Fuel systems for gas turbine engines
First Claim
1. A gas turbine engine fuel system comprising the combination of an hydromechanical speed governor fuel flow control, an electrically operable valve in series with the fuel flow control, and a control circuit connected to said electrically operable valve comprising a phase advance compensation circuit for advancing the phase of incoming signals from an engine speed transducer, said phase advance compensating circuit having input means for receiving said incoming signals, differential amplifier means connected to said phase advance compensating circuit and to a limit signal, and an amplifier connected to said differential amplifier means and having a non-linear transfer characteristic such that its amplification factor is increased significantly when the input thereto representing the error between the phase compensated speed signal and a limit signal exceeds a predetermined level, said amplifier providing an electrical output connected to and controlling said electrically operable valve.
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Accused Products
Abstract
A gas turbine engine fuel control has a main hydromechanical fuel flow control and an electrically operable valve in series with the flow control for speed limitation purposes. The valve is controlled by a signal NL or NH derived from an engine speed transducer. A phase advance compensation circuit advances the phase of the transducer signal and its output is applied to an error amplifier which compares it with a datum (which may vary with altitude). The error signal is applied to a non-linear amplifier the amplification factor of which increases when a certain error threshold is exceeded. The combination of phase advance and non-linear amplification ensures rapid limitation of speed without introducing stability problems.
8 Citations
3 Claims
- 1. A gas turbine engine fuel system comprising the combination of an hydromechanical speed governor fuel flow control, an electrically operable valve in series with the fuel flow control, and a control circuit connected to said electrically operable valve comprising a phase advance compensation circuit for advancing the phase of incoming signals from an engine speed transducer, said phase advance compensating circuit having input means for receiving said incoming signals, differential amplifier means connected to said phase advance compensating circuit and to a limit signal, and an amplifier connected to said differential amplifier means and having a non-linear transfer characteristic such that its amplification factor is increased significantly when the input thereto representing the error between the phase compensated speed signal and a limit signal exceeds a predetermined level, said amplifier providing an electrical output connected to and controlling said electrically operable valve.
Specification