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Sensors

Sensors. Jerry J. Zacharias ECGR 4892 Dr. James Conrad. Objective. Robots in the past? Current? Future? Why we need sensors? What are sensors? Various Types of sensors Strain Gauges. Robots in the Past. Used User Input No input feedback between the processor and an output function.

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Sensors

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  1. Sensors Jerry J. Zacharias ECGR 4892 Dr. James Conrad

  2. Objective • Robots in the past? Current? Future? • Why we need sensors? • What are sensors? • Various Types of sensors • Strain Gauges

  3. Robots in the Past • Used User Input • No input feedback between the processor and an output function. • Not very dynamic

  4. RT-1 HERO JR • Meet the first affordable, personal robot with a dynamic personality • All routines are stored in 32k ROM. • See, hear, speak, tell time and move • light sensor, ultrasonic sonar, sound detector, speech synthesizer and an internal clock controlled using a Motorola 6808 microprocessor.

  5. Modern Robots/Machines • Assigned critical tasks • Weak Autonomy • Introduction to bio-sensors

  6. The Future • Involves a lot of sensor integration • New technology/discoveries

  7. Accelerometers Position Sensing Range Sensing Vision Sensing Force Sensing Strain Gauges Load Sensors Quantum Tunneling Pressure Sensors Types of sensors

  8. Strain Gauges • Frequently used in Mechanical Research • Measure stress generated by machinery • Strain Gauges are smaller than a postage stamp. • Very thin conductors (1/1000 inch diameter)

  9. Strain Gauges • Device that changes resistance when it is stressed. • With contact the wires stretch or compress changing their resistance proportional to the applied load. • One or more strain gages are used in the making of a load cell.

  10. Strain Gauges • For practical instrumentation • Monitor resistance change with high accuracy • Bridge measurement circuit (provides precision) • Circuit indicates measured strain by degree of imbalance • The imbalance is accurately read by a precision voltmeter at the bridge center. • Analog Voltage converted and used by various embedded systems.

  11. Strain Gauge (in action)

  12. Quantum Tunneling Composite (QTC) • New technology (Quantum Theory) • A flexible polymer • Exhibits extraordinary electrical properties • Perfect insulator (at equilibrium) • Perfect conductor (when compressed) • Can pass very high currents (>= 10 amps) • Polymers loaded with carbon are, at best, only partially conductive.

  13. Applications of QTC • Very promising to revolutionize product design. • Currently • Smart garments that can be wired directly to electronic products such as an iPod. • Being retro-fitted, for conventional switches to eliminate arcing and electrical noise. • Advanced membrane panel switches, speed controllers and sensors. • Can even sense small concentrations of organic molecules in liquid or gas form.

  14. Variations of QTC QTC Pill QTC Cable QTC Switch

  15. Questions ? Thank you!

  16. Resources • Circuit Cellar Ink article, April issue, pp 48-51 • http://www.allaboutcircuits.com/vol_1/chpt_9/7.html • http://www.tep.org.uk/millennium_smart_qtc.html • http://www.peratech.co.uk/

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