• CANBUS and VESC-Status
• transparent BLE-UART bridge for VESC-App (no need for seperate Bluetooth module)
• Support for Front- and Backlight
• Lightbar for battery monitor and footpad sensor (visual and acoustic)
• Blynk-App (Monitoring & Configuration)
• Over-The-Air updates (OTA)

2021-04-09: Renamed from "funwheel-controller" to rESCue.

2021-06-22: CANBUS-only is now supported, see CANBUS

This repository contains code to add some additional features to the VESC-based vehicles by enhancing it with a separate ESP32-controller to control front- and back-lights, monitor the battery and add Bluetooth VESC-UART-bridge. It was originally created for the Funwheel

The ESP32 D1 Mini is highly recommended, but other ESP32 also work.

If you're interested in an almost plug-and-play solution, you might want to get the rESCue PCB from our rESCue-Store.

If your not interested in the rESCue PCB and want build it yourself or only want to use parts of this project, find the recommended hardware below. Other parts may also work, but the recommended parts are best tested.

• ESP32 D1 Mini, other ESP32 might also work but check if all needed GPIO are accessible

• DC-DC converter (LM2576HV) or (XL7015)

• Piezo-Buzzer (any model should work)

For WS28xx Adafruit Neopixel are recommended

• 4x Adafruit Neopixel stick or compatible. Solder 2 sticks together for front and back each.
• waterproof & cool alternative Adafruit NeoPixel Digital RGB LED Strip 144 LED.

If you want to use COB modules, tri-color 12V COB with two MOSFET modules are recommended

• Tri-Color COB module
• D4184 MOSFET module

Connect you VESC (e.g. Cheap FOCer 2) to the RX- and TX-PINs of the UART2 of your ESP32 (GPIO 16 & 17).

Connect your Cheap FOCer to GPIOs of the ESP32 as follows:

Connect your WS28xx pixel to the DC-DC converter and attach the DIN-Pin to GPIO 4 of your ESP.

Connect your Piezo buzzer with the negative lead to GPIO 25 and the positive lead to GND.

This table shows the PIN mapping:

Many people are using a Antispark Switch to power a VESC and external hardware (like the rESCue-PCB) together. These Antispark-Switches are quite expensive. A cheaper solution is to use a MOSFET to turn on and of your external hardware when the VESC is powered on. There are cheap ready-to-use PCBs out there like this MOSFET-Switch

Here's how this can be done.

There are some downsides using a NPN-MOSFET like the one linked obove, but PNP-based MOSFET-switch PCBs are hard to find, especially when the voltage is above 60V. To learn about the differences between high- and low-side switching, please read this article.

• Support for Front- and Backlight
• Battery monitor (visual and acoustic)
• transparent BLE-UART bridge for VESC-App
• CANBUS and VESC-Status
• Blynk-App (Monitoring & Configuration)
• Over-The-Air updates (OTA)

When powered the lights show a short startup sequence. While riding, the LEDs in drive direction are shining white and the LEDs facing against riding direction shine red.

When braking the lights at the back will flash red.

In this version, two 12V COB modules are controlled by MOSFETs. When using tri-color COB, switching the light color from white to red and vice versa based on the driving direction is supported.

The recommended COB (see above) are very bright, use up to 10W and get very hot when operating at 12V. Therefore they should be operated at 10.5V only.

In this version WS28xx (aka Neopixel) LEDs are used for the front- and backlight. Dependening on the number of LEDs and the specs of the used ESP32 and WS28xx, it might also be possible to connect the WS28xx stripe directly to 3,3V of the ESP32. Nevertheless it's recommended to safely power the WS28xx stripe with a separate DC/DC converter.

Using any other number of LEDs then 16, the NUMPIXELS definition has to be changed in the config.h file.

The battery monitor uses either the CANBUS or a simple externale voltage divider which allows measuring the voltage from 0 - 100 V with the analog input of an ESP32.

The ESP12 uses 12bit (0-4095 )and 3.3V logic.

The battery level is monitored against the configured values, no matter if CANBUS or ean external voltage divider is used. If the battery level drops close the configured value, the piezo buzzer will give you a warning tone. If the battery level drops under the configured value, an alarm tone sounds.

If a WS28xx stripe is connected, the battery level will also been shown in 100/PIXEL_NUMBER steps, e.g. if a stipe with 5 pixel is connected, each pixel represents 20% of the capacity. Every single pixel is further subdivided and changes color from green to red.

For further information on measuring voltages with the ESP32, check this great video.

Use UART if not connected via CANBUS, otherwise it's not needed anymore!

The VESC applications for desktop and mobile are able to connect to the VESC via Bluetooth Low Energy (BLE). Normally you'll need a separate Bluetooth module (e.g. NRF51822) connected to your VESC. The ESP32 will do the same. Connected to the UART interface of the VESC, it allows to connect the App via BLE to the VESC.

The desktop and mobile version of the VESC tool app (Linux, Windows, Android) and also Yours Truly are well tested and should just work fine.

Attention: this feature is only available using an ESP32 and a separate CAN-tranceiver, e.g. the SN65HVD230.

If CANBUS is used, an additional UART connection isn't needed for rESCue.

Connection to the VESC via CANBUS is now also supported. The connection to the CANBUS will bring you status updates of your VESC. These information include

• dutyCycle - the current duty cycle
• rpm - the RPM from the VESC
• current - the current, the VESC uses
• ampHours - the ampere hours the VESC has used from the battery
• ampHoursCharged - the ampere hours the battery has been charged by the VESC
• wattHours - the watt hours the VESC has used from the battery
• wattHoursCharged - the watt hours the battery has been charged by the VESC
• mosfetTemp - the temperature of the MOSFETs
• motorTemp - the temperature of the Motor, if supported by the motor
• inputVoltage - the input voltage, which is the voltage of the battery
• tachometer - the current speed calculated by the VESC
• totalCurrentIn - total current input
• pidPosition = current PID position

Please check your CAN configuration in VESC. Make sure the VESC_ID matches the VESC_CAN_ID in config.h and doesn't collide with the ESP_CAN_ID. This application assumes you have enabled status messages 1-5, please update your CAN-settings in VESC appropriate to have full support of all features. It is also recommended to reduce the frequency for status updates from the VESC. The default setting is 50Hz, but it is sufficient for this application to reduce the frequency to somehow around 1-5Hz.

If the CANBUS-feature is enabled, the battery monitor can also use the voltage measured by the VESC. A separate voltage divider isn't necessary in that case.

rESCue is configured by the rESCue-App which is available for free in Apple App Store and Google Play Store.

The rESCue-App is used to configure the ESP32, e.g. the lights and sounds and also the monitoring features including charts and local push-notifications. It also includes some basic metrics of the VESC and ride tracking.

rESCue includes an mechanism to do over-the-air updates which can be activated in the Blynk-App. If enabled the ESP32 will reboot and a BLE-Service with the UUID d804b643-6ce7-4e81-9f8a-ce0f699085eb which offers the OTA update mechanism. Point you browser - at the moment only Google Chrome is supported - to the Update URL and hit Scan to connect your browser to the rESCue-ESP32. The browser will check if a newer firmware version, that is compatible with your hardware revision, is available and offer the opportunity to update the ESP32.

Please be patient, the update via BLE may take several minutes.

All the configuration can be found in the config.h file and is mostly self explaining (I hope).

There are some parameters you should check, e.g. the settings for battery voltage and which type of front- and backlight you want to use. Just read the comments on each parameter.

This project is build on PlatformIO. To build the firmware for the ESP32 install the core version of PlatformIO to your computer. An alternative way is to install the PlatformIO extension for your favourite IDE.

Clone this repository to your local computer and change into the created directory.

git clone https://github.com/thankthemaker/rESCue && cd rESCue

To build the firmware and upload it to you ESP32 MCU run

platformio run --target upload

If you'd like to donate for my work

Why did we rename the project?

Well, the project is no longer only related to the Funwheel, basically it's valuable for all VESC based vehicles and was already adopted by the Floatwheel community. The project started with the intention to only bring switchable LEDs to the Funwheel but evolved to complete solution to bring more features, fun and of course safety to you VESC based vehicle. Especially for self-balanced vehicles like the Funwheel or the Floatwheel this software might help to prevent damage to yourself and your vehicle by giving you visual and acoustic feedback.

Enjoy and stay / ride save!!!