TD62S011AFM
2001-12-05
1
TOSHIBA Bipolar Digital Integrated Circuit
Silicon Monolithic
TD62S011AFM
1-Channel Sink-Current Driver
The TD62011AFM is a 1-channel noninverting sink-current
driver with a PNP transistor at the first stage and a NPN
transistor at the second stage.
The driver incorporates output clamp diodes used to clamp the
counter electromotive force which is generated when driving an
inductive load. Because the driver operates by source input
current, it is optimal for interfacing with sink-current driven
general-purpose CMOS logic ICs and microprocessors. Also it is
optimal for driving relays and LEDs. When using the driver, pay
attention to the thermal conditions
Features
Ultra-small HSON6 package with heat sink on rear
High output withstandard voltage: V
CE (SUS)
= 50 V (min)
Large output current: I
OUT
=
1
00 mA (max)
Built-in input resistor: R
IN
= 14 k
Input signal: Low Level Active
Built-in output clamp diodes
Pin Connection
(top view)
Basic Circuit Diagram
Note 1: Diodes shown using dotted lines are parasitic. Do not use them.
Note 2: When using the driver, connect the P-GND pin to the GND pin.
Note 3: When using the driver, connect the P-GND pin to the heat sink on the rear of the package.
Weight: 0.017 g (typ.)
OUTPUT
COMMON
V
CC
1
2
3
INPUT
P-GND
GND
6
5
4
10 k
W
20 k
9
V
CC
P-GND
OUTPUT
GND
1 k
9
20 k
9
COMMON
INPUT
TD62S011AFM
2001-12-05
2
Maximum Ratings
(Ta
=
=
=
=
25C)
Characteristics Symbol
Rating
Unit
Supply voltage
V
CC
-
0.5~7.0 V
Collector-emitter voltage
V
CEO
50 V
Output withstand voltage
V
CE (SUS)
50 V
Output current
I
OUT
100
mA
Input voltage
V
IN
-
0.5~7.0 V
Input current
I
IN
-
10
mA
Clamp diode reverse voltage
V
R
50
V
Clamp diode forward current
I
F
100
mA
Power dissipation
P
D
(Note 4)
0.78
W
R
th (j-a)
(Note 4)
160
Saturated thermal resistance
R
th (j-c)
(Note 5)
25
C/W
Operating temperature
T
opr
-
40~85 C
Storage temperature
T
stg
-
55~150 C
Note 4: 114.3
76.2
1.6 mm glass epoxy film substrate Cu heat dissipation pattern 100 mm
2
Note 5: When an infinite heat sink is mounted.
Recommended Operating Condition
(Ta
=
=
=
=
-
-
-
-
40~85C)
Characteristics Symbol
Test
Circuit
Test Condition
Min
Typ.
Max
Unit
Supply voltage
V
CC
4.5 5.0 5.5 V
Output withstand voltage
V
CEO
0
50 V
Output current
I
OUT
100
mA
Input voltage
V
IN
0
5.5 V
Clamp diode reverse voltage
V
R
50 V
Clamp diode forward current
I
F
100
mA
TD62S011AFM
2001-12-05
3
Electrical Characteristics
(Ta
=
=
=
=
25C)
Characteristics Symbol
Test
Circuit
Test Condition
Min
Typ.
Max
Unit
Output leakage current
I
CEX
1
V
CC
=
V
IN
=
5.5 V,
V
OUT
=
50 V
10
m
A
V
CC
=
4.5 V, V
IN
=
0 V,
I
OUT
=
100 mA
0.3
Output saturation voltage
V
CE (sat)
2
V
CC
=
4.5 V, V
IN
=
0 V,
I
OUT
=
50 mA
0.15
V
Output ON
I
IN (ON)
3
V
CC
=
5.5 V, V
IN
=
0.4 V
-
0.44
-
0.63
mA
Input current
Output OFF
I
IN (OFF)
4
V
CC
=
5.5 V, V
IN
=
5.5 V
-
4.0
m
A
Input voltage
V
IN (ON)
5
V
CC
=
4.5 V, I
OUT
=
100 mA
V
CC
-
3.7
V
Clamp diode leakage current
I
R
6
V
R
=
50 V
10
m
A
Clamp diode forward voltage
V
F
7
I
F
=
100 mA
1.3 V
I
CC (ON)
V
CC
=
5.5 V, V
IN
=
0 V
6.0 mA
Power dissipation
I
CC (OFF)
8
V
CC
=
5.5 V, V
IN
=
V
CC
100
m
A
Turn-on delay
t
ON
0.2
Turn-off delay
t
OFF
9
V
CC
=
5 V, V
OUT
=
50 V,
R
L
=
625
W
, C
L
=
15 pF
8.5
m
s
TD62S011AFM
2001-12-05
4
Test Circuit
1. I
CEX
2.
V
CE (sat)
3. I
IN (ON)
4.
I
IN (OFF)
5. V
IN (ON)
6.
I
R
7. V
F
8. I
CC
OPEN
V
CC
V
IN
I
IN (ON)
OPEN
OPEN
V
CC
V
IN (ON)
V
CE
OPEN
V
CC
I
R
OPEN
V
R
OPEN
V
CC
I
OUT
OPEN
V
F
OPEN
V
CC
V
IN
I
CC
OPEN
I
CEX
OPEN
V
CC
V
IN
OPEN
V
CE
OPEN
V
CC
V
CE (sat)
I
IN
I
OUT
OPEN
V
CC
I
IN (OFF)
I
OUT
TD62S011AFM
2001-12-05
5
9. t
ON
, t
OFF
Note 6: Pulse width 50
m
s, Duty cycle 10%
Output impedance 50
W
, t
r
<
=
5 ns, t
f
<
=
10 ns
Note 7: C
L
includes probe and jig capacitance.
Caution on Application
1. The device does not include protectors such as an overcurrent protector and an overvoltage protector.
Applying excessive current or voltage may damage the device.
Thus, design with great care to prevent excessive current or voltage from being applied to the device.
The device may also be damaged by short-circuits between outputs and power supply/ground.
Take care when designing output, V
CC
and GND line.
2. Be sure to mount the device in the correct orientation. Make sure that the positive and negative
power supply pins are connected the right way round. Otherwise, the absolute maximum current
and power dissipation ratings may be exceeded and the device may break down or undergo
performance degradation, causing it to catch fire or explode, and resulting in injury.
Pulse
generator
INPUT
C
L
=
15 pF
(Note 7)
(Note 6)
V
CC
OPEN V
OUT
OUTPUT
90%
90%
90%
10%
10%
50%
50%
t
ON
t
OFF
t
f
t
r
5 V
0
V
OH
V
OL
50
m
s
10%
OUTPUT
INPUT
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