PIC18F2550-I/SO Microchip Technology, PIC18F2550-I/SO Datasheet - Page 76

PIC18F2550-I/SO

Manufacturer Part Number

PIC18F2550-I/SO

Description

IC PIC MCU FLASH 16KX16 28SOIC

Manufacturer

Microchip Technology

Series

PIC® 18Fr

Datasheets

1.PIC16F616T-ISL.pdf (8 pages)

2.PCM18XR1.pdf (438 pages)

3.PIC18F2221-ISO.pdf (46 pages)

4.PIC18F2455-ISO.pdf (14 pages)

5.PIC18F2455-ISO.pdf (8 pages)

6.PIC18F2455-ISO.pdf (26 pages)

7.PIC18F4550-IP.pdf (430 pages)

8.PIC18LF2455-ISO.pdf (430 pages)

Specifications of PIC18F2550-I/SO

Program Memory Type

FLASH

Program Memory Size

32KB (16K x 16)

Package / Case

28-SOIC (7.5mm Width)

Core Processor

PIC

Core Size

8-Bit

Speed

48MHz

Connectivity

I²C, SPI, UART/USART, USB

Peripherals

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

Number Of I /o

Eeprom Size

256 x 8

Ram Size

2K x 8

Voltage - Supply (vcc/vdd)

4.2 V ~ 5.5 V

Data Converters

A/D 10x10b

Oscillator Type

Internal

Operating Temperature

-40°C ~ 85°C

Processor Series

PIC18F

Core

PIC

Data Bus Width

8 bit

Data Ram Size

2 KB

Interface Type

SPI/I2C/EAUSART

Maximum Clock Frequency

48 MHz

Number Of Programmable I/os

Number Of Timers

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, DM163025, DV164136

Minimum Operating Temperature

- 40 C

On-chip Adc

10-ch x 10-bit

Package

28SOIC W

Device Core

PIC

Family Name

PIC18

Maximum Speed

48 MHz

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With

XLT28SO-1 - SOCKET TRANSITION 28SOIC 300MILI3-DB18F4550 - BOARD DAUGHTER ICEPIC3DM163025 - PIC DEM FULL SPEED USB DEMO BRD

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

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Company

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Manufacturer

Quantity

Price

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Company:

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PIC18F2455/2550/4455/4550

5.4

While the program memory can be addressed in only

one way – through the program counter – information

in the data memory space can be addressed in several

ways. For most instructions, the addressing mode is

fixed. Other instructions may use up to three modes,

depending on which operands are used and whether or

not the extended instruction set is enabled.

The addressing modes are:

• Inherent

• Literal

• Direct

• Indirect

An additional addressing mode, Indexed Literal Offset,

is available when the extended instruction set is

enabled (XINST Configuration bit = 1). Its operation is

discussed in greater detail in Section 5.6.1 “Indexed

Addressing with Literal Offset”.

5.4.1

Many PIC18 control instructions do not need any

argument at all; they either perform an operation that

globally affects the device or they operate implicitly on

one register. This addressing mode is known as

Inherent Addressing. Examples include SLEEP, RESET

and DAW.

Other instructions work in a similar way but require an

additional explicit argument in the opcode. This is

known as Literal Addressing mode because they

require some literal value as an argument. Examples

include ADDLW and MOVLW, which respectively, add or

move a literal value to the W register. Other examples

include CALL and GOTO, which include a 20-bit

program memory address.

5.4.2

Direct Addressing mode specifies all or part of the

source and/or destination address of the operation

within the opcode itself. The options are specified by

the arguments accompanying the instruction.

In the core PIC18 instruction set, bit-oriented and

byte-oriented instructions use some version of Direct

Addressing by default. All of these instructions include

some 8-bit literal address as their Least Significant

Byte. This address specifies either a register address in

one of the banks of data RAM (Section 5.3.4 “General

DS39632E-page 74

Note:

Data Addressing Modes

The execution of some instructions in the

core PIC18 instruction set are changed

when the PIC18 extended instruction

set is enabled. See Section 5.6 “Data

Memory and the Extended Instruction

Set” for more information.

INHERENT AND LITERAL

ADDRESSING

DIRECT ADDRESSING

Purpose Register File”) or a location in the Access

Bank (Section 5.3.3 “Access Bank”) as the data

source for the instruction.

The Access RAM bit ‘a’ determines how the address is

interpreted. When ‘a’ is ‘1’, the contents of the BSR

(Section 5.3.2 “Bank Select Register (BSR)”) are

used with the address to determine the complete 12-bit

address of the register. When ‘a’ is ‘0’, the address is

interpreted as being a register in the Access Bank.

Addressing that uses the Access RAM is sometimes

also known as Direct Forced Addressing mode.

A few instructions, such as MOVFF, include the entire

12-bit address (either source or destination) in their

opcodes. In these cases, the BSR is ignored entirely.

The destination of the operation’s results is determined

by the destination bit ‘d’. When ‘d’ is ‘1’, the results are

stored back in the source register, overwriting its origi-

nal contents. When ‘d’ is ‘0’, the results are stored in

the W register. Instructions without the ‘d’ argument

have a destination that is implicit in the instruction; their

destination is either the target register being operated

on or the W register.

5.4.3

Indirect Addressing allows the user to access a location

in data memory without giving a fixed address in the

instruction. This is done by using File Select Registers

(FSRs) as pointers to the locations to be read or written

to. Since the FSRs are themselves located in RAM as

Special Function Registers, they can also be directly

manipulated under program control. This makes FSRs

very useful in implementing data structures, such as

tables and arrays in data memory.

The registers for Indirect Addressing are also

implemented with Indirect File Operands (INDFs) that

permit automatic manipulation of the pointer value with

auto-incrementing, auto-decrementing or offsetting

with another value. This allows for efficient code, using

loops, such as the example of clearing an entire RAM

bank in Example 5-5.

EXAMPLE 5-5:

CONTINUE

LFSR

CLRF

BTFSS

BRA

INDIRECT ADDRESSING

FSR0, 100h ;

POSTINC0

FSR0H, 1

HOW TO CLEAR RAM

(BANK 1) USING

INDIRECT ADDRESSING

; Clear INDF

; register then

; inc pointer

; All done with

; Bank1?

; NO, clear next

; YES, continue

PIC18F2550-I/SO Microchip Technology, PIC18F2550-I/SO Datasheet - Page 76

PIC18F2550-I/SO

Specifications of PIC18F2550-I/SO

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