0.49-inch 64x32 PMOLED Display Module
0.49 64×32 PMOLED Display Module, Display Mode: Passive Matrix, Display Color: Monochrome (White)
Main parameters of 0.49-inch PMOLED Display Module
| ITEM | Standard value | UNIT |
| Display SIZE | 0.49 | INCH |
| Display Type | PMOLED | — |
| Driver Element | Passive Matrix | — |
| Number of Dots | 64*32 | Dots |
| Display Color | Monochrome (White) | — |
| Pixel Pitch (W*H) | 0.175*0.175 | mm |
| Active Area | 11.18 * 5.58 (mm) | mm |
| Viewing Direction | all direction | — |
| Control IC | SSD1306 | — |
| Panel Size(W*H*T) | 14.5(W)*11.6(L)*1.227(H) | mm |
Download relevant technical documents
SSD1306 data sheet for small oled display
Specification of 0.49-inch small oled display
initial code for 0.49-inch small oled display
Circuit diagram of 0.42-inch oled display
Customize the length, width and thickness of FPC or cable, adjust the pin arrangement according to the interface type, and select the appropriate connector. Make your display or circuit board simple and safe with an excellent FPC solution.
A touch screen can be added according to your requirements, there are three options: resistive touch screen, capacitive touch screen, infrared touch screen. Or add protective glass as needed
Display screens with different optical parameters can be designed according to needs, such as brightness, color gamut, response time, gamma and other parameters, and anti-glare, anti-fingerprint coatings, etc. can also be added
The circuit board we designed can convert the interface of your display into an HDMI interface. If your product does not have any display control capabilities, you can use our serial display and only need to use simple commands to control the displayed content through RS232/458
0.49-inch OLED Display drawings and interfaces
0.49-inch monochrome OLED display with 64 x 32 resolution. The display can choose to display blue or white. It adopts advanced SSD1306 driver IC and supports I2C interface.
Designed with efficiency in mind, the product excels at low power consumption to ensure extended battery life in handheld devices. Additionally, its wide viewing angle enhances the overall user experience. The product is connected by welding, which is stable and simple.
The outline drawing is as follows:
Interfaces are defined as follows:
| Pin | Symbol | Detail |
| 1 | C2P | Data transmission line |
| 2 | C2N | Data transmission line |
| 3 | C1P | Data transmission line |
| 4 | C1N | Data transmission line |
| 5 | VBAT | Power Supply for DC/DC Converter Circuit |
| 6 | VBREF | NC |
| 7 | VSS | This is a ground pin. It acts as a reference for the logic pins. It must be connected to external ground |
| 8 | VDD | This is a voltage supply pin. It must be connected to external source |
| 9 | RES | This pin is reset signal input. When the pin is low, initialization of the chip is executed. Keep this pin pull high during normal operation. |
| 10 | SCL | IIC Bus Clock Signal |
| 11 | SDA | I2C Bus Data Signal |
| 12 | IREF | Current Reference for Brightness Adjustment |
| 13 | VCOMH | |
| 14 | VCC | This is the most positive voltage supply pin of the chip. A stabilization capacitor should be connected between this pin and VSS when the converter is used. It must be connected to external source when the converter is not used. |
