PIC16LF1946_13 Datasheet, PDF(331/478 Page) Microchip Technology – 64-Pin Flash-Based, 8-Bit CMOS Microcontrollers with LCD Driver and nanoWatt XLP Technology

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PIC16LF1946_13 Datasheet, PDF (331/478 Pages) Microchip Technology – 64-Pin Flash-Based, 8-Bit CMOS Microcontrollers with LCD Driver and nanoWatt XLP Technology

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26.2.4.2 Timer1

To select Timer1 as the timer resource for the CPS

module, set the TMR1CS<1:0> of the T1CON register

to â11â. When Timer1 is chosen as the timer resource,

the capacitive sensing oscillator will be the clock

source for Timer1. Because the Timer1 module has a

gate control, developing a time base for the frequency

measurement can be simplified by using the Timer0

overflow flag.

It is recommend that the Timer0 overflow flag, in

conjunction with the Toggle mode of the Timer1 Gate, be

used to develop the fixed time base required by the soft-

ware portion of the CPS module. Refer to Section 21.11

âRegister Definitions: Timer1 Controlâ for additional

information.

TABLE 26-2: TIMER1 ENABLE FUNCTION

TMR1ON TMR1GE Timer1 Operation

0

0

Off

0

1

Off

1

0

On

1

1

Count Enabled by input

26.2.5 SOFTWARE CONTROL

The software portion of the CPS module is required to

determine the change in frequency of the capacitive

sensing oscillator. This is accomplished by the

following:

â¢ Setting a fixed time base to acquire counts on

Timer0 or Timer1.

â¢ Establishing the nominal frequency for the

capacitive sensing oscillator.

â¢ Establishing the reduced frequency for the capac-

itive sensing oscillator due to an additional capac-

itive load.

â¢ Set the frequency threshold.

26.2.5.1 Nominal Frequency

(No Capacitive Load)

To determine the nominal frequency of the capacitive

sensing oscillator:

â¢ Remove any extra capacitive load on the selected

CPSx pin.

â¢ At the start of the fixed time base, clear the timer

resource.

â¢ At the end of the fixed time base save the value in

the timer resource.

The value of the timer resource is the number of

oscillations of the capacitive sensing oscillator for the

given time base. The frequency of the capacitive

sensing oscillator is equal to the number of counts on

in the timer divided by the period of the fixed time base.

PIC16(L)F1946/47

26.2.5.2 Reduced Frequency (additional

capacitive load)

The extra capacitive load will cause the frequency of the

capacitive sensing oscillator to decrease. To determine

the reduced frequency of the capacitive sensing

oscillator:

â¢ Add a typical capacitive load on the selected

CPSx pin.

â¢ Use the same fixed time base as the nominal

frequency measurement.

â¢ At the start of the fixed time base, clear the timer

resource.

â¢ At the end of the fixed time base save the value in

the timer resource.

The value of the timer resource is the number of oscil-

lations of the capacitive sensing oscillator with an addi-

tional capacitive load. The frequency of the capacitive

sensing oscillator is equal to the number of counts on

in the timer divided by the period of the fixed time base.

This frequency should be less than the value obtained

during the nominal frequency measurement.

26.2.5.3 Frequency Threshold

The frequency threshold should be placed midway

between the value of nominal frequency and the

reduced frequency of the capacitive sensing oscillator.

Refer to Application Note AN1103, âSoftware Handling

for Capacitive Sensingâ (DS01103) for more detailed

information on the software required for CPS module.

Note: For more information on general capacitive

sensing refer to Application Notes:

â¢ AN1101, âIntroduction to Capacitive

Sensingâ (DS01101)

â¢ AN1102, âLayout and Physical

Design Guidelines for Capacitive

Sensingâ (DS01102)

ï£ 2010-2012 Microchip Technology Inc.

DS41414D-page 331

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