PIC16LF1508 Datasheet, PDF(137/384 Page) Microchip Technology – 20-Pin Flash, 8-Bit Microcontrollers with nanoWatt XLP Technology

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PIC16LF1508 Datasheet, PDF (137/384 Pages) Microchip Technology – 20-Pin Flash, 8-Bit Microcontrollers with nanoWatt XLP Technology

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PIC16(L)F1508/9

TABLE 15-1: ADC CLOCK PERIOD (TAD) VS. DEVICE OPERATING FREQUENCIES

ADC Clock Period (TAD)

Device Frequency (FOSC)

ADC

Clock Source

ADCS<2:0>

20 MHz

16 MHz

8 MHz

4 MHz

1 MHz

Fosc/2

Fosc/4

Fosc/8

Fosc/16

Fosc/32

Fosc/64

FRC

000

100 ns(2)

125 ns(2)

250 ns(2)

500 ns(2)

2.0 ïs

100

200 ns(2)

250 ns(2)

500 ns(2)

1.0 ïs

4.0 ïs

001

400 ns(2)

0.5 ïs(2)

1.0 ïs

2.0 ïs

8.0 ïs(3)

101

800 ns

1.0 ïs

2.0 ïs

4.0 ïs

16.0 ïs(3)

010

1.6 ïs

2.0 ïs

4.0 ïs

8.0 ïs(3)

32.0 ïs(3)

110

3.2 ïs

4.0 ïs

8.0 ïs(3)

16.0 ïs(3)

64.0 ïs(3)

x11

1.0-6.0 ïs(1,4)

1.0-6.0 ïs(1,4)

1.0-6.0 ïs(1,4)

1.0-6.0 ïs(1,4)

1.0-6.0 ïs(1,4)

Legend:

Note 1:

2:

3:

4:

Shaded cells are outside of recommended range.

The FRC source has a typical TAD time of 1.6 ïs for VDD.

These values violate the minimum required TAD time.

For faster conversion times, the selection of another clock source is recommended.

The ADC clock period (TAD) and total ADC conversion time can be minimized when the ADC clock is derived from the

system clock FOSC. However, the FRC clock source must be used when conversions are to be performed with the

device in Sleep mode.

FIGURE 15-2:

ANALOG-TO-DIGITAL CONVERSION TAD CYCLES

TCY - 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 bit

On the following cycle:

ADRESH:ADRESL is loaded, GO bit is cleared,

ADIF bit is set, holding capacitor is connected to analog input.

ï£ 2011 Microchip Technology Inc.

Preliminary

DS41609A-page 137

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