Wind mobility technology H1 User manual

Wind IOT

Product Manual

Mode No: H1

Table of Contents

I. Overview .............................................................................................................................................................3

1.1 Product Introduction..........................................................................................................................3

1.2 IOT functions and principles............................................................................................................3

2. Basic parameters.............................................................................................................................................5

2.1 Communication parameters............................................................................................................5

2.2 working environment.........................................................................................................................5

3. Interface function definition........................................................................................................................5

3.1 Interface Definition .............................................................................................................................5

3.2 Front View of the Interface ..............................................................................................................6

3.3 Interface details....................................................................................................................................6

4. Dimensions .......................................................................................................................................................7

4.1 Shape ......................................................................................................................................................7

4.2 Size...........................................................................................................................................................7

5. Control system.................................................................................................................................................8

6. Installation Notes............................................................................................................................................8

7. Software function............................................................................................................................................8

8. System maintenance and inspection .......................................................................................................9

9. FCC Warning ....................................................................................................................................................9

1. Overview

1.1 Product Introduction

IOT controller, the vehicle assembly controller. It is the core control

component of the entire scooter. It collects the throttle button signal, the

vehicle GPS positioning signal and other component signals, and makes

corresponding judgments to control the movement of the lower

components and drive the scooter to run normally. As the command

management center of the scooter, the main functions of the assembly

controller include: drive control, optimal control of braking energy,

power management of the whole vehicle, maintenance and

management of CAN network, fault diagnosis and processing, vehicle

status monitoring, etc. It plays a role in controlling the operation of the

vehicle.

1.2 IOT functions and principles

An electric scooter is a complex system consisting of multiple

subsystems, including power systems such as batteries, motors, and

brakes. Almost all subsystems complete their respective functions and

goals through their own control units. In order to meet the goal of

vehicle dynamics, economy, safety and comfort, on the one hand, it must

have an intelligent human-car interaction interface. On the other hand,

each system must also cooperate with each other to optimize matching.

Therefore, electric scooters require a complete vehicle controller to

manage the various components.

The electric scooter uses the IOT controller as the main node to manage,

coordinate and monitor all aspects of the electric scooter through the

internal wiring harness to improve the energy utilization rate of the

vehicle and ensure the safety and reliability of the vehicle.

The functions of the IOT controller are as follows:

1) Switch lock control function

2) GNSS positioning function

3) 4G data communication function

4) BLE communication function

5) Human-computer interaction function

6) Vibration detection alarm function

7) Voice playback function

8) Control the operation of the ECU

9) Control headlights

10) Control dashboard

2. Basic parameters

2.1 Communication parameters

Mobile Communications:

European version: FDD/TDD/WCDWA,

US version: FDD LTE/WCDMA

Positioning communication:

Use U-blox and turn on GPS/GLONASS/GALILEO/QZSS

Bluetooth communication: BLE4.0

2.2 working environment

Working Voltage：Range DC15V-55V, Normal power supply DC 36V

Working power: 0.6w

Working temperature: -20 °~ 70 °

Protection level: IP67

Appearance size: 93 (L) * 67 (W) * 52 (H) mm

3. Interface function definition

3.1 Interface Definition

The external terminal of the vehicle controller uses a 5-core professional

waterproof connector. The outline structure and the names of the pins are

defined as follows.

3.2 Front View of the Interface

3.3 Interface details

Frame number

Features

Rx: IOT uart Rx from motor controller

Tx: IOT uart Tx to motor controller

CTRL: wake up motor controller

P-: GND output from BMS

P+: 36v output from BMS

4. Dimensions

4.1 Shape

4.2 Size

5. Control system

5.1 The control interface of the system is inside the shell. It is an

interface with 8 frames. It can be programmed and read and written by

opening the shell connection interface.

Serial port section

Features

3V3

Burnsck

BurnDIO

blank

MCU-TX

MCU-RX

6. Installation Notes

6.1 Use 4 M4 anti-theft screws to connect the IOT shell and the back

splint to the front end of the whole vehicle riser, and then use 2 M6

anti-theft screws to fix through the splint and riser.

6.2 Insert the cable terminal of the motor controller into the IOT

controller connection port and fasten the interface.

7. Software function

7.1 restart function

7.2 car search function

7.3 backup point charging management function

7.4 throttle function

7.5 self-diagnosis function

7.6 speed limit function

7.7 remote upgrade function

7.8 smart battery monitoring function

The intelligent battery management system constantly monitors the

working status of each battery and sets multiple protections, such as

discharge protection/low temperature protection, to ensure the safety

of the battery and prolong its service life.

7.9 low battery protection

8. System maintenance and inspection

8.1 Although the device is fully sealed and waterproof, it is not possible

to flush the IOT controller with water. Do not open the upper and lower

shells of the IOT unless necessary.

8.2 Dust and dirt outside the IOT controller should be periodically

removed according to the environment in which it is used.

8.3 Never test the controller circuit with a high resistance meter.

9. FCC Warning

This device complies with part 15 of the FCC Rules. Operation is subject

to the following two conditions:

(1) This device may not cause harmful interference, and

(2) this device must accept any interference received, including

interference that may cause undesired operation. Any Changes or

modifications not expressly approved by the party responsible for

compliance could void the user's authority to operate the equipment.

This equipment has been tested and found to comply with the limits for

a Class B digital device, pursuant to part 15 of the FCC Rules. These

limits are designed to provide reasonable protection against harmful

interference in a residential installation.

This equipment generates uses and can radiate radio frequency energy

and, if not installed and used in accordance with the instructions, may

cause harmful interference to radio communications. However, there is

no guarantee that interference will not occur in a particular installation.

If this equipment does cause harmful interference to radio or television

reception, which can be determined by turning the equipment off and

on, the user is encouraged to try to correct the interference by one or

more of the following measures:

-Reorient or relocate the receiving antenna.

-Increase the separation between the equipment and receiver.

-Connect the equipment into an outlet on a circuit different from that to

which the receiver is connected.

-Consult the dealer or an experienced radio/TV technician for help.

The device has been evaluated to meet general RF exposure

requirement.

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