Non-intrusive speed sensor
Abstract
In Phase I of the Non-Intrusive Speed Sensor program, a computerized literature search was performed to identify candidate technologies for remote, non-intrusive speed sensing applications in Space Shuttle Main Engine (SSME) turbopumps. The three most promising technologies were subjected to experimental evaluation to quantify their performance characteristics under the harsh environmental requirements within the turbopumps. Although the infrared and microwave approaches demonstrated excellent cavitation immunity in laboratory tests, the variable-source magnetic speed sensor emerged as the most viable approach. Preliminary design of this speed sensor encountered no technical obstacles and resulted in viable and feasible speed nut, sensor housing, and sensor coil designs. Phase II of this program developed the variable-source magnetic speed sensor through the detailed design task and guided the design into breadboard fabrication. The speed sensor and its integral speed nut were evaluated at both unit and system level testing. The final room-temperature and cryogenic spin testing of the hardware demonstrated that the sensor was capable of generating sufficient output signal to enable remote speed sensing from 1500 to 40000 rpm over a speed nut/sensor separation of 3.5 inches.
- Publication:
-
NASA STI/Recon Technical Report N
- Pub Date:
- April 1986
- Bibcode:
- 1986STIN...8630125W
- Keywords:
-
- Infrared Detectors;
- Intrusion;
- Magnetic Probes;
- Microwave Probes;
- Remote Sensors;
- Space Shuttle Main Engine;
- Speed Indicators;
- Turbine Pumps;
- Bibliographies;
- Breadboard Models;
- Cavitation Corrosion;
- Cryogenics;
- Design Analysis;
- Environments;
- Evaluation;
- Fabrication;
- Room Temperature;
- Instrumentation and Photography