1 Positive Input

2 Positive Input

3 Positive Input

4 Input Return

5 Input Return

6 Input Return

7 Output Return

8 Output Return

9 Output Return

10 Positive Output

11 Positive Output

12 Positive Output

Part Numbering

AME 28 461 X / CH

Model

Input Voltage

28 = 28V

50 = 50V

270 = 270V Applicable

Military Test

Standard

Case Style

W, X, Y, Z

Screening

— , ES, HB, CH

WORLD HEADQUARTERS: 233 Kansas St., El Segundo, California 90245, Tel: (310) 252-7105

IR SAN JOSE: 2520Junction Avenue, San Jose, California 95134, Tel: (408) 434-5000

Visit us at www.irf.com for sales contact information.

Data and specifications subject to change without notice. 02/2010