PIC16F87-E Datasheet, PDF(121/228 Page) Microchip Technology – 18/20/28-Pin Enhan lashMicrocontrollers with nanoWatt Technology

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PIC16F87-E Datasheet, PDF (121/228 Pages) Microchip Technology – 18/20/28-Pin Enhan lashMicrocontrollers with nanoWatt Technology

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PIC16F87/88

12.4 Configuring Analog Port Pins

The ADCON1, ANSEL, TRISA and TRISB registers

control the operation of the A/D port pins. The port pins

that are desired as analog inputs must have their

corresponding TRIS bits set (input). If the TRIS bit is

cleared (output), the digital output level (VOH or VOL)

will be converted.

The A/D operation is independent of the state of the

CHS<2:0> bits and the TRIS bits.

Note 1: When reading the Port register, all pins

configured as analog input channels will

read as cleared (a low level). Pins config-

ured as digital inputs will convert an

analog input. Analog levels on a digitally

configured input will not affect the

conversion accuracy.

2: Analog levels on any pin that is defined as

a digital input (including the RA4:RA0 and

RB7:RB6 pins), may cause the input

buffer to consume current out of the

device specification.

12.5 A/D Conversions

Clearing the GO/DONE bit during a conversion will

abort the current conversion. The A/D Result register

pair will NOT be updated with the partially completed

A/D conversion sample. That is, the ADRESH:ADRESL

registers will continue to contain the value of the last

completed conversion (or the last value written to the

ADRESH:ADRESL registers). After the A/D conversion

is aborted, a 2 TAD wait is required before the next

acquisition is started. After this 2 TAD wait, acquisition

on the selected channel is automatically started. The

GO/DONE bit can then be set to start the conversion.

In Figure 12-3, after the GO/DONE bit is set, the first

time segment has a minimum of TCY and a maximum of

TAD.

Note: The GO/DONE bit should NOT be set in

the same instruction that turns on the A/D.

12.5.1 A/D RESULT REGISTERS

The ADRESH:ADRESL register pair is the location

where the 10-bit A/D result is loaded at the completion

of the A/D conversion. This register pair is 16 bits wide.

The A/D module gives the flexibility to left or right justify

the 10-bit result in the 16-bit result register. The A/D

Format Select bit (ADFM) controls this justification.

Figure 12-4 shows the operation of the A/D result

justification. The extra bits are loaded with â0âs. When

an A/D result will not overwrite these locations (A/D

disable), these registers may be used as two general

purpose 8-bit registers.

FIGURE 12-3:

A/D CONVERSION TAD CYCLES

TCY to TAD TAD1 TAD2 TAD3 TAD4 TAD5 TAD6 TAD7 TAD8 TAD9 TAD10 TAD11

b9 b8 b7 b6 b5 b4 b3 b2 b1 b0

Conversion starts

Holding capacitor is disconnected from analog input (typically 100 ns)

Set GO/DONE bit

ADRES is loaded,

GO/DONE bit is cleared,

ADIF bit is set,

holding capacitor is connected to analog input

FIGURE 12-4:

A/D RESULT JUSTIFICATION

ADFM = 1

10-bit Result

ADFM = 0

7

2107

0

0000 00

ADRESH

ADRESL

10-bit Result

Right Justified

7

0765

0

0000 00

ADRESH

10-bit Result

Left Justified

ADRESL

ï£© 2005 Microchip Technology Inc.

DS30487C-page 119

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