Difference between revisions of "RC08Sensors"

From RoboJackets Wiki
Jump to navigation Jump to search
 
Line 1: Line 1:
 
The 2007 robots had no on-board sensing and while using the camera to do most of the sensing worked the process is improved by adding sensor to the robots themselves. There are three new sensors for the robots in 2008: an IR LED ball sensor array, an encoder, and an accelerometer.  
 
The 2007 robots had no on-board sensing and while using the camera to do most of the sensing worked the process is improved by adding sensor to the robots themselves. There are three new sensors for the robots in 2008: an IR LED ball sensor array, an encoder, and an accelerometer.  
 +
 +
====Ball Sensor====
 +
The ball sensor operates by illuminating the ball with modulated IR light in a region just in front of the robot. Reflected light from the ball is then picked up the IR transistor. The output of that transistor is fed into a bandpass filter with a pass-band centered on the center frequency of the modulated light and a passband that includes reflected light that has been doppler-shifted. At the end of the band-pass stage the modulated signal is integrated and then fed to a schmitt trigger. The threshold of the schimtt trigger is adjustable via a pot. One of the issues with this system is setting the modulation frequency. In the environment the only interference should be from lighting at 60Hz, but there are concerns that there will be interference from flourescent lighting or even other teams, though the latter is unlikely.
  
 
==Tasks==
 
==Tasks==
Line 16: Line 19:
  
 
====Accelerometers====
 
====Accelerometers====
*[ ] Search for cheap part
+
*[ ] Search for a cheap part
 
*[ ] Write firmware to interface
 
*[ ] Write firmware to interface
 
*[ ] Integrate into velocity controller
 
*[ ] Integrate into velocity controller
 
==Specifications==
 
==Specifications==
====Motor Controller Chip====
+
====IR Ball Sensor====
* The motor is spec'd at 12V and is 30W
+
* The entire circuit needs to have adjustable sensitivity
* A decent transient response (dead-time + switching time)
+
* The IR LED will illuminate the ball and the IR transistor will recieve the reflected signal
* 3-Channels in one package
+
* The IR light needs to be modulated at a frequency of
* Braking is not a requirement but would be nice
+
* [[RC08BLDCIRSensor | Matrix of Potential Ball Sensor Components]]
* High Impedance OFF state
+
 
* Fault protection (overvoltage, overcurrent, fast response)
+
====Encoders====
* Small package
+
* Need final specs from ME to get maximum encoding rate
* Ability to operate in the >20kHz range
+
* [[RC08Encoders | Matrix of Potential Encoders]]
* Gate drive capability (either can directly driver the gate or is open drain.)
 
* Data sheet recommends a MOSFET
 
* [[RC08BLDCMotorDrivers | Matrix of Potential Drivers]]
 
  
====MOSFET====
+
====Accelerometers====
* Depletion Mode
+
* Still defining specification
* Probably an NMOS and a PMOS
+
* [[RC08Accelerometers | Matrix of Accelerometers]]
* The FETS have to be able to handle 10A drain current
 
* [[RC08MotorFETS | Matrix of Potential FETS]]
 
 
==Schematics==
 
==Schematics==
 
Schematics
 
Schematics
 
==Parts==
 
==Parts==
====DSC====
+
====IR Ball Sensor====
 +
=====Quick Specs=====
 +
=====Data Sheet=====
 +
====Encoders====
 
=====Quick Specs=====
 
=====Quick Specs=====
 
=====Data Sheet=====
 
=====Data Sheet=====
====FETS====
+
====Accelerometers====
 
=====Quick Specs=====
 
=====Quick Specs=====
 
=====Data Sheet=====
 
=====Data Sheet=====

Revision as of 09:54, 19 September 2007

The 2007 robots had no on-board sensing and while using the camera to do most of the sensing worked the process is improved by adding sensor to the robots themselves. There are three new sensors for the robots in 2008: an IR LED ball sensor array, an encoder, and an accelerometer.

Ball Sensor

The ball sensor operates by illuminating the ball with modulated IR light in a region just in front of the robot. Reflected light from the ball is then picked up the IR transistor. The output of that transistor is fed into a bandpass filter with a pass-band centered on the center frequency of the modulated light and a passband that includes reflected light that has been doppler-shifted. At the end of the band-pass stage the modulated signal is integrated and then fed to a schmitt trigger. The threshold of the schimtt trigger is adjustable via a pot. One of the issues with this system is setting the modulation frequency. In the environment the only interference should be from lighting at 60Hz, but there are concerns that there will be interference from flourescent lighting or even other teams, though the latter is unlikely.

Tasks

IR LED Ball sensor

  • [ ] Find an IR LED and a IR transistor
  • [ ] Design the bandwidth filter and the Schmitt trigger circuits
  • [ ] Build and test
    • [ ] Create a test-stand to test and verify ball sensor array performance
    • [ ] Build a prototype ball sensor system

Encoders

  • [ ] Get final speed and wheel specs from ME team
  • [ ] Find an optimal resolution versus frequency
  • [ ] Select several parts and evaluate designs
  • [ ] Write firmware to interface
  • [ ] Integrate into velocity controller

Accelerometers

  • [ ] Search for a cheap part
  • [ ] Write firmware to interface
  • [ ] Integrate into velocity controller

Specifications

IR Ball Sensor

  • The entire circuit needs to have adjustable sensitivity
  • The IR LED will illuminate the ball and the IR transistor will recieve the reflected signal
  • The IR light needs to be modulated at a frequency of
  • Matrix of Potential Ball Sensor Components

Encoders

Accelerometers

Schematics

Schematics

Parts

IR Ball Sensor

Quick Specs
Data Sheet

Encoders

Quick Specs
Data Sheet

Accelerometers

Quick Specs
Data Sheet

Articles

Links