KR920007934Y1 - Dynamic potential range expansion circuit of magnetic recording medium - Google Patents

Abstract

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Description

Dynamic potential range expansion circuit of magnetic recording medium

1 is a dynamic potential characteristic diagram of a magnetic recording medium.

2 is a circuit diagram of an embodiment according to the present invention.

3 is an operation characteristic diagram at the time of recording and reproduction of the circuit shown in FIG.

* Explanation of symbols for main parts of the drawings

10: input terminal 11: output terminal

20: recording amplifier 21: reproduction amplifier

30: information attenuation means 31: variable attenuation means

32 attenuation control means 40 information amplification means

41: variable amplification means 42: amplification control means

A1, A2: Buffer C1 ~ C4: Capacitor

D1, D2: Diode HD: Head

Q1 to Q3: Transistors R1 to R8: Resistance

SW: Selection switch

The present invention relates to a circuit for extending the fluctuation range of a potential recorded or reproduced on a recording medium in a recording and reproducing apparatus using a magnetic recording medium.

In general, a recording and reproducing apparatus is a device for recording audio or video information on a recording medium or reproducing information recorded on the recording medium.

The magnetic recording medium is a magnetic powder coated on a thin resin paper. The magnetic recording medium can be divided into magnetic tape and floppy disk. The magnetic recording medium are separated by such as general (Normal) magnetic recording media and chromium dioxide (CRO ₂₎ the magnetic recording medium, metal (Metal) The magnetic recording medium according to the kind of the magnetic substance powders.

The general, CRO ₂ , and metal magnetic recording media have different dynamic potential ranges of audio or video information that can be recorded by the difference between hysteresis characteristics, which are magnetic hysteresis characteristics. The size of the dynamic potential range of each magnetic recording medium is the metal magnetic recording medium is the highest, the CRO ₂ magnetic recording medium is the second highest, the general magnetic recording medium is the lowest.

In the recording and reproducing apparatus using the magnetic recording medium, when recording or reproducing audio or video information over the dynamic potential range of the magnetic recording medium, as shown in FIG. 1, the potential recorded on the recording medium is the audio or video within the limit recording potential. When a signal is introduced, it changes in proportion to the potential of the incoming signal.However, when an audio or video signal with a threshold recording potential is introduced, the audio or video signal above the threshold recording potential of the dynamic potential range is distorted. There was a problem.

Therefore, an object of the present invention is to expand the dynamic potential range of a magnetic recording medium in the recording and reproducing apparatus using the magnetic recording medium as a recording medium, thereby improving the electric fidelity of the information signal by expanding the dynamic potential range of the magnetic recording medium. In providing.

To achieve the above object, the present invention provides a head for recording an information signal on a magnetic recording medium or reading an information signal recorded on a magnetic recording medium, and amplifying the information signal flowing through the input terminal 20 during recording. A reproducing amplifier for supplying to the reproducing, a reproducing amplifier for amplifying the information signal read out by the head during reproducing and outputting through the output stage, and selectively connecting the reproducing amplifier and the recording amplifier to the head. An information attenuation means connected between the switch and the recording amplifier and the selection switch to attenuate an information signal of a predetermined potential or more out of the output of the recording amplifier at a predetermined decay rate and transmit the information signal to the selection switch; Connected between the output stages and outputs the information signal above a certain potential of the output of the And an information amplifying means for amplifying and transferring the amplified information to the output stage.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

2 is a circuit diagram of an embodiment according to the present invention, the configuration is as follows.

The head HD is connected to the reference contact SPO of the selection switch SW, the recording amplifier 20 is connected to the input terminal 10 and the first selection contact SP1 of the selection switch SW, and is reproduced. The amplifier 21 is connected between the second selection contact SP2 of the selection switch SW and the output terminal 11.

The information attenuation means 30 comprises a variable attenuation means 31 connected between the recording amplifier 20 and the first selection contact SP1 of the selection switch SW, the recording amplifier 20 and the The damping control means 32 is connected between the third terminals of the variable damping means 31.

The variable attenuation means 31 is for controlling the resistance dividers R1 and R2 connected between the recording amplifier 20 and the selection switch SW, and for controlling the operation of the resistance voltage dividers R1 and R2. It consists of transistor Q1 which is a switch.

The attenuation control means 32 is connected between the recording amplifier 20 and the ground potential GND to set a threshold attenuation potential to check whether the output of the recording amplifier 20 is greater than the threshold attenuation potential. Diodes for controlling the operation of the control switch transistor Q1 by rectifying and smoothing the outputs of the variable resistance voltage dividers VR1 and R3 and the recording amplifier 20 divided by the variable resistance voltage dividers VR1 and R3. And rectifying smoothing means consisting of a D1 and a condenser C1, and a buffer A1 connected between the variable resistance voltage dividers VR1 and R3 and the recording amplifier 20.

The information amplifying means 40 comprises a variable amplifying means 41 connected between the reproducing amplifier 21 and the output terminal 11, and a third of the reproducing amplifier 21 and the variable amplifying means 41. Amplification control means 42 connected between the terminals.

The variable amplifier 41 comprises two capacitors C2 and C3, transistors Q2 and Q3 and four resistors R4 to R7.

The amplification control unit 42 is connected between the output terminal of the reproducing amplifier 21 and the ground potential GND, and the second variable resistance voltage dividers VR2 and R8 for setting a critical amplification potential, and the second The amplification rate of the variable amplifying means 42 is controlled by rectifying and smoothing the output of the regenerative amplifier 21 divided by the variable resistance voltage dividers VR2 and R8 to the third terminal of the variable amplifying means 41. It consists of the smoothing means which consists of a diode D2 and the capacitor | condenser C4.

FIG. 3 is an operation characteristic diagram of each part of the circuit shown in FIG. 2, which will be described below.

FIG. 3A is an operation characteristic diagram of the information attenuation means 30, and FIG. 3B is an operation characteristic diagram of the information amplification means 40. As shown in FIG.

Next, the operation of FIG. 2 will be described in detail with reference to FIG.

The head HD is connected to the recording amplifier 20 through the selection switch SW and the information attenuation means 30 during recording, and is connected to the reproduction amplifier 21 through the selection switch SW during reproduction.

The selection switch SW is operated by the user to bring the reference contact SPO into contact with the second selection contact SP2 during reproduction, and the reference contact SPO with contact with the first selection contact SP1 during recording.

The recording amplifier 20 amplifies the information signal flowing through the input terminal 10 at a constant amplification factor at the time of recording and supplies it to the resistor R1 and the buffer A1 in the information attenuation means 30.

The information attenuation means 20 attenuates the information signal equal to or greater than the critical attenuation potential of the output of the recording amplifier 20 at a constant attenuation rate, thereby reducing the first selection contact SP1 and the reference contact SPO of the selection switch SW. Supply to the head (HD) through, described in detail as follows.

The variable resistance voltage dividers VR1 and R3 flowing into the output signal of the recording amplifier 20 through the buffer A1 are applied to the resistances of the variable resistors and the lower limit R3 of the variable resistor VR1 set by the user or the manufacturer. By dividing the output signal of the recording amplifier 20 by the divided voltage ratio, the cathode of the diode D1 is output.

The rectifying smoothing means consisting of the diode D1 and the capacitor C1 half-wave rectifies and smoothes the output signal of the recording amplifier 20 divided by the variable resistance voltage dividers VR1 and R3 to smooth the base of the transistor Q1. To apply. At this time, the buffer A1 acts as a buffer so that the influence of the variable resistance voltage dividers VR1 and R3 does not reach the recording amplifier 20.

The threshold attenuation potential is set by the voltage divider ratio of the variable resistance voltage dividers VR1 and R3, which is expressed as follows.

Vtap = (0.7 + 0.7) (VR1 + R3) / R3 ... ........ (1-1)

In Equation (1-1), Vtap is the threshold attenuation potential, and 0.7 is the operating voltage of the transistor Q1 and the diode D1.

The transistor Q1 is turned on when the output voltage of the rectifying smoothing means (ie, the charging voltage of the capacitor C1) applied to the base becomes its operating voltage (ie, 0.7V) or more and is turned on. The resistor R2 is connected to R1. In other words, the transistor Q1 is turned on when the potential of the output signal of the write amplifier 20 is greater than the threshold attenuation potential to be connected to the resistor R2 and the resistor R1. Then, the resistor voltage dividers R1 and R2 may output the output signal of the recording amplifier 20 when the transistor Q1 is turned on, that is, when the output signal potential of the recording amplifier 20 is greater than the threshold attenuation potential. The voltage is divided by the voltage division ratio determined by the ratio of the resistance value of the resistor and the resistance value of the resistor R2, and is applied to the first selection contact of the selection switch SW.

As shown in Fig. 4 (a), the information attenuation means 30 attenuates the information signal above the threshold reduction potential by a certain ratio, thereby limiting the recording potential of the information signal that can be recorded within the power potential range of the existing tape. Expand by a constant potential ΔVe. The portion of the information attenuation means (30) consisting of the transistor (Q1) and two resistors (R1, R2) corresponds to the variable attenuation means (31), the buffer (A1) and the condenser (C1) and the variable resistance voltage divider (VR1) R3 and diode D1 correspond to attenuation control means 32.

On the other hand, the information amplification means 40 amplifies the information signal above the critical amplification potential of the output of the reproduction amplifier 21 by a predetermined amplification and outputs it through the output stage 11 as follows.

The variable resistance voltage dividers VR2 and R8 are supplied through the buffer A2 at a voltage division ratio based on the variable resistance value of the variable resistor VR2 set by the user or the manufacturer and the resistance value of the resistor R3. ) And outputs the output signal of the diode to the cathode of the diode D2.

The rectifying smoothing means composed of the diode D2 and the capacitor C4 half-wave rectifies and smoothes the output signal of the regenerative amplifier 21 divided by the variable resistance voltage dividers VR2 and R8 to smooth the base of the transistor Q3. To apply.

At this time, the buffer A2 acts as a buffer so that the influence of the variable resistance voltage dividers VR2 and R8 does not reach the regeneration amplifier 21. The critical amplification potential is determined by the partial pressure ratios of the variable resistance voltage dividers VR2 and R8, which are expressed as follows.

Vtep = (0.7 + 0.7) (VR2 + R8) / R8 (Volteg) ......................... (1-2 )

In Equation (1-2), Vtep is the threshold attenuation potential, and 0.7 is the operating voltage of the transistor Q3 and the diode D2.

Transistor Q3 is turned on when the output voltage of the rectifying smoothing means (ie, the charging voltage of capacitor C4) applied to the base becomes its operating voltage (ie, 0.7V) or more to turn on resistor R7. The emitter element R6 of (Q2) is connected in parallel.

The transistor Q2 which introduces the information signal reproduced from the reproducing amplifier 21 through the resistor R4 and the condenser C2 to the base is used when the transistor Q3 is in the turn-off state (i.e., for regeneration). When the output of the amplifier 21 is equal to or less than the critical amplification potential, the current signal amplified by the two resistors R5 and R6 at the amplification rate is amplified by current to the output terminal 11 through the condenser C3. On the contrary, when the transistor Q3 is in the turn-on state (i.e., when the output of the reproducing amplifier 21 is above the critical amplifier potential), the parallel resistance values of the two emitter resistors R6 and R7 The information signal is amplified by current at an increased amplification rate determined by the collector resistor R5 and supplied to the output terminal 11 through the capacitor C3.

As a result, the information amplification means 40 amplifies the current tape at an amplification rate greater than that for the information signal below the critical amplification potential for information above the critical amplification potential, as shown in FIG. 4 (b). The limit reproduction potential of the information signal that can be reproduced within the potential range is extended by a constant potential ΔVe as shown in FIG.

The portion of the information amplification means 40 composed of two transistors Q2 and Q3 and the capacitors C2 and C3 and four resistors R4 to R7 corresponds to the variable amplification means 41. A portion of the information amplification means 40 including the buffer A2, the capacitor C4, the diode D2, and the variable resistance voltage dividers VR2 and R8 corresponds to the amplification control means 42.

The critical attenuation potential and the critical amplification potential are set lower than the threshold potential that can record and reproduce the tape.

As described above, the present invention sets a threshold attenuation and amplification potential lower than the limit potential that can be recorded and reproduced on a magnetic recording medium, and attenuates and amplifies an information signal larger than the threshold attenuation and amplification potential. There is an advantage that can be extended, and the electrical fidelity of the information signal recorded and reproduced by this advantage can be improved.

Claims (6)

A recording and reproducing apparatus using a magnetic recording medium, comprising: a head (HD) for recording an information signal on a magnetic recording medium or reading an information signal recorded on a magnetic recording medium, and information flowing through the input terminal 10 during recording. A recording amplifier 20 for amplifying a signal and supplying it to the head, a reproducing amplifier 21 for amplifying an information signal read out by the head and reproducing it through the output terminal 11 during reproduction, and the reproducing amplifier A selection switch SW which selectively connects the amplifier 21 and the recording amplifier 20 to the head HD, and is connected between the recording amplifier 20 and the selection switch SW to perform the recording. The information attenuation means 30 which attenuates the information signal of a predetermined potential or more out of the output of the amplifier 20 by a predetermined decay rate, and transmits it to the selection switch SW, and between the reproducing amplifier 21 and the output terminal 11. Connected to the amplification for reproduction And an information amplifying means (40) for amplifying an information signal having a predetermined potential or more out of the output of the apparatus (21) at a predetermined amplification ratio and transferring the information signal to the output stage. The variable attenuation according to claim 1, wherein the information attenuation means (30) is connected between the recording amplifier (20) and the selection switch (SW) to attenuate the output of the recording amplifier (20) by a constant ratio if necessary. Connected between the means 31 and the recording amplifier 20 and the output terminal and the third terminal of the variable attenuation means 31 to check whether the output potential of the recording amplifier 20 is greater than or equal to the threshold attenuation potential. And dynamic damping control means (32) for controlling the operation of said variable damping means (31). 3. The variable voltage attenuation unit (31) according to claim 2, wherein the variable attenuation means (31) is connected between the resistor voltage divider (R1, R2) connected between the recording amplifier (20) and the selection switch (SW). A dynamic potential range expansion circuit for a recording medium, comprising a control switch for controlling the operation. 4. The inspection means according to claim 3, wherein the attenuation control means (32) is connected between the recording amplifier (20) and the control terminal of the control switch to check whether the attenuation control potential of the recording amplifier (20) is greater than the threshold attenuation potential. And current smoothing means connected between the inspection means and the control switch to stabilize the output of the inspection means to drive the control switch. 5. The dynamic potential range expansion circuit according to claim 4, wherein the inspection means includes variable resistance voltage dividers (VR1, R3) so as to vary the threshold attenuation potential by a user or a manufacturer. 2. The variable amplifier means (41) according to claim 1, wherein the information amplification means (40) is connected between the regenerative amplifier (21) and the output terminal (11), and the regenerative amplifier (21) and the variable amplifier means. An amplification control means 42 connected between the third terminals of 41 to check whether the output of the reproducing amplifier 21 is greater than or equal to a critical amplification potential and to control the amplification of the variable amplification means 41 according to the result. Dynamic potential range expansion circuit of the recording medium of the recording medium comprising a.