PIC18LF6520-I/PT Microchip Technology, PIC18LF6520-I/PT Datasheet - Page 140

PIC18LF6520-I/PT

Manufacturer Part Number

PIC18LF6520-I/PT

Description

IC MCU FLASH 16KX16 EEPROM64TQFP

Manufacturer

Microchip Technology

Series

PIC® 18Fr

Datasheets

1.PIC16F616T-ISL.pdf (8 pages)

2.PIC18F8520T-IPT.pdf (380 pages)

3.PIC18F8520T-IPT.pdf (16 pages)

Specifications of PIC18LF6520-I/PT

Core Size

8-Bit

Program Memory Size

32KB (16K x 16)

Core Processor

PIC

Speed

40MHz

Connectivity

I²C, SPI, UART/USART

Peripherals

Brown-out Detect/Reset, LVD, POR, PWM, WDT

Number Of I /o

Program Memory Type

FLASH

Eeprom Size

1K x 8

Ram Size

2K x 8

Voltage - Supply (vcc/vdd)

2 V ~ 5.5 V

Data Converters

A/D 12x10b

Oscillator Type

Internal

Operating Temperature

-40°C ~ 85°C

Package / Case

64-TFQFP

Controller Family/series

PIC18

No. Of I/o's

Eeprom Memory Size

1024Byte

Ram Memory Size

2KB

Cpu Speed

40MHz

No. Of Timers

Processor Series

PIC18LF

Core

PIC

Data Bus Width

8 bit

Data Ram Size

2 KB

Interface Type

I2C, SPI, USART

Maximum Clock Frequency

40 MHz

Number Of Programmable I/os

Number Of Timers

2 x 8 bit

Operating Supply Voltage

2 V to 5.5 V

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

3rd Party Development Tools

52715-96, 52716-328, 52717-734, 52712-325, EWPIC18

Development Tools By Supplier

PG164130, DV164035, DV244005, DV164005, PG164120, ICE2000, ICE4000, DV164136, DM183032, DM183022

Minimum Operating Temperature

- 40 C

On-chip Adc

12 bit

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

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Current page: 140 of 380
Download datasheet (7Mb)

PIC18F6520/8520/6620/8620/6720/8720

12.3

The TMR1 register pair (TMR1H:TMR1L) increments

from 0000h to FFFFh and rolls over to 0000h. The

TMR1 interrupt, if enabled, is generated on overflow,

which is latched in interrupt flag bit, TMR1IF

(PIR1<0>). This interrupt can be enabled/disabled by

setting/clearing TMR1 Interrupt Enable bit, TMR1IE

(PIE1<0>).

12.4

If the CCP module is configured in Compare mode

(CCP1M3:CCP1M0 = 1011), this signal will reset

Timer1 and start an A/D conversion (if the A/D module

is enabled).

Timer1 must be configured for either Timer or Synchro-

nized Counter mode to take advantage of this feature.

If Timer1 is running in Asynchronous Counter mode,

this Reset operation may not work.

In the event that a write to Timer1 coincides with a

special event trigger from CCP1, the write will take

precedence.

In this mode of operation, the CCPR1H:CCPR1L

Timer1.

12.5

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, is

valid, due to a rollover between reads.

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

through the TMR1H Buffer register. 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 writ-

able 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.

DS39609B-page 138

Note:

generate

Timer1 Interrupt

Resetting Timer1 Using a CCP

Trigger Output

Timer1 16-Bit Read/Write Mode

The special event triggers from the CCP1

module will not set interrupt flag bit

TMR1IF (PIR1<0>).

“special

event

trigger”

12.6

Adding an external LP oscillator to Timer1 (such as the

one described in Section 12.2 “Timer1 Oscillator”)

gives users the option to include RTC functionality to

their applications. This is accomplished with an inex-

pensive watch crystal to provide an accurate time base

and several lines of application code to calculate the

time. When operating in Sleep mode and using a

battery or supercapacitor as a power source, it can

completely eliminate the need for a separate RTC

device and battery backup.

The application code routine, RTCisr, shown in

Example 12-1, demonstrates a simple method to incre-

ment a counter at one-second intervals using an

Interrupt Service Routine. Incrementing the TMR1

the routine, which increments the seconds counter by

one; additional counters for minutes and hours are

incremented as the previous counter overflow.

Since the register pair is 16 bits wide, counting up to

overflow the register directly from a 32.768 kHz clock

would take 2 seconds. To force the overflow at the

required one-second intervals, it is necessary to

preload it; the simplest method is to set the MSb of

TMR1H with a BSF instruction. Note that the TMR1L

introduce cumulative error over many cycles.

For this method to be accurate, Timer1 must operate in

Asynchronous mode and the Timer1 overflow interrupt

must be enabled (PIE1<0> = 1), as shown in the

routine, RTCinit. The Timer1 oscillator must also be

enabled and running at all times.

Using Timer1 as a

Real-Time Clock

 2004 Microchip Technology Inc.

PIC18LF6520-I/PT Microchip Technology, PIC18LF6520-I/PT Datasheet - Page 140

PIC18LF6520-I/PT

Specifications of PIC18LF6520-I/PT

Available stocks

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