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Canty High Temperature Cameras are ideal for demanding applications involving visual inspection or verification in extreme temperature environments between 750 F and 2500 F.
1) DATASHEET 2) PRESENTATION 3) INSTRUMENT AIR PREP SYSTEM 4) CANTY NON RETRACTABLE HIGH TEMPERATURE CAMERAS VS. RETRACTABLE SYSTEMS 5) 24″ PLUG FOR ULTRATEMP CAMERA WALL MOUNT TUBE 6) HIGH TEMPERATURE CAMERA QUESTIONNAIRE
1) TYPICAL ETHERNET ULTRATEMP HIGH TEMP.INSERTION VISION SYSTEM COMPONENT LAYOUT
2) TYPICAL ETHERNET VISION SYSTEM LAYOUT, HIGH TEMP. SYSTEM, NON-INSERTION, W VCM
3) TYPICAL ANALOG ULTRATEMP HIGH TEMP. INSERTION VISION SYSTEM COMPONENT LAYOUT
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Two high resolution GigE (gigabit ethernet vision) cameras enclosed in an IP67 temperature resistant full metal/jacketed housing cooled by either water or air. A unique orifice plate prevents debris from adhering to the lens, resulting in a clear view of the glass edge and ribbon at all times. Cameras come with a fully adjustable mounting system to allow for optimal camera positioning. Camera can be powered via PoE (power over ethernet) through a direct connection back to a Vector Control Module (embedded image processing system) with variable outputs for system control (analog, Modbus, OPC etc.)
Canty pan & tilt systems have been designed for use in hazardous areas in accordance with explosion proof, and flame proof requirements. · Class I, Div. 1, Groups B, C & D · Class II, Div. 1, Groups E, F & G, & NEMA 4 areas · EEx d IIC T6, IP66
An Ethernet camera is used to provide the measurement image to a customer supplied PC. The image from each camera is dynamically analyzed for bubble size, froth velocity and stability. CantyVision™ software is included with each camera. 4-20mA or OPC output to a PLC or DCS for complete automated control.
Interface control is crucial for ensuring that different components of a system or project can interact effectively and predictably. CANTY’s Image System for Continuous Interface Measurement is key for defining and managing the boundaries and interactions between interfaces. By controlling interfaces, projects can avoid costly rework, delays, and integration problems, ultimately leading to a more successful and efficient outcome.