Electrical Characteristics: (VS = 42V, VSS = 5V, TJ = +25°C unless otherwise specified)
Parameter
Symbol
Test Conditions
Min Typ Max Unit
Supplu Voltage (Pin4)
Logic Supply Voltage (Pin9)
Quiescent Supply Current (Pin4)
Quiescent Current from VSS (Pin9)
Input Low Voltage
(Pin5, Pin7, Pin10, Pin12)
VS
Operative Condition
VSS
IS
Ven = H, IL = 0
Ven = L, Vi = X
ISS
Ven = H, IL = 0
Ven = L, Vi = X
ViL
VIH+2.5 −
46
V
4.5 5.0 7.0 V
Vi = L
−
Vi = H −
−
13 22 mA
50 70 mA
−
4 mA
Vi = L
−
Vi = H −
−
24 36 mA
7 12 mA
−
6 mA
−0.3 − 1.5 V
Input High Voltage
ViH
(Pin5, Pin7, Pin10, Pin12)
2.3
− VSS V
Low Voltage Input Current
(Pin5, Pin7, Pin10, Pin12)
IiL
Vi = L
−
− −10 μA
High Voltage Input Current
(Pin5, Pin7, Pin10, Pin12)
IiH
Vi = H ≤ VSS − 0.6V
−
30 100 μA
Enable Low Voltage (Pin6, Pin11)
Enable High Voltage (Pin6, Pin11)
Low Voltage Enable Current
(Pin6, Pin11)
Ven = L
Ven = H
Ien = L
Ven = L
−0.3 − 1.5 V
2.3
− VSS V
−
− −10 μA
High Voltage Enable Current
(Pin6, Pin11)
Ien = H Ven = H ≤ VSS − 0.6V
−
30 100 μA
Source Saturation Voltage
Sink Saturation Voltage
Total Drop
Sensing Voltage (Pin1, Pin15)
Source Current
Turn−Off Delay
Fall Time
Turn−On Delay
Rise Time
Sink Current
Turn−Off Delay
Fall Time
Turn−On Delay
Rise Time
VCE(sat) (H) IL = 1A
IL = 2A
VCE(sat) (L) IL = 1A, Note 3
IL = 2A, Note 3
VCE(sat) IL = 1A, Note 3
IL = 2A, Note 3
Vsens Note 1
T1 (Vi)
T2 (Vi)
T3 (Vi)
T4 (Vi)
0.5 Vi to 0.9 IL, Note 2
0.9 IL to 0.1 IL, Note 2
0.5 Vi to 0.1 IL, Note 2
0.1 IL to 0.9 IL, Note 2
T5 (Vi)
T6 (Vi)
T7 (Vi)
T8 (Vi)
0.5 Vi to 0.9 IL, Note 2
0.9 IL to 0.1 IL, Note 2
0.5 Vi to 0.9 IL, Note 2
0.1 IL to 0.9 IL, Note 2
− 1.35 1.70 V
−
2.0 2.7 V
−
1.2 1.6 V
−
1.7 2.3 V
−
− 3.2 V
−
− 4.9 V
−1
−
2V
−
1.5 − μs
−
0.2 − μs
−
2
− μs
−
0.7 − μs
−
0.7 − μs
− 0.25 − μs
−
1.6 − μs
−
0.2 − μs
Note 1. Sensing voltage can be −1V for t ≤ 50μs; in steady state Vsensmin ≥ −0.5V.
Note 2. The load must be a pure resistor.
Note 3. Pin1 and Pin15 connected to GND.