VNH5019A-E datasheet
Table Of Contents
- 1 Block diagram and pin description
- 2 Electrical specifications
- Figure 3. Current and voltage conventions
- 2.1 Absolute maximum ratings
- 2.2 Thermal data
- 2.3 Electrical characteristics
- 2.4 Waveforms and truth table
- Table 11. Truth table in normal operating conditions
- Figure 4. Typical application circuit for DC to 20 kHz PWM operation with reverse battery protection (option A)
- Figure 5. Typical application circuit for DC to 20 kHz PWM operation with reverse battery protection (option B)
- Table 12. Truth table in fault conditions (detected on OUTA)
- Figure 6. Behavior in fault condition (how a fault can be cleared)
- Table 13. Electrical transient requirements (part 1)
- Table 14. Electrical transient requirements (part 2)
- Table 15. Electrical transient requirements (part 3)
- 2.5 Reverse battery protection
- Figure 7. Definition of the delay times measurement
- Figure 8. Definition of the low-side switching times
- Figure 9. Definition of the high-side switching times
- Figure 10. Definition of dynamic cross conduction current during a PWM operation
- Figure 11. Waveforms in full bridge operation (part 1)
- Figure 12. Waveforms in full bridge operation (part 2)
- Figure 13. Definition of delay response time of sense current
- Figure 14. Half-bridge configuration
- Figure 15. Multi-motors configuration
- 3 Package and PCB thermal data
- 3.1 MultiPowerSO-30 thermal data
- 4 Package and packing information
- 5 Order codes
- 6 Revision history
Electrical specifications VNH5019A-E
10/34 Doc ID 15701 Rev 7
2.3 Electrical characteristics
Values specified in this section are for 8 V < V
CC
< 21 V, -40 °C < T
j
< 150 °C, unless
otherwise specified.
Table 5. Power section
Symbol Parameter Test conditions Min. Typ. Max. Unit
V
CC
Operating bridge supply
voltage
5.5 24 V
I
S
Supply current
OFF-state with all fault cleared and ENx = 0 V
(standby):
IN
A
= IN
B
= PWM = 0; T
j
= 25 °C; V
CC
= 13 V
IN
A
= IN
B
= PWM = 0
OFF-state (no standby):
IN
A
= IN
B
= PWM = 0; ENx = 5 V
10 15
60
6
µA
µA
mA
ON-state:
IN
A
or IN
B
= 5 V, no PWM
IN
A
or IN
B
= 5 V, PWM = 20 kHz
48
8
mA
mA
R
ONHS
Static high-side
resistance
I
OUT
= 15 A; T
j
= 25 °C 12.0
mΩ
I
OUT
= 15 A; T
j
= - 40 °C to 150 °C 26.5
R
ONLS
Static low-side
resistance
I
OUT
= 15 A; T
j
= 25 °C 6.0
mΩ
I
OUT
= 15 A; T
j
= - 40 °C to 150 °C 11.5
V
f
High-side
free-wheeling diode
forward voltage
I
f
= 15 A,
T
j
= 150 °C
0.6 0.8 V
I
L(off)
High-side OFF-state
output current (per
channel)
T
j
= 25 °C; V
OUTX
= EN
X
= 0 V; V
CC
= 13 V 3
µA
T
j
= 125 °C; V
OUTX
= EN
X
= 0 V; V
CC
= 13 V 5
Table 6. Logic inputs (IN
A
, IN
B
, EN
A
, EN
B,
PWM, CS_DIS)
Symbol Parameter Test conditions Min. Typ. Max. Unit
V
IL
Low-level input voltage
Normal operation (DIAG
X
/EN
X
pin
acts as an input pin)
0.9 V
V
IH
High-level input
voltage
Normal operation (DIAG
X
/EN
X
pin
acts as an input pin)
2.1 V
I
INL
Low-level input current V
IN
= 0.9 V 1 µA
I
INH
High-level input
current
V
IN
= 2.1 V 10 µA
V
IHYST
Input hysteresis
voltage
Normal operation (DIAG
X
/EN
X
pin
acts as an input pin)
0.15 V