Difference between revisions of "RC08Brushless"
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Schematics | Schematics | ||
==Parts== | ==Parts== | ||
| + | Now under consideration; commutation on the FPGA. | ||
====DSC==== | ====DSC==== | ||
[http://www.onsemi.com/PowerSolutions/product.do?id=MC33033 On Semiconductor MC33033] | [http://www.onsemi.com/PowerSolutions/product.do?id=MC33033 On Semiconductor MC33033] | ||
Revision as of 11:23, 9 November 2007
In 2008 RoboCup switched to brushless DC motors. While brushless motors are smaller and far more efficient than brushed motors the commutation normally performed inside a brushed DC motor will need to be done externally using some control circuitry. There are two main parts to our brushless motor controller solution; the controller which uses sensors on the motor to gate signals to one of three coils, and the half-bridge motor drivers which actually drive the coils.For the controller a special-purpose brushless motor driver IC was used. For information on the motors or motor control software please see their respective pages.
Contents
Motor Frequency Analysis
Tasks
- [ ] Get the motor and begin playing with it
- [X] Call Maxon and get a recommendation on motor drivers (They spec parts not sure which drivers they use)
- [X] Figure out max current draw. (10A starting current)
- [ ] Develope Model of Motor and get Frequency Response
- [ ] Find and purchase Flat Flex Cable (FFC) connectors
- [ ] Purchase large mosfets for testing
- [ ] Purchase Surfboard for mounting DSC
- [ ] Build test rig
- [ ] Finalize on a DSC
- [ ] Choose MOSFETS
- [ ] Sample all the parts
- [ ] Schematic Design
- [ ] Build prototype
- [ ] Prototype evaluation
- [ ] Make necessary changes
Specifications
Motor Controller Chip
- The motor is spec'd at 12V and is 30W
- A decent transient response (dead-time + switching time)
- 3-Channels in one package
- Braking is not a requirement but would be nice
- High Impedance OFF state
- Fault protection (overvoltage, overcurrent, fast response)
- Small package
- Ability to operate in the >20kHz range
- Gate drive capability (either can directly driver the gate or is open drain.)
- Data sheet recommends a MOSFET
- Matrix of Potential Drivers
MOSFET
- Depletion Mode
- Probably an NMOS and a PMOS
- The FETS have to be able to handle 10A drain current
- Matrix of Potential FETS
Schematics
Schematics
Parts
Now under consideration; commutation on the FPGA.
DSC
Quick Specs
- 10 to 30 V Operation
- Undervoltage Lockout
- 6.25 V Reference Capable of Supplying Sensor Power
- Fully Accessible Error Amplifier for Closed Loop Servo Applications
- High Current Drivers Can Control External 3-Phase MOSFET Bridge
- Cycle-By-Cycle Current Limiting
- Internal Thermal Shutdown
- Selectable 60° /300° or 120° /240° Sensor Phasings
- Also Efficiently Control Brush DC Motors with External MOSFET H-Bridge
Data Sheet
FETS
Quick Specs
Data Sheet
Articles
Modeling a DC motor Brush-Less Motor Simulink
Links
