By combining their legendary color processing technology with the capabilities of the latest generation SCMOS sensors, MIC TECH have created a paradigm shift in color camera performance.The launch of the MIC-D40DC, thanks to its sensitivity, perfect color reproduction and impressive noise minimization, results in a new capability which has formerly been unavailable in the field of scientific imaging.
High Sensitivity Color SCMOS Sensor
Some opportunities are fleeting, but should not be missed.
As a result of the breakthrough performance of the scientific grade color CMOS sensor, the MIC-D40DC produces perfect images in very low light conditions, allowing for vastly reduced exposure times and corresponding high frame rates, whilst maintaining the richness of the image detail information.
2e-Readout Noise
The readout noise of the MIC-D40DC is only 2e-, just one-third of existing CCD or CMOS cameras in the market. This delivers truly extraordinary signal-to-noise ratio and consistent image quality whether in bright field or dark field.
Perfect 16bit color reproduction
Outstanding color, with unique user control
Inherited from the acclaimed MIC TECH D series of cameras, the MIC-D40DC color processing is capable of a level of precision that imitates the color sensitivity of the human eye, producing extreme-high color definition. The 16 bit ADC guarantees the quality of image tone and detailed differences can be resolved so the monitor image is matched to the eyepiece view.
16 bit ISP image processor
The DMIC-D40DC adopts an innovative 16 bit ISP image processor, with functions for high-definition image quality processing and fast output, to ensure high speed high quality images, with greater fidelity and precision.
Peltier Cooled Device
Understatement is our symbol of quality
Steady cooling leads to significantly lower dark current, improving the signal to noise ratio, which results in greatly improved sensitivity and image quality. The MIC-D40DC utilizes Peltier technology and achieves an operating temperature of -10°C resulting in extremely low and stable dark current. The MIC-D40DC delivers consistent image quality day after day.
1.2 inch-larger field of view
The 1.2 inch chip offers microscope users a larger field of view, with a direct full frame observation experience.
USB3.0-Faster data transmission
Uses USB3.0 high speed transmission.
Model | MIC-D4DC |
Sensor size | 1.2〃 |
Sensor model | G2020e(FSI SCMOS) |
Color/monochrome | Color |
Effective no. of pixels | 2048(H) x 2048(V) |
Pixel size | 6.5μm x 6.5μm |
Effective area | 13.3mm × 13.3mm |
Full well capacity | HDR:30000e- |
Frame rate (full resolution) | 22 fps@8bit,16 fps@16bit |
Read noise | HighGain:1.7e- |
Shutter type | Rolling shutter |
Exposure model | Auto/Manual |
Exposure time | 0.021ms-10s |
Cooling temperature | Forced air(Ambient at +25℃):-10 ℃ |
Dark current | 0.6 electrons/pixel/s(0 ℃)(typ.)
0.35 electrons/pixel/s(-10 ℃)(typ.) |
Dynamic range | 85dB |
Sub-array | Support |
External trigger mode | Hardware:Standard/Synchronous/Global trigger; Software |
Signal output ports | Exposure / Global / Readout |
External trigger routing | Hirose |
Digital interface | USB3.0 |
SDK | Support |
Bit depth | 16 bit/8 bit |
Lens mount | C-mount |
Power supply | 12V/8A |
Power consumption | 50W |
Camera size | 120 x 119 x 121(mm) |
PC software | Mosaic/LabVIEW/Matlab/Micromanager/MetaMorph |
Compatible system | Windows/Linux |
Operating environment | 0-40℃, 10%-85% RH |
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