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TL/H/10554

ADC1241 Self-Calibrating 12-Bit Plus Sign mP-Compatible A/D Converter with Sample-and-Hold

November 1994

ADC1241 Self-Calibrating 12-Bit Plus

Sign mP-Compatible A/D Converter

with Sample-and-Hold

General Description

The ADC1241 is a CMOS 12-bit plus sign successive ap-

proximation analog-to-digital converter. On request, the

ADC1241 goes through a self-calibration cycle that adjusts

positive linearity and full-scale errors to less than

(/2 LSB

each and zero error to less than

1 LSB. The ADC1241

also has the ability to go through an Auto-Zero cycle that

corrects the zero error during every conversion.

The analog input to the ADC1241 is tracked and held by the

internal circuitry, and therefore does not require an external

sample-and-hold. A unipolar analog input voltage range (0V

5V) or a bipolar range (

5V to

5V) can be accom-

modated with

5V supplies.

The 13-bit word on the outputs of the ADC1241 gives a 2’s

complement representation of negative numbers. The digi-

tal inputs and outputs are compatible with TTL or CMOS

logic levels.

Applications

Digital Signal Processing

High Resolution Process Control

Instrumentation

Key Specifications

Resolution 12 Bits plus Sign

Conversion Time 13.8ms (max)

Linearity Error

(/2 LSB (

0.0122%) (max)

Zero Error

1LSB (max)

Positive Full Scale Error

1LSB (max)

Power Consumption 70mW (max)

Features

Self-calibrating

Internal sample-and-hold

Bipolar input range with

5V supplies and single

5V reference

No missing codes over temperature

TTL/MOS input/output compatible

Standard 28-pin DIP

TRI-STATE

is a registered trademark of National Semiconductor Corporation.

Simplified Schematic

TL/H/10554–1

Connection Diagram

Dual-In-Line Package

TL/H/10554–2

Top View

Order Number ADC1241CMJ,

ADC1241CMJ/883, ADC1241BIJ or

ADC1241CIJ

See NS Package Number J28A

1995 National Semiconductor Corporation RRD-B30M115/Printed in U. S. A.

1 2 3 4 5 6 ... 13 14

Summary of Contents

Page 1 - TL/H/10554–2

TL/H/10554ADC1241 Self-Calibrating 12-Bit Plus Sign mP-Compatible A/D Converter with Sample-and-HoldNovember 1994ADC1241 Self-Calibrating 12-Bit PlusS

Page 2

1.0 Pin DescriptionsDVCC(28),The digital and analog positive power supplyAVCC(4)pins. The digital and analog power supplyvoltage range of the ADC1241

Page 3

2.0 Functional Description (Continued)Digital Control InputsA/D FunctionCS WR RD CAL AZßß 1 1 1 Start Conversion without Auto-Zeroß 1 ß 1 1 Read Conve

Page 4 - AC Electrical Characteristics

3.0 Analog Considerations (Continued)TL/H/10554–18FIGURE 3. Analog Input Equivalent CircuitFor absolute accuracy, where the analog input varies be-twe

Page 5 - (Continued)

4.0 Dynamic PerformanceMany applications require the A/D converter to digitize acsignals, but the standard dc integral and differential nonlin-earity

Page 6 - TL/H/10554–8

ADC1241 Self-Calibrating 12-Bit Plus Sign mP-Compatible A/D Converter with Sample-and-HoldPhysical Dimensions inches (millimeters)Order Number ADC1241

Page 7 - TL/H/10554–21

Absolute Maximum Ratings (Notes1&2)If Military/Aerospace specified devices are required,please contact the National Semiconductor SalesOffice/Dist

Page 8 - Timing Diagrams

Digital and DC Electrical CharacteristicsThe following specifications apply for VCCeDVCCeAVCCea5.0V, Vbeb5.0V, VREFea5.0V, and fCLKe2.0 MHzunless othe

Page 9 - Timing Diagrams (Continued)

AC Electrical CharacteristicsThe following specifications apply for DVCCeAVCCea5.0V, Vbeb5.0V, tretfe20 ns unless otherwise specified.Boldface limits

Page 10 - 2.0 Functional Description

AC Electrical Characteristics (Continued)Note 7: A diode exists between AVCCand DVCCas shown below.TL/H/10554–4To guarantee accuracy, it is required t

Page 11 - Figure 2

AC Electrical Characteristics (Continued)TL/H/10554–6FIGURE 1b. Simplified Error Curve vs Output Code Without Auto-Cal or Auto-Zero CyclesTL/H/10554–7

Page 12 - Figure 3

Typical Performance Characteristics (Continued)Linearity Error vs VREFFrequencyLinearity Error vs ClockAmbient TemperatureFull Scale Error Change vsIn

Page 13 - 4.0 Dynamic Performance

Test CircuitsTL/H/10554–9TL/H/10554–11TL/H/10554–10TL/H/10554–12FIGURE 2. TRI-STATE Test Circuits and WaveformsTiming DiagramsAuto-Cal Cycle (CSe1, WR

Page 14

Timing Diagrams (Continued)Normal Conversion with Auto-Zero (CALe1, AZe0)TL/H/10554–14Normal Conversion without Auto-Zero (CALe1, AZe1)TL/H/10554–159

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