PIC24FJ256GB110-I Datasheet, PDF(238/328 Page) Microchip Technology – 64/80/100-Pin, 16-Bit Flash Microcontrollers with USB On-The-Go (OTG)

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PIC24FJ256GB110-I Datasheet, PDF (238/328 Pages) Microchip Technology – 64/80/100-Pin, 16-Bit Flash Microcontrollers with USB On-The-Go (OTG)

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19.1 RTCC Module Registers

The RTCC module registers are organized into three

categories:

â¢ RTCC Control Registers

â¢ RTCC Value Registers

â¢ Alarm Value Registers

19.1.1 REGISTER MAPPING

To limit the register interface, the RTCC Timer and

Alarm Time registers are accessed through corre-

sponding register pointers. The RTCC Value register

window (RTCVALH and RTCVALL) uses the RTCPTR

bits (RCFGCAL<9:8>) to select the desired Timer

register pair (see Table 19-1).

By writing the RTCVALH byte, the RTCC Pointer value,

RTCPTR<1:0> bits, decrement by one until they reach

â00â. Once they reach â00â, the MINUTES and

SECONDS value will be accessible through RTCVALH

and RTCVALL until the pointer value is manually

changed.

TABLE 19-1: RTCVAL REGISTER MAPPING

RTCPTR

<1:0>

RTCC Value Register Window

RTCVAL<15:8> RTCVAL<7:0>

00

MINUTES

SECONDS

01

WEEKDAY

HOURS

10

MONTH

DAY

11

â

YEAR

The Alarm Value register window (ALRMVALH and

ALRMVALL) uses the ALRMPTR bits

(ALCFGRPT<9:8>) to select the desired Alarm register

pair (see Table 19-2).

By writing the ALRMVALH byte, the Alarm Pointer

value, ALRMPTR<1:0> bits, decrement by one until

they reach â00â. Once they reach â00â, the ALRMMIN

and ALRMSEC value will be accessible through

ALRMVALH and ALRMVALL until the pointer value is

manually changed.

TABLE 19-2: ALRMVAL REGISTER

MAPPING

ALRMPTR

Alarm Value Register Window

<1:0>

ALRMVAL<15:8> ALRMVAL<7:0>

00

ALRMMIN

ALRMSEC

01

ALRMWD

ALRMHR

10

ALRMMNTH

ALRMDAY

11

â

â

Considering that the 16-bit core does not distinguish

between 8-bit and 16-bit read operations, the user must

be aware that when reading either the ALRMVALH or

ALRMVALL bytes will decrement the ALRMPTR<1:0>

value. The same applies to the RTCVALH or RTCVALL

bytes with the RTCPTR<1:0> being decremented.

Note: This only applies to read operations and

not write operations.

19.1.2 WRITE LOCK

In order to perform a write to any of the RTCC Timer

registers, the RTCWREN bit (RCFGCAL<13>) must be

set (refer to Example 19-1).

Note:

To avoid accidental writes to the timer, it is

recommended that the RTCWREN bit

(RCFGCAL<13>) is kept clear at any

other time. For the RTCWREN bit to be

set, there is only 1 instruction cycle time

window allowed between the unlock

sequence and the setting of RTCWREN;

therefore, it is recommended that code

follow the procedure in Example 19-1.

For applications written in C, the unlock

sequence should be implemented using

in-line assembly.

EXAMPLE 19-1: SETTING THE RTCWREN BIT

asm volatile("disi #5");

asm volatile("mov #0x55, w7");

asm volatile("mov w7, _NVMKEY");

asm volatile("mov #0xAA, w8");

asm volatile("mov w8, _NVMKEY");

asm volatile("bset _RCFGCAL, #13");

//set the RTCWREN bit

DS39897B-page 236

Preliminary

Â© 2008 Microchip Technology Inc.

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