ADS7835E Burr-Brown Corporation, ADS7835E Datasheet - Page 7

ADS7835E

Manufacturer Part Number

ADS7835E

Description

12-Bit/ High-Speed/ Low Power Sampling ANALOG-TO-DIGITAL CONVERTER

Manufacturer

Burr-Brown Corporation

Datasheet

1.ADS7835E.pdf (13 pages)

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THEORY OF OPERATION

The ADS7835 is a high speed Successive Approximation

internal 2.5V bandgap reference. The architecture is based

on capacitive redistribution which inherently includes a S/H

function. The converter is fabricated on a 0.6

process. See Figure 1 for the basic operating circuit for the

ADS7835.

The ADS7835 requires an external clock to run the conver-

sion process. This clock can vary between 200kHz (12.5kHz

throughput) and 8MHz (500kHz throughput). The duty cycle

of the clock is unimportant as long as the minimum HIGH

and LOW times are at least 50ns and the clock period is at

least 125ns. The minimum clock frequency is set by the

leakage on the capacitors internal to the ADS7835.

The analog input to the ADS7835 is single-ended. The

ADS7835 provides a true bipolar input where the input will

swing below ground. When using the internal 2.5V refer-

ence the input range is 2.5V (within 20mV for the low

grade and

external reference the input range is –V

ADS7835 will accept an external reference with a range of

2.3V to 2.9V.

The digital result of the conversion is provided in a serial

manner, synchronous to the CLK input. The provided result

is Most Significant Bit (MSB) first and represents the result

of the conversion currently in progress—there is no pipeline

delay. By properly controlling the CONV and CLK inputs,

it is possible to obtain the digital result Least Significant Bit

(LSB) first.

ANALOG INPUT

The analog input (pin 2) of the ADS7835 is connected to a

2k x 2k voltage divider. This divider allows the ADS7835

to accept bipolar inputs while operating from a single 5V

supply. The divider is connected to the output buffer of the

internal +2.5V supply. When the input is at +full-scale

(+2.5V), the voltage at the input to the CDAC (Capacitive

Digital-to-Analog Converter) is also +2.5V resulting in

negligible input current. When the input is at –full-scale

(–2.5V), the voltage at the input of the CDAC is 0V

resulting in 1.25mA of current being sourced out of the

input pin. It is recommended that a buffer be placed

between the analog input signal and the input of the ADS7835.

The input impedance of the ADS7835 depends on whether

FIGURE 1. Basic Operation of the ADS7835.

12mV for the high grade). When using an

2.2 F

Analog Input

0.1 F

2.5V

REF

to +V

REF

GND

CMOS

REF

. The

ADS7835

CONV

DATA

CLK

the device is in the sample or hold mode. When sampling,

the input has a 4k

source of the analog input voltage must be able to charge the

input impedance (typically 25pF || 1k

level within the same period. This can be as little as 350ns

in some operating modes. When the converter is in the hold

mode, the input impedance switches to approximately 2k

to ground.

Care must be taken regarding the input voltage on the A

pin. The input signal should remain within –5.3V and +5.3V

(with a 5V supply) to avoid damaging the converter.

REFERENCE

The reference voltage on the V

scale range of the analog input. The ADS7835 can operate

with a reference in the range of 2.3V to 2.9V, for a full-scale

range of 2.3V to 2.9V.

The voltage at the V

buffer drives the CDAC portion of the converter. This is

important because the buffer greatly reduces the dynamic

load placed on the reference source. However, the voltage at

conversion process. These can be reduced by carefully

bypassing the V

that follow.

INTERNAL REFERENCE

The ADS7835 contains an on-board 2.5V reference, result-

ing in a –2.5V to +2.5V input range on the analog input. The

Specification table gives the various specifications for the

internal reference. This reference can be used to supply a

small amount of source current to an external load, but the

load should be static. Due to the internal 10k

dynamic load will cause variations in the reference voltage,

and will dramatically affect the conversion result. Note that

even a static load will reduce the internal reference voltage

seen at the buffer input. The amount of reduction depends on

the load and the actual value of the internal “10k ” resistor.

The value of this resistor can vary by 30%.

The V

placed as close as possible to the ADS7835 package. In

addition, a 2.2 F tantalum capacitor should be used in

parallel with the ceramic capacitor. Placement of this ca-

pacitor, while not critical to performance, should be placed

as close to the package as possible.

REF

+5V

will still contain some noise and glitches from the SAR

REF

Serial Clock

Serial Data

Convert Start

0.1 F

pin should be bypassed with a 0.1 F capacitor

REF

10 F

pin to ground as outlined in the sections

input impedance to the reference. The

REF

from

Microcontroller

or DSP

pin is internally buffered and this

ADS7835

REF

pin directly sets the full-

to a 12-bit settling

resistor, a

ADS7835E Burr-Brown Corporation, ADS7835E Datasheet - Page 7

ADS7835E

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