Headquarters
Antoni Tritsi 21,
PO Box 8138, GR 57 001
Thessaloniki, Greece
Ph: +30 2310 473 374
Brussels
Square de Meeus 35
BE 1000
Brus
Ph: +32 2 893 9757
batteries

powering
progress

We provide energy solutions with our Battery Pack Design using advanced modeling and simulation. We craft high-performing, efficient, and durable packs from thermal dynamics to optimized storage. Our process comprises of:

  • Battery Pack Design
  • Modeling & Simulation
  • Cell and Low-Voltage Module Testing
  • Software Requirement Analysis & Test Specification

battery pack
design

Our process seamlessly integrates Electrical Design, ensuring optimal performance and efficiency. Mechanical Design ensures robust and compact structures, while Cooling Design employs cutting-edge techniques to maintain temperature balance and optimal performance.

modeling &
simulation

We employ both simple (electrical) and detailed (electrochemical) approaches to ensure precision in our designs. Our models are fully coupled with thermal intricacies, ranging from 0-d to 3-d, encompassing Cell Module and pack level simulations.

Additionally, our proficiency extends to coupling with multi-domain system level modeling, providing a holistic view of battery cell modules that integrates electrical, thermal, and electrochemical dynamics for optimal performance and innovation.

cell & low-voltage
module testing

We employ both simple (electrical) and detailed (electrochemical) approaches to ensure precision in our designs. Our models are fully coupled with thermal intricacies, ranging from 0-d to 3-d, encompassing Cell Module and pack level simulations.

Additionally, our proficiency extends to working with multi-domain system level modeling, providing a holistic view of battery cell modules that integrates electrical, thermal, and electrochemical dynamics for optimal performance evaluation.

software requirements
analysis & test specification

SWE. 1
Software Requirements Analysis

SWE. 2
Software Architectural Design

SWE. 3
Software Detailed Design
& Unit Construction

SWE. 6
Software Qualification Test

SWE. 5
Software Integration
& Integration Test

SWE. 4
Software Unit Verification

SWE. 1 Writing verification criteria for new or updated SW requirements for the Battery Management System (BMS)

SWE. 1 Writing the technical safety concept for BMS functional safety goals (ISO 26262)

SWE. 5 Review of test specification for BMS SW as well as for OBD

SWE. 6 Review of test results for OBD HIL tests