HV MFM™

Filter

High-Voltage MIL-COTS Input Filter Module

MFM1714xD2KD2F4yzz

HV MFM™ Filter Rev 1.5Page 1 of 16 03/2020

Features & Benefits

• 270V nominal input

• 99% efficiency

• EMI filtering

MIL-STD-461E/F/G, selected CE and CS tests

• Input transient protection

MIL-STD-704F normal and abnormal transients

• Envronmental qualification

MIL-STD-810

MIL-STD-202

• Low M-Grade temperature rating, providing operation down to –55°C

• Output power up to 640W

• Available in chassis and PCB mount

• Small size

1.76 x 1.40 x 0.36in [44.6 x 35.5 x 9.2mm]

Typical Applications

• Defense

• Aerospace

Compatible Products

• High input voltage DCM3714 VIA™

• High input voltage ChiP [a] DCM

Product Description

The MFM DCM™ Filter is a DC front-end module that provides EMI filtering and transient protection. The MFM DCM Filter enables designers using Vicor 270V nominal input voltage VIA™ or ChiP™ [a] modules to meet conducted emission/conducted susceptibility per MIL-STD-461E/F/G; and input transients per MIL-STD-704F. The MFM DCM Filter accepts an input voltage of 160 – 420VDC (270V nominal input ) and delivers output power up to 640W.

Size:1.76 x 1.40 x 0.36in[44.6 x 35.5 x 9.2mm]

[a] Additional components are required for EMI filtering and transient suppression, when used with ChiP™ package modules.

Part Ordering Information

Part Number Package Type Product Grade Option Field

MFM1714BD2KD2F4M04B = Board VIA

M = –55 to 100°C

04 = Short Pin

MFM1714BD2KD2F4M08 08 = Long Pin

MFM1714VD2KD2F4M00 V = Chassis VIA 00 = Chassis

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160 – 420VSource

VDDE

EN TR

–SENSE +SENSE

LOAD

MFM+IN +OUT

EMI GND

–IN

+IN

–IN –OUT

+OUT

–OUT

earth ground

Alternate configuraon

DCM3714 VIA™

CIN

RIN_D

COUT-EXT

F[b]

CIN_1

DCM3714 VIA™ with a MFM input filter, to meet the MIL-STD-461E/F/G requirements

[b] A minimum load of 10% is required to meet the conducted emissions CE102 for input voltages in the range of 270 – 420VDC. For EMI test report, contact Vicor Applications.

[c] No minimum load is required to meet CE102 with CIN_1 = 100µF.

Typical Application

Parts List for Typical Application

FLittelfuse 0487 Series rated 8A

Cooper/Bussman PC-Tron Series, fast acting fuses rated 5A

RIN_D Vishay Dale CRCW25123R30FKEG, 3.3Ω, 1W

CIN [b] TDK Corporation C5750X6S2W225K250KA, 5 x 2.2µF (11µF)

Parts List for Alternate Configuration

CIN_1 [c] Rubycon 450QXW100MEFC16X35, 100µF, 450V

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MFM1714 Filter – Chassis (Lug) Mount – Terminals Up

MFM1714 Filter – PCB Mount – Pins Down

+IN

–IN

+OUT

–OUT

EMIGND

–IN

+IN

–OUT

+OUT

EMIGND

Pin Configuration

Pin Descriptions

Signal Name Type Function

+IN INPUT POWER Positive input power terminal

–ININPUT POWER

RETURNNegative input power terminal

EMI GND EMI GROUND EMI ground terminal

+OUT OUTPUT POWER Positive output power terminal

–OUTOUTPUT POWER

RETURNNegative output power terminal

Note: These pin drawings are not to scale.

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Absolute Maximum Ratings

The absolute maximum ratings below are stress ratings only. Operation at or beyond these maximum ratings can cause permanent damage to the device. Electrical specifications do not apply when operating beyond rated operating conditions.

Parameter Comments Min Max Unit

Input Voltage (+IN to –IN) Continuous –0.5 460.0 V

Output Voltage (+OUT to –OUT) Continuous –0.5 460.0 V

Dielectric Withstand (Input/Output to EMI GND/Case)

2121 VDC

Storage Temperature M-Grade –65 125 °C

Internal Operating Temperature M-Grade –55 125 °C

Average Output Current 4 A

Input/Output Pin Torque and Mounting Torque

4 [0.45] in.lbs [N.m]

Electrical Specifications

Specifications apply over all line and load conditions, unless otherwise noted; boldface specifications apply over the temperature range of –55°C ≤ TCASE ≤100°C (M-Grade); all other specifications are at TCASE = 25°C unless otherwise noted.

Attribute Symbol Conditions / Notes Min Typ Max Unit

Power Input / Output Specification

Input Voltage Range VIN Continuous operation 160 270 420 V

Maximum Output Current [d] IOUT_MAXContinuous, at VOUT = 160V(IOUT = POUT/VIN)

4 A

Rated Output Power [d] POUT Continuous, over all line conditions 640 W

Internal Voltage Drop @270V, 2.37A, 100°C baseplate 0.80 VDC

Efficiency η

Full load, low line, high temperature 99.4 99.6 99 %

Full load, nominal line, high temperature 99.7 99.8 %

Full load, high line, high temperature 99.8 99.9 %

[d] One MFM for each DCM™ even if the total power of the DCM is below POUT maximum value.

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EMI/EMC

Standard Test Procedure Notes

MIL-STD-461E/F/G

Conducted EmmisionsCE101 Figure CE101-4, Navy ASW & Army Aircraft, Curve #1 (above 28VDC)

CE102 Figure CE102-1, Basic curve + 10dB limit relaxation for all applications

Conducted Susceptibility CS101 Figure CS101, Curve #1, for all applications (above 28VDC)

MIL-HDBK-704-7

Transient ImmunityMIL-STD-704F normal transients

From table HDC105-III: overvoltage 330VDC for 20ms duration, undervoltage 200VDC for 50ms duration

MIL-STD-704F abnormal transientsFrom table HDC302-III: overvoltage 350VDC for 50ms duration, undervoltage 180VDC for 50ms duration

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Typical Characteristics

f/Hz Atten./dBCursor 1 100.000k -40.030Cursor 2 1.000M -76.273

C2-C1 900.000k -36.242

1 2

-100

-80

-60

-40

-20

104 105 106 107

Atte

nuat

ion (d

B)

Frequency (Hz)

-Common Mode-Differential Mode

f/Hz Mag./dBCursor 1 39.587k 37.956Cursor 2 1.686M -42.183

C2-C1 1.646M -80.139

1 2

-40

-20

0

20

40

102 103 104 105 106 107

Out

put Im

peda

nce

Mag

nitud

e (d

BΩ)

Frequency (Hz)

Figure 1 — Attenuation (dB) vs. frequency (Hz), input leads are terminated with LISN impedances 25Ω for common mode, 100Ω for differential mode

Figure 2 — Output Impedance (dBΩ) vs. frequency (Hz) plot looking back into the output terminals of the MFM with shorted input terminals

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Typical Conducted Emissions

CE101 peak scans with MFM1714VD2KD2F4M00 and DCM3714VD2K26E0M01 or DCM3714VD2K31E0T01, in either condition: –OUT connected to GND or –OUT floating.

30 Hz 10 kHz

INPUT 2

ResBW 100 Hz

Meas T 20 ms

Det MA

Att 10 dB

Trd CE101RED

SGL

1MA

Unit dB A

19.Oct 2018 14:36

100 Hz 1 kHz 10 kHz

10

20

30

40

50

60

70

80

90

100

110

120

130

0

140

1

Marker 1 [T1]

37.71 dB A

626.00000000 Hz

1 [T1] 37.71 dB A

626.00000000 Hz

CE101-41

Title: PeakComment B: ""Date: 19.OCT.2018 14:36:48

30 Hz 10 kHz

INPUT 2

ResBW 100 Hz

Meas T 20 ms

Det MA

Att 10 dB

Trd CE101BLK

SGL

1MA

Unit dB A

19.Oct 2018 15:54

100 Hz 1 kHz 10 kHz

10

20

30

40

50

60

70

80

90

100

110

120

130

0

140

1

Marker 1 [T1]

87.35 dB A

30.00000000 Hz

1 [T1] 87.35 dB A

30.00000000 Hz

CE101-41

Title: PeakComment B: ""Date: 19.OCT.2018 15:54:30

30 Hz 10 kHz

INPUT 2

ResBW 100 Hz

Meas T 20 ms

Det MA

Att 10 dB

Trd CE101RED

SGL

1MA

Unit dB A

19.Oct 2018 14:15

100 Hz 1 kHz 10 kHz

10

20

30

40

50

60

70

80

90

100

110

120

130

0

140

1

Marker 1 [T1]

58.43 dB A

626.00000000 Hz

1 [T1] 58.43 dB A

626.00000000 Hz

CE101-41

Title: PeakComment B: ""Date: 19.OCT.2018 14:15:19

Figure 4 — Peak scan for the RED lead with CIN = 11µF, RIN_D = 3.3Ω COUT = 2200µF, 0% load, VIN = 160V

Figure 7 — Peak scan for the BLACK lead with CIN = 11µF, RIN_D = 3.3Ω COUT = 2200µF, 100% load, VIN = 160V

Figure 5 — Peak scan for the RED lead with CIN = 11µF, RIN_D = 3.3Ω COUT = 2200µF, 100% load, VIN = 160V

30 Hz 10 kHz

INPUT 2

ResBW 100 Hz

Meas T 20 ms

Det MA

Att 10 dB

Trd CE101BLK

SGL

1MA

Unit dB A

19.Oct 2018 15:47

100 Hz 1 kHz 10 kHz

10

20

30

40

50

60

70

80

90

100

110

120

130

0

140

1

Marker 1 [T1]

89.24 dB A

30.00000000 Hz

1 [T1] 89.24 dB A

30.00000000 Hz

CE101-41

Title: PeakComment B: ""Date: 19.OCT.2018 15:47:35

Figure 6 — Peak scan for the BLACK lead with CIN = 11µF, RIN_D = 3.3Ω COUT = 2200µF, 0% load, VIN = 160V

DC Power Supply

ScreenRoom/Filters

LISN

LISN

HV MFM

+IN +OUT

–OUT–IN

+IN +OUT

Load

50Ω Termination onSignal Output Port(One for Each LISN)

EMIReceiver

Current Probe

EMI GND

+

–

CIN COUT

DCM3714 VIA™

–OUT–IN

Figure 3 — A typical test setup for conducted emissions CE101 is shown above. A current probe is used to measure and plot the variations in the current through the RED and BLACK leads at various load conditions.

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30 Hz 10 kHz

SGL

1MA

Unit dB A

Trd CE101

18.Nov 2016 14:43

ResBW 100 Hz

Meas T 20 ms

Det MA

Att 10 dB

INPUT 2

100 Hz 1 kHz 10 kHz

10

20

30

40

50

60

70

80

90

100

110

120

130

0

140

CE101-41

Date: 18.NOV.2016 14:43:53

30 Hz 10 kHz

SGL

1MA

Unit dB A

Trd CE101

18.Nov 2016 14:25

ResBW 100 Hz

Meas T 20 ms

Det MA

Att 10 dB

INPUT 2

100 Hz 1 kHz 10 kHz

10

20

30

40

50

60

70

80

90

100

110

120

130

0

140

1

2

Marker 1 [T1]

81.16 dB A

1.84000000 kHz

1 [T1] 81.16 dB A

1.84000000 kHz

2 [T1] 62.40 dB A

5.00000000 kHz

CE101-41

Date: 18.NOV.2016 14:25:55

30 Hz 10 kHz

SGL

1MA

Unit dB A

Trd CE101

ResBW 100 Hz

Meas T 20 ms

Det MA

Att 10 dB

INPUT 2

18.Nov 2016 14:39

100 Hz 1 kHz 10 kHz

10

20

30

40

50

60

70

80

90

100

110

120

130

0

140

1

2

Marker 1 [T1]

78.74 dB A

1.36000000 kHz

1 [T1] 78.74 dB A

1.36000000 kHz

2 [T1] 61.33 dB A

5.00000000 kHz

CE101-41

Date: 18.NOV.2016 14:39:33

Figure 8 — Peak scan for the RED lead with CIN_1 = 100µF, COUT = 2000µF, 0% load

Figure 11 — Peak scan for the BLACK lead with CIN_1 = 100µF, COUT = 2000µF, 100% load

Figure 9 — Peak scan for the RED lead with CIN_1 = 100µF, COUT = 2000µF, 100% load

30 Hz 10 kHz

SGL

1MA

Unit dB A

Trd CE101

ResBW 100 Hz

Meas T 20 ms

Det MA

Att 10 dB

INPUT 2

18.Nov 2016 14:21

100 Hz 1 kHz 10 kHz

10

20

30

40

50

60

70

80

90

100

110

120

130

0

140

CE101-41

Date: 18.NOV.2016 14:21:58

Figure 10 — Peak scan for the BLACK lead with CIN_1 = 100µF, COUT = 2000µF, 0% load

Typical Conducted Emissions (Cont.)

CE101 peak scans with MFM1714VD2KD2F4M00 and DCM3714VD2K26E0M01 or DCM3714VD2K31E0T01, in either condition: –OUT connected to GND or –OUT floating.

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Typical Conducted Emissions (Cont.)

CE102 peak scans with MFM1714VD2KD2F4M00 and DCM3714VD2K26E0M01 or DCM3714VD2K31E0T01, –OUT connected to GND, –OUT is floating.

10 kHz 10 MHz

INPUT 2

ResBW 10 kHz

Meas T 20 ms

Det MA

Att 10 dB

Trd CE102RED

SGL

1MA

Unit dB V

19.Oct 2018 10:19

100 kHz 1 MHz 10 MHz

10

20

30

40

50

60

70

80

90

100

110

0

120

CE102270

Title: PeakComment B: ""Date: 19.OCT.2018 10:19:10

10 kHz 10 MHz

INPUT 2

ResBW 10 kHz

Meas T 20 ms

Det MA

Att 10 dB

Trd CE102BLK

SGL

1MA

Unit dB V

19.Oct 2018 10:25

100 kHz 1 MHz 10 MHz

10

20

30

40

50

60

70

80

90

100

110

0

120

CE102270

Title: PeakComment B: ""Date: 19.OCT.2018 10:25:27

10 kHz 10 MHz

INPUT 2

ResBW 10 kHz

Meas T 20 ms

Det MA

Att 10 dB

Trd CE102BLK

SGL

1MA

Unit dB V

19.Oct 2018 10:21

100 kHz 1 MHz 10 MHz

10

20

30

40

50

60

70

80

90

100

110

0

120

CE102270

Title: PeakComment B: ""Date: 19.OCT.2018 10:21:40

Figure 13 — Peak scan for the RED lead with CIN = 11µF, RIN_D = 3.3Ω COUT = 2200µF, 0% load, VIN = 160V

Figure 16 — Peak scan for the BLACK lead with CIN = 11µF, RIN_D = 3.3Ω COUT = 2200µF, 100% load, VIN = 160V

Figure 14 — Peak scan for the RED lead with CIN = 11µF, RIN_D = 3.3Ω COUT = 2200µF, 100% load, VIN = 160V

10 kHz 10 MHz

INPUT 2

ResBW 10 kHz

Meas T 20 ms

Det MA

Att 10 dB

Trd CE102RED

SGL

1MA

Unit dB V

19.Oct 2018 10:13

100 kHz 1 MHz 10 MHz

10

20

30

40

50

60

70

80

90

100

110

0

120

CE102270

Title: PeakComment B: ""Date: 19.OCT.2018 10:13:39

Figure 15 — Peak scan for the BLACK lead with CIN = 11µF, RIN_D = 3.3Ω COUT = 2200µF, 0% load, VIN = 160V

DC Power Supply

ScreenRoom/Filters

LISN

LISN

50Ω Termination

EMI Reciever

Attenuator

HV MFM

+IN

-IN

+OUT

-OUT

Load

EMI GND

CIN COUT

+

–

20dB

–IN

+IN +OUT

–OUT

DCM3714 VIA™

Figure 12 — A typical test setup for conducted emissions CE102 is shown above. A 50Ω termination is used for LISN and voltage across the RED and BLACK leads are measured at various load conditions.

Note: A minimum load of 10% is required to meet the conducted emissions CE102 for input voltages in the range of 270 – 420VDC. For EMI test report, contact Vicor Applications.

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SGL

1MA

10 kHz 10 MHz

Unit dB V

Trd CE102RED

18.Oct 2016 14:43

ResBW 10 kHz

Meas T 20 ms

Det MA

Att 10 dB

INPUT 2

100 kHz 1 MHz 10 MHz

10

20

30

40

50

60

70

80

90

100

110

0

120

1

Marker 1 [T1]

68.32 dB V

133.20000000 kHz

1 [T1] 68.32 dB V

133.20000000 kHz

CE102270

Date: 18.OCT.2016 14:43:36

SGL

1MA

10 kHz 10 MHz

Unit dB V

Trd CE102BLK

ResBW 10 kHz

Meas T 20 ms

Det MA

Att 10 dB

INPUT 2

18.Oct 2016 14:54

100 kHz 1 MHz 10 MHz

10

20

30

40

50

60

70

80

90

100

110

0

120

1

23

Marker 1 [T1]

47.71 dB V

718.00000000 kHz

1 [T1] 47.71 dB V

718.00000000 kHz

2 [T1] 42.53 dB V

2.86600000 MHz

3 [T1] 39.52 dB V

5.01800000 MHz

CE102270

Date: 18.OCT.2016 14:54:17

SGL

1MA

10 kHz 10 MHz

Unit dB V

Trd CE102RED

18.Oct 2016 14:51

ResBW 10 kHz

Meas T 20 ms

Det MA

Att 10 dB

INPUT 2

100 kHz 1 MHz 10 MHz

10

20

30

40

50

60

70

80

90

100

110

0

120

1

2

3

Marker 1 [T1]

47.38 dB V

718.00000000 kHz

1 [T1] 47.38 dB V

718.00000000 kHz

2 [T1] 43.38 dB V

2.87000000 MHz

3 [T1] 39.64 dB V

5.02200000 MHz

CE102270

Date: 18.OCT.2016 14:51:53

Figure 17 — Peak scan for the RED lead with CIN_1 = 100µF, COUT = 2000µF, 0% load

Figure 20 — Peak scan for the BLACK lead with CIN_1 = 100µF, COUT = 2000µF, 100% load

Figure 18 — Peak scan for the RED lead with CIN_1 = 100µF, COUT = 2000µF, 100% load

SGL

1MA

10 kHz 10 MHz

Unit dB V

Trd CE102BLK

18.Oct 2016 14:45

ResBW 10 kHz

Meas T 20 ms

Det MA

Att 10 dB

INPUT 2

100 kHz 1 MHz 10 MHz

10

20

30

40

50

60

70

80

90

100

110

0

120

1

Marker 1 [T1]

69.34 dB V

132.80000000 kHz

1 [T1] 69.34 dB V

132.80000000 kHz

CE102270

Date: 18.OCT.2016 14:45:22

Figure 19 — Peak scan for the BLACK lead with CIN_1 = 100µF, COUT = 2000µF, 0% load

Typical Conducted Emissions (Cont.)

CE102 peak scans with MFM1714VD2KD2F4M00 and DCM3714VD2K26E0M01 or DCM3714VD2K31E0T01, –OUT connected to GND, –OUT is floating.

Note: No minimum load is required to meet CE102 with CIN_1 = 100µF.

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General Characteristics

Specifications apply over all line and load conditions, TINT = 25°C, unless otherwise noted; boldface specifications apply over the temperature range of the specified product grade.

Attribute Symbol Conditions / Notes Min Typ Max Unit

Mechanical

Length L 44.6 [1.76] mm [in]

Width W 35.5 [1.39] mm [in]

Height H 9.22 [0.36] mm [in]

Volume Vol 14.5 [0.88] cm3 [in3]

Mass (Weight) M 30 [1.06] g [oz]

Pin Material C145 copper, 1/2 hard

Underplate Low-stress ductile Nickel 50 100 µin

Pin FinishPalladium 0.8 6

µinSoft Gold 0.12 2

Flatness <0.25 [0.010] mm [in]

Thermal

Internal Operating Temperature [e] M-Grade –55 125°C

Case Temperature M-Grade –55 100

Thermal Resistance, Internal to Case Non-Pin Side

θINT_NON_PIN_SIDE 6.5 °C/W

Soldering

TemperatureSee: AN:401 PCB Mount VIA Soldering Guidelines

Reliability

MTBFMIL-HDBK-217FN2 Parts Count - 25°C Ground Benign, Stationary, Indoors / Computer

60 MHrs

Safety

Dielectric Withstand Input / Output to EMI GND/Case 2121 VDC

Agency Approvals / Standards

CE marked for Low Voltage Directive (LVD) 2014/35/EU, EN60950-1

[e] Internal operating temperatures will be kept to acceptable limits if the lower housing of the unit is mounted to a metal plate (coldplate or heat sink) with thermal grease that is kept to 100°C or less. If the unit is not mounted to a metal plate, then a thermocouple on the non-pin-side housing located midway between the two mounting holes needs to be kept to 100°C or less.

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Environmental Qualification

Testing Activity Reference Standard Test Details

HTOB-HTOL High-Temperature Operating Bias/Life

JESD22-A110-BDuration of 1000hrs, high Line, full load, max operating temperature, power cycled per IPC9592

TC (Temperature Cycling) JESD22-A104D 1000 cycles –55 to 125°C

HALT (Highly Accelerated Life Test) DP-0266Low temp, high temp, rapid thermal cycling, random vibration test, combined stress test

THB (Temperature Humidity Bias) JEDSD22-A101C Duration of 1000hrs, biased, 85°C, 85%RH

HTS (High Temperature Storage) JESD 22-A103-DDuration 1000hrs, no bias. Maximum storage temperature (125°C)

LTS (Low Temperature Storage) JESD22–A119Duration 1000hrs, no bias. Minimum storage temperature (–65°C)

Random Vibration MIL-STD-810G Method 514.6, Procedure I, Category 24, mounted on QA

Mechanical Shock MIL-STD-810GMethod 516.5, Procedure I, Environment: functional shock 40G, mounted on QA

Electro Static Discharge Human Body Model JEDEC JS-001-2012 Table 2B, Class 2, ±2000V minimum

Electro Static Discharge Device Charge Model

JESD22-C101-E Class III ±500V minimum

Free Fall IPC9592B IEC 60068-2-32, freefall procedure 1

Term Strength MIL-STD-202GMethod 211A, Test Condition A, Environment: Ambient temperature & %Rh.

Through-Hole Solderability IPC-9592B IPC/ECA J-STD-002 Test A (dip and look)

Salt Fog MIL-STD-810G Method 509.5

Fungus MIL-STD-810G Method 508.6

Resistance to Solvents MIL-STD-202G Method 215K

Acceleration MIL-STD-810G Method 513.6 Procedure II

Altitude MIL-STD-810G Method 500.5 Procedure I & II

Explosive Atmosphere MIL-STD-810G Method 511.5 Procedure I, operational

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Chassis-Mount Outline Drawing

1.17029.720

.112.82

.8822.28

.15

3.86(2) PL.

PIN 1 DESIGNATOR

EMIGND

-IN -OUT

+OUT+IN

.37±.0159.30±.381

1.7644.60

1.4035.50

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Board-Mount Outline Drawing

.37±.0159.30±.381

.0802.032(5) PL.

DIM 'L'±.015(5) PL.

SEATING PLANE

1.7644.60

.8822.30

1.4035.50

.112.892

1.1729.720

TOP VIEW(COMPONENT SIDE)

.153.86

(2) PL.

1.396±.02035.458±.508

.698±.02017.729±.508

.474±.02012.029±.508

(2) PL.

.947±.02024.058±.508

.111±.0202.825±.508

(2) PL. BOTTOM VIEW

+IN

EMIGND

-IN -OUT

+OUT

1.396±.00335.452±.076

.698±.00317.726±.076

.474±.00312.029±.076

(2) PL.

.947±.00324.058±.076

1.170±.00329.720±.076

.111±.0032.831±.076

.120±.003

3.048±.076PLATED THRU

.030 [.762]ANNULAR RING

(5) PL.

.172±.0034.369±.076

PLATED THRU.064 [1.626]

ANNULAR RING(2) PL.

RECOMMENDED HOLE PATTERN(COMPONENT SIDE)

-OUT

+OUT+IN

EMIGND

-IN

DIM 'L'SHORT .120 [3.026]LONG .199 [5.042]

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Revision History

Revision Date Description Page Number(s)

1.0 02/13/17 Initial release n/a

1.1 06/15/17 Updated product image 7, 8

1.2 07/26/17

Added fuse recommendation for typical application & remvoed MOVUpdated internal operting temperatureUpdated note on CE scans for –OUT floatingUpdated MTBF rating

24

7, 89

1.3 07/24/18 Updated mechanical drawings 11, 12

1.4 10/26/18Updated typical applicationUpdated typical conducted emissions

27 – 10

1.5 03/31/20 Updated MIL-STD-461 to the latest revision 1, 2, 5

Note: pages added in Rev 1.4

HV MFM™ Filter Rev 1.5Page 16 of 16 03/2020

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Vicor’s comprehensive line of power solutions includes high density AC-DC and DC-DC modules and accessory components, fully configurable AC-DC and DC-DC power supplies, and complete custom power systems.

Information furnished by Vicor is believed to be accurate and reliable. However, no responsibility is assumed by Vicor for its use. Vicor makes no representations or warranties with respect to the accuracy or completeness of the contents of this publication. Vicor reserves the right to make changes to any products, specifications, and product descriptions at any time without notice. Information published by Vicor has been checked and is believed to be accurate at the time it was printed; however, Vicor assumes no responsibility for inaccuracies. Testing and other quality controls are used to the extent Vicor deems necessary to support Vicor’s product warranty. Except where mandated by government requirements, testing of all parameters of each product is not necessarily performed.

Specifications are subject to change without notice.

Visit http://www.vicorpower.com/mil-cots-dc-dc/mfm-filter-module for the latest product information.

Vicor’s Standard Terms and Conditions and Product WarrantyAll sales are subject to Vicor’s Standard Terms and Conditions of Sale, and Product Warranty which are available on Vicor’s webpage (http://www.vicorpower.com/termsconditionswarranty) or upon request.

Life Support Policy

VICOR’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS PRIOR WRITTEN APPROVAL OF THE CHIEF EXECUTIVE OFFICER AND GENERAL COUNSEL OF VICOR CORPORATION. As used herein, life support devices or systems are devices which (a) are intended for surgical implant into the body, or (b) support or sustain life and whose failure to perform when properly used in accordance with instructions for use provided in the labeling can be reasonably expected to result in a significant injury to the user. A critical component is any component in a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system or to affect its safety or effectiveness. Per Vicor Terms and Conditions of Sale, the user of Vicor products and components in life support applications assumes all risks of such use and indemnifies Vicor against all liability and damages.

Intellectual Property Notice

Vicor and its subsidiaries own Intellectual Property (including issued U.S. and Foreign Patents and pending patent applications) relating to the products described in this data sheet. No license, whether express, implied, or arising by estoppel or otherwise, to any intellectual property rights is granted by this document. Interested parties should contact Vicor’s Intellectual Property Department.

The products described on this data sheet are protected by the following U.S. Patents Numbers:Patents Pending.

©2017 – 2020 Vicor Corporation. All rights reserved. The Vicor name is a registered trademark of Vicor Corporation.All other trademarks, product names, logos and brands are property of their respective owners.

Contact Us: http://www.vicorpower.com/contact-us

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Andover, MA, USA 01810Tel: 800-735-6200Fax: 978-475-6715

www.vicorpower.com

emailCustomer Service: custserv@vicorpower.com

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