CAMS™

Features and Benefits:

• Accuracy. The CAMM™ is designed to maintain a measurement accuracy of ±0.1% of Natural Span. For a span of 0 to 0.05 IN w.c., this accuracy is equivalent to an output accuracy of ±0.00005 IN w.c. differential pressure or ±0.45 FPM velocity at Natural Span.
• Continuous Display of Process. All CAMMs are equipped with a large multi-line, backlit, graphical 5×20 LCD for use during transmitter configuration and calibration, and to display multiple measured process variables (Flow, Temperature, Absolute Pressure, Differential Pressure, or Special Function). For high visibility, the main process variable (flow) is displayed with easy-to-read, triple-size digits. Other process variables are displayed with standard size digits. Each measured process variable is individually scalable in user selectable engineering units.
• Special Functions Capability. Built into the CAMM™ micro-processor is the capability to perform special application functions involving two transmitters. Using a second transmitter as an input, the CAMM™ can compute the sum of, or differential between the two measured flows. The special function output can be both displayed and provided as an analog output signal.
• Microprocessor Based Functionality. The CAMM’s™ on-board microprocessor performs the functions of operating parameter selection, transmitter configuration, input/output and display signal scaling, density correction, and transducer calibration.
• Keypad. A cover mounted keypad provides instant access to all CAMM™ configuration menus and calibration functions. The durable membrane keypad is user configurable for password protection.
• ModBus Network Communication. Each analog input and output signal can be individually configured for 0-5VDC, 0-10VDC or 4-20mADC by means of a single jumper.
• High Turndown Ratio Operation. The CAMM™, with its high level of accuracy and automatic zeroing circuitry, can maintain linear output signals on applications requiring flow measurement turndown of 10:1.
• Primary Signal Noise Filter. To eliminate background noise and pulsations from the flow signal, the CAMM™ is equipped with a user selectable digital low pass filter.
• Air Density Correction. The CAMM™ can perform density compensation for both air temperature and air pressure variations. Temperature input is an analog signal from a remote temperature transmitter; non-linear temperature inputs can be linearized by the microprocessor. Process pressure is measured by means of an internal absolute pressure transducer connected to the transmitter static pressure signal input.
• Optional Rapid Stop™. The Rapid Stop™ valving combined with purge sequence timing in the CAMM™ permits a reduction of the recovery portion of an AUTO-purge cycle from a typical 30 seconds to as short as 5 seconds.
• Built-in Characterization Function. For installations requiring a field characterization factor (K-factor) the CAMM™ has an integral “K-factor” calculator with gain and/or bias, or multi-order polynomial function to accurately match field testing results throughout flow turndown..