Tag Archives: ESP8266

Wireless remote display

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Abstract.

07_rack_frontFor a while now the Pilogger needs a small remote display. The logging station is neither particularly compact nor elegant, therefore I made some tests about a battery powered status display. I tried solutions which I never used mainly by curiosity but also in order to continue to learn something. Especially the Wifi chip ESP8266 and a Sharp memory LCD. For tests logbook, see the Hackaday.io page

Wireless.

esp-12e-frontThe wave of the famous ESP8266 wifi chip from espressif reached me few time ago, but I never experimented it. As a complete image has to be transmitted, the wifi sounds a good solution and the ESP8266 is very capable (beside being very cheap). There is plenty of solution to program it, among the official SDK, microPython or arduino, I chose to test the nodeMCU one. From building the firmware to the integrated development environment ESPlorer, everything is clearly explained on nodeMCU documentation website.

Memory LCD.

LCDA now common solution for very low consumption display is e-ink or e-paper, but another solution from Sharp is interesting as well. There is significant differences between the two, for example the memory LCDs don’t keep the image while out of power. However the current needed to maintain an image is very low, the refresh rate is fast, and the surrounding electronics are very simple. I choose the Sharp LS044Q7DH01, a monochrome 320×240 pixel, 4.4″ display.

Prototype.

For the firsts tests I begun by my usual ugly wiring on a proto-board. I made a schematics with some option regarding the LCD driving. The LCD needs 5V and TI have a convenient boost converter: REG710NA-5. For the ESP12E wiring, Adafruit made a very nice job with their Huzzah board.

Codes.

After some divergeant ideas and solutions, I used sockets to transfert the image from the Raspberry pi to the ESP8266. In fact, the raspberry java code generate directly the data that should be transmitted to the LCD. The ESP Lua code is then just a bridge between socket and the SPI LCD connection. The Lua and Java code is on github (init.lua, socketLCD.lua and WifiDisplay.java).

The ESP is in deep sleep as much as possible. When waking-up, it connects and takes an IP from the house Wifi access point, connects to the raspberry pi socket, receives the image data and sends it in the same time to the LCD, and finally goes back to deep sleep.

PCB.

We cannot stay with a prototype, and for the first time I tried the OSHpark services. What an amazingly good experience! I used Kicad for schematics and board design as the file format is directly compatible. I’ve uploaded one file, and 20 days later the 3 boards were in the mail box. The quality is very impressive, and the pricing for small size is unbeatable. The board can be find here.

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Frame.

As a frame, for the moment I’m staying with a simple aluminium plate. Few copper plates to fix the board do the job.

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Outlook.

With a 2 minutes refresh rate, the batteries survive around one week. There is then still some improvements to do, such as lower refresh rate during night. Another point I should keep an eye on is the LCD driving. The Sharp datasheet recommend to invert a signal either by a serial command or a physical pin (EXTMODE and EXTCOMIN), thus at a minimum frequency of 1Hz. To lower the consumption, this inversion only appends when refreshing to avoid waking up the ESP8266. After few weeks I didn’t notice any artifact on the LCD. Sharp mention a risk of image retention as well, so an inverted image during night time might be a good idea.