M3G2805D/CK [INFINEON]

DC-DC Regulated Power Supply Module, 2 Output, 40W, Hybrid, 3 X 2 INCH, 0.400 INCH HEIGHT, HERMETIC SEALED PACKAGE-13;


型号：	M3G2805D/CK
厂家：	Infineon
描述：	DC-DC Regulated Power Supply Module, 2 Output, 40W, Hybrid, 3 X 2 INCH, 0.400 INCH HEIGHT, HERMETIC SEALED PACKAGE-13
文件：	总15页 (文件大小：187K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

PD-94534L

M3G-SERIES

28V Input, Single/Dual Output

HYBRID - HIGH RELIABILITY

RADIATION HARDENED

DC-DC CONVERTER

Description

The M3G-Series of DC-DC converters are radiation

hardened, high reliability converters designed for

extended operation in hostile environments. Their small

size and low weight make them ideal for applications

such as geostationary earth orbit satellites and deep

space probes. They exhibit a high tolerance to total

ionizing dose, single event effects and environmental

stresses such as temperature extremes, mechanical

shock, and vibration. All components are fully derated

to meet the requirements of MIL-STD-975, MIL-STD-

1547 and GSFC PPL-21 Appendix B.

M3G

Features

n Total Dose > 200 KRad(Si),

typically usable to > 300 KRad(Si)

n ^{SEE Hardened to LET up to 82 MeV}.cm²/mg

n Internal EMI filter; Converter Capable of

meeting MIL-STD-461C CE03

The converters incorporate a fixed frequency single

ended forward topology with magnetic feedback and

an internal EMI filter that utilizes multilayer ceramic

capacitors that are subjected to extensive lot screening

for optimum reliability. These converters are capable

of meeting the conducted emissions and conducted

susceptibility requirements of MIL-STD-461C without

any additional components. External inhibit and

synchronization input and output allow these converters

to be easily incorporated into larger power systems.

They are enclosed in a hermetic 3" x 2" x 0.475" package

constructed of an Aluminum-Silicon-Carbide (AlSiC)

base and an Alloy 48 ring frame and they weigh less

than 110 grams. The package utilizes rugged ceramic

feed-through copper core pins and is sealed using

parallel seam welding.

n Low Weight, < 110 grams

n Magnetically Coupled Feedback

n 18V to 50V DC Input Range

n Up to 40W Output Power

n Single and Dual Output Models Include

3.3, 5, 5.2, 12, 15, ±5, ±7, ±12 and ±15V

n High Efficiency - to 82%

n -55°C to +125°C Operating Temperature Range

n 100MΩ @ 500VDC Isolation

n Under-Voltage Lockout

n Short Circuit and Overload Protection

n Output Over Voltage Limiter

n Remote Sense on Single Output Models

n Adjustable Output Voltage for Duals

n Synchronization Input and Output

n External Inhibit

n > 5,000,000 Hour MTBF

n Standard Microcircuit Drawings Available

Manufactured in a facility fully qualified to MIL-PRF-

38534, these converters are fabricated utilizing DSCC

qualified processes. For available screening options,

refer to device screening table in the data sheet.

Applications

Non-flight versions of the M3G-Series converters are

available for system development purposes. Variations

in electrical specifications and screening to meet custom

requirements can be accommodated.

Geostationary Earth Orbit Satellites (GEO)

Deep Space Satellites / Probes

Strategic Weapons and Communication System

www.irf.com

08/16/10

M3G-SERIES

Circuit Description

The M3G-Series converters utilize a single-ended

forward topology with resonant reset. The nominal

switching frequency is 500kHz. Electrical isolation

and tight output regulation are achieved through the

use of a magnetically coupled feedback.

An external inhibit port is provided to control converter

operation. The nominal threshold relative to the

input return (pin 2) is 1.4V. If 2.0 volts or greater are

applied to the Inhibit pin (pin 3) then the converter

will operate normally. A voltage of 0.8V or less will

cause the converter to shut-down. The pin may be

left open for normal operation and has a nominal

open circuit voltage of 4.0V.

An internal EMI filter allows the converter to meet the

conducted emissions requirements of MIL-STD-461C

on the input power leads. A two-stage output filter

reduces the typical output ripple to less than 20mV

peak-to-peak.

Synchronization input and output allow multiple

converters to operate at a common switching

frequency. Converters can be synchronized to one

another or to an externally provided clock. This can

be used to eliminate beat frequency noise or to avoid

creating noise at certain frequencies for sensitive

systems.

Output current is limited under any load fault condition

to approximately 125% of rated. An overload

condition causes the converter output to behave like

a constant current source with the output voltage

dropping below nominal. The converter will resume

normal operation when the load current is reduced

below the current limit point. This protects the

converter from both overload and short circuit

conditions. The current limit point exhibits a slightly

negative temperature coefficient to reduce the

possibility of thermal runaway.

Remote sense is provided on the single output

models to compensate for voltage drops in the

interconnects between the converter and the load.

The output voltage of dual output models can be

adjusted by a single external resistor.

Design Methodology

The M3G-Series was developed using a proven

conservative design methodology which includes

selecting radiation tolerant and established reliability

components and fully derating to the requirements

of MIL-STD-975 and MIL-STD-1547. Careful sizing

of decoupling capacitors and current limiting

resistors minimizes the possibility of photo-current

burn-out. Heavy derating of the radiation hardened

power MOSFET virtually eliminates the possibility

of SEGR and SEB. A magnetic feedback circuit is

utilized instead of opto-couplers to minimize

temperature, radiation and aging sensitivity.

PSPICE and RadSPICE were used extensively to

predict and optimize circuit performance for both

beginning and end-of-life. Thorough design

analyses include Radiation Susceptibility (TREE ),

Worst Case, Stress, Thermal, Failure Modes and

Effects (FMEA) and Reliability (MTBF).

An under-voltage lockout circuit prohibits the

converter from operating when the line voltage is too

low to maintain the output voltage. The converter will

not start until the line voltage rises to approximately

16.5 volts and will shut down when the input voltage

drops below 15.5 volts. The one volt of hysteresis

reduces the possibility of line noise interfering with

the converter’s start-up and shut down.

www.irf.com

M3G-SERIES

Specifications

Absolute Maximum Ratings

Recommended Operating Conditions

Input voltage range

Output power

-0.5Vdc to +80Vdc

Input voltage range

Input voltage range¹

Output power

+18Vdc to +60Vdc

+18Vdc to +50Vdc

0 to Max. Rated

-55°C to +125°C

-55°C to +70°C

Internally limited

Lead temperature

Operating temperature

Storage temperature

+300°C for 10 seconds

-55°C to +135°C

Operating temperature ²

Operating temperature ¹

¹Meets derating per MIL-STD-975

²For operation at +125°C see table note 13

Electrical Performance Characteristics

Conditions

-55°C ≤ T_C≤ +85°C

_IN= 28V DC ± 5%, C_L= 0

Limits

Nom

Group A

Subgroup

Parameter

Unit

Min

Max

unless otherwise specified

Input Voltage

Output Voltage ( Vout )

M3G2803R3S

M3G2805S

3.32

5.02

5.23

12.05

15.06

±5.02

±7.03

±12.05

±15.06

_OUT= 100% rated load

Note 4

3.28

4.98

5.17

11.95

14.94

±4.98

±6.97

±11.95

±14.94

3.30

5.00

5.20

12.00

15.00

±5.00

±7.00

±12.00

±15.00

M3G2805R2S

M3G2812S

M3G2815S

M3G2805D

M3G2807D

M3G2812D

M3G2815D

_OUT= 100% rated load

Note 4

3.36

5.07

5.27

12.16

15.20

±5.07

±7.10

±12.16

±15.20

M3G2803R3S

M3G2805S

M3G2805R2S

M3G2812S

M3G2815S

M3G2805D

M3G2807D

M3G2812D

M3G2815D

2,3

2.3

2,3

3.24

4.93

5.13

11.84

14.80

±4.93

±6.90

±11.84

±14.80

Output power ( P_OUT

)

M3G2803R3S

All Others

1,2,3

_IN= 18, 28, 50 Volts, Note 2

Output current ( I_OUT

)

M3G2803R3S

M3G2805S

M3G2805R2S

M3G2812S

M3G2815S

M3G2805D

M3G2807D

M3G2812D

M3G2815D

9.10

8.00

7.70

3.34

2.67

6.40

4.57

2.67

2.14

Either Output, Note 3

Line regulation ( VR_LINE

)

1,2,3

V_IN= 18, 28, 50 Volts

_OUT= 0, 50%, 100% rated, Note 4

-10

Load regulation ( VR_LOAD

)

I_OUT= 0, 50%, 100% rated, Note 4

-0.5

0.5

_IN= 18, 28, 50 Volts

Cross regulation ( VR_CROSS

M3G2805D

)

1,2,3

Duals only, Note 5

_IN= 18, 28, 50 Volts

-5.0

-3.0

5.0

3.0

M3G2807D

M3G2812D

M3G2815D

For Notes to Specifications, refer to page 5

www.irf.com

M3G-SERIES

Electrical Performance Characteristics ( continued )

Conditions

Limits

Nom

Group A

Subgroup

-55°C ≤ T_C≤ +85°C

V_IN= 28V DC ± 5%, C_L= 0

unless otherwise specified

Parameter

Unit

Min

450

Max

Input current ( I_IN

)

1,2,3

I_OUT= 0, Pin 3 open

Pin 3 shorted to pin 2

2.0

5.0

Switching frequency ( F_S

)

1,2,3

Sync. Input (Pin 4) open

500

550

KHz

Output ripple ( V_RIP

)

M3G2803R3S

M3G2805S

M3G2805R2S

M3G2812S

M3G2815S

M3G2805D

M3G2807D

M3G2812D

M3G2815D

_OUT= 100% rated load

Notes 4, 6

mV p-p

Efficiency ( E_FF

)

M3G2803R3S

M3G2805S

M3G2805R2S

M3G2812S

M3G2815S

M3G2805D

M3G2807D

M3G2812D

M3G2815D

_OUT= 100% rated load

Note 4

Inhibit Input

open circuit voltage

drive current ( sink )

voltage range

Note 1

3.0

5.0

100

µA

-0.5

Synchronization Input

frequency range

pulse high level

pulse low level

pulse transition time

pulse duty cycle

Ext. Clock on Sync. Input (Pin 4)

Note 1

450

4.0

-0.5

600

10.0

0.5

KHz

V/µs

Current Limit Point

Expressed as a percentage

of full rated load current

1,2,3

V_out= 90% of Nominal,

Note 4

125

135

Power dissipation, load fault (P_D)

Output response to

step load changes (V_TLD

1,2,3

4,5,6

Short Circuit, Overload, Note 8

Half Load to/from Full Load,

Notes 4, 9

-300

1.0

300

mV pk

)

Recovery time,

step load changes (T_TLD

Output response to

4,5,6

Half Load to/from Full Load,

Notes 4, 9,10

200

µs

)

18V to/from 50V

I_OUT= 100% rated load, Notes 1,4,11

step line changes (V_TLN

)

300

200

mV pk

Recovery time,

step line changes (T_TLN

18V to/from 50V

I_OUT= 100% rated load, Notes 1,4,10,11

)

µs

Turn-on Response

Overshoot (V_OS

)

No Load, Full Load

Notes 4,12

5.0

Turn-on Delay (T_DLY

)

For Notes to Specifications, refer to page 5

www.irf.com

M3G-SERIES

Electrical Performance Characteristics ^{( continued )}

Conditions

-55°C ≤ T_C≤ +85°C

_IN= 28V DC ± 5%, C_L= 0

Limits

Nom

Group A

Subgroup

Parameter

Unit

Max

Min

unless otherwise specified

Capacitive Load (CL)

M3G2803R3S

M3G2805S

_OUT= 100% rated load

2200

1000

180

120

500

300

No effect on DC performance

M3G2805R2S

M3G2812S

M3G2815S

M3G2805D

M3G2807D

Notes 1, 4, 7

µF

Each output on duals

M3G2812D

M3G2815D

Line Rejection

I_OUT= 100% rated load

DC to 50KHz, Notes 1, 4

Isolation

Input to Output or Any Pin to Case

except pin 6, test @ 500VDC

100

MΩ

Device Weight

MTBF

110

5.0 x 10⁶

Hrs

MIL-HDBK-217F2, SF, 35°C

Notes: Electrical Performance Characteristics

1. Parameter is tested as part of design characterization or after design changes. Thereafter, parameter shall

be guaranteed to the limits specified.

2. Parameter verified during line and load regulation tests.

3. Limit represents 80% of total rated output current. To achieve rated output power, the remaining 20% of

the total rated output current must be provided by the other output.

4. Load current split equally between outputs on dual output models.

5. Cross regulation is measured with 20% rated load on output under test while changing the load on the

other output from 20% to 80% of rated.

6. Guaranteed for a D.C. to 20MHz bandwidth. Tested using a 20KHz to 10MHz bandwidth.

7. Capacitive load may be any value from 0 to the maximum limit without compromising dc performance. A

capacitive load in excess of the maximum limit may interfere with the proper operation of the converter’s

overload protection, causing erratic behavior during turn-on.

8. Overload power dissipation is defined as the device power dissipation with the load set such that VOUT =

90% of nominal.

9. Load step transition time ≥ 10 µs.

10. Recovery time is measured from the initiation of the transient to where VOUT has returned to within ±1% of

its steady state value.

11. Line step transition time ≥ 100 µs.

12. Turn-on delay time from either a step application of input power or a logic low to a logic high transition on

the inhibit pin (pin 3) to the point where VOUT = 90% of nominal.

13. Although operation at temperatures between +85°C and +125°C is guaranteed, no parametric limits are

specified.

www.irf.com

M3G-SERIES

Fig 1. Block Diagram - Single Output

EMI

FILTER

Vin

+OUTPUT

+10.5V

RETURN

UNDER VOLTAGE

LOCKOUT

& INHIBIT

BIAS

SUPPLY

INHIBIT

+5V

SHORT CIRCUIT

OVERLOAD

LEVEL

TRANSLATOR

& FET DRIVE

RETURN

+SENSE

-SENSE

+5V

SYNC.

INPUT

RAMP

GENERATOR

SAMPLE

HOLD

OSCILLATOR

PWM

SYNC.

OUTPUT

CASE

GROUND

FEEDBACK

TRIGGER

Fig 2. Block Diagram - Dual Output

EMI

FILTER

Vin

+OUTPUT

RETURN

-OUTPUT

+10.5V

UNDER VOLTAGE

LOCKOUT

& INHIBIT

BIAS

SUPPLY

INHIBIT

+5V

SHORT CIRCUIT

OVERLOAD

LEVEL

TRANSLATOR

& FET DRIVE

RETURN

+5V

ADJUST

SYNC.

INPUT

RAMP

GENERATOR

SAMPLE

HOLD

OSCILLATOR

PWM

SYNC.

OUTPUT

CASE

GROUND

FEEDBACK

TRIGGER

www.irf.com

M3G-SERIES

Fig 3. Conducted Emissions, Positive Lead

100

CEO3 LIMIT

1E3

1E4

1E5

1E6

Frequency ( Hz )

1E7

1E8

Fig 4. Line Rejection, 28Vdc + 8Vacp-p

-20

-40

-60

-80

-100

-120

1E2

1E3

1E4

1E5

Frequency ( Hz )

www.irf.com

M3G-SERIES

Fig 5. M3G2803R3S Efficiency

Vin=18V

Vin=28V

Vin=50V

Output Power ( Watts )

Fig 6. M3G2805S Efficiency

Vin=18V

Vin=28V

Vin=50V

Output Power ( Watts )

www.irf.com

M3G-SERIES

Fig 7. M3G2812S Efficiency

Vin=18V

Vin=28V

Vin=50V

Output Power ( Watts )

Radiation Performance Characteristics

Test

Conditions

Min

Typ

Unit

MIL-STD-883, Method 1019

Operating bias applied during exposure,

Full Rated Load, V_IN= 28V

KRads

(Si)

Total Ionizing Dose ( Gamma )

200

300

Dose Rate ( Gamma Dot )

Temporary Saturation

Survival

MIL-STD-883, Method 1023

Operating bias applied during exposure,

Full Rated Load, V_IN= 28V

Rads (Si)/sec

1E8

4E10

1E11

1E13

Neutrons

/cm²

Neutron Fluence

MIL-STD-883, Method 1017

8E12

Heavy ions (LET)

Operating bias applied during exposure,

Full Rated Load, V_IN= 28V

Single Event Effects

SEU, SEL, SEGR, SEB

MeV cm²

/mg

International Rectifier currently does not have a DSCC certified Radiation Hardness Assurance Program.

www.irf.com

M3G-SERIES

Application Notes:

A) Attachment of the Converter.

The following procedure is recommended for mounting the converter for optimum cooling and to circumvent

any potential damage to the converter.

Ensure that flatness of the plate where M3G converter to be mounted is no greater than 0.003” per linear inch.

It is recommended that a thermally conductive gasket is used to promote the thermal transfer and to fill any

voids existing between the two surfaces. IR recommends Sil-Pad 2000 with the thickness of 0.010". The

shape of the gasket should match the footprint of the converter including the mounting flanges. The gasket

is available from IR. The M3G-series converter requires either M3 or 4-40 size screws for attachment

purposes.

The procedure for mounting the converter is as follows:

1. Check the mounting surfaces and remove foreign material, burrs if any or anything that may

interfere with the attachment of the converter.

2. Place the gasket on the surface reserved for the converter and line it up with the mounting holes.

3. Place the converter on the gasket and line both up with mounting holes.

4. Install screws using appropriate washers and tighten by hand (~ 4 in·oz) in the sequence shown below.

5. Tighten the screws with an appropriate torque driver. Torque the screws up to 6 in·lb in the sequence

shown above.

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M3G-SERIES

B) Output Voltage Adjustment.

Single Output:

Adjustment of the output voltage requires the +Sense pin be connected in one of two ways as shown in

Figures 8 and 9 below. Use the equations and circuit configurations provided to calculate the required

resistance ( RADJ ) for the applicable voltage adjust range. The output adjustment is limited to 0 to +10%

range for reliable operation.

Fig 8. Configuration for Adjusting Single Output Voltage from +0.25V to +10%

+Out 13

Out

Return

M3G

(single output)

Radj

+Sense 10

-Sense

Fig 9. Configuration for Adjusting Single Output Voltage from 0 to +0.25V

+Out 13

Out

Return

M3G

Radj

(single output)

+Sense 10

-Sense

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M3G-SERIES

For M3GXX03R3S:

Using the configuration of Fig 8 and where RADJ is in Ohms and 3.513 < VOUT < 3.630

495

R_ADJ

V_OUT−3.513

Using the configuration of Fig 9 and where RADJ is in Ohms and 3.300 < VOUT < 3.513

(

V_OUT−3.300

)

R_ADJ=150

(3.513−V_OUT

)

For M3GXX05S:

Using the configuration of Fig 8 and where RADJ is in Ohms and 5.250 < VOUT < 5.500

750

R_ADJ

V_OUT− 5.25

Using the configuration of Fig 9 and where RADJ is in Ohms and 5.500 < VOUT < 5.250

(

V_OUT− 5.000

)

R_ADJ= 150

(5.250 − V_OUT

For M3GXX12S:

Using the configuration of Fig 8 and where RADJ is in Ohms and 12.312 < VOUT < 13.200

1800

R_ADJ

V_OUT−12.312

Using the configuration of Fig 9 and where RADJ is in Ohms and 12.000 < VOUT < 12.312

(

V_OUT−12.000

)

R_ADJ=150

(12.312 −V_OUT

)

For M3GXX15S:

Using the configuration of Fig 8 and where RADJ is in Ohms and 15.315 < VOUT < 16.500

2250

R_ADJ

V_OUT−15.315

Using the configuration of Fig 9 and where RADJ is in Ohms and 15.000 < VOUT < 15.315

(

V_OUT−15.000

)

R_ADJ=150

(15.315−V_OUT

)

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M3G-SERIES

Dual Output:

The dual output models have an Adjust pin which can be connected through a resistor ( RADJ ) to either output.

This allows the outputs to be reliably adjusted by approximately +10% to -25% of the nominal output voltage.

Refer to Figure 10 and use equations provided to calculate the required resistance ( RADJ ).

Fig 10. Configuration for Adjusting Dual Output Voltage

Note 1

+Out 13

Out

Return

Notes:

1. For Vout < Vnom

2. For Vout > Vnom

M3G

(Dual Output)

Note 2

-Out

Radj

Adjust

For all Dual Output Models, to adjust the output voltage higher:

3.48

(

1.64V_NOM−1

)

R_ADJ

− 51

V_OUT−V_NOM

where: RADJ is in KOhms

RADJ is connected to -Out pin and VNOM < VOUT < 1.1VNOM (Fig. 10, Note 2)

VNOM is the nominal output voltage with the Adjust pin left open

VOUT is the desired output voltage

For all Dual Output Models, to adjust the output voltage lower:

(

)(

)

− 51

3.48 1.64V_NOM−1 1.64V_OUT−1

R_ADJ

V_NOM−V_OUT

where: RADJ is in KOhms

RADJ is connected to +Out pin and 0.75VNOM < VOUT < VNOM (Fig. 10, Note 1)

VNOM is the nominal output voltage with the Adjust pin left open

VOUT is the desired output voltage

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M3G-SERIES

Mechanical Diagram

3.055 MAX.

2.00

0.080

Max.

0.500

R0.0625

4 places

0.30

0.50

0.20

0.200 Typ.

Non-

cum.

2.055

MAX.

1.400

Ref.

0.60

2.30

2.500

Ø0.040

0.45

1.10

0.260

FLANGE DETAIL

3.50

Ref.

0.25

0.14

0.475

MAX.

0.40

Tolerance : .XX

±0.01

.XXX ±0.005

Pin Designation (Single/Dual)

Pin #

Designation

Pin #

Designation

+ Input

Input Return

Inhibit

NC / Adjust

- Sense / NC

+ Sense / NC

NC / - Output

Output Return

+ Output

Sync. Input

Sync. Output

Case Ground

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M3G-SERIES

Device Screening

Requirement

MIL-STD-883 Method

No Suffix

Temperature Range

Element Evaluation

Non-Destructive Bond Pull

Internal Visual

-55°C to +85°C

Class K

-55°C to +85°C

Class K

-55°C to +85°C

MIL-PRF-38534

2023

N/A

Yes

2017

Yes

Temperature Cycle

Constant Acceleration

PIND

1010

Cond C

3000 Gs

2001, Y1 Axis

2020

3000 Gs

Cond A

3000 Gs

Cond A

N/A

320 hrs @ 125°C

( 2 x 160 hrs )

-55°C, +25°C,

+85°C

320 hrs @ 125°C

( 2 x 160 hrs )

-55°C, +25°C,

+85°C

48 hrs @ 125°C

Burn-In

1015

Final Electrical

( Group A )

MIL-PRF-38534

& Specification

MIL-PRF-38534

1014

-55°C, +25°C,

+85°C

PDA

N/A

Seal, Fine and Gross

Radiographic

External Visual

Cond A, C

Yes

Cond A, C

Yes

Cond A

N/A

2012

2009

Yes

Notes:

Best commercial practice.

CK is DSCC class K compliant without radiation performance. No Suffix is a radiation rated device but

not available as a DSCC qualified SMD per MIL-PRF-38534.

International Rectifier currently does not have a DSCC certified Radiation Hardness Assurance Program

StandardMicrocircuitDrawingEquivalenceTable

Part Numbering

M3G 28 05 S /EM

Standard Microcircuit

Drawing Number

5962-03218

IR Standard

Part Number

M3G2803R3S

M3G2805S

Screening Level

(Please refer to Screening Table)

Model

Nominal Input

Voltage

No Suffix, CK, EM

5962-03219

5962-03220

M3G2805R2S

M3G2812S

28 = 28V

Output

5962-03221

S = Single

D = Dual

Output Voltage

03R3 = 3.3V, 05 = 5V

05R2 = 5.2V, 12 = 12V

15 = 15V

5962-03222

M3G2815S

5962-03223

M3G2805D

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. 08/2010

www.irf.com

M3G2805D/CK [INFINEON]

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