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pcf8575 16 bit I2C digital I/O Expander

This 16-bit I/O expander for the two-line bidirectional bus (I2C) is designed for 2.5-V to 5.5-V V CC operation.

The PCF8575 device provides general-purpose remote I/O expansion for most microcontroller families by way of the I2C interface [serial clock (SCL), serial data (SDA)].

The device features a 16-bit quasi-bidirectional input/output (I/O) port (P07–P00, P17–P10), including latched outputs with high-current drive capability for directly driving LEDs. Each quasi-bidirectional I/O can be used as an input or output without the use of a data-direction control signal. At power on, the I/Os are high. In this mode, only a current source to V CC is active.

I 2 C to Parallel-Port Expander

C to Parallel-Port Expander Open-Drain Interrupt Output

Low Standby-Current Consumption of 10 µA Max

Compatible With Most Microcontrollers

400-kHz Fast I 2 C Bus

C Bus Address by Three Hardware Address Pins for Use of up to Eight Devices

Latched Outputs With High-Current Drive Capability for Directly Driving LEDs

Current Source to V CC for Actively Driving a High at the Output

for Actively Driving a High at the Output Latch-Up Performance Exceeds 100 mA Per JESD 78, Class II

ESD Protection Exceeds JESD 22 2000-V Human-Body Model 200-V Machine Model 1000-V Charged-Device Model



Module Connections

The connections to the module are straight forward.

Supply 3.3 or 5V power and ground. Connect I2C SCL and SDA lines to same on the MCU. If used, connect the INT line to an interrupt input on the MCU and use a pull-up resistor.

I write a library to use i2c pcf8575 IC with arduino and esp8266.

pcf8575 test read write led button

So can read and write digital value with only 2 wire (perfect for ESP-01).

Breadbord PCF8575

I try to simplify the use of this IC, with a minimal set of operation.

How I2c Works

I2C works with it’s two wires, the SDA(data line) and SCL(clock line).

Both these lines are open-drain, but are pulled-up with resistors.

Usually there is one master and one or multiple slaves on the line, although there can be multiple masters, but we’ll talk about that later.

Both masters and slaves can transmit or receive data, therefore, a device can be in one of these four states: master transmit, master receive, slave transmit, slave receive.

Library

You can find my library here.

To download.

Click the DOWNLOADS button in the top right corner, rename the uncompressed folder PCF8575.

Check that the PCF8575 folder contains PCF8575.cpp and PCF8575.h.

Place the PCF8575 library folder your /libraries/ folder.

You may need to create the libraries subfolder if its your first library.

Restart the IDE.

IC or Module

You can use a normal IC or module.

pcf8575 IC

You can buy here

pcf8575 module

You can buy here

Usage

As already say I try to simplify the use of this IC, with a minimal set of operation.

PCF8575 address map 0x20-0x27

On constructor you must pas the address of i2c, you can use A0, A1, A2 pins to change the address, you can find the address value here (to check the adress use this guide I2cScanner)

PCF8575(uint8_t address);

for esp8266 if you want specify SDA e SCL pin use this:

PCF8575(uint8_t address, uint8_t sda, uint8_t scl);

For esp32 you can pass directly che TwoWire, so you can choice the secondary i2c channel:

// Instantiate Wire for generic use at 400kHz TwoWire I2Cone = TwoWire(0); // Instantiate Wire for generic use at 100kHz TwoWire I2Ctwo = TwoWire(1); // Set pcf8575 i2c comunication with second Wire using 21 22 as SDA SCL PCF8575 pcf8575(&I2Ctwo); //PCF8575 pcf8575(&I2Ctwo, 21,22); //PCF8575 pcf8575(&I2Ctwo, 0x5C); //PCF8575 pcf8575(&I2Ctwo, 21,22,0x5C);

You must set input/output mode:

pcf8575.pinMode(P0, OUTPUT); pcf8575.pinMode(P1, INPUT); pcf8575.pinMode(P2, INPUT);

then IC as you can see in the image have 16 digital input/output:

pcf8575 pinouts

So to read all analog input in one trasmission you can do (even if I use a 10millis debounce time to prevent too much read from i2c):

PCF8575::DigitalInput di = PCF8575.digitalReadAll(); Serial.print("READ VALUE FROM PCF P1: "); Serial.print(di.p0); Serial.print(" - "); Serial.print(di.p1); Serial.print(" - "); Serial.print(di.p2); Serial.print(" - "); Serial.println(di.p3);

To follow a request (you can see It on issue #5) I create a define variable to work with low memori device, if you decomment this line on .h file of the library:

// #define PCF8575_LOW_MEMORY

Enable low memory props and gain about 7byte of memory, and you must use the method to read all like so:

byte di = pcf8575.digitalReadAll(); Serial.print("READ VALUE FROM PCF: "); Serial.println(di, BIN);

where di is 2 byte in uint16_u variable like 1110001 1110001 , so you must do a bitwise operation to get the data, operation that I already do in the “normal” mode, here an example:

p0 = ((di & bit(0)>0)?HIGH:LOW; p1 = ((di & bit(1)>0)?HIGH:LOW; p2 = ((di & bit(2)>0)?HIGH:LOW; p3 = ((di & bit(3)>0)?HIGH:LOW; p4 = ((di & bit(4)>0)?HIGH:LOW; p5 = ((di & bit(5)>0)?HIGH:LOW; p6 = ((di & bit(6)>0)?HIGH:LOW; p7 = ((di & bit(7)>0)?HIGH:LOW; p8 = ((di & bit(8)>0)?HIGH:LOW; p9 = ((di & bit(9)>0)?HIGH:LOW; p10 = ((di & bit(10)>0)?HIGH:LOW; p11 = ((di & bit(11)>0)?HIGH:LOW; p12 = ((di & bit(12)>0)?HIGH:LOW; p13 = ((di & bit(13)>0)?HIGH:LOW; p14 = ((di & bit(14)>0)?HIGH:LOW; p15 = ((di & bit(15)>0)?HIGH:LOW;

if you want read a single input:

int p1Digital = PCF8575.digitalRead(P1); // read P1

If you want write a digital value you must do:

PCF8575.digitalWrite(P1, HIGH);

or:

PCF8575.digitalWrite(P1, LOW);

You can also use interrupt pin: You must initialize the pin and the function to call when interrupt raised from PCF8575

// Function interrupt void keyPressedOnPCF8575(); // Set i2c address PCF8575 pcf8575(0x39, ARDUINO_UNO_INTERRUPT_PIN, keyPressedOnPCF8575);

Remember you can’t use Serial or Wire on interrupt function.

The better way is to set only a variable to read on loop:

void keyPressedOnPCF8575(){ // Interrupt called (No Serial no read no wire in this function, and DEBUG disabled on PCF library) keyPressed = true; }

Connections schema

For the examples I use this wire schema on breadboard:

pcf8575 test read write led button

Additional examples from pcf8574 reusable on pcf8575

In the time peoples help me to create new examples, I’m going to add they here:

Wemos LEDs blink

From japan nopnop create an example to blink 8 leds sequentially.

/* * PCF8575 GPIO Port Expand * http://nopnop2002.webcrow.jp/WeMos/WeMos-25.html * * PCF8575 ----- WeMos * A0 ----- GRD * A1 ----- GRD * A2 ----- GRD * VSS ----- GRD * VDD ----- 5V/3.3V * SDA ----- GPIO_4(PullUp) * SCL ----- GPIO_5(PullUp) * * P0 ----------------- LED0 * P1 ----------------- LED1 * P2 ----------------- LED2 * P3 ----------------- LED3 * P4 ----------------- LED4 * P5 ----------------- LED5 * P6 ----------------- LED6 * P7 ----------------- LED7 * */ #include "Arduino.h" #include "PCF8575.h" // https://github.com/xreef/PCF8575_library // Set i2c address PCF8575 pcf8575(0x20); void setup() { Serial.begin(9600); // Set pinMode to OUTPUT for(int i=0;i<8;i++) { pcf8575.pinMode(i, OUTPUT); } pcf8575.begin(); } void loop() { static int pin = 0; pcf8575.digitalWrite(pin, HIGH); delay(1000); pcf8575.digitalWrite(pin, LOW); delay(1000); pin++; if (pin > 7) pin = 0; }

Wemod LEDs blink inverted

Here a new version of leds blink that simply I put positive of the led on VCC and negative on pcf8575, so the power is provided by VCC.

/* * PCF8575 GPIO Port Expand * Inverted led test: all led is connected with anodo to the IC * * PCF8575 ----- WeMos * A0 ----- GRD * A1 ----- GRD * A2 ----- GRD * VSS ----- GRD * VDD ----- 5V/3.3V * SDA ----- GPIO_4(PullUp) * SCL ----- GPIO_5(PullUp) * * P0 ----------------- LED0 * P1 ----------------- LED1 * P2 ----------------- LED2 * P3 ----------------- LED3 * P4 ----------------- LED4 * P5 ----------------- LED5 * P6 ----------------- LED6 * P7 ----------------- LED7 * P8 ----------------- LED8 * P9 ----------------- LED9 * P10 ----------------- LED10 * P11 ----------------- LED11 * P12 ----------------- LED12 * P13 ----------------- LED13 * P14 ----------------- LED14 * P15 ----------------- LED15 * */ #include "Arduino.h" #include "PCF8575.h" // https://github.com/xreef/PCF8575_library // Set i2c address PCF8575 pcf8575(0x20); void setup() { Serial.begin(9600); // Set pinMode to OUTPUT for(int i=0;i<16;i++) { pcf8575.pinMode(i, OUTPUT); } for(int i=0;i<16;i++) { pcf8575.digitalWrite(i, HIGH); } pcf8575.begin(); } void loop() { static int pin = 0; pcf8575.digitalWrite(pin, LOW); delay(1000); pcf8575.digitalWrite(pin, HIGH); delay(1000); pin++; if (pin > 15) pin = 0; }

Esp32 leds blink using secondary i2c channel.

Here I create a variant of example to show how to use secondary i2c channel of a esp32.

#include "Arduino.h" /* * PCF8575 GPIO Port Expand * Blink all led * by Mischianti Renzo <https://www.mischianti.org> * * https://www.mischianti.org/ * * * PCF8575 ----- Esp32 * A0 ----- GRD * A1 ----- GRD * A2 ----- GRD * VSS ----- GRD * VDD ----- 5V/3.3V * SDA ----- 21 * SCL ----- 22 * * P0 ----------------- LED0 * P1 ----------------- LED1 * P2 ----------------- LED2 * P3 ----------------- LED3 * P4 ----------------- LED4 * P5 ----------------- LED5 * P6 ----------------- LED6 * P7 ----------------- LED7 * */ #include "Arduino.h" #include "PCF8575.h" // https://github.com/xreef/PCF8575_library // Instantiate Wire for generic use at 400kHz TwoWire I2Cone = TwoWire(0); // Instantiate Wire for generic use at 100kHz TwoWire I2Ctwo = TwoWire(1); // Set i2c address PCF8575 pcf8575(&I2Ctwo, 0x20); // PCF8575 pcf8575(&I2Ctwo, 0x20, 21, 22); // PCF8575(TwoWire *pWire, uint8_t address, uint8_t interruptPin, void (*interruptFunction)() ); // PCF8575(TwoWire *pWire, uint8_t address, uint8_t sda, uint8_t scl, uint8_t interruptPin, void (*interruptFunction)()); void setup() { Serial.begin(112560); I2Cone.begin(16,17,400000); // SDA pin 16, SCL pin 17, 400kHz frequency // Set pinMode to OUTPUT for(int i=0;i<8;i++) { pcf8575.pinMode(i, OUTPUT); } pcf8575.begin(); } void loop() { static int pin = 0; pcf8575.digitalWrite(pin, HIGH); delay(400); pcf8575.digitalWrite(pin, LOW); delay(400); pin++; if (pin > 7) pin = 0; }

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