REGBOT version 3: Difference between revisions
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* Line sensor low power pin (Teensy pin 25) now working. Pin 25 set to output in main.cpp (line 125), and pulsed in main.cpp (line 425 and 466). Line estimate seems OK (after calibration) - line sensor calibration missing in regbot.ini. | * Line sensor low power pin (Teensy pin 25) now working. Pin 25 set to output in main.cpp (line 125), and pulsed in main.cpp (line 425 and 466). Line estimate seems OK (after calibration) - line sensor calibration missing in regbot.ini. | ||
===Missing/bugs=== | ===Missing/bugs=== |
Revision as of 11:54, 21 December 2016
Aim
- maintain frame,
- Avoid too many satellite PCB's,
- more powerfull 5V,
- fix PCB errors on version 2,
- new servo interface plug
- battery saver - turn OFF if battery voltage is low.
- battery saver - turn IR sensor off if not used.
Status and observations
- Line sensor low power pin (Teensy pin 25) now working. Pin 25 set to output in main.cpp (line 125), and pulsed in main.cpp (line 425 and 466). Line estimate seems OK (after calibration) - line sensor calibration missing in regbot.ini.
Missing/bugs
Software robot side (Teensy)
- control implement test of edge, wall and forward distance controllers - partially tested (velocity, heading, position and balance seems OK)
- wifi - is OK after a reboot,but stops after a few minutes, if no wifi client is attached. Sometimes also if used.
- AD converter for "servo" 4 and 5 (when not output pins) is not implemented, and should be available as continue condition in missions.
- Line sensor hardware 2 missing low-power.
Software client side
- Servo debug page is a mess with edit/apply/cancel, as most actions work instantaneously.
- Servo status in client is wrong after change.
- Help in control dialogue is missing - should refer to wiki page.
Teensy pin assingnment
GND side
- 0 serial RX (wifi)
- 1 serial TX (wifi)
- 2 motor left direction
- 3 motor left PWM
- 4 motor left D2 enable -> flyttes til right motor PWM
- 5 servo pin 3 (PWM) - og 2nd SPI CS pin (4) (see also teensy pin 24)
- 6 Start button
- 7 motor slew ctrl -> ny RX3 (ekstra seriel forbindelse)
- 8 motor -> ny TX3 (ekstra seriel forbindelse)
- 9 motor right PWM -> flyttes til servo PWM (servo pin 4) på hardware 3 -> pin 9 ny servo 2 PWM
- 10 motor right D2 enable - > flyttes til servo PWM (servo pin 6) på hardware 3 -> pin 10 ny servo 3 PWM
- 11 SPI MOSI -> ny motor enable (D2) på hardware 3
- 12 SPI MOSI -> ny right motor direction
Vin side
- 13 heart beat LED og SPI clock -> ny: kun heart beat LED
- 14 (A0) IR dist 2
- 15 (A1) IR dist 1
- 16 I2C SCL
- 17 I2C SDA
- 18 Line sensor LED power
- 19 encoder left B
- 20 encoder left A
- 21 encoder right B
- 22 encoder right A
- 23 (A9)battery voltage
End
- A14 (analog out) servo pin 5 (i/o, ikke PWM) - for analog in or analog signal out
2nd row
- A10 motor current left
- A11 motor current right
button side
- A12 line sensor pin 3
- A13 line sensor pin 4
- A15 line sensor pin 5
- A16 line sensor pin 6
- A17 line sensor pin 7
- A18 line sensor pin 8
- A19 line sensor pin 9
- A20 line sensor pin 10
- 24 SPI CE (SPI CS pin (pin 3)) -> ny digital I/O pin på servo block (hardware 3)
- 25 Line sensor LED HIGH
- 32 IR power on
- 33 Robot power on
Message to-from regbot
PID control message
All controlls is formatted with 26 values, and looks like this example (balance)
cbal 1 -3 0 1 9999.99 1 0 1 1 1 0.029 0.001 0 1 1 1 0.1 5 1 0 1 0 1 1 1 99.99
The indivitual numbers are - after the controller keyword (here 'cbal'):
1 cbal 1 // use (any part of controller) 2 -3 // Kp 3 0 1 9999.99 1 // integrator (use, tau, limit, (and_zero - not implemented)) 7 0 1 1 // lead forward (use, zero, pole) 10 1 0.029 0.001 // lead backward (use, zero, pole) 13 0 1 1 // pre-filt (use, zero, pole) 16 1 0.1 5 1 // post integrator (use, tau, limit, and_zero) 20 0 1 // feed forward (use, Kff) 22 0 1 1 // feed forward pole-zero (use zero pole) 25 1 99.99 // output limit (use, limit)
The other controllers uses keywords (parameters are the same as above):
- cvel wheel velocity control
- ctrn Heading control
- cwve IR sensor forward distance controller
- cwth IR sensor follow wall controller
- cpos Position controller (non balance)
- cedg Line edge controller
- cbal Balance angle controller
- cbav Velocity controller - in balance
- cbap Position controller - in balance (not implemented)