a2A1920-51gmIP67
- IMX392 Sensor
- GigE Interface
- 1/2.3" Sensor Format
- 51 fps Frame rate
- 2.3 MP Resolution (MP)
The Basler a2A1920-51gmIP67 GigE camera with the Sony IMX392 CMOS sensor delivers 51 frames per second at 2.3 MP resolution.
The ace 2 IP67 camera models offer complete protection against dust and water in accordance with the IP67 standard with a mounted lens housing and cables.
General Information
| Series Production | 08/2025 |
|---|---|
| Manufacturer | Basler |
| Order Number | 109660 |
| Product Family | ace 2 R |
| Product Line | ace 2 R with IP67 |
| Camera Series | Basler ace 2 |
| Camera Category | Area Scan Camera |
| Warranty | 36 Months |
Sensor
| Sensor Vendor | Sony |
|---|---|
| Sensor | IMX392 |
| Shutter | Global Shutter |
| Sensor Format | 1/2.3″ |
| Sensor Diagonal | 7.77 mm |
| Sensor Type | CMOS |
| Sensor Size | 6.6 mm × 4.1 mm |
| Resolution (H x V) | 1920 px × 1200 px |
| Resolution | 2.3 MP |
| Pixel Size (H x V) | 3.45 μm × 3.45 μm |
| Frame rate | 51 fps |
| Mono/Color | Mono |
| Spectrum | Visible |
EMVA Data
| Quantum Efficiency (typical/minimal) | 62.2 % (typical) |
|---|---|
| Dark Noise (typical/maximal) | 2.6 e¯ (typical) |
| Saturation Capacity (typical/minimal) | 10.5 ke¯ (typical) |
| Dynamic Range (typical/minimal) | 71.7 dB (typical) |
| Signal-to-Noise Ratio (typical/minimal) | 40.2 dB (typical) |
Camera Data
| Interface | GigE |
|---|---|
| Image Data Interface | Fast Ethernet (100 Mbit/s), Gigabit Ethernet (1000 Mbit/s) |
| Pixel Bit Depth |
|
| Exposure Control |
|
| Digital Input | 1 |
| General Purpose I/O | 2 |
| Power Supply | PoE or 12-24 VDC |
| Power Requirements (typical) | 3 W |
Housing
| Housing Type | Box |
|---|---|
| Protection Class | IP67 (with lens housing and cable) |
| Housing Size (L x W x H) | 55.5 mm x 31 mm x 31 mm |
| Weight | 72 g |
| Lens Mount | C-mount |
| Operating Temperature | -10 °C – 60 °C |
Conformity
- CE (incl. RoHS)
- FCC
- GenICam
- GigE Vision 2.0
- IP67
- RoHS
- UKCA
Easy Handling
| Auto Functions | Use the camera’s auto functions to allow the camera to find the optimum settings for exposure time, gain, and white balance, for example. This simplifies camera integration into your application. |
| Presettings | Automate recurring steps in your application by using the camera’s default settings and/or creating and saving your own presets. |
Image Quality Optimization
| Image Adjustment | Adjust pixel values losslessly with Black Level, Digital Shift, and other standard features. |
| Improvement of Image Quality | Reduce image artifacts caused by environmental influences. Correct individual pixel errors using Defect Pixel Correction. |
Process Control
| Burst Mode | Acquire a sequence of images after triggering once and output them as required. In High-Speed Burst Mode, you can temporarily bypass the data limitation of GigE. |
| Digital I/Os | Control the camera via trigger commands or use the camera to control components of your vision system, such as lighting or encoders. |
| Information Utilisation | Use additional information from Chunks and Events to optimize your automation. |
| Intelligent Light Control (SLP) | Control the lighting directly with the camera. By synchronizing the flash mode and adjusting the brightness levels, you can quickly achieve precise lighting conditions and shorten the development time of your application. |
| Timing | Control the start and end of an exposure individually. Add delays or synchronize multiple cameras in a GigE network using PTP. |
Speed Increase
| Data Reduction | Use the Binning, Decimation, or ROI features for customized data reduction. |