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VNQ600A-1 Datasheet, PDF (1/18 Pages) STMicroelectronics – QUAD CHANNEL HIGH SIDE SOLID STATE RELAY
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VNQ600A(8960)
QUAD CHANNEL HIGH SIDE SOLID STATE RELAY
TYPE
RDS(on)(*)
Ilim
VNQ600A(8960) 30mΩ
25A
(*) Per each channel at VCC=13V
VCC
36 V
s DC SHORT CIRCUIT CURRENT: 25A
s CMOS COMPATIBLE INPUTS
s PROPORTIONAL LOAD CURRENT SENSE
s UNDERVOLTAGE & OVERVOLTAGE
nSHUT-DOWN
s OVERVOLTAGE CLAMP
s THERMAL SHUT-DOWN
s CURRENT LIMITATION
s VERY LOW STAND-BY POWER DISSIPATION
s PROTECTION AGAINST:
nLOSS OF GROUND & LOSS OF VCC
s REVERSE BATTERY PROTECTION (**)
DESCRIPTION
The VNQ600A(8960) is a quad HSD formed by
assembling two VND600 chips in the same SO-28
ABSOLUTE MAXIMUM RATING
SO-28 (DOUBLE ISLAND)
ORDER CODES
PACKAGE
TUBE
T&R
SO-28
VNQ600A(8960) VNQ600A(8960)TR
package. The VND600 is a monolithic device
designed in| STMicroelectronics VIPower M0-3
Technology. The VNQ600A(8960) is intended for
driving any type of multiple loads with one side
connected to ground. This device has four
independent channels and four analog sense
outputs which deliver currents proportional to the
outputs currents. Active current limitation
combined with thermal shut-down and automatic
restart protect the device against overload. Device
automatically turns off in case of ground pin
disconnection.
Symbol
Parameter
Value
Unit
VCC
-VCC
IOUT
IR
IIN
VCSENSE
Supply voltage (continuous)
Reverse supply voltage (continuous)
Output current (continuous), for each channel
Reverse output current (continuous), for each channel
Input current
Current sense maximum voltage
41
V
-0.3
V
15
A
-15
A
+/- 10
mA
-3
V
+15
V
IGND Ground current at Tpins < 25°C (continuous)
-200
mA
Electrostatic Discharge (Human Body Model: R=1.5KΩ; C=100pF)
- INPUT
4000
V
VESD
- CURRENT SENSE
- OUTPUT
2000
V
5000
V
EMAX
Ptot
Tj
Tstg
- VCC
Maximum Switching Energy
(L=0.11mH; RL=0Ω; Vbat=13.5V; Tjstart=150ºC; IL=40A)
Power dissipation (per island) at Tlead=25°C
Junction operating temperature
Storage temperature
5000
V
126
mJ
6.25
W
Internally Limited
°C
-55 to 150
°C
(**) See application schematic at page 9.
June 2003
1/18