Dynamic magnetic information storage or retrieval – General processing of a digital signal – Head amplifier circuit
Reexamination Certificate
2001-10-29
2004-09-28
Faber, Alan T. (Department: 2651)
Dynamic magnetic information storage or retrieval
General processing of a digital signal
Head amplifier circuit
C360S068000, C360S066000, C327S110000
Reexamination Certificate
active
06798591
ABSTRACT:
FIELD OF THE INVENTION
The present invention is generally related to the field of mass media information storage devices, and more particularly to circuits for controlling the write current used to drive a thin film write head.
BACKGROUND OF THE INVENTION
Hard disk drives are mass storage devices that include a magnetic storage media, e.g. rotating disks or platters, a spindle motor, read/write heads, an actuator, a pre-amplifier, a read channel, a write channel, a servo circuit, and control circuitry to control the operation of hard disk drive and to properly interface the hard disk drive to a host system or bus.
FIG. 1
shows an example of a prior art disk drive mass storage system
10
. Disk drive system
10
interfaces with and exchanges data with a host
32
during read and write operations. Disk drive system
10
includes a number of rotating platters
12
mounted on a base
14
. The platters
12
are used to store data that is represented as magnetic transitions on the magnetic platters, with each platter
12
coupleable to a head
16
which transfers data to and from a preamplifier
26
. The preamp
26
is coupled to a synchronously sampled data (SSD) channel
28
comprising a read channel and a write channel, and a control circuit
30
. SSD channel
28
and control circuit
30
are used to process data being read from and written to platters
12
, and to control the various operations of disk drive mass storage system
10
. Host
32
exchanges digital data with control circuit
30
.
Data is stored and retrieved from each side of the magnetic platters
12
by heads
16
which comprise a read head
18
and a write head
20
at the tip thereof. The conventional readhead
18
and writehead
20
comprise magneto-resistive heads adapted to read or write data from/to platters
12
when current is passed through them. Heads
16
are coupled to preamplifier
26
that serves as an interface between read/write heads
18
/
20
of disk/head assembly
10
and SSD channel
28
. The preamp
26
provides amplification to the waveform data signals as needed. A preamp
26
may comprise a single chip containing a reader amplifier
27
, a writer amplifier, fault detection circuitry, and a serial port, for example. Alternatively, the preamp
26
may comprise separate components rather than residing on a single chip.
Particular areas for improvements of write driver current circuits used to drive a thin film head include addressing the inaccuracies of the write current, and providing the ability to change the write currents waveform shape so that customers of these circuits can customize the disk drive performance with many variations of thin film write heads provided by different suppliers. That is, there are several available thin film write heads manufactured in the industry, each having it's own drive characteristics and each interfacing slightly differently to the available write drive circuits. Accordingly, there is desired an improved write driver current circuit which can provide both an accurate selectable write current, and which write current can have parameters selectively customized for optimizing disk drive performance.
SUMMARY OF THE INVENTION
The present invention achieves technical advantages as a write current driver circuit adapted to both selectively establish an amplitude of the write current signal, and which tracks multiple variations including process, supply voltages and temperatures, and in addition can be selectively controlled and programmed to control the amplitude, overshoot amplitude, and overshoot duration.
Preferably, the write current driver circuit includes a write current reference voltage circuit, which is adapted to selectively establish amplitude of the write current. Preferably, the write current reference voltage circuit is adapted to set a DC write current to the write head. A very accurate write current can be established and selectively provided to compensate for variations in process, supply voltages and temperature. The write current reference voltage circuit preferably includes a feedback loop feeding back transistor current to achieve loop stability, and preferably includes a feed forward capacitor adapted to stabilize the feedback loop.
A plurality of transistors are provided to control multiple parameters of the write current. Preferably, a first set of transistors provides a boost current to produce a write current overshoot. A second set of transistors provides a differential write data signal. An overshoot amplitude of the write current is programmable by creating a pulsing signal. Using the original differential write data signal and a programmable delay version of the write data generates this signal. Preferably, the pulsing signal's current amplitude is also programmable by a programmable current source. These transistors are preferably biased with a trickle current to increase transient switching time. Moreover, these trickle currents are compensated for in the write current reference voltage circuit to maintain write current accuracy. Preferably, PMOS transistors are provided to control the boost currents and the differential write data signals.
REFERENCES:
patent: 5331479 (1994-07-01), Madsen
Barnett Raymond Elijah
Ngo Tuan Van
Sorenson Scott Gary
Brady W. James
Faber Alan T.
Swayze, Jr. W. Daniel
Telecky , Jr. Frederick J.
Texas Instruments Incorporated
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