1. Chapter 11 – Magnetic Circuits Lecture 6A – (Tutorial) by Moeen Ghiyas 07/05/2015 1

2. Review Determining Flux Φ Applications

3. Example – Find the magnetic flux Φ for the series magnetic circuit of fig for the specified impressed mmf. Solution 07/05/2015 3

4. Example – Find the magnetic flux Φ Solution 07/05/2015 4

5. Example – Find the magnetic flux Φ Solution 07/05/2015 5

6. Example – Find the magnetic flux Φ Solution 07/05/2015 6

7. Recording System The basic recording process is same as in computer hard disks. 07/05/2015 7

8. Speakers and Microphones Electromagnetic effects used as moving force in speaker design As the current peaks and returns to the valleys of the sound pattern, the strength of the electromagnet varies in exactly the same manner. This causes the cone of the speaker to vibrate at a frequency directly proportional to the pulsating input. 07/05/2015 8

9. Speakers and Microphones A second design used more frequently in more expensive speaker system using permanent magnet. High peaking currents at the input produce a strong flux pattern in the voice coil, causing it to be drawn well into flux pattern of permanent magnet 07/05/2015 9

10. Speakers and Microphones Dynamic microphones such as above also employ electromagnetic effects. The sound to be reproduced at a higher audio level causes the core and attached moving coil to move within the magnetic field of the permanent magnet. Through Faraday’s law (e = N dΦ/dt), a voltage is induced across the movable coil proportional to the speed with which it is moving through the magnetic field. The resulting induced voltage pattern can then be amplified and reproduced at a much higher audio level through the use of speakers 07/05/2015 10

11. Computer Hard Disks The computer hard disk stores data on a magnetic coating applied to the surface of circular platters that spin like a record. The platters are constructed on a base of aluminium or glass (both nonferromagnetic), which makes them rigid—hence the term hard disk. The magnetic coating on the platters is called the media and is of either the oxide or the thin-film variety. 07/05/2015 11

12. Computer Hard Disks The information on a disk is stored around the disk in circular paths called tracks or cylinders. In its simplest form the write/read head of a hard disk (or floppy disk) is a U-shaped electromagnet with an air gap that rides just above the surface of the disk. 07/05/2015 12

13. Computer Hard Disks As the disk rotates, information in the form of a voltage with changing polarities is applied to the winding of the electromagnet. If we energize a positive voltage level with a 1 level (of binary arithmetic) and a negative voltage level with a 0 level, the resulting magnetic flux pattern will have the direction shown in the core. 07/05/2015 13

14. Computer Hard Disks When the flux pattern encounters the air gap of the core, it jumps to the magnetic material (since magnetic flux always seeks the path of least reluctance and air has a high reluctance) and establishes a flux pattern, as shown on the disk, until it reaches the other end of the core air gap, where it returns to the electromagnet and completes the path. 07/05/2015 14

15. Computer Hard Disks As the head moves to the next bit sector, it leaves behind the magnetic flux pattern just established from the left to the right. 07/05/2015 15

16. Computer Hard Disks Data reading is done by a significant change in flux occurs when the head passes over the transition region causing a measurable voltage to be generated across the terminals of the pickup coil as dictated by Faraday’s law. 07/05/2015 16

17. Hall Effect Sensors The Hall effect sensor is a semiconductor device that generates an output voltage when exposed to a magnetic field. If a magnetic field is applied as perpendicular to the direction of the current, a voltage V H will be generated between the two terminals. 07/05/2015 17

18. Hall Effect Sensors The force causes the electrons to accumulate in the bottom region of the semiconductor (connected to the negative terminal of the voltage VH), leaving a net positive charge in the upper region of the material (connected to the positive terminal of V H ). The stronger the current or strength of the magnetic field, the greater the induced voltage V H. 07/05/2015 18

19. Hall Effect Sensors The most widespread use of hall effect is as a trigger for an alarm system in large department stores, where theft is often a difficult problem. A magnetic strip attached to the merchandise sounds an alarm when a customer passes through the exit gates without paying for the product. The sensor, control current, and monitoring system are housed in the exit fence and react to the presence of the magnetic field as the product leaves the store. When the product is paid for, the cashier removes the strip or demagnetizes the strip by applying a magnetizing force that reduces the residual magnetism in the strip to essentially zero. 07/05/2015 19

20. Magnetic Reed Switch 07/05/2015 20

21. Magnetic Resonance Image (MRI or NMR vs CAT Scans) The three major components of an MRI system are a huge magnet that can weigh up to 100 tons, a table for transporting the patient into the circular hole in the magnet, and a control. 07/05/2015 21

22. Magnetic Resonance Image (MRI or NMR vs CAT Scans) A strong magnetic field that causes the nuclei of certain atoms in the body to line up. Radio waves of different frequencies are then applied to the patient in the region of interest, and if the frequency of the wave matches the natural frequency of the atom, the nuclei will be set into a state of resonance and will absorb energy from the applied signal. 07/05/2015 22

23. Magnetic Resonance Image (MRI or NMR vs CAT Scans) When the signal is removed, the nuclei release the acquired energy in the form of weak but detectable signals. The strength and duration of the energy emission vary from one tissue of the body to another. The weak signals are then amplified, digitized, and translated to provide a cross-sectional image. 07/05/2015 23

24. Review Ampere’s Circuital Law – (Applying KVL) The Flux Φ – (Applying KCL) Series Magnetic Circuits Air Gaps Series-Parallel Magnetic Circuits Determining Flux Φ Applications

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