PIC16F737-I Datasheet, PDF(159/276 Page) Microchip Technology – 28/40/44-Pin, 8-Bit CMOS Flash Microcontrollers with 10-Bit A/D and nanoWatt Technology

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PIC16F737-I Datasheet, PDF (159/276 Pages) Microchip Technology – 28/40/44-Pin, 8-Bit CMOS Flash Microcontrollers with 10-Bit A/D and nanoWatt Technology

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PIC16F7X7

12.2 Selecting and Configuring

Automatic Acquisition Time

The ADCON2 register allows the user to select an

acquisition time that occurs each time the GO/DONE

bit is set.

When the GO/DONE bit is set, sampling is stopped and

a conversion begins. The user is responsible for ensur-

ing the required acquisition time has passed between

selecting the desired input channel and setting the

GO/DONE bit. This occurs when the ACQT2:ACQT0

bits (ADCON2<5:3>) remain in their Reset state (â000â)

and is compatible with devices that do not offer

programmable acquisition times.

If desired, the ACQT bits can be set to select a

programmable acquisition time for the A/D module.

When the GO/DONE bit is set, the A/D module con-

tinues to sample the input for the selected acquisition

time, then automatically begins a conversion. Since the

acquisition time is programmed, there may be no need

to wait for an acquisition time between selecting a

channel and setting the GO/DONE bit.

In either case, when the conversion is completed, the

GO/DONE bit is cleared, the ADIF flag is set and the

A/D begins sampling the currently selected channel

again. If an acquisition time is programmed, there is

nothing to indicate if the acquisition time has ended or

if the conversion has begun.

12.3 Selecting the A/D Conversion

Clock

The A/D conversion time per bit is defined as TAD. The

A/D conversion requires a minimum 12 TAD per 10-bit

conversion. The source of the A/D conversion clock is

software selected. The seven possible options for TAD

are:

â¢ 2 TOSC

â¢ 4 TOSC

â¢ 8 TOSC

â¢ 16 TOSC

â¢ 32 TOSC

â¢ 64 TOSC

â¢ Internal A/D module, RC oscillator (2-6 Âµs)

For correct A/D conversions, the A/D conversion clock

(TAD) must be selected to ensure a minimum TAD time

of 1.6 Âµs.

Table 12-1 shows the resultant TAD times derived from

the device operating frequencies and the A/D clock

source selected.

TABLE 12-1: TAD vs. MAXIMUM DEVICE OPERATING FREQUENCIES (STANDARD DEVICES (F))

Operation

AD Clock Source (TAD)

ADCS2:ADCS1:ADCS0

Maximum Device Frequency

Note 1:

2:

3:

2 TOSC

000

1.25 MHz

4 TOSC

100

2.5 MHz

8 TOSC

001

5 MHz

16 TOSC

101

10 MHz

32 TOSC

010

20 MHz

64 TOSC

RC(1,2,3)

110

20 MHz

x11

(Note 1)

The RC source has a typical TAD time of 4 Âµs but can vary between 2-6 Âµs.

When the device frequencies are greater than 1 MHz, the RC A/D conversion clock source is only

recommended for Sleep operation.

For extended voltage devices (LF), please refer to Section 18.0 âElectrical Characteristicsâ.

ï£© 2004 Microchip Technology Inc.

DS30498C-page 157

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