JP4063408B2 - Magnetic disk unit - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a system for electrically connecting a magnetic head, a recording / reproducing circuit, and a host control circuit thereof in an apparatus for performing magnetic recording / reproducing using a rotating disk-shaped magnetic recording medium, and a mounting form of the recording / reproducing circuit. .
[0002]
[Prior art]
In a magnetic disk drive, since a plurality of magnetic heads move simultaneously on the surfaces of a plurality of disk-shaped magnetic recording media arranged at almost constant intervals, the magnetic head is rotated in a comb shape called a head stack assembly or a carriage. It is mounted on the tip of a moving body or a parallel moving body (hereinafter referred to as a carriage). The electric signal reproduced from the magnetic head and the electric signal sent to the magnetic head for recording are amplified by a signal line mounted (wired) near the surface of the carriage. A circuit, a circuit for transmitting an electric signal to be recorded to the magnetic head, and a circuit for controlling the states of the plurality of magnetic heads (hereinafter, these three circuits are referred to as recording / reproducing circuits) are respectively connected.
[0003]
Most of the storage capacity of the magnetic disk device depends on how many disk-shaped magnetic recording media and heads are packed within the given height of the magnetic disk device, so the thickness of the comb portion of the carriage is thin. Since it is not easy to lay out a large number of signal lines on the side of the comb of the carriage, for example, as shown in Japanese Patent Application Laid-Open No. 7-244802, a device for reducing the number of signal lines is made. ing.
[0004]
FIG. 2 shows an example of mounting in a conventional configuration. The magnetic head 1 includes a suspension 3 attached to the tip of a comb portion of the carriage 2 (in FIG. 2, the portion of the carriage 2 excluding the portion where the recording / reproducing circuit 5 is mounted and having a comb shape). At the tip, one is mounted on the uppermost and lowermost combs, and the other two are mounted on the top and bottom. The recording / reproducing circuit 5 is mounted on the side surface of the carriage 2 in the form of an IC.
[0005]
Here, except for the uppermost and lowermost comb portions, the surface of the side portion of the comb portion of the carriage 2 is connected to four magnetic heads each having two upper and lower magnetic heads (which will be described later, differential signals are used). Then, it is mounted by using the FPC 4 in which a total of eight signal lines are patterned) (two reproduction signal signal lines and two recording signal signal lines). Signal lines between the recording / reproducing circuit 5 and the upper control circuit are connected via the FPC 6, and the upper control circuit is mounted on a circuit board connected by the connector 7.
[0006]
Here, the signal lines passing through the FPC 6 will be described in detail later. As a result, the reproduction signal (2 lines), the recording signal (2 lines), the control signal (1 line) of the amount of current passed to the reproduction head, the recording line are recorded. A control signal for the amount of current flowing through the head (one), a signal for notifying the host control circuit of an abnormal state of the magnetic recording operation (one), and a selection control signal for selecting one of a plurality of heads (in FIG. 2) Since there are 10 magnetic heads, 4 in binary display), a signal for selecting whether to perform recording or reproduction (1), a power supply VCC (1) for moving the recording / reproducing circuit itself, VEE (1) and ground (1) in total. However, since the FPC 6 can use a width corresponding to the height of the carriage 2, it is easy to pass this signal line.
[0007]
[Problems to be solved by the invention]
In order to increase the transfer speed of magnetic recording / reproducing, it is natural to improve the frequency characteristics of the magnetic head and the recording / reproducing circuit. However, the frequency characteristic depends on the impedance of the signal line connecting the magnetic head and the recording / reproducing circuit. The decline of can not be ignored. Therefore, in order to realize a high transfer rate, it is necessary to mount the recording / reproducing circuit as close to the magnetic head as possible.
[0008]
On the other hand, it is necessary to reduce the weight of the carriage as much as possible from the viewpoint of performing high-speed positioning control. For this reason, the current magnetic disk unit has a high priority for high-speed positioning due to the emphasis of each design. When the recording / reproducing circuit is mounted on a non-movable part behind the carriage, high-speed transfer speed is important. Has a recording / reproducing circuit mounted in the center of the carriage.
[0009]
When mounted on a non-movable part behind the carriage (for example, in the vicinity of a fixed connector) or mounted at the center of the carriage, the recording / reproducing circuit includes circuits corresponding to a plurality of magnetic heads. It can be configured on one integrated circuit.
[0010]
A signal line for transmitting a reproduction signal and a signal line for transmitting a recording signal may be connected from the recording / reproducing circuit to each magnetic head. If each of them is a differential (balanced) signal, a total of four signal lines are obtained. If each of them is an unbalanced signal, a total of two or three signal lines including a signal indicating a common potential are obtained. Alternatively, both the reproduction signal and the recording signal can be used together. In the following description, a case of a practical differential (balanced) signal will be described as an example.
[0011]
On the other hand, the signal connection with the upper control circuit which is the other side of the recording / reproducing circuit requires at least a large number of signals described below. That is, a reproduction signal (2 lines), a recording signal (2 lines), a control signal (1 line) of the current flowing through the reproduction head, a control signal (1 line) of the current flowing through the recording head, and a recording operation of magnetic recording A signal (one) for notifying the host control circuit of an abnormal state, and a selection control signal for selecting one of a plurality of heads (usually this is expressed in binary, so for example, a circuit to which eight magnetic heads are connected) 3), a signal (1) for selecting whether to perform recording or reproduction, power supply for moving the recording / reproducing circuit itself (1 or 2 depending on the number of power supplies) and ground (common potential) (1 Book). The total is 13 when controlling 8 heads and operating with one power source.
[0012]
When the recording / reproducing circuit has an electrical storage circuit (a circuit used for magnetic head selection, MR head sense current adjustment, etc.) using a register or the like, a data signal and a clock signal for the storage and readout A signal that enables storage or reading is required.
[0013]
However, in order to realize a higher transfer speed exceeding 200 Mbps, the recording / reproducing circuit must be further mounted near the magnetic head. As a result, the mounting position must be moved from the center of the carriage to the tip of the carriage in the vicinity of the magnetic head, so that at least as many recording / reproducing circuits as the number of combs on the carriage are required (for example, two heads per comb). If one recording / reproducing circuit is provided for each head when two recording / reproducing circuits are provided, two recording / reproducing circuits are required for each comb) and cannot be integrated in one place.
[0014]
The problem here is the number of signal lines that must be passed through the comb portion of the carriage. In the current configuration, as described above, since the signals between the magnetic head and the recording / reproducing circuit pass through the comb portion of the carriage, a total of two, three, or four (4 in the case of using a differential signal). As described above, it is a book. In the case where a total of two magnetic heads are mounted on the top and bottom of one comb, the number is twice that number, and the maximum is eight. When the recording / reproducing circuit is mounted on the leading end of the carriage, the signal line between the recording / reproducing circuit and its upper control circuit passes through the comb portion of the carriage. There must be.
[0015]
In addition, since the magnetic disk device has a restriction that the storage capacity of the entire device must be increased and the height of the entire device must be reduced, the interval between the disk-shaped storage media is very small. In the current magnetic disk apparatus, the interval between the storage media is 2 mm or less, and the thickness of the comb portion of the carriage is 1 mm or less.
[0016]
It is required to use a necessary number of very thin wires to pass, for example, thirteen electric signal lines to the comb portion of the carriage of 1 mm or less, and connect one to the magnetic head and the other to the upper control circuit. In addition, because it is necessary to use printed wiring called multilayer wiring called FPC, the cost of these components themselves increases and the number of connections in the connection work at both ends of the wiring increases. There is a problem that productivity is lowered and the area of the terminal of the connection portion is large due to the large number of connections, and the entire carriage cannot be made small and light.
[0017]
[Means for Solving the Problems]
In order to solve the above problems, the present invention mainly adopts the following configuration.
[0018]
In a magnetic disk device for magnetically recording / reproducing data using a plurality of rotating disk-shaped magnetic recording media and a plurality of magnetic heads facing the recording media,
The magnetic head is provided at the tip of a carriage having a comb shape for interposing the recording medium,
Circuitry for processing the reproduced signal from the magnetic head, a circuit for transmitting a recording signal to the magnetic head, a circuit for controlling the state of the magnetic head, a recording and reproducing circuit having a provided,
The recording / reproducing circuit is controlled by being connected to a host control circuit,
Of the signal lines in the comb-shaped portion of the carriage that connects the host control circuit and the recording / reproducing circuit, the reproducing signal from the magnetic head, the recording signal to the magnetic head, and the control signal to the magnetic head or recording / reproducing circuit Is a magnetic disk device that uses the same signal line.
[0019]
Further, in a magnetic disk apparatus for magnetically recording and reproducing data using a plurality of rotating disk-shaped magnetic recording media and a plurality of magnetic heads facing the recording medium,
The magnetic head is provided at the tip of a carriage having a comb shape for interposing the recording medium,
Circuitry for processing the reproduced signal from the magnetic head, a circuit for transmitting a recording signal to the magnetic head, a circuit for controlling the state of the magnetic head, a recording and reproducing circuit having a provided,
The recording / reproducing circuit is controlled by being connected to a host control circuit,
Signal lines in a comb-shaped portion of the carriage that connects the recording and reproducing circuit and the host control circuit, except for the connection to provide power and ground, Ri the number of signal lines 4 der,
The first signal line is used as a reproduction signal (+), a recording signal (+), and a recording / reproducing operation switching signal for magnetic recording, and the second signal line is used as a reproduction signal (−) and a recording signal (− ), Used as an enable signal for storage or reading of the electrical storage circuit, and the third signal line is used as a data signal for the electrical storage circuit (command signal to the register), an abnormality notification signal for the recording operation of magnetic recording, A fourth signal line is a magnetic disk device used as a clock signal (dedicated line for a clock signal) of an electrical storage circuit .
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to FIGS. FIG. 1 shows an example of mounting a recording / reproducing circuit on a carriage according to an embodiment of the present invention. FIG. 3 shows setting of the operation mode in the signal mode of the signal line A and the signal line B between the recording / reproducing circuit and the host controller. FIG. 4 shows signal forms in the respective operation modes in the signal lines A, B, C, and D. FIG. 5 shows a circuit configuration for realizing switching between a reproduction signal, a recording signal, and a data signal of an electrical storage circuit.
[0021]
In this case, 1 is a magnetic head, 2 is a carriage, 3 is a suspension, 4 is an FPC, 5 is a recording / reproducing circuit, 6 is an FPC, 7 is a connector, 8 is a signal line A, 9 is a signal line B, and 10 is a signal line. C and 11 are signal lines D, 12 is a clamp circuit, 13 is an emitter follower, 14 is a reproduction amplifier, 15 is a recording amplifier, 16 is a bias potential, 17 is a comparator, 18 is a comparator, 19 is a comparator, 19 is an inverter, 20 is an inverter, 21 Represents an AND circuit, 22 represents a register storage / read enable signal, 23 represents a reproducing magnetic head, and 24 represents a recording magnetic head.
[0022]
Here, when examining the number of signal lines required between the recording / reproducing circuit and the upper control circuit, first, since the recording operation is not performed during the reproducing operation, the reproducing signal line is connected to the signal line. The recording signal line does not transmit any signal while the signal is transmitted. Therefore, even if the reproduction signal line and the recording signal line are shared by the same signal line, there is no inconvenience except that switching takes some time.
[0023]
Next, a storage or read operation to an electrical storage circuit (a circuit used for selecting a magnetic head, adjusting a sense current of an MR head, etc.) such as a register in a recording / reproducing circuit includes a reproducing operation of a magnetic recording signal and a magnetic operation. If the recording signal recording operation is performed only when it is not operating, it can be used as a recording signal line or a playback signal line, or if it is in playback, it is superimposed on the playback signal during this period. If it can be identified from the generated noise and prevented from malfunctioning, it can be used as a reproduction signal line.
[0024]
In addition, since a signal for selecting one of a plurality of magnetic heads does not require high-speed switching compared to switching between reproducing operation and recording operation of a magnetic recording signal, the value is not stored in an electrical storage circuit such as the register. In this case, a dedicated signal line is not necessary for head selection.
[0025]
Similarly, since the control signal for the amount of current flowing to the reproducing head and the control signal for the amount of current flowing to the recording head need not be changed at most as often as the value is switched when the head is switched, an electrical storage circuit such as a register. If this is done by writing a value to the signal line, a dedicated signal line is not necessary.
[0026]
Here, the following signals can be mentioned as signals that can make a dedicated signal line unnecessary by writing a value in an electrical storage circuit such as a register.
[0027]
A signal for selecting one recording / reproducing circuit from among the recording / reproducing circuits provided for each head (enabling the function) A selection control signal for selecting one of a plurality of heads (recording / reproducing circuit) If one circuit is attached to one magnetic head, this signal can be substituted by the recording / reproducing circuit selection signal)
-Control signal for the amount of current flowing to the reproducing head-Control signal for the amount of current flowing to the recording head If the signal lines are arranged based on the above examination results, they are classified and used as shown in the following specific example 1 or specific example 2. be able to.
[0028]
Example 1
Signal line A: Meaning (1): Playback signal (+)
Signal line A: Meaning (2): Recording signal (+)
Signal line A: Meaning (3): Switching of recording / reproducing operation of magnetic recording Signal line B: Meaning (1): Reproducing signal (-)
Signal line B: Meaning (2): Recording signal (-)
Signal line B: Meaning (3): Storage signal or read enable signal of the electric memory circuit Signal line C: Meaning (1): Data signal of the electric memory circuit (command signal to the register)
Signal line C: Meaning {circle around (2)}: Anomaly notification signal line D for magnetic recording signal signal D: Meaning {circle around (1)}: Clock signal of the electrical storage circuit (dedicated line for clock signal)
[0029]
Example 2
Signal line A: Meaning (1): Playback signal (+)
Signal line A: Meaning (2): Recording signal (+)
Signal line A: Meaning (3): Data signal line B of the electrical storage circuit: Meaning (1): Reproduction signal (−)
Signal line B: Meaning (2): Recording signal (-)
Signal line B: Meaning (3): Clock signal signal line C of the electrical storage circuit: Meaning (1): Switching of recording / reproducing operation of magnetic recording Signal line D: Meaning (1): of the electrical storage circuit Storage or read enable signal signal line D: Meaning (2): Anomaly notification signal for recording operation of magnetic recording.
[0030]
As can be seen from the above description, the signal lines connecting the recording / reproducing circuit and the upper control circuit are ultimately the fewest while maintaining their functions, and the signal lines A, B, C, D are four. is there. At this time, when the switching time is a problem, it is not shared so far, and it is naturally possible to design more than four.
[0031]
In FIG. 1, a recording / reproducing circuit 5 is mounted in the form of an IC in the vicinity of the magnetic head 1. Here, on the side surface of the comb portion of the carriage, there are eight signal lines between the recording / reproducing circuit 5 and the upper control circuit (two reproducing circuits are installed for each comb and four signal lines per recording / reproducing circuit). The total number of wires is 6 or 7 including the power supply line and 2 or 3 ground lines of the recording / reproducing circuit.
[0032]
Since the number of the signal lines is smaller than that in the case of FIG. 2 (13 lines), the signal lines can be connected by, for example, a patterned FPC 4. When mounted on the rear side of the carriage in the same manner as in FIG. 2, the upper control circuit is connected to each recording / reproducing circuit in the area around the rotation center axis of the carriage (the area where the recording / reproducing circuit is mounted in FIG. 2). Since the same signals can be combined into one signal, the number of signal lines passing through the FPC 6 is at least six or seven. Further, a higher control circuit may be mounted on the portion where the recording / reproducing circuit 5 in FIG. 2 is mounted.
[0033]
Next, a circuit configuration that specifically realizes the embodiment of the present invention will be described. The power supply for the recording / reproducing circuit is a dual power supply circuit in which the positive power supply (VCC) is + 5V and the negative power supply (VEE) is -3V.
[0034]
The reproduction signal (+) and the reproduction signal (−) amplify the signal reproduced from the magnetic head, and a differential analog signal having an AC maximum signal amplitude of 1 V or less and a DC potential centered on the ground (0 V). To do. The recording signal (+) and the recording signal (−) are a pseudo ECL level digital signal in which the potential difference between the H level and the L level is about 1V, the H level is about VCC-1V, and the L level is about VCC-2V. To do.
[0035]
Magnetic recording recording / reproducing operation switching signal, electrical storage circuit storage or read enable signal, electrical storage circuit data signal, electrical storage circuit clock signal, and magnetic recording recording operation The abnormality notification signal is a TTL level or CMOS level digital signal having a potential difference of 2 V or more between the H level and the L level, an H level of about +3 to +4 V, and an L level of about 0 V.
[0036]
Here, the case of the specific example 1 relating to the signal form of the signal lines A, B, C, and D will be described below as an example. With reference to the signal truth table shown in FIG. 3, when the signal line A is H, the recording operation mode is performed, when the signal line A is L and the signal line B is L, the reproduction operation mode, signal line When A is L and the signal line B is H, this is a mode in which the storage or reading operation of the electrical storage circuit is performed. Referring to the time chart of the signal line shown in FIG. 4, the left side is a mode in which the recording / reproducing circuit performs a recording operation, the center is a mode in which the reproducing operation is performed, and the right side is a storing or reading operation of the electrical storage circuit. Mode to perform.
[0037]
That is, in the recording operation mode, the signal line A and the signal line B are centered at + 3.5V and are at the H level of the recording signal when + 4V and at the L level of the recording signal when + 3V. At this time, the meaning (3) of the signal line A is +2 V or higher, so it is at the H level, indicating a recording operation. The meaning (3) of the signal line B is meaningful only when the signal line A is L. At this time, the signal direction of both the signal line A and the signal line B is output from the host control circuit and the recording / reproducing circuit is input.
[0038]
In the reproduction operation mode, the signal line A and the signal line B are at a level in which a reproduction signal of ± 0.5 V or less is superimposed on the center of 0 V. At this time, the meaning (3) of the signal line A is +2 V or less, so it is at the L level and indicates a reproducing operation. Since the meaning (3) of the signal line B is L level, the storage or reading of the electrical storage circuit is prohibited. At this time, the direction of the signal is the output of the upper control circuit and the recording / reproducing circuit of the signal line A in the DC direction. In terms of alternating current, both the signal line A and the signal line B are output by the recording / reproducing circuit and input by the upper control circuit.
[0039]
In the mode in which the storage or reading operation of the electrical storage circuit is performed, the signal line A is 0 V and the signal line B is +2 V or higher. At this time, the meaning (3) of the signal line A is +2 V or less, so it is at the L level and indicates a reproducing operation. Since the meaning (3) of the signal line B is at the H level, it indicates that the electrical storage circuit can store or read. At this time, the signal lines A, B, and D are output by the upper control circuit and input by the recording / reproducing circuit.
[0040]
At this time, the signal line C is output from the upper control circuit and is input to the recording / reproducing circuit when storing in the electrical storage circuit, and when reading and addressing are specified when reading out the electrical storage circuit. The upper control circuit is the output and the recording / reproducing circuit is the input, and the recording / reproducing circuit is the output and the upper control circuit is the input only when the read data is read out from the electrical storage circuit.
[0041]
Referring to a specific circuit configuration for switching between the reproduction signal, the recording signal, and the data signal of the electrical storage circuit shown in FIG. 5, when the bias potential 16 is 2 V, the signal line B is 3 to 4 V. Since the output of the comparator 17 becomes H, the enable of the recording amplifier 15 becomes H (valid) and the recording amplifier 15 operates. At this time, the pseudo ECL level recording signals of the signal lines A and B are current-converted by the recording amplifier 15 and recorded on the magnetic recording medium through the recording magnetic head 24. The enable of the regenerative amplifier 14 is set to L (prohibited) by the inverter 19 and the regenerative amplifier 14 does not operate. Further, since the transistor of the emitter follower 13 attached to the output of the reproduction amplifier 14 is turned off, the signal line A and the signal line B are not affected.
[0042]
Since the output of the comparator 17 becomes L when the output of the upper control circuit of the signal lines A and B is turned off, the enable of the recording amplifier 15 becomes L (prohibited) and the recording amplifier 15 does not operate. The enable of the reproduction amplifier 14 becomes H (valid), and the reproduction amplifier 14 operates. At this time, the signal of the reproducing magnetic head 23 is amplified by the reproducing amplifier 14 and the reproduction signal flows through the signal line A and the signal line B. Here, it is more stable to clamp the reproduction signal output by the clamp circuit 12 so that the recording amplifier 15 does not malfunction due to the transient response of the reproduction amplifier 14 and the emitter follower 13.
[0043]
When the upper control circuit sets the signal line A to 2 V or more and the signal line B to 2 V or less, the output of the comparator 18 becomes H and the output of the comparator 17 becomes L, is inverted by the inverter 20, and is registered / read by the AND circuit 21. The enable signal 22 becomes H, and the register storage / read circuit operates.
[0044]
As described above, according to the embodiment of the present invention, it is possible to share the signals exchanged between the recording / reproducing circuit in the vicinity of the magnetic head of the magnetic disk device and its upper control circuit, and register the recording / reproducing circuit. By realizing the desired head operation mode, the number of signal lines to be connected between the recording / reproducing circuit and its upper control circuit can be reduced.
[0045]
【The invention's effect】
According to the present invention, since the recording / reproducing circuit can be mounted very close to the magnetic head, the deterioration of the frequency characteristic is extremely reduced, and a high transfer rate can be realized.
[0046]
In addition, the number of signal lines between the recording / reproducing circuit and the host control circuit is extremely small in the case of the above-mentioned mounting form, so connection is made with an inexpensive connection method (material used, wiring method, signal connection point connection method). It becomes possible to do. In addition, productivity is improved because the number of connection points is reduced.
[0047]
Furthermore, since the area required for mounting is reduced, it is possible to make the intervals of the magnetic recording media closer.
[Brief description of the drawings]
FIG. 1 is a diagram showing an example of mounting a recording / reproducing circuit on a carriage according to an embodiment of the present invention.
FIG. 2 is a diagram showing an example of mounting a recording / reproducing circuit on a carriage in the prior art.
FIG. 3 is a diagram showing operation mode settings in the signal mode of the signal lines A and B between the recording / reproducing circuit and the host controller.
4 is a diagram showing signal forms in each operation mode in signal lines A, B, C, and D. FIG.
FIG. 5 is a diagram showing a circuit configuration for realizing switching between a reproduction signal, a recording signal, and a data signal of an electrical storage circuit.
[Explanation of symbols]
1 Magnetic head 2 Carriage 3 Suspension 4 FPC
5 Recording / reproducing circuit 6 FPC
7 Connector 8 Signal line A
9 Signal line B
10 Signal line C
11 Signal line D
12 Clamp Circuit 13 Emitter Follower 14 Reproducing Amplifier 15 Recording Amplifier 16 Bias Potential 17 Comparator 18 Comparator 19 Inverter 20 Inverter 21 AND Circuit 22 Register Storage / Read Enable Signal 23 Reproducing Magnetic Head 24 Recording Magnetic Head

Claims (4)

In a magnetic disk device for magnetically recording / reproducing data using a plurality of rotating disk-shaped magnetic recording media and a plurality of magnetic heads facing the recording media,
The magnetic head is provided at the tip of a carriage having a comb shape for interposing the recording medium,
Circuitry for processing the reproduced signal from the magnetic head, a circuit for transmitting a recording signal to the magnetic head, a circuit for controlling the state of the magnetic head, a recording and reproducing circuit having a provided,
The recording / reproducing circuit is controlled by being connected to a host control circuit,
Of the signal lines in the comb-shaped portion of the carriage that connects the host control circuit and the recording / reproducing circuit, the reproducing signal from the magnetic head, the recording signal to the magnetic head, and the control signal to the magnetic head or recording / reproducing circuit Is transmitted using the same signal line. In a magnetic disk device for magnetically recording / reproducing data using a plurality of rotating disk-shaped magnetic recording media and a plurality of magnetic heads facing the recording media,
The magnetic head is provided at the tip of a carriage having a comb shape for interposing the recording medium,
Circuitry for processing the reproduced signal from the magnetic head, a circuit for transmitting a recording signal to the magnetic head, a circuit for controlling the state of the magnetic head, a recording and reproducing circuit having a provided,
The recording / reproducing circuit is controlled by being connected to a host control circuit,
Signal lines in a comb-shaped portion of the carriage that connects the recording and reproducing circuit and the host control circuit, except for the connection to provide power and ground, Ri the number of signal lines 4 der,
The first signal line is used as a reproduction signal (+), a recording signal (+), and a recording / reproducing operation switching signal for magnetic recording, and the second signal line is used as a reproduction signal (−) and a recording signal (− ), Used as an enable signal for storage or reading of the electrical storage circuit, and the third signal line is used as a data signal for the electrical storage circuit (command signal to the register), an abnormality notification signal for the recording operation of magnetic recording, 4. The magnetic disk device according to claim 4, wherein the fourth signal line is used as a clock signal (dedicated line for the clock signal) of the electrical storage circuit . The magnetic disk device according to claim 1 or 2,
2. The magnetic disk apparatus according to claim 1, wherein the recording / reproducing circuit includes an electrical storage circuit that generates a signal for controlling the state of the magnetic head. The magnetic disk device according to claim 1, 2, or 3,
The magnetic disk apparatus according to claim 1, wherein the recording / reproducing circuit is installed in the carriage comb-shaped portion close to the magnetic head.

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