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Sensors Product List and Ranking from 1358 Manufacturers, Suppliers and Companies | IPROS GMS

Last Updated: Aggregation Period:May 06, 2026~Jun 02, 2026
This ranking is based on the number of page views on our site.

Sensors Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:May 06, 2026~Jun 02, 2026
This ranking is based on the number of page views on our site.

  1. null/null
  2. センシリオン Kanagawa//Electronic Components and Semiconductors
  3. 三協インタナショナル Tokyo//Trading company/Wholesale
  4. 4 インタコンポ 東京本社、大阪支店、長野支店、横浜事業所 Tokyo//Trading company/Wholesale
  5. 5 エスエスシー Mie//Machine elements and parts
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Sensors Product ranking

Last Updated: Aggregation Period:May 06, 2026~Jun 02, 2026
This ranking is based on the number of page views on our site.

  1. Clamp-on flow sensor "FD-H series"
  2. Small Vibrator (General Purpose Type) シスコム(SysCom)
  3. Motion Catch|非接触見守りセンサー インタコンポ 東京本社、大阪支店、長野支店、横浜事業所
  4. 4 Wireless sensor for automatic distribution of vibration data, suitable for PLC and IoT integration. 中山水熱工業
  5. 5 Temperature sensor for Tsubaki bearings *Automation of regular monitoring 椿本バルクシステム

Sensors Product List

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Optimization of Reaction Control Using Power Sensors for Chemical Plants

Optimization of Reaction Control Using Power Sensors for Chemical Plants

Visualizing power consumption in chemical plants with IoT power sensors to streamline reaction control.

In the chemical industry, optimizing reaction processes and reducing costs are important challenges. In particular, optimizing energy consumption in reaction control is essential for improving productivity. SIRC's IoT power sensor unit provides detailed insights into power usage within the plant, contributing to the optimization of reaction control by reducing waste. This document explains how to achieve visibility of power usage, leading to energy savings, carbon neutrality, and increased productivity. 【Usage Scenarios】 - Real-time monitoring of power usage in reaction processes - Linking the operational status of each piece of equipment with power consumption - Identifying equipment with high power usage - Correlation analysis between reaction conditions and power consumption 【Benefits of Implementation】 - Reduction in power usage - Optimization of reaction processes - Contribution to energy savings - Cost reduction

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How to Utilize Power Sensors for Power Reduction in Pharmaceuticals

How to Utilize Power Sensors for Power Reduction in Pharmaceuticals

Visualize the power consumption of clean rooms with IoT power sensors that require no installation.

In the pharmaceutical industry's clean rooms, strict quality control and cost reduction are required. In particular, optimizing power consumption for air conditioning systems and lighting is an important challenge. SIRC's IoT power sensor unit provides detailed insights into the power usage in clean rooms and contributes to optimizing operational costs by reducing waste. This document explains how to achieve visibility of power usage, leading to energy savings, carbon neutrality, and cost reduction. 【Usage Scenarios】 - Real-time monitoring of power usage for air conditioning systems, lighting, etc., within clean rooms - Linking equipment operational status with power consumption - Identifying equipment with high power usage - Measuring the effects of inverter implementation 【Benefits of Implementation】 - Reduction in power consumption - Improvement in equipment operational efficiency - Contribution to energy savings - Cost reduction

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How to Utilize Power Sensors for Power Reduction in the Textile Industry

How to Utilize Power Sensors for Power Reduction in the Textile Industry

Visualizing the power consumption of the drying process to reduce costs.

In the fiber industry, the drying process consumes a large amount of electricity, and energy costs are a significant challenge. Achieving an efficient drying process is essential for cost reduction and productivity improvement. SIRC's IoT power sensor unit provides detailed insights into the power usage of dryers, contributing to operational optimization by reducing waste. 【Usage Scenarios】 - Real-time monitoring of dryer power usage - Understanding power consumption for each drying process - Identifying dryers with high power usage - Measuring the effectiveness of inverter implementation 【Benefits of Implementation】 - Reduction in power consumption during the drying process - Improvement in the operational efficiency of drying equipment - Contribution to energy conservation - Cost reduction

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Methods for Utilizing Power Sensors for Power Reduction in Electronic Devices

Methods for Utilizing Power Sensors for Power Reduction in Electronic Devices

Visualize the power consumption of the assembly line with an IoT power sensor that requires no installation.

In the assembly line of electronic devices, improving production efficiency and reducing costs are crucial. In particular, energy costs pose a significant burden, necessitating the optimization of power consumption. SIRC's IoT power sensor unit provides detailed insights into the power usage of the assembly line, contributing to operational optimization by reducing waste. This document explains how to achieve power visualization, leading to energy savings, carbon neutrality, and increased productivity. 【Usage Scenarios】 - Real-time monitoring of power usage on the assembly line - Linking equipment operational status with power consumption - Identifying equipment with high power usage - Measuring the effects of inverter implementation 【Benefits of Implementation】 - Reduction in power consumption - Improvement in equipment operational efficiency - Contribution to energy savings - Cost reduction

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Utilization of Power Sensors in Temperature Management for Food Products

Utilization of Power Sensors in Temperature Management for Food Products

Visualizing power consumption in food temperature management.

In the food industry, proper temperature management of refrigeration and freezing equipment is essential for maintaining quality. Stable operation of the equipment is crucial for temperature management, and optimizing power consumption is required. SIRC's IoT power sensor unit provides detailed insights into the power usage of refrigeration and freezing equipment, contributing to more efficient temperature management by reducing waste. 【Usage Scenarios】 - Real-time monitoring of power usage in refrigeration and freezing equipment - Linking equipment operation status with power consumption - Identifying equipment with high power usage - Measuring the effects of inverter implementation 【Benefits of Implementation】 - Reduction in power consumption - Improvement in equipment operating efficiency - Contribution to energy conservation - Cost reduction

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Optimization of machining accuracy using power sensors for machinery

Optimization of machining accuracy using power sensors for machinery

Visualizing the power consumption of machinery using IoT power sensors to improve processing accuracy.

In the machinery industry, there is a constant demand for improvements in product quality and productivity. One of the factors that influence machining accuracy is the power usage of the equipment. Fluctuations in power consumption reflect the operational status and load of the equipment, which can potentially affect machining accuracy. SIRC's IoT power sensor unit provides detailed insights into the power usage of machinery, contributing to the optimization of machining accuracy. 【Usage Scenarios】 - Real-time monitoring of power usage in machine tools - Linking equipment operational status with power consumption - Identifying equipment with high power usage - Measuring the effects of inverter implementation 【Benefits of Implementation】 - Improved machining accuracy - Enhanced operational efficiency of equipment - Contribution to energy savings - Cost reduction

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Optimization of Ink Consumption Using Power Sensors for the Printing Industry

Optimization of Ink Consumption Using Power Sensors for the Printing Industry

Visualizing power consumption at printing sites to reduce ink usage.

In the printing industry, there is a demand for the provision of high-quality printed materials and cost reduction. In particular, ink consumption is a significant cost factor, and optimizing power usage is an important challenge. SIRC's IoT power sensor unit enables detailed monitoring of the power usage of printing machines and analyzes it in relation to ink consumption, helping to reduce waste and contribute to cost savings. 【Usage Scenarios】 - Real-time monitoring of printing machine power usage - Linking power consumption to each printing process - Identifying processes with high ink consumption - Measuring the effectiveness of energy-saving measures 【Benefits of Implementation】 - Reduction in power usage - Optimization of ink consumption - Cost savings - Contribution to energy conservation

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Energy saving using IoT power sensor units for food processing.

Energy saving using IoT power sensor units for food processing.

Optimizing power consumption in temperature management of food processing plants.

In the food processing industry, temperature management is key to maintaining quality. Proper operation of refrigeration and freezing equipment is essential for preserving product freshness and safety. However, temperature management consumes a significant amount of electricity, which can lead to increased costs. IoT power sensor units visualize the power consumption of these facilities and identify unnecessary energy use, enabling energy savings. 【Use Cases】 - Visualization of electricity consumption of refrigeration and freezing equipment - Analysis of power consumption in temperature management systems - Understanding the overall power usage of the manufacturing line 【Benefits of Implementation】 - Reduction in electricity costs - Efficient operation of equipment - Contribution to achieving energy-saving goals

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How to Utilize Power Sensors for Power Reduction in Plastic Molding

How to Utilize Power Sensors for Power Reduction in Plastic Molding

Visualizing the power consumption of a plastic molding factory with an IoT power sensor that requires no installation.

In the plastic molding industry, there is a constant demand for increased productivity and cost reduction. In particular, the electricity costs associated with the operation of molding machines are a significant burden, making the optimization of power consumption an important issue. SIRC's IoT power sensor unit provides a detailed understanding of the electricity usage in molding factories and contributes to operational optimization by reducing waste. This document explains how to achieve visibility of electricity usage, leading to energy savings, carbon neutrality, and improved productivity. 【Usage Scenarios】 - Real-time monitoring of electricity usage in molding machines - Linking equipment operational status with power consumption - Identifying equipment with high electricity usage - Measuring the effects of inverter implementation 【Benefits of Implementation】 - Reduction in electricity consumption - Improvement in equipment operational efficiency - Contribution to energy savings - Cost reduction

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IoT Power Sensor Unit for Pharmaceuticals

IoT Power Sensor Unit for Pharmaceuticals

Visualizing power consumption in temperature management in 15 seconds.

In the pharmaceutical industry, temperature management is crucial for maintaining product quality. Particularly in the storage and manufacturing processes of pharmaceuticals and reagents, accurate monitoring of power consumption in a temperature-controlled environment is required. However, traditional measurement methods have faced challenges such as being cumbersome and time-consuming. The IoT power sensor unit addresses these issues and contributes to the visualization of power consumption in temperature management. 【Use Cases】 * Measurement of power consumption in temperature management equipment * Understanding power usage of refrigerators and air conditioning systems * Measuring energy-saving effects of temperature management systems 【Benefits of Implementation】 * Increased efficiency in temperature management * Potential reduction in power costs * Implementation of data-driven improvement measures

  • Company:SIRC
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Label printing ink consumption optimization

Label printing ink consumption optimization

Visualizing power consumption at printing sites to reduce ink usage.

In the label printing industry, high-quality printing and cost reduction are required. In particular, ink consumption is a significant cost factor, making it essential to reduce waste. SIRC's IoT power sensor unit provides detailed insights into the power usage of printing machines and analyzes it in relation to ink consumption, helping to reduce waste and contribute to cost savings. 【Usage Scenarios】 - Real-time monitoring of printing machine power usage - Linking power consumption to each printing process - Measuring the effectiveness of energy-saving measures 【Benefits of Implementation】 - Reduction in power consumption - Cost savings - Contribution to energy conservation

  • Company:SIRC
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Energy saving through IoT power sensor units for automotive lines.

Energy saving through IoT power sensor units for automotive lines.

Visualize power usage on the line and achieve energy savings!

In the automotive industry, optimizing power consumption is crucial for line efficiency. It is particularly important to accurately understand the operational status of production lines and reduce unnecessary power consumption. IoT power sensor units help visualize power consumption by line or equipment, aiding in the detection of wasted power consumption, such as forgetting to turn off power at night or on holidays. 【Usage Scenarios】 - Automotive manufacturing lines - Painting lines - Assembly lines 【Benefits of Implementation】 - Increased energy-saving awareness through visualization of power usage - Reduction of unnecessary power consumption - Cost savings

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Energy saving using IoT power sensor units for metal processing.

Energy saving using IoT power sensor units for metal processing.

Achieving steady results! Supporting energy conservation in metal processing factories.

In the metal processing industry, it is essential to understand the operational status of equipment and to conduct efficient operations. In particular, reducing energy costs is crucial for improving profit margins. The IoT power sensor unit visualizes the power consumption of each piece of equipment and promotes energy savings by identifying unnecessary power usage. [Usage Scenarios] - Visualization of power consumption for equipment such as presses, NC lathes, and grinding machines - Monitoring standby power during nights and holidays - Detection of increased power consumption due to equipment aging [Benefits of Implementation] - Cost reduction through optimization of power usage - Reduced risk of failure through abnormality detection in equipment - Continuous improvement driven by increased energy-saving awareness

  • Company:SIRC
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Methods for Utilizing Power Sensors to Reduce Electricity Consumption for Automotive Manufacturers

Methods for Utilizing Power Sensors to Reduce Electricity Consumption for Automotive Manufacturers

Visualizing power consumption in the automotive manufacturing process with IoT power sensors.

Automakers are required to improve fuel efficiency and reduce costs. Optimizing power consumption in the manufacturing process contributes to solving these challenges. SIRC's IoT power sensor unit provides detailed insights into power usage in the manufacturing process, helping to reduce waste and optimize operational efficiency. This document explains how to achieve visibility of power usage, leading to energy savings, carbon neutrality, and increased productivity. 【Use Cases】 - Real-time monitoring of power usage in automotive manufacturing lines - Linking equipment operational status with power consumption - Identifying equipment with high power usage - Measuring the effects of inverter implementation 【Benefits of Implementation】 - Reduction in power consumption - Improvement in equipment operational efficiency - Contribution to energy savings - Cost reduction

  • Company:SIRC
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IoT Power Sensor Unit for Manufacturing Industry / DDS33 Series

IoT Power Sensor Unit for Manufacturing Industry / DDS33 Series

Visualize power consumption in 15 seconds! Supporting energy conservation in the manufacturing industry.

In the manufacturing industry, reducing energy costs and efficient power management are important challenges. In particular, it is necessary to understand the operating status of production equipment and reduce unnecessary power consumption. However, traditional power measurement methods often required extensive construction or did not provide detailed data. The IoT power sensor unit "DDS33 Series Three-Phase Type" is a "retrofit" power sensor that requires no electrical work or equipment downtime and can be installed in just 15 seconds. It can measure the power consumption of each piece of equipment in real-time and also non-contactly measure the "power factor," which indicates how effectively the supplied power is used. It can simply visualize the previously hard-to-see waste and imbalance of power. With its high measurement accuracy and ease of installation, it strongly supports energy saving in the manufacturing industry, having won the 2024 Energy Conservation Award. [Usage Scenarios] - Visualization of power consumption for each piece of equipment in the factory - Understanding the total power consumption of the production line - Measuring the effectiveness of energy-saving measures [Benefits of Implementation] - Increased awareness of energy conservation through the visualization of power consumption - Reduced risk of failure through abnormal detection of equipment - Reduction in electricity costs through power factor improvement

  • Company:SIRC
  • Price:Other
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Piezoelectric element proximity sensor and distance sensor

Piezoelectric element proximity sensor and distance sensor

Transmit and receive ultrasonic signals necessary for distance measurement! The time difference between the received signal and the transmitted signal is used for calculations.

The distance/proximity sensor is one application of ultrasound in the air. The piezoelectric ceramic disk functions as both a transmitter and a receiver, sending short bursts of ultrasound to the target and receiving the reflected echoes from the target. The distance to the object is calculated using the time difference between the received signal and the transmitted signal. 【Features】 ■ Excellent durability and reliability ■ High sensitivity ■ High resolution and positional accuracy ■ Fast response *For more details, please refer to the PDF document or feel free to contact us.

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[PROTEC Case Study Collection] Leave the prototype development of microcontroller control to us.

[PROTEC Case Study Collection] Leave the prototype development of microcontroller control to us.

Presentation of examples such as the development of a system for visualizing values through the development of 8 types of sensor output status display boards and applications, as well as the automatic measurement of body temperature for multiple organisms!

We received a request for the development of a demo unit that can operate and display information even when replacing eight types of sensors such as temperature and acceleration sensors at exhibition venues. We successfully visualized the output status of the eight types of sensor output display boards and the numerical data through app development. Since all design and manufacturing are done in-house, changes and additions can be made immediately, eliminating the need for customers to negotiate and coordinate with board manufacturers or design firms. In addition, we have examples of projects where we supported the development to mass production of a blood turbidity checker based on a customer's idea, as well as the development of a system for automatically measuring the body temperature of multiple organisms. *Currently, we are offering a collection of case studies! [Case Overview] ■ Demo unit production project - Visualization of output values from eight types of sensors ■ Medium-scale production project - Supporting the development to mass production of a blood turbidity checker based on a customer's idea ■ Development of a system for automatically measuring the body temperature of multiple organisms *For more details, please refer to the PDF materials or feel free to contact us.

  • Circuit board design and manufacturing
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[Case Study Introduction] Gaps, Insufficient Filling, and Inadequate Compaction in Concrete Placement Work

[Case Study Introduction] Gaps, Insufficient Filling, and Inadequate Compaction in Concrete Placement Work

Here are some examples of accidents that can occur due to voids, insufficient filling, and inadequate compaction during concrete placement.

Tunnel construction, bridge construction, road construction, river and coastal construction, agricultural civil engineering, and building construction. Additionally, during concrete placement work for various concrete structures, accidents and troubles may occur due to voids, insufficient filling, and inadequate compaction, as outlined below. 【Accident Examples (Partial)】 - Cave-in accidents - Cavities formed due to groundwater, leading to cracks (cracks are more likely to occur in areas with insufficient filling) → Poor long-term durability and collapse - Water leakage from cracks → In cold regions, water leakage can freeze, leading to slip accidents To prevent such accidents and troubles during concrete placement work, we offer the following product ▼▼▼ 【NETIS Registration Number TH-180010-VE】 Juuten MierukaⓇ This product can accurately assess the filling conditions in areas that are not visible during concrete placement and in areas prone to air pockets. Furthermore, by adding a management function for compaction levels, it contributes to improving the quality of concrete construction! For detailed product information, please download the catalog from the link below.

  • Other inspection equipment and devices
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Piezo film sensor "TP series"

Piezo film sensor "TP series"

Flexible with a soft film piezoelectric material! General-purpose piezo film sensor with lead wires.

The "TP series" is a flexible piezoelectric film sensor made of a flexible film piezoelectric material. It is a general-purpose type with a single-layer structure and lead wires. It is suitable for monitoring biological signals such as body movements, as well as for monitoring vibrations, impacts, and dynamic strain. Additionally, it uses piezo film (PVDF) as the piezoelectric element, generating voltage in response to small changes such as compression and elongation (strain). 【Features】 ■ Compliant with RoHS directive ■ Single-layer structure ■ Flexible with a flexible film piezoelectric material ■ General-purpose type with lead wires *For more details, please refer to the PDF document or feel free to contact us.

  • Sensors
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[Case Study] How McDonald's Reduced Waste Collection Costs by 12%

[Case Study] How McDonald's Reduced Waste Collection Costs by 12%

Examples of providing efficient and accurate data collection, achieving a reduction in waste disposal costs and an increase in recycling rates.

Our company has been working with 850 employees in Nottingham, UK, to improve the efficiency of recycling and waste management. We have installed sensors in the containers of seven stores, achieving a 12% reduction in waste management costs and a 50% increase in recycling rates. [Case Summary] ■Challenges - Collection is scheduled at specific times during the week - Environmental and economic impacts on the stores - Store managers require a lot of time to find solutions ■Solutions - Track compliance with collection schedules for each store and adjust as necessary - Use sensors to measure the exact volume of waste in each container at each store ■Results - Actively contributed to waste management in seven stores in Nottingham *For more details, please refer to the PDF document or feel free to contact us.

  • Software (middle, driver, security, etc.)
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Universal Radar Sensor Off-Road Product 'GPR'

Universal Radar Sensor Off-Road Product 'GPR'

Smart and reliable radar sensors for off-road use, robust sensor technology for object detection in harsh environments.

Our company provides product supply and software development for off-road automation products, tailored to the needs of developers, covering everything from control units to gateways, autonomous driving technology, and environmental recognition. With 14 locations in 8 countries, we can offer support tailored to each site, including Mobility as a Service (MaaS). We can also accommodate one-off prototypes and proofs of concept, and we conduct demonstrations. If you are looking to "incorporate automation technology into existing products and vehicles with a low budget and in a short time" or "want to keep up with the times," please feel free to contact us. 【Product Overview】 ■ Sensor-based environmental recognition component: (Radar-OHW) *For more details, please refer to the PDF document or feel free to contact us.

  • Prototype Services
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  • Other process controls
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Those troubled by the black-boxing of the logistics process.

Those troubled by the black-boxing of the logistics process.

Centralized management of production and distribution processes! We solve challenges through system implementation and outsourcing.

A common challenge in international logistics is that the logistics process becomes difficult to understand. Since many companies and organizations are involved in exports and imports, the procedures increase, making it hard to grasp the details of the exchanges. Because the logistics process has become a black box, cost analysis does not progress easily, and it becomes unclear which processes' costs can be reduced. To address these challenges, SCM (Supply Chain Management) and CPFR (Collaborative Planning, Forecasting, and Replenishment) are useful as they centralize the management of production and distribution processes and facilitate information sharing across the entire supply chain. [Challenges] ■ Black box of the logistics process - Complex interactions with overseas (local) companies - Difficulty in analyzing logistics costs *For more details, please refer to the related links or feel free to contact us.

  • Other services
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[Information Security] Wi-Fi Security Sensor

[Information Security] Wi-Fi Security Sensor

Constantly monitor and visualize Wi-Fi usage! It can be implemented without changing the existing network.

Are you struggling with issues such as the difficulty in understanding usage situations due to unauthorized access points? Are the measures to prevent attacks and unauthorized access via Wi-Fi insufficient? Our company offers security solutions to create a safer business environment. With 'AIRTMS', you can continuously monitor and visualize Wi-Fi usage. It can detect and block communication from unauthorized access points and unapproved devices. [Background/Challenges] - The increase in the use of mobile devices has led to a rise in Wi-Fi (wireless LAN) usage. - It is difficult to grasp usage situations due to unauthorized access points. - Measures to prevent attacks and unauthorized access via Wi-Fi are insufficient. - The burden of reconstructing existing networks for security measures. *For more details, please refer to the related link page or feel free to contact us.

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Explanation of types and examples of IoT sensors.

Explanation of types and examples of IoT sensors.

I will explain what sensors essential for IoT are, along with representative types and examples.

The utilization of IoT is being advanced in various fields to improve corporate productivity and strengthen maintenance management. By realizing IoT, information obtained from devices and equipment can be visualized and utilized through a network. This article explains what sensors, which are essential for IoT, are, along with representative types and examples. *You can view the detailed content of the blog through the related links. For more information, please feel free to contact us.*

  • Other information systems
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High-speed response compact/thin current sensor "CZ3Axx series"

High-speed response compact/thin current sensor "CZ3Axx series"

Contributing to the improvement of system safety! Coreless current sensor with built-in high-speed, high-precision overcurrent detection function.

CZ3Axx is a magnetic coreless current sensor with built-in Hall elements and overcurrent detection functionality. It achieves a high-speed response of 1μs and high precision of 0.3% F.S., enabling the detection of various fault modes such as ground faults and arm short circuits, contributing to improved system safety. Additionally, through its unique packaging technology, it realizes a low primary conductor resistance of "0.27mΩ" and high insulation with a creepage/clearance distance of ≧8mm. This significantly reduces heat generation during current application compared to shunt resistors, and eliminates the need for a primary side power supply or amplifier for insulation, allowing overcurrent detection with just the IC. Therefore, it can be placed in limited spaces on a circuit board. *For more details, please refer to the PDF document or feel free to contact us.

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High current compatible compact/thin current sensor "CZ370x series"

High current compatible compact/thin current sensor "CZ370x series"

Realizing the miniaturization of EV charging stations and the increase in output capacity! Coreless current sensor capable of detecting ±180A with surface mounting.

The CZ370x is a magnetic coreless current sensor that incorporates Hall elements. Due to the use of high-sensitivity Hall elements, it can measure a wide range of currents that typical coreless current sensors cannot achieve. It can handle continuous currents of up to 60Arms and accurately detect currents up to ±180A. Therefore, it contributes to "increased output capacity." Additionally, compared to shunt resistors and core-type through-hole sensors, it can contribute to "miniaturization" and "reduction of manufacturing costs." ■ Miniaturization - Due to its small size and surface-mount package, it can be mounted on the back side of the circuit board. - The primary conductor has low resistance (0.27mΩ), which suppresses heat generation and allows placement in limited space on the circuit board. * It generates only 1/4 the heat of a shunt resistor (based on our comparative test data). ■ Reduction of manufacturing costs It can contribute to reduced manufacturing (assembly) costs by eliminating the need for wire connections to through holes. * For more details, please refer to the PDF document or feel free to contact us.

  • Sensors
  • Sensors

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CZ375x Series for Industrial Robots

CZ375x Series for Industrial Robots

Compact/thin current sensor contributing to motor control of industrial robots.

In industrial robot motor control, accurate current measurement is essential to ensure the operational precision and safety of the robot. In particular, real-time current monitoring is required for high-precision positioning and protection against overload. Inaccurate current measurements can lead to malfunctions or failures of the robot. The CZ375x series accurately measures a wide current range of ±115A to ±225A, contributing to the optimization of motor control. 【Application Scenarios】 - Motor control of industrial robots - Current monitoring of servo motors - Motion control of robotic arms 【Benefits of Implementation】 - Improved operational stability of robots through high-precision current measurement - Extended lifespan of robots due to overload protection - Contribution to space-saving through miniaturization Our Strengths: Hakuto Co., Ltd. provides optimal products tailored to customer needs as a specialized electronics trading company. We also offer technical support to assist in solving customer challenges.

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  • Sensors

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