ADS7818PG4 Datasheet, PDF(11/20 Page) Texas Instruments – 12-Bit High Speed Low Power Sampling ANALOG-TO-DIGITAL CONVERTER

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ADS7818PG4 Datasheet, PDF (11/20 Pages) Texas Instruments – 12-Bit High Speed Low Power Sampling ANALOG-TO-DIGITAL CONVERTER

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Table II offers a look at the two different modes of operation

and the difference in power consumption.

fSAMPLE

500kHz

250kHz

100kHz

POWER WITH

CLK = 16 â¢ fSAMPLE

11mW

10mW

9mW

POWER WITH

CLK = 8MHz

11mW

7mW

4mW

TABLE II. Power Consumption versus CLK Input.

LSB FIRST DATA TIMING

Figure 5 shows a method to transmit the digital result in a

least-significant bit (LSB) format. This mode is entered

when CONV is pulled HIGH during the conversion (before

the end of the 12th clock) and then pulled LOW during the

13th clock (when D0, the LSB, is being transmitted). The

next 11 clocks then repeat the serial data, but in an LSB first

format. The converter enters the power-down mode during

the 13th clock and resumes normal operation when CONV

goes HIGH.

SHORT-CYCLE TIMING

The conversion currently in progress can be âshort-cycledâ

with the technique shown in Figure 6. This term means that

the conversion will terminate immediately, before all 12-bits

have been decided. This can be a very useful feature when

a resolution of 12-bits is not needed. An example would be

when the converter is being used to monitor an input voltage

until some condition is met. At that time, the full resolution

of the converter would then be used. Short-cycling the

conversion can result in a faster conversion rate or lower

power dissipation.

There are several very important items shown in Figure 6.

The conversion currently in progress is terminated when

CONV is taken HIGH during the conversion and then taken

LOW prior to tCKCH before the start of the 13th clock cycle.

Note that if CONV goes LOW during the 13th clock cycle,

then the LSB first mode will be entered (Figure 5). Also,

when CONV goes LOW, the DATA output immediately

transitions to high impedance. If the output bit that is present

during that clock period is needed, CONV must not go LOW

until the bit has been properly latched into the receiving

logic.

DATA FORMAT

The ADS7818 output data is in straight binary format as

shown in Figure 7. This figure shows the ideal output code

for the given input voltage and does not include the effects

of offset, gain, or noise.

CONV

CLK

DATA

(1)

tCVL

tCVH

D11

(MSB)

D10

tCVDD

SAMPLE/HOLD

MODE

SAMPLE

HOLD

INTERNAL

CONVERSION

STATE

IDLE

POWER MODE

CONVERSION IN PROGRESS

FULL POWER

tCVPD

IDLE

LOW POWER

NOTE: (1) The conversion currently in progress can be stopped by pulling CONV LOW during the conversion. This must occur at

least tCKCS prior to the start of the 13th clock cycle. The DATA output pin will tri-state and the device will enter the power-down

mode when CONV is pulled LOW.

FIGURE 6. Short-cycle Timing.

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ADS7818

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