Method and system for monitoring position of a fluid actuator employing microwave resonant cavity principles

Assignee

• Jodon Engineering Associates, Inc. · US

Inventor

• Mark L. Haddox · Ann Arbor, US

Key dates

Classification

• Technology area (CPC G)Physics
• CPC primaryG05D3/20
• WIPO fieldMechanical elements
• WIPO sectorMechanical engineering

Abstract

A system and method for monitoring position of a piston within a fluid-actuated cylinder by radiating microwave energy into the actuator cylinder and measuring axial position of the piston as a function of microwave resonances and the frequencies at which such resonances occur. Separate microwave transmitting and receiving antenna probes are mounted on one end cap of the actuator cylinder, which has a fixed diameter and an axial dimension which varies as a function of piston position. The transmitting probe is coupled to an oscillator which is controlled to sweep a predetermined frequency range for generating one or more TM.sub.01q resonant modes within the cylinder cavity. A threshold detector and a peak detector are coupled to the receiving probe for detecting occurrence of cavity resonances. Latches store oscillator control signals associated with occurrence of up to eight such resonance events, with the stored control signals thus being an indication of resonant frequencies. A microprocessor is programmed to determine cavity length and piston position as a combined function of such resonant frequencies and the corresponding orders q of each frequency.