Product

7615 Hydraulic Pressure Controller
7615 Hydraulic Pressure Controller 27615 Hydraulic Pressure Controller 3

7615 Hydraulic Pressure Controller

Out Of Stock

Overview

  • Ranges from 6000 to 40,000 psia (415 to 2750 bar)
  • Precision to 0.01% of range
  • High speed pressure control
  • Control stability to 0.01% full scale
  • Cycle mode for fatigue and pressure testing
  • Labview® driver available

The Series 7615 Hydraulic Pressure Controller provides a unique, high speed approach to high pressure calibration and testing. Utilizing patented control technology, the 7615 can control to the set-point in five seconds or less for a pressure step up to 4 000 psi. A variety of pressure ranges are available to 40 000 psi (2 750 bar). The unit is compatible with virtually any non-corrosive pressure media including water, synthetic oils, Fluorinert, mineral oil, and others. The 7615 is also available with the Triple Scale / Dual Sensor option which can provide up to six ranges in one instrument.

The Series 7615 Hydraulic Pressure Controller provides a Fast control mode where the pressure setpoint is achieved in typically five seconds or less, even when controlling into a 50 cc load volume! This combination of speed, pressure range and compatibility with virtually any liquid media is unique to the 7615. The 7615 is an excellent choice for automated life cycle/fatigue testing applications, high volume transducer manufacturing such as diesel fuel rail sensors and transducers, high pressure automotive transducers such as those used in braking systems and throttle body sensors along with virtually any application that involves high pressure test or calibration using a liquid media for safety, compatibility or other concerns. The 7615 increases throughput and reduces cost through speed and automation without sacrificing performance. In addition to Fast mode, the 7615 also allows the option of operating in the Normal control mode where the contact parameters are optimized to provide the fastest route of pressure change with minimal overshoot.