High Current Connectors - List of Manufacturers, Suppliers, Companies and Products

High Current Connectors Product List

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[Usage Example] Successfully achieved approximately 30% space savings.

We introduced a one-touch high-current connector, achieving space-saving and improved work efficiency!

In the semiconductor manufacturing process, there was a disconnection at the power supply points rated at 150-200A in the limited space within the equipment. Conventional connectors were long in length, making the attachment and detachment difficult and cumbersome. To prevent connection failures, a special connector was introduced that uses springs to maintain a constant contact pressure at the connection points. Previously, the production line frequently stopped, but after the introduction of this connector, there have been no issues with power supply failures. [Case Study] ■ Challenges - Large current connectors were causing space constraints. ■ After Implementation - Achieved approximately 30% space savings, allowing for smooth operation even for female and elderly workers with the one-touch design. *For more details, please refer to the PDF document or feel free to contact us.

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[Use Case] High Current Connector

We will introduce a case where productivity has improved with the introduction of high-current connectors that do not cause poor electrical contact!

Regarding the connectorization of the power supply points, after trying various connectors, we faced issues with poor conductivity due to welding in harsh usage environments (temperatures above 80°C and humidity of 70-80%) while conducting large currents (700-1000A) with standard connectors. By adopting high-current connectors, we completely eliminated the occurrence of conductivity issues during high-current conduction in harsh usage environments. Additionally, the special spring contacts of the high-current connectors allowed us to significantly reduce size and weight compared to conventional connectors, which has contributed to reducing the burden on workers in the field, such as alleviating back pain, and minimizing operational errors like incorrect connections. It has become an indispensable item during equipment updates. [Case Study] ■ Issues - Poor conductivity due to welding occurs with standard connectors. ■ After Implementation - No occurrences of conductivity issues during high-current conduction in harsh usage environments. *For more details, please refer to the PDF document or feel free to contact us.

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[SDGs Case Study] Achieving Energy Savings, Space Reduction, and Improved Work Efficiency

Introducing a one-touch high-current connector! Now, even women and elderly workers can perform tasks smoothly.

In the semiconductor manufacturing process, polycrystalline silicon is melted to create single crystal rods (ingots), which are then sliced to produce wafers. In the limited space within the equipment, there was a disconnection at the power supply points rated at 150-200A, and the conventional connectors were long in length, making the connection and disconnection process difficult and cumbersome. To prevent connection failures, a "high current connector" was introduced that uses springs to maintain a constant contact pressure at the connection points. This one-touch type connector allows for smoother operation even for women and elderly workers, significantly improving productivity. [Case Summary] ■ Issue: Conventional connectors were long in length, making connection and disconnection difficult. ■ After Implementation: - No electrical connection failures occurred. - Power consumption was reduced, contributing to energy savings. - Space savings of about 30% made connection and disconnection easier. - Productivity significantly increased. *For more details, please refer to the PDF document or feel free to contact us.

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[Case Study] Successful Resolution of Power Supply Issues and Reduction of Work Errors

Productivity has improved! We have introduced a high-current connector that does not cause electrical failures even under harsh conditions of high temperature and humidity.

Regarding the connectorization of the power supply location, we tried various connectors, but due to the harsh operating environment (temperatures above 80°C and humidity of 70-80%) and the need to conduct large currents (700-1000A), common connectors experienced electrical failures due to welding, which was problematic. Therefore, we adopted the "high current connector." There are no longer any occurrences of electrical failures during high current conduction. Additionally, the special spring contacts of this product have contributed to reducing the burden on workers in the field, such as alleviating back pain and minimizing operational mistakes like incorrect connections. [Challenges] - The connection work at the power supply location was taking half a day. - Due to the harsh operating environment and the need to conduct large currents (700-1000A), common connectors were experiencing electrical failures due to welding. *For more details, please refer to the PDF document or feel free to contact us.

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[SDGs Case Study] Achieving Energy Savings and Space Efficiency

A connector that can withstand thousands of amps of high current! Introducing case studies from substations.

Until the technology of high-current connectors was adopted, it was necessary to significantly increase the area of the contact points for safety against heat generation during current flow and short-circuit currents. After adoption, the multi-contact points greatly reduced contact resistance, allowing for better temperature control, which contributed to energy savings. Additionally, it is strong against short-circuit currents and enables high current flow in a compact space. It also accommodates movable states such as sliding and rotating connections, making it an essential component for connections between circuit breakers, switches, and busbars. [Case Summary] ■ Before Adoption: It was necessary to significantly increase the area of the contact points. ■ After Adoption: - Contact resistance has been greatly reduced, allowing for better temperature control. - Strong against short-circuit currents and enables high current flow in a compact space. - Accommodates movable states such as sliding and rotating connections. *For more details, please refer to the PDF document or feel free to contact us.

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Overview and case studies of "high current connectors" that are more compact than traditional connectors.

[Case Study Presentation] Prevents seizure! Includes cases that improved heating and poor conductivity at busbar connection points.

This document introduces an overview and case studies of a more compact "high current connector." It includes common concerns, as well as proposals for "increasing factory productivity." The high current connectors we handle have very low contact resistance, which helps to suppress temperature rise. This is a must-see for those who have concerns such as "I want to easily connect and disconnect the connector while ensuring safety." [Contents] ■ What is a high current connector (power connector)? ■ Common concerns of users of high current connectors ■ Features of high current connectors handled by Industrial Connectors.com (Sulton Co., Ltd.) ■ Actual case studies ■ Proposals for increasing factory productivity ■ About Sulton Co., Ltd. *For more details, please refer to the PDF document or feel free to contact us.

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Battery Connector Rack-In System "High Current Probe"

Multi-contact connection recruitment! A connector that can be pressed against the supply terminal for use.

The "High Current Probe" is a contact-type connector that uses the multi-contact PSC series. It can be pressed against the supply terminal for use as a terminal of a module. It can also be used for power supply to products during final inspection. 【Features of Connectors Using Multi-Contact Contacts】 - Can carry high current with a small body, contributing to weight reduction. - Allows several times the current flow of similarly sized high current connectors for short periods. - Very low contact resistance minimizes temperature rise and is effective for high-frequency currents flowing on the surface. - The contact force of high current contacts can be adjusted, enabling slide and rotary connections. - A wide variety of high current and high amperage contacts provide great freedom in shape. For more details, please contact us or download the catalog.

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[Case Study] Achieving Space Savings and Improved Work Efficiency

Successfully achieved approximately 30% space savings! A case study introducing a one-touch high current connector (power connector).

In the semiconductor manufacturing process, polycrystalline silicon is melted to create single crystal rods (ingots), which are then sliced to produce wafers. In the limited space within the equipment, there was a disconnection at the power supply points rated at 150 to 200A, and the conventional connectors were long in total length, making the attachment and detachment process difficult and cumbersome. To prevent connection failures, we introduced a "high-current connector" that uses springs to maintain a constant contact pressure at the connection points. Previously, the production line frequently stopped, but after the introduction, there have been no issues with power supply failures. [Case Summary] ■ Issue: Conventional connectors were long in total length, making attachment and detachment difficult. ■ After introduction: - There have been no power supply failures. - Space savings of about 30% made attachment and detachment easier. - Female and elderly workers can now perform tasks smoothly. *For more details, please refer to the PDF document or feel free to contact us.

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