This is a 1.51” SSD1309 transparent monochrome OLED display (light blue) with a converter. It offers a resolution of 128×64 (The completely transparent area is 128×56.

There is a small section near the pins that are not transparent but still can display content), full-view, and blue display.

For convenience, the small converter comes with two available connections: GDI and SPI. And there are all kinds of display code samples for meeting the basic requirements of most users.

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This OLED goes out to all the fans who want more pixels in a smaller size! Normally our 128×64 OLEDs are the biggest ones we’ve stocked that can use I2C. This one is a whopping 128×128 pixels in crisp monochrome.

This display is a petite 1.12″ diagonal, but very readable due to the high contrast of an OLED display. This display is made of 128×128 individual white OLED pixels, each one is turned on or off by the controller chip. Because the display makes its own light, no backlight is required. This reduces the power required to run the OLED and is why the display has such high contrast; we really like these miniature displays for their crispness!

The driver chip, SSD1107 can communicate in two ways: I2C or SPI. The OLED itself requires a 3.3V and 12V power supply and 3.3V logic levels for communication. We include a 3.3V regulator and 12V boost converter, and all pins are fully level shifted so you can use them with 3V or 5V devices!

If you are using I2C, we’ve included SparkFun qwiic compatible STEMMA QT connectors for the I2C bus so you don’t even need to solder! Plug and play with any board that has a Qwiic or STEMMA QT connector for effortless prototyping and development. QT Cable is not included, but we have a variety in the shop.

This display, being 128×128 pixels, requires 128 * 128 = 2KB of SRAM just to buffer the display. So you can’t use it with a small chip such as the Arduino UNO (ATmega328 or 32u4). Pick a microcontroller or microcomputer with 16KB+ RAM – a SAMD21, SAMD51, ESP, nRF52, Teensy, etc will do an excellent job. As long as you have an I2C or SPI interface available, you’re good to go – SPI will be much faster but I2C requires fewer pins.

We have both Arduino and CircuitPython support for this display chipset (SH1107).

Please note that OLED displays are made of hundreds of…OLEDs! That means each pixel is a little organic LED, and if it’s kept on for over 1000 hours it’ll start to dim. If you want to keep the display uniformly bright, please turn off the display (set the pixels off) when it isn’t needed to keep them from dimming.

Specification:

1. Diagonal Screen Size：1.12″
2. Number of Pixels：128 × 128
3. Colour Depth： Monochrome (White)
4. Module Construction: COG
5. Active Area (mm)：20mm x 20mm
6. Pixel Size (mm)：0.15 x 0.15 mm
7. Duty：1/64
8. Brightness ( cd/m2): 100 (Typ) @ 12V
9. Display current draw is completely dependent on your usage: each OLED LED draws current when on so the more pixels you have lit, the more current is used. They tend to draw ~35mA or so in practice but for precise numbers, you must measure the current in your usage circuit.

Package Includes:

1 x Monochrome 1.12″ 128×128 I2C/SPI OLED Display
1 x 2.54 chip-mounting pin-6P

It is suitable for flight control of Pixhawk, etc. and is used to display the status information of aircraft. This module is connected to Pixhawk’s I2C interface

Note: Actual product may vary from image in terms of Design, Color, Size.

Features:

1. Light weight
2. Display compatible with Pixhawk 2.4.8 PIX PX4 Flight Control
3. Easy to use
4. Plug and play device

Specifications:

1. Product: OSD OLED Display
2. Operating voltage: 3.3V-5V DC
3. Compatible: Pixhawk 2.4.8 PIX PX4 Flight Control
4. Working temperature: -30°C ~ 70°C
5. Display dimension: 2.5 x 1.4 x 0.1mm
6. Over all dimension: 3 x 2.7 x 0.3mm
7. Weight: 3g

Packages Includes:

1 x OSD OLED Display for Pixhawk 2.4.8 PIX PX4 Flight Control

This Fermion: ENS160 Air Quality Sensor, based on ScioSense’s new ENS160 sensor chip, is specifically designed for indoor air quality monitoring and offers detection of multiple IAQ data(TVOC, eCO2, AQI).

The innovative TrueVOC™ technology combines the metal oxide(MOX) technology that brings this sensor superior accuracy, fast response, anti-interference, etc. With intelligent on-chip algorithms, the ENS160 can directly output rich and easy-to-understand environmental data. Preheat the sensor 3 minutes before use then you can obtain accurate data more quickly. What’s more, the built-in automatic baseline correction algorithm ensures the long-term stability of the sensor.

Connection Diagram (with FireBeetle Board ESP32-E)

Connection Diagram (with Raspberry Pi)

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This is a general 1.5inch diagonal OLED display Module from Waveshare, 128×128 pixels monochrome dot matrix display module with 16 grayscales, and embedded controller communicating via SPI or I2C interface.

It is perfect when you need an ultra-small display. Comparing to LCD, OLED screens are way more competitive, which has a number of advantages such as high brightness, self-emission, high contrast ratio, slim outline, wide viewing angle, wide temperature range, and low power consumption. It is compatible with any 3.3V-5V microcontroller, such as Arduino.

The characteristics of this display module are high brightness, self-emission, high contrast ratio, slim/thin outline, wide viewing angle, wide temperature range, and low power consumption.

Useful link:

To do Hardware and Software setup, please follow this tutorial.

Features:

1. 128×128 high resolution.
2. 16 grayscale, the better display effect.
3. Supports SPI or I2C interface, configured via an onboard resistor.
4. Comes with development resources and a manual (examples for Raspberry Pi/Jetson Nano/Arduino/STM32).

Package Includes:

1 x 1.5inch OLED Module

1 x PH2.0 7Pin

Beetle ESP32-C3, mainly intended for IoT applications, is a controller based on ESP32-C3 RISC-V 32bit single-core processor.

On a coin-size board of 25*20.5 mm, there are up to 13 IO ports broken out, so you don’t have to worry about running out of IO ports when making projects. Meanwhile, the li-ion battery charging management function is integrated on the board which allows for directly connecting the li-ion battery without extra modules, while ensuring the application size and safety.

The equipped expansion board for Beetle ESP32-C3 brings out more power sources without increasing product volume, more convenient for solder. Besides, the onboard easy-to-connect GDI saves the trouble of wiring when using a screen.

Beetle ESP32-C3 supports WiFi and Bluetooth 5 (LE) dual-mode communication that reduces the difficulty of networking, and also both Bluetooth Mesh protocol and Espressif WiFi Mesh are supported for more stable communication and a larger coverage area.

Detailed tutorials for Beetle ESP32-C3 are provided for users to use the controller’s WiFi function, such as connecting to IoT platforms like Aliyun, IFTTT, etc. Or users can use various sensors and actuators from DFRobot to build up IoT systems.

Beetle ESP32-C3 can be programmed by Arduino IDE, ESP-IDF, MicroPython, C, and Python are both supported.

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