Magnetic head drive circuit

Abstract

A recording head drive circuit drives a recording head that records information on a magnetic recording medium. A switching circuit is a H-bridge circuit which includes a plurality of transistors. The switching circuit switches direction of a write current (Iw) flowing in the recording head, in accordance with a conduction state of each transistor. A write current controller controls the write current (Iw) in the recording head. An overshoot control circuit adds an overshoot current (Ios), proportional to the write current (Iw), to the write current (Iw) flowing in the recording head, in a predetermined overshoot time period.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

Embodiments will now be described, by way of example only, with reference to the accompanying drawings which are meant to be exemplary, not limiting, and wherein like elements are numbered alike in several Figures, in which:

FIG. 1 is a circuit diagram showing a configuration of a magnetic recording and reproducing apparatus according to a first embodiment;

FIG. 2 is a circuit diagram showing a configuration of a recording head drive circuit according to the first embodiment;

FIG. 3 is an operating waveform diagram of the recording head drive circuit of FIG. 2, when overshoot control is not performed;

FIG. 4 is an operating waveform diagram of the recording head drive circuit of FIG. 2, when overshoot control has been performed;

FIG. 5 is a circuit diagram showing a modified example of a switching circuit of the recording head drive circuit of FIG. 2;

FIG. 6 is a circuit diagram showing part of a configuration of a recording head drive circuit according to a second embodiment;

FIG. 7 is a circuit diagram showing a configuration example of a clamp circuit;

FIG. 8 is an operating waveform diagram of the recording head drive circuit of FIG. 6;

FIG. 9 is a circuit diagram showing a configuration of a recording head drive circuit according to a third embodiment;

FIG. 10 is a circuit diagram showing a configuration example of a pull-up circuit;

FIG. 11 is a circuit diagram showing another configuration example of a first pull-up circuit (or a second pull-up circuit);

FIG. 12 is an operating waveform diagram of the recording head drive circuit of FIG. 9; and

FIG. 13 is a circuit diagram showing a configuration of a recording head drive circuit according to a fourth embodiment.

Claims

1. A magnetic head drive circuit which drives a magnetic head that records information on a magnetic recording medium, the magnetic head drive circuit comprising: a switching circuit which includes a plurality of transistors and which switches direction of a write current flowing in the magnetic head according to a conduction state of each transistor;a write current controller which controls current value of the write current flowing in the magnetic head; andan overshoot control circuit which adds an overshoot current to the write current flowing in the magnetic head, according to the write current, during a predetermined overshoot time period.

2. A magnetic head drive circuit according to claim 1, wherein the overshoot control circuit adds an overshoot current proportional to the write current.

3. A magnetic head drive circuit according to claim 2, wherein the switching circuit comprises: a first high-side switching transistor arranged on a path supplying current to a first terminal of the magnetic head;a first write current control transistor and a first low-side switching transistor arranged in series on a path which draws out current from the first terminal of the magnetic head;a second high-side switching transistor arranged on a path supplying current to a second terminal of the magnetic head; anda second write current control transistor and a second low-side switching transistor arranged in series on a path which draws out current from the second terminal of the magnetic head; the overshoot control circuit comprises:a first overshoot current control transistor and a first overshoot switching transistor arranged on a path parallel to the path on which the first write current control transistor and the first low-side switching transistor are arranged; anda second overshoot current control transistor and a second overshoot switching transistor arranged on a path parallel to the path on which the second write current control transistor and the second low-side switching transistor are arranged; whereinthe switching circuit switches direction of the write current in accordance with ON-OFF states of the first and second high-side switching transistors and the first and second low-side switching transistors;control terminals of the first and second write current control transistors and the first and second overshoot current control transistors are commonly connected, and the write current controller controls electrical potential of the control terminals that are commonly connected; andthe overshoot control circuit switches ON either of the first and second overshoot switching transistors during the predetermined overshoot time period.

4. A magnetic head drive circuit according to claim 3, wherein the switching circuit further comprises: a first diode and a first resistor arranged on a path from the first high-side switching transistor to a first terminal of the magnetic head; anda second diode and a second resistor arranged on a path from the second high-side switching transistor to a second terminal of the magnetic head.

5. A magnetic head drive circuit according to claim 3, wherein the first and the second high-side switching transistors, the first and the second write current control transistors, and the first and the second overshoot current control transistors are bipolar transistors, and the first and the second low-side switching transistors and the first and the second overshoot switching transistors are field-effect transistors.

6. A magnetic head drive circuit according to claim 1, further comprising a clamp circuit which clamps voltage across two terminals of the magnetic head so that the voltage does not drop below a predetermined clamp voltage.

7. A magnetic head drive circuit according to claim 6, wherein the clamp circuit changes the predetermined clamp voltage according to the write current.

8. A magnetic head drive circuit according to claim 7, wherein the clamp circuit sets the predetermined clamp voltage low, as the write current increases.

9. A magnetic head drive circuit according to claim 6, wherein the clamp circuit comprises a bipolar transistor connected to one terminal of the magnetic head that is a target for clamping by an emitter, and adjusts the clamp voltage by controlling voltage applied to a base of the bipolar transistor.

10. A magnetic head drive circuit according to claim 1, wherein the magnetic head drive circuit is integrated on one semiconductor substrate.

11. A magnetic recording and reproducing apparatus comprising the magnetic head drive circuit according to claim 1.

12. A magnetic head drive circuit which drives a magnetic head that records information on a magnetic recording medium, the magnetic head drive circuit comprising: a switching circuit which includes a plurality of transistors and which switches direction of a write current flowing in the magnetic head according to a conduction state of each transistor;a write current controller which controls the write current flowing in the magnetic head;an overshoot control circuit which adds an overshoot current, according to the write current, to the write current flowing in the magnetic head, during a predetermined overshoot time period in which the direction of the write current flowing in the magnetic head changes; anda pull-up circuit which independently pulls up, to a predetermined pull-up level, voltage across two terminals of the magnetic head, during the overshoot time period.

13. A magnetic head drive circuit according to claim 12, wherein, with the two terminals of the magnetic head as a first terminal and a second terminal, and with direction of flow of the write current flowing in the magnetic head from the first terminal to the second terminal being a first direction, and direction of flow from the second terminal to the first terminal being a second direction, the pull-up circuit pulls up voltage of the first terminal when the write current switches from the first direction to the second direction, and pulls up voltage of the second terminal when the write current switches from the second direction to the first direction.

14. A magnetic head drive circuit according to claim 12, wherein the pull-up circuit changes the predetermined pull-up level in accordance with an overshoot amount of the write current.

15. A magnetic head drive circuit according to claim 13, wherein the pull-up circuit comprises: a first pull-up circuit which includes a first switch and a first resistance component arranged in series on a path from a power supply voltage terminal to the first terminal of the magnetic head, and which pulls up voltage of the first terminal; anda second pull-up circuit which includes a second switch and a second resistance component arranged in series on a path from the power supply voltage terminal to the second terminal of the magnetic head;and wherein either of the first switch and the second switch is put ON during the overshoot time period.

16. A magnetic head drive circuit according to claim 15, wherein a voltage drop across the first resistance component and the first switch is set at a value at which, among a plurality of transistors that make up the switching circuit, a transistor arranged on a path supplying current to the first terminal of the magnetic head is not completely OFF, anda voltage drop across the second resistance component and the second switch is set at a value at which, among a plurality of transistors that make up the switching circuit, a transistor arranged on a path supplying current to the second terminal of the magnetic head is not completely OFF.

17. A magnetic head drive circuit according to claim 15, wherein each of the first and the second pull-up circuits comprises: a control transistor functioning as a switch; anda plurality of adjustment transistors connected in series to the control transistor, and connected in parallel to each other; andchanges the pull-up level according to any of the plurality of adjustment transistors being ON.

18. A magnetic head drive circuit according to claim 17, wherein the control transistor and the plurality of adjustment transistors are field-effect transistors.

19. A magnetic head drive circuit according to claim 12, wherein the magnetic head drive circuit is integrated on one semiconductor substrate.

20. A magnetic recording and reproducing apparatus comprising the magnetic head drive circuit according to claim 12.