Difference between revisions of "Electric Hoverboard Monorover R2 Teardown"

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[[Image:hoverboard_content.jpg|400px|right]][[Image:hoverboard_left_platform.jpg|400px|right]][[Image:hoverboard_right_platform.jpg|400px|right]]The Monorover R2 is an electric self balancing hoverboard - based on two individual motors joint at a central axis-point. It is an efficient way to get around your neighborhood, park, to the shop, in the mall and other relatively flat surface areas.
[[Image:hoverboard_content.jpg|400px|right]][[Image:hoverboard_left_platform.jpg|400px|right]][[Image:hoverboard_right_platform.jpg|400px|right]]The Monorover R2 is an electric self balancing hoverboard - based on two individual motors joint at a central axis-point. It is an efficient way to get around your neighborhood, park, to the shop, in the mall and other relatively flat surface areas.


* Purchased from [http://www.aliexpress.com/item/New-Pattern-Mobility-Scooter-Swing-Car-Two-Wheel-Scooter-Self-Balancing-Electric-Vehicle-Motorcycle-Light-and/32328839149.html Wuxi Oriental Star Metal Science And Technology Co., Ltd.]
== Usage specifications ==
== Usage specifications ==
* Road surface: relatively flat, no more than +-25mm bumps (asphalt, grass, fine gravel)
* Road surface: relatively flat, no more than +-25mm bumps (asphalt, grass, fine gravel)

Revision as of 20:59, 1 August 2015

Hoverboard content.jpg
Hoverboard left platform.jpg
Hoverboard right platform.jpg

The Monorover R2 is an electric self balancing hoverboard - based on two individual motors joint at a central axis-point. It is an efficient way to get around your neighborhood, park, to the shop, in the mall and other relatively flat surface areas.

Usage specifications

  • Road surface: relatively flat, no more than +-25mm bumps (asphalt, grass, fine gravel)
  • Maximum speed: about 10km/h, begins to beep
  • Max riding angle: approx. 15°, vary depending on rider's weight, road condition and temperature
  • Range per charge: 20km
  • Ride height: 110 mm
  • Ground clearance: 30 mm
  • Turning radius: 0°, on the spot
  • Tire-to-chassis clearance: 5 mm
  • Max load: 100kg
  • Min load: 20kg, otherwise starts to oscillate
  • Charge time: 2 to 3 hours using 42V 2A charger
  • Modes: standby, activated, automatic shutdown after 2 minutes standby

Technical specifications

  • Released: January 2015
  • Product code: DAT-N1
  • Manufacturer: Shanghai DAT Electric Vehicle
  • Type: self balancing hoverboard
  • Main controller: STM32F103 ARM Cortex-M3 core
  • Balancing controllers: 2x STM32FEB ARM Cortex-M3 core
  • Balancing sensors: 2x InvenSense MPU-605 MEMS 3-axis gyroscope and 3-axis accelerometer
  • Motor: 2x direct drive 3-phase brushless DC electric wheel hub motors, 36V 350W, 700W total
  • Tire type: non-pneumatic rubber tire, road pattern
  • Tire size: 7-inch / 170 mm
  • Activate: switch pads for both feet
  • Lights: 2x blue tinted LED windows
  • Work temperature: -10°C to 40°C, peak performance at 10 to 30°C
  • Environment protection: IP54 - dust protected, splashing of water
  • Battery: Lithium-ion rechargeable 18650-cells, 10S2P 36V 4400mAh 158.4Wh pack with XT60 connector
  • Charger: Lithium-ion charger 42V 2A 3-pin connector with built-in fan
  • Dimension: 58.5 x 18.5 x 18.0 cm
  • Unit weight: 10kg
  • Manufacturer warranty: 1 year

Battery

Hoverboard battery pack.jpg

Hoverboard battery pack spec1.jpgHoverboard battery pack spec2.jpg

Specifications:

  • Type: Lithium-ion rechargeable 18650-cell battery pack
  • Voltage: 36V
  • Capacity: 4400 mAh
  • Dimensions: 135 x 85 x 55 mm
  • Connector: XT60

The power source in the hoverboard is a single 18650-cell based Lithium-ion battery pack with XT60 connectors - no balancing leads.

Upgrades

The 18650 pack can be upgraded to any battery pack with 36V output voltage, meaning you can use two 18V backs in parallel to get 36V. Any capacity will work, minimum 3000mAh recommended, as long as the size does not exceed 135x85x58mm.

The following suggestions can be connected two in parallel and externally charged.

  • 2x Turnigy nano-tech 3300mah 5S 65C Lipo Pack - total 6600 mAh capacity, theoretically
  • 2x Turnigy nano-tech 3850mah 5S 65C Lipo Pack - total 7700 mAh capacity, theoretically
  • 2x Wild Scorpion 18.5V 4200mAh 30C MAX 40C 5S - total 8400 mAh capacity, theoretically
  • 2x Venom 15020 18.5V 5000mAh 25C 1P 5S LiPo Battery VNR15020 - total 10000 mAh capacity, theoretically

Charger

Hoverboard battery charger.jpg

The kit includes a (weird) 160 to 240V Lithium-ion 42V 2A charger. An LED light illuminates red when the battery is charging and green when it is complete or idle.

It connects to the unit with a keyed 3-pin (where 2-pins are used) connector and a threaded ring to secure it (unnecessary) to the socket.

Control boards

There are three circuit boards on the unit, one main board and two auxiliary boards on each axis-half. The aux. boards controls and connects the front lights, status/battery indicator panels, pedal platform opto interrupters and, most importantly, the accelerometer sensor.

The main board contains the main controller, 3-phase motor drivers, hall-effect inputs, current sensors, battery voltage measurement, power switch input, alarm buzzer and various voltage regulators, op-amps and protection circuitry. Bottom side has no components.

The front lights circuit board has 3-pin input (LED1, LED2, GND). It seems that the dual LED functionality is not in use, on this model. This could be used to change the intensity, color or other uses.

Main board

Hoverboard main board pcb.jpg

High resolution image

Auxiliary boards

Hoverboard balance board pcb.jpg

High resolution image

LED status indicators

Battery indicator:

  • Solid green - Battery power level OK
  • Blinking green - Battery power level under 25%
  • Solid red and beeping - Battery lower than 15%, recharge immediately

Status indicator:

  • Solid green - Tilt sensor and driver controller OK
  • Blinking green - Tilt sensor error
  • Solid red and beeping - Tilt sensor over 15° or sensor not ready, outside working range
  • Blinking yellow - Charger connected and charging battery

Front lights:

  • No lights - Pad switch off, standby
  • Blue lights - Pad switch active, wheel ready
  • Blinking lights - Turning left/right

Calibrate accelerometer offsets

The factory setup comes with the level/zero platform tilt already calibrated. But you can re-calibrate the hoverboard at any time using the power button, hold for 5 seconds.

  1. Use a bobble leveler or your phone for reference
  2. Put both platforms/pedals in zero offset to each other
  3. Put the leveler on the flat surface on one of the platforms/pedals
  4. Press and hold the power button for 5 seconds until an audioable confirmation is heard
  5. The front lights will blink when the calibration is done
  6. Turn off and on the hoverboard to use the new calibration offsets

Pedal platform stub fix

Hoverboard opto sensor fix.jpg

There are two rubber stubs per platform (front and back section) which interrupts the ST150 opto sensor, but sometimes they catch on the side of the sensor and gets squeezed into position. This can lead to damage to the sensor over time and it makes an annoying audible sound.

  1. Remove the aux board cover to expose the opto sensors
  2. Download this hoverboard opto sensor fix STL model and print 4 pieces on an 3D printer
  3. Insert them onto the opto sensors, no glue necessary
  4. Reassembly, fixed!

Tips and tricks

  • To silence the beeper slightly, put a piece of tape/masking tape over the piezoelectric buzzer
  • Remove the rattling noise from the free-moving washer in the axis-point, put a piece of 1mm round plastic between the limit bolt and the axis - or download and print this STL model
  • The motor axis can sometimes come loose and make an klang-klang noise on sudden stops, remove the aux. board cover, release the four hex screws, add a piece of hard rubber or foam between the axis and top metal plate, and secure firmly
  • Remove the snapping sound from the pedal platforms by mounting a funnel/guide piece over the opto interrupters
  • Put a Mylar sheet underneath the battery to minimize scratching on the frame
  • Minimize battery movement by pushing a piece of cotton or foam between inner side of the battery and frame
  • Use a timer to charge the battery, 3 hours max., to turn off the trickle charge
  • Turn off or disable the blue front lights by disconnecting the cables leading to the balance controller for each wheel
  • To furhter improve the ripple and noise isolation, add capacitors on the unpopulated pads marked C## (# is a number), voltage rating double of what is measured on the line

Details

Hoverboard right battery aux circuit board.jpg Hoverboard right aux circuit board.jpg Hoverboard left main aux circuit boards.jpg Hoverboard left main aux circuit boards no cables.jpg Hoverboard left side circuit board1.jpg Hoverboard left side circuit board2.jpg Hoverboard left side circuit board3.jpg Hoverboard left side circuit board4.jpg Hoverboard left side circuit board5.jpg Hoverboard left side circuit board6.jpg Hoverboard motor.jpg Hoverboard left pedal opto interrupter.jpg Hoverboard left pedal rubber stub motor mount.jpg Hoverboard left power button charging port inside.jpg Hoverboard front light board.jpg