Difference between revisions of "Components Previously on the PCB"

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==Other Components==
 
==Other Components==

Revision as of 07:19, 3 May 2020

The printed circuit board has many components that have been deemed obsolete and removed. Below is a list of those components, how they worked, and why the were removed.

Components Removed In Spring 2020

Prior to spring 2020, the PCB was designed for use by both CUBike and CUSail, resulting in many parts that were not necessary for the functioning of the bike. In Spring 2020, a major overhaul was started in part to remove many of these unnecessary parts.

Watchdog

The Watchdog is an external timer circuit that assured the Arduino DUE was correctly executing its loop. The Watchdog’s timer was reset each time the DUE successfully completed a loop. However, if the DUE’s loop execution was unsuccessful, the Watchdog’s timer would not be reset, causing an emergency shutdown and preventing damage to the bike’s systems.

The Watchdog connected to the PCB through three pins, labeled WD+DPINS, and an op-amp.

WD+DPINS

Pin Label Connected To
1 DUE pin 45
2 DUE pin 43
3 Op-Amp pin 1 WDO

Associated Op-Amp

Pin Label Connected To
1 WDO WD+DPINS pin 3
2 GND GND
3 EN DUE pin 41
4 WDI DUE pin 42
5 VCC C35 --> GND

The Watchdog and associated hardware were removed because an unsuccessful loop execution by the DUE was deemed to be an unlikely source of failure.

POT

The POT (Potentiometer) pin-outs is a grouping of pin-out ports that were designed to be used to connect a potentiometer. A potentiometer is an adjustable resistor that provides varying voltages. By keeping the current constant, measuring how much the potentiometer was adjusted allows one to know the voltage. When making the bicycle, it was debated whether using a potentiometer or an encoder was better for measuring the position of the bike's front wheel. Although the potentiometer is more accurate than the encoder, it was decided that an encoder was to be used because it was easier to work with. Thus, the POT pin-out ports were deemed to be unecessary.

Pin Label Connected To
1 GND
2 DUE Pin A10
3 3.3 V


Additional Components Only Used by CUSail

Sail Motor

The old PCB contained outputs for the sail motor and bike motor. Since the bike is not a sailboat, the sail motor outputs were removed.

Pin Connected To
1 Pin 4 of H-Bridge 1 (OUT)
2 Pin 3 and 4 of Current Sensor (IP-1, IP-2)

Sail Power

Similar to the sail motor, only the bike power output is necessary.

Pin Connected To
1 BGRD
2 SAIL-IN

H-Bridges

The H-Bridges on this PCB board controls the CUsail motors. Since the bike does not use H-bridges for the motors, we took them out.

First H-Bridge

Pin (Label) Connected To
1 (GND) BGND
2 (IN) Pin 7 of H2-Isolator
3 (INH) Pin 6 of H2-Isolator
4 (OUT) Sail Motor 1
5 (SR) SR1
6 (IS)
7 (VS) BAT+

Second H-Bridge

Pin (Label) Connected To
1 (GND) BGND
2 (IN) Pin 7 of H1-Isolator
3 (INH) Pin 6 of H1-Isolator
4 (OUT) Pin 1 and 2 of Current Sensor
5 (SR) SR2
6 (IS)
7 (VS) BAT+

H-Bridges Isolator

The H-Bridges isolator isolate the H-bridges from the other components so that the voltage changes in the H-bridges would not affect the other components on the PCB. It helps bridge together different components with different power supply so that there is not a short circuit. There are two of them for each of the two H-bridges necessary for the job needed for the sail motors. 2 isolators are used for the bike motors and should not be confused with these isolators described below.

First H-Bridge Isolator

Pin (Label) Connected To
1 (VDD1) 3.3V
2 (IN1) Pin 34 of DUE Shield
3 (IN2) Pin 30 of DUE Shield
4 (GND1) GND
5 (GND2) BGND
6 (OUT2) Pin 3 of HB2
7 (OUT1) Pin 2 of HB2
8 (VDD2) REG5V

Second H-Bridge Isolator

Pin (Label) Connected To
1 (VDD1) 3.3V
2 (IN1) DAC1 of DUE Shield
3 (IN2) Pin 31 of DUE Shield
4 (GND1) GND
5 (GND2) BGND
6 (OUT2) Pin 3 of HB1
7 (OUT1) Pin 2 of HB1
8 (VDD2) REG5V

Xbee Pro

The Xbee Pro was used in conjunction with CUSail's remote controller. The bike uses a different controller.

The Xbee Pro was already taken out before the creation of this wiki page. As such, the pin label could not be provided.

Linear Current Sensor

The Linear Current Sensor detect the change in current between the H-bridges and the Sail Motor and send the output to a device called current_sense. It also changes the output of H-bridges at 5 V to 3.3 V and act as a circuit protector for the Sail motor circuit.

Pin (Label) Connected To
1 (IP+1) Pin 4 of HB2
2 (IP+1) Pin 4 of HB2
3 (IP-1) Pin 2 of Sailmotor
4 (IP-2) Pin 2 of Sailmotor
5 (GND) GND
6 (FAULT) GND
7 (VIOUT) CURRENT_SENSE
8 (VCC) 3.3V


Other Components

IMU & RS

The IMU (Inertial Measurement Unit) is a sensor used to provide information regarding the bike's current angle and angular rates. The IMU is connected to the board using a six pin-out terminal (figure N). Because the IMU communicates with the DUE using SPI, the pin-out terminal requires MISO, MOSI, and SCK connections to the DUE. The pin-out terminal has a pin called IMU-CS and it is believed to be the designated SS (Slave Select) for the IMU. Additionally, two pins (5V and GND) supplies power to the IMU.

IMU Pin-Out Terminal Connection
MISO MISO
MOSI MOSI
SCK SCK
IMU-CS A11
3.3 V 3.3 V
GND GND

Similarly, the RS communicates to the DUE using SPI and thus requires the same terminals, MISO, MOSI, SCK, and (in this case) RS-CS. The RS is connected to the board through a six pin-out terminal, two terminals being GND and 3.3V. Initially, the RS terminal was used for the BeagleBone Black that is a micro-controller. The motivation behind the BeagleBone was that the DUE would communicate with the IMU through the BeagleBone. However, the BeagleBone is no longer used and the DUE directly communicates with the IMU directly via SPI. Currently, the pin-put terminal for RS is not used but serves as an extra SPI communication port and thus may be used for any future microcontrollers or peripherals (e.g. Raspberry Pi).

RS Pin-Out Terminal Connection
MISO MISO
MOSI MOSI
SCK SCK
IMU-CS Pin 52
3.3 V 3.3 V
GND GND

Design Changes for IMU & RS

Because the IMU is a critical component for developing an autonomous bicycle and is a sensor that needs to be read periodically and requires initialization, the current implementation of the IMU is going to be remained unchanged. Since the RS terminal is not being used but can be useful for any future implementation of micro-controllers or peripherals that require SPI, the RS pin-out terminal is also remain unchanged.

LEDs

The LEDs (Light Emitting Diodes) are used to alert users to the status of the bicycle during testing and operation. There were 5 LEDs, each attached to a different pin of the Arduino DUE.

  • LED 1, Red, and LED 2, Yellow, are programmed to fit specific testing needs as necessary
  • LED 3, Blue, blinks at the same rate as the Arduino DUE's cycle
  • LED 4, Green, turns on when power is supplied to the bicycle
  • LED 5, Red, redundantly acts as a counterpart to LED 4

The redundant LED 5 has been removed from the PCB. Other changes are pending based on the possibility of adding new status LEDs or incorporating a LCD screen instead. Either option will provide more feedback during testing of the bicycle.

LED Connected To
LED 1 [RED] DUE Pin 22
LED 2 [YELLOW] DUE Pin 35
LED 3 [BLUE] DUE Pin 36
LED 4 [GREEN] DUE Pin 53
LED 5 [RED] DUE Pin 44