NSC ADC0858CMJ-QML, ADC0858CIVX, ADC0858CIN, ADC0858BIVX, ADC0858BIV Datasheet

TL/H/11021

ADC0851 and ADC0858 8-Bit Analog Data Acquisition and Monitoring Systems

January 1995

ADC0851 and ADC0858 8-Bit Analog Data
Acquisition and Monitoring Systems

General Description

The ADC0851 and ADC0858 are 2 and 8 input analog data
acquisition systems. They can function as conventional mul­tiple input A/D converters, automatic scanning A/D convert­ers or programmable analog ‘‘watchdog’’ systems. In
‘‘watchdog’’ mode they monitor analog inputs and deter­mine whether these inputs are inside or outside user pro­grammed window limits. This monitoring process takes
place independent of the host processor. When any input
falls outside of its programmed window limits, an interrupt is
automatically generated which flags the processor; the chip
can then be interrogated as to exactly which channels
crossed which limits.

The advantage of this approach is that its frees the proces­sor from having to frequently monitor analog variables. It
can consequently save having to insert many A/D subrou­tine calls throughout real time application code. In control
systems where many variables are continually being moni­tored this can significantly free up the processor, especially
if the variables are DC or slow varying signals.

The Auto A/D conversion feature allows the device to scan
through selected input channels, performing an A/D conver­sion on each channel without the need to select a new
channel after each conversion.

Applications

Y

Instrumentation monitoring and process control

Y

Digitizing automotive sensor signals

Y

Embedded diagnostics

Key Specifications

Y

Resolution 8 Bits

Y

Total error

g

(/2 LSB org1 LSB

Y

Low power 50 mW

Y

Conversion time 18 ms/Channel

Y

Limit comparison time 2 ms/Limit

Features

Y

Watchdog operation signals processor when any
channel is outside user programmed window limits

Y

Frees microprocessor from continually monitoring
analog signals and simplifies applications software

Y

2 (ADC0851) or 8 (ADC0858) analog input channels

Y

Single ended or differential input pairs

Y

COM input for DC offsetting of input voltage

Y

4 (ADC0851) and 16 (ADC0858), 8-bit programmable
limits

Y

NSC MICROWIRETMinterface

Y

Power fail detection

Y

Auto A/D conversion feature

Y

Single 5V supply

Y

Window limits are user programmable via serial inter­face

Simplified Block Diagram

TL/H/11021– 22

FIGURE 1

TRI-STATEÉis a registered trademark of National Semiconductor Corporation.
MICROWIRE

TM

is a trademark of National Semiconductor Corporation.

C

1995 National Semiconductor Corporation RRD-B30M75/Printed in U. S. A.

Connection Diagrams

ADC0851

2-Channel MUX

Dual-In-Line Package

TL/H/11021– 1

Top View

ADC0858

8-Channel MUX

Dual-In-Line Package

TL/H/11021– 2

Top View

ADC0851 PLCC Package

TL/H/11021– 3

Top View

ADC0858 PLCC Package

TL/H/11021– 4

Top View

Ordering Information

Industrial

Package

(

b

40§CsT

A

s

a

85§C)

ADC0851BIN, N16E, 16-Pin

ADC0851CIN Plastic DIP

ADC0858BIN, N20A, 20-Pin

ADC0858CIN Plastic DIP

ADC0851BIV, V20A, 20-Lead

ADC0851CIV PLCC

ADC0858BIV, V20A, 20-Lead

ADC0858CIV PLCC

Military

Package

(

b

55§CsT

A

s

a

125§C)

ADC0851CMJ/883 J16A, 16-Pin

Ceramic DIP

ADC0858CMJ/883 J20A, 20-Pin

Ceramic DIP

2

Absolute Maximum Ratings (Notes1&2)

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

Supply Voltage, V

CC

6.5V

Voltage at Logic and Analog

Inputs (Note 3)

b

0.3V to V

CC

a

0.3V

Input Current per Pin

g

5mA

Input Current per Package

g

20 mA

Storage Temperature

b

65§Ctoa150§C

Package Dissipation 500 mW

at T

A

ea

25§C (Board Mount) 800 mW

Lead Temperature (Soldering, 10 Sec.)

Dual-In-Line (Plastic)

a

260§C

Dual-In-Line (Ceramic)

a

300§C

ESD Susceptibility (Note 4) 2000V

Operating Ratings (Notes1&2)

Supply Voltage, V

CC

4.5V to 5.5V

Temperature Range T

MIN

s

T

A

s

T

MAX

ADC0858CMJ/883

b

55§CsT

A

s

a

125§C

ADC0851CMJ/883

b

55§CsT

A

s

a

125§C

ADC0858BIN, ADC0858CIN

b

40§CsT

A

s

a

85§C

ADC0851BIN, ADC0851CIN

b

40§CsT

A

s

a

85§C

ADC0858BIV, ADC0858CIV

b

40§CsT

A

s

a

85§C

ADC0851BIV, ADC0851CIV

b

40§CsT

A

s

a

85§C

DC Electrical Characteristics

The following specifications apply for V

CC

ea

5VDC,V

REF

ea

4.5 VDC, AGNDeDGNDe0V and f

OSC

e

1 MHz (R

ext

e

3.16 kX,C

ext

e

170 pF) unless otherwise specified. Boldface limits apply for T

A

e

T

J

e

T

MIN

to T

MAX

; all other limits apply

at T

A

e

T

J

ea

25§C.

Parameter Conditions

Typical Limit Units

(Note 5) (Note 6) (Limits)

CONVERTER AND MULTIPLEXER CHARACTERISTICS

Total Unadjusted Error (Note 7)

ADC0851/8/BIN, ADC0851/8/BIV

g

(/2 LSB (Max)

ADC0851/8/CIN, ADC0851/8/CMJ,

g

1 LSB (Max)

ADC0851/8/CIV

g

1 LSB (Max)

Comparator Offset

ADC0851/8/BIN, ADC0858BIV

g

2.5

g

10 mV (Max)

ADC0851/8/CIN, ADC0851/8/CMJ,

g

2.5

g

20 mV (Max)

ADC0858CIV

g

2.5

g

20 mV (Max)

V

REF

Input Resistance 6 3.5 kX (Min)

10 kX (Max)

Common Mode Input Voltage All MUX Inputs GNDb0.05 V (Min)
(Note 8) and COM Input V

CC

a

0.05 V (Max)

DC Common Mode Error DV

CM

eb

0.05V toa5.05V

g

1/16

g

1/4 LSB (Max)

Power Supply Sensitivity V

REF

e

4.75V

V

CC

e

5Vg5%

g

1/16

g

1/4 LSB (Max)

V

REF

e

4.5V

g

1/16

g

1/2

V

CC

e

5Vg10%

I

OFF

, On Channele5V

b

0.01

b

3 mA (Max)

Off Channel Off Channel

e

0V

Leakage Current

On Channele0V

a

0.01

a

3 mA (Max)

(Note 9)

Off Channel

e

5V

ION, On Channele5V

a

0.01

a

3 mA (Max)

On Channel Off Channel

e

0V

Leakage Current

On Channele0V

b

0.01

b

3 mA (Max)

(Note 9)

Off Channel

e

5V

3

DC Electrical Characteristics (Continued)

The following specifications apply for V

CC

ea

5VDC,V

REF

ea

4.5 VDC, AGNDeDGNDe0V and f

OSC

e

1 MHz (R

ext

e

3.16 kX,C

ext

e

170 pF) unless otherwise specified. Boldface limits apply for T

A

e

T

J

e

T

MIN

to T

MAX

; all other limits apply

at T

A

e

T

J

ea

25§C.

Parameter Conditions

Typical Limit Units

(Note 5) (Note 6) (Limits)

DIGITAL CHARACTERISTICS

Logic ‘‘1’’ Input V

CC

e

5.5V

2.2 V (Min)

Voltage, V

IH

Logic ‘‘0’’ Input V

CC

e

4.5V

0.8 V(Max)

Voltage, V

IL

Logic ‘‘1’’ Input V

IN

e

V

CC

0.005 3 mA (Max)

Current, I

IH

Logic ‘‘0’’ Input V

IN

e

0V

b

0.005

b

3 mA (Max)

Current, I

IL

Logic ‘‘1’’ Output V

CC

e

4.5V

Voltage, V

OH

I

OUT

eb

360 mA 2.4 V (Min)

(Except INT

)I

OUT

eb

10 mA 4.2 V (Min)

Logic ‘‘0’’ Output I

OUT

e

1.6 mA

0.4 V (Max)

Voltage, V

OL

V

CC

e

4.5V

TRI-STATEÉOutput CSeLogic ‘‘1’’ (5V)
Current (DO) V

OUT

e

0.4V

b

0.1

b

3 mA (Max)

V

OUT

e

5V 0.1 3 mA (Max)

I

SOURCE

V

OUT

Short to GND

b

14

b

6.5 mA (Min)

(Except INT

)

I

SINK

V

OUT

Short to V

CC

16 8 mA (Min)

Supply Current, I

CC

f

CLK

e

1 MHz 7 10 mA (Max)

ADC0851 or ADC0858 f

CLK

e

2 MHz 7.2 mA

(Note 10)

AC Electrical Characteristics

The following specifications apply for V

CC

ea

5VDC,V

REF

ea

4.5 VDC, AGNDeDGNDe0V, f

CLK

e

1 MHz, t

r

e

t

f

e

5 ns unless otherwise specified. Boldface limits apply for T

A

e

T

J

e

T

MIN

to T

MAX

; all other limits apply at T

A

e

T

J

e

25§C.

Symbol Parameter Conditions

Typical Limit Units

(Note 5) (Note 6) (Limits)

f

CLK

Data Clock Frequency 1 2 MHz (Max)

Clock Duty Cycle 40 % (Min)
(Note 11) 60 % (Max)

t

SET-UP

CS Falling Edge or
Data Input Valid to 30 70 ns (Min)
CLK Rising Edge

t

HOLD

Data Input Valid after

5 30 ns (Min)

CLK Rising Edge

t

PD1,tPD0

CLK Rising Edge to C

L

e

100 pF

80 200 ns (Max)

Output Data Valid

4

AC Electrical Characteristics (Continued)

The following specifications apply for V

CC

ea

5VDC,V

REF

ea

4.5 VDC, AGNDeDGNDe0V, f

CLK

e

1 MHz, t

r

e

t

f

e

5 ns unless otherwise specified. Boldface limits apply for T

A

e

T

J

e

T

MIN

to T

MAX

; all other limits apply at T

A

e

T

J

e

25§C.

Symbol Parameter Conditions

Typical Limit Units

(Note 5) (Note 6) (Limits)

t1H,t

0H

Rising Edge of CS to Ce100 pF, Re2k
Data Output Hi-Z (See TRI-STATE 90 200 ns (Max)

Test Circuits)

f

OSC

Oscillator Clock Freq. R

ext

e

3.16 kX
1

1.4 MHz (Max)

(Analog Timing) C

ext

e

170 pF 0.6 MHz (Min)

t

EOC

CS to End of OSC Clock
Conversion Delay Periods

1 Min
2 Max

t

Conv

Conversion Time OSC Clock

Periods

17 (Min)
18 (Max)

t

CS-INT

CS to Interrupt Delay 60 120 ns (Max)

C

IN

Capacitance of

5pF

Logic Input

C

OUT

Capacitance of

5pF

Logic Output

Note 1: Absolute Maximum Ratings indicate limits beyond which damage to the device may occur. Operating Ratings indicate conditions for which the device is
functional, but do not guarantee specific performance limits. For guaranteed specifications and test conditions, see the Electrical Characteristics. The guaranteed
specifications apply only for the test conditions listed. Some performance characteristics may degrade when the device is not operated under the listed test
conditions.

Note 2: All voltages are measured with respect to ground (AGND

e

DGNDe0V).

Note 3: All of the analog and digital input pins are internally diode clamped to the supply pins. Should the applied voltage at any pin exceed the power supply
voltage, the additional absolute value of current at that pin (caused by the forward biasing of the internal diodes) should be limited to 5 mA or less.

Note 4: Human body model, 100 pF discharged through a 1.5 kX resistor.

Note 5: Typical specifications are at

a

25§C and represent the most likely parametric norm.

Note 6: Tested limits are guaranteed to National’s AOQL (Average Outgoing Quality Level).

Note 7: Total unadjusted error includes comparator offset, ADC linearity and multiplexer error, and, is expressed in LSBs.

Note 8: Two on-chip diodes are tied to each analog input. The diodes will forward conduct for analog input voltages one diode drop below ground or one diode drop

above V

CC

. Care should be exercised when operating the device at low supply voltages (e.g., V

CC

e

4.5V) because high analog inputs (5V) can cause the input
diodes to conduct, especially at elevated temperatures. This will cause errors for analog inputs near full scale. The specification allows 50 mV forward bias of either
clamp diode. Thus as long as V

IN

or V

REF

does not exceed the supply voltage by more than 50 mV, the output code will be correct. To achieve an absolute 0 V

DC

to5VDCinput voltage range will therefore require a minimum supply voltage of 4.950 VDC.

Note 9: Leakage current is measured with the oscillator clock disabled.

Note 10: Measured supply current does not include the DAC ladder current.

Note 11: A 40% to 60% clock duty cycle range ensures proper operation at all clock frequencies.

5

Typical Performance Characteristics

Offset Error vs
Reference Voltage Reference Voltage

Linearity Error vs

vs Temperature

Total Unadjusted Error

vs Temperature

OSC Frequency

R

ext

and C

ext

OSC Frequency vs

TL/H/11021– 5

6

Test Circuits and Waveforms

t

1H

TL/H/11021– 6

t1H,C

L

e

10 pF

TL/H/11021– 8

t

0H

TL/H/11021– 7

t1H,C

L

e

10 pF

TL/H/11021– 9

Timing Diagrams

Data Input Timing

TL/H/11021– 10

Data Output Timing

TL/H/11021– 11

7

Timing Diagrams (Continued)

Watchdog Timing

TL/H/11021– 12

A/D Conversion Timing

TL/H/11021– 13

Timing Diagrams for ADC0851 and ADC0858

Read Power Flag after Power Up ADC0851/ADC0858

TL/H/11021– 14

8

Timing Diagrams for ADC0851 and ADC0858 (Continued)

TL/H/11021– 15

Write 1 Limit to ADC0851/ADC0858

TL/H/11021– 16

9

Timing Diagrams for ADC0851 and ADC0858 (Continued)

Write all Limits to ADC0851/ADC0858

TL/H/11021– 17

Read 1 Limit from ADC0851/ADC0858

TL/H/11021– 18

Read all Limits from ADC0851/ADC0858

TL/H/11021– 19

10

Timing Diagrams for ADC0851 and ADC0858 (Continued)

1 A/D Conversion ADC0851/ADC0858

TL/H/11021– 20

Auto A/D Conversion ADC0851/ADC0858

TL/H/11021– 21

11