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Magnetic sensors and logic gates

Magnetic sensors and logic gates. Ling Zhou. EE698A. Anisotropic magnetoresistive sensors Giant magnetoresistive sensors Colossal magnetoresistive sensors Using magnetoresistive elements to build up logic gates Hall sensors and devices. Outline. Conventional Vs. Magnetic sensing.

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Magnetic sensors and logic gates

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  1. Magnetic sensors and logic gates Ling Zhou EE698A

  2. Anisotropic magnetoresistive sensors Giant magnetoresistive sensors Colossal magnetoresistive sensors Using magnetoresistive elements to build up logic gates Hall sensors and devices Outline

  3. Conventional Vs. Magnetic sensing The output of conventional sensors will directly report desired parameters On the other hand, magnetic sensor only indirectly detect these parameters

  4. Magnetic sensor technology field ranges

  5. Magnetization M R=R┴+ΔRAMRcos2 θ θ CurrentI Anisotropic magnetoresistive (AMR) sensor The theory of the AMR sensor is based on the complex ferromagnetic process in a thin film Magnetoresistance variation with angle between M and I AMR ratio for typical ferromagnetic materials at room temperature is around 1-3%

  6. AMR sensor circuit Wheatstone bridge configuration is used to ensure high sensitivity and good repeatability Disadvantage of AMR sensor: can only sense the magnitude, but not the direction; non-linear output.

  7. AMR effect for small wire “Effect of bar width on magnetoresistance of nanoscale nickel and cobalt bars” J. Appl. Phys. 81(8) 1997

  8. Giant magnetoresistive (GMR) sensor Two different ferromagnetic materials sandwiched by a thin conduction layer

  9. GMR circuit technique • GMR resistors can be configured as a Wheatstone bridge sensor. Two of which are active. Resistor is 2 µm wide, which makes the resistors sensitive only to the field along their long dimension. • Due to their outstanding sensitivity, Wheatstone Bridge Circuits are very advantageous for the measurement of resistance, inductance, and capacitance.

  10. pinned sandwiches Consist of two magnetic layers, soft layer and hard layer Antiferromagnetic multilayers Consist of muliple repetitions of alternating magnetic and nonmagnetic layers The polarized conduction electrons cause antiferromagnetic coupling between magnetic layers Spin valves An additional layer of an antiferromagnetic material is provided on the top or bottom Obtaining parallel, antiparallel magnetic alignment

  11. Antiferromagnetic multilayers

  12. Use GMR in hard drive read head

  13. Magnetic layers: 4~6 nm Conductor layer 3~5 nm in sandwich structure This thickness is critical in antiferromagnetic multilayer GMR sensors, typically 1.5~2 nm Switching field 3~4 KA/m (35~50 Oe) for sandwich structure and 250 for multilayer structures Parameters for GMR sensor

  14. Soft Ferromagnetic Layer Hard Ferromagnetic Layer Insulation Layer Magnetic tunnel junction (MTJ) Sandwiches of two ferromagnetic layers separated by a very thin insulation layer as tunneling barrier

  15. Use MR element as logic gates Hc1<Hc2 , layer 1 is easier to be switched Only IA and IB together can switch layer 1 For rotation of layer 2, an additional input line IC is required

  16. AND gate

  17. OR gate and NAND, NOR gates

  18. A single MR element is sufficient to realize and store four basic logic functionalities. Integration density is increased. The output is non-volatile and repeatedly readable without refreshing, which reduces the heat evolution. Fast operation: the switching of frequency of magnetic films can be pushed to several GHZ. Low power consumption. Advantages of MR element

  19. Colossal magnetoresistive (CMR) and extraordinary magnetoresistive (EMR) • Under certain conditions, mixed oxides undergo a semiconductor to matallic transition with the application of an external magnetic field.

  20. Hall sensor The Hall voltage is generated by the effect of an external magnetic field acting perpendicularly to the direction of the current.

  21. Hybrid hall effect devices An HHE device is a layered structure composed of an input wire, ferromagnetic element, insulation layers, and a conducting output channel. Can be used as magnetic field sensor, storage cell and logic gates

  22. Magnetic p-n junction

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