5/6/2023 0 Comments Ninox swir 640![]() A Software Development Kit (SDK) is available for interfacing with custom software. The Camera Link digital interface provides the most stable platform for data transfer and the camera will work on any Camera Link standard card. With TEC and liquid cooling to -20 C the Ninox 640 reduces dark current to ~1,500e/p/s, allowing longer exposures. High-speed low-noise electronics provide linear response and sensitivity for rapid image capture. The NINOX 640 camera uses an InGaAS sensor with a resolution of 640 x 512 in a 14-bit digital output. SPECIFICATION 2.1 Camera Specification The NINOX 640 digital camera is designed for high-resolution applications requiring visible to SWIR imaging ( nm). Ensure you are using a static strap or are completely grounded at all times to release any static energy before you clean the window. CAUTION The camera s sensor, and circuits are sensitive to static discharge. Apply forced air again to remove any loose particles. To clean the sensor window: gently wipe the face of the sensor window with a small amount of optical grade isopropyl alcohol and lens paper. Should any other issues occur please contact your local agent. 1.2 Camera Care Raptor cameras require no regular maintenance except occasional external cleaning of the sensor window (the glass window between the camera sensor and the microscope or lens). Raptor recommends that this manual be used to optimize camera operation. INTRODUCTION 1.1 Scope This manual covers the Ninox 640 digital camera and all applicable components. ![]() (400- Headquarters: Willowbank Business Park, Larne, Co.1 Ninox 640 VIS-SWIR Model: NX1.7-VS-CL-640 USER MANUALÄ¢ CONTENT CONTENT INTRODUCTION SPECIFICATION GETTING STARTED EPIX XCAP MICRO-MANAGERÄ£ 1. This paper will be restricted to a discussion of the performance of InGaAs detector arrays, sensitive in the VIS-SWIR region, i.e. The use of imaging systems to capture long wavelength photons (beyond the detection range of Silicon based devices) continues to increase in many diverse application areas, such as life sciences, security & surveillance, non-destructive testing, quality control and astronomy. Figure 1: The typical definition of the various sub-regions of the electromagnetic spectrum, covering visible through to infrared wavelengths. ![]() Each of the materials above present their own advantages and challenges and therefore prior to detector selection the user must consider all aspects of the intended application, in addition to simply the wavelength response. The typical definition for each 'sub-region' within VIS-IR wavelength range is outlined in Figure 1. The materials listed have been developed into detection systems which enable images to be acquired within the various regions of the visible to infrared spectrum. ![]() Detector Material Typical VIS-IR Detection Range Indium Gallium Table 1: Common detector materials and their typical detection range within the VIS-IR wavelength Above llOOnm, Silicon is transparent and therefore cannot be used to detect photons of these wavelengths, however many other materials do have photon sensitivity at these wavelengths and longer, see Table 1. Typically the quantum efficiency (QE) of these detectors decreases rapidly as the detection wavelength increases further into the NIR region. CCDs or CMOS) are widely used in high performance imaging applications, detecting wavelengths from soft x-ray through to near infrared (NIR). High Performance SWIR Imaging Cameras Introduction to SWIR Imaging Silicon based area detectors (e.g.
0 Comments
Leave a Reply. |