SIRC List of Products and Services

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 important not only for cost reduction but also for early detection of equipment anomalies, thereby protecting food quality. SIRC's IoT power sensor unit provides detailed insights into the power usage of refrigeration and freezing equipment, contributing to the optimization of temperature management by reducing waste. 【Use Cases】 - 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 effectiveness of inverter implementation 【Benefits of Implementation】 - Reduction in power consumption - Improvement in equipment operational efficiency - Contribution to energy savings - Cost reduction

• Sensors

In the metal processing industry, especially in cutting processes, optimizing equipment operating efficiency and energy costs is crucial. Cutting machines consume a lot of power, so understanding power usage and reducing waste directly leads to cost savings. SIRC's IoT power sensor unit provides detailed insights into the power usage of cutting machines and contributes to operational optimization by reducing waste. This document explains how to achieve visibility of power usage, leading to energy conservation, carbon neutrality, and increased productivity. 【Usage Scenarios】 - Real-time monitoring of power usage in cutting machines - Linking equipment operating status with power consumption - Identifying equipment with high power usage - Measuring the effects of inverter implementation 【Benefits of Implementation】 - Reduction in power usage - Improvement in equipment operating efficiency - Contribution to energy conservation - Cost reduction

• Sensors

In the automotive industry, improving production efficiency and reducing costs are always required, and optimizing power consumption in the process is an important challenge. SIRC's IoT power sensor unit provides detailed insights into power usage in manufacturing processes and contributes to optimizing operations 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 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

• Sensors

In the field of school education, efforts towards the realization of a sustainable society are being demanded. In particular, education that raises awareness of energy issues and encourages energy-saving behavior is important. However, understanding the overall electricity usage of the school and implementing effective energy-saving measures is not easy. The SIRC IoT power sensor unit visualizes the school's electricity usage in real-time and supports energy-saving education. 【Usage Scenarios】 - Understanding electricity usage in various areas such as classrooms, gymnasiums, and laboratories - Raising awareness of energy conservation among faculty and students - Promoting energy-saving actions through visualization of electricity usage 【Effects of Implementation】 - Reduction in electricity usage - Improvement in learning effects related to energy conservation - Increased awareness of environmental issues

• Sensors

In the hotel industry, reducing utility costs, particularly electricity expenses, is a significant challenge. Since electricity is consumed in various areas such as guest rooms, restaurants, and common spaces, it is essential to identify where waste occurs and to implement efficient operations. SIRC's IoT power sensor unit serves as the first step in visualizing electricity usage and effectively implementing energy-saving measures. 【Usage Scenarios】 - Understanding the electricity consumption of various facilities such as guest rooms, restaurants, kitchens, and air conditioning systems - Visualizing peak electricity usage and reducing electricity costs through demand control - Measuring the effectiveness of energy-saving equipment implementation 【Benefits of Implementation】 - Planning specific energy-saving measures through the visualization of electricity consumption - Considering optimal operational methods by understanding the electricity usage of each facility - Promoting employee awareness and further improvements through the visualization of energy-saving effects

• Sensors

In hospitals, there are many facilities that operate 24 hours a day, such as medical equipment and air conditioning systems, making the reduction of electricity costs an important issue. In particular, improving energy efficiency contributes not only to reducing operational costs but also to lowering environmental impact. SIRC's IoT power sensor unit visualizes electricity usage in real-time and identifies unnecessary power consumption, enabling effective energy-saving measures. 【Usage Scenarios】 - Monitoring power consumption of medical equipment - Understanding electricity usage of air conditioning systems - Optimizing power usage of lighting systems - Reducing standby power - Reviewing electricity contracts 【Effects of Implementation】 - Increased awareness of energy savings through visualization of electricity usage - Discovery of waste through understanding power usage by facility - Reduction of electricity costs - Contribution to carbon neutrality - Reduction of operational costs

• Sensors

In office buildings, optimizing electricity usage is essential for reducing operational costs. Particularly for equipment that consumes a lot of power, such as air conditioning and lighting, accurately understanding electricity usage is crucial. Improper power management can lead to unnecessary cost increases. SIRC's IoT power sensor unit can be easily installed without construction and visualizes electricity usage in real-time. 【Usage Scenarios】 - Office floors - Common areas - Tenant spaces - Air conditioning equipment - Lighting equipment 【Benefits of Implementation】 - Increased energy-saving awareness through visualization of electricity usage - Identification of waste through understanding power usage for each piece of equipment - Cost reduction through decreased electricity usage

• Sensors

In commercial facilities, optimizing electricity usage is essential to address the rising electricity costs and the instability of power supply. Particularly in commercial facilities with many systems such as air conditioning and lighting, reducing electricity usage during peak times is crucial for cost savings and stable power supply. SIRC's IoT power sensor unit visualizes the electricity usage of commercial facilities in real-time, enabling specific measures to reduce power consumption during peak times. 【Usage Scenarios】 - Understanding the overall electricity usage of the commercial facility - Analyzing electricity usage by time period - Optimizing electricity usage of air conditioning and lighting systems - Peak cutting through demand control 【Benefits of Implementation】 - Reduction in electricity costs - Cost savings through review of power contracts - Increased energy-saving awareness - Stabilization of power supply

• Sensors

In data centers, stable operation 24/7/365 is required, leading to enormous power consumption. Reducing electricity costs is one of the key challenges in operations. SIRC's IoT power sensor unit visualizes the power consumption of data centers in detail and helps identify unnecessary power usage. This contributes to the implementation of energy-saving measures and the reduction of operational costs. 【Usage Scenarios】 - Understanding the power consumption of each facility, such as servers, air conditioning, and lighting - Real-time monitoring of power usage - Discovering areas for improvement through trend analysis of power consumption 【Benefits of Implementation】 - Increased awareness of energy conservation through visualization of power usage - Consideration of optimal operational methods by understanding power consumption for each facility - Reduction of electricity costs

• Sensors

In the manufacturing industry, there is always a demand for improved production efficiency and cost reduction. In particular, energy costs have become a significant burden, making the optimization of electricity usage a critical issue. SIRC's IoT power sensor unit provides detailed insights into a factory's electricity usage, contributing to operational optimization by reducing waste. This document explains how to achieve visibility of electricity usage, leading to energy savings, carbon neutrality, and increased productivity. 【Usage Scenarios】 - Real-time monitoring of factory electricity usage - 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 usage - Improvement in equipment operational efficiency - Contribution to energy savings - Cost reduction

• Sensors

The document titled "How to Utilize IoT Power Sensor Units for Power Reduction" explains in an easy-to-understand manner the key points for achieving decarbonization, power reduction, and productivity improvement in factories by utilizing the "easy-to-install power sensors developed by SIRC that require no construction." This material includes: - Real-time visualization of power through cloud integration - The mechanism of the IoT power sensor unit that can be installed in 15 seconds without electrical work - Power reduction methods approached from three perspectives: "stop," "reduce," and "change" - Highly accurate power measurement using a new method (SIRC method) that can measure power factor accurately - Actual reduction case studies, including comparisons before and after maintenance and predictions of the effects of inverterization It introduces numerous practical know-how that is useful on-site. This content serves as a practical guide to achieving "first, accurately visualizing power" for energy conservation, carbon neutrality, and productivity improvement in factories.

• Sensors

This document is a technical material regarding the "Forecast of Power Reduction Effects from the Introduction of Inverters." By measuring the power and power factor supplied to the induction motor, we can understand the efficiency at which it is operating and estimate the power reduction effects from the introduction of inverters. SIRC's power sensor allows for easy measurement of power and power factor by simply clamping two sensor heads onto two wires. [Contents] ■ Characteristics of Induction Motors ■ Operating Points of Induction Motors ■ Changes in Operating Points Due to Inverters ■ Determining Operating Points from Power Factor ■ Summary *For more details, please download the PDF or feel free to contact us.

• Sensors

This document is a technical material about "Energy Saving for Compressors." Temperature management and air leak prevention are crucial for energy saving in compressors. To confirm the effectiveness of these measures, it is important to compare power consumption before and after implementation. SIRC's power sensor allows for easy measurement of compressor power by simply clamping two sensor heads onto two wires, making it easy to verify the effectiveness of energy-saving measures through before-and-after comparisons. [Contents] ■ Structure of the Compressor ■ Inlet Temperature ■ Utilization of Outside Air ■ Air Leak Checks ■ Summary *For more details, please download the PDF or feel free to contact us.

• Sensors

This document is a technical material about "Heater Open Circuit Detection." Even when the load is resistive, if the current is unbalanced, the power factor decreases. By measuring the power factor rather than the magnitude of the current, it becomes easier to detect abnormalities in the equipment. SIRC's power sensor can easily measure not only the current but also the power factor by simply clamping two sensor heads onto two wires, allowing for the detection of abnormalities in the equipment. [Contents] ■ Temperature management of molds ■ Heater open circuit ■ Detection of heater open circuit ■ Detection of missing phase operation in inverters ■ Summary *For more details, please download the PDF or feel free to contact us.

• Sensors

This document is a technical material on "Quality Control of Machine Tools with a Focus on Power." Machine tools are considered to provide energy to the workpiece, deforming and altering it. Measuring the power input to the machine tool indicates the amount of energy supplied to the workpiece, which reflects the quality of the machining process. By observing the amount of energy and its variations, we can assess the quality of the machining. [Contents] ■ Which factory is superior? ■ Focus on the energy used in machining ■ Summary *For more details, please download the PDF or feel free to contact us.

• Sensors

Almost all factories have a process for heating workpieces, and the temperature is an important parameter. Various processing methods are employed by heating the workpieces, utilizing phase changes between solid, liquid, and gas due to temperature, changes in physical parameters such as expansion and contraction due to temperature changes, and chemical changes caused by temperature. Although heaters are often thought to be usable semi-permanently due to their lack of moving parts, they are actually components that deteriorate due to expansion and contraction from temperature changes and oxidation at high temperatures. When a heater deteriorates, it can break, but even if one out of three heaters breaks, current will still flow through the remaining two, making it difficult to detect the breakage. SIRC proposes a method for detecting heater breakage by measuring power factor, as well as its application in detecting phase loss operation in inverters. *For more detailed information, please refer to the related links. For further details, you can download the PDF or feel free to contact us.

• Sensors

In a typical manufacturing plant, it is said that compressors account for 20-25% of the total power consumption of the factory. Therefore, by focusing on compressors, which have a high proportion of power consumption, and implementing energy-saving measures, significant energy savings can be expected. In the industrial sector, compressed air is used as a highly convenient power source for applications such as air cylinders that do not generate heat during operation and air blowers for blowing away dust and chips. Temperature management and air leakage prevention are crucial for energy savings in compressors. SIRC proposes a method to detect air leaks based on the operating conditions of the compressor. *For more detailed information, please refer to the related links. For more details, you can download the PDF or feel free to contact us.

• Sensors

To secure strong competitiveness and profitability, excellent productivity, manufacturing costs, and high processing quality are required. Machine tools use energy to process workpieces. In other words, machine tools can be thought of as providing energy to the workpiece, deforming and altering it. The energy input into the machine tools is converted into sound, vibration, and heat, in addition to processing, and these are considered wasted energy. Furthermore, the variation in the energy supplied to the workpiece is considered equivalent to the variation in processing quality. Electric power becomes a useful parameter for managing waste and variation. By conducting detailed power measurements of machine tools, SIRC proposes methods for managing waste and variation that were not previously visible. *For more details, you can view the related links. For more information, please download the PDF or feel free to contact us.

• Sensors

It is said that the power consumed by three-phase induction motors accounts for 40-50% of the world's electricity consumption, making them devices that consume a significant amount of power. In Japan, the number of motors in use, including those for household purposes, is said to be around 100 million, and it is estimated that they account for 55% of the domestic electricity consumption. When focusing on industrial applications, it is said that motors account for 75% of the electricity consumption. While changing motors to more efficient ones is highly effective for reducing power consumption, it is not easy to replace the motors themselves. It is believed that adding inverters and operating motors efficiently can lead to reductions in power consumption, but it cannot be definitively stated that power consumption can be reduced in all cases. Therefore, SIRC proposes a method to estimate the power reduction effects using IoT power sensor units. *For more detailed information, please refer to the related links. For further details, you can download the PDF or feel free to contact us.*

• Sensors

Similar to weight management, understanding the current situation of each piece of equipment is essential for energy-saving efforts in factories. By installing IoT power sensor units for each line and device, we can visualize individual power consumption and power factor, allowing us to identify unnecessary power consumption (i.e., energy-saving points), such as forgetting to turn off power at night or on holidays. This article introduces steady and efficient reduction ideas that can be achieved by improving the energy-saving points revealed by IoT power sensor units. *For more details, you can view the related links. For more information, please download the PDF or feel free to contact us.*

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We would like to introduce a case study on the implementation of the "IoT Power Sensor Unit" at Hino Litrax Co., Ltd. The company faced the challenge of needing to replace batteries approximately once a month, which was a significant workload issue. While the measured data was checked using dedicated software, there was also a challenge in comparing data before and after the introduction of new devices. After the implementation, it became possible to visualize the power consumption for each device. By prioritizing measures based on the devices with higher power consumption, effective improvements have been achieved. [Case Overview] ■ Challenges - Need for battery replacement approximately once a month, which posed a workload issue. ■ Results - By utilizing the features of the SIRC Cloud, it became easier to compare and verify the effects of improvements. *For more details, please download the PDF or feel free to contact us.

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We would like to introduce a case study on the implementation of the "IoT Power Sensor Unit" at Chugoku Electric Power Co., Inc. and Hiroshima Precision Industries Co., Ltd. Chugoku Electric Power Co., Inc. consulted Hiroshima Precision Industries regarding energy consumption benchmarks based on the Energy Conservation Act. After implementation, the visualization allowed for an understanding of energy consumption benchmarks by product, as well as the ability to confirm variations in energy consumption according to production volume. [Case Overview] ■ Background - Exploring the possibility of field tests to develop energy-saving and CO2 reduction consulting. ■ Results - Both parties can share challenges using real-time data on a browser, enabling consulting through web meetings. *For more details, please download the PDF or feel free to contact us.

• Sensors

We would like to introduce a case study on the implementation of the "IoT Power Sensor Unit" at Arisawa Manufacturing Co., Ltd. The company felt that in order to promote energy conservation, it was necessary to understand the power consumption of each device, and they were also looking for a method to monitor energy usage trends in real-time. After the implementation, they were able to visualize the power consumption of each facility, allowing them to identify energy waste. 【Case Overview】 ■ Background - To achieve power monitoring for each device, it was necessary to install clamp meters and power meters in multiple locations, which raised concerns about the time required for data collection and retrieval processes. ■ Results - It became possible to make data-driven improvement proposals, such as optimizing air conditioning based on operational conditions. *For more details, please download the PDF or feel free to contact us.

• Sensors

We would like to introduce a case study on the implementation of the "IoT Angle Sensor Unit" at TMES Corporation. The company was considering the establishment of a maintenance management system that utilizes IoT devices to improve operational efficiency and enable unmanned operations at night, amid a labor shortage due to declining birth rates and an aging population. Our product was installed at 60 locations, including pumps, air conditioning fans, and exhaust fans, and the process was carried out quickly and without much hassle. By also utilizing image sensors, temperature sensors, and leak sensors, we achieved more precise equipment management. [Case Overview] ■ Background - The company was exploring the possibility of data-driven improvement proposals to provide more advanced services to customers. ■ Results - As a result of being able to make energy-saving and equipment operation improvement proposals based on actual measurements, this led to contract continuation and management rationalization. *For more details, please download the PDF or feel free to contact us.

• Sensors

We would like to introduce a case study on the implementation of the "IoT Power Sensor Unit" at Zatofu Electric Co., Ltd. The company was measuring power consumption at the distribution board level, but was unable to grasp the actual consumption at the equipment level. After the implementation, the ability to present detailed power consumption data deepened the common understanding of issues. This led to an increased awareness of energy conservation within the factory. [Background of the Issues] - While power consumption was measured at the distribution board level, the actual consumption at the equipment level was not understood. - There was a desire to understand the power consumption of various parts of the production equipment. - The company was exploring methods for data sharing and CO2 reduction in order to achieve carbon neutrality. *For more details, please download the PDF or feel free to contact us.

• Sensors

We would like to introduce a case study on the implementation of the "IoT Power Sensor Unit" at Maruyama Manufacturing Co., Ltd. The company made significant progress in energy-saving efforts through the introduction of an air management system, but they had not been able to grasp the power situation of the compressor alone. After the implementation, cloud connectivity was smooth, allowing up to 20 sensors to be connected to a single gateway, which holds promise for the future and enables easy visualization of power consumption. [Case Overview] ■Challenges - To thoroughly improve the compressor, it is essential to visualize its power consumption. ■After Implementation - The ability to see what was previously invisible holds great significance. - Having data as a basis makes it easier to persuade others within the company, facilitating the next actions. *For more details, please download the PDF or feel free to contact us.

• Sensors

SIRC Cloud is a cloud service that easily visualizes on-site data from factories and facilities, helping to promote energy savings and early detection of equipment anomalies. You can immediately access the management screen from your browser and share data with group companies and business partners. 【What You Can Do】 ■ Easy Visualization of On-Site Data By simply accessing the management screen from your browser, you can check the status of equipment and lines from anywhere. ■ Discover Energy-Saving Tips with Analysis Features It identifies equipment with high power consumption and uncovers unexpected waste. ■ Receive Email Notifications for Equipment Anomalies By setting threshold values in advance, you will receive email notifications when anomalies are detected. This leads to early detection of issues and helps prevent troubles before they occur. 【Compatible Sensors】 IoT Power Sensor Unit IoT Angle Sensor Unit IoT Digital Input Unit *Some sensors from other manufacturers can also be connected.

• Power Monitoring Equipment

In school lighting control, it is essential to maintain optimal brightness depending on the location and time of day, providing a comfortable learning environment. At the same time, reducing energy costs is also an important issue. Inadequate lighting management can lead to unnecessary power consumption, potentially straining operational costs. The SIRC cloud package visualizes the power usage of school lighting facilities and supports energy-saving measures. 【Usage Scenarios】 - Visualization of power consumption for lighting in classrooms, hallways, gyms, etc. - Analysis of power consumption by time of day - Monitoring of lighting on/off status 【Benefits of Implementation】 - Cost reduction through optimization of power consumption - Increased efficiency in energy management by faculty and staff - Maintenance of a comfortable learning environment

• Power Monitoring Equipment

In automated control systems for offices, optimizing power consumption is essential. Particularly in facilities with high energy consumption, such as air conditioning and lighting, efficient operation is crucial for cost reduction. Inadequate power management can lead to unnecessary energy consumption and increased operational costs. The SIRC Cloud Package supports energy conservation by visualizing and analyzing on-site data to address these challenges. 【Usage Scenarios】 - Monitoring power consumption of air conditioning systems - Visualizing power consumption status within the office 【Benefits of Implementation】 - Increased awareness of energy conservation through visualization of power usage - Early detection of issues through anomaly detection - Consideration of optimal operational methods based on data

• Power Monitoring Equipment

In the manufacturing industry, improving production efficiency and reducing costs are always required. In particular, reducing energy costs is a key challenge for improving profit margins. However, if the current energy usage situation is not understood, there is the challenge of not knowing where to start improvements. The SIRC Cloud Package visualizes the energy usage of factories and facilities, supporting the first step in energy-saving measures. 【Usage Scenarios】 - Understanding the overall electricity consumption of the factory - Analyzing the correlation between equipment operation status and power consumption - Measuring the effectiveness of energy-saving measures 【Benefits of Implementation】 - Discovering waste through visualization of energy usage - Prioritizing energy-saving measures - Achieving cost reduction

• Power Monitoring Equipment

■■What You Can Do with SIRC Cloud■■ ~Easily Visualize On-Site Data~ The management screen is easily accessible from a browser. You can share on-site data with group companies and business partners. ~Provide Energy-Saving Tips with Analysis Functions~ Check the correlation between on-site data and power consumption. Identify large power-consuming equipment and unexpected waste. ~Notify Equipment Abnormalities via Email~ By setting thresholds in advance, you can detect abnormalities and receive email notifications. This allows for early detection of issues and prevention of troubles. ■■What is the SIRC Cloud Package?■■ This is a flat-rate plan that can be implemented with four sensors tailored to the environment of factories or facilities, along with SIRC Cloud. It is recommended for companies that want to advance their understanding of CO2 emissions across the entire supply chain with Scope 3 compliance, as well as for small-scale implementations by companies that have not yet started energy-saving initiatives.

• Power Monitoring Equipment

Public facilities are required to visualize electricity usage and manage energy efficiently. In particular, energy-saving measures are essential for balancing the reduction of operational costs and environmental impact. However, the current situation presents challenges in understanding electricity usage, making it difficult to identify where improvements can be made. The DDS33 series three-phase type can be installed in just 15 seconds and solves these issues by measuring electricity usage for each facility in real-time. 【Usage Scenarios】 - Understanding electricity usage in public facilities such as schools, hospitals, and government offices - Visualizing power consumption of lighting, air conditioning, and other equipment - Implementing energy-saving measures and measuring their effectiveness 【Benefits of Implementation】 - Discovering waste through the visualization of electricity usage - Prioritizing energy-saving measures - Reducing electricity costs - Improving power efficiency through power factor correction

• Power meter

In the hotel industry, the rising costs of utilities have become a significant challenge for management. Particularly in hotels that have equipment consuming a lot of electricity, such as air conditioning and kitchen facilities, visualizing electricity usage and efficient operation are essential. It is necessary to accurately grasp electricity usage and reduce waste to achieve cost savings. The IoT power sensor unit 'DDS33 Series Three-Phase Type' can be installed in just 15 seconds and can measure the electricity usage of each piece of equipment in real-time. This allows for the identification of electricity waste and the rapid implementation of energy-saving measures. 【Usage Scenarios】 - Understanding electricity usage for guest rooms, common areas, kitchens, etc. - Reviewing contracted power based on visualizing peak electricity usage - Measuring the effectiveness of energy-saving equipment implementation 【Benefits of Implementation】 - Increased awareness of energy conservation through visualizing electricity usage - Implementation of effective energy-saving measures based on the electricity usage of each piece of equipment - Cost reduction and realization of sustainable hotel operations

• Power meter

In the management department of logistics warehouses, it is essential to understand the power consumption of various equipment within the warehouse and implement cost reduction and energy-saving measures. Particularly for equipment that consumes a lot of power, such as air conditioning systems, lighting, and conveyor systems, visualizing power usage is crucial. If it is difficult to grasp power consumption, it becomes hard to notice unnecessary power usage, which can lead to increased costs. The IoT power sensor unit 'DDS33 Series Three-Phase Type' can be installed in just 15 seconds and measures the power consumption of each piece of equipment in real-time. This allows for the discovery of wasted power and enables efficient power management. 【Usage Scenarios】 - Measuring power consumption of air conditioning systems, lighting, and conveyor systems within the warehouse - Energy-saving measures through the visualization of power consumption - Comparative analysis of power consumption for each piece of equipment 【Benefits of Implementation】 - Cost reduction through the visualization of power consumption - Increased awareness of energy conservation - Implementation of improvement measures based on data regarding power usage

• Power meter

In data centers, optimizing power efficiency and ensuring stable operations are essential. Understanding power consumption leads to solutions for these challenges. It is particularly important to accurately grasp the power usage of devices that consume a lot of electricity, such as servers and air conditioning equipment, and to reduce waste. The DDS33 series three-phase type can be installed in just 15 seconds and can measure the power usage of each device in real-time. This helps identify power waste and supports efficient operations. 【Usage Scenarios】 - Power monitoring in server rooms - Power monitoring for air conditioning equipment - Power monitoring for power supply equipment 【Benefits of Implementation】 - Promotion of energy savings through visualization of power consumption - Understanding of power consumption for each device - Improvement of power efficiency through power factor correction

• Power meter

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

• Power meter

In office buildings, visualizing power consumption is the first step towards cost reduction and energy-saving measures. Particularly for equipment that consumes a lot of electricity, such as air conditioning and lighting, it is important to accurately understand power usage and eliminate waste. However, traditional power measurement methods have posed challenges due to the need for extensive construction, making implementation difficult. The DDS33 series three-phase type can be installed in just 15 seconds. It allows for real-time measurement of power consumption without stopping the equipment. 【Usage Scenarios】 - Understanding the overall power consumption of the office floor - Measuring power consumption of air conditioning and lighting equipment - Managing power consumption by tenant 【Benefits of Implementation】 - Increased awareness of energy conservation through visualization of power consumption - Implementation of effective energy-saving measures based on analysis of power usage - Contribution to cost reduction and reduction of environmental impact

• Power meter

In the food processing industry, stabilizing the manufacturing process and maintaining quality are crucial. Since a significant amount of electricity is used for temperature control and hygiene management, understanding electricity consumption is essential for improving quality management. It is necessary to detect equipment anomalies and energy waste early to prevent product quality deterioration and cost increases. The IoT power sensor unit 'DDS33 Series Three-Phase Type' visualizes the power consumption of equipment in real-time, supporting quality maintenance. 【Usage Scenarios】 - Power monitoring for refrigeration and freezing equipment - Optimization of power consumption on manufacturing lines - Power monitoring for temperature control equipment for quality management 【Benefits of Implementation】 - Early detection of anomalies through visualization of power consumption - Cost reduction through energy-saving measures - Strengthening of quality management systems

• Power meter

In commercial facilities, the rise in electricity costs and efforts for energy conservation are important issues. In particular, there are many systems that consume a lot of electricity, such as air conditioning and lighting, so the visualization of power usage and efficient operation are required. If you cannot grasp the power usage situation, it becomes difficult to notice unnecessary power consumption and to implement improvement measures. The IoT power sensor unit can be installed in just 15 seconds and can measure the power usage of each device in real time. This allows for the discovery of wasted electricity and the rapid implementation of energy-saving measures. [Usage Scenarios] - Understanding power usage by tenant - Monitoring power usage of air conditioning and lighting systems - Peak cut measures [Effects of Implementation] - Increased awareness of energy conservation through the visualization of power usage - Reduction in electricity costs through optimization of power usage for each device - Potential reduction in electricity bills through power factor improvement

• Power meter

Hospitals consume a lot of electricity for medical equipment and air conditioning systems. Optimizing electricity costs is an important challenge for improving management efficiency. However, it is not easy to accurately grasp the electricity usage of each piece of equipment. The IoT power sensor unit visualizes the power consumption of equipment in real-time and supports energy-saving measures. 【Usage Scenarios】 * Understanding the power consumption of medical equipment * Monitoring the power usage of air conditioning systems * Raising energy-saving awareness through visualization of power consumption 【Benefits of Implementation】 * Visualization of power consumption * Discovery of energy-saving opportunities * Potential reduction in electricity costs

• Power meter

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

• Power meter

In the food processing industry, accurate temperature management and understanding of equipment operating conditions are required to maintain product quality. In particular, the power consumption of refrigeration and freezing equipment is a crucial factor that directly affects the preservation of food quality. However, traditional measurement methods have faced challenges such as being labor-intensive and time-consuming. The IoT power sensor unit addresses these issues and contributes to maintaining quality and efficient energy management in food processing. 【Usage Scenarios】 * Measuring the power consumption of refrigeration and freezing equipment * Understanding the power usage of manufacturing lines * Monitoring the power consumption of temperature management systems 【Benefits of Implementation】 * Maintaining food quality * Potential reduction in energy costs * Detection of equipment anomalies

• Power meter

In university research institutions, the accuracy of experimental data is crucial. In particular, power consumption can affect experimental results, so precise measurements are required. Traditional measurement methods have faced challenges such as being time-consuming and labor-intensive. The IoT power sensor unit addresses these issues, contributing to the efficiency of experiments and the improvement of data accuracy. 【Usage Scenarios】 * Measurement of power consumption in various experiments * Understanding the power usage of experimental equipment * Measuring energy-saving effects 【Benefits of Implementation】 * Improved reliability of experimental data * Increased efficiency of experiments * Potential reduction in power costs

• Power meter

In experiments conducted at research institutions, accurate data acquisition is essential. In particular, power consumption is one of the important factors that can influence experimental results. However, traditional measurement methods have faced challenges such as being cumbersome and time-consuming. The IoT power sensor unit "DDS33 Series Three-Phase Type" addresses these issues and contributes to improving the efficiency of experiments and the accuracy of data. 【Usage Scenarios】 * Measurement of power consumption in various experiments * Understanding the power usage of experimental equipment * Measurement of energy-saving effects 【Benefits of Implementation】 * Improved reliability of experimental data * Increased efficiency of experiments * Potential reduction in power costs

• Power meter

■ Non-contact IoT power sensor unit that can be installed on three-phase three-wire and single-phase three-wire/two-wire systems. By simply attaching it to two of the three wires (for single-phase two-wire, the L/N two wires), it measures the active power including power factor. Utilizing Bluetooth wireless technology and powered by a lithium battery, it operates for approximately three years. It can be installed not only in factory cubicles but also in distribution boards and panel boards, enabling power measurement for each manufacturing line and equipment. No electrical or wiring work is required, making it easy to visualize active power. ■ Accurate understanding of power consumption through power factor detection. Typical clamp-on type power meters calculate power values by multiplying the measured current value by fixed voltage and power factor values. However, the SIRC IoT power sensor unit can detect the power factor. By multiplying the measured current value by the detected power factor simultaneously, it accurately determines the active energy consumption. For companies and factories, understanding the current accurate power consumption is essential for efforts towards carbon neutrality. The SIRC IoT power sensor unit allows for accurate measurement of power consumption, enabling effective CO₂ reduction (decarbonization) measures.

• Power meter