Electric bicycles refer to the use of batteries as auxiliary energy on the basis of ordinary bicycles, and the installation of electric motors, controllers, batteries, steering handles and other control components and display instrumentation system of electromechanical integration of personal vehicles. This article introduces the design of each part of the electric bicycle, for your reference only.
Design of Electric Bicycle Controller Based on PSoCThe PSoC CY8C24533-based electric bicycle controller uses its analog, digital, and routing resources to enable the entire system to implement all of the above control functions using only one PSoC chip, eliminating the need for any peripheral chips and reducing the number of external components.
Development of electric bicycle charging system based on SPCE061A and CPLDThis article makes use of the flexibility of CPLD control to easily modify the circuit online, to achieve a variety of complex digital logic control, which greatly expands the function of the microcontroller. Moreover, due to the flexibility of the hardware programming language and the in-system programming features of the CPLD, the system development cycle is greatly shortened. Based on the above ideas, an electric bicycle charging system based on SPCE061A and CPLD was developed.
Technical principle and design of electric bicycle controllerThe products of electric bicycle controllers are changing with each passing day, and the technology is advancing by leaps and bounds. However, the cognitive level of people in the electric bicycle industry is uneven. In order to popularize the knowledge of electric bicycle controllers and improve the level of this kind of technology, here we go from the basic control principle to The intelligent system composed of the microcontroller (MCU) control is introduced accordingly.
Design of New Electric Bicycle Speed ​​Control System Based on C8051F313This paper introduces a brushless DC motor speed control system designed by the high-speed SoC C8051F313 single-chip microcomputer of American company Silicon Laboratories (Silabs). The system makes full use of the on-chip resources of the C8051F313. The design scheme is simple in circuit, requires fewer peripheral components, and has low overall cost and good performance.
Design of Community Bicycle Anti-theft System Based on WSNThis paper introduces WSN into the bicycle anti-theft system of the community, and gives a design scheme of a community bicycle anti-theft system based on WSN. It provides guarantee for the management of community bicycles, especially theft prevention.
Electric bicycle lithium battery pack protection circuit designThis article needs to design a special protection circuit to manage each battery to ensure the normal charge and discharge of the lithium battery. Completed the research and design of a lithium battery protection circuit for electric bicycles.
MCU in electric bike applicationsThis article will focus on the design techniques and related challenges of implementing electric bicycles using microcontrollers or programmable system-on-chip (PSoC).
Bicycle driving recorder based on AVR single chip microcomputer, software and hardware coordinationThe bicycle driving recorder is a mechatronics high-tech product integrating computer technology and electronic technology. It has the advantages of high precision and convenient use. This project will discuss this system from the aspects of the function of the driving recorder, hardware circuit design, software design, and various function realization principles.
Bicycle driving recorder based on AVR microcontroller, including software and hardware specific solutionsThis paper designs a bicycle driving recorder based on AVR single-chip microcomputer. It will describe this system in detail from hardware system, software system, implementation principle of each module, software and hardware debugging.
Design of electric bicycle fast charger based on AT89C51. This paper aims to develop an electric bicycle quick charger (battery size 36V, 12A) that intelligently changes the charging mode according to the degree of battery saturation and can charge the battery in a short time (four hours).
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SPECIFICATION
Current Rating: 1.0Amp
Insulation Resistance: 1000MΩ min
Contact Resistance: 20mΩ max
Withstand Voltage: 500V AC/DC
Operating Temperature: -40°C to +105°C
Contact Material: Phosphor Bronze
Contact Plating: Au Over Ni
Insulator Material: High Temperature plastic UL94V-0
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