SGS Thomson Microelectronics VND05B Datasheet

VND05B
/ VND05B (011Y) / VND05B (012Y)
HIGH SIDE SMART POWER SOLID STATE RELAY
TYPE V
VND05B VND05B (011Y) VND05B (012Y)
OUTPUT CURRENT (CONTINUOUS): 9A AT
DSSRDS(on)In
40V 200m 1.6A 26 V
Tc=85°C PER CHANNEL
5V LOGIC LEVEL COMPATIBLE INPUT
THERMAL SHUT-DOWN
UNDERVOLTAGE PROTECTION
OPEN DRAIN DIAGNOSTIC OUTPUT
INDUCTIVE LOAD FAST DEMAGNETIZATION
VERY LOW STAND-BYPOWER DISSIPATION
DESCRIPTION
The VND05B, VND05B (011Y), VND05B (012Y) is a monolithic device designed in STMicroelectronics VIPower technology, intended for driving resistive or inductive loads with one side connected to ground. This device has two channels, and a common diagnostic. Built-in thermal shutdown protects the chip from overtemperature and short circuit. The status output provides an indication of open load in on state, open load in off state, overtemperature conditions and stuck-on to VCC.
(*) V
CC
DOUBLE CHANNEL
HEPTAWATT
(vertical) (horizontal)
HEPTAWATT
ORDER CODES
HEPTAWATT vertical HEPTAWATT horizontal HEPTAWATT in-line
VND05B VND05B (011Y) VND05B (012Y)
HEPTAWATT
(in-line)
BLOCK DIAGRAM
(*) In= Nominal current according to ISO definition for high side automotive switch (see note 1)
November 1999 1/11
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VND05B / VND05B (011Y) / VND05B (012Y)
ABSOLUTE MAXIMUM RATING
Symbol Parameter Value Unit
V
(BR)DSS
I
OUT
I
(RMS) RMS Output current at Tc=85°C and f > 1Hz 9 A
OUT
I
R
I
IN
-V I
STAT
V
ESD
P
TOT
T
T
STG
CONNECTION DIAGRAM TOP VIEW
Drain-Source breakdown voltage 40 V Output current (continuous) at Tc=85°C9A
Reverse output current at Tc=85°C-9A Input current +/- 10 mA Reverse supply voltage -4 V
CC
Status current +/- 10 mA Electrostatic discharge (R=1.5k, C=100pF) 2000 V Power dissipation at Tc=25°C59W Junction operating temperature -40 to 150 °C
j
Storage temperature -55 to 150 °C
CURRENT AND VOLTAGECONVENTIONS
2/11
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VND05B / VND05B (011Y) / VND05B (012Y)
THERMAL DATA
Symbol Parameter Value Unit
R
thj-case
R
thj-amb
Thermal resistance junction-case (MAX) 2.1 °C/W Thermal resistance junction-ambient (MAX) 60 °C/W
ELECTRICAL CHARACTERISTICS (8V<VCC<16V; -40°CT
125°C; unless otherwise specified)
j
POWER
Symbol Parameter Test Conditions Min Typ Max Unit
V
CC
I
n
R
ON
I
V
DS(MAX)
R
S
Supply voltage 6 13 26 V
(*) Nominal current Tc=85°C; V
On state resistance I
OUT=In;VCC
0.5V; VCC=13V 1.6 2.6 A
DS(on)
=13V; Tj=25°C 0.13 0.2 Supply current Off state; Tj=25°C; VCC=13V 35 100 µA Maximum voltage Drop I Output to GND internal
i
impedance
=7.5A; Tj=85°C; VCC=13V 1.44 2.3 V
OUT
=25°C 5 10 20 K
T
j
SWITCHING
Symbol Parameter Test Conditions Min Typ Max Unit
t
d(on)
t
(^) Rise time of output current R
r
t
d(off)
t
(^) Fall time of output current R
f
(di/dt) (di/dt)
Turn-on delay time of
(^)
output current
Turn-off delay time of
(^)
output current
Turn-on current slope R
on
Turn-off current slope R
off
R
=5.4 5 25 200 µs
OUT
=5.4 10 50 180 µs
OUT
R
=5.4 10 75 250 µs
OUT
=5.4 10 35 180 µs
OUT
=5.4 0.003 0.1 A/µs
OUT
=5.4 0.005 0.1 A/µs
OUT
LOGIC INPUT
Symbol Parameter Test Conditions Min Typ Max Unit
V V
V
I(hyst)
I
IN
V
ICL
Input low level voltage 1.5 V
IL
Input high level voltage 3.5 ()V
IH
Input hysteresis voltage 0.2 0.9 1.5 V Input current VIN=5V; Tj=25°C30100µA
Input clamp voltage
=10mA
I
IN
=-10mA
I
IN
56
-0.7
7V
V
3/11
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VND05B / VND05B (011Y) / VND05B (012Y)
ELECTRICAL CHARACTERISTICS (continued)
PROTECTIONS AND DIAGNOSTICS
Symbol Parameter Test Conditions Min Typ Max Unit
V
STAT
V
USD
V
SCL
T
TSD
T
TSD(hyst)
T
V
OL
I
OL
t
povl
t
pol
(*) In=Nominal current according to ISO definition for high side automotive switch (see note 1) (^) Seeswitching time waveform ()TheV
exceed 10 mA at the input pin. Note 1: The Nominal Current is the current at T Note 2: I Note 3: t
Low output voltage status I
=1.6mA 0.4 V
STAT
Undervoltage shut-down 3.5 4.5 6 V Status clamp voltage I
Thermal shut-down temperature
STAT
I
STAT
= 10mA = -10mA
56
-0.7
140 160 180 °C
Thermal shutdown hysteresis temperature
Reset temperature 125 °C
R
7V
50 °C
Open voltage level Off state (note 2) 2.5 4 5 V Open load current level On state 5 180 mA Overtemperature Status
delay
(note 3) 5 10 µs
Open Load Status delay (note 3) 50 500 2500 µs
is internally clamped at 6V about. It is possible to connect this pin to an higher voltage via an external resistor calculated to not
IH
=85°C for battery voltage of 13V which produces a voltage drop of 0.5V
c OL(off) povltpol
=(VCC-VOL)/R
: ISO definition
OL
V
Note 2 Relevant Figure Note 3 Relevant Figure
4/11
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