VOD3120AB-VT2 - VISHAY - Datasheet.Live

VOD3120AB, VOD3120AD, VOD3120AG

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Rev. 1.1, 28-Jan-2019 1Document Number: 84921

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2.5 A Output Current IGBT and MOSFET Driver

DESIGN SUPPORT TOOLS

DESCRIPTION

The VOD3120A consists of a AlGaAs LED optically coupled

to an integrated circuit with a power output stage. This

optocoupler is ideally suited for driving power IGBTs

and MOSFETs used in motor control inverter applications.

The high operating voltage range of the output stage

provides the drive voltages required by gate controlled

devices. The voltage and current supplied by this

optocoupler makes it ideally suited for directly driving IGBTs

with ratings up to 1200 V / 100 A. For IGBTs with higher

ratings, the VOD3120A can be used to drive a discrete

power stage which drives the IGBT gate.

FEATURES

• 2.5 A minimum peak output current

• Rail-to-rail output stage

• 0.5 μs maximum propagation delay time

• 35 kV/μs minimum common mode rejection

(CMR) at VCM = 1500 V

• Wide operating VCC range: 15 V to 30 V

•I

CC = 3.5 mA maximum supply current

• Industrial temperature range: -40 °C to +105 °C

• Under voltage lock-out (UVLO) with hysteresis

• Material categorization: for definitions of compliance

please see www.vishay.com/doc?99912

APPLICATIONS

• Isolated IGBT / MOSFET gate driver

• AC and brushless DC motor drives

• Induction stove top

• Industrial inverters

• Switch mode power supplies (SMPS)

• Uninterruptible power supplies (UPS)

AGENCY APPROVALS

•UL 1577

•cUL

•DIN EN 60747-5-5 (VDE 0884) and reinforced insulation

rating available with option “V”

•CQC

VCC

VEE

Shield

23052

click logo to get started

Available

Models

Available

Design Tools

ORDERING INFORMATION

VOD3 1 2 0A # - V T #

PART NUMBER PACKAGE

OPTION

VDE

OPTION

TAPE AND

REEL

AGENCY CERTIFIED / PACKAGE CMR (kV/μs)

UL, cUL, CQC 35

DIP-8 VOD3120AD

DIP-8, 400 mil VOD3120AG

SMD-8 VOD3120AB-T

SMD-8, 180° orientation VOD3120AB-T2

VDE, UL, cUL, CQC 35

DIP-8 VOD3120AD-V

DIP-8, 400 mil VOD3120AG-V

SMD-8 VOD3120AB-VT

SMD-8, 180° orientation VOD3120AB-VT2

VOD3120AB, VOD3120AD, VOD3120AG

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Notes

• Stresses in excess of the absolute maximum ratings can cause permanent damage to the device. Functional operation of the device is not

implied at these or any other conditions in excess of those given in the operational sections of this document. Exposure to absolute

maximum ratings for extended periods of the time can adversely affect reliability

(1) The rise and fall times of the forward current should be less than 500 ns

(2) Exponential waveform, pulse width ≤ 0.3 μs, f ≤ 15 kHz

TRUTH TABLE

LED HIGH SIDE LOW SIDE V0

Off Off On Low

On On Off High

ABSOLUTE MAXIMUM RATINGS (Tamb = 25 °C, unless otherwise specified)

PARAMETER TEST CONDITION SYMBOL VALUE UNIT

INPUT

Forward current IF20 mA

Peak transient input current ≤ 1 μs pulse width, 300 pps IF(TRAN) 1A

Reverse input voltage VR5V

Input current (rise / fall time) (1) tr(in) / tf(in) 500 ns

Output power dissipation Pdiss 45 mW

OUTPUT

High peak output current (2) IOH(PEAK) 2.5 A

Low peak output current (2) IOL(PEAK) 2.5 A

Supply voltage (VCC - VEE)0 to +35 V

Output voltage VO(PEAK) 35 V

Output power dissipation Pdiss 250 mW

Junction temperature Tj125 °C

OPTOCOUPLER

Storage temperature range TS-55 to +125 °C

Ambient operating temperature range Tamb -40 to +105 °C

Total power dissipation Ptot 295 mW

Soldering temperature Tsld 260 °C

RECOMMENDED OPERATING CONDITION

PARAMETER SYMBOL MIN. MAX. UNIT

Operating temperature Tamb -40 +105 °C

Power supply voltage VCC - VEE 15 30 V

Forward current (VO in “high” state) IF(ON) 716mA

Forward voltage (VO in “low” state) VF(OFF) 00.8V

VOD3120AB, VOD3120AD, VOD3120AG

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Notes

• All typical values at Tamb = 25°C and VCC - VEE = 30 V, unless otherwise specified; all minimum and maximum specifications are at

recommended operating condition

(1) Maximum pulse width = 50 μs

(2) Maximum pulse width = 10 μs

TEST CIRCUITS

Fig. 1 - IFLH Test Circuit Fig. 2 - UVLO Test Circuit

ELECTRICAL CHARACTERISTICS (Tamb = 25 °C, unless otherwise specified)

PARAMETER TEST CONDITION SYMBOL MIN. TYP. MAX. UNIT

INPUT

Forward voltage IF = 10 mA VF1.2 1.37 1.8 V

Temperature coefficient

of forward voltage IF = 10 mA ΔVF/ΔT - -1.237 - mV/°C

Reverse breakdown voltage IR = 10 μA BVR5--V

Threshold forward current

(VO from “low” to “high”) VCC = 30 V, VO < 5 V IFLH -1.85mA

Threshold forward voltage

(VO from “high” to “low”) VCC = 30 V, VO > 5 V VFLH 0.8 - - V

Input capacitance f = 1 MHz, VF = 0 V CIN -33-pF

OUTPUT

High level supply current IF = 10 mA, VCC = 30 V, VO = open ICCH -2.43.5mA

Low level supply current IF = 0 mA, VCC = 30 V, VO = open ICCL -2.53.5mA

High level output current VO = (VCC - 1.5 V) IOH (1) ---1.0A

VO = (VCC - 4 V) IOH (2) ---2.5A

Low level output current VO = (VEE + 1.5 V) IOL (1) 1.0 - - A

VO = (VEE + 4 V) IOL (2) 2.5 - - A

High level output voltage IF = 10 mA, IO = -100 mA VOH VCC - 0.3 V VCC - 0.1 V - V

Low level output voltage IF = 0 mA, IO = 100 mA VOL -V

EE + 0.1 V VEE + 0.25 V V

UVLO threshold VO > 5 V, IF = 10 mA VUVLO+ 11.0 12.7 13.5 V

VO < 5 V, IF = 10 mA VUVLO- 9.5 11.2 12.0 V

UVLO hysteresis UVLOHYS -1.5- V

COUPLER

Coupling capacitance f = 1 MHz CIO -0.92- pF

0.1 µF

VO > 5 V VCC = 15 V

to 30 V

IF =

10 mA

0.1 µF

VO > 5 V VCC

VOD3120AB, VOD3120AD, VOD3120AG

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Note

(1) The difference between tPHL and tPLH between any two parts, series parts, or channels under same test conditions

Fig. 3 - tPLH, tPHL, tr and tf Test Circuit and Waveforms

Notes

(1) CMH is the maximum rate of rise of the common mode voltage that can be sustained with the output voltage in the logic high state (VO > 15 V)

(2) CML is the maximum rate of fall of the common mode voltage that can be sustained with the output voltage in the logic low state (VO < 1 V)

Fig. 4 - CMR Test Circuit and Waveforms

SWITCHING CHARACTERISTICS (Tamb = 25 °C, VCC - VEE = 30 V unless otherwise specified)

PARAMETER TEST CONDITION SYMBOL MIN. TYP. MAX. UNIT

Propagation delay time to VO = “low”

Rg = 10 Ω, Cg = 25 nF,

f = 10 kHz, duty cycle = 50 %,

IF = 7 mA to 16 mA,

VCC = 10 V to 30 V,

VEE = ground

tPHL 0.05 0.13 0.5 μs

Propagation delay time to VO = “high” tPLH 0.05 0.13 0.5 μs

Pulse width distortion PWD - 0.005 0.07 μs

Propagation delay difference (1) PDD -0.1 - 0.1 μs

Output rise time (10 % to 90 %) tr- 0.035 - μs

Output fall time (90 % to 10 %) tf- 0.035 - μs

COMMON MODE TRANSIENT IMMUNITY (Tamb = 25 °C, VCC - VEE = 30 V unless otherwise specified)

PARAMETER TEST CONDITION SYMBOL MIN. TYP. MAX. UNIT

Common mode transient immunity at

high level output (VO = “high”) (1)

IF = 10 mA to 16 mA,

VCM = 1500 V, VCC = 30 V |CMH|35 50 - kV/μs

Common mode transient immunity at

low level output (VO = “low”) (2)

VF = 0 V, VCM = 1500 V,

VCC = 30 V |CML|35 50 - kV/μs

0.1 µF

I = 7 mA to 16 mA

V = 15 V

to 30 V

10 Ω

200 Ω

10 kHz

50 % Duty

Cycle

PLH

PHL

OUT

90 %

50 %

10 %

25 nF

5 V 0 V

0.1 μF

V = 1500 V

VCC = 30 V V

Switch at A: IF = 10 mA

Switch at B: IF = 0 mA

Δt

CMR = Δt

VCM

VOD3120AB, VOD3120AD, VOD3120AG

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Note

• As per IEC 60747-5-2, §7.4.3.8.1, this optocoupler is reinforced rated and suitable for “safe electrical insulation” only within the safety

ratings. Compliance with the safety ratings shall be ensured by means of protective circuits

TYPICAL CHARACTERISTICS (Tamb = 25 °C, unless otherwise specified)

Fig. 5 - Forward Current vs. Forward Voltage

Fig. 6 - Output Voltage vs. Forward Current

Fig. 7 - Threshold Current vs. Ambient Temperature

Fig. 8 - High Level Output Voltage vs. Ambient Temperature

SAFETY AND INSULATION RATINGS (Tamb = 25 °C, unless otherwise specified)

PARAMETER TEST CONDITION SYMBOL VALUE UNIT

Comparative tracking index Insulation group IIIa CTI 175

Maximum rated withstanding isolation voltage According to UL1577, t = 1 min VISO 5300 VRMS

Maximum transient isolation voltage According to DIN EN 60747-5-5 VIOTM 6000 Vpeak

Maximum repetitive peak isolation voltage According to DIN EN 60747-5-5 VIORM 891 Vpeak

Isolation resistance Tamb = 25 °C, VIO = 500 V RIO 1012 Ω

Tamb = 100 °C, VIO = 500 V RIO 1011 Ω

Output safety power PSO 250 mW

Input safety current ISI 25 mA

Input safety temperature TS175 °C

Creepage distance > 7 mm

Clearance distance > 7 mm

Insulation thickness DTI > 0.4 mm

100

1000

10000

0.1

100

0.8 1.0 1.2 1.4 1.6 1.8

Axis Title

1st line

2nd line

IF- Forward Current (mA)

VF- Forward Voltage (V)

amb

= 25 °C

100

1000

10000

01.02.03.0

Axis Title

1st line

2nd line

VO- Output Volt age (V)

IF- Forward Current (mA)

FLH

FHL

100

1000

10000

-40-200 20406080100

Axis Title

1st line

2nd line

IFLH, IFHL, - Threshold Current (mA)

Tamb - Am bient T em perature (°C )

IFLH

IFHL

IOL = 13 mA,

VO= 0.6 V

100

1000

10000

29.5

29.6

29.7

29.8

29.9

-40-200 20406080100

Axis Title

1st line

2nd line

VOH - High Level Output Voltage (V)

Tamb - Am bient T em perature (°C )

IF= 10 mA

Iout = -100 mA

VCC = 30 V

VEE = 0 V

VOD3120AB, VOD3120AD, VOD3120AG

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Fig. 9 - Low Level Output Voltage vs. Ambient Temperature

Fig. 10 - High Level Voltage Drop vs. Ambient Temperature

Fig. 11 - Low Level Voltage Drop vs. Ambient Temperature

Fig. 12 - Propagation Delay vs. Forward Current

Fig. 13 - Propagation Delay vs. Ambient Temperature

Fig. 14 - Propagation Delay vs. Supply Voltage

100

1000

10000

0.1

0.2

0.3

0.4

0.5

-40-200 20406080100

Axis Title

1st line

2nd line

VOL - Low Level Output Voltage (V)

Tamb - Am bient T em perature (°C )

VF= 0 V

Iout = 100 mA

VCC = 15 to 30 V

VEE = 0 V

100

1000

10000

-0.5

-0.4

-0.3

-0.2

-0.1

-40-200 20406080100

Axis Title

1st line

2nd line

2nd line(

(VOH -V

CC) - High Level Voltage Drop (V)

Tamb - Am bient T em perature (°C )

IF= 10 mA,

Iout = -100 mA,

VCC = 30 V,

VEE = 0 V

100

1000

10000

0.1

0.2

0.3

0.4

0.5

-40-200 20406080100

Axis Title

1st line

2nd line

(VOL -V

EE) - Low Level Voltage Drop (V)

Tamb - Am bient T em perature (°C )

VF= 0 V,

Iout = 100 mA,

VCC = 15 V to 30 V,

VEE = 0 V

100

1000

10000

100

120

140

160

180

6 8 10 12 14 16 18 20

Axis Title

1st line

2nd line

tPHL, tPLH - Propagation Delay (ns)

IF- Forward Current (mA)

tPHL

tPLH

Rg= 10 Ω, Cg= 3 nF

f = 10 kHz, duty cycle = 50 %

VCC = 30 V, VEE = 0 V

100

1000

10000

100

120

140

160

180

-40-200 20406080100

Axis Title

1st line

2nd line

tPLH, tPHL, - Propagation Delay (ns)

Tamb - Am bient T em perature (°C )

tPHL

tPLH

Rg= 10 Ω, Cg= 3 nF

f = 10 kHz, duty cycle = 50 %

VCC = 30 V, VEE = 0 V

100

1000

10000

100

120

140

160

180

15 20 25 30

Axis Title

1st line

2nd line

tPHL, tPLH - Propagation Delay (ns)

VCC - Supply Voltage (V)

tPLH

tPHL

IF= 8 mA

Rg= 47 Ω, Cg= 3 nF

f = 10 kHz, duty cycle = 50 %

VCC = 30 V, VEE = 0 V

VOD3120AB, VOD3120AD, VOD3120AG

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Fig. 15 - Propagation Delay vs. Load Resistance

Fig. 16 - Propagation Delay vs. Load Capacitance

Fig. 17 - Supply Current vs. Supply Voltage

Fig. 18 - Supply Current vs. Ambient Temperature

100

1000

10000

100

120

140

160

180

10 20 30 40 50

Axis Title

1st line

2nd line

tPHL, tPLH - Propagation Delay (ns)

Rg- Load Resistance (Ω)

tPHL

tPLH

IF= 8 mA, Cg= 3 nF

f = 10 kHz, duty cycle = 50 %

VCC = 30 V, VEE = 0 V

100

1000

10000

100

120

140

160

180

10 20 30 40 50

Axis Title

1st line

2nd line

tPHL, tPLH - Propagation Delay (ns)

Cg- Load Capacitance (nF)

tPHL

tPLH

IF= 8 mA, Rg= 47 Ω

f = 10 kHz, duty cycle = 50 %

VCC = 30 V, VEE = 0 V

100

1000

10000

15 20 25 30

Axis Title

1st line

2nd line

ICC - Supply Current (mA)

VCC - Supply Voltage (V)

ICCL

ICCH

IF= 10 mA for ICCH

VF= 0 V for ICCL

VEE = 0 V

100

1000

10000

-40-200 20406080100

Axis Title

1st line

2nd line

ICC - Supply Current (mA)

Tamb - Am bient T em perature (°C )

ICCL

ICCH IF= 10 mA for ICCH

VF= 0 V for ICCL

VCC = 30 V, VEE = 0 V

VOD3120AB, VOD3120AD, VOD3120AG

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PACKAGE DIMENSIONS (in millimeters)

DIP-8

Fig. 1

DIP-8, 400 mil

Fig. 2

23005

6.5 ± 0.5

(0.256)

0.35

+ 0.15

- 0.10

(0.014)

7.62 to 9.98

9.68 ± 0.5

(0.381)

3.5 ± 0.5

(0.138)

3.3 ± 0.5

(0.130)

0.5 typ.

(0.02)

2.8 ± 0.5

(0.110)

2.54 ± 0.25

(0.1)

0.5 ± 0.1

(0.02)

7.62 ± 0.3

(0.3)

23006

6.5 ± 0.5

(0.256)

7.62 ± 0.3

(0.3)

9.68 ± 0.5

(0.381)

3.5 ± 0.5

(0.138)

2.8 ± 0.5

(0.110)

0.35 + 0.15

- 0.10

(0.014)

10.16 ± 0.5

(0.4)

6.9 ± 0.5

(0.272)

2.3 ± 0.5

(0.09)

2.54 ± 0.25

(0.1)

0.5 ± 0.1

(0.02)

VOD3120AB, VOD3120AD, VOD3120AG

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SMD-8

Fig. 3

PACKAGE MARKING

Fig. 19 - Example of VOD3120AB-VT

Notes

• “YWW” is the date code marking (Y = year code, WW = week code)

• “X” is only marked on VDE option parts

• Tape and reel suffix (T) is not part of the package marking

23007

6.5 ± 0.5

(0.256)

2.54 ± 0.25

(0.1)

1.2 ± 0.1

(0.047)

9.68 ± 0.5

(0.381)

3.5 ± 0.5

(0.138)

0.35 ± 0.25

(0.014)

7.62 ± 0.3

(0.3)

0.26 ± 0.1

(0.01)

10.16 ± 0.5

(0.4)

1.0 ± 0.25

(0.039)

2.54

1.5

1.3

VOD3120A

V YWW 28

VOD3120AB, VOD3120AD, VOD3120AG

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PACKAGING INFORMATION (in millimeters)

SMD-8 Tape

Fig. 20 - Tape and Reel Packaging (1000 pieces on reel)

SMD-8 Tape, 180° Orientation

Fig. 21 - Tape and Reel Packaging (1000 pieces on reel)

DEVICES PER TUBES

TYPE UNITS/TUBE TUBES/BOX UNITS/BOX

DIP-8 50 40 2000

DIP-8, 400 mil 50 40 2000

23034

Ø 1.55 ± 0.05 2 ± 0.1 4 ± 0.1 1.75 ± 0.1

0.3 ± 0.05

12 ± 0.1

7.5 ± 0.1

16 ± 0.3

23035

Ø 1.55 ± 0.05 2 ± 0.1 4 ± 0.1 1.75 ± 0.1

0.3 ± 0.05

12 ± 0.1

7.5 ± 0.1

16 ± 0.3

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Reel

Fig. 22 - Tape and Reel Shipping Medium

23012

21 ± 0.8

2.0 ± 0.5

13 + 0.5

- 0.2

1.8 + 0.2

- 0

330.0 ± 2

100.0 ± 0.3

16.4 + 1

- 0

VOD3120AB, VOD3120AD, VOD3120AG

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SOLDER PROFILES

IR Reflow Soldering (JEDEC® J-STD-020C compliant)

One time soldering reflow is recommended within the

condition of temperature and time profile shown below. Do

not solder more than three times.

Fig. 23

Wave Soldering (JEDEC JESD22-A111 compliant)

One time soldering is recommended within the condition of

temperature.

Temperature: 260 °C + 0 °C / - 5 °C

Time: 10 s

Preheat temperature: 25 °C to 140 °C

Preheat time: 30 s to 80 s

Fig. 24

Hand Soldering by Soldering Iron

Allow single lead soldering in every single process. One time

soldering is recommended.

Temperature: 380 °C + 0 °C / - 5 °C

Time: 3 s max.

HANDLING AND STORAGE CONDITIONS

ESD level: HBM class 2

Floor life: unlimited

Conditions: Tamb < 30 °C, RH < 85 %

Moisture sensitivity level 1, according to J-STD-020

PROFILE ITEM CONDITIONS

Preheat

- Temperature minimum (TS min.) 150 °C

- Temperature maximum (TS max.) 200 °C

- Time (min. to max.) (tS) 90 s ± 30 s

Soldering zone

- Temperature (TL) 217 °C

- Time (tL) 60 s

Peak temperature (Tp) 260 °C

Ramp-up rate 3 °C/s max.

Ramp-down rate 3 °C/s to 6 °C/s

0 20406080

1000

10000

100

1000

10000

Time (s)

Axis Title

1st line

2nd line

Temperarure (°C)

Time (s)

100

60 s

tL (soldering)

60 s to 120 s

tS (preheat) 35 s to 70 s

20 s

Tp (260 °C)

TL (217 °C)

TS max. (200 °C)

TS min.

(150 °C)

Ramp-up

Ramp-down

23016

100

1000

10000

200

250

300

0 0.5 2.5 3.0 3.5 4.0

Axis Title

2nd line

Time (min)

150

100

2.01.0 1.5

Temperature (°C)

260 °C + 0 °C / - 5 °C

wave temperature

Second wave

-5 °C/s

+200 °C/s

+2 °C/s

First wave

Preheat zone

1st line

2nd line

23017

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the continuing production of any product. To the maximum extent permitted by applicable law, Vishay disclaims (i) any and all

liability arising out of the application or use of any product, (ii) any and all liability, including without limitation special,

consequential or incidental damages, and (iii) any and all implied warranties, including warranties of fitness for particular

purpose, non-infringement and merchantability.

Statements regarding the suitability of products for certain types of applications are based on Vishay’s knowledge of

typical requirements that are often placed on Vishay products in generic applications. Such statements are not binding

statements about the suitability of products for a particular application. It is the customer’s responsibility to validate that a

particular product with the properties described in the product specification is suitable for use in a particular application.

Parameters provided in datasheets and / or specifications may vary in different applications and performance may vary over

time. All operating parameters, including typical parameters, must be validated for each customer application by the customer’s

technical experts. Product specifications do not expand or otherwise modify Vishay’s terms and conditions of purchase,

including but not limited to the warranty expressed therein.

Except as expressly indicated in writing, Vishay products are not designed for use in medical, life-saving, or life-sustaining

applications or for any other application in which the failure of the Vishay product could result in personal injury or death.

Customers using or selling Vishay products not expressly indicated for use in such applications do so at their own risk.

Please contact authorized Vishay personnel to obtain written terms and conditions regarding products designed for

such applications.

No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document

or by any conduct of Vishay. Product names and markings noted herein may be trademarks of their respective owners.