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MIC-PHAU HDMI USB CMOS SD card camera

MIC-PHAU HDMI USB CMOS SD card camera MIC-PHAU is a multiple interfaces HDMI+USB2.0+SD card, CMOS camera and it adopts ultra-high performance Aptina CMOS sensor as the image-picking device. HDMI+USB2.0 are used as the data transfer interface to HDMI display or computer. For HDMI output, The XCamView will be loaded and a camera control panel and toolbar are overlaid on the HDMI screen, in this case, the USB mouse can be used to set the camera,browse and compare the captured image,play the video ital. For USB2.0 output,unplug the mouse and plug in the USB2.0 cable to the camera and computer, then the video stream can be transfer to computer with the advanced software.  With software, you can control the camera.
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MIC-PHAUBB HDMI USB WIFI CMOS camera

MIC-PHAUBB HDMI USB WIFI CMOS camera Basic Characteristic MIC-PHAUBB is a multiple interfaces (HDMI+WIFI+SD card) CMOS camera and it adopts ultra-high performance Sony CMOS sensor as the image-picking device. HDMI+WIFI are used as the data transfer interface to HDMI display or computer. For HDMI output, The XCamView will be loaded and a camera control panel and toolbar are overlaid on the HDMI screen, in this case, the USB mouse can be used to set the camera,browse and compare the captured image,play the video ital. For WIFI output, unplug the mouse and plug in the USB WIFI adapter, connect the computer WIFI to the camera,then the video stream can be transferred to computer with the advanced software. With software, you can control the camera, process the images.
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MIC-PHB PHC HDMI USB CMOS SD card camera

MIC-PHB PHC HDMI USB CMOS camera
  1. Through standard HDMI interface to stream the video to displayer or HDTV.
Aptina CMOS sensor;
  1. Easy connecting to other equipment on the production line with the C-mount optical interface.
  2. High-resolution and high frame rate, perfect color reproduction, highly integrated and compact, low failure rate and stable performance.
  3. 1280 x720 (720P) resolutionsto match the current high-definition displayer on themarket.
  4. MIC-PHAUB/MIC-PHAUC is embedded XCamView based on the Qt platform. The camera characteristic can be controlled by XCamView through the mouse. The other basic processing and choosing can also be realized by the XCamView.
  5. MIC-PHAUB/MIC-PHAUC can meet various applications and can be widely used in industrial inspection, education and research, materials analysis, precision measurement, medical analyses etc.
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MIC-SCCCD TE Cooling USB2.0 Camera

MIC-SCCCD TE Cooling USB2.0 Camera SCCCD adopts semiconductor cooling peltier chip technique to keep Sony ExView HAD or HAD CCD sensor (The image-picking device) at low temperature. This will greatly increase the signal to noise ratio and decrease the image noise. Besides, integrated heat pipe-heat sink technique is used to transfer the heat to the camera housing fins. No fan is needed to keep the camera from vibration. USB2.0 is used as the data transfer interface to keep the moderate frame rate. SCCCD comes with advanced video & image processing application software; Providing Windows/Linux/OSX multiple platform SDK; Native C/C++, C#/VB.NET,DirectShow, Twain Control API; The SCCCD can be widely used in low light environment and microscope fluorescence image capture and analysis.
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MIC-TE Cooling USB2.0 USB3.0 CCD Camera

MIC-TE Cooling USB2.0 USB3.0 CCD Camera MIC-TE camera adopts Sony Exview HAD CCD II sensor as the image-picking device with two-stage peltier cooling imaging chip to -50degreebelow ambient.This will greatly increase the signal to noise ratio and decrease the image noise. Smart structure is designed to assure the heat radiation efficiency and avoid the moisture problem.Electric fan is used to increase the heat radiation speed. USB3.0 is used as the data transfer interfacet o increase the frame rate. MIC-TE comes with advanced video & image processing application software; Providing Windows/Linux/OSX multiple platform SDK; Native C/C++, C#/VB.NET,DirectShow, Twain Control API; The MIC-TE can be widely used in low light environment and microscope fluorescence image capture and analysis, as well as the astronomy application.