Motorola MC144111P, MC144110DW, MC144110P, MC144111DW Datasheet

MC144110•MC144111MOTOROLA

1

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CMOS LSI

The MC144110 and MC144111 are low–cost 6–bit D/A converters with serial
interface ports to provide communication with CMOS microprocessors and
microcomputers. The MC144110 contains six static D/A converters; the
MC144111 contains four converters.

Due to a unique feature of these DACs, the user is permitted easy scaling of
the analog outputs of a system. Over a 5 to 15 V supply range, these DACs may
be directly interfaced to CMOS MPUs operating at 5 V.

• Direct R–2R Network Outputs

• Buffered Emitter–Follower Outputs

• Serial Data Input

• Digital Data Output Facilitates Cascading

• Direct Interface to CMOS µP

• Wide Operating Voltage Range: 4.5 to 15 V

• Wide Operating Temperature Range: 0 to 85°C

• Software Information is Contained in Document M68HC11RM/AD

BLOCK DIAGRAM

*Transparent Latch

D

in

CLK

ENB

D
C Q

*

C
D

6–BIT SHIFT REGISTER

HEX LATCH

HEX BUFFER (INVERTING)

D

out

Qn

OUTRnOUT

R R R R R

2R 2R 2R 2R 2R 2R

R1 OUT

V

DD

Q1 OUT

2R

C

Order this document

by MC144110/D

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SEMICONDUCTOR TECHNICAL DATA



P SUFFIX

PLASTIC DIP

CASE 707

DW SUFFIX

SOG PACKAGE

CASE 751D



ORDERING INFORMATION

MC144110P Plastic DIP
MC144110DW SOG Package

P SUFFIX

PLASTIC DIP

CASE 646

DW SUFFIX

SOG PACKAGE

CASE 751G

MC144110

MC144111

MC144111P Plastic DIP
MC144111DW SOG Package

18

1

20

1

14

1

16

1

 Motorola, Inc. 1995

REV 1
8/95

MC144110•MC144111 MOTOROLA
2

PIN ASSIGNMENTS

MC144110P

R2 Out

R1 Out

Q1 Out

D

in

V

SS

ENB

R3 Out

Q3 Out

Q2 Out Q6 Out

R6 Out

D

out

V

DD

CLK

Q4 Out

R4 Out

Q5 Out

R5 Out

14

15

16

17

18

10

11

12

13

5

4

3

2

1

9

8

7

6

11

12

13

14

8

9

105

4

3

2

1

7

6

13

14

15

16

9

10

11

125

4

3

2

1

8

7

6

NC

5

4

3

2

1

10

9

8

7

6

14

15

16

17

18

19

20

11

12

13

MC144110DW

MC144111P MC144111DW

NC

R2 Out

R1 Out

Q1 Out

D

in

V

SS

ENB

R3 Out

Q3 Out

Q2 Out

Q6 Out

R6 Out

D

out

V

DD

CLK

Q4 Out

R4 Out

Q5 Out

R5 Out

R2 Out

R1 Out

Q1 Out

D

in

V

SS

ENB

Q2 Out

Q4 Out

R4 Out

D

out

V

DD

CLK

Q3 Out

R3 Out

NC

R2 Out

R1 Out

Q1 Out

D

in

V

SS

ENB

Q2 Out

Q4 Out

R4 Out

D

out

V

DD

CLK

Q3 Out

R3 Out

NC

NC = NO CONNECTION

MC144110•MC144111MOTOROLA

3

MAXIMUM RATINGS* (Voltages referenced to V

SS

)

Parameter

Symbol

Value

Unit

DC Supply Voltage

V

DD

– 0.5 to + 18

V

Input Voltage, All Inputs

V

in

– 0.5 to VDD + 0.5

V

DC Input Current, per Pin

I

± 10

mA

Power Dissipation (Per Output)

TA = 70°C, MC144110

MC144111

TA = 85°C, MC144110

MC144111

P

OH

30
50
10
20

mW

Power Dissipation (Per Package)

TA = 70°C, MC144110

MC144111

TA = 85°C, MC144110

MC144111

P

D

100
150

25
50

mW

Storage Temperature Range

T

stg

– 65 to + 150

°C

*Maximum Ratings are those values beyond which damage to the device may occur.

ELECTRICAL CHARACTERISTICS (Voltages referenced to V

SS

, TA = 0 to 85°C unless otherwise indicated)

Symbol

Parameter Test Conditions V

DD

Min Max Unit

V

IH

High–Level Input Voltage (Din, ENB, CLK) 5

10
15

3.0

3.5
4

—
—
—

V

V

IL

Low–Level Input Voltage (Din, ENB, CLK) 5

10
15

—
—
—

0.8

0.8

0.8

V

I

OH

High–Level Output Current (D

out

) V

out

= VDD – 0.5 V 5 – 200 — µA

I

OL

Low–Level Output Current (D

out

) V

out

= 0.5 V 5 200 — µA

I

DD

Quiescent Supply Current MC144110

MC144111

I

out

= 0 µA 15

15

—
—

12

8

mA

I

in

Input Leakage Current (Din, ENB, CLK) Vin = VDD or 0 V 15 — ± 1 µA

V

nonl

Nonlinearity Voltage (Rn Out) See Figure 1 5

10
15

—
—
—

100
200
300

mV

V

step

Step Size (Rn Out) See Figure 2 5

10
15

19
39
58

137
274
411

mV

V

offset

Offset Voltage from V

SS

Din = $00, See Figure 1 — — 1 LSB

I

E

Emitter Leakage Current VRn

Out

= 0 V 15 — 10 µA

h

FE

DC Current Gain IE = 0.1 to 10.0 mA

TA = 25°C

— 40 — —

V

BE

Base–to–Emitter Voltage Drop IE = 1.0 mA — 0.4 0.7 V

This device contains protection circuitry to
guard against damage due to high static
voltages or electric fields; however, it is ad­vised that precautions be taken to avoid
application of voltage higher than maximum
rated voltages to this high–impedance circuit.
For proper operation it is recommended that
Vin and V

out

be constrained to the range VSS ≤

(Vin or V

out

) ≤VDD.

Unused inputs must always be tied to an
appropriate logic voltage level (e.g., either V

SS

or VDD).