Introduction Jelly1 series smart industrial cameras are mainly designed for machine vision and various image acquisition areas. The cameras are very compact, occupy a very small space, can be used on machines or solutions which have limit space. Resolution from 0.36MP to 3.2MP, speed upto 60fps, support global shutter and rolling shutter, support opto-couplers isolation GPIO, support multi-cameras work together, compact and light. Features 1. 0.36MP, 1.3MP, 3.2MP resolution, total 5 models mono/color industrial digital camera; 2. USB2.0 interface, up to 480Mb/s, Plug and play, no need external power supply; 3. Provide completed API for users' secondary development, provide Demo Source Code, Support VC, VB, DELPHI, LABVIEW and other development language; 4. Support firmware upgrade on-line; 5. Support Windows XP / Vista / 7 / 8/10 32&64 bit Operation System, can customize for Linux-Ubuntu, Android Operation System; 6. CNC processed precision aluminum alloy shell, size is 29mm×29mm×22mm, net weight: 35g; 7. Board camera is available. Application Jelly1 series industrial cameras are mainly designed for machine vision and various image acquisition areas. They are mainly used for following areas: Medical and life sciences AreaMicroscope ImagingMedical diagnosisGel Imaging Live Cell ImagingOphthalmology and iris imaging Industrial AreaElectronics and semiconductor inspectionVisual positioning(SMT/AOI/Glue dispenser)Surface defect detection3D scanning machinePrinting quality inspectionFood and medicine bottles inspectionRobot weldingTag OCR/OCV identificationRobot arm visual positioningIndustrial production line monitoringVehicle wheel alignment machineIndustrial MicroscopeRoad toll and traffic monitoringHigh speed vehicle plate image capturePublic security and investigationBiometricsFingerprint, palm print image captureFacial recognitionLicense image captureDocuments and notes image capture and identificationSpectroscopy testing equipmentSpecification
NIR Enhancing CMOS
752 × 480
1280 × 1024
2048 × 1536
Signal Noise Rate
Input & Output
Optocoupler isolation GPIO, 1 of external trigger input, 1 of flash light output, 1 of 5V input/output
Auto / Manual
Auto / Manual
Image preview, image capture(bmp, jpg, tiff), Video record(compressor is optional)
Preview FOV ROI, Capture FOV ROI, SKIP/Binning mode, Contrast, Brightness, Saturation, Gamma value, RGB color gain, exposure, dead pixels remove, focus evaluation, custom serial number (0 to 255)
Mini USB2.0, 480Mb/s
USB2.0 Power Supply, 200-300mA@5V
ActiveX, Twain, DirectShow, VFW
Support 8bit, 24bit, 32bit image preview and capture, save as Jpeg, Bmp, Tiff format
Windows XP/VISTA/7/8/10 32&64 bit OS (can customize for Linux-Ubuntu, Android OS)
Support VC, VB, C#, DELPHI developing Language; OPENCV, LABVIEW, MIL thirty-parties' machine vision software
Standard C-Mount ( CS and M12 mount are optional)
29mm×29mm×22mm((C-mount is not included))
Equipped with standard infrared filter(not available in mono camera), 2m USB cable with fix screws, 6-pin Hirose GPIO connector, 1 CD with software and SDK.
Power Supply The camera is powered by USB2.0 BUS POWER, the power supply is 5V@500mA, The BUS POWER provide power supply to the camera, at the same time, it provides power supply via diode SMB540, the power is about 200mA@5V.
GPIO Input Interface The following figure is the schematic diagram of external trigger input, the inputted signal has been insulated by opto-coupler TLP281.
TLP281 conversion performance The camera's internal optocoupler VCC = 5V, If IF = 16mA, then the external trigger input Rising edge Delay is 2us, Falling edge Delay is 25us; When using "TRIGGER_IN +" as trigger source, the trigger electrical level range is 0V- + 5V. If the trigger source electrical level is out of this range, an external current limiting resistor should be connected, the optocoupler works under current of 10mA. Limiting resistor is calculated as follows:
R = 100 x ( Vin - 0.7 ) - R0 Vin is Trigger source electrical level R0 is The camera's internal series resistor 200 Ohm R is the required external series resistor.
Under normal temperatures (0- + 50 degrees) , the maximum operating current of the optocoupler is 50mA, standard operating current is 10mA, if it exceeds the maximum allowable current, optocouplers may be burned.
For some flash light which has Rising edge input (We can measure the flash light pin to determine whether there is a Rising edge input, if we have measured a pin has electrical level signal, it can be judged there is Rising edge electrical level internal the flash light, such as the K-150A models flash light, one of the synchronous trigger pin end is + 5V, and the other end is GND), you can use the connection diagram below: