PIC18F24J11 MICROCHIP [Microchip Technology], PIC18F24J11 Datasheet - Page 242

PIC18F24J11

Manufacturer Part Number

PIC18F24J11

Description

28/44-Pin, Low-Power, High-Performance USB Microcontrollers with nanoWatt XLP Technology

Manufacturer

MICROCHIP [Microchip Technology]

Datasheet

1.PIC18F24J11.pdf (536 pages)

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TABLE 17-3:

The Alarm Value register window (ALRMVALH and

ALRMVALL) uses the ALRMPTR bits (ALRMCFG<1:0>)

to select the desired Alarm register pair.

By reading or writing to the ALRMVALH register, the

Alarm Pointer value, ALRMPTR<1:0>, decrements

by 1 until it reaches ‘00’. Once it reaches ‘00’, the

ALRMMIN and ALRMSEC value will be accessible

through ALRMVALH and ALRMVALL until the pointer

value is manually changed.

TABLE 17-4:

17.2.9

The real-time crystal input can be calibrated using the

periodic auto-adjust feature. When properly calibrated,

the RTCC can provide an error of less than three

seconds per month.

To perform this calibration, find the number of error

clock pulses and store the value in the lower half of the

RTCCAL register. The 8-bit, signed value – loaded into

RTCCAL – is multiplied by ‘4’ and will either be added

or subtracted from the RTCC timer, once every minute.

DS39932D-page 242

RTCPTR<1:0>

ALRMPTR<1:0>

CALIBRATION

RTCVALH<15:8> RTCVALL<7:0>

RTCVALH AND RTCVALL

ALRMVAL REGISTER

MAPPING

ALRMVALH<15:8> ALRMVALL<7:0>

RTCC Value Register Window

WEEKDAY

MINUTES

ALRMMNTH

MONTH

Alarm Value Register Window

ALRMMIN

ALRMWD

—

SECONDS

HOURS

ALRMSEC

ALRMDAY

ALRMHR

YEAR

DAY

—

To calibrate the RTCC module:

EQUATION 17-1:

Writes to the RTCCAL register should occur only when

the timer is turned off, or immediately after the rising

edge of the seconds pulse.

Note:

(Ideal Frequency (32,768) – Measured Frequency) *

60 = Error Clocks per Minute

Use another timer resource on the device to find

the error of the 32.768 kHz crystal.

Convert the number of error clock pulses per

minute (see

• If the oscillator is faster than ideal (negative

• If the oscillator is slower than ideal (positive

Load the RTCCAL register with the correct

value.

result from step 2), the RTCCALL register value

needs to be negative. This causes the specified

number of clock pulses to be subtracted from

the timer counter once every minute.

result from step 2), the RTCCALL register value

needs to be positive. This causes the specified

number of clock pulses to be added to the timer

counter once every minute.

In determining the crystal’s error value, it

is the user’s responsibility to include the

crystal’s initial error from drift due to

temperature or crystal aging.

Equation

CONVERTING ERROR

CLOCK PULSES

 2011 Microchip Technology Inc.

17-1).

PIC18F24J11 MICROCHIP [Microchip Technology], PIC18F24J11 Datasheet - Page 242

PIC18F24J11

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