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VN330SP PDF

This document provides specifications for the VN330SP quad high side smart power solid state relay. Key details include: - It can drive 4 independent resistive or inductive loads up to 0.7A each. - It has built-in protections like short circuit, overtemperature, and undervoltage protections. - Electrical characteristics include parameters like on resistance, switching times, input logic levels, and protection features like current limitation. - It also provides mechanical dimensions, pinout diagram, and truth table for the device.

Uploaded by

Roozbeh Bahmanyar
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165 views10 pages

VN330SP PDF

This document provides specifications for the VN330SP quad high side smart power solid state relay. Key details include: - It can drive 4 independent resistive or inductive loads up to 0.7A each. - It has built-in protections like short circuit, overtemperature, and undervoltage protections. - Electrical characteristics include parameters like on resistance, switching times, input logic levels, and protection features like current limitation. - It also provides mechanical dimensions, pinout diagram, and truth table for the device.

Uploaded by

Roozbeh Bahmanyar
Copyright
© © All Rights Reserved
We take content rights seriously. If you suspect this is your content, claim it here.
Available Formats
Download as PDF, TXT or read online on Scribd
You are on page 1/ 10

VN330SP

QUAD HIGH SIDE SMART


POWER SOLID STATE RELAY
TYPE

V demag * R DS(on) *

I OUT *

V CC

VN330SP

V CC -55V 0.32 **

0.7 A

36 V

* per Channel
** at TJ = 85 oC

OUTPUT CURRENT: 0.7A PER CHANNEL


DIGITAL INPUTS CLAMPED AT 32V
MINIMUM VOLTAGE
SHORTED LOAD AND
OVERTEMPERATURE PROTECTIONS
BUILT-IN CURRENT LIMITER
UNDER VOLTAGE SHUT DOWN
OPEN DRAIN DIAGNOSTIC OUTPUT
FAST DEMAGNETIZATION OF INDUCTIVE
LOADS

DESCRIPTION
The VN330SP is a monolithic device made using
STMicroelectronics
VIPower
Technology,
intended for driving four indipendent resistive or
inductive loads with one side connected to
ground.

10

Power SO-10 TM

Active current limitation avoids dropping the


system power supply in case of shorted load.
Built-in thermal shut-down protects the chip from
over temperature and short circuit.
The open drain diagnostic output indicates short
circuit and overtemperature conditions.

BLOCK DIAGRAM

February 1999

1/9

VN330SP
ABSOLUTE MAXIMUM RATING
Symbol

Parameter

VCC

Power Supply Voltage

-V CC

Reverse Supply Voltage

I OUT

Output Current (cont.)

IR

Reverse Output Current (per channel)

I IN

Unit

45

-0.3

Internally Limited

-6

Input Current (per channel)

10

mA

I DIAG

DIAG Pin Current

10

mA

V ESD

Electrostatic Discharge (1.5 k, 100 pF)

2000

E AS

Single Pulse Avalanche Energy per Channel Not


Symultaneously (see figure 1)

400

mJ

P tot

Power Dissipation at T c 25 C

Tj
T stg

Junction Operating Temperature


Storage Temperature

CONNECTION DIAGRAM

CURRENT AND VOLTAGE CONVENTIONS

2/9

Value

Internally Limited

Internally Limited

-55 to 150

VN330SP
THERMAL DATA
R thj-case
R thj-amb

Thermal Resistance Junction-case (1)


Thermal Resistance Junction-ambient ($)

Max
Max

2
50

C/W
C/W

(1) All channels ON


($) When mounted using minimum recommended pad size on FR-4 board

ELECTRICAL CHARACTERISTICS (10 V < VCC < 36 V; -25 oC < TJ < 125 oC unless otherwise
specified)
POWER
Symbol
VCC
R on
IS
V demag

Parameter

Test Conditions

Min.

Supply Voltage

Typ.

10
o

On State Resistance

I OUT = 0.5 A
I OUT = 0.5 A

T J = 125 C
T J = 85 o C

Supply Current

All Channels Off


On State (T j =125 o C) I out1 .. Iout4 =0

Output Voltage at
Turn-Off

I out = 0.5A

L LOAD = 1 mH

Max.

Unit

36

0.4
0.32

1
10

mA
mA

V CC -65 VCC -55 V CC -45

SWITCHING (VCC = 24 V)
Symbol

Parameter

t d(on)

Turn-on Delay Time Of


Output Current

tr

t d(off)

tf

Rise Time Of Output


Current

Turn-off Delay Time Of


Output Current

Fall Time Of Output


Current

Test Conditions
I OUT = 0.5 A Resistive Load
Input Rise Time < 0.1 s
T j = 25 o C
T j = 125 o C
I OUT = 0.5 A Resistive Load
Input Rise Time < 0.1 s
T j = 25 o C
T j = 125 o C
I OUT = 0.5 A Resistive Load
Input Rise Time < 0.1 s
T j = 25 o C
T j = 125 o C
I OUT = 0.5 A Resistive Load
Input Rise Time < 0.1 s
T j = 25 o C
T j = 125 o C

Min.

Typ.

Max.

Unit

30

40
60

s
s

50

100
115

s
s

20

30
40

s
s

15
20

s
s

(di/dt) on

Turn-on Current Slope

I OUT = 0.5 A
I OUT = Ilim

T j = 25 o C

0.5
2

A/s
A/s

(di/dt) off

Turn-off Current Slope

I OUT = 0.5 A
I OUT = Ilim

T j = 25 o C

2
4

A/s
A/s

3/9

VN330SP
ELECTRICAL CHARACTERISTICS (continued)
LOGIC INPUT (Each Channel)
Symbol

Parameter

V IL

Input Low Level


Voltage

VIH

Input High Level


Voltage (see note 1)

V I(hyst.)
I IN

Test Conditions

Min.

Max.

Unit

3.5

Input Hysteresis
Voltage
Input Current

Typ.

V
0.5

V IN = 0 to 30 V
V IN = 0 to 2 V

V
600

A
A

25

mA

25

I LGND

Output Current in
Ground Disconnection

V CC = V INX = GND = DIAG = 24 V


T J = 25 o C

V ICL

Input Clamp Voltage


(see note 1)

I IN = 1 mA
I IN = -1 mA

32

36
-0.7

V
V

note 1 : The input voltage is internally clamped at 32V minimum, it is possible to connect the input pins to an higher voltage via an external
resistor calculate to not exceed 10 mA.

PROTECTION AND DIAGNOSTICS


Symbol

Parameter

Test Conditions

V STAT () Status Voltage Output


Low

I STAT = 5 mA
(Fault Condition)

V SCL ()

I STAT = 1 mA
I STAT = -1 mA

V USD

Status Clamp Voltage

32

Under Voltage Shut


Down

Typ.

Low State Out Voltage

V IN = V ILj

I LIM

DC Short Circuit
Current

V CC = 24 V

I OVPK

Peak Short Circuit


Current

V CC = 24 V V in =30V
R LOAD < 10 m (see figure 2)

I DIAGH

Leakage on diag pin in


high state

V DIAG = 24 V

I LOAD

Output Leakage
Current

V CC = 10 to 36V

R LOAD < 10 m

Max.

Unit

36
-0.7

V
V

8
1.5

0.7

2.5

100

50

100

R LOAD 10 M

V OL

t SC

Min.

V IN = V IL

Delay Time of Current


Limiter

T TSD

Thermal Shut-down
Temperature

150

170

TR

Reset Temperature

135

155

() Status determination > 100 s after the switching edge.


Note: If INPUTn pin is left floating the corresponding channel will automatically switch off. If GND pin is disconnetted, all channels will switch
off provided VCC does not exceed 36V

4/9

VN330SP
FIGURE 1: Avalanche Energy Test Circit

FIGURE 2: Peak Short Circuit Current Test Circit

5/9

VN330SP
TRUTH TABLE
INPUTn

OUTPUTn

DIAGNOSTIC

Normal Operation

L
H

L
H

H
H

Over-temperature

L
H

L
L

H
L

Under-voltage

L
H

L
L

H
H

Shorted Load
(current limitation)

L
H

L
H

H
H

FIGURE 3: Switching Waveforms

6/9

VN330SP
SWITCHING PARAMETERS TEST CONDITIONS

DRIVING CIRCUIT

7/9

VN330SP

PowerSO-10 MECHANICAL DATA


mm

DIM.
MIN.

inch

TYP.

MAX.

MIN.

TYP.

MAX.

3.35

3.65

0.132

0.144

A1

0.00

0.10

0.000

0.004

0.40

0.60

0.016

0.024

0.35

0.55

0.013

0.022

9.40

9.60

0.370

0.378

D1

7.40

7.60

0.291

0.300

9.30

9.50

0.366

0.374

E1

7.20

7.40

0.283

0.291

E2

7.20

7.60

0.283

0.300

E3

6.10

6.35

0.240

0.250

E4

5.90

6.10

0.232

1.27

0.240
0.050

1.25

1.35

0.049

0.053

13.80

14.40

0.543

0.567

1.80

0.047

0.50

0.002

1.20

1.70

0.071
0.067

0o

8o

0.10 A B

10

E4

E1

E3

E2

e
0.25

SEATING
PLANE
DETAIL "A"

Q
D
h

= D1 =
=

SEATING
PLANE

A
F

A1

A1

L
DETAIL "A"

0068039-C
8/9

VN330SP

Information furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the consequences
of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is
granted by implication or otherwise under any patent or patent rights of STMicroelectronics. Specification mentioned in this publication are
subject to change without notice. This publication supersedes and replaces all information previously supplied. STMicroelectronics products
are not authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics.
The ST logo is a trademark of STMicroelectronics
1999 STMicroelectronics Printed in Italy All Rights Reserved
STMicroelectronics GROUP OF COMPANIES
Australia - Brazil - Canada - China - France - Germany - Italy - Japan - Korea - Malaysia - Malta - Mexico - Morocco - The Netherlands Singapore - Spain - Sweden - Switzerland - Taiwan - Thailand - United Kingdom - U.S.A.
http://www.st.com
.

9/9

This datasheet has been download from:


www.datasheetcatalog.com
Datasheets for electronics components.

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