VOL3120T_技术文档

VOL3120

Vishay Semiconductors

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Low Profile, 2.5 A Output Current IGBT and MOSFET Driver

FEATURES

A

1

5

4

3

V_CC

• 2.5 A minimum peak output current

• 48 kV/μs minimum common mode rejection

(CMR) at V_CM= 1500 V

V_O

• Industrial temperature range: -40 °C to +110 °C

• Wide operating V_CCrange: 15 V to 32 V

• I_CC= 2.5 mA maximum supply current

• 0.5 μs maximum propagation delay time

• Under voltage lock-out (UVLO) with hysteresis

C

2

V_EE

Shield

22677

• Material categorization: for definitions of

compliance please see www.vishay.com/doc?99912

click logo to get started

DESIGN SUPPORT TOOLS

Models

Available

Design Tools

APPLICATIONS

Available

• Isolated IGBT / MOSFET gate driver

• AC and brushless DC motor drives

• Induction stove top

DESCRIPTION

The VOL3120 consists of an infrared light emitting diode

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 and solar

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

high power IGBTs with ratings up to 1000 V / 100 A. The low

profile and small footprint of the VOL3120 makes it an ideal

choice for applications where board space and component

height are at a premium, while still offering a high degree of

isolation performance.

• Industrial inverters

• Switch mode power supplies (SMPS)

• Uninterruptible power supplies (UPS)

AGENCY APPROVALS

The safety application model number covering all products

in this datasheet is VOL3120. This model number should be

used when consulting safety agency documents.

• UL1577

• cUL

• CQC

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

rating available with option “1”

ORDERING INFORMATION

V

O

L

3

1

2

0

-

X

0

#

T

LSOP-5

PART NUMBER

PACKAGE OPTION

TAPE

AND

10.2 mm

REEL

AGENCY CERTIFIED / PACKAGE

UL, cUL, CQC

CMR (kV/μs)

48

LSOP-5

VOL3120T

48

UL, cUL, CQC, VDE

LSOP-5

VOL3120-X001T

Rev. 1.6, 31-Jan-2019

Document Number: 82656

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For technical questions, contact: optocoupleranswers@vishay.com

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

PARAMETER

CONDITIONS

SYMBOL

VALUE

UNIT

INPUT

Input forward current

Peak transient input current

Reverse input voltage

Output power dissipation

LED junction temperature

OUTPUT

I_F

I_F(TRAN)

V_R

25

1

mA

A

< 1 μs pulse width, 300 pps

5

V

P_diss

T_j

40

125

mW

°C

High peak output current ⁽¹⁾

Low peak output current ⁽¹⁾

Supply voltage

I_OH(PEAK)

I_OL(PEAK)

2.5

A

(V_CC- V_EE

V_O(PEAK)

P_diss

)

0 to 35

0 to V_CC

220

V

Output voltage

V

Output power dissipation

Output junction temperature

OPTOCOUPLER

mW

°C

T_j

125

Storage temperature range

Ambient operating temperature range

Total power dissipation

Lead solder temperature

T_stg

T_amb

P_tot

-55 to +150

-40 to +110

260

°C

mW

°C

T_sld

For 10 s, 1.6 mm below seating plane

260

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

Maximum pulse width = 10 μs, maximum duty cycle = 0.2 %. This value is intended to allow for component tolerances for designs with

I_Opeak minimum = 2.5 A. See applications section for additional details on limiting I_OHpeak

(1)

300

250

200

150

100

50

1000

800

600

400

200

0

-40 -10 20 50 80 110 140 170 200

-40

0

40

80

120 160 200

T_amb- Ambient Temperature (°C)

Fig. 1 - Safety Power Dissipation vs. Ambient Temperature

Fig. 2 - Safety Input Current vs. Ambient Temperature

Rev. 1.6, 31-Jan-2019

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RECOMMENDED OPERATING CONDITIONS

PARAMETER

SYMBOL

V_CC- V_EE

I_F

MIN.

15

MAX.

32

UNIT

V

Power supply voltage

Input LED current (on)

Input voltage (off)

10

-

mA

V

V_F(OFF)

T_amb

-3

0.8

Operating temperature

-40

+110

°C

Axis Title

400

10000

1000

100

Total

300

200

100

0

Output

Input

10

-40 -20

0

20

40

60

80 100 120

T_amb- Ambient Temperature (°C)

Fig. 3 - Power Dissipation vs. Ambient Temperature

ELECTRICAL CHARACTERISTICS

PARAMETER

TEST CONDITION

SYMBOL

I_OH

MIN.

TYP.

MAX.

UNIT

V_O= (V_CC- 4 V)

V_O= (V_CC- 15 V)

0.5

-

A

High level output current

I_OH

2.5

V

_O= (V_EE+ 2.5 V)

V_O= (V_EE+ 15 V)

I_O= -100 mA

I_OL

0.5

-

A

Low level output current

I_OL

2.5

-

A

High level output voltage

V_OH

V_CC- 4

-

V

Low level output voltage

I

_O= 100 mA

V_OL

-

0.2

-

0.5

2.5

8

V

High level supply current

Output open, I_F= 10 mA to 16 mA

Output open, V_F= -3 V to +0.8 V

I_CCH

mA

V

Low level supply current

I_CCL

-

Threshold input current low to high

Threshold input voltage high to low

Input forward voltage

I

_O= 0 mA, V_O> 5 V

I_FLH

-

3.4

-

V_FHL

V_F

0.8

1

-

I_F= 10 mA

I_R= 10 μA

1.36

-1.4

-

1.6

-

V

Temperature coefficient of forward voltage

Input reverse breakdown voltage

Input capacitance

ΔV_F/ΔT_amb

V_BR

-

mV/°C

V

5

-

f = 1 MHz, V_F= 0 V

C_IN

-

45

-

pF

V

V_UVLO+

V_UVLO-

UVLO_HYS

C_IO

11

9.5

-

13.5

12

-

UVLO threshold

V_O≥ 5 V, I_F= 10 mA

-

V

UVLO hysteresis

1.6

0.9

V

Capacitance (Input to Output)

f = 1 MHz, V_F= 0 V

-

pF

Note

•

Minimum and maximum values were tested over recommended operating conditions (T_amb= -40 °C to +110 °C, I_F(ON)= 10 mA to 16 mA,

V_F(OFF)= -3 V to 0.8 V, V_CC= 15 V to 32 V, V_EE= ground) unless otherwise specified. Typical values are characteristics of the device and are

the result of engineering evaluations. Typical values are for information only and are not part of the testing requirements. All typical values

were measured at T_amb= 25 °C and with V_CC- V_EE= 32 V

Rev. 1.6, 31-Jan-2019

Document Number: 82656

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SWITCHING CHARACTERISTICS

PARAMETER

TEST CONDITION

SYMBOL MIN. TYP. MAX. UNIT

Propagation delay time to logic low output R_g= 10 Ω, C_g= 10 nF, f = 10 kHz, duty cycle = 50 %

Propagation delay time to logic high output R_g= 10 Ω, C_g= 10 nF, f = 10 kHz, duty cycle = 50 %

t_PHL

t_PLH

0.1

0.25

-

0.5

0.3

-

μs

0.1

Pulse width distortion

Rise time

R_g= 10 Ω, C_g= 10 nF, f = 10 kHz, duty cycle = 50 %

V_O> 5 V, I_F= 10 mA

PWD

t_r

-

0.1

0.8

0.6

Fall time

t_f

-

UVLO turn on delay

UVLO turn off delay

T_UVLO-ON

T_UVLO-OFF

-

V

_O< 5 V, I_F= 10 mA

-

Note

•

Minimum and maximum values were tested over recommended operating conditions (T_amb= -40 °C to +110 °C, I_F(ON)= 10 mA to 16 mA,

V_F(OFF)= -3 V to 0.8 V, V_CC= 15 V to 32 V, V_EE= ground) unless otherwise specified. Typical values are characteristics of the device and are

the result of engineering evaluations. Typical values are for information only and are not part of the testing requirements. All typical values

were measured at T_amb= 25 °C and with V_CC- V_EE= 32 V

I_F= 10 mA

to 16 mA

1

5

4

3

I_F

500 Ω

0.1 μF

V_O

V

_CC= 15 V

to 32 V

t_f

t_r

90 %

50 %

10 %

10 kHz

50 %

duty cycle

10 Ω

OUT

10 nF

t_PHL

t_PLH

2

Fig. 4 - t_PLH, t_PHL, t_rand t_fTest Circuit and Waveforms

COMMON MODE TRANSIENT IMMUNITY

PARAMETER

TEST CONDITION

SYMBOL

MIN.

TYP.

MAX.

UNIT

Common mode transient immunity at

logic high output

T_amb= 25 °C, I_F= 10 mA to 16 mA,

V_CM= 1500 V, V_CC= 32 V

|CM_H|

48

-

kV/μs

T_amb= 25 °C, V_CM= 1500 V,

Common mode transient immunity at

logic low output

|CM_L|

48

-

kV/μs

V_CC= 32 V, V_F= 0 V

Note

•

Minimum and maximum values were tested over recommended operating conditions (T_amb= -40 °C to +110 °C, I_F(ON)= 10 mA to 16 mA,

V_F(OFF)= -3 V to 0.8 V, V_CC= 15 V to 32 V, V_EE= ground) unless otherwise specified. Typical values are characteristics of the device and are

the result of engineering evaluations. Typical values are for information only and are not part of the testing requirements. All typical values

were measured at T_amb= 25 °C and with V_CC- V_EE= 32 V.

I_F

A

V_CM

R

1

5

4

3

B

dV

dt

V_CM

∆t

=

0.1 μF

V_O

V_CC= 32 V

0 V

5 V

∆t

V_OH

V_O

2

Switch at A: I_F= 10 mA

V_OL

O

Switch at B: I_F= 0 mA

V_CM= 1500 V

Fig. 5 - CMR Test Circuit and Waveforms

Rev. 1.6, 31-Jan-2019

Document Number: 82656

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SAFETY AND INSULATION RATINGS

PARAMETER

TEST CONDITION

SYMBOL

VALUE

40 / 110 / 21

175

UNIT

Climatic classification

According to IEC 68 part 1

Comparative tracking index

CTI

V_ISO

V_IOTM

V_IORM

R_IO

Maximum rated withstanding isolation voltage

Maximum transient isolation voltage

Maximum repetitive peak isolation voltage

t = 1 min

5300

8000

1050

≥ 10¹²

≥ 10¹¹

900

V_RMS

V

T

_amb= 25 °C, V_DC= 500 V

Ω

Isolation resistance

T

_amb= 100 °C, V_DC= 500 V

R_IO

Ω

Output safety power

Input safety current

Safety temperature

Creepage distance

Clearance distance

Insulation thickness

P_SO

I_SI

mW

mA

°C

250

T_S

175

≥ 8

mm

≥ 8

DTI

V_PR

≥ 0.4

V_IORMx 1.875 = V_PR, 100 % production test

with t_M= 1 s, partial discharge < 5 pC

Input to output test voltage, method B

Input to output test voltage, method A

1969

V_peak

V

_IORMx 1.6 = V_PR, 100 % production test

with t_M= 10 s, partial discharge < 5 pC

V_PR

1680

2

Environment (pollution degree in accordance to DIN VDE 0109)

Note

•

As per IEC 60747-5-5, § 7.4.3.8.2, this optocoupler is 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 (T_amb= 25 °C, unless otherwise specified)

Axis Title

100

10

1

10000

1000

100

35

30

25

20

15

10

5

10000

1000

100

T_amb= -40 °C

T_amb= -25 °C

T_amb= 0 °C

I_FLH

I_FHL

T_amb= 25 °C

T_amb= 50 °C

T_amb= 85 °C

T_amb= 110 °C

V_CC= 15 V to 32 V,

V

_EE= 0 V

10

0

10

0.8

1.0

1.2

1.4

1.6

1.8

0

1

2

3

4

5

6

V_F- Forward Voltage (V)

I_F- Forward Current (mA)

Fig. 6 - Forward Current vs. Forward Voltage

Fig. 7 - Output Voltage vs. Forward Current

Rev. 1.6, 31-Jan-2019

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Axis Title

10000

5

4

3

2

1

0

10000

1000

100

0

-1

-2

-3

-4

-5

-6

T_amb= 110 °C

1000

I_FLH

T_amb= 25 °C

T_amb= -40 °C

I_FHL

100

10

I_F= 7 mA to 16 mA,

_out= -100 mA,

_CC= 15 V to 32 V,

I

V

V_CC= 15 V to 32 V,

_EE= 0 V

V_EE= 0 V

V

10

-40 -20

0

20

40

60

80 100 120

0

0.5

1.0

1.5

2.0

2.5

3.0

T_amb- Ambient Temperature (°C)

I_OH- High Level Output Current (A)

Fig. 8 - Threshold Current vs. Ambient Temperature

Fig. 11 - High Level Voltage Drop vs. High Level Output Current

Axis Title

32

30

28

26

24

10000

6

5

4

3

2

1

0

10000

1000

100

V_F= 0 V,

V

_CC= 15 V to 32 V,

_EE= 0 V

V

T_amb= -40 °C

1000

100

10

T_amb= 25 °C

T_amb= 110 °C

I_F= 10 mA, I_out= -100 mA,

_CC= 32 V, V_EE= 0 V

V

10

-40 -20

0

20

40

60

80 100 120

0

0.5

1.0

1.5

2.0

2.5

3.0

T_amb- Ambient Temperature (°C)

I_OL- Low Level Output Current (A)

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

Fig. 12 - Low Level Voltage Drop vs. Low Level Output Current

Axis Title

1.0

0.8

0.6

0.4

0.2

0

10000

1000

100

500

400

300

200

100

0

10000

1000

100

V_F= 0 V, I_out= 100 mA,

_CC= 15 V to 32 V, V_EE= 0 V

R_g= 10 Ω, C_g= 10 nF,

V

f = 10 kHz, duty cycle = 50 %,

V

_CC= 32 V, V_EE= 0 V

t_PHL

t_PLH

10

-40 -20

0

20

40

60

80 100 120

5

7

9

11

13

15

T_amb- Ambient Temperature (°C)

I_F- Forward Current (mA)

Fig. 10 - Low Level Output Voltage vs. Ambient Temperature

Fig. 13 - Propagation Delay vs. Forward Current

Rev. 1.6, 31-Jan-2019

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Axis Title

10000

500

400

300

200

100

0

10000

1000

100

500

400

300

200

100

0

R_g= 10 Ω,

R_g= 10 Ω, C_g= 10 nF,

f = 10 kHz, duty cycle = 50 %,

I

_F= 9 mA, V_CC= 32 V, V_EE= 0 V

I

_F= 10 mA, V_CC= 32 V, V_EE= 0 V

1000

100

10

t_PHL

t_PLH

10

-40 -20

0

20

40

60

80 100 120

0

20

40

60

80

100

T_amb- Ambient Temperature (°C)

C_g- Load Capacitance (nF)

Fig. 14 - Propagation Delay vs. Ambient Temperature

Fig. 17 - Propagation Delay vs. Load Capacitance

Axis Title

500

400

300

200

100

0

10000

1000

100

5

4

3

2

1

0

10000

R_g= 10 Ω, C_g= 10 nF,

I_F= 7 mA to 16 mA for I_CCH

,

f = 10 kHz, duty cycle = 50 %,

V

_F= 0 V for I_CCL

,

I

_F= 10 mA, V_EE= 0 V

V

_EE= 0 V

1000

100

10

t_PHL

I_CCH

t_PLH

I_CCL

10

15

20

25

30

15

20

25

30

V_CC- Supply Voltage (V)

Fig. 15 - Propagation Delay vs. Supply Voltage

Fig. 18 - Supply Current vs. Supply Voltage

Axis Title

500

10000

5

4

3

2

1

0

10000

1000

100

I_F= 9 mA, C_g= 10 nF,

I_F= 7 mA to 16 mA for I_CCH

,

f = 10 kHz, duty cycle = 50 %,

V

_F= 0 V for I_CCL

,

V

_CC= 15 V, V_EE= 0 V

400

300

200

100

0

V

_CC= 32 V, V_EE= 0 V

1000

100

10

t_PHL

I_CCH

t_PLH

I_CCL

20

10

0

10

20

30

40

50

-40 -20

0

40

60

80 100 120

R_g- Load Resistance (Ω)

T_amb- Ambient Temperature (°C)

Fig. 16 - Propagation Delay vs. Load Resistance

Fig. 19 - Supply Current vs. Ambient Temperature

Rev. 1.6, 31-Jan-2019

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PACKAGE DIMENSIONS (in millimeters)

10.20 ^{+ 0.30}

- 0.40

4.10 max.

3.80 typ.

7.50 0.20

3

0.45 0.1

0.70 ^{+ 0.30}

Leads coplanarity 0.10 max.

- 0.40

2.54 nom.

1.27 nom.

3

Possible footprint

5

4

3

8.20

10.80

1

2

Pin no. 1 identiﬁcation

Fig. 20 - Package Drawing

PACKAGE MARKING

3120X1

V YWW 68

Fig. 21 - Example of VOL3120-X001T

Notes

•

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

“X1” is only marked on option “1” parts

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

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PACKING INFORMATION (tape and reel)

Top cover tape

carrier

Embossed

Embossment

17998

Fig. 22 - Tape and Reel Shipping Medium

2.00 0.10

4.00 0.10

1.55 0.05

1.75 0.10

0.30 0.05

Y

C

L

Y

2.75 0.10

3.20 0.10

1.50 ^{+ 0.20}

4.30 0.10

0.00

8.00 0.10

Section Y - Y

Note:

1. Cumulative tolerance of 10 spocket holes is 0.20.

Fig. 23 - Tape and Reel Packing (2000 pieces on reel)

SOLDER PROFILE

HANDLING AND STORAGE CONDITIONS

ESD level: HBM class 2

Axis Title

300

10000

1000

100

Floor life: unlimited

Max. 260 °C

245 °C

Conditions: T_amb< 30 °C, RH < 85 %

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

255 °C

240 °C

250

217 °C

200

Max. 30 s

150

Max. 120 s

Max. 100 s

Max. ramp down 6 °C/s

100

50

0

Max. ramp up 3 °C/s

10

0

50

100

150

200

250

300

Time (s)

19841

Fig. 24 - Lead (Pb)-free Reflow Solder Profile

According to J-STD-020

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Legal Disclaimer Notice

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Vishay

Disclaimer

ALL PRODUCT, PRODUCT SPECIFICATIONS AND DATA ARE SUBJECT TO CHANGE WITHOUT NOTICE TO IMPROVE

RELIABILITY, FUNCTION OR DESIGN OR OTHERWISE.

Vishay Intertechnology, Inc., its affiliates, agents, and employees, and all persons acting on its or their behalf (collectively,

“Vishay”), disclaim any and all liability for any errors, inaccuracies or incompleteness contained in any datasheet or in any other

disclosure relating to any product.

Vishay makes no warranty, representation or guarantee regarding the suitability of the products for any particular purpose or

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.

Hyperlinks included in this datasheet may direct users to third-party websites. These links are provided as a convenience and

for informational purposes only. Inclusion of these hyperlinks does not constitute an endorsement or an approval by Vishay of

any of the products, services or opinions of the corporation, organization or individual associated with the third-party website.

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Revision: 09-Jul-2021

Document Number: 91000

1


型号：	VOL3120T
厂家：	VISHAY
描述：	OPTOISO 5.3KV 1CH GATE DVR 5LSOP
文件：	总10页 (文件大小：185K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

VOL3120T [VISHAY]

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