Allegro UCN5801LW, UCN5801EP, UCN5801A, UCN5800L, UCN5800A Datasheet

5800

AND

5801

BiMOS II
LA TCHED DRIVERS

UCN5800L

141

UCN5800A

1

CLEAR

STROBE

GROUND

Note the UCN5800A (DIP) and the UCN5800L
(SOIC) are electrically identical and share a
common terminal number assignment.

2

3

IN

1

IN

4

2

5

IN

3

6

IN

4

78

LATCHES

V

ABSOLUTE MAXIMUM RATINGS

at +25°C Free-Air Temperature

Output Voltage, VCE. . . . . . . . . . . . . . 50 V

Supply Voltage, V
Input Voltage Range,

V

. . . . . . . . . . . -0.3 V to VDD + 0.3 V

IN

Continuous Collector Current,

l

. . . . . . . . . . . . . . . . . . . . . . 500 mA

C

Package Power Dissipation,

P

. . . . . . . . . . . . . . . . . . . . See Graph

D

Operating Temperature Range,

T

. . . . . . . . . . . . . . . . -20°C to +85°C

A

Storage Temperature Range,

T

. . . . . . . . . . . . . . . -55°C to +150°C

S

Caution: CMOS devices have input static
protection but are susceptible to damage when
exposed to extremely high static electrical
charges.

. . . . . . . . . . . . . . 15 V

DD

OUTPUT

14

ENABLE

13

SUPPLY

DD

12

OUT

11

OUT

10

OUT

9

OUT

COMMON

Dwg. PP-014A

Data Sheet

5800

AND

26180.10B

5801

BiMOS II LATCHED DRIVERS

The UCN5800A/L and UCN5801A/EP/LW latched-input BiMOS
ICs merge high-current, high-voltage outputs with CMOS logic. The
CMOS input section consists of 4 or 8 data (‘D’ type) latches with
associated common CLEAR, STROBE, and OUTPUT ENABLE
circuitry. The power outputs are bipolar npn Darlingtons. This merged
technology provides versatile, flexible interface. These BiMOS power
interface ICs greatly benefit the simplification of computer or micropro­cessor I/O. The UCN5800A and UCN5800L each contain four latched
drivers; the UCN5801A, UCN5801EP, and UCN5801LW contain eight
latched drivers.

1

2

3

4

The UCN5800A/L and UCN5801A/EP/LW supersede the original
BiMOS latched-input driver ICs (UCN4400A and UCN4801A). These
second-generation devices are capable of much higher data input
rates and will typically operate at better than 5 MHz with a 5 V logic
supply. Circuit operation at 12 V affords substantial improvement over
the 5 MHz figure.

The CMOS inputs are compatible with standard CMOS and NMOS
circuits. TTL circuits may mandate the addition of input pull-up resis­tors. The bipolar Darlington outputs are suitable for directly driving
many peripheral/power loads: relays, lamps, solenoids, small dc
motors, etc.

All devices have open-collector outputs and integral diodes for
inductive load transient suppression. The output transistors are
capable of sinking 500 mA and will withstand at least 50 V in the OFF
state. Because of limitations on package power dissipation, the simul­taneous operation of all drivers at maximum rated current can only be
accomplished by a reduction in duty cycle. Outputs may be paralleled
for higher load current capability.

The UCN5800A is furnished in a standard 14-pin DIP; the
UCN5800L and UCN5801LW in surface-mountable SOICs; the
UCN5801A in a 22-pin DIP with 0.400" (10.16 mm) row centers; the
UCN5801EP in a 28-lead PLCC.

FEATURES

■ To 4.4 MHz Data Input Rate

■ High-Voltage,

High-Current Outputs

■ Output Transient Protection

■ Internal Pull-Down Resistors

■ Low-Power CMOS Latches

■ Automotive Capable

■ CMOS, NMOS,

TTL Compatible Inputs

Always order by complete part number, e.g., UCN5801EP .

5800

AND

5801

BiMOS II
LA TCHED DRIVERS

SUPPLY

FUNCTIONAL BLOCK DIAGRAM

V

DD

IN

N

STROBE

CLEAR

OUTPUT ENABLE

COMMON MOS CONTROL

TYPICAL INPUT CIRCUIT

V

DD

TYPICAL MOS LATCH TYPICAL BIPOLAR DRIVE

2.5

22-PIN DIP, R = 50°C/W

28-LEAD PLCC, R = 55°C/W

14-PIN DIP, R = 60°C/W

2.0

COMMON

OUT

GROUND

Dwg. FP-016-1

θJA
θJA

θJA

N

IN

Dwg. EP-010-4A

115 Northeast Cutoff, Box 15036
Worcester, Massachusetts 01615-0036 (508) 853-5000

Copyright © 1985, 1997, Allegro MicroSystems, Inc.

1.5

1.0

0.5

ALLOWABLE PACKAGE POWER DISSIPATION IN WATTS

0

25

14-LEAD SOIC, R = 95°C/W

50 75 100 125 150

AMBIENT TEMPERATURE IN °C

24-LEAD SOIC, R = 68°C/W

θJA

θJA

Dwg. GP-023-1

5800

AND

5801

BiMOS II
LA TCHED DRIVERS

ELECTRICAL CHARACTERISTICS at T

= +25°C, V

A

= 5 V (unless otherwise noted).

DD

Limits

Characteristic Symbol Test Conditions Min. Typ. Max. Units

Output Leakage Current I

Collector-Emitter V

CEX

CE(SAT)

Saturation Voltage

Input Voltage V

Input Resistance r

Supply Current I

IN(0)

V

IN(1)

IN

DD(ON)

(Each

Stage)

I

DD(OFF)

(Total)

Clamp Diode I

Leakage Current

Clamp Diode Forward Voltage V

NOTE: Operation of these devices with standard TTL or DTL may require the use of appropriate pull-up resistors to ensure a minimum logic “1”.

R

F

VCE = 50 V, TA = +25°C——50µA

= 50 V, TA = +70°C — — 100 µA

V

CE

IC = 100 mA — 0.9 1.1 V

= 200 mA — 1.1 1.3 V

I

C

= 350 mA, VDD = 7.0 V — 1.3 1.6 V

I

C

— — 1.0 V

VDD = 12 V 10.5 — — V

= 10 V 8.5 — — V

V

DD

= 5.0 V (See Note) 3.5 — — V

V

DD

VDD = 12 V 50 200 — kΩ

= 10 V 50 300 — kΩ

V

DD

= 5.0 V 50 600 — kΩ

V

DD

VDD = 12 V, Outputs Open — 1.0 2.0 mA

= 10 V, Outputs Open — 0.9 1.7 mA

V

DD

= 5.0 V, Outputs Open — 0.7 1.0 mA

V

DD

VDD = 12 V, Outputs Open, Inputs = 0 V — — 200 µA

= 5.0 V, Outputs Open, Inputs = 0 V — 50 100 µA

V

DD

VR = 50 V, TA = +25°C——50µA

= 50 V, TA = +70°C — — 100 µA

V

R

IF = 350 mA — 1.7 2.0 V

UCN5801EP

(additional pinout diagrams

are on next page)

CLEAR

STROBE

2

4

3

ST

NC

5

IN

1

IN

6

2

IN

7

3

IN

8

4

9

IN

5

IN

10

6

11

IN

7

NC

LATCHES

NC

NC

13

14

12

8

IN

1

C

15

GROUND

SUPPLY

OUTPUT

ENABLE

28

27

DD

OE

V

K

NC

16

17

COMMON

CLAMP DIODE

26

NC

25

OUT

1

24

OUT

2

23

OUT

3

22

OUT

4

21

OUT

5

20

OUT

6

19

OUT

7

18

8

OUT

Dwg. PP-037

5800

AND

5801

BiMOS II
LA TCHED DRIVERS

CLEAR

STROBE

IN

IN

IN

IN

IN

IN

IN

IN

GROUND

UCN5801A

OUTPUT

1

221

3

1

4

2

5

3

6

4

7

7

5

8

6

9

7

10

8

11

LATCHES

22

ENABLE

V

SUPPLY

DD

20

OUT

1

19

OUT

2

18

OUT

3

17

OUT

4

16

OUT

5

15

OUT

6

OUT

14

7

13

OUT

8

12

COMMON

Dwg. PP-015

UCN5801LW

CLEAR

STROBE

OUTPUT
ENABLE

IN

N

OUT

A

C

BC

G

D

N

B

E

F

C

A

B

G

E

Dwg. No. A-10,895A

TIMING CONDITIONS

(Logic Levels are VDD and Ground)

A.Minimum Data Active Time Before Strobe Enabled

(Data Set-Up Time) ..........................................................50 ns

B.Minimum Data Active Time After Strobe Disabled

(Data Hold Time) ..............................................................50 ns

C.Minimum Strobe Pulse Width ..................................................125 ns

D.Typical Time Between Strobe Activation and

Output On to Off Transition ............................................500 ns

E. Minimum Time Between Strobe Activation and

Output Off to On Transition ............................................500 ns

F. Minimum Clear Pulse Width....................................................300 ns

CLEAR

STROBE

IN

IN

IN

IN

IN

IN

GROUND

CONNECTION

DD

OUTPUT

24

ENABLE

SUPPLY

22

OUT

21

OUT

20

OUT

19

OUT

18

OUT

17

OUT

OUT

16

15

OUT

14

COMMON
NO

13

CONNECTION

1

2

3

4

5

6

7

8

Dwg. PP-015-1

1

223

3

IN

1

4

2

5

3

6

4

7

7

IN

NO

5

8

6

9

7

10

8

11

12

LATCHES

NC

V

NC

G.Minimum Data Pulse Width ..................................................... 225 ns

Information present at an input is transferred to its latch when the
STROBE is high. A high CLEAR input will set all latches to the output
OFF condition regardless of the data or STROBE input levels. A high
OUTPUT ENABLE will set all outputs to the OFF condition, regardless
of any other input conditions. When the OUTPUT ENABLE is low, the
outputs depend on the state of their respective latches.

TRUTH TABLE

OUT

IN

OUTPUT

N

STROBE CLEAR ENABLE t-1 t

0100XOFF
1100XON
XX1XXOFF
X X X 1 X OFF
X 0 0 0 ON ON
X 0 0 0 OFF OFF

X = irrelevant.
t-1 = previous output state.
t = present output state.

115 Northeast Cutoff, Box 15036
Worcester, Massachusetts 01615-0036 (508) 853-5000

N