1AK-GROUP battery cabinets and blocks are used in projects where battery modules must be combined into a single system with a specified voltage, capacity, protection and parameter control.
This section includes 256 V blocks, custom battery blocks and 512 V cabinets. Such solutions are selected according to project requirements: electrical parameters, dimensions, placement, cooling, cable routing, BMS, protection and operating conditions.
The 256 V battery block is a project Li-Ion solution from 1AK-LI-ION for tasks where a battery assembly with a specified voltage level, battery management system and integration into an industrial or engineering system is required.
The block is developed according to project parameters: required capacity, layout, placement conditions, charge and discharge mode, protection requirements, cable routing, case and data exchange. The solution can be used as a standalone battery block or as part of a larger battery system.
256 V block parameters
| Parameter | Value |
|---|---|
| Name | 256 V battery block |
| Solution type | Project Li-Ion battery block |
| Nominal voltage | 256 V |
| Chemical system | Li-Ion / LFP — according to project requirements |
| Capacity | Selected according to technical specification |
| Battery management system | BMS: control, protection, balancing |
| Case | According to project: metal or custom structural version |
| Cable routing | According to battery system layout |
| Interfaces | CAN / RS485 / telemetry — if required by project |
| Temperature range | According to operating conditions and project specification |
| Application | Industrial, engineering and project battery systems |
| Production direction | 1AK-LI-ION |
Custom battery blocks are developed for a specific customer task. This format is used when a standard solution does not meet requirements for voltage, capacity, dimensions, layout, interfaces or operating conditions.
The 1AK-LI-ION research and production center performs cell selection, configuration design, BMS integration, mechanical assembly, cable routing and quality control. Development of prototypes and subsequent serial supply for industrial, transport and engineering projects are possible.
What is defined when designing a custom block
| Parameter | What is defined |
|---|---|
| Voltage | Required voltage level of the system |
| Capacity | Energy reserve and operating mode |
| Dimensions | Installation space and case restrictions |
| BMS | Protection, balancing, monitoring |
| Case | Material, protection, layout |
| Interfaces | CAN / RS485 / telemetry — if provided |
| Operating conditions | Temperature, vibration, charge and discharge modes |
| Project status | Prototype, pilot batch, serial supply |
The 512 V battery cabinet is intended for projects where battery modules are combined into a higher-voltage system with parameter control and industrial-level integration.
Such solutions are developed for a specific project and may include battery modules, BMS, switching equipment, protection, cable routing, a metal cabinet and monitoring elements. The configuration is selected according to the customer’s technical specification.
512 V battery cabinet parameters
| Parameter | Value |
|---|---|
| Name | 512 V cabinet |
| Solution type | Battery cabinet |
| Nominal voltage | 512 V |
| Capacity | According to project configuration |
| Composition | Modules, BMS, switching equipment, protection |
| Case | Cabinet version |
| Interfaces | According to project |
| Application | Industrial and engineering battery systems |
| Production direction | 1AK-LI-ION |
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