JP2007157209A - Magnetic recording device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a magnetic recording device capable of stablizing a recording/reproduction signal. <P>SOLUTION: A magnetic recording device has a magnetic recording medium, a magnetic head section including a recording head recording information to the magnetic recording medium and a reproducing head reproducing information recorded on the magnetic recording medium, and a support section supporting the magnetic head section relatively movably to the magnetic recording medium, the support section including a flexible flexure, a recording wiring pair connected to the recording head, and a reproduction wiring pair connected to the reproducing head. The recording wiring pair and reproduction wiring pair included in the support section are arranged on the both sides of the flexure respectively. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a magnetic recording apparatus such as a hard disk.

  An example of a hard disk as a magnetic recording apparatus as the background of the present invention will be described. As shown in FIG. 12, the hard disk generally includes a recording medium 1, a spindle motor 2, a head stack assembly 3, a voice coil motor 4, and a circuit unit 5.

  The spindle motor 2 drives the recording medium 1 to rotate. The voice coil motor 4 drives the head stack assembly 3 to move relative to the recording medium 1. The circuit unit 5 performs processing for encoding and decoding information to be recorded / reproduced with respect to the recording medium 1, processing for driving the spindle motor 2 and the voice coil motor 4, and the like.

  As shown in FIG. 13, the head stack assembly 3 includes a flexible substrate portion 31, a reinforcing portion 32, and a suspension body 33. The suspension body 33 further includes a carriage 34, a base plate 35, a load beam. 36.

  The flexible substrate portion 31 is provided with a preamplifier. The preamplifier is electrically connected to the magnetic head and amplifies a signal related to recording / reproduction. On the reinforcement part 32, the flexible substrate part 31 is installed. Further, the flexible substrate portion 31 is installed at a position in contact with the suspension body 33.

  A cross section of the carriage 34 of the suspension body 33 is shown in FIG. As shown in FIG. 14, the carriage 34 is configured by laminating a flexure 41 and a polyimide layer 42. In the polyimide layer 42, both the recording wiring pair 45 and the reproducing wiring pair 46 are provided so as to run in parallel on one side of the flexure 41.

  The base plate 35 is supported by the carriage 34 and supports the load beam 36. A magnetic head H is provided at the tip of the load beam 36. The magnetic head H is connected to a recording wiring pair 45 and a reproducing wiring pair 46.

  The recording wiring pair 45 and the reproduction wiring pair 46 are connected to the preamplifier via the connection pads P provided on the flexible substrate portion 31 side. The connection pads are formed by arranging the electric lines included in the recording wiring pair 45 and the reproducing wiring pair 46 in a substantially single row. The connection terminals on the suspension body 33 side may be formed by solder bumps, or the suspension body 33 itself is bent to expose the recording wiring pair 45 and the reproduction wiring pair 46, so-called flying. It may be based on a lead method. When the connection terminal is in electrical contact with the connection pad on the flexible substrate portion 31 side, the preamplifier and the magnetic head are electrically connected.

  As described above, the wiring connected to the magnetic head H includes the recording wiring pair 45 and the reproduction wiring pair 46. As shown in FIG. 14, at least the wiring pairs included in these wiring pairs are included. The four electric lines 45a, 45b, 46a, 46b are arranged in a line on substantially the same plane.

  Here, in general, the current (recording current) that flows through the recording wiring pair 45 has a larger amount of current than the current (reproducing current) that flows through the reproducing wiring pair 46, and electromagnetic waves induced by the recording wiring pair 45. A so-called crosstalk in which the field affects the current flowing through the reproduction wiring pair 46 may occur. Similarly, crosstalk can occur in the connection terminal T as well.

  Here, at the time of data recording / reproducing, the frequency of the recording current and the reproducing current guided by the wiring pairs 45 and 46 is increased with the recent improvement in data transfer speed. The waveform of the recording current includes an overshoot portion 100 and a steady current portion 101 as shown in FIG. The magnetic head H is magnetized by the overshoot portion 100 to generate a recording magnetic field, and data is written on the recording medium. This overshoot portion 100 rises sharply on the order of several hundred picoseconds.

  Since the stray capacitance and the mutual inductance exist between the recording wiring pair 45 and the reproduction wiring pair 46 and are coupled in a distributed constant manner, the more the change in voltage / current per unit time becomes sharper, the more The talk gets bigger. That is, generally, the preamplifier corresponding to the high frequency increases the crosstalk, and there is a concern about the impact on the reproducing head.

  The recording currents flowing through the recording wiring pairs 45a and 45b are approximately equal in magnitude and are in opposite directions. Therefore, for example, the amount of crosstalk can be reduced as the distance between the terminals corresponding to the recording wiring pairs 45a and 45b at the connection terminal T and the connection pad P is reduced. However, in reality, it is difficult to make the distance between the terminals less than 300 μm because of the processing accuracy of these terminals. For this reason, no matter how the connection terminals T are formed, the amount of reduction in crosstalk is limited.

  The present invention has been made in view of the above circumstances, and can reduce the crosstalk to the reproduction wiring pair 46 due to the electromagnetic field induced by the recording wiring pair 45 and can further stabilize the recording / reproduction signal. An object is to provide a magnetic recording apparatus.

  The present invention for solving the problems of the above conventional example is a magnetic recording apparatus, a magnetic recording medium, a magnetic head unit, a recording head for recording information on the magnetic recording medium, and A magnetic head unit including a reproducing head for reproducing information recorded on the magnetic recording medium, and a support unit that supports the magnetic head unit so as to be relatively movable with respect to the magnetic recording medium; A flexure having a recording wire pair connected to the recording head, and a support portion including a reproduction wiring pair connected to the reproduction head, and the recording wiring pair included in the support portion and the reproduction wiring pair. Are arranged on the front and back of the flexure, respectively.

  Embodiments of the present invention will be described with reference to the drawings. As shown in FIG. 1, the magnetic recording apparatus according to the embodiment of the present invention includes a recording medium 1, a spindle motor 2, a head stack assembly 6, a voice coil motor 4, and a circuit unit 5. Has been.

  The spindle motor 2 drives the recording medium 1 to rotate. The voice coil motor 4 drives the head stack assembly 3 to move relative to the recording medium 1. The circuit unit 5 performs processing for encoding and decoding information to be recorded / reproduced with respect to the recording medium 1, processing for driving the spindle motor 2 and the voice coil motor 4, and the like. Note that portions having the same configuration as that of the related general hard disk device shown in FIG.

  As shown in FIG. 2, the head stack assembly 6 according to the embodiment of the present invention includes a flexible substrate portion 31, a reinforcing portion 32, and a suspension body 60 as a support portion. Includes a carriage 61, a base plate 62, and a load beam 63.

  Here, a preamplifier is mounted on the flexible substrate portion 31. The flexible substrate portion 31 is reinforced by attaching the reinforcing portion 32 to the back side of the circuit mounting surface, and is disposed at a position in contact with the suspension body 60.

  FIG. 3 shows a cross section of the carriage 61 of the suspension body 60 in the present embodiment. FIG. 3 is a cross-sectional view of the carriage 61 taken along the line AA shown in FIG. As shown in FIG. 3, the carriage 61 includes a flexure 71 formed of a conductor and a polyimide layer 72 as a flexible member. The polyimide layer 72 is first laminated on the flexure 71. In addition, a recording wiring pair 75 and a reproducing wiring pair 76 are formed on the polyimide layer 72. The carriage 61 is bent in a U shape with a crease between the recording wiring pair 75 and the reproducing wiring pair 76 included in the polyimide layer 72, and the recording wiring pair 75 and the reproducing wiring pair 75 are arranged on the front and back of the flexure 71. The wiring pairs 76 are bonded so as to be arranged.

  At this time, the center positions Ca and Cb of the respective wirings 75a and 75b included in the recording wiring pair 75 are within the range R defined by the respective centers of the respective wirings 76a and 76b included in the reproduction wiring pair 76. Bend to include. Alternatively, it is bent so that the center position between the wirings 75a and 75b included in the recording wiring pair 75 and the center position between the wirings 76a and 76b included in the reproduction wiring pair 76 substantially coincide.

  With this arrangement, for example, when the recording wire pair 75 is driven in the common mode, the magnetic field induced by the recording wires 75a and 75b is relative to the center position between the wires 75a and 75b. The flexure 71 is symmetrical in the width direction. Therefore, the potentials induced in the reproduction wirings 76a and 76b are substantially the same potential, so that no potential difference is generated due to the potential induction, and the occurrence of crosstalk is suppressed.

  On the other hand, when the recording wiring pair 75 is driven in the differential mode, the electric field generated by the signals flowing through the recording wirings 75a and 75b is induced in the reproducing wirings 76a and b, unlike in the common mode. However, the flexure 71, which is a conductor, acts as a shield to reduce the potential induced in each of the reproduction wirings 76a and 76b, thereby suppressing the occurrence of crosstalk.

  The section in which the recording wiring pair 75 and the reproduction wiring pair 76 are separately arranged on the front and back sides of the flexure 71 in this way is not the entire area from the connection pad T on the flexible substrate portion 31 side to the magnetic head, but the connection. A so-called parallel running main part from the pad T to the base of the load beam 63 may be used.

  Next, when the flexible member in which the wiring pairs 75 and 76 are formed in this way is bent and attached to the front and back of the flexure 71, the connection pads of the recording wiring pair 75 and the reproducing wiring pair 76 are connected to the flexure. 71 are arranged separately with respect to each other. Therefore, in this case, as shown in FIG. 4, the end of each wiring 75 a, b, 76 a, b on the preamplifier side is led to one end of the flexure 71. Then, at one end of the flexure, the wires 75 a and 75 b of the recording wire pair 75 are arranged on one surface side of the flexure 71 with a substantially constant interval in the longitudinal direction of the flexure 71. On the surface side, the respective wirings 76a and 76b of the reproduction wiring pair 76 are arranged at positions that do not overlap these.

  In the flexible board 31, circuit wiring is formed from a preamplifier mounted on the flexible board 31 to a planned contact position of each wiring 75 a, b, 76 a, b provided on the flexure 71 of the carriage 61.

  When the head stack assembly 6 is manufactured in the present embodiment, the carriage 61 and the flexible substrate portion 31 are arranged so that the corresponding wirings 75 a, b, 76 a, and b come into contact with the respective planned contact positions on the flexible substrate portion 31. Fix the relative position with and fix. In order to facilitate this relative alignment, the flexible substrate portion 31 may be formed with a notch having a width corresponding to the thickness of the carriage 61 as shown in FIG. The depth (D) of the notch is adjusted so that when the carriage 61 is inserted, the wirings 75a, b, 76a, b corresponding to the respective contact positions on the flexible substrate portion 31 come into contact with each other. In addition, when making this incision, the reinforcing portion 32 is formed to be smaller than the flexible substrate portion 31 by several hundred microns so as not to cause an unnecessary short circuit with the suspension 60.

  In this way, the connection pads of the recording wiring pair 75 and the connection pads of the reproduction wiring pair 76 are installed on the front and back of the flexure 71, respectively, so that the flexure 71 as a conductor functions as a shield, and crosstalk occurs. Can be suppressed.

  In the above description, the flexible members on which the wiring pairs 75 and 76 are formed are bent and wound around the flexure 71 so that the wiring pairs 75 and 76 are arranged on the front and back sides of the flexure 71, respectively. However, the present embodiment is not limited to this.

  For example, another example of a cross section of the carriage 61 of the suspension body 60 in the present embodiment is shown in FIG. As shown in FIG. 6, a polyimide layer as a flexible member in which the recording wiring pair 75 is formed, a flexure 71, and a polyimide layer as a flexible member in which the reproduction wiring pair 76 is formed are laminated in this order. It may be arranged.

  In this way, the recording wiring pair 75 and the reproduction wiring pair 76 are formed in separate layers, and the respective layers in which the recording wiring pair 75 and the reproduction wiring pair 76 are formed are arranged on the front and back of the flexure 71, respectively. Thus, the flexure 71, which is a conductor, can function as a shield, and the occurrence of crosstalk can be suppressed. Also in this case, the respective center positions of the respective wirings 75a and 75b included in the reproduction wiring pair 75 are within a range defined by the respective centers of the respective wirings 76a and 76b included in the reproduction wiring pair 76. It is good also as arrange | positioning the wiring pair in each layer so that it may be included. Alternatively, the center position between the wiring lines 75a and 75b included in the recording wiring pair 75 and the center position between the wiring lines 76a and 76b included in the reproduction wiring pair 76 substantially coincide with each other. A wiring pair may be arranged. With this arrangement, crosstalk when the recording wiring pair 75 is driven in the common mode can be reduced.

  Further, an intermediate layer 77 made of copper or a material having higher conductivity may be formed between the member in which the respective wiring pairs 75 and 76 are formed and the flexure 71 (FIG. 7). Due to the shielding effect of the intermediate layer 77, crosstalk induced in the reproduction wiring pair 76 can be further reduced.

  Further, in recent years, a heater is provided in the magnetic head H, and the heating amount of the heater is controlled from the preamplifier side. In this case, in addition to the recording wiring pair 75 and the reproduction wiring pair 76 already described, a heater wiring pair 78 is provided in parallel. In this case, the heater wires 78a and 78b may be arranged at positions facing each other across the flexure 71 as shown in FIG. By doing so, the weight balance of both surfaces of the flexure 71 becomes substantially uniform. Here, the positions of the heater wirings 78a and 78b with respect to the recording wiring pair 75 and the reproduction wiring pair 76 may be farther from the bending position than the arrangement positions of these wiring pairs 75 and 76 (FIG. 8). However, it may be at the center position of each wiring pair 75,76.

  Further, as shown in FIG. 9, the heater wiring pair 78 may be disposed on the same surface side as the regeneration wiring pair 76 with respect to the flexure 71. As a result, the crosstalk caused by the signal flowing through the recording wiring pair 75 to the signal flowing through the heater wiring pair 78 can be reduced.

  Furthermore, the heater wiring pair 78 may be arranged on the same surface side as the recording wiring pair 75 with respect to the flexure 71.

  Here, an example is shown in which the heater is driven by a signal transmitted by two signal lines (an example of a differential drive system), but a heater transmitted by a signal transmitted by one signal line, such as a single-end drive system. 10, the heater wiring 79 may be disposed on the same surface side as the regeneration wiring pair 76 with respect to the flexure 71, as shown in FIG. 10. As a result, the crosstalk caused by the signal flowing through the recording wiring pair 75 to the signal flowing through the heater wiring 79 can be reduced.

  Further, the heater wiring 79 may be arranged on the same surface side as the recording wiring pair 75 with respect to the flexure 71.

  Furthermore, in the above description, when the flexure 71 is bent, the flexure 71 may be bent with copper or a conductor 81 having a higher conductivity interposed therebetween, and the flexure 71 may contain the conductor 81 ( FIG. 11). Thereby, the shielding effect of the flexure 71 can be improved, and crosstalk can be further reduced. The conductor 81 may be flexible and maintain the leaf spring characteristics of the suspension body 33.

  The magnetic recording apparatus of the present embodiment is connected to a host computer and operates in response to an instruction from the host computer. For example, when data recording is instructed from the host computer, the data to be recorded is encoded in the circuit unit 5 and the magnetic head H is moved to the recording position on the recording medium. The voice coil motor 4 is driven.

  Then, data to be recorded (encoded data) is output to the head stack assembly 6, and a signal corresponding to the encoded data is amplified in the preamplifier of the head stack assembly 6, and the recording wiring pair It is sent to the magnetic head H via 75.

  When data reproduction is instructed from the host computer, the voice coil motor 4 is driven so as to move the magnetic head H to the position where the data to be reproduced on the recording medium is stored by the circuit unit 5. The signal read by the reproducing head of the magnetic head H arrives at the preamplifier via the reproducing wiring pair 76. In the preamplifier, the signal transmitted by the reproduction wiring pair 76 is amplified and output to the circuit unit 5, and the circuit unit 5 decodes the data from the signal and outputs it to the host computer.

  Here, a current that changes sharply in the recording wiring pair 75 is caused to flow in the differential mode, and a magnetic field generated by the current flowing through the recording wiring pair 75 is caused by the flexure 71 disposed between the reproducing wiring pair 76. Shielded, crosstalk to the reproduction wiring pair 76 can be reduced, and the recording / reproduction signal can be further stabilized.

It is a block diagram showing the example of a structure of the magnetic-recording apparatus based on embodiment of this invention. It is a schematic diagram showing the example of the head stack assembly concerning an embodiment of the invention. It is sectional drawing of the carriage which concerns on embodiment of this invention. It is a schematic diagram showing the example of the connection terminal by the side of the carriage which concerns on embodiment of this invention. It is a schematic diagram showing the example of the terminal by the side of the preamplifier of the head stack assembly which concerns on embodiment of this invention. It is sectional drawing showing another example of the carriage which concerns on embodiment of this invention. It is sectional drawing showing another example of the carriage which concerns on embodiment of this invention. It is sectional drawing showing another example of the carriage which concerns on embodiment of this invention. It is sectional drawing showing another example of the carriage which concerns on embodiment of this invention. It is sectional drawing showing another example of the carriage which concerns on embodiment of this invention. It is sectional drawing showing another example of the carriage which concerns on embodiment of this invention. It is a block diagram showing the structural example of a general magnetic recording device. It is a schematic diagram showing the example of a general head stack assembly. It is sectional drawing showing another example of a general carriage. It is explanatory drawing showing the example of the change of a write current.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 Recording medium, 2 Spindle motor, 3, 6 Head stack assembly, 4 Voice coil motor, 5 Circuit part, 31 Flexible board part, 32 Reinforcement part, 33,60 Suspension body, 34,61 Carriage, 35,62 Base plate, 36 , 63 Load beam, 41, 71 Flexure, 42, 72 Polyimide layer, 45, 75 Recording wiring pair, 46, 76 Playback wiring pair, 77 Intermediate layer, 78 Heating wiring pair, 79 Heating wiring, 81 Conductor.

Claims (7)

A magnetic recording medium;
A magnetic head unit including a recording head for recording information on the magnetic recording medium, and a reproducing head for reproducing information recorded on the magnetic recording medium;
A support unit that supports the magnetic head unit so as to be relatively movable with respect to the magnetic recording medium, and is connected to the flexure having flexibility, a recording wiring pair connected to the recording head, and the reproducing head. A support portion including a regenerative wiring pair;
Have
2. A magnetic recording apparatus according to claim 1, wherein a recording wiring pair and a reproduction wiring pair included in the support portion are respectively arranged on the front and back of the flexure. The magnetic recording apparatus according to claim 1,
The recording wiring pair and the reproduction wiring pair in the support portion are formed on a flexible member, and the flexible member is arranged in a state of being wound over the front and back of the flexure, and the recording wiring pair and the reproduction wiring pair are reproduced. A magnetic recording apparatus, wherein wiring pairs are respectively arranged on the front and back of the flexure. The magnetic recording apparatus according to claim 1,
The recording wiring pair and the reproduction wiring pair in the support part are each formed on an individual member,
Each member formed with the recording wiring pair and the reproduction wiring pair is respectively arranged on the front and back of the flexure, and the recording wiring pair and the reproduction wiring pair are respectively arranged on the front and back of the flexure. Magnetic recording device. The magnetic recording apparatus according to claim 1,
The magnetic head unit further includes a heater,
The magnetic recording apparatus according to claim 1, wherein the support part includes a heater wiring connected to a heater of the magnetic head part, and the heater wiring is arranged on either the front or back of the flexure. The magnetic recording apparatus according to claim 4,
The magnetic recording apparatus according to claim 1, wherein the heater wiring of the support portion is arranged on a side where the reproduction wiring pair is arranged on the front and back of the flexure. The magnetic recording apparatus according to claim 1,
A magnetic recording apparatus, wherein a conductor is included in the support portion. The magnetic recording apparatus according to claim 1,
Magnetic recording, wherein a terminal on the end side different from the magnetic head of the recording wiring pair and the reproducing wiring pair of the support portion is provided on a surface side of each of the flexures on the front and back sides. apparatus.

Images