IRF AME270461Z-ES Advanced analog emi filter hybrid / high reliability Datasheet

PD-94595A
AME50461 SERIES
EMI FILTER
HYBRID-HIGH RELIABILITY
Description
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 MILSTD-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, +50 or +270 input line
voltage. Other converters operating with a similar
switching frequency will also benefit by use of this
device.
AME
Features
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 Rectifiers’s
rugged ceramic lead-to-package seal assuring long
term hermetic seal integrity in harsh environments.
Manufactured in a facility fully qualified to MIL-PRF38534, 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 MILPRF-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.
n
n
n
n
n
n
Up to 7.0 Ampere Output Current
Attenuation > 35dB @ 200 KHz
Low Profile (0.38”) Seam Welded Package
Ceramic Feedthru Copper-Core Pins
Operation Over Full Military Temp. Range
Standard Military Drawings Available
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.
Typical Connection Diagram
+Vout
+Vin
System
Bus
+Vin
AME50461
EMI Filter
Input Return
Output Return
Note: Filter and Converter
Cases Should be
Electrically Connected
AFL50XX
or Other
DC/DC Converter
Input Return
+Vin
RL
Output Return
AFL50XX
or Other
DC/DC Converter
Input Return
+Vout
+Vout
RL
Output Return
To Additional Converters up to Total
of Filter Rated Output Current
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02/16/10
AME50461 Series
Specifications
ABSOLUTE MAXIMUM RATINGS Note 1
Input Voltage
Input Current
Lead Soldering Temperature
Case Temperature
-300V to +300V Note 2
7.0A
300°C for 10 seconds
Operating
-55°C to +125°C
Storage
-65°C to +135°C
Electrical Characteristics -55°C ≤ TCASE ≤ +125°C, -100V ≤ VIN ≤ +100V unless otherwise specified
Parameter
Group A
Subgroups
Test Conditions
Leakage Current Note 3
1, 2, 3
± 250V DC Input Voltage
DC Resistance Note 4
1, 2, 3
TC = 25°C
TC = 125°C
Noise Reduction
Isolation
Capacitance
4, 5, 6
1
1
2, 3
Min
Max
Unit
0
50
µA
60
100
mΩ
200 KHz - 500 KHz
500 KHz - 1 MHz
1 MHz – 10 MHz
35
60
65
Any Pin to Case, Tested @ 500VDC
100
Measured Between Any Pin and Case
dB
MΩ
34
56
30
62
nF
Notes to Specifications
1.
Operation above maximum ratings may cause permanent damage to the device. Operation at maximum ratings
may degrade performance and affect reliability.
Device can tolerate ± 300 Volt transient whose duration is ≤ 100 ms when RS ≥ 0.5 Ω.
Derate Output Current linearly from 100% at 125°C to 0 at 135°C.
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.
2.
3.
4.
2
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AME50461 Series
Block Diagram
Input
1
12
2
11
Output
20 nF
3
10
Case
4
9
20 nF
Input
Return
5
8
6
7
Output
Return
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 DCDC 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.
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.
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 page1.
Although expressly designed to complement the AFL
series of DC-DC converters, the AME50461 filters
can be successfully operated in conjunction with
other converters in the Advanced Analog line
including the ASA, AHF, AHV and ATR series.
1
To calculate the input current (i in ) 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.
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AME50461 Series
AME50461 Case Style Outlines
Case X
Case W
Pin Variation of Case Y
3.000
ø 0.128
2.760
0.050
0.050
1
12
0.250
1.000
Ref
6
7
1.260 1.500
0.250
0.200 Typ
Non-cum
1.000
Pin
ø 0.040
0.220
2.500
0.220
Pin
ø 0.040
2.800
2.975 max
0.525
0.238 max
0.42
0.380
Max
0.380
Max
Case Y
Case Z
Pin Variation of Case Y
1.150
0.300
ø 0.140
0.25 typ
0.050
1
12
0.250
1.000
Ref
6
7
1.500 1.750 2.00
1.750
0.050
0.250
1.000
Ref
0.200 Typ
Non-cum
Pin
ø 0.040
0.375
0.220
2.500
0.36
2.975 max
2.800
0.238 max
0.525
0.380
Max
Tolerances, unless otherwise specified:
4
Pin
ø 0.040
0.220
0.380
Max
.XX
.XXX
=
=
±0.010
±0.005
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AME50461 Series
Available Screening Levels and Process Variations
MIL-STD-883
Method
Requirement
Temperature Range
No
Suffix
ES
Suffix
HB
Suffix
CH
Suffix
-20 to +85°C
-55°C to +125°C
-55°C to +125°C
-55°C to +125°C
Element Evaluation
MIL-PRF-38534
‘
Yes
Yes
Yes
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
MIL-PRF-38534
25°C
25°C
-55, +25, +125°C
-55, +25, +125°C
(Group A)
& Specification
Internal Visual
2017
Temperature Cycle
Seal, Fine & Gross
1014
Cond A
Cond A, C
Cond A, C
Cond A, C
External Visual
2009
‘
Yes
Yes
Yes
*
Per Commercial Standards
Part Numbering
Pin Designation
AME 50 461 X / CH
Pin No.
Designation
1
Positive Input
2
Positive Input
Input Voltage
3
Positive Input
4
Input Return
28 = 28V
50 = 50V
270 = 270V
5
Input Return
6
Input Return
7
Output Return
8
Output Return
9
Output Return
10
Positive Output
11
Positive Output
12
Positive Output
Model
Screening
—
, ES, HB, CH
Case Style
W, X, Y, Z
Applicable
Military Test
Standard
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
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