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Address: Baisha Sancun Industrial Zone, Humen Town, Dongguan City, Guangdong Province, China
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The Hall Effect Current Sensor is a cutting-edge device designed to measure electrical current with unparalleled precision and ease. This sensor utilizes the Hall effect principle to accurately detect and convert the magnetic field generated by the flow of current into a proportional voltage, providing a reliable and direct measurement of electrical current ranging from 0 to a maximum of 50-500A. Engineered for optimal performance, the Hall Effect Current Sensor represents a paradigm shift in current sensing technology, catering to a wide array of applications that require precise current monitoring.
Structured to facilitate a seamless integration into electrical systems, the Hall Effect Current Sensor offers PCB mounting capabilities. Its design is optimized to ensure easy installation on a printed circuit board, which not only simplifies the implementation process but also reduces the time required for setup. The sensor is an ideal match for applications where space is at a premium, and a non-invasive current measurement solution is essential. Moreover, the PCB mounting feature significantly enhances the mechanical stability of the sensor, thereby improving its accuracy and longevity.
One of the most critical attributes of the Hall Effect Current Sensor is its outstanding insulation resistance, which is rated at greater than or equal to 500 MΩ. This high level of insulation resistance ensures that the sensor provides excellent electrical isolation between the measuring circuit and the current-carrying conductor. Such robust insulation is vital for protecting the sensor against electrical interference and potential damage from high-voltage transients, ultimately resulting in reliable and safe operation, especially in electrically noisy environments.
The sensor is housed in a split core sensor packing within a bubble package type. This packaging approach is carefully chosen to provide additional protection to the sensor during shipping and handling, safeguarding the integrity of the Hall element within. Furthermore, the split core design enables users to install the sensor without the need to disconnect the conductor being measured, offering a significant advantage in terms of convenience and operational continuity.
When it comes to the construction material, the Hall Effect Current Sensor is composed of high-quality PBT G30/G15 plastic, which is renowned for its excellent mechanical properties and thermal stability. The plastic material is compliant with the UL94-V0 standard, indicating that it is flame-retardant and capable of withstanding harsh operating conditions. This choice of material not only enhances the durability of the sensor but also ensures that it meets stringent safety requirements, making it suitable for a wide range of industrial applications.
Incorporating a Hall element current sensor, this product is adept at translating the magnetic field strength into an electrical signal with high precision. The sensor's core component, the Hall element, is finely tuned to detect even minute variations in magnetic field strength, ensuring that the current measurements are accurate and reliable. This feature is particularly beneficial for applications where exact current readings are paramount for performance and safety.
The Hall resistance current sensor aspect of the device refers to the inherent resistance of the Hall element, which plays a critical role in the operation of the sensor. The resistance of the Hall element is carefully calibrated to ensure that the sensor's output signal is proportional to the current passing through the conductor. This resistance-based sensing method allows for continuous monitoring of current without introducing any significant resistance into the circuit being measured.
Lastly, as a magnetic field strength current sensor, this product is not affected by the physical contact with the conductor. This non-invasive approach to current measurement means that the sensor does not introduce any additional resistance or potential points of failure into the electrical system. It also implies that the sensor can operate over a broad temperature range and under various environmental conditions without compromising its performance or accuracy.
In summary, the Hall Effect Current Sensor is a technologically advanced, easy-to-install, and safe solution for accurate current measurement. Its insulation resistance, PCB mounting capability, split core sensor packing, and high-quality flame retardant plastic material make it an excellent choice for a wide range of applications that demand precise and reliable current sensing.
| Parameter | Specification |
|---|---|
| Isolation Voltage | 2500Vrms |
| Installation | PCB Mounting |
| Temperature | -40℃~85℃ |
| Non-Linearity | 0.1% Of Full Scale |
| Bandwidth | DC To 120kHz |
| Analog Output | 5V/4V |
| Current Input | 0~(50-500)A |
| Plastic Material | PBT G30/G15, UL94-V0 |
| Storage Temperature | -40~+105℃ |
| Insulation Resistance | >= 500 MΩ |
The CL Hall Effect Current Sensor, originating from CHINA, is a versatile device designed for a multitude of applications where accurate current measurement is critical. This sensor operates on the principle of magnetic induction to accurately detect the current flow without direct electrical contact. Operating within a temperature range of -40℃ to 85℃, it is suitable for harsh environments and complies with the standards SJ 20790-2000 and JB/T 7490-2007, ensuring reliability and safety in its applications.
One of the primary application occasions for the CL Hall Effect Current Sensor is in industrial automation. Its high insulation resistance of over 500 MΩ makes it ideal for monitoring large electric motors and controlling the current in heavy machinery. This sensor can withstand the demanding conditions typical in an industrial setting while providing precise analog output signals of 5V or 4V for easy integration with control systems.
In the realm of energy management and power supply systems, the CL magnetic induction current sensor plays a critical role. It helps in maintaining the efficiency of power distribution networks by providing real-time current measurements. This is essential for detecting irregularities and preventing potential failures, especially in substations and renewable energy installations such as solar panels and wind turbines.
The Hall Effect resistance current sensor is also widely used in automotive applications, where it ensures the safety and efficiency of electrical systems within vehicles. From battery management to monitoring the current in electronic control units, the sensor's robustness against temperature variations (working temperature of -20-70℃) ensures consistent performance, even in extreme conditions.
Furthermore, the CL Hall Effect voltage current sensor is instrumental in consumer electronics where precise current sensing is needed for power supply units, overcurrent protection, and battery chargers. Its high accuracy and reliable analog output facilitate the smooth operation of these devices, safeguarding them from current-related issues and enhancing user safety.
Additionally, the sensor finds its application in medical equipment, where precision and reliability are non-negotiable. Its ability to operate accurately across a wide temperature range ensures that it can be used in various medical devices that require stringent current monitoring for diagnosis and treatment.
Overall, the CL Hall Effect Current Sensor is an indispensable tool in any application that requires high-precision current measurement. Its durability, compliance with stringent standards, and versatility across different temperatures make it an excellent choice for a broad range of applications. The sensor's robust design and reliable output ensure that it can meet the demands of complex systems, providing accurate current measurements in various scenarios.
At CL, we provide an extensive range of Product Customization Services for our Hall Effect Current Sensor line. Each sensor is crafted with precision, employing high-quality PBT G30/G15 plastic material with a UL94-V0 rating for flame retardancy, ensuring robustness and safety. Originating from CHINA, our sensors are designed to offer exceptional performance and reliability.
Our Hall Effect Current Sensor is tailored to measure current with impressive accuracy, featuring a Non-Linearity specification of just 0.1% Of Full Scale. This sensor is a remarkable choice for applications requiring a precise Magnetic Field Current Sensor. With its ability to function across a wide bandwidth from DC To 120kHz, it is also an excellent Hall Effect Voltage Current Sensor, catering to a diverse range of electrical systems.
The current input range for this sensor is highly customizable, from 0 to a maximum of (50-500)A, making it a versatile Hall Effect Resistance Current Sensor for various industrial applications. In addition, the sensor guarantees safety and insulation with an Isolation Voltage rating of 2500Vrms, ensuring dependable performance even in demanding electrical environments.
The Hall Effect Current Sensor is designed to provide reliable and accurate current measurement for a wide range of applications. Our product offers non-invasive current sensing capabilities, ensuring high precision and minimal interference with the primary electrical circuit. The sensor operates based on the Hall effect principle, detecting magnetic fields generated by electric current flow and converting it into a proportional voltage output.
Technical support for the Hall Effect Current Sensor includes assistance with product specifications, installation guidance, troubleshooting, and calibration services. Our support team is well-versed in the technical aspects of our product and is prepared to provide comprehensive solutions to ensure your sensor operates at peak performance.
Our services also encompass detailed product documentation, which includes a user manual, application notes, and datasheets that provide valuable information on the sensor's characteristics, electrical ratings, and mechanical dimensions. These resources are designed to facilitate a smooth integration of the sensor into your system and to expedite the development process.
In addition to our standard support services, we offer custom engineering solutions tailored to meet specific customer needs. Whether it is adapting the sensor for unique applications or developing custom firmware for advanced functionality, our engineering team is ready to collaborate with you to create the optimal solution for your project.
To ensure the longevity and reliability of the Hall Effect Current Sensor, we provide a warranty service that covers defects in materials and workmanship. We are committed to the quality of our product and offer repair or replacement options in the unlikely event that you encounter any issues within the warranty period.
For any further assistance or to access our support services, please refer to the contact section of our website or reach out to our customer service department (Contact information excluded as per request).
The Hall Effect Current Sensor will be securely packaged in a robust, anti-static container to ensure the device's integrity and protect it from any electromagnetic interference during transportation. The packaging will be cushioned with foam inserts to guard against impact and vibration. Each sensor will be individually encased, with clear labeling on the outside of the package, including the part number, serial number, and a barcode for easy inventory management.
For shipping, the packaged sensors will be placed in a sturdy cardboard box, with additional padding material to fill any voids, preventing movement and minimizing the risk of damage during transit. The box will be sealed with heavy-duty adhesive tape and clearly marked with 'Fragile' and 'Handle with Care' to ensure proper handling by shipping carriers. A detailed packing slip will be included inside the box, listing the contents and providing instructions for proper handling and installation of the product.
Before dispatch, each shipment will undergo a thorough inspection to ensure that all packages meet our quality control standards. Tracking information will be provided to the customer as soon as the package is shipped, allowing for real-time monitoring of the delivery status. Our goal is to ensure that the Hall Effect Current Sensor arrives at its destination in perfect working condition, ready for immediate use in your application.
Q1: What is the principle of operation for the CL Hall Effect Current Sensor?
A1: The CL Hall Effect Current Sensor operates based on the Hall Effect principle, which involves the generation of a voltage difference (Hall voltage) across an electrical conductor through which an electric current is flowing, placed within a magnetic field. This voltage is proportional to the strength of the magnetic field and the current, allowing the sensor to measure the current without direct electrical contact.
Q2: Can the CL Hall Effect Current Sensor be used in both AC and DC applications?
A2: Yes, the CL Hall Effect Current Sensor is designed to measure both alternating current (AC) and direct current (DC), making it versatile for various applications.
Q3: What types of output signals can be expected from the CL Hall Effect Current Sensor?
A3: The CL Hall Effect Current Sensor typically provides an analog voltage output that is proportional to the current flowing through the primary conductor. Some models may also offer digital or pulse-width modulated (PWM) outputs, depending on the specific product variant.
Q4: How does the place of origin, China, affect the quality and reliability of the CL Hall Effect Current Sensor?
A4: The place of origin itself does not inherently affect the quality and reliability of the product. The CL brand ensures that its Hall Effect Current Sensors meet rigorous quality control standards and performance benchmarks, regardless of the place of manufacture.
Q5: Is calibration required for the CL Hall Effect Current Sensor, and if so, how often?
A5: Calibration ensures accurate readings and may be necessary depending on the application's precision requirements. The CL Hall Effect Current Sensor is factory-calibrated, but periodic recalibration may be recommended based on the sensor's usage frequency and environmental conditions. It is best to refer to the manufacturer's instructions for specific calibration intervals.
