ABOUT US

We recognize the importance of resources for future generations.
We recognize the importance of resources for future generations.
Onbridge aims to complete the value chain of the battery resource recycling cycle—from manufacturing and evaluation to disposal—for the benefit of future generations, the environment, and resource sustainability. Our lettermark embodies our commitment to serving as the bridge (bridge) that initiates (on) the transfer of finite value to future generations.
Onbridge aims to complete the value chain of the battery resource recycling cycle—from manufacturing and evaluation to disposal—for the benefit of future generations, the environment, and resource sustainability. Our lettermark embodies our commitment to serving as the bridge (bridge) that initiates (on) the transfer of finite value to future generations.
Onbridge aims to complete the value chain of the battery resource recycling cycle—from manufacturing and evaluation to disposal—for the benefit of future generations, the environment, and resource sustainability.
Our lettermark embodies our commitment to serving as the bridge (bridge) that initiates (on) the transfer of finite value to future generations.
Business

Pro-environmental

We conduct our business based on the battery resource recycling cycle to promote environmentally friendly resource utilization.
Battery Manufacturing
Battery Manufacturing Inspect new batteries and collect initial data during the manufacturing stage
•  High-Efficiency Battery Module Cycler
High-Efficiency Battery Pack Cycler
Battery
Usage
Assess the performance of in-use batteries and gather mid-term data.
•  Electric Vehicle Battery Performance Evaluation System
Reuse & Re-manufacturing
Test the performance of used batteries and collect end-of-life data.
•  Used Battery Residual Performance Evaluation System (H/W & S/W)
High-Precision High-Efficiency Premium Inspection Equipment
Recycling & Disposal
Ensure safe discharge and collect end-stage data.
•  Electrical Discharge Equipment
Business

Pro-environmental

We conduct our business based on the battery resource recycling cycle to promote environmentally friendly resource utilization.
Battery Manufacturing
Battery Manufacturing Inspect new batteries and collect initial data during the manufacturing stage
 High-Efficiency Battery Module Cycler
 High-Efficiency Battery Pack Cycler
Battery Usage
Battery Usage Assess the performance of in-use batteries and gather mid-term data.
Electric Vehicle Battery Performance Evaluation System
Reuse and Remanufacturing
Test the performance of used batteries and collect end-of-life data.
Used Battery Residual Performance Evaluation System (H/W & S/W)
High-Precision High-Efficiency Premium Inspection Equipment
Electric Vehicle Battery Performance Evaluation System
Recycling and Disposal
Recycling and Disposal Ensure safe discharge and collect end-stage data.
Electrical Discharge Equipment
Milestone

Precise

We aim to develop precise equipment
and create a solution for predicting future battery
performance based on accurate data.

Step 1

Equipment Development and Data Collection
Develop in-house Cycler capable of precise measurements to collect data throughout the entire battery lifecycle.
High-Efficiency Battery Pack Cycler.

Step 2

Data Analysis
and Algorithm
Development
Research on electrical degradation factors.
Research on chemical degradation factors.
Develop algorithms based on five key characteristics: DCIR, ACIR, chemical composition, manufacturer-specific characteristics, and BMS data.

Step 3

AI Training and Model Completion
Develop models based on battery characteristics and driver-specific traits.
Implement machine learning and simulations.

Step 4

Total Solution Integration
Develop models tailored to the characteristics of traditional mobility.
Continue machine learning and simulation.
Finalize product development.
Milestone

Precise

We aim to develop precise equipment and create a solution for predicting future battery performance based on accurate data.

Step 1

Equipment Development and Data Collection
Develop in-house Cycler capable of precise measurements to collect data throughout the entire battery lifecycle.
High-Efficiency Battery Pack Cycler.

Step 2

Data Analysis and Algorithm Development
Research on electrical degradation factors.
Research on chemical degradation factors.
Develop algorithms based on five key characteristics: DCIR, ACIR, chemical composition, manufacturer-specific characteristics, and BMS data.

Step 3

AI Training and Model Completion
Develop models based on battery characteristics and driver-specific traits.
Implement machine learning and simulations.

Step 4

Total Solution Integration
Develop models tailored to the characteristics of traditional mobility.
Continue machine learning and simulation.
Finalize product development.
Team

Sustainable

Onbridge aims to be a company that continually pursues positive and sustainable growth.
View Our Organizational Structure

Team

Sustainable

Onbridge aims to be a company that continually pursues positive and sustainable growth.
View Our Organizational Structure

Our journey

2024.
Second half



03.
300KW (1000V/300A) Battery Pack Cycler:
Scheduled for release after domestic certification testing


Opening of Factory and Research Institute
2023.
10.

06.

05.

04.
30KW (100V/300A) Battery Module Cycler: Initiation of research and development

Acquisition of Factory and Research Institute Site: 495.87 square meters site in Daegu

High-Precision, High-Efficiency Premium Cycler: Initiation of research and development

300KW (1000V/300A) Battery Pack Cycler Prototype: Development completed
2022.
12.



05.
300KW Power Module Supply Contract Secured

Onbridge Inc.: Corporate establishment

Development of 30KW / 300KW Battery Module/Pack Cycler: Initiation of the project

Our journey

2024.
Second half


03.
300KW (1000V/300A) Battery Pack Cycler:
Scheduled for release after domestic certification testing

Opening of Factory and Research Institute

2023.

10.


06.


05.


04.
30KW (100V/300A) Battery Module Cycler: Initiation of research and development

Acquisition of Factory and Research Institute Site: 495.87 square meters site in Daegu

High-Precision, High-Efficiency Premium Cycler: Initiation of research and development

300KW (1000V/300A) Battery Pack Cycler Prototype: Development completed

2022.

12.


05.
300KW Power Module Supply Contract Secured
Onbridge Inc.: Corporate establishment

Development of 30KW / 300KW Battery Module/Pack Cycler: Initiation of the project

Our journey

2024.
Half 2



03.
300KW (1000V/300A) Battery Pack Cycler: Scheduled for release after domestic certification testing

Opening of Factory and Research Institute

2023.

10.


06.


05.


04.
30KW (100V/300A) Battery Module Cycler: Initiation of research and development

Acquisition of Factory and Research Institute Site: 495.87 square meters site in Daegu

High-Precision, High-Efficiency Premium Cycler: Initiation of research and development

300KW (1000V/300A) Battery Pack Cycler Prototype: Development completed

2022.

12.


05.
300KW Power Module Supply Contract Secured
Onbridge Inc.: Corporate establishment

Development of 30KW / 300KW Battery Module/Pack Cycler: Initiation of the project

Office&Works

H.Q

3F, Daegu CCEI, 51 Hoam-ro, Bukgu, Daegu, Korea
Seoul Office

13F, FRONT1, 122 Mapodae-ro, Mapogu, Seoul, Korea
Lab&Factory

#509, D-center 1976, 307 Waryong-ro, Seogu, Daegu, Korea
H.Q
3F, Daegu CCEI, 51 Hoam-ro, Bukgu, Daegu, Korea
Seoul Office
13F, FRONT1, 122 Mapodae-ro, Mapogu, Seoul, Korea
Lab&Factory
#509, D-center 1976, 307 Waryong-ro, Seogu, Daegu, Korea
H.Q
3F, Daegu CCEI, 51 Hoam-ro, Bukgu, Daegu, Korea
Seoul Office
13F, FRONT1, 122 Mapodae-ro, Mapogu, Seoul, Korea
Lab&Factory
#509, D-center 1976, 307 Waryong-ro, Seogu, Daegu, Korea