Digital Machine Control Electronics

Position sensors, switches, controllers, and communications electronics for robotic assembly
The SCAPS (Single-Coil Absolute Position Sensor) GAPSYN (Inductive Gap Sensor) Digital Signal Conditioning Electronics technology (MFS-32318-1) provides voltage that is proportional to the position of the sensor. This circuit processes two signals from the position sensor to determine the amplitude of an amplitude-modulated signal from the position sensor, correcting for gap fluctuations and nonlinearities. An Absolute Limit Switch (MFS-32192-1) utilizes the SCAPS technology to produce an absolute limit switch point, such as to stop a movable carriage. The system for sensing the position of a rotor in a hybrid stepper motor (MFS-32402-1) is a rate-insensitive (i.e., operates at any speed, including zero rate), linear feedback sensor system that can be used for controlling two-phase and multi-phase stepper motors. The Micro-Commanding Servo Motor Controller With Greater Than Fifty Million To One Dynamic Rate Range technology (MFS-31529-1) senses rotary position of a drive shaft to derive appropriate drive signals for a motor. The Short-Range Antenna/Close-Proximity Transmitter and Receiver technology (MFS- 32228-1) is an inexpensive and effective method of exchanging information over a short distance between two devices when each is equipped with a SCAPS coil.
Abstract: 
NASA's Marshall Space Flight Center offers a suite of novel technologies for digital control of electronic machinery. Originally developed for the autonomous assembly of modular space structures, the base innovations in the suite can improve gap sensors and absolute position sensors. They sense position and proximity and can also wirelessly communicate information to drive switching and stepper motor operations. The technologies can benefit a broad range of industrial robotics applications, and they can be combined to perform a variety of functions. Additional components in the suite can be incorporated into the base technologies to perform other sensor functions and serve as short-range antennas and close-proximity transmitters and receivers. The NASA innovations are self-calibrating and have embedded integrity-monitoring functions for assured position and proximity readings.
Benefits: 

Low-Cost: the devices use simple, inexpensive components

applications: 

Internet of Things (IoT)

CNC, water jet, and laser milling machines

Hard disc drives, printers, and scanners

Pick and place machines for semiconductor manufacturing and automated biotech operations

Profilometers

Industrial robots in which faster, head, and substrate are in close proximity

Rotary and linear positioning of automotive engine components

Robot-assisted surgery

Reps: 
Patent Number: 
8,290,435
Internal Laboratory Ref #: 
MFS-TOPS-49
Patent Status: 
Patent Issue Date: 
September 9, 2015
Agency
NASA
Region
Southeast
State: 
Alabama
Phone: 
256-544-9151
Email: 
terry.taylor@nasa.gov
Lab Representatives
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