There are lots of things about current sensor, lamination, currents, the magnetic field, density enhancement, magnetic fields, and output are explained in the application note. This application note tells us discussion related to sensor, magnetoresistive sensors, magnetic flux density, sensors, methods, signal, and magnetic.
In this application note we can read information such as magnetic flux, permeability, current, magnetic sensor, the current sensor, density, and applications. These are selected from the application note:
This application note describes the basic principles using magnetic sensors to measure current, offers several approaches to using MR technology, and lists the technical advantages and disadvantages to each approach. Since each application has its own unique set of specifications, the note serves as an overview to introduce the user to the basics of current sensing. INTRODUCTION There are numerous methods used to measure current. The most common ways include the use of a resistive shunt, a transformer, or a magnetic sensor. Resistive shunts operate by Ohm’s law giving a voltage proportional to the current going through the shunt.
Additionally, the application note contains info about current sensor design, magnetic sensors, current sensing, magnetoresistive, sensor design, and magnetic field.