 |
|
+44 (0) 151 343 9966 |
|
+44 (0) 151 343 0062 |
|
|
|
| PRODUCT CATEGORIES |
 |
|
|
|
|
|
| Other News Stories : |
 |
|
Systems – Design and Build:
As you may expect with our extensive product range we are regularly requested to provide advice on how best to integrate many of our products into small and medium sized systems |
 |
|
|
Fine Controls are pleased to announce an extension to our agreement with
ITT Flow Control to now represent them for their Alcon Solenoid valve range and Landon Kingsway Fire Protection equipment. |
|
|
|
| Fine Controls (UK) are the Sole UK Distributor for FAIRCHILD Industrial Products |
|
|
|
| Introducing Burkert AirLINE systems, which support virtually any process field device. |
|
|
|
| Chemical seals designed for industrial, food processing & pharmaceutical applications. |
|
|
|
|
|
|
| Fail Freeze transducers engineered for the Harshest Environments |
|
|
When your application demands precision pressure control in tough, wet conditions, where power to the unit may be lost, you can rely on Fairchild’s Fail Freeze T6100 Transducer to
maintain control. With its lock in place design and superior sealing features, the T6100 is also impervious to dampness and moisture in the surrounding environment. Specify a T6100 when you need dependable and reliable performance from your instrumentation system.
Fairchild’s T6100 transducer is an accurate, robust, refined flapper–nozzle controlled transducer, standing on a proven 18 year history of reliable performance in wide ranging aggressive industrial environments. Uniquely, the T6100 “Lock in Last Place” feature now provides flexibility, reliability and safety in applications requiring protection from signal failures to critical control system instruments. 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. The electronic circuit activates the solenoid valve immediately upon detection of a signal that falls below a base value of 3.5mA. Upon restoration of the signal, the electronic circuit sends a high energy pulse to open the solenoid valve, restoring the pilot section’s pressure control of the signal pressure to the booster as in a typical transducer. The electronic detection circuit, in series with the T6100’s signal conditioning circuit, merely adds an additional voltage drop to the T6100’s normal control loop. Advanced valve orifice design of the T6100 increases its forward flow capacity to a minimum of 5-scfm at 21-psig supply pressure.
|
| |
|
|
|
|
FAIRCHILD 