Nano Series GigE Vision Camera On-Semi Sensor Models • 75
Specifications: M2590, M2590-NIR, C2590
Supported Features M2590, M2590-NIR Nano-C2590
Resolution 2592 x 2048
Sensor OnSemi Python5000 P1 (5.1M)
Pixel Size 4.8 µm x 4.8 µm
Shutter type Full frame electronic global shutter function
Full Well charge 10ke (max)
Firmware option
(Field programmable)
Standard Design
Monochrome
(factory default)
Standard Design
Bayer
(factory default)
RGB-Output
Design
Max. Internal Frame Rate
Full Resolution (2592 x 2048)
51.8 fps (Fast Readout Enable)
24.7 fps (Normal Readout Enable)
Maximum Sustained Frame Rate
Output (with TurboDrive v1)*
42.7 fps (8-bit)
24.9 fps (10-bit)
N/A
Maximum Sustained Frame Rate
Output (without TurboDrive)
22 fps (8-bit)
5.5 fps (RGBA)
8.7 fps (RGB)
11 fps (Yuv422)
22 fps (8-bit mono)
Pixel Data Formats
Mono 8-bit
Mono 10-bit
Bayer 8-Bit
Bayer 10-Bit
RGBA 32-bit
RGB 24-bit
Yuv422 16-bit
Mono 8-bit
Trigger to Exposure Minimum delay
(Synchronous Exposure Alignment)
8 µs if exposureAlignment = Synchronous With No Overlap
between the new exposure and the previous readout
26.2 µs if exposureAlignment = Synchronous With Overlap
between the new exposure and the previous readout
Trigger to Exposure Minimum delay
(Reset Exposure Alignment)
3 µs
Trigger to Exposure Start jitter (best
case with Synchronous Exposure
Alignment)
Up to 1 line time
Trigger to Exposure Start jitter
(Reset Exposure Alignment) †
0 µs
Exposure Time Minimum
(see “exposureTimeActual” in
Sensor Control)
87 µs
(increment steps of 1µs)
Min. Time from End of Exposure to
Start of Next Exposure (second
frame)
49 µs – Normal Readout
47 µs – Fast Readout
Horizontal Line Time:
11.33 µs – Normal Readout
9.33 µs – Fast Readout
Readout Time
23242 µs – Normal Readout for 2592 x 2048
Add 76µs when overlapping Exposure and Readout
19142 µs µs – Fast Readout for 2592 x 2048
Add 64µs when overlapping Exposure and Readout
Specifically: ( Horizontal line time at current resolution * number of lines ) + (3
* ( line time of the 2590 model ))
Auto-Brightness Yes , with Auto-Exposure and AGC (FPGA Gain)
Black offset control Yes (in DN)
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