ADS7832 Burr-Brown Corporation, ADS7832 Datasheet - Page 12

ADS7832

Manufacturer Part Number

ADS7832

Description

Autocalibrating/ 4-Channel/ 12-Bit ANALOG-TO-DIGITAL CONVERTER

Manufacturer

Burr-Brown Corporation

Datasheet

1.ADS7832.pdf (15 pages)

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CONTROL LINES

Table IV shows the functions of the various control lines on

the ADS7832. The use of standard CS, RD and WR control

signals simplifies use with most microprocessors. At the

same time, flexibility is assured by availability of status

information and control functions, both through the SFR and

directly on pins.

INSTALLATION

INPUT IMPEDANCE

ADS7832 has a very high input impedance (input bias

current over temperature is 100nA max), and a low 50pF

input capacitance. To ensure a conversion accurate to 12

bits, the analog source must be able to charge the 50pF and

settle within the first five clock cycles after a conversion is

initiated. During this time, the input is also very sensitive to

noise at the analog input, since it could be injected into the

capacitor array.

In many applications, a simple passive low-pass filter as

shown in Figure 10a can be used to improve signal quality.

In this case, the source impedance needs to be less than 5k

to keep the induced offset errors below 1/2LSB, and to meet

the acquisition time of five clock cycles. The values in

Figure 10a meet these requirements, and will maintain the

TABLE IV. Control Line Functions.

FIGURE 7. Timing for Initiating Conversion in Sample/Hold Control Mode (D2 in SFR HIGH).

(Pin 26)

SHC

BUSY

CLK

ADS7832

0 1

SFR

HBE

Sample

CAL

0 1

BUSY

Hold

OPERATION

Initiates calibration cycle. (See SFR section for alternate use as Sample/

Hold Control Mode input.)

Conversion or calibration in process. Inhibits new conversion from starting.

None. Outputs in Hi-Z State.

Initiates conversion.

Low byte conversion results output on data bus.

High byte conversion results output on data bus.

Write to SFR and rising edge on WR initiates conversion.

Contents of SFR output on data bus.

Reserved for factory use.

Reserved for factory use. (Unpredictable data on data bus.)

full power bandwidth of the system. For higher source

impedances, a buffer like the one in Figure 10b should be

used.

INPUT PROTECTION

The input signal range must not exceed V

more than 0.3V.

The analog inputs are internally clamped to V

damage to the ADS7832, the current that can flow into the

inputs must be limited to 20mA. One approach is to use an

external resistor in series with the input filter resistor. For

example, a 1k input resistor allows an overvoltage to 20V

without damage.

REFERENCE INPUTS

A 10 F tantalum capacitor is recommended between V

and V

tors should be located as close as possible to the ADS7832

to reduce dynamic errors, since the reference provides pack-

ets of current as the successive approximation steps are

carried out.

fied with V

function with V

1V.

REF

Convert

+ must not exceed V

REF

– to insure low source impedance. These capaci-

REF

+ = 5V and V

REF

+ as low as 4.5V and V

. Although the accuracy is speci-

REF

– = 0V, the converter can

Sample

REF

– as high as

. To prevent

or V

REF

ADS7832 Burr-Brown Corporation, ADS7832 Datasheet - Page 12

ADS7832

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