VNH3ASP30-E STMicroelectronics, VNH3ASP30-E Datasheet - Page 26
VNH3ASP30-E
Manufacturer Part Number
VNH3ASP30-E
Description
IC MOTOR DVR H BRDG 30-MPSO
Manufacturer
STMicroelectronics
Type
Half Bridge DC Motor Driverr
Datasheet
1.VNH3ASP30TR-E.pdf
(33 pages)
Specifications of VNH3ASP30-E
Applications
Automotive
Number Of Outputs
2
Current - Output
30A
Voltage - Supply
5.5 V ~ 16 V
Operating Temperature
-40°C ~ 150°C
Mounting Type
Surface Mount
Package / Case
30-MPSO, MultiPowerSO
Supply Current
10 mA
Mounting Style
SMD/SMT
Device Type
Motor
Module Configuration
Full Bridge
Peak Output Current
30A
Output Resistance
0.03ohm
Input Delay
250µs
Output Delay
250µs
Supply Voltage Range
5.5V To 36V
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Voltage - Load
-
Lead Free Status / Rohs Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
VNH3ASP30-E
Manufacturer:
ST
Quantity:
20 000
Package and PCB thermal data
4.1.1
4.1.2
4.1.3
4.1.4
a.
26/33
Calculation is valid in any dynamic operating condition. P
Thermal calculation in clockwise and anti-clockwise operation in
Steady-state mode
Table 15.
Thermal resistances definition (values according to the PCB heatsink
area)
R
HS
R
R
between High-Side and Low-Side Chips
R
Chips
Thermal calculation in Transient mode
T
T
T
Single pulse thermal impedance definition (values according to the
PCB heatsink area)
Z
Z
Z
between High-Side and Low-Side Chips
Z
Chips
OFF
HS
ON
JHSAB
JLSA
JLSB
thHS
thLS
thHSLS
thLSLS
thHS
thLS
thHSLS
thLSLS
B
A
in ON state)
= Z
= High-Side Chip Thermal Impedance Junction to Ambient
HS
= R
= R
= Z
= Z
= Z
= Z
= R
= Z
= R
OFF
B
thLSA
ON
thHSA
thLSA
thHSLS
thHSLS
thHS
thLSALSB
thHSABLSA
LS
thLSALSB
thHSALSB
Thermal calculation in clockwise and anti-clockwise operation in Steady-
state mode
A
= Z
= R
= R
x P
x P
x P
OFF
LS
ON
thLSB
thLSB
thHSB
dHSAB
B
dHSAB
dHSAB
= Mutual Thermal Impedance Junction to Ambient between Low-Side
= Mutual Thermal Resistance Junction to Ambient between Low-Side
= R
= Z
P
x R
P
x R
= Low-Side Chip Thermal Impedance Junction to Ambient
dHSA
dHSB
= Low-Side Chip Thermal Resistance Junction to Ambient
= High-Side Chip Thermal Resistance Junction to Ambient (HS
thHSBLSA
thHSABLSB
thHSLS
thHSLS
+ Z
+ Z
+ Z
x R
x R
thHSLS
T
thLS
thLSLS
JHSAB
thHS
thHS
+ T
+ T
= Mutual Thermal Resistance Junction to Ambient
x P
A
A
= Mutual Thermal Impedance Junction to Ambient
+ P
+ P
x (P
d
x P
dLSA
values set by user.
dLSB
dLSA
dLSA
dLSA
+ Z
+ Z
P
P
P
P
+ P
thLSLS
dHSA
dLSB
dHSB
dLSA
thLS
dLSB
(a)
x R
x R
x R
x R
x P
x P
) + T
T
thLSLS
thLS
thHSLS
thHSLS
JLSA
dLSB
dLSB
+ T
A
+ T
+
+
+ T
+ T
A
A
A
A
P
x R
P
x R
dHSA
dHSB
thLS
thLSLS
x R
x R
+ T
VNH3ASP30-E
T
thHSLS
thHSLS
+ T
JLSB
A
A
+ P
+ P
dLSB
dLSA
A
or
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