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https://github.com/mcauser/micropython-pcd8544

MicroPython driver for Nokia 5110 PCD8544 84x48 LCD modules
https://github.com/mcauser/micropython-pcd8544

esp8266 micropython nokia-5110 nokia5110 pcd8544 wemos-d1-mini

Last synced: 2 months ago
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MicroPython driver for Nokia 5110 PCD8544 84x48 LCD modules

Lists

README 

        
# MicroPython PCD8544



A MicroPython library for the Philips PCD8544 84x48 monochrome LCD, used by the Nokia 5110 display.



![demo](docs/demo.jpg)



#### Pinout



| ![demo](docs/nokia5110_pinout.jpg) | ![demo](docs/esp8266_pinout.jpg) |

|-|-|



Pin | Name | Description

:--:|:----:|:--------------------------------

1   | RST  | External reset input, active low

2   | CE   | Chip enable, active low

3   | D/C  | Data high / Command low

4   | DIN  | Serial data input

5   | CLK  | Serial clock, up to 4 Mbits/s

6   | VCC  | Supply voltage 2.7-3.3V

7   | BL   | Backlight

8   | GND  | Ground



## Example



Copy the file to your device, using ampy, webrepl or compiling and deploying. eg.



```bash

$ ampy put pcd8544.py

```



**Basic Example**



```python

import pcd8544

from machine import Pin, SPI



spi = SPI(1)

spi.init(baudrate=2000000, polarity=0, phase=0)

cs = Pin(2)

dc = Pin(15)

rst = Pin(0)



# backlight on

bl = Pin(12, Pin.OUT, value=1)



lcd = pcd8544.PCD8544(spi, cs, dc, rst)



# test pattern (50% on)

lcd.data(bytearray([0x55, 0xAA] * 42 * 6))



# bitmap smiley (horzontal msb)

lcd.clear()

# draw 8x16 in bank 0 (rows 0..7)

lcd.position(0, 0)

lcd.data(bytearray(b'\xE0\x38\xE4\x22\xA2\xE1\xE1\x61\xE1\x21\xA2\xE2\xE4\x38\xE0\x00'))

# draw 8x16 in bank 1 (rows 8..15)

lcd.position(0, 1)

lcd.data(bytearray(b'\x03\x0C\x10\x21\x21\x41\x48\x48\x48\x49\x25\x21\x10\x0C\x03\x00'))



# toggle display, image persists in DDRAM

lcd.power_off()

lcd.power_on()



# nokia logo bitmap

lcd.clear()

lcd.data(bytearray(b'\x80\x00\x00\x80\x00\x00\x80\x00\x00\x80\x00\x00\x80\x00\x00\x80\x00\x00\x80\x80\x40\x40\x40\x80\x80\xC0\xC0\x40\xC0\xA0\xE0\xC0\xE0\xE0\xF0\xF0\xF8\xF8\xF8\xFC\xFC\xFE\xEE\xF4\xF0\xF0\x70\x30\x00\x80\x00\x00\x80\x00\x0C\x9C\x1C\x38\xB8\x38\x38\xB8\xF8\xF0\xF0\xF0\xF0\xF0\xF0\xF0\xF0\xF0\xF0\xF0\xF0\xF0\xF0\xF0\xF0\xF0\xF8\xF8\xF8\xF8\x88\x20\x8A\x20\x08\x22\x08\x00\x0A\x00\x00\x02\x80\x71\xBA\xDA\xFD\xDD\xED\xDE\xEE\xF7\xFF\xFB\xFD\xFD\xFE\xFF\x7F\x3F\x1F\x9F\x3F\x7F\x6F\x0F\xAF\x1F\xBF\x3E\x3C\x7A\x78\x70\x22\x88\xA0\x2A\x80\x08\x62\xE0\xE0\xF2\xF0\x58\xDA\xF8\xFC\x92\xFE\xFF\xFF\xD3\xFF\xFD\xF3\xE1\xF0\xF9\x7F\xBF\x3F\x8F\x2F\x4F\xAF\x0F\x4F\xA7\x0F\xAF\x87\x2F\x82\x80\x20\xC0\x80\x80\x50\x40\xC4\xD0\xA0\xE8\xE4\xEA\xFF\xFB\xFD\xFF\xFF\xFF\xFF\xFF\xEF\x4F\x27\x53\xA8\x54\x29\x4A\xB5\x82\xAC\xA1\x8A\xB6\x50\x4D\x32\xA4\x4A\xB4\xA9\x4A\x52\xB4\xAA\x45\xA8\xDA\x22\xAC\xD2\x2A\x52\xA8\x52\x4C\xB0\xAD\x43\x5B\xB3\x45\xA8\x5B\xA3\xAB\x55\xA8\x52\x54\xA9\x56\xA8\x45\xBA\xA4\x49\x5A\xA2\x54\xAA\x52\xFE\xFF\xFF\xFE\xFD\xFF\xFF\xFF\xFE\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\x7F\xFF\xFE\xBF\x7F\xBF\xBF\xFF\xDF\xBF\x5F\xDF\x7F\xDF\x7F\xDF\xAF\x7F\xEE\x8E\xF1\x6E\x99\xF7\x6A\xDD\xB2\x6E\xD5\x7A\xD7\xAC\x75\xDB\x6D\xD5\x7A\xD7\xAC\x7B\xE5\xDE\xA9\x77\xDA\xB5\xEE\x59\xB6\xEB\xDD\xB6\x69\xD6\xBF\xE8\x55\xEF\xB9\xD6\xED\xB5\x5B\xAB\xFF\xFD\xF7\xFF\x01\x01\x01\x01\xE1\xC1\x81\x03\x05\x0F\x1D\x2F\x7E\x01\x00\x01\x01\xFF\xFE\x03\x01\x01\x00\xF1\xF0\xF1\x71\xF1\xF1\xB1\xF1\x01\x01\x01\x03\xFE\xFF\x01\x01\x01\x01\xBE\x1B\x0D\x07\x03\x41\xE1\xF1\xF9\x6D\xFF\xFF\x00\x01\x01\x01\xFF\xFF\xEB\x3E\x0D\x03\x01\x41\x71\x70\x41\x01\x03\x0E\x3B\xEF\xFE\xFB\xEE\x7D\xF7\xFF\xFF\xFF\xFF\xFE\xFF\xF0\xF0\xF0\xF0\xFF\xFF\xFF\xFF\xFE\xFC\xF8\xF0\xF0\xF0\xF0\xF0\xF0\xFF\xFF\xF8\xF0\xF0\xF0\xF1\xF1\xF1\xF1\xF1\xF1\xF1\xF1\xF0\xF0\xF0\xF8\xFF\xFF\xF0\xF0\xF0\xF0\xFF\xFF\xFE\xFC\xF8\xF0\xF0\xF1\xF3\xF7\xFF\xFF\xF0\xF0\xF0\xF0\xFF\xF3\xF0\xF0\xF0\xFC\xFC\xFC\xFC\xFC\xFC\xFC\xFC\xF0\xF0\xF0\xF3\xFF\xFF\xFF\xFF\xFF'))



lcd.invert(True)

lcd.invert(False)



lcd.reset()

lcd.init()



# swtich to vertical addressing

lcd.init(horizontal=False)



# adjust contrast, bias and temp

lcd.contrast(0x1f, pcd8544.BIAS_1_40, pcd8544.TEMP_COEFF_0)

lcd.contrast(0x3f, pcd8544.BIAS_1_48, pcd8544.TEMP_COEFF_0)

lcd.contrast(0x3c, pcd8544.BIAS_1_40, pcd8544.TEMP_COEFF_0)

lcd.contrast(0x42, pcd8544.BIAS_1_48, pcd8544.TEMP_COEFF_0)

lcd.contrast(0x3f, pcd8544.BIAS_1_40, pcd8544.TEMP_COEFF_2)

```



See [/examples](/examples) for more.



## Addressing



Each animation frame represents 1 of 504 bytes written to the DDRAM. `lcd.data(bytearray(b'\xFF'))`



In horizontal mode you can use framebuf with MONO_VLSB format. Vertical mode does not have a compatible framebuf format.



**Horizontal**



![Horizontal](docs/pcd8544-horizontal.gif)



**Vertical**



![Vertical](docs/pcd8544-vertical.gif)



See [/examples/addressing](/examples/addressing) for more details.



## Parts



* [WeMos D1 Mini](https://www.aliexpress.com/store/product/D1-mini-Mini-NodeMcu-4M-bytes-Lua-WIFI-Internet-of-Things-development-board-based-ESP8266/1331105_32529101036.html) $4.00 USD

* [Nokia 5110 LCD Display](https://www.aliexpress.com/item/1pcs-High-Quality-84-48-84x48-LCD-Module-White-backlight-adapter-PCB-for-Nokia-5110-for/32609308327.html) $2.00 USD



## Connections



WeMos D1 Mini | PCD8544 LCD

------------- | ----------

D3 (GPIO0)    | 1 RST

D4 (GPIO2)    | 2 CE

D8 (GPIO15)   | 3 DC

D7 (GPIO13)   | 4 Din

D5 (GPIO14)   | 5 Clk

3V3           | 6 Vcc

D6 (GPIO12)   | 7 BL

G             | 8 Gnd



## Links



* [WeMos D1 Mini](https://wiki.wemos.cc/products:d1:d1_mini)

* [micropython.org](http://micropython.org)

* [Adafruit Ampy](https://learn.adafruit.com/micropython-basics-load-files-and-run-code/install-ampy)

* [PCD8544 Datasheet](docs/PCD8544.pdf)



## License



Licensed under the [MIT License](http://opensource.org/licenses/MIT).