TC7107CPL Microchip Technology, TC7107CPL Datasheet - Page 8

TC7107CPL

Manufacturer Part Number

TC7107CPL

Description

IC ADC 3 1/2DGT LED DVR 40-DIP

Manufacturer

Microchip Technology

Datasheets

1.TC7107CPL.pdf (34 pages)

2.TC7107CPL.pdf (26 pages)

Specifications of TC7107CPL

Package / Case

40-DIP (0.600", 15.24mm)

Display Type

LED

Configuration

7 Segment

Digits Or Characters

A/D 3.5 Digits

Current - Supply

800µA

Voltage - Supply

Operating Temperature

0°C ~ 70°C

Mounting Type

Through Hole

Architecture

Dual Slope

Input Type

Voltage

Maximum Power Dissipation

1230 mW

Maximum Operating Temperature

+ 70 C

Mounting Style

Through Hole

Minimum Operating Temperature

0 C

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Interface

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

158-1129
158-1129

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

TC7107CPL

Manufacturer:

FSC

Quantity:

340

Current page: 8 of 34
Download datasheet (483Kb)

TC7106/A/TC7107/A

3.0

(All Pin designations refer to 40-Pin PDIP.)

3.1

The TC7106A and TC7107A are dual slope, integrating

Analog-to-Digital Converters. An understanding of the

dual slope conversion technique will aid in following the

detailed operation theory.

The conventional dual slope converter measurement

cycle has two distinct phases:

• Input Signal Integration

• Reference Voltage Integration (De-integration)

The input signal being converted is integrated for a

fixed time period (T

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 (T

Figure

FIGURE 3-1:

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:

DS21455D-page 8

Where:

Analog

Signal

Voltage

Input

3-1.

REF

Integrate

DETAILED DESCRIPTION

Dual Slope Conversion Principles

+/–

Signal

Fixed

Time

Reference voltage

Signal integration time (fixed)

Reference voltage integration time

(variable).

------- -

Polarity Control

Variable

Reference

Integrate

Time

∫

DISPLAY

Switch

Driver

Integrator

). Time is measured by counting

–

Basic Dual Slope Converter.

t ( )dt

Phase

Control

µ V

1/2

REF

–

Comparator

REF

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

Control

Logic

Counter

). See

For a constant V

EQUATION 3-2:

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. Integrating ADCs are immune to the large

conversion

approximation converters in high noise environments.

Interfering signals with frequency components at

multiples of the averaging period will be attenuated.

Integrating ADCs commonly operate with the signal

integration period set to a multiple of the 50/60Hz

power line period (see

FIGURE 3-2:

Dual Slope Converter.

Where:

OSC

INT

0.1/T

INT

errors

Clock Frequency at Pin 38

Full Scale Input Voltage

Integrating Resistor

Desired Full Scale Integrator Output

Swing

(

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

4000

Normal Mode Rejection of

Input Frequency

Figure

= V

that

)

⎛

⎝

1/T

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

T = Measured Period

3-2).

OSC

INT

plague

⎞ V

⎠

⎛

⎝

-----------

INT

⎞

⎠

successive

10/T

TC7107CPL Microchip Technology, TC7107CPL Datasheet - Page 8

TC7107CPL

Specifications of TC7107CPL

Available stocks

Related parts for TC7107CPL