Composite writer shield for improving writer performance
First Claim
1. An upper write shield section of a PMR write head having a yoke/main pole layer stack in a top yoke or bottom yoke configuration with a pole tip at an air bearing surface (ABS), a first shield formed on the yoke/main pole layer stack along the ABS and at a back end region, and a second shield formed on the first shield along the ABS and at the back end region, comprising:
- (a) a first layer made of a material optimized for either magnetic or mechanical performance that is formed on the second shield at the ABS and in said back end region, the first layer extends from the ABS to the back end region and is magnetically connected to the main pole through the first and second shields at the back end region; and
(b) a second layer disposed on the first layer and optimized for a different performance than said first layer, said second layer is optimized for mechanical performance when the first layer is optimized for magnetic performance and said second layer is optimized for magnetic performance when said first layer is optimized for mechanical performance, the second layer extends from the ABS to the back end region and is magnetically connected to the main pole at the back end region.
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Accused Products
Abstract
A PMR writer in a read/write head is disclosed wherein an upper shield covering the coil layer is comprised of a magnetic layer optimized for magnetic performance and a second layer used for tuning mechanical protrusion. The composite layer simultaneously provides high saturation magnetization and high permeability from the magnetic layer and low CTE from the second layer which tunes the relative spacing between the writer, reader, and the rest of the slider. In one embodiment, first and second write shields are formed on a write gap layer and have front portions at the ABS and back portions in a back gap region. The upper write shield connects on one side with the second write shield at the ABS and on a second side with the back gap region. This design can yield better reader and writer spacing for the same physical clearance which enables products with higher recording density.
33 Citations
11 Claims
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1. An upper write shield section of a PMR write head having a yoke/main pole layer stack in a top yoke or bottom yoke configuration with a pole tip at an air bearing surface (ABS), a first shield formed on the yoke/main pole layer stack along the ABS and at a back end region, and a second shield formed on the first shield along the ABS and at the back end region, comprising:
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(a) a first layer made of a material optimized for either magnetic or mechanical performance that is formed on the second shield at the ABS and in said back end region, the first layer extends from the ABS to the back end region and is magnetically connected to the main pole through the first and second shields at the back end region; and (b) a second layer disposed on the first layer and optimized for a different performance than said first layer, said second layer is optimized for mechanical performance when the first layer is optimized for magnetic performance and said second layer is optimized for magnetic performance when said first layer is optimized for mechanical performance, the second layer extends from the ABS to the back end region and is magnetically connected to the main pole at the back end region. - View Dependent Claims (2, 3, 4, 5)
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6. A PMR write head formed on a substrate, comprising:
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(a) a yoke/main pole layer stack formed on the substrate in a top yoke or bottom yoke configuration wherein the main pole layer terminates in a pole tip at an ABS; (b) a write gap layer formed on the yoke/main pole layer stack except over a connection area in a back end region of the yoke/main pole layer stack; (c) a first write shield formed on the write gap layer at the ABS and on the yoke/main pole layer stack in the connection area in said back end region; (d) a second write shield formed on the first write shield above the connection area and at the ABS, said first write shield and second write shield form a back gap on the connection area; (e) one or more insulation layers formed on the write gap layer between the back gap and the first and second write shields along the ABS; (f) a coil layer with a plurality of turns formed in the one or more insulation layers; and (g) a third write shield having a composite structure that is disposed on the one or more insulation layers and adjoins the second write shield at the ABS and the back gap above the connection area, said composite structure includes a lower magnetic layer with a first thickness, high saturation magnetization and high permeability, and an upper layer having a second thickness and low coefficient of thermal expansion, both of the lower magnetic layer and upper layer extend from the ABS to the back gap and are magnetically connected to the main pole through the back gap. - View Dependent Claims (7, 8, 9, 10, 11)
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Specification