Difference between revisions of "RC08Brushless"
Jump to navigation
Jump to search
m (→Specifications) |
|||
| Line 13: | Line 13: | ||
==Specifications== | ==Specifications== | ||
| − | * | + | ====Motor Controller Chip==== |
| + | * The motor is spec'd at 12V and is 30W so that means we drawn 833mA per channel | ||
* A decent transient response (This will be a function of hardware and software) | * A decent transient response (This will be a function of hardware and software) | ||
| − | * | + | * 3-Channels in one package |
* Braking is not a requirement but would be nice (We could just as easily do it software) | * Braking is not a requirement but would be nice (We could just as easily do it software) | ||
* High Impedance OFF state | * High Impedance OFF state | ||
| − | * Ability to operate in the >20kHz | + | * 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 | ||
| + | ====MOSFET==== | ||
| + | * Depletion Mode | ||
| + | * Probably an NMOS and a PMOS | ||
| + | * I want to say 10A as the data sheet for the motor gives a 10A starting current but I need to check with someone | ||
==Schematics== | ==Schematics== | ||
Revision as of 22:49, 9 September 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. There are two design paths: one with a special purpose controller, and one with a CPLD as the controller. On this page you will find information about both. For information on the motors or motor control software please see their respective pages.
Contents
Task
- [ ] Finalize on a DSC
- [ ] Choose Half-Bridge Drivers
- [ ] Set-up test-bed
- [ ] Build prototype system
- [ ] Choose CPLD
- [ ] Choose MOSFET Drivers
- [ ] Build 2nd prototype
- [ ] Choose final solution
Specifications
Motor Controller Chip
- The motor is spec'd at 12V and is 30W so that means we drawn 833mA per channel
- A decent transient response (This will be a function of hardware and software)
- 3-Channels in one package
- Braking is not a requirement but would be nice (We could just as easily do it software)
- High Impedance OFF state
- 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
MOSFET
- Depletion Mode
- Probably an NMOS and a PMOS
- I want to say 10A as the data sheet for the motor gives a 10A starting current but I need to check with someone
Schematics
Schematics
Parts
DSC
CPLDS
Half-Bridges
MOSFET Drivers
Articles
Links
