PIC18F4620-I/P Microchip Technology Inc., PIC18F4620-I/P Datasheet - Page 131

PIC18F4620-I/P

Manufacturer Part Number

PIC18F4620-I/P

Description

40 Pin, 64 KB Flash, 3968 RAM, 36 I/O

Manufacturer

Microchip Technology Inc.

Datasheet

1.PIC18F4620-IP.pdf (390 pages)

Specifications of PIC18F4620-I/P

A/d Inputs

13-Channel, 10-Bit

Comparators

Cpu Speed

10 MIPS

Eeprom Memory

1024 Bytes

Input Output

Interface

SPI/I2C/USART

Memory Type

Flash

Number Of Bits

Package Type

40-pin PDIP

Programmable Memory

64K Bytes

Ram Size

4K Bytes

Speed

40 MHz

Timers

1-8 bit, 3-16 bit

Voltage, Range

2-5.5 V

Lead Free Status / Rohs Status

RoHS Compliant part Electrostatic Device

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12.2

Timer1 can be configured for 16-bit reads and writes

(see Figure 12-2). When the RD16 control bit

(T1CON<7>) is set, the address for TMR1H is mapped

to a buffer register for the high byte of Timer1. A read

from TMR1L will load the contents of the high byte of

Timer1 into the Timer1 high byte buffer. This provides

the user with the ability to accurately read all 16 bits of

Timer1 without having to determine whether a read of

the high byte, followed by a read of the low byte, has

become invalid due to a rollover between reads.

A write to the high byte of Timer1 must also take place

through the TMR1H Buffer register. The Timer1 high

byte is updated with the contents of TMR1H when a

write occurs to TMR1L. This allows a user to write all

16 bits to both the high and low bytes of Timer1 at once.

The high byte of Timer1 is not directly readable or

writable in this mode. All reads and writes must take

place through the Timer1 High Byte Buffer register.

Writes to TMR1H do not clear the Timer1 prescaler.

The prescaler is only cleared on writes to TMR1L.

12.3

An on-chip crystal oscillator circuit is incorporated

between pins T1OSI (input) and T1OSO (amplifier

output). It is enabled by setting the Timer1 Oscillator

Enable bit, T1OSCEN (T1CON<3>). The oscillator is a

low-power circuit rated for 32 kHz crystals. It will

continue to run during all power managed modes. The

circuit for a typical LP oscillator is shown in Figure 12-3.

Table 12-1 shows the capacitor selection for the Timer1

oscillator.

The user must provide a software time delay to ensure

proper start-up of the Timer1 oscillator.

FIGURE 12-3:

 2004 Microchip Technology Inc.

Note:

Timer1 16-Bit Read/Write Mode

Timer1 Oscillator

27 pF

See the Notes with Table 12-1 for additional

information about capacitor selection.

32.768 kHz

XTAL

EXTERNAL COMPONENTS

FOR THE TIMER1

LP OSCILLATOR

T1OSI

T1OSO

PIC18FXXXX

PIC18F2525/2620/4525/4620

Preliminary

TABLE 12-1:

12.3.1

The Timer1 oscillator is also available as a clock source

in power managed modes. By setting the clock select

bits, SCS1:SCS0 (OSCCON<1:0>), to ‘01’, the device

switches to SEC_RUN mode; both the CPU and

peripherals are clocked from the Timer1 oscillator. If the

IDLEN bit (OSCCON<7>) is cleared and a SLEEP

instruction is executed, the device enters SEC_IDLE

mode. Additional details are available in Section 3.0

“Power Managed Modes”.

Whenever the Timer1 oscillator is providing the clock

source, the Timer1 system clock status flag, T1RUN

(T1CON<6>), is set. This can be used to determine the

controller’s current clocking mode. It can also indicate

the clock source being currently used by the Fail-Safe

Clock Monitor. If the Clock Monitor is enabled and the

Timer1 oscillator fails while providing the clock, polling

the T1RUN bit will indicate whether the clock is being

provided by the Timer1 oscillator or another source.

12.3.2

The Timer1 oscillator can operate at two distinct levels

of power consumption based on device configuration.

When the LPT1OSC configuration bit is set, the Timer1

oscillator operates in a low-power mode. When

LPT1OSC is not set, Timer1 operates at a higher power

level. Power consumption for a particular mode is

relatively constant, regardless of the device’s operating

mode. The default Timer1 configuration is the higher

power mode.

As the low-power Timer1 mode tends to be more

sensitive to interference, high noise environments may

cause some oscillator instability. The low-power option is,

therefore, best suited for low noise applications where

power conservation is an important design consideration.

Osc Type

Note 1: Microchip suggests these values as a

2: Higher capacitance increases the stability

3: Since each resonator/crystal has its own

4: Capacitor values are for design guidance

USING TIMER1 AS A

CLOCK SOURCE

LOW-POWER TIMER1 OPTION

starting point in validating the oscillator

circuit.

of the oscillator but also increases the

start-up time.

characteristics, the user should consult

the resonator/crystal manufacturer for

appropriate

components.

only.

32 kHz

Freq

CAPACITOR SELECTION FOR

THE TIMER OSCILLATOR

values

27 pF

DS39626B-page 129

(1)

27 pF

external

(1)

PIC18F4620-I/P Microchip Technology Inc., PIC18F4620-I/P Datasheet - Page 131

PIC18F4620-I/P

Specifications of PIC18F4620-I/P

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