Li-Ion battery solutions for urban mobility are intended for compact electric equipment operating in regular charge-discharge cycles: electric scooters, electric bicycles and other types of light electric transport.
For such solutions, compact size, stable energy output, battery protection, cycle life and compatibility with the specific device design are important. The battery system is designed with regard to installation space, required voltage, capacity, operating mode, charging conditions and safety requirements.
Batteries for electric scooters must combine compact dimensions, sufficient capacity, overload protection and stable operation under regular charging. For urban mobility, battery weight, safety, service life and correct operation of the battery management system are especially important.
1AK-LI-ION can develop battery packs according to the parameters of a specific electric scooter model: voltage, capacity, case dimensions, connector type, charging mode and protection requirements.
What is considered during design
| Parameter | What is important |
|---|---|
| Voltage | Compliance with the device electrical system |
| Capacity | Required range and usage scenario |
| Dimensions | Placement in the electric scooter body |
| BMS | Protection against over-discharge, overcharge, overheating and short circuit |
| Temperature range | Operation in urban conditions and seasonal temperature changes |
| Case and connections | Protection, mechanical strength, ease of assembly and maintenance |
Li-Ion batteries for electric bicycles are selected with regard to motor power, required range, battery location on the frame or inside the body, and operating mode.
For electric bicycles, not only capacity and voltage are important, but also installation ergonomics, battery weight, charging safety and stable operation in everyday use. The configuration can be adapted to different frame types, designs and operating conditions.
What is considered during design
| Parameter | What is important |
|---|---|
| Battery configuration | Selection by voltage, capacity and motor power |
| Form factor | Placement on the frame, in the body or in a dedicated compartment |
| Weight | Impact on balance and ease of operation |
| BMS | Parameter control, protection and balancing |
| Charging | Compatibility with charger and operating mode |
| Service life | Resistance to regular charge-discharge cycles |
In addition to electric scooters and electric bicycles, Li-Ion solutions can be used in other compact electric equipment: mobile platforms, service equipment, small vehicles, robotic devices and custom urban mobility solutions.
Such battery systems are developed for a specific task: by voltage, capacity, dimensions, weight, protection requirements, interfaces and operating mode.
Possible application areas
| Area | Possible tasks |
|---|---|
| Light electric transport | Batteries for mobile equipment and personal transport |
| Service equipment | Power supply for compact electrical devices |
| Robotic platforms | Batteries with parameter control and protection |
| Custom projects | Battery system development according to technical specification |
A Li-Ion battery solution is selected not only by capacity. Correct configuration requires consideration of application, voltage, operating mode, placement conditions, BMS requirements and the level of integration into equipment.
| Selection criterion | What to consider |
|---|---|
| Application | Urban mobility, modular system, battery block, electric vehicle |
| Voltage | Equipment or project requirements |
| Capacity | Required operating time or energy reserve |
| Chemical system | Li-Ion / LFP — according to safety, service-life and operating-mode requirements |
| BMS | Protection, balancing, monitoring, data exchange |
| Dimensions and weight | Installation space and layout requirements |
| Temperature range | Operating and storage conditions |
| Interfaces | CAN / RS485 / telemetry — if required |
| Project status | Standard solution, prototype or custom development |
For compact electric equipment and urban mobility, weight, dimensions, service life and safe charging are important. For modular solutions and battery cabinets, scalability, parameter control and integration into an engineering system are important. For electric vehicles and special-purpose electric transport, project adaptation, BMS operation, temperature range and platform requirements are important.
For electric vehicles and special-purpose electric transport – design adaptation, BMS operation, temperature control, and platform requirements.
For consultations on selecting Li-Ion solutions, please contact info@1ak-group.com