Critical Note
Always validate driver IC compatibility (e.g., SSD1680, UC8179).
Waveform LUTs (Look-Up Tables) for tri-color + fast refresh differ
from monochrome displays.
Suggested Troubleshooting Tools:
Logic analyzer for SPI signals
Temperature-controlled testing environment
epdiy firmware (open-source EPD debugger)
Let me know if you need protocol details or waveform configuration
examples!
| Product: | 2.9 Inch Eink EPaper Display |
| Resolution: | 296 X 128 Dots Resolution |
| Display Mode: | Active Matrix Electrophoretic Display (AM EPD) |
| Optics: | All Viewing Angles |
| Outline Dim.: | 79.0(H) X 36.7(V) X 1.0(T) Mm |
| Active Area: | 66.896(H) X 29.056(V) Mm |
| Pixel Pitch: | 227 X 226 (112dpi) Um |
| Operating Temp: | 0°C To +40°C |
| Storage Temp: | -25°C To +60°C |
| Color: | Black/White/Red |
| Surface Treatment: | Anti-Glare, 3H |
| Pin Number: | 24 Pins |
| Interface: | SPI |
| Pixel Arrangemen: | Vertical Stripe |
| Input Current: | 3.1 MA |
| Compliance: | Rohs & Reach Compliant |
Drawing
Interface pin definition:
| Pin# | Single | Description | Remark |
| 1 | NC | No connection and do not connect with other NC pins | Keep Open |
| 2 | GDR | N-Channel MOSFET Gate Drive Control |
|
| 3 | RESE | Current Sense Input for the Control Loop |
|
| 4 | NC | No connection and do not connect with other NC pins | Keep Open |
| 5 | VSH2 | Positive Source driving voltage |
|
| 6 | NC | No connection and do not connect with other NC pins | Keep Open |
| 7 | NC | No connection and do not connect with other NC pins | Keep Open |
| 8 | BS1 | Bus selection pin | Note 6-5 |
| 9 | BUSY | Busy state output pin | Note 6-4 |
| 10 | RES # | Reset signal input. | Note 6-3 |
| 11 | D/C # | Data /Command control pin | Note 6-2 |
| 12 | CS # | The chip select input connecting to the MCU. | Note 6- 1 |
| 13 | SCL | Serial clock pin for interface. |
|
| 14 | SDA | Serial data pin for interface. |
|
| 15 | VDDIO | Power input pin for the Interface. |
|
| 16 | VCI | Power Supply pin for the chip |
|
| 17 | VSS | Ground (Digital) |
|
| 18 | VDD | Core logic power pin |
|
| 19 | VPP | Power Supply for OTP Programming |
|
| 20 | VSH1 | Positive Source driving voltage |
|
| 21 | VGH | Power Supply pin for Positive Gate driving voltage and VSH |
|
| 22 | VSL | Negative Source driving voltage |
|
| 23 | VGL | Power Supply pin for Negative Gate driving voltage, VCOM and VSL |
|
| 24 | VCOM | VCOM driving voltage |
|
Product Overview:
The EPD-290BWR is a high-resolution, low-power electronic ink
display module that is highly suitable for a wide range of
applications. It measures 2.9 inches, has a resolution of 128×296,
and supports black, white and red. It can be used to display text,
images and graphics clearly and efficiently.
The main features of EPD-290BWR are as follows:
· High resolution: 112dpi, capable of easily displaying fine
patterns
· Low power consumption: Requires very little power during updates
and can maintain images without power
· Ultra-wide viewing Angle: Nearly 180°, allowing for easy viewing
from any Angle
· Ultra-thin and ultra-light It is highly suitable for portable
applications.
· SPI interface: Can be easily connected to a microcontroller.
· Compliant with RoHS standards: Meets environmental protection
standards
Typical applications of EPD-290BWR:
· e-readers · Digital signage
· Electronic shelf labels
· portable gaming devices
· etc
Additional note:
The operating temperature range of EPD-290BWR is from 0 to +40
degrees Celsius. The storage temperature range of EPD-290BWR is
from -20 to +60 degrees Celsius. The monitor is sensitive to
moisture and ultraviolet rays. It is recommended to store the
monitor in a cool, dry and dark place.
Key Selling Points
Tri-Color Display (Black/White/Red)
Fast Refresh Capability
Ultra-Low Power Consumption
Sunlight-Readable & Wide Viewing Angle
Durability and Flexibility
Wireless and Battery-Free Options
Easy Integration
Standard SPI interface with open-source drivers for Raspberry Pi,
Arduino, STM32, and ESP8266/32 platforms.
Target Application Scenarios
Smart Retail & Logistics
Industrial Instrumentation
Healthcare & Tracking
Medication labels, patient wristbands, and hospital bed cards with
secure, non-volatile information display.
Smart Consumer Devices
Sustainable IoT Solutions
Key Precautions
Refresh Mode Management
Temperature Sensitivity
Voltage Requirements
Mechanical Protection
UV Exposure
ESD Sensitivity
Frequently Asked Questions (FAQs)
Q1: How "fast" is partial refresh?
A: Partial refresh takes 0.3–0.5s (flicker-minimized), but requires
a full refresh (~2s) every 5–10 updates to clear ghosting.
Q2: Can I drive this with Arduino/Raspberry Pi?
A: Yes, via SPI interface. Use libraries like GxEPD (Arduino) or
waveshare-epd (RPi). Ensure your driver board supports tri-color
waveforms.
Q3: Why does red update slower than black/white?
A: Red electrophoretic particles have higher inertia. Full refresh
is needed for crisp red elements.
Q4: Does it work below 0°C?
A: Not recommended. Below 0°C, refresh time increases significantly
(>5s), and red may fail to update.
Q5: How to fix persistent ghosting?
A: Run a 3-step sequence: Full white → Full black → Full white
refresh. Avoid high-contrast partial updates.
Q6: Can I use wireless (NFC/RF) updates?
A: Only with dedicated ESL controller ICs (e.g., RA8875). Standard
SPI displays require wired control.
Q7: Why does red appear muddy after partial refresh?
A: Red requires full-voltage waveforms. Use EPD_FULL mode for red
elements or reduce partial refresh frequency.
Q8: Power consumption during refresh?
A: ~25–35mA @3.3V during update (30–50mW), zero in static mode.
Q9: Is touch overlay compatible?
A: Possible but not advised. Overlays reduce clarity and
reflectivity. Use IR/frame-based touch instead.
Q10: How to optimize battery life?
A:
