PIC16F887 Microcontroller, Pinout Diagram, Features & Datasheet

The PIC16F887 is an 8-bit microcontroller from Microchip. The 40-pin IC has 14 Channel 10-bit ADC making it suitable for applications which require more ADC inputs. The IC also has 2 Comparators, 2 Timers (8-bit and 16-bit) and supports SPI, I2C and UART communication protocols.

Features

PIC16F887 –Simplified Features

CPU

8-bit PIC

Number of  Pins

40

Operating Voltage (V)

2 to 5.5 V

Number of I/O pins

35

ADC Module

14ch, 10-bit

Timer Module

8-bit(2), 16-bit(1)

Comparators

2

DAC Module

Nil

Communication Peripherals

UART(1), SPI(1), I2C(1), MSSP(SPI/I2C)

External Oscillator

Up to 20Mhz

Internal Oscillator

8Mhz to 32KHz

Program Memory Type

Flash

Program Memory (KB)

14KB

CPU Speed (MIPS)

5 MIPS

RAM Bytes

368

Data EEPROM

256 bytes

Note: The PIC16F887 datasheet of the Microcontroller and more detailed Features can be found at the bottom of this page.

Pin Description

Pin Number

Pin Name

Description

1

MCLR/Vpp/RE3

MCLR is used during programming, mostly connected to programmer like PicKit or 3rd pin of PORTE

2

RA0/AN0

Analog pin 0 or 0th pin of PORTA

3

RA1/AN1

Analog pin 1 or 1st pin of PORTA

4

RA2/AN2/Vref-

Analog pin 2 or 2nd pin of PORTA

5

RA3/AN3/Vref+

Analog pin 3 or 3rd pin of PORTA

6

RA4/T0CKI/C1out

4th pin of PORTA

7

RA5/AN4/SS/C2out

Analog pin 4 or 5th pin of PORTA

8

RE0/RD/AN5

Analog pin 5 or 0th pin of PORTE

9

RE1/WR/AN6

Analog pin 6 or 1st pin of PORTE

10

RE2/CS/AN7

Analog pin 6  or 2nd pin of PORTE

11

Vdd

Ground pin of MCU

12

Vss

Positive pin of MCU (+5V)

13

RA7/OSC1/CLKI

External Oscillator/clock input pin or 7th pin of PORTA

14

RA6/OSC2/CLKO

External Oscillator/clock output pin or 6th pin of PORTA

15

RC0/T1OSO/T1CKI

0th pin of PORT C

16

RC1/T1OSI/CCP2

1st pin of POCTC or Timer/PWM pin

17

RC2/CCP1

2nd pin of POCTC or Timer/PWM pin

18

RC3/SCK/SCL

3rd pin of POCTC

19

RD0

0th pin of POCTD

20

RD1

1st pin of POCTD

21

RD2

2nd pin of POCTD

22

RD3

3rd pin of POCTD

23

RC4/SDI/SDA

4th pin of POCTC or Serial Data in pin

24

RC5/SDO

5th pin of POCTC or Serial Data Out pin

25

RC6/Tx/CK

6th pin of POCTC or Transmitter pin of Microcontroller

26

RC7/Rx/DT

7th pin of POCTC or Receiver pin of Microcontroller

27

RD4

4th pin of POCTD

28

RD5/P1B

5th pin of POCTD

29

RD6/P1C

6th pin of POCTD

30

RD7/P1D

7th pin of POCTD

31

Vss

Positive pin of MCU (+5V)

32

Vdd

Ground pin of MCU

33

RB0/INT

0th pin of POCTB or External Interrupt pin

34

RB1/AN10

Analog pin 10  or 1st pin of POCTB

35

RB2 /AN8

Analog pin 8  or 2nd pin of POCTB

36

RB3/PGM/AN9

Analog pin 9 or 3rd pin of POCTB or connected to programmer

37

RB4/AN11

Analog pin 11  or 4th pin of POCTB

38

RB5/AN13

Analog pin 13  or 5th pin of POCTB

39

RB6/PGC

6th pin of POCTB or connected to programmer

40

RB7/PGD

7th pin of POCTB or connected to programmer

Alternative for PIC16F887 

PIC16F18877

Other PIC MCUs

PIC16F877A, PIC12F508, PIC12F629, PIC12F683, PIC16F505, PIC16F628A, PIC16F676, PIC16F72, PIC16F873A, PIC16F876A, PIC16F886, PIC18F252, PIC18F2520, PIC18F452, PIC18F4520

PIC16F887 Microcontroller Overview

The PIC16F887 is an 8-bit microcontroller from Microchip. The 40-pin IC has 14 Channel 10-bit ADC making it suitable for applications which require more ADC inputs. The IC also has 2 Comparators, 2 Timers (8-bit and 16-bit) and supports SPI, I2C and UART communication protocols.

It can operate at a speed of upto 20MHz with external oscillator and also has precision internal oscillator tunable between 8MHz to 32kHz. The IC supports nanoWatt technology allowing it to consume very low power and operate in Power-Saving sleep mode. It also have a wide operating voltage from 2V to 5.5V making it suitable for battery powered applications.  

The IC also supports safety features like Power-on Reset (POR), Brown-out Reset (BOR), Low Current Watchdog Timer (WDT) etc making it suitable for task critical and industrial applications. The controller supports In Circuit Serial Programming (ICSP) allowing the designer to program the controller easily even without removing it from the actual circuit.

How to select your PIC Microcontroller

Microchip provides a wide verity of Microcontrollers from PIC family. Each MCU has its own advantage and disadvantage. There are many parameters that one has to consider before selecting a MCU for his project. The below points are just suggestions which might help one to select a MCU.

  • If you are a beginner who is learning PIC then, selecting a MCU that has good online community support and wide applications will be a good choice. PIC16F877A and PIC18F4520 are two such MCUs
  • Consider the operating voltage of your system. If they are 5V then select a 5V MCU some sensors or devices work and communicate on 3.3V in such case a 3.3V MCU can be selected
  • If size and price is a limitation then you can choose small 8-pin MCUs like PIC12F508. These are also comparatively cheaper.
  • Based on the sensors and actuators used in your project, verify which modules you might need in for MCU. For example is you are reading many Analog voltages then make sure PIC has enough ADC channels and supportive resolution. The details of all modules are given in the table above.
  • If you project involves communication protocols like UART, SPI ,I2C, CAN etc make sure you PIC can support them. Some MCU can support more than one module of the same protocol

Programming PIC Microcontroller

PIC microcontroller can be programmed with different software’s that is available in the market. There are people who still use Assembly language to program PIC MCUs. The below details is for most advanced and common software and compiler that has been developed by Microchip itself.

In order to program the PIC microcontroller we will need an IDE (Integrated Development Environment), where the programming takes place. A compiler, where our program gets converted into MCU readable form called HEX files. An IPE (Integrated Programming Environment), which is used to dump our hex file into our PIC MCUs.

IDE: MPLABX v3.35

IPE: MPLAB IPE v3.35

Compiler: XC8

Microchip has given all these three software for free. They can be downloaded directly from their official page. I have also provided the link for your convenience. Once downloaded install them on your computer. If you have any problem doing so you can post them on the comment below.

To dump or upload our code into PIC, we will need a device called PICkit 3. The PICkit 3 programmer/debugger is a simple, low-cost in-circuit debugger that is controlled by a PC running MPLAB IDE (v8.20 or greater) software on a Windows platform. The PICkit 3 programmer/debugger is an integral part of the development engineer’s tool suite. In addition to this we will also need other hardware like Perf board or breadboard, Soldering station, PIC ICs, Crystal oscillators, capacitors etc.

Applications

  • Design requiring many ADC channels
  • Battery Operated Low Power applications
  • Design requiring Multiple I/O interfaces and communications
  • Ideal for more advanced level A/D applications in automotive, industrial, appliances and consumer applications.
Component Datasheet PDF: PIC16F887 Datasheet

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