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Gibbot Board v3 Actuating Board
ajgriesemer edited this page Oct 2, 2013
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The Gibbot Board v3 will attempt to fix the issues in the v2 board and add additional functionality. The board will be created with separate modular components so that if a design fails the rest of the board can still be used.
- Use the layout from the HIP4086 3-phase BLDC Motor Drive Demonstration Board for the MOSFET H-bridge circuit.
- Use only one current sensor to measure the overall current consumption instead of a sensor to measure the current on each of the three legs of the BLDC motor circuit.
- Use the X6BB version of the ACS716 Current Sensors for more accurate sensing.
- Use the dsPIC33EP512MC806 for more pins and functionality.
- Include a 0.1uF decoupling capacitor between each of the 3.3V and GND pins on the dsPIC as well as a 10uF ceramic through hole decoupling capacitor on at least one pair of pins.
- A MPU9150 9-Axis IMU.
- Order 0.033 uF boot strap capacitors instead of stacking two 0.01 uF capacitors.
- 1A boostrap diodes SL04 40V Reverse Voltage, 10ns reverse recovery time
- 1A clamping diodes ES1B, 100V reverse voltage, 25ns reverse recovery time
- Encoder input for magnet encoder JST SH 5 pin
- Connect the XBee to the dsPIC with CTS and RTS hardware flow control pins.
- Include logicl level MOSFETs for driving both magnets SSM3K329R,LF.
- Include holes for 4-40 stand off screws.
- Status LEDS
- On/Off Switch
- 6 IR LED outputs
- User Button
- Reset Button
- Plug in connectors instead of Screw Terminals
- Include a modular 48V to 24V, 24V to 12V and 12V to 5V buck converter circuit board with redundant inputs in case the buck converter board does not work.
- Include a separate modular board for the second arm of the robot. This board will have only 4 inputs to minimize the number of wires through the link, these are: 24V, GND, SDA and SCLK (or possibly RX and TX). This board will have:
- dsPIC33EP512MC806
- MPU9150 9-Axis IMU
- Logic level MOSFET driver circuit for controlling the magnet at 24V SSM3K329R,LF
- Buck converter circuit from 24V to 5V for driving the encoder on the magnet and on the motor
- Two encoder inputs JST SH 5 pin
- TLV1117 Linear Rectifier to step down from 5V to 3.3V to power the dsPIC and IMU.
- Status LEDs
- Input button
- Reset Button
- Programming Interface
Maximum Height = 0.8 inches
- GND connection on plug from Power Board to Secondary Board is unconnected
- IR LED plugs on main board are backwards
- Holes for MiniFit Jr plugs are too big
- Power and Ground Planes should be labeled
- Test points should be labeled
- Multiple test points are isolated from the planes they should test
- Caps on 48V to 24V converter are backwards
- R1 of resistor divider network for 48V to 24V converter should be 21.7V instead of 9.79V
- More space between boards
- There is no 24V input plug on the main board, in case the power board needed to be cut off
- Condense power board based on smaller inverter size
- Inductor values need to be changed:
- For 24V circuit a 56uH inductor preforms much better
- For 12V circuit the datasheet recommends 15uH
- For 5V circuit the datasheet recommends 6.8uH
- For 3.3V circuit the datasheet recommends 4.7uH
- For buck converters, make sure the lower feedback resistor is connected directly to the ground on the switcher (see page 16 of LT1375 datasheet).
- Use larger sized capacitors
- Label switch positions
- Fix GND plane underneath main dsPIC to reduce ground path distance
- Order 10 uF Tantalum capacitors
- Mosfet circuits for magnets should be modified so that Mosfet source is connected to ground.
- Use JST PA connectors instead of JST SH
- Use caps with a higher voltage rating on the 48V buck converter circuit (at least 60V on the input voltage line).
| Component | Current per unit | Total Component | Value Source |
|---|---|---|---|
| dsPIC | 320mA | dsPIC33EP512MC806 datasheet, absolute maximum rating current from VSS | |
| Status LEDs | 3.3mA x 6 | 20mA | Assuming 3.3V and 1k resistor |
| Motor Hall Effect Sensors | 5mA x 3 | 15mA | Assuming 5V and 1k resistor, worst case all three on |
| 3 Encoders | 78mA x 3 | 234mA | E3 1600 CPR product page 62mA maximum no load current + 8mA x 2 maximum output current |
| IMU | 10mA | MPU-9150 datasheet 3.9mA gyro + 6mA magnetometer | |
| XBee | 95mA | Series 1 XBee Datasheet 45mA transmit current + 50mA recieve current | |
| IR LEDs | 10mA x 6 | 60 mA | 3.3V and 330 ohm resistor |
| Total | 754mA |
| Component | Current per unit | Total Component | Value Source |
|---|---|---|---|
| HIP4086 | 40mA | 11mA VDD operating current + 2mA x 3 xHB + 2mA x 3 Bootstrap current (Experimental value < 40mA) |
| Component | Current per unit | Total Component | Value Source |
|---|---|---|---|
| Magnets | 230mA x 2 | 460mA | APW Magnets datasheet |
| 24V to 12V Converter | 40mA / 40% | 100mA | From above |
| 24V to 5V Converter | 754 / 82% | 919mA | |
| Total | 1.479 A |
| Component | Current per unit | Total Component | Value Source |
|---|---|---|---|
| 2 Encoders | 78mA x 2 | 156mA | E3 1600 CPR product page 62mA maximum no load current + 8mA x 2 maximum output current |
| Component | Current per unit | Total Component | Value Source |
|---|---|---|---|
| dsPIC | 320mA | dsPIC33EP512MC806 datasheet, absolute maximum rating current from VSS | |
| Status LEDs | 3.3mA x 6 | 20mA | Assuming 3.3V and 1k resistor |
| IMU | 10mA | MPU-9150 datasheet 3.9mA gyro + 6mA magnetometer | |
| IR LEDs | 10mA x 6 | 60 mA | 3.3V and 330 ohm resistor |