TLC1549C_14 Datasheet, PDF(14/18 Page) Texas Instruments – 10-BIT ANALOG-TO-DIGITAL CONVERTERS WITH SERIAL CONTROL

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TLC1549C_14 Datasheet, PDF (14/18 Pages) Texas Instruments – 10-BIT ANALOG-TO-DIGITAL CONVERTERS WITH SERIAL CONTROL

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TLC1549C, TLC1549I, TLC1549M

10-BIT ANALOG-TO-DIGITAL CONVERTERS

WITH SERIAL CONTROL

SLAS059C â DECEMBER 1992 â REVISED MARCH 1995

APPLICATION INFORMATION

simplified analog input analysis

Using the equivalent circuit in Figure 14, the time required to charge the analog input capacitance from 0 V to

VS within 1/2 LSB can be derived as follows:

+ Ç Å Ç The capacitance charging voltage is given by

VC VS 1âeâtc RtCi

(1)

where

Rt = Rs + ri

The final voltage to 1/2 LSB is given by

VC (1/2 LSB) = VS â (VS /2048)

(2)

* Ç Å Ç + Ç Å Ç Equating equation 1 to equation 2 and solving for time tc gives

VS VS 2048 VS 1âeâtc RtCi

(3)

and

tc (1/2 LSB) = Rt Ã Ci Ã ln(2048)

(4)

Therefore, with the values given the time for the analog input signal to settle is

tc (1/2 LSB) = (Rs + 1 kâ¦) Ã 60 pF Ã ln(2048)

(5)

This time must be less than the converter sample time shown in the timing diagrams.

Driving Sourceâ

TLC1549

1 kâ¦ MAX

50 pF MAX

VI = Input Voltage at ANALOG IN

VS = External Driving Source Voltage

Rs = Source Resistance

ri = Input Resistance

Ci = Input Capacitance

â Driving source requirements:

â¢ Noise and distortion for the source must be equivalent to the

resolution of the converter.

â¢ Rs must be real at the input frequency.

Figure 14. Equivalent Input Circuit Including the Driving Source

â¢ POST OFFICE BOX 655303 DALLAS, TEXAS 75265

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