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Proceedings Paper

The Motion Control System For The Large Optics Diamond Turning Machine (LODTM)
Author(s): Howard K. McCue
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Paper Abstract

LODTM, built by LLNL for DOD, is a precision vertical lathe used to diamond turn large optical parts (to 64" diameter) to 1 μinch rms figure error. The LODTM motion controls require precision sensors, precision servos, and a wideband (330 Hz) real time computer. Position is sensed to 1/40 μinch resolution by laser interferometers and differential capacitance gauges. Precision servos operating at 1/10 μinch resolution and at low velocities with zero backlash are required. A unique Fast Tool Servo (FTS), located close to the diamond tool, adjusts the final tool position. The LODTM controls coordinate the X, Z, and FTS servos to cause the tool to move on a specified contour and at a specified feedrate in the X-Z plane. The part floppy diskette commands this motion with a linear CNC and real time (32-bit) computer. During each 1.5 ms sample time, the computer must DMA 14 sensor readings into memory, calculate the X and Z Tool Coordinates, calculate the FTS input, output the following errors, output the FTS input, store "flight recorder" information, and check for anomalies.

Paper Details

Date Published: 9 December 1983
PDF: 8 pages
Proc. SPIE 0433, Contemporary Methods of Optical Manufacturing and Testing, (9 December 1983); doi: 10.1117/12.936791
Show Author Affiliations
Howard K. McCue, Lawrence Livermore National Laboratory (United States)


Published in SPIE Proceedings Vol. 0433:
Contemporary Methods of Optical Manufacturing and Testing
Gregory M. Sanger, Editor(s)

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