ADC0816CJ National Semiconductor, ADC0816CJ Datasheet - Page 9

ADC0816CJ

Manufacturer Part Number

ADC0816CJ

Description

IC ADC 8BIT W/16CH MUX 40-DIP

Manufacturer

National Semiconductor

Datasheet

1.ADC0816CJ.pdf (14 pages)

Specifications of ADC0816CJ

Number Of Bits

Sampling Rate (per Second)

10k

Data Interface

Parallel

Number Of Converters

Power Dissipation (max)

875mW

Voltage Supply Source

Single Supply

Operating Temperature

-40°C ~ 85°C

Mounting Type

Through Hole

Package / Case

40-DIP (0.600", 15.24mm)

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Other names

*ADC0816CJ

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Applications Information

A good example of a ratiometric transducer is a potentiom-

eter used as a position sensor. The position of the wiper is di-

rectly proportional to the output voltage which is a ratio of the

full-scale voltage across it. Since the data is represented as

a proportion of full-scale, reference requirements are greatly

reduced, eliminating a large source of error and cost for

many applications. A major advantage of the ADC0816,

ADC0817 is that the input voltage range is equal to the sup-

ply range so the transducers can be connected directly

across the supply and their outputs connected directly into

the multiplexer inputs, ( Figure 9 ).

Ratiometric transducers such as potentiometers, strain

gauges, thermistor bridges, pressure transducers, etc., are

suitable for measuring proportional relationships; however,

many types of measurements must be referred to an abso-

lute standard such as voltage or current. This means a sys-

tem reference must be used which relates the full-scale volt-

age to the standard volt. For example, if V

5.12V, then the full-scale range is divided into 256 standard

steps. The smallest standard step is 1 LSB which is then 20

mV.

The ADC0816 needs less than a milliamp of supply current

so developing the supply from the reference is readily ac-

complished. In Figure 11 a ground references system is

shown which generates the supply from the reference. The

buffer shown can be an op amp of sufficient drive to supply

the millliamp of supply current and the desired bus drive, or

if a capacitive bus is driven by the outputs a large capacitor

will supply the transient supply current as seen in Figure 12 .

The LM301 is overcompensated to insure stability when

loaded by the 10 µF output capacitor.

FIGURE 9. Ratiometric Conversion System

(Continued)

= V

REF

2.0 RESISTOR LADDER LIMITATIONS

The voltages from the resistor ladder are compared to the

selected input 8 times in a conversion. These voltages are

coupled to the comparator via an analog switch tree which is

referenced to the supply. The voltages at the top, center and

bottom of the ladder must be controlled to maintain proper

operation.

The top of the ladder, Ref(+), should not be more positive

than the supply, and the bottom of the ladder, Ref(−), should

not be more negative than ground. The center of the ladder

voltage must also be near the center of the supply because

the analog switch tree changes from N-channel switches to

P-channel switches These limitations are automaticaly satis-

fied in ratiometric systems and can be easily met in ground

referenced systems.

Figure 10 shows a ground referenced system with a sepa-

rate supply and reference. In this system, the supply must be

trimmed to match the reference voltage. For instance, if a

5.12V reference is used, the supply should be adjusted to

the same voltage within 0.1V.

The top and bottom ladder voltages cannot exceed V

ground, respectively, but they can be symmetrically less than

age should always be near the center of the supply. The sen-

sitivity of the converter can be increased, (i.e., size of the

LSB steps decreased) by using a symmetrical reference sys-

tem. In Figure 13 , a 2.5V reference is symmetrically cen-

tered about V

resistors. This system with a 2.5V reference allows the LSB

to be half the size of the LSB in a 5V reference system.

and greater than ground. The center of the ladder volt-

/2 since the same current flows in identical

DS005277-11

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ADC0816CJ National Semiconductor, ADC0816CJ Datasheet - Page 9

ADC0816CJ

Specifications of ADC0816CJ

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