Learn about Kilowatt Hour (kWh) metering, its importance, how it works, and its role in measuring electricity consumption.
TLS 1.2 provides a safe and secure connection whether surfing the web, accessing confidential data, or doing online transactions.
Explore SCADA, powerful technology that enables the monitoring & control of industry processes. It enhances productivity and reliability in many sectors.
Time of Use Energy Metering (TOU) is a possible solution. This blog post discusses the TOU concept and how it can change energy consumption.
Aim Dynamics primarily sells current sensors for the purpose of power monitoring. Current sensors, when connected to the right device enable the measurement and monitoring of electrical currents flowing through equipment, machinery, and power systems. This information can be utilized to maintain optimal performance, identify abnormalities, and ensure safe and efficient operation. When companies can accurately measure current levels using Hall effect sensors, companies can monitor power consumption, detect malfunctions, prevent overheating, and reduce the chance of issues caused by power issues.
Rogowski coils are a type of current sensor used to measure electrical current in an AC circuit. They work by wrapping a flexible, continuous, and non-magnetic conductor around the conductor carrying the current to be measured. The coil generates a voltage proportional to the current flowing through the conductor, which can then be measured and processed to determine the current.
Hall effect current sensors appear in countless industrial and commercial applications. From power plants to automotive engines, such devices are essential for detecting and monitoring current levels. With their accuracy and reliability, hall effect current sensors are a great option for many projects. Let’s find out what their purpose is.
Hall effect current sensors use various components to monitor current. The components inside may contain amplifiers along with their sensing elements.
Hall effect current sensors are used for a variety of applications. One of the benefits of Hall effect sensors is their small size, which allows them to be used in very small electronic devices.
When a conductor is placed in a magnetic field, the charge carriers are deflected by the magnetic field’s action on the conductor body. The Hall effect is the name given to this action and is one of the most frequent methods for measuring magnetic fields. American scientist Edwin Hall discovered the Hall effect in 1879, according to the American Physical Society, but it was not until decades later that integrated circuits could take full advantage of this phenomenon. Keep reading for a quick overview of the Hall effect.
