Difference between revisions of "French FX-7 robot"

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(Future)
(Shift-Register driving of robot)
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Since the RaspPI doesnt have much IO and the robot requires 8 output-pins just for the basic motor-control already, we've started looking at driving the outputs using shift-registers instead.
 
Since the RaspPI doesnt have much IO and the robot requires 8 output-pins just for the basic motor-control already, we've started looking at driving the outputs using shift-registers instead.
  
The proto-board has been re-wired to have two shift-registers hosted on it, connected in series, for a total of 16 outputs. The motor-pins are connected to the first of the two shift-registers; this means that the last 8 bits of data shifted into the 16 bit register-space controls the motors as the first bit shifted in ends up being at the last-most position after 16 clock-cycles.
+
The proto-board has been re-wired to have two shift-registers hosted on it, connected in series, for a total of 16 outputs.
 +
 
 +
The motor-pins are connected to the first of the two shift-registers; this means that the last 8 bits of data shifted into the 16 bit register-space controls the motors as the first bit shifted in ends up being at the last-most position after 16 clock-cycles.
 +
 
 +
Shift-register layout
 +
 
 +
 
 +
{|
 +
! align="left"| Register
 +
! align="left"| Bit
 +
! align="left"| Motor
 +
! align="left"| Direction
 +
|-
 +
|rowspan=8| 1
 +
|0
 +
|Left Tread
 +
|Forwards
 +
|-
 +
|1
 +
|Left Tread
 +
|Backwards
 +
|-
 +
|2
 +
|Right Tread
 +
|Forwards
 +
|-
 +
|3
 +
|Right Tread
 +
|Backwards
 +
|-
 +
|4
 +
|Hip
 +
|Forwards
 +
|-
 +
|5
 +
|Hip
 +
|Backwards
 +
|-
 +
|6
 +
|Arms
 +
|Open
 +
|-
 +
|7
 +
|Arms
 +
|Close
 +
|-
 +
|rowspan="8"|2
 +
|0
 +
|TBD
 +
|TBD
 +
|-
 +
|1
 +
|TBD
 +
|TBD
 +
|-
 +
|2
 +
|TBD
 +
|TBD
 +
|-
 +
|3
 +
|TBD
 +
|TBD
 +
|-
 +
|4
 +
|TBD
 +
|TBD
 +
|-
 +
|5
 +
|TBD
 +
|TBD
 +
|-
 +
|6
 +
|TBD
 +
|TBD
 +
|-
 +
|7
 +
|TBD
 +
|TBD
 +
|}

Revision as of 10:14, 29 January 2014

Projects
FX-7.jpg
Participants Mi1es
Skills Electronics, Soldering, Programming, Creative thinking
Status Active
Niche Electronics
Purpose World domination

"Contrôle système! Contrôle système!"

Overview

System

Direct Drive control via RaspPI

Machine has been taken apart.. blblblalbla


H-bridge board has all the transistors of the original board on it for 4 full H-bridges that can drive all of the four bi-directional motors.

Original 'direct drive' Layout was as follows , with the connectors of the motors facing you:

  • First block, gpio18, w1, gpio4, w7, Left tread
  • Second block, gpio17,w0, gpio23,w4, Right treads
  • Third block: gpio27,w2, gpio22,w3, hip
  • Fourth block: gpio24, w5, gpio25,w6, arms

'Direct Drive' Python code

import RPi.GPIO as gpio
import time
import pygame
from pygame.locals import *


gpio.setmode(gpio.BOARD)
gpio.setup(7, gpio.OUT)
gpio.setup(11, gpio.OUT)
gpio.setup(13, gpio.OUT)
gpio.setup(15, gpio.OUT)

gpio.output(7, True)
gpio.output(11, True)

 while True:
    gpio.output(13, True)
    gpio.output(15, False)
    time.sleep(2)
    gpio.output(13, False)
    gpio.output(15, True)
    time.sleep(2)
pygame.init()
screen = pygame.display.set_mode((640,480))
pygame.display.set_caption("Pygame")
pygame.mouse.set_visible(0)

done = False
enable = 0
direction = 0
while not done:
    for event in pygame.event.get():
        if(event.type==KEYDOWN):
            print event
            if(event.key==273):
                direction=1;
                enable=1;
            if(event.key==274):
                direction=-1;
                enable=1;     
        if(event.type==KEYUP):
            print event
            if(event.key==273):
                direction=0;
                enable=0;
            if(event.key==274):
                direction=0;
                enable=0;

        if(enable==1):
            if(direction==1):
                print "Forwards"
                gpio.output(13, False)
                gpio.output(15, True)
            if(direction==-1):
                print "Backwards"
                gpio.output(13, True)
                gpio.output(15, False)
        else:
            gpio.output(13, False)
            gpio.output(15, False)


With this code-shim you can test the function of your code even without having RPi.GPIO loaded (like on most PC's) Note it doesnt implement all things yet; but enough to work for this project currently. Working on a shift-register help-library


class FAKEGPIO:
  def __init__(self):
    self.BOARD=1
    self.OUT=0
    self.IN=1
  def setmode(self,variant):
    print "Call: setmode: variant -> " + str(variant)
  def setup(self,pin, type):
    print "Call: setup : pin -> " + str(pin) + ", type -> " + str(type)
  def output(self,pin,state):
    print "Out:" + str(pin) + "-> " + str(state)

gpio = FAKEGPIO()

Shift-Register driving of robot

Since the RaspPI doesnt have much IO and the robot requires 8 output-pins just for the basic motor-control already, we've started looking at driving the outputs using shift-registers instead.

The proto-board has been re-wired to have two shift-registers hosted on it, connected in series, for a total of 16 outputs.

The motor-pins are connected to the first of the two shift-registers; this means that the last 8 bits of data shifted into the 16 bit register-space controls the motors as the first bit shifted in ends up being at the last-most position after 16 clock-cycles.

Shift-register layout


Register Bit Motor Direction
1 0 Left Tread Forwards
1 Left Tread Backwards
2 Right Tread Forwards
3 Right Tread Backwards
4 Hip Forwards
5 Hip Backwards
6 Arms Open
7 Arms Close
2 0 TBD TBD
1 TBD TBD
2 TBD TBD
3 TBD TBD
4 TBD TBD
5 TBD TBD
6 TBD TBD
7 TBD TBD