Kart
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* the FPGA JTAG programming connector | * the FPGA JTAG programming connector | ||
* the PIC RJ11 programming connector | * the PIC RJ11 programming connector | ||
+ | |||
+ | === Boards === | ||
+ | For special designs, some boards have larger FPGAs: | ||
+ | * Board 29 has a AGL125 | ||
+ | * Board 30 has a AGL250 | ||
=== To do === | === To do === |
Revision as of 11:48, 24 August 2012
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The Kart module is a Summer School module for students at the end of the first year.
System Architecture
The kart is controlled by a smartPhone via BlueTooth.
A BlueTooth receiver on the kart control board communicates via an RS232 serial link with the control board FPGA.
BlueTooth communication
A BlueTooth communication transfers serial port data. A receiver chip creates the RS232 signals for the FPGA. The protocol defines how the registers are accessed.
The FPGA receives following controls:
- the propulsion DC motor speed and direction
- the steering stepper motor target angle and step period
- two LEDs
The FPGA sends following information back:
- the battery level
- the actual steering angle
- the distance sensor data
- the hall sensor status
Sensors
Board connectors
The FPGA board has following connections:
- a 26 pin Header connector
- a 9 pole DSub connector for RS232
- the FPGA JTAG programming connector
- the PIC RJ11 programming connector
Boards
For special designs, some boards have larger FPGAs:
- Board 29 has a AGL125
- Board 30 has a AGL250
To do
Use the register to set the rate at which the FPGA sends status to the remote control.
Set-up a hall sensor wheel rotation counter.