MMC2107 Datasheet, PDF(498/618 Page) –

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MMC2107 Datasheet, PDF (498/618 Pages) –

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Freescale Semiconductor, Inc.

Queued Analog-to-Digital Converter (QADC)

In Figure 18-54, RF, RSRC and CF comprise the external filter circuit. CP

is the internal parasitic capacitor. CSamp is the capacitor array used to

sample and hold the input voltage. VI is an internal voltage source used

to provide charge to Csamp during sample phase.

The following paragraphs provide a simplified description of the

interaction between the QADC and the userâs external circuitry. This

circuitry is assumed to be a simple RC low-pass filter passing a signal

from a source to the QADC input pin. These simplifying assumptions are

made:

â¢ The external capacitor is perfect (no leakage, no significant

dielectric absorption characteristics, etc.)

â¢ All parasitic capacitance associated with the input pin is included

in the value of the external capacitor.

â¢ Inductance is ignored.

â¢ The "on" resistance of the internal switches is 0 ohms and the "off"

resistance is infinite.

18.11.7.1 Settling Time for the External Circuit

The values for RSRC, RF, and CF in the user's external circuitry

determine the length of time required to charge CF to the source voltage

level (VSRC). At time t = 0, Vsrc changes in Figure 18-54 while S1 is

open, disconnecting the internal circuitry from the external circuitry.

Assume that the initial voltage across CF is 0. As CF charges, the voltage

across it is determined by the equation, where t is the total charge time:

VCF = VSRC (1 âeât/(RF + RSRC) CF)

As t approaches infinity, VCF will equal VSRC. (This assumes no internal

leakage.) With 10-bit resolution, 1/2 of a count is equal to 1/2048

full-scale value. Assuming worst case (VSRC = full scale), Table 18-16

shows the required time for CF to charge to within 1/2 of a count of the

actual source voltage during 10-bit conversions. Table 18-16 is based

on the RC network in Figure 18-54.

NOTE: The following times are completely independent of the A/D converter

architecture (assuming the QADC is not affecting the charging).

Technical Data

498

Queued Analog-to-Digital Converter (QADC)

For More Information On This Product,

Go to: www.freescale.com

MMC2107 â Rev. 2.0

MOTOROLA

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