Fairchild T6100 Lock in Place I/P Pressure Transducers


Fairchild T6100  Lock in Place I/P Pressure Transducers Image

Are you interested in the product Fairchild T6100 Lock in Place I/P Pressure Transducers from manufacturer Fairchild with code T6100? Contact us now and get offer. Imtek Engineering, the fastest and most reliable industrial equipment supplier in the world, will offer you the best offer!

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FeaturesLocks in "Last Position."Extremely low drift after power loss.IP65 Rated.Single part number specification.Moisture resistant PCB and zinc coated componentsBenefitsAccurately captures setpoint if power is lost.Permits transducer to maintain set point.Unit handles moist applications.Makes it easy to specify and cover all your needsSuperior Construction for moisture resistance in tough applications.Uniquely designed by Fairchild, the T6100 "Lock in Last Place" I/P pressure transducer provides flexibility, reliability and safety in applications requiring protection from signal failures to critical control system instruments. Its simple yet effective voice coil actuation now Locks in "Last Position" to accurately capture the setpoint with extremely low drift after a power loss permits the T6100 to maintain set point. The unit's IP65 rating allows you to handle moist applications with ease. Design of the T6100 relies on a proprietary integrated solenoid valve module interposed between the flapper-nozzle pilot and the booster section. Upon signal failure, an electrical charge stored within the active electronic circuit controlling the integrated solenoid valve module maintains the current to the voice coil at its last setpoint. Simultaneously, a high energy pulse closes the solenoid valve, trapping the signal pressure within the signal chamber at the last setpoint. The booster continues to provide its normal forward and exhaust flow, with the constant signal pressure now captured and maintained within the signal chamber. Advanced valve orifice design of the T6100 increases its forward flow capacity to a minimum of 5-scfm at 21-psig supply pressure.