NSC LM18293N Datasheet

LM18293 Four Channel Push-Pull Driver

General Description

The LM18293 is designed to drive DC loads up to one amp.
Typical applications include driving such inductive loads as
solenoids, relays and stepper motors along with driving
switching power transistors and use as a buffer for low level
logic signals. The four inputs accept standard TTL and DTL
levels for ease of interfacing. Two enable pins are provided
that also accept the standard TTL and DTL levels. Each
enable controls 2 channels and when an enable pin is dis­abled (tied low), the corresponding outputs are forced to the
TRI-STATE

condition. If the enable pins are not connected

É

(i.e., floating), the circuit will function as if it has been en­abled. Separate pins are provided for the main power supply
(pin 8), and the logic supply (pin 16). This allows a lower
voltage to be used to bias up the logic resulting in reduced
power dissipation. The chip is packaged in a specially de-

Typical Connection

signed 16 pin power DIP. The 4 center pins of this package
are tied together and form the die paddle inside the pack­age. This provides much better heat sinking capability than
most other DIP packages available. The device is capable
of operating at voltages up to 36 volts.

Features

Y

1A output current capability per channel

Y

Pin for pin replacement for L293B

Y

Special 16 pin power DIP package

Y

36 volt operation

Y

Internal thermal overload protection

Y

Logical ‘‘0’’ input voltage up to 1.5 volts results in high
noise immunity

LM18293 Four Channel Push-Pull Driver

March 1995

FIGURE 1. Application circuit showing bidirectional and on/off control of a single DC motor

TL/H/8706– 1

using two outputs and unidirectional on/off function of two DC motors using a single output each.

Order Number LM18293N

NS Package Number N16A

TRI-STATEÉis a registered trademark of National Semiconductor Corp.

C

1995 National Semiconductor Corporation RRD-B30M115/Printed in U. S. A.

TL/H/8706

Absolute Maximum Ratings

If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales
Office/Distributors for availability and specifications.

Output Drive Supply Voltage (V

) 36V

S

Logic Supply Voltage (VSS) 36V

Input Voltage (V

)7V

I

Enable Voltage (VE)7V

Electrical Characteristics

e

V

24V, V

S

e

5V, Te25§C, Le0.4V, He3.5V, each channel, unless otherwise noted

SS

Symbol Parameter Conditions Typical

V

S

V

SS

I

S

I

SS

V

I

Main Supply (Pin 8) Maximum Supply Voltage 36 Vmax

Logic Supply (Pin 16) Minimum Logic Supply Voltage 4.5 Vmin

Maximum Logic Supply Voltage 36 Vmax

Total Quiescent V
Supply Current V

Total Quiescent Logic V
Supply Current V
(pin 16) V

e

I

e

I

e

I

e

I

e

LI

O

e

HI

O

e

LI

O

e

HI

O

Input Voltage Min Value of Low

Max Value of Low 1.5 Vmax

Peak Output Current (Non-Repetitive t

Junction Temperature (TJ)

Thermal Resistance Junction to Case (iJC)14

Thermal Resistance Junction to Ambient (iJA)80

Internal Power Dissipation Internally Limited
Operating Temperature Range
Storage Temperature Range
Lead Temperature (Solder 10 seconds) 260

Tested Limit Design Limit

(Note 1) (Note 2)

e

0V
0V

0V
0V

H 2 6 mAmax

E

e

H 16 24 mAmax

E

e

V

L 4 mAmax

E

e

H 44 60 mAmax

E

e

H 16 22 mAmax

E

e

L 16 24 mAmax

E

b

0.3 Vmin

Min Value of High 2.3 Vmin
Max Value of High (V
Max Value of High (V

I

I

V

E

Input Current V

Enable Voltage Min Value of Low
(Pins 1, 9) Max Value of Low 1.5 Vmax

e

L

I

e

V

H 30 100 mAmax

I

s

7) V

SS

l

7) 7 Vmax

SS

SS

b

10 mAmax

b

0.3 Vmin

Min Value of High 2.3 Vmin
Max Value of High (V
Max Value of High (V

I

E

Enable Current V

VCEsat Top Source Saturation I

Voltage

VCEsat Bottom Sink Saturation I

Voltage

t

r

t

f

t

on

t

off

Note 1: Tested limits are guaranteed and 100% production tested.

Note 2: Design limits are guaranteed (but not 100% production tested) over the full supply and temperature range. These limits are not used to calculate outgoing

quality levels.

Rise Time 10%– 90% V

Fall Time 90%–10% V

Turn-On Delay 50% VIto 50% V

Turn-Off Delay 50% VIto 50% V

e

L

E

e

V

H

E

eb

1 amp 1.4 1.8 Vmax

o

e

1 amp 1.2 1.8 Vmax

o

o

o

s

7) V

SS

l

7) 7 Vmax

SS

b

30

SS

b

100 mAmax

g

10 mAmax

250 ns

250 ns

o

o

450 ns

200 ns

e

5 ms) 2A

b
b

a

40§Ctoa125§C
65§Ctoa150§C

150§C

§

§

C/W

C/W

§

Units

Vmax

Vmax

C

2