ELECTROMECHANICAL ACTUATION FOR LAUNCH VECHICLES

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Transcription:

ELECTROMECHANICAL ACTUATION FOR LAUNCH VECHICLES Presented By: Mark A. Davis Moog Inc. 37th AIAA/ASME/SAE/ASEE Joint Propulsion Conference Salt Lake City, Utah July 10, 2001

Introduction This paper describes recent developments in Electromechanical Actuation applied to Launch Vehicles. The following topics are discussed: 4 Electromechanical (EM) Actuation System Design 4 Comparison of Electromechanical and Electrohydraulic Actuation Systems 4 High Power EM Thrust Vector Control (TVC) Systems 4 Redundant EM TVC Systems 4 Propellant Valve Electromechanical Actuation

Electromechanical TVC Actuation System

Electromechanical Servoactuator System BATTERY VOLTAGE A+ B+ C+ BRUSHLESS MOTOR POSITION COMMAND SERVO CONTROLLER ELECTRONIC COMMUTATION CURRENT CONTROLLER PULSE WIDTH MODULATOR A+ A- B+ B- C+ C- A- B- C- GEAR REDUCTION BALL SCREW OUTPUT POSITION MOTOR PHASE CURRENT MOTOR POSITION MOTOR VELOCITY RESOLVER SIGNAL CONVERTER RESOLVER AC EXCITER LVDT ACTUATOR POSITION DEMODULATOR L5112.DRW Permanent Magnet Brushless Motor Sinusoidal Motor Drive

Comparison of EM and EH Actuation Systems Advantages of Conventional Electrohydraulic Systems 4 Mature Technology 4 High Reliability 4 Can Use Relief Valves to Limit Piston Force Effective to Handle Impulse Load 4 Continuous Stall Torque Capability 4 High Acceleration Capability 4 No EMI Generation 4 Simple, Low Power Electronics 4 Mature Redundancy Implementation

Comparison of EM and EH Actuation Systems Advantages of Electromechanical Systems 4 Excellent Long-Term Storability 4 Easy Checkout 4 Easy Installation 4 Low Maintenance 4 Minimal Operations Cost 4 Low Quiescent Power 4 No Fluid Leakage 4 No Concern for Fluid Contamination 4 High Reliability 4 Lower Weight than Hydraulic Blowdown TVC Systems

Limitation of EM Actuation Systems Typical EM System Frequency Response Limits

38 HP EM TVC ACTUATOR Dual Torque-Summed Motors Output Travel.+/- 5.5 in Impulse Load.. 100,000 lb Stall Force 55,000 lb Acceleration..60 in/sec^2 Rated Power..38 HP Duty Cycle 10 min Output Force..48,000 lb Average Load 15,000 lb Output Velocity..5.2 in/sec Supply Voltage.270 VDC Full Performance with one motor

38 HP EM Actuation System Force-Velocity Test Data On SSME Test Fixture

38 HP EM Actuation System Frequency Response Test Data On SSME Simulator Load Position Response (+/- 2 % COMMAND)

38 HP EM Actuation System Frequency Response Test Data On SSME Simulator Load Position Response (+/- 5 % Command)

Controller Controller Critical to Performance of EM Systems Breadboard Controller Used to Demonstrate 38 HP EM TVC System Development of Flight Worthy High Power EM Controller

Moog DSP-Based Digital Controller Digital Loop Closure IGBT Power Stage 320 VDC Maximum Supply Voltage 200 Amps Peak Motor Phase Current Vector Control / Sinusoidal Motor Drive Demonstrated with a 20 HP EM TVC Actuator

EM TVC Actuators For Large Solid Rocket Motors Two TVC Actuators Have Been Demonstrated 12 HP 21 HP --- Brushless PM Motor Stall Force (lb) 4600 31,000 --- Ballscrew Stroke (in) +/- 1.92 +/- 1.5 --- LVDT Length (in) 15.5 17.0 Power Point Velocity (in/sec) 20 5.85 Force (lb) 4000 24,000 Weight (lb) 16 75 Voltage (VDC) 280 280

Upper Stage Redundant EM TVC Systems Flight Proven Active-Standby Redundancy Full Performance with one motor operating Six-Step Motor Drive

Upper Stage Redundant EM TVC Systems Typical Performance Summary Stroke Stall Force No-load Velocity Output Power Frequency Response Actuator Length Supply Voltage Electrical Interface Actuator Weight Controller Weight +/- 0.75 in 2000 lb 3.0 in/sec 0.4 HP 90 deg phase @ 4.3 Hz 23.25 in 28 VDC MIL-STD-1553 17 lb each 27 lb

Upper Stage TVC System Block Diagram Active-Standby Redundancy Full Performance With One Motor Operating

Propellant Valve EM Actuation Systems Dual Redundant Brushless Motors Harmonic Drive Provides Rotary Output Redundant Controller Typical Performance Stroke...+/- 70 deg Output Power..0.05 HP Velocity..340 deg/sec Torque..60 in-lb Actuator Weight.8.2 lb Controller Weight.21.3 lb Voltage.28 VDC

Summary Electromechanical Actuation is a Reality for Launch Vehicles 4 Flight Proven EM TVC Systems on Upper Stages High Power Applications (Booster TVC Systems) 4 EM Actuation is a Viable Alternative to Electrohydraulic Actuation 4 High Power EM TVC Systems are Flight Ready 4 EM TVC Systems Offer the Potential of: Lower Life Cycle Cost Lower Weight