Motorola Corp MC33153P

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Item Description: IC DRIVER GATE SINGLE IGBT 8DIP

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Motorola Corp 9745
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Technical Document


DISCLAIMER: The information provided herein is solely for informational purposes. Customers must be aware of the suitability of this product for their application, and consider that variable factors such as Manufacturer, Product Category, Date Codes, Pictures and Descriptions may differ from available inventory.

Device
Operating
Temperature Range
Package
SEMICONDUCTOR
TECHNICAL DATA
SINGLE IGBT
GATE DRIVER
ORDERING INFORMATION
MC33153D
MC33153P
T
A
= –40° to +105°C
SO–8
DIP–8
D SUFFIX
PLASTIC PACKAGE
CASE 751
(SO–8)
8
1
18
7
6
5
2
3
4
(Top View)
Current Sense
Input
Kelvin Gnd
V
EE
Input
Fault Blanking/
Desaturation Input
Drive Output
PIN CONNECTIONS
Order this document by MC33153/D
P SUFFIX
PLASTIC PACKAGE
CASE 626
Fault Output
V
CC
8
1
1
MOTOROLA ANALOG IC DEVICE DATA
The MC33153 is specifically designed as an IGBT driver for high power
applications that include ac induction motor control, brushless dc motor
control and uninterruptable power supplies. Although designed for driving
discrete and module IGBTs, this device offers a cost effective solution for
driving power MOSFETs and Bipolar Transistors. Device protection features
include the choice of desaturation or overcurrent sensing and undervoltage
detection. These devices are available in dual–in–line and surface mount
packages and include the following features:
High Current Output Stage: 1.0 A Source/2.0 A Sink
Protection Circuits for Both Conventional and Sense IGBTs
Programmable Fault Blanking Time
Protection against Overcurrent and Short Circuit
Undervoltage Lockout Optimized for IGBT’s
Negative Gate Drive Capability
Cost Effectively Drives Power MOSFETs and Bipolar Transistors
Representative Block Diagram
This device contains 133 active transistors.
Short Circuit
Latch
Overcurrent
Latch
Fault
Output
S
Q
R
Current
Sense
Input
Kelvin
Gnd
Fault
Blanking/
Desaturation
Input
Drive
Output
Short Circuit
Comparator
Overcurrent
Comparator
Fault Blanking/
Desaturation
Comparator
Under
Voltage
Lockout
Input
V
EE
V
CC
V
CC
V
CC
V
EE
V
EE
V
CC
V
EE
V
CC
V
EE
V
CC
V
EE
V
CC
S
Q
R
V
CC
V
CC
6
7
4 5
3
8
2
1
130 mV
65 mV
270
µ
A
6.5 V
Output
Stage
12 V/
11 V
100 k
Motorola, Inc. 1998 Rev 2
MC33153
2
MOTOROLA ANALOG IC DEVICE DATA
MAXIMUM RATINGS
Rating Symbol Value Unit
Power Supply Voltage V
V
CC
to V
EE
V
CC
– V
EE
20
Kelvin Ground to V
EE
(Note 1) KGnd – V
EE
20
Logic Input V
in
V
EE
–0.3 to V
CC
V
Current Sense Input V
S
–0.3 to V
CC
V
Blanking/Desaturation Input V
BD
–0.3 to V
CC
V
Gate Drive Output
Source Current
Sink Current
Diode Clamp Current
I
O
1.0
2.0
1.0
A
Fault Output
Source Current
Sink Curent
I
FO
25
10
mA
Power Dissipation and Thermal Characteristics
D Suffix SO–8 Package, Case 751
Maximum Power Dissipation @ T
A
= 50°C
Thermal Resistance, Junction–to–Air
P Suffix DIP–8 Package, Case 626
Maximum Power Dissipation @ T
A
= 50°C
Thermal Resistance, Junction–to–Air
P
D
R
θJA
P
D
R
θJA
0.56
180
1.0
100
W
°C/W
W
°C/W
Operating Junction Temperature T
J
+150 °C
Operating Ambient Temperature T
A
–40 to +105 °C
Storage Temperature Range T
stg
–65 to +150 °C
NOTE: ESD data available upon request.
ELECTRICAL CHARACTERISTICS (V
CC
= 15 V, V
EE
= 0 V, Kelvin Gnd connected to V
EE
. For typical values
T
A
= 25°C, for min/max values T
A
is the operating ambient temperature range that applies (Note 2), unless otherwise noted.)
Characteristic
Symbol Min Typ Max Unit
LOGIC INPUT
Input Threshold Voltage
High State (Logic 1)
Low State (Logic 0)
V
IH
V
IL
1.2
2.70
2.30
3.2
V
Input Current
High State (V
IH
= 3.0 V)
Low State (V
IL
= 1.2 V)
I
IH
I
IL
130
50
500
100
µA
DRIVE OUTPUT
Output Voltage
Low State (I
Sink
= 1.0 A)
High State (I
Source
= 500 mA)
V
OL
V
OH
12
2.0
13.9
2.5
V
Output Pull–Down Resistor R
PD
100 200 k
FAULT OUTPUT
Output voltage
Low State (I
Sink
= 5.0 mA)
High State (I
Source
= 20 mA)
V
FL
V
FH
12
0.2
13.3
1.0
V
SWITCHING CHARACTERISTICS
Propagation Delay (50% Input to 50% Output C
L
= 1.0 nF)
Logic Input to Drive Output Rise
Logic Input to Drive Output Fall
t
PLH(in/out)
t
PHL
(in/out)
80
120
300
300
ns
Drive Output Rise Time (10% to 90%) C
L
= 1.0 nF t
r
17 55 ns
Drive Output Fall Time (90% to 10%) C
L
= 1.0 nF t
f
17 55 ns
NOTES: 1. Kelvin Ground must always be between V
EE
and V
CC
.
2. Low duty cycle pulse techniques are used during test to maintain the junction temperature as close to ambient as possible.
T
low
= –40°C for MC33153 T
high
= +105°C for MC33153
MC33153
3
MOTOROLA ANALOG IC DEVICE DATA
ELECTRICAL CHARACTERISTICS (continued) (V
CC
= 15 V, V
EE
= 0 V, Kelvin Gnd connected to V
EE
. For typical values
T
A
= 25°C, for min/max values T
A
is the operating ambient temperature range that applies (Note 2), unless otherwise noted.)
Characteristic UnitMaxTypMinSymbol
SWITCHING CHARACTERISTICS (continued)
Propagation Delay µs
Current Sense Input to Drive Output t
P(OC)
0.3 1.0
Fault Blanking/Desaturation Input to Drive Output t
P(FLT)
0.3 1.0
UVLO
Startup Voltage V
CC
start
11.3 12 12.6 V
Disable Voltage V
CC
dis
10.4 11 11.7 V
COMPARATORS
Overcurrent Threshold Voltage (V
Pin8
> 7.0 V) V
SOC
50 65 80 mV
Short Circuit Threshold Voltage (V
Pin8
> 7.0 V) V
SSC
100 130 160 mV
Fault Blanking/Desaturation Threshold (V
Pin1
> 100 mV) V
th(FLT)
6.0 6.5 7.0 V
Current Sense Input Current (V
SI
= 0 V) I
SI
–1.4 –10 µA
FAULT BLANKING/DESATURATION INPUT
Current Source (V
Pin8
= 0 V, V
Pin4
= 0 V) I
chg
–200 –270 –300 µA
Discharge Current (V
Pin8
= 15 V, V
Pin4
= 5.0 V) I
dschg
1.0 2.5 mA
TOTAL DEVICE
Power Supply Current
Standby (V
Pin
4
= V
CC
, Output Open)
Operating (C
L
= 1.0 nF, f = 20 kHz)
I
CC
7.2
7.9
14
20
mA
NOTES: 1. Kelvin Ground must always be between V
EE
and V
CC
.
2. Low duty cycle pulse techniques are used during test to maintain the junction temperature as close to ambient as possible.
T
low
= –40°C for MC33153 T
high
= +105°C for MC33153
0
16
0
1.5
V
O
, OUTPUT VOLTAGE (V)
V
in
, INPUT VOLTAGE (V)
I
in
, INPUT CURRENT (mA)
Figure 1. Input Current versus Input Voltage
V
in
, INPUT VOLTAGE (V)
Figure 2. Output Voltage versus Input Voltage
V
CC
= 15 V
T
A
= 25
°
C
V
CC
= 15 V
T
A
= 25
°
C
1.0
0.5
0
2.0 4.0 6.0 8.0 10 12 14 16
14
12
10
8.0
6.0
4.0
2.0
0
1.0 2.0 3.0 4.0
5.0
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