xterra-overland-dashboard/docs/uart.md

UART Communication Plan

Overview

The first hardware version will use plain UART over CAT5 between the Pico dashboard and the ESP32 cargo controller.

UART is simpler than RS-485 and should be reliable enough for the short cable run inside the Xterra.

RS-485 remains a fallback if UART proves unreliable.

Architecture

Pico Dashboard ↓ UART over CAT5 ↓ ESP32 Controller

Backup: WiFi HTTP API

Fallback: RS-485 over CAT5

UART Wiring

Pico TX -> ESP32 RX Pico RX <- ESP32 TX Ground <-> Ground

Planned Baud Rate

Initial: 115200 baud

Future testing:

• 57600 baud if noise becomes an issue
• 230400 baud if higher update rates are needed

Message Format

Messages will use newline-delimited JSON.

Example request:

{"type":"status_request"}

Example response:

{"type":"status_response","data":{"battery":{"soc":82}}}

Each message ends with a newline character.

Failure Handling

If no valid response is received within the timeout:

• Dashboard shows communication warning
• Last known values remain visible
• Relay commands fail safely
• WiFi backup may be attempted if enabled

Why UART First

Advantages:

• Fewer parts
• Easier wiring
• Easier debugging
• No direction-control pin
• No transceiver modules required
• Works well over short distances

Why RS-485 Is Still Available

RS-485 may be used later if UART has issues caused by:

• Alternator noise
• Relay switching noise
• Fridge compressor noise
• Inverter noise
• Long cable run
• Ground noise

The software should keep a transport abstraction so UART and RS-485 can be swapped without changing the application protocol.