TC7135CBU713 Microchip Technology, TC7135CBU713 Datasheet - Page 6

TC7135CBU713

Manufacturer Part Number

TC7135CBU713

Description

IC ADC 4 1/2DGT 64-MQFP

Manufacturer

Microchip Technology

Datasheet

1.TC7135CPI.pdf (28 pages)

Specifications of TC7135CBU713

Display Type

LED

Configuration

7 Segment

Interface

BCD

Digits Or Characters

A/D 4.5 Digits

Current - Supply

1mA

Voltage - Supply

4 V ~ 6 V

Operating Temperature

0°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

64-MQFP, 64-PQFP

Lead Free Status / RoHS Status

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TC7135

3.0

All pin designations refer to the 28-pin PDIP package.

3.1

The TC7135 is a dual-slope, integrating A/D converter.

An understanding of the dual-slope conversion

technique will aid in following the detailed TC7135

operational theory.

The conventional dual-slope converter measurement

cycle has two distinct phases:

The input signal being converted is integrated for a

fixed time period. Time is measured by counting clock

pulses. An opposite polarity constant reference voltage

is then integrated until the integrator output voltage

returns to zero. The reference integration time is

directly proportional to the input signal.

In a simple dual-slope converter, a complete

conversion requires the integrator output to “ramp-up”

and “ramp-down”.

A simple mathematical equation relates the input

signal, reference voltage and integration time:

EQUATION 3-1:

For a constant V

EQUATION 3-2:

TABLE 3-1:

DS21460D-page 6

Conversion Cycle Phase

System Zero

Input Signal Integration

Reference Voltage Integration

Integrator Output Zero

* Assumes a positive polarity input signal. SW

Where:

Input signal integration.

Reference voltage integration (de-integration).

DEINT

REF

----------------------- -

INT

DETAILED DESCRIPTION

Dual-Slope Conversion Principles

= Reference voltage

= Signal integration time (fixed)

= Reference voltage integration time

INT

(variable)

∫

INTERNAL ANALOG GATE STATUS

INT

------------------------------- -

T ( )DT

REF

INT

DEINT

Closed

------------------------------- -

—

REF

INT

DEINT

INT

Closed*

would be closed for a negative input signal.

—

Closed

—

The dual-slope converter accuracy is unrelated to the

integrating resistor and capacitor values, as long as

they are stable during a measurement cycle. An

inherent benefit is noise immunity. Noise spikes are

integrated, or averaged, to zero during the integration

periods.

Integrated ADCs are immune to the large conversion

errors that plague successive approximation converters

in high-noise environments (see

FIGURE 3-1:

3.2

The TC7135 incorporates a system zero phase and

integrator output voltage zero phase to the normal two-

phase dual-slope measurement cycle. Reduced

system errors, fewer calibration steps and a shorter

overrange recovery time result.

The TC7135 measurement cycle contains four phases:

Internal analog gate status for each phase is shown in

Figure

Analog Input

Signal

Voltage

System zero.

Analog input signal integration.

Reference voltage integration.

Integrator output zero.

REF

Integrate

Closed

3-1.

Signal

Fixed

Time

Operational Theory

—

Polarity Control

Variable

Reference

Integrate

Time

Closed

—

Display

Switch

Drive

Integrator

Basic Dual-Slope Converter.

Closed

Control

—

Phase

≈

1/2 V

REF

Figure

Comparator

REF

Reference Figures

Control

Logic

3-1).

Figure 3-2

Figure 3-3

Figure 3-4

Figure 3-5

Counter

Clock

TC7135CBU713 Microchip Technology, TC7135CBU713 Datasheet - Page 6

TC7135CBU713

Specifications of TC7135CBU713

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