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![[Write amplifier circuit schematic]](large/page_23a.gif)
When data is recorded on the disk, a " 1 " bit is represented on the disk by a change in direction of magnetic flux, caused by a change in direction of current passed through the R/W coil in the R/W head. When a "0" bit is to be recorded, no change in current flow direction occurs, causing the direction of the magnetic flux to remain the same on the disk.
![[R/W Head]](large/page_23b.gif)
When data is being read from the disk, CEMF is induced into the R/W coil by the magnetic fields on the disk, causing current flow which is detected by the read amplifiers. Current flow through the R/W coil will forward bias either CR6 or CR11, depending on the direction. Q3 and CR9 must be forward biased. The first amplifier, UH7, senses this current flow from the R/W coil on one of the inputs and amplifies it. L8, L9, L10, L11, and C1 6 act as a low pass filter, suppressing noise on the amplified output. UH5 is a differential amplifier which amplifies the difference of the two input signals from the filter section. UH4 is a peak detector. The output of UH4 will pulse "high" when a "1" is read. This signal is the reconstruction of data recorded. The time domain filter, UG3 times out when a "1" bit has been read, so unwanted "1" bits are not added to the actual data. The one shot, UG3 generates the correct data pulse width so the read/write logic circuits can convert it to parallel for processor control.
| This page has been created by Sami Rautiainen. | |
| Read the small print. | Last updated December 08, 1998. |