ADC12062 National Semiconductor, ADC12062 Datasheet - Page 11

ADC12062

Manufacturer Part Number

ADC12062

Description

12-Bit/ 1 MHz/ 75 mW A/D Converter

Manufacturer

National Semiconductor

Datasheet

1.ADC12062.pdf (20 pages)

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Functional Description

tap points between ( )V

(

ror of up to 256 LSBs If the first flash conversion deter-

mines that the input voltage is between ( )V

(( )V

will be corrected by subtracting ‘‘1’’ resulting in a corrected

value of ‘‘01’’ for the first two MSBs If the first flash conver-

sion determines that the input voltage is between ( )V

code is unchanged

The results of the first flash and the Voltage Estimator’s

output are given to the factory-programmed on-chip

EEPROM which returns a correction code corresponding to

the error of the MSB ladder at that tap This code is convert-

ed to a voltage by the Correction DAC To generate the next

four bits SW1 is moved to position 2 so the ladder voltage

and the correction voltage are subtracted from the input

voltage The remainder is applied to the sixteen flash con-

verters and compared with the 16 tap points from the LSB

ladder

The result of this second conversion is accurate to 10 bits

and describes the input remainder as a voltage between two

tap points (V

last two bits the voltage across the ladder resistor (between

voltage divider shown in Figure 5 The divider also creates

6 LSBs below V

used by the digital error correction SW1 is moved to posi-

tion 3 and the remainder is compared with these 16 new

voltages The output is combined with the results of the

LSB 2) and ( )V

and V

REF

) is divided up into 4 equal parts by the capacitive

will automatically cancel a Voltage Estimator er-

LSB 2) the Voltage Estimator’s output code

and V

and 6 LSBs above V

REF

) on the LSB ladder To resolve the

REF

the voltage estimator’s output

and ( )V

(Continued)

REF

to provide overlap

FIGURE 5 The Capacitive Voltage Divider

This overlap of

REF

and

REF

Voltage Estimator first flash and second flash to yield the

final 12-bit result

By using the same sixteen comparators for all three flash

conversions the number of comparators needed by the

multi-step converter is significantly reduced when compared

to standard multi-step techniques

Applications Information

1 0 MODES OF OPERATION

The ADC12062 has two interface modes An interrupt read

mode and a high speed mode Figures 1 and 2 show the

timing diagrams for these interfaces

In order to clearly show the relationship between S H CS

RD and OE the control logic decoding section of the

ADC12062 is shown in Figure 6

Interrupt Interface

As shown in Figure 1 the falling edge of S H holds the input

voltage and initiates a conversion At the end of the conver-

sion the EOC output goes high and the INT output goes

low indicating that the conversion results are latched and

may be read by pulling RD low The falling edge of RD re-

sets the INT line Note that CS must be low to enable S H

or RD

High Speed Interface

This is the fastest interface shown in Figure 2 Here the

output data is always present on the databus and the INT to

RD delay is eliminated

TL H 11490 – 15

ADC12062 National Semiconductor, ADC12062 Datasheet - Page 11

ADC12062

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