STMICROELECTRONICS ULN2071B

ULN2065B - ULN2067B
ULN2069B - ULN2071B
ULN2075B - ULN2077B
®
80 V - 1.5 A QUAD DARLINGTON SWITCHES
.
..
.
.
.
OUTPUT CURRENT TO 1.5 A EACH DARLINGTON
MINIMUM BREAKDOWN 80 V
SUSTAINING VOLTAGE AT LEAST 50 V
INTEGRAL
SUPPRESSION
DIODES
(ULN2065B, ULN2067B, ULN2069B and
ULN2071B)
ISOLATED DARLINGTON PINOUT (ULN2075B
and ULN2077B)
VERSIONS COMPATIBLE WITH ALL POPULAR LOGIC FAMILIES
DESCRIPTION
Designed to interface logic to a wide variety of high
current, high voltage loads, these devices each contain four NPN darlington switches delivering up to
1.5 A with a specified minimum breakdown of 80 V
and a sustaining voltage of 50 V. The ULN2065B,
ULN2067B, ULN2069B and ULN2071B contain integral suppression diodes for inductive loads and
have common emitters ; the ULN2075B and
ULN2077B feature isolated darlington pinouts and
are intended for applications such as emitter follower configurations. Inputs of the ULN2065B,
ULN2069B and ULN2075B are compatible with
popular 5 V logic families and the ULN2067B,
ULN2071B and ULN2077B are compatible with 615 VCMOS and PMOS. The ULN2069B and
ULN2071B include a predriver stage to provide extragain, reducing the load on control logic.
POWERDIP
12 + 2 + 2
PIN CONNECTIONS AND ORDER CODES
ULN2065B
ULN2067B
September 2003
ULN2069B
ULN2071B
ULN2075B
ULN2077B
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ULN2065B-ULN2067B-ULN2069B-ULN2071B-ULN2075B-ULN2077B
SCHEMATIC DIAGRAM
ULN2065B : RIN = 350Ω
ULN2067B : RIN = 3kΩ
ULN2069B : RIN = 2.5kΩ, Rs = 900Ω
ULN2071B : RIN = 11.6kΩ, Rs = 3.4kΩ
ULN2075B : RIN = 350Ω
ULN2077B : RIN = 3kΩ
ABSOLUTE MAXIMUM RATINGS
Symbol
VCEX
VCE(sus)
Parameter
Output Voltage
Output Sustaining Voltage
Value
Unit
80
V
50
V
1.75
A
60
30
15
V
V
V
25
mA
10
20
V
V
4.3
1
W
W
Operating Ambient Temperature Range
– 20 to 85
°C
Storage Temperature
– 55 to 150
°C
IO
Output Current
Vi
Input Voltage
II
Input Current
Vs
Supply Voltage
Ptot
Power Dissipation at Tpins = 90 °C
at Tamb = 70 °C
Tamb
Tstg
for ULN2075B – 2077B
for ULN2067B – 2071B
for ULN2065B – 2069B
for ULN2069B
for ULN2071B
ELECTRICAL CHARACTERISTICS (Tamb = 25oC unless otherwise specified )
Symbol
ICEX
Parameter
Output Leakage Current
Test Conditions
VCE = 80V
Tamb = 25°C
Tamb = 70°C
VCE(sus)
Collector-emitter Sustaining Voltage
IC = 100mA, Vi = 0.4V
VCE(sat)
Collector-emitter Saturation Voltage
IC
IC
IC
IC
IC
Input Current
for ULN2065B and ULN2075B
Vi = 2.4V
Vi = 3.75V
for ULN2067B and ULN2077B
Vi = 5V
Vi = 12V
for ULN2069B
Vi = 2.75V
Vi = 3.75V
for ULN2071B
Vi = 5V
Vi = 12V
Ii(on)
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Min.
=
=
=
=
=
500mA
750mA
1A
1.25A
1.5A
IB
IB
IB
IB
IB
=
=
=
=
=
Typ.
Max.
Unit
100
500
µA
µA
50
Fig.
1
V
2
1.1
1.2
1.3
1.4
1.5
V
V
V
V
V
3
3
3
3
3
1.4
3.3
4.3
9.6
mA
mA
4
4
0.6
1.7
1.8
5.2
mA
mA
4
4
5.5
10
mA
mA
4
4
4
12.5
mA
mA
4
4
625µA
935µA
1.25mA
2mA
2.25mA
ULN2065B-ULN2067B-ULN2069B-ULN2071B-ULN2075B-ULN2077B
ELECTRICAL CHARACTERISTICS (Tamb = 25oC unless otherwise specified ) (continued)
Symbol
Vi(on)
Is
Parameter
Input Voltage
Supply Current
for ULN2069B
IC = 500mA, Vi = 2.75V
for ULN2071B
IC = 500mA, Vi = 5V
Typ.
Max.
Unit
Fig.
2
6.5
V
V
5
5
2.5
10
2.75
5
V
V
V
V
5
5
5
5
6
mA
8
8
4.5
mA
1
µs
Turn-off Delay Time
0.5 Vi to 0.5 Vo
1.5
µs
Clamp Diode Leakage Current
for ULN2065B-ULN2067B
and ULN2069B-ULN2071B
VR = 80 V
Tamb = 25°C
Tamb = 70°C
Turn-on Delay Time
tPHL
VF
VCE = 2V, IC = 1A
ULN2065B, ULN2075B
ULN2067B, ULN2077B
VCE = 2V, IC = 1.5A
ULN2065B, ULN2075B
ULN2067B, ULN2077B
ULN2069B
ULN2071B
Min.
0.5 Vi to 0.5 Vo
tPLH
IR
Test Conditions
Clamp Diode Forward Voltage
for ULN2065B-ULN2067B
and ULN2069B-ULN2071B
IF = 1 A
IF = 1.5 A
6
50
100
µA
µA
7
1.75
2
V
V
Notes : 1. Input voltage is with reference to the substrate (no connection to any other pins) for the ULN2075B and ULN2077B
reference is ground for all other types.
2. Input current may be limited by maximum allowable input voltage.
TEST CIRCUITS
Figure 1.
Figure 2.
Figure 3.
Figure 4.
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ULN2065B-ULN2067B-ULN2069B-ULN2071B-ULN2075B-ULN2077B
Figure 5.
Figure 6.
Figure 7.
Figure 8.
Figure 9 : Input Current as a Function of
Input Voltage.
Figure 10 : Input Current as a Function of
Input Voltage.
Figure 11 : Collector Current as a Function of
Input Current.
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ULN2065B-ULN2067B-ULN2069B-ULN2071B-ULN2075B-ULN2077B
MOUNTING INSTRUCTIONS
The Rth j-amb can be reduced by soldering the GND
pins to a suitable copper area of the printed circuit
board (Fig. 12) or to an external heatsink (Fig. 13).
The diagram of figure 14 shows the maximum dissipable power Ptot and the Rth j-amb as a function of
the side "∝" of two equal square copper areas having a thickness of 35 µ (1.4 mils).
During soldering the pins temperature must not exceed 260 °C and the soldering time must not be
longer than 12 seconds.
The external heatsink or printed circuit copper area
must be connected to electrical ground.
Figure 12 : Example of P.C. Board Area which is
Used as Heatsink.
Figure 13 : External Heatsink Mounting Example.
Figure 14 : Maximum Dissipable Power and Junction to Ambient Thermal Resistance
vs. Side "I".
Figure 15 : Maximum Allowable Power Dissipation vs. Ambient Temperature.
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ULN2065B-ULN2067B-ULN2069B-ULN2071B-ULN2075B-ULN2077B
mm
DIM.
MIN.
a1
0.51
B
0.85
b
b1
TYP.
inch
MAX.
MIN.
TYP.
MAX.
0.020
1.40
0.033
0.50
0.38
0.055
0.020
0.50
D
0.015
0.020
20.0
0.787
E
8.80
0.346
e
2.54
0.100
e3
17.78
0.700
F
7.10
0.280
I
5.10
0.201
L
OUTLINE AND
MECHANICAL DATA
3.30
0.130
Powerdip 16
Z
6/7
1.27
0.050
ULN2065B-ULN2067B-ULN2069B-ULN2071B-ULN2075B-ULN2077B
Information furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No
license is granted by implication or otherwise under any patent or patent rights of STMicroelectronics. Specifications mentioned in this
publication are subject to change without notice. This publication supersedes and replaces all information previously supplied. STMicroelectronics products are not authorized for use as critical components in life support devices or systems without express written
approval of STMicroelectronics.
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All other names are the property of their respective owners
© 2003 STMicroelectronics - All rights reserved
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