Power System - Revision history

Luke: /* Motor Driver Board August 2025 */

2025-08-24T22:17:28Z

‎Motor Driver Board August 2025

Luke: /* Printed Circuit Board (PCB) */

2025-08-24T22:12:19Z

‎Printed Circuit Board (PCB)

Luke: /* Front of Buck Regulator */

2025-08-24T22:02:45Z

‎Front of Buck Regulator

Luke: /* Back of Buck Regulator */

2025-08-24T22:02:28Z

‎Back of Buck Regulator

Luke: /* Motor Driver Board August 2025 */

2025-08-24T22:01:17Z

‎Motor Driver Board August 2025

Luke: /* Printed Circuit Board (PCB) */

2025-08-24T21:39:18Z

‎Printed Circuit Board (PCB)

Luke at 21:38, 24 August 2025

2025-08-24T21:38:29Z

Luke: /* Voltage Regulator */

2025-08-24T21:08:44Z

‎Voltage Regulator

Luke: /* Motor Driver Board August 2025 */

2025-08-24T21:07:49Z

‎Motor Driver Board August 2025

Luke at 20:54, 24 August 2025

2025-08-24T20:54:08Z

@@ Line 79: / Line 79: @@
 === Overview ===
-[[File:Motor Driver Overview.png]]
+[[File:Motor Driver Overview.png|500px]]
 There are 4 identical motor controller systems, which are made up of a gate driver and a 3-phase H-Bridge. All of them are all attached to the central microcontroller, a NUCLEO-L476RG, arranged in a way the optimized trace distance. Each motor controller is attached to its own wheel and provides feedback to the microcontroller to aid it in determining what new speed the wheels need to be set at. This is done via hall effect sensors, which are not implemented on the schematic due to being directly connected with wires in this iteration. In addition, there are connections for our additional systems, such as the Jetson Nano, to be powered through an external buck regulator. This can be seen on the bottom right corner with 2- and 4-hole connectors connected to the battery supply and ground.
 === Microcontroller ===
-[[File:Microcontroller.png]]
+[[File:Microcontroller.png|500px]]
 The RJ45 connector inputs 8 signals from the Drive-By-Wire board into the microcontroller, which gives the throttle signals, and also takes in current speed from hall effect sensors for each wheel. These inputs are read and processed by the microcontroller, which then outputs signals that determine the speed and direction that are needed. The relevant signals necessary to achieve this are then fed to the Gate Drivers, for a total of 6 outputs for each Gate Driver. Each set of outputs has been placed to optimize distance to the Gate Drivers. The MCU is powered through the VCC pin which operates at 5 volts, taken off of a 5-volt buck converter. Future signals may need to be added later on, depending on what full testing reveals, as the system this is based on, VESC, has feedback signals from the Gate Drivers. These should all ideally fit on to the current MCU if needed, but each wheel maybe need is own board if there is no more room.
 === Gate Driver ===
-[[ File:Motor Driver Gate Driver.png]]
+[[ File:Motor Driver Gate Driver.png|500px]]
 The Gate Driver is both supplied by the battery and off of the 5 volts regulator. It takes in the output signals from the microcontroller and amplifies them for use by the 3-Phase H-Bridge. It also takes in feedback from the H-Bridge’s bottom MOSFETS sensor resistors to aid in correctly amplifying the input signals into the MOSFETs.
 === 3-Phase H-Bridge ===
-[[File:Motor Driver H-Bridge.png]]
+[[File:Motor Driver H-Bridge.png|500px]]
 The H-Bridge is controlled by the Gate Driver’s outputs to the MOSFETs’ gate pin, and by the 12 Volt battery supply, which firstly determines the operation mode the MOSFETs should be in. In addition, the output signals determine the speed via the frequency they are being sent at. This combined determines if the ATV needs to go forwards or backwards, and how fast it needs to do so. The sensor resistors attached to the bottom MOSFETs again provide feedback to the Gate Driver, and there are analog switches which have not been implemented into the overall design yet.
 === Voltage Regulator ===
-[[File:Motor Driver Voltage Regulator.png]]
+[[File:Motor Driver Voltage Regulator.png|500px]]
 The voltage regulator takes in 12 Volts from the battery and outputs 5 Volts, which is labeled as VCC through the system. The 5-volt rail powers the smaller ICs on the board which need a lower voltage to operate.
 === Printed Circuit Board (PCB)===
-[[File:Motor Driver PCB.png]]
+[[File:Motor Driver PCB.png|500px]]
 The current PCB is a 2-sided board which was made that way to reduce its size from initial designs. The microcontroller board is a NUCLEO-L476RG, which sits in the middle of the motor controller systems. The input power from the battery is labeled as ''Battery In'' and ''Battey Out (GND)''. The connections to each of the motors are labeled as ''A'', ''B'', and ''C''. The top the PCB shows where the RJ-45 connector currently will sit, along with the wire housings on its right. The wiring housings have '''+ symbols''' to indicate where to place the relevant power, where the rest are to be ground. These are to be connected to external buck regulators which are then connected to systems like the Jeston Nano, Pixhawk, and Latte Panada. The external buck regulator is labeled Out/In power on the back to initiate where to place the wires as shown below. This regulator needs to be tested before full integration system. If proven successful, it can be implemented fully into system.

@@ Line 106: / Line 106: @@
 [[File:Motor Driver PCB.png]]
-The current PCB is a 2-sided board which was made that way to reduce its size from initial designs. The microcontroller board is a NUCLEO-L476RG, which sits in the middle of the motor controller systems. The input power from the battery is labeled as ''Battery In'' and ''Battey Out (GND)''. The connections to each of the motors are labeled as ''A'', ''B'', and ''C''. The top the PCB shows where the RJ-45 connector currently will sit, along with the wire housings on its right. The wiring housings have '''+ symbols''' to indicate where to place the relevant power, where the rest are to be ground. The external buck regulators have labeled Out/In power on the back to initiate where to place the wires as shown below.
+The current PCB is a 2-sided board which was made that way to reduce its size from initial designs. The microcontroller board is a NUCLEO-L476RG, which sits in the middle of the motor controller systems. The input power from the battery is labeled as ''Battery In'' and ''Battey Out (GND)''. The connections to each of the motors are labeled as ''A'', ''B'', and ''C''. The top the PCB shows where the RJ-45 connector currently will sit, along with the wire housings on its right. The wiring housings have '''+ symbols''' to indicate where to place the relevant power, where the rest are to be ground. These are to be connected to external buck regulators which are then connected to systems like the Jeston Nano, Pixhawk, and Latte Panada. The external buck regulator is labeled Out/In power on the back to initiate where to place the wires as shown below. This regulator needs to be tested before full integration system. If proven successful, it can be implemented fully into system.
 ==== Back of Buck Regulator ====
@@ Line 112: / Line 114: @@
 ==== Front of Buck Regulator ====
-[[File:Buck Front.jpg | 200px ]]
+[[File:Buck Front.jpg|200px]]
 This board has not been fabricated due to its cost from the manufacture OSH Park. A different manufacture can be chosen to make the board, or splitting the current design into 4 individual boards are options to possibly reduce the cost needed. This will make it so that each wheel has one board, meaning that a smaller microcontroller board can be chosen to use instead.
 NEXT > [[Low Level]]

@@ Line 112: / Line 112: @@
 ==== Front of Buck Regulator ====
-[[File:Buck Front.jpg]]
+[[File:Buck Front.jpg | 200px ]]
 This board has not been fabricated due to its cost from the manufacture OSH Park. A different manufacture can be chosen to make the board, or splitting the current design into 4 individual boards are options to possibly reduce the cost needed. This will make it so that each wheel has one board, meaning that a smaller microcontroller board can be chosen to use instead.
 NEXT > [[Low Level]]

@@ Line 109: / Line 109: @@
 ==== Back of Buck Regulator ====
-[[File:Buck Back.jpg]]
+[[File:Buck Back.jpg|200px]]
 ==== Front of Buck Regulator ====

@@ Line 96: / Line 96: @@
 [[File:Motor Driver H-Bridge.png]]
-The H-Bridge is controlled by the Gate Driver’s outputs to the MOSFETs’ gate pin, and by the 12 Volt battery supply, which firstly determines the operation mode the MOSFETs should be in. In addition, the output signals determine the speed via the frequency they are being sent at. This combined determines if the ATV needs to go forwards or backwards, and how fast it needs to do so. The sensor resistors attached to the bottom MOSFETs again provide feedback to the Gate Driver, and there are analog switches which have not been implemented into  the overall design yet.
+The H-Bridge is controlled by the Gate Driver’s outputs to the MOSFETs’ gate pin, and by the 12 Volt battery supply, which firstly determines the operation mode the MOSFETs should be in. In addition, the output signals determine the speed via the frequency they are being sent at. This combined determines if the ATV needs to go forwards or backwards, and how fast it needs to do so. The sensor resistors attached to the bottom MOSFETs again provide feedback to the Gate Driver, and there are analog switches which have not been implemented into the overall design yet.
 === Voltage Regulator ===
@@ Line 106: / Line 106: @@
 [[File:Motor Driver PCB.png]]
-The current PCB is a 2-sided board which was made that way to reduce its size from initial designs. The microcontroller board is a NUCLEO-L476RG, which sits in the middle of the motor controller systems. The input power from the battery is labeled as ''Battery In'' and ''Battey Out (GND)''. The connections to each of the motors are labeled as ''A'', ''B'', and ''C''. The top the PCB shows where the RJ-45 connector currently will sit, along with the wire housings on its right. This board has not been fabricated due to its cost from the manufacture OSH Park. A different manufacture can be chosen to make the board, or splitting the current design into 4 individual boards are options to possibly reduce the cost needed. This will make it so that each wheel has one board, meaning that a smaller microcontroller board can be chosen to use instead.
+The current PCB is a 2-sided board which was made that way to reduce its size from initial designs. The microcontroller board is a NUCLEO-L476RG, which sits in the middle of the motor controller systems. The input power from the battery is labeled as ''Battery In'' and ''Battey Out (GND)''. The connections to each of the motors are labeled as ''A'', ''B'', and ''C''. The top the PCB shows where the RJ-45 connector currently will sit, along with the wire housings on its right. The wiring housings have '''+ symbols''' to indicate where to place the relevant power, where the rest are to be ground. The external buck regulators have labeled Out/In power on the back to initiate where to place the wires as shown below.
 NEXT > [[Low Level]]

← Older revision		Revision as of 21:08, 24 August 2025
Line 99:		Line 99:

	=== Voltage Regulator ===		=== Voltage Regulator ===
		+	[[File:Motor Driver Voltage Regulator.png]]

	The voltage regulator takes in 12 Volts from the battery and outputs 5 Volts, which is labeled as VCC through the system. The 5 volt rail powers the smaller IC’s on the board which need a lower voltage to operate.		The voltage regulator takes in 12 Volts from the battery and outputs 5 Volts, which is labeled as VCC through the system. The 5 volt rail powers the smaller IC’s on the board which need a lower voltage to operate.

@@ Line 75: / Line 75: @@
 * Solenoid Brakes 12-24V
 * DBW board 12V
 NEXT > [[Low Level]]