Table 14-5. adc dual- and single-edge modes -16, Maxq7667 user’s guide, Table 14-5. adc dual- and single-edge modes – Maxim Integrated MAXQ7667 User Manual

Page 248

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14-16

MAXQ7667 User’s Guide

Table 14-5. ADC Dual- and Single-Edge Modes

ADC DUAL-

MODE

(SARDUL)

ADC CONVERSION

SOURCE

(SARS[2:0])

ADC CONVERSION

TRIGGER

ADC CONVERSION DESCRIPTION

000 (Timer 0)

001 (Timer 1)

010 (Timer 2)

100 (ADCCTL)

Rising Edge of Conversion Source

• Sets T/H into track (acquisition) mode.

• Track duration is under user control.

• If ADC is in auto shutdown, a minimum of 2.5µs (1µs for power-up and 1.5µs for

acquisition) is required.

• If ADC is not in auto shutdown, a minimum of 1.5µs acquisition delay is

required.

Falling Edge of ADCCTL

Sets T/H into hold (conversion) mode.

• Then SAR conversion executes (13 ADC clock cycles).

101

(Inverted ADCCTL)

Falling Edge of ADCCTL

• Sets T/H into track mode.

• Track duration is under user control.

• If ADC is in auto shutdown, a minimum of 2.5µs (1µs for power-up and 1.5µs for

acquisition) is required.

• If ADC is not in auto shutdown, a minimum of 1.5µs acquisition delay is

required.

Rising Edge of ADCCTL

• Sets T/H into hold (conversion) mode.

• Then SAR conversion executes (13 ADC clock cycles).

110

(Continuous)

Write 110 to

SARS[2:0]

Write 110 to SARS[2:0]

• If in auto shutdown, logic requires 8 cycles to power up.

• Sets T/H into track mode.

• ADC control logic provides the required track duration.

• T/H placed in hold after 3 clock cycles.

• Then SAR conversion executes (13 ADC clock cycles).

Conversion continuously repeated every 16 ADC clock cycles.

1

(Dual-Edge

Mode)

111

(Start/Busy Bit)

(This mode works

exactly as the single-

edge mode.)

Write 1 to SARBY

(Start/Busy Bit)

Write 1 to SARBY (Start/Busy Bit)

• Sets T/H into track mode.

• ADC control logic provides the required track duration composed of power-up delay

(10 cycles), acquisition delay (3 cycles), and settling delay.

• If ADC is in auto shutdown, T/H placed in hold after 11 clock cycles.

• If ADC is not in auto shutdown, T/H placed in hold immediately.

• Then SAR conversion executes (13 ADC clock cycles).

000 (Timer 0)

001 (Timer 1)

010 (Timer 2)

100 (ADCCTL)

Falling Edge of Conversion Source

• Sets T/H into track mode.

• ADC control logic provides the required track duration composed of power-up

delay (10 cycles), acquisition delay (3 cycles), and settling delay.

• If ADC is in auto shutdown, T/H placed in hold after 11 clock cycles.

• If ADC is not in auto shutdown, T/H placed in hold immediately.

• Then SAR conversion executes (13 ADC clock cycles).

0

(Single-Edge

Mode)

101

(Inverted ADCCTL)

Rising Edge of ADCCTL

• Sets T/H into track mode.

• ADC control logic provides the required track duration composed of power-up

delay (10 cycles), acquisition delay (3 cycles), and settling delay.

• If ADC is in auto shutdown, T/H placed in hold after 11 clock cycles.

• If ADC is not in auto shutdown, T/H placed in hold immediately.

• Then SAR conversion executes (13 ADC clock cycles).

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