Difference between revisions of "K-Scale CANdaddy"
(→PCF2518) |
|||
Line 15: | Line 15: | ||
=== LCD === | === LCD === | ||
− | == PCF2518 == | + | === PCF2518 === |
* How do we connect I2C chip to the LCD screen? | * How do we connect I2C chip to the LCD screen? |
Revision as of 01:17, 28 May 2024
Contents
MCU
- STM32
- Programming mode button (boot / reset)
USB
- adsfasdfasdf
Buttons
- Button debouncer
- TODO: Add the IC name
LCD
PCF2518
- How do we connect I2C chip to the LCD screen?
Battery Charger
MCP 2515
CAN
- How to get supply-side VCC without having it on the bus (from supply-side GND)?
- What do we do if supply-side GND is missing?
Voltage
- Load sharing between USB and battery
Questions
- How does the switching regulator mechanism work?
- Do digital logic levels depend on source voltage? For example, let's say that a 3.3V powered device is sending signals to a 5V power device. From my understanding of the datasheet, a direct connection between the signals should not be allowed. However, why is this? What are the internal mechanisms of the pins that make it so that the logic levels need to be based off of the source voltage?
- I understand that there is a way to both use the battery as a source as well as to charge it using the USB. However, wouldn't this mean not being able to put a diode within the circuit directing current in one direction? Isn't this a hazard, destroying the circuit the moment a bit of noise comes through?
- Power Ground in the context of a switching regulator for our circuit to amplify 3.7 V battery to 5 V source. Do we just connect Power Ground to Battery Ground?
Notes
- Need to figure out the interface for the SPI lines using MCP2515
- Pros if successful:
- Reduces amount of wiring for STM32, requires just one SPI bus with a bunch of easily programmable chip selects
- Cons: Need to understand the interface for the MCP2515. Need to confirm how interrupts and timing works.
- Pros if successful: