Single Phase Meter Shunts Suppliers

about us

Haiyan Weijia Electric Technology Co., Ltd is a professional China Single Phase Meter Shunts Manufacturers and Single Phase Meter Shunts suppliers, covers an area of 13 acres, with a total construction area of about 12,000 square meters and more than 200 employees. The company mainly produces in-meter accessories such as current transformers, manganese-copper shunts ,wholesale Single Phase Meter Shunts and magnetic holding relays. The transformer production capacity is 80,000 per day, shunts are 50,000 per day, and 20,000 relays per day. The company invests millions of dollars each year in equipment upgrades, production process improvements and new product development. Currently has dozens of technical patents, enterprise management passed ISO9001 certification, relays and transformers obtained CE EU certification.
view more

honor

latest news

what customer say about us and why love our services!

Spring machine: a masterpiece of precision manufacturing

In the vast ocean of industry, the spring machine is like a bright pearl, illuminating the road of precision manufacturing with its unique charm and exquisite craftsmanship. As an ...

Prepayment Meter Shunt: Empowering Energy Control and Efficiency

Prepayment meters have revolutionized the way we manage and pay for electricity and gas. These meters allow consumers to pay for energy in advance, providing better control over th...

Wide application of spring coiling machines: supporting the industrial giant from the subtleties

In the complex field of mechanical manufacturing, spring coiling machines, with their unique process capabilities and wide range of applications, have become a bridge connecting mi...

The Three-Phase Meter Current Transformer: Power Measurement Precision

A three-phase meter current transformer, often simply referred to as a CT, is a specialized transformer designed to measure electric current in three-phase electrical systems accur...

Industry knowledge about Single Phase Meter Shunts

A single phase meter shunt is a device used to measure the current flow in a single phase electrical system. The shunt is a low-resistance resistor that is connected in parallel with the load. The current flowing through the load will also flow through the shunt, and the voltage drop across the shunt is proportional to the current flow. By measuring the voltage drop across the shunt, the current flow can be determined.
Single phase meter shunts are commonly used in residential and small commercial applications to measure the electrical consumption of individual appliances and lighting fixtures. The shunt is typically connected to an energy meter, which is used to display the energy consumption in kilowatt-hours (kWh).
There are several types of single phase meter shunts, including wire wound shunts, current transformer (CT) shunts, and hall effect shunts. The choice of shunt type will depend on the specific requirements of the application, such as the required accuracy, the maximum current, and the cost constraints. In general, single phase meter shunts are a reliable and cost-effective solution for measuring the current flow in single phase electrical systems.

Features of single phase meter shunts:

High Accuracy: Single phase meter shunts are designed to provide accurate current measurements. The accuracy of the shunt can be affected by factors such as temperature and the resistance of the shunt material. Some shunts are designed to maintain their accuracy over a wide temperature range.
Low Resistance: Single phase meter shunts have a low resistance, which minimizes the voltage drop across the shunt. This helps to ensure that the voltage drop across the shunt accurately represents the current flow in the system.
Wide Operating Range: Single phase meter shunts are available in a wide range of current ratings, from milliamperes to several thousand amperes. This allows them to be used in a variety of applications, from small residential systems to large commercial systems.
Durability: Single phase meter shunts are typically made from high-quality materials, such as copper or aluminum, which provide excellent durability and long-term performance. Some shunts also have a protective coating or insulation to help prevent corrosion and other types of damage.
Easy Installation: Single phase meter shunts are typically easy to install and require minimal maintenance. The shunts can be connected directly to the load or to an energy meter, and they are often designed to be used with standard electrical components and connections.

Single phase meter shunts serve several important functions in electrical systems:

Measuring current: The primary function of a single phase meter shunt is to measure the current flow in a single phase electrical system. The shunt is connected in series with the load, and the voltage drop across the shunt is proportional to the current flow. By measuring the voltage drop, the current can be accurately determined.
Monitoring system performance: Single phase meter shunts can be used to monitor the performance of electrical systems by measuring the current flow in real-time. This information can be used to identify system problems, such as overloading or other types of electrical issues, and to take appropriate action to resolve the problem.
Protecting equipment: Single phase meter shunts can also be used to protect equipment in the electrical system. By accurately measuring the current flow, the shunt can trigger an overcurrent protection device, such as a circuit breaker or fuse, to protect equipment from damage in the event of a high current condition.
Improving energy efficiency: By accurately measuring the current flow in an electrical system, single phase meter shunts can also be used to identify areas where energy efficiency can be improved. This information can be used to optimize the system and reduce energy waste.
Billing and metering: Single phase meter shunts can be used in metering applications, such as for billing purposes, to measure the amount of energy consumed by a single phase electrical system. The information provided by the shunt can be used to accurately determine the cost of electricity usage.