JP2692076B2 - Additional device for recording / reproducing device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention will be described in the following order. A Industrial Field B Outline of the Invention C Conventional Technology D Problems to be Solved by the Invention E Means for Solving Problems (FIG. 1) F Action G Example G ₁ First Example G ₂ Second Embodiment H Effect of the Invention A Industrial field of application The present invention relates to an additional device for a recording / reproducing device constituted by using a semiconductor memory. B. SUMMARY OF THE INVENTION The present invention enables a recording / reproducing apparatus to be more effectively provided by enabling a voice operating function, a pre-recording function, and the like to be exhibited in an additional apparatus of the recording / reproducing apparatus configured by using a semiconductor memory. It is intended for use. C Conventional Technology Conventionally, as a tape recorder, there has been proposed a tape recorder having a voice operating function that automatically enters a recording state when an audio signal is input and records the audio signal. Further, conventionally, as a tape recorder, when the pre-recording switch is operated while an audio signal is being input, it becomes a recording state and the audio signal is recorded retroactively for a predetermined period, so that the necessary audio signal can be reliably recorded. Those having a pre-recording function have been proposed. D. Problems to be Solved by the Invention In such a conventional tape recorder, the means for performing the respective functions are incorporated in the main body, and therefore, in a tape recorder having no such means. I couldn't get such a function. Further, in a conventional tape recorder having a voice operating function, for example, a sound signal at a rising portion of a motor of the tape recorder is muted and is not recorded, which causes a so-called head loss. Further, the conventional tape recorder having the pre-recording function has drawbacks such as a complicated structure and high cost. In consideration of such a point, the present invention proposes an additional device which, when added to a recording / reproducing device, exhibits a voice operating function, a pre-recording function, and the like, and has a simple structure and is inexpensive. E Means for Solving Problems The present invention relates to a recording connected to a control terminal (31) and an input terminal (32) of a recording / reproducing apparatus (30) as shown in FIGS. 1 and 2, for example. An additional device of the reproducing device, which is an address generating means for generating a semiconductor memory (4), a write address for the semiconductor memory (4), and a read address for reading a signal written in the semiconductor memory (4). (6) and based on the write address from the address generating means (6), the inputted voice signal is converted into a digital signal and written into the semiconductor memory (4),
Signal processing means (3) for reading the digital signal written in the semiconductor memory (4) based on the read address from the address generating means (6) and supplying it to the input terminal (32) of the recording / reproducing device (30); Based on the switching means (41) (42) for switching between the voice operating state and the pre-recording state and the output of the switching means (41) (42) or the signal level of the input audio signal, the recording / reproducing device (30) is selected. A control signal for setting the recording standby state and a release signal for releasing the recording standby state of the recording / reproducing apparatus (30) are generated to control the control terminal (3) of the recording / reproducing apparatus (30).
Control signal generation means (9) (10) (11) (1)
2) and control signal generating means (9) (10) if the signal level of the input audio signal is not less than a predetermined value when switched to the voice operating state by the switching means (41) (42). (11) A release signal is generated from (12) to release the recording standby state of the recording / reproducing device (30), and the input audio signal is converted into a digital signal and written into the semiconductor memory (4) and the semiconductor memory (4). The signal written in is delayed by a predetermined time and read from the semiconductor memory (4) and supplied to the recording / reproducing device (30). On the other hand, if the signal level of the input audio signal is lower than a predetermined value,
A control signal is generated from the control signal generating means (9), (10), (11) and (12) to set a recording standby state in the recording / reproducing device (30), and pre-recording is performed by the switching means (41) (42). When it is switched to the state, the control signal generating means (9) (10) (11) (12) generates a release signal to release the recording standby state of the recording / reproducing apparatus (30), and the input audio signal is output. The signal is digitally converted and written in the semiconductor memory (4), and the signal from the time point traced back to the time point when the pre-recording state is set among the signals written in the semiconductor memory (4) is read from the semiconductor memory (4) and recorded / reproduced. The feature is that the device (30) is supplied. F function When the additional device according to the present invention is connected to the recording / reproducing device (30) and the switching means (41) (42) switches to the voice operating state,
The recording / reproducing device (30) is selectively switched between a recording standby state and a state in which the recording standby state is released according to the signal level of the input audio signal, and the other switching means (41) (4).
When the pre-recording state is switched by 2), the recording standby state of the recording / reproducing apparatus (30) is released, and the signal stored in the semiconductor memory (4) traces back to the time when the pre-recording state was set. Are read from the semiconductor memory (4) and supplied to the recording / reproducing device (30). Therefore, even if the recording / reproducing device (30) itself does not have a voice operating function or a pre-recording function, if the recording / reproducing device (30) has the control terminal (31) and the input terminal (32), It becomes possible to realize these functions. G Example First, an example of the present invention will be described with reference to FIGS. 1 and 2. In FIG. 1, (30) is a tape recorder as an example of a recording / reproducing apparatus, (31) is a remote terminal, and (3)
2) is a microphone terminal. In this case, the tape recorder (3
0) is in the recording pause state in which the rotation of the tape drive motor is stopped when the low level “0” signal is supplied to the remote terminal (31), while the high level “1” is supplied to the remote terminal (31). When the signal is supplied, the tape drive motor starts to rotate, and when the tape running speed reaches a predetermined value, recording starts. Further, (40) is an additional device, (1) is a microphone, (41) is an operator for selecting a voice operating function and a pre-recording function, and (42) is a pre-recording button. The adding device (40) is configured as shown in FIG. In the figure, (1) is a microphone, and an audio signal output from the microphone (1) is transferred to a RAM (semiconductor memory) via an amplifier (2) and an A / D converter of a conversion circuit (3). 4) is supplied as a write signal. The signal read from the RAM (4) is supplied to the microphone terminal (32) of the tape recorder (30) via the D / A converter of the conversion circuit (3). Further, (5) is a clock oscillator, and the clock CLK output from this clock oscillator (5) is supplied to the address controller (6). Further, (7) is a changeover switch for changing the frequency of the clock CLK output from the clock oscillator (5). That is, the fixed terminal on the V side of the changeover switch (7) is connected to the control terminal of the clock oscillator (5), the fixed terminal on the P side is in an electrically floating state, and its movable terminal is grounded. . When the above-mentioned operator (41) is set to the VOR position and the voice operating function is selected, the changeover switch (7)
Is connected to the V side and the frequency of the clock CLK output from the clock oscillator (5) is f _V. On the other hand, the manipulator (4
When 1) is set to the P.REC position and the pre-recording function is selected, the changeover switch (7) is connected to the P side and the frequency of the clock CLK output from the clock oscillator (5) is greater than f _V. Is also low f _P. Further, the conversion circuit (3) and the RAM (4) are controlled by the address controller (6), and at the timing of the clock CLK, a signal is sequentially written to a predetermined address of the RAM (4) according to the instruction of the address controller (6). In parallel with this, signals are sequentially read from a predetermined address. In this case, the read address is always separated from the write address by a constant value, and the read is controlled to be delayed from the write by a predetermined time. This predetermined time is determined by the difference between the read address and the write address and the frequency of the clock CLK, and when the voice operating function is selected, the time when the tape running speed becomes constant from the start of the rotation of the tape drive motor (hereinafter referred to as "start-up"). "Time") T
₁ (for example, several 100 msec), and when the pre-recording function is selected, the time T ₂ (for example, several times) from when you want to record until you press the pre-record button (42)
sec) and the rise time T ₁ . The output signal of the microphone (1) is the amplifier (2).
Is supplied to the waveform shaping circuit (8) via. The waveform shaping circuit (8) outputs a high level "1" signal when the microphone (1) outputs a sound signal of a certain level or higher, and otherwise outputs a low level "0" signal. To be done. The output signal of the waveform shaping circuit (8) is supplied to the fixed terminal on the V side of the changeover switch (9). Also, (10) is a pre-recording switch,
The pre-record button (42) is turned on when it is pressed, and is automatically turned off when the press is released. This pre-recording switch (10) is connected in series with, for example, a resistor (11), and this series circuit is connected between the power supply terminal + B and ground.
The signal obtained at the connection point of the pre-recording switch (10) and the resistor (11) is supplied to the trigger terminal of the flip-flop (12). In this case, each time the pre-recording switch (10) is turned on, a high level “1” signal is supplied to the trigger terminal of the flip-flop (12) and the output signal of the flip-flop (12) is inverted. .
The output signal of the flip-flop (12) is supplied to the P-side fixed terminal of the changeover switch (9). In the changeover switch (9), the operator (41) described above is VOR.
Is connected to the V side when the voice operating function is selected and the operator (41) is set to the P.REC position and the pre-recording function is selected. The output signal of the change-over switch (9) is supplied to the remote terminal (31) of the tape recorder (30) as a pause control signal. This example is configured as described above, and when the user selects the voice operating function with the operation element (41) of the additional device (40) at the VOR position, the changeover switch (7) changes to V
The frequency of the clock CLK that is connected to the output side and is output from the clock oscillator (5) is f _V. Therefore, RAM (4)
Is delayed from the writing by a predetermined time T ₁ . Further, the changeover switch (9) is connected to the V side. In such a state, sound is input to the microphone (1), and the microphone (1) outputs the sound as shown in FIG.
As shown in FIG. 3, when an audio signal is output from time t _1, the output signal of the waveform shaping circuit (8) changes from low level “0” to high level “t” at time t ₁ as shown in FIG. 3B. 1 ". Therefore, at this time t ₁ , the high level “1” signal is supplied as the pause control signal to the remote terminal (31) of the tape recorder (30), so that the tape recorder (30) is released from the paused state. The rotation of the drive motor is started. Then, as shown in FIG. 3 C, the tape running speed at the time t ₂ after a predetermined time T ₁ from the time t ₁ becomes a predetermined value, the recording is started in the tape recorder (30). On the other hand, the audio signal output from the microphone (1) is supplied to the RAM (4) via the amplifier (2) and the A / D converter of the conversion circuit (3) and is sequentially written to a predetermined address and at a predetermined time T. They are delayed by _{1 and} read sequentially. Then, the signal read from the RAM (4) is supplied to the microphone terminal (32) of the tape recorder (30) via the D / A conversion unit of the conversion circuit (3). Therefore, in the tape recorder (30), the audio signal output from the microphone (1) at the time point t ₁ is changed to the time point as shown in FIG. 3D.
It is recorded sequentially from t ₂ . When the audio signal is not input to the microphone (1) thereafter, the output signal of the waveform shaping circuit (8) changes from high level "1" to low level "0", and the tape recorder (3
0) becomes the pose state again. In addition, the user can change the operation device (41) of the additional device (40) to P.
When the pre-recording function is selected as the REC position, the changeover switch (7) is connected to the P side, and the frequency of the clock CLK output from the clock oscillator (5) is f _P
Becomes Therefore, the reading of the RAM (4) is delayed from the writing by a predetermined time T ₁ + T ₂ . The changeover switch (9) is also connected to the P side. The output signal of the flip-flop (12) is first set to low level "0", and the tape recorder (30) is placed in the pause state.
In such a state, voice is input to the microphone (1), and a voice signal is output from the microphone (1) as shown in FIG.
If you want to record after t ₃ , press the pre-record button (42) at time t ₄ after the predetermined time T _2, and the pre-recording switch (10) will turn on and the flip-flop (12)
The output signal, as shown in FIG. 4 B, the high level "1" from the low level "0" at time t _4. Therefore, at this time t ₄ , the high level “1” signal is supplied as the pause control signal to the remote terminal (31) of the tape recorder (30), so that the tape recorder (30) is released from the paused state.
The rotation of the tape drive motor is started. Then, as shown in FIG. 4C, a time point t ₅ after a predetermined time T _{1 has} passed from this time point t _4.
The tape running speed reaches the specified value, and the tape recorder (3
In 0), recording is started. On the other hand, the audio signal output from the microphone (1) is supplied to the RAM (4) through the amplifier (2) and the A / D conversion unit of the conversion circuit (3) and sequentially written in a predetermined address and at a predetermined time T ₁ It is delayed by + T _{2 and} read sequentially. Then, the signal read from the RAM (4) is supplied to the microphone terminal (32) of the tape recorder (30) via the D / A conversion unit of the conversion circuit (3). Therefore, in the tape recorder (30), at the time point t ₃ among the audio signals output from the microphone (1).
Subsequent items are sequentially recorded from time t ₅ as shown in FIG. 4D. When the user then presses the pre-record button (42), the output signal of the flip-flop (12) goes to high level "1".
The low level becomes "0" and the tape recorder (30) is in the paused state again. In this example, the delay time for reading RAM (4) is T ₁ + T
_Although it is set to be ₂ , it can be recorded before time t ₃ by making it larger than this. As described above, according to the addition device (40) of the present example, by being added to the tape recorder (30), the voice operating function and the pre-recording function are exerted, so that the tape recorder (30) is used more effectively. It becomes possible to do. In addition, since the audio signal is supplied to the tape recorder (30) via the RAM (4) with a delay of a predetermined time, there is no possibility that the head is cut off during the voice operating function. The additional device (40) is RAM
Since it is configured using (4), the configuration is simple and inexpensive. Incidentally, in the above embodiment, the tape recorder (30)
An example of the one equipped with a remote terminal (31) is shown in, but when adding to a tape recorder without a remote terminal,
The same operation can be performed by configuring the tape recorder to control the power on / off by the signal supplied to the remote terminal (31) of the above-described embodiment. H According to the present invention described above, even if the recording / reproducing apparatus itself does not have the voice operating function or the pre-recording function, if the recording / reproducing apparatus has the control terminal and the input terminal, By connecting the additional device according to the invention, these functions can be realized in the recording / reproducing device. Further, when the voice operating function is used, an audio signal can be supplied to the recording / reproducing apparatus via the semiconductor memory with a delay of a predetermined time, so that there is no possibility of a head cut. Further, since the present invention is configured by using the semiconductor memory, the configuration can be simple and inexpensive.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 and FIG. 2 are configuration diagrams showing an embodiment of the present invention, and FIG. 3 and FIG. 4 are diagrams for explanation thereof, respectively. (1) is a microphone, (3) is a conversion circuit, (4) is RA
M, (5) is a clock oscillator, (6) is an address controller, (7) and (9) are changeover switches, (8) is a waveform shaping circuit, (10) is a pre-recording switch, and (12).
Is a flip-flop, (30) is a tape recorder, (31)
Is a remote terminal, (32) is a microphone terminal, (40) is an additional device, (41) is an operator, and (42) is a pre-record button.

Claims (1)

(57) [Claims] An additional device for a recording / reproducing device connected to a control terminal and an input terminal of the recording / reproducing device, wherein the additional device is a semiconductor memory, a write address for the semiconductor memory, and a signal written in the semiconductor memory. Address generating means for generating a read address for reading out, and an input voice signal is converted into a digital signal and written in the semiconductor memory based on the write address from the address generating means. Signal processing means for reading the digital signal written in the semiconductor memory and supplying it to the input terminal of the recording / reproducing apparatus based on the read address of the switching means, switching means for switching between the voice operating state and the pre-recording state, and the switching The output of the means, or the above The recording / reproducing apparatus generates a control signal for setting a recording standby state in the recording / reproducing apparatus and a release signal for releasing the recording standby state in the recording / reproducing apparatus based on the signal level of the recorded audio signal. Control signal generating means for supplying the control signal to the control terminal, and if the signal level of the input audio signal is not less than a predetermined value when the voice operating state is switched by the switching means. Means for generating the release signal to release the recording standby state of the recording / reproducing apparatus, digitally converting the input audio signal and writing it into the semiconductor memory, and delaying the signal written in the semiconductor memory by a predetermined time. Then, it is read from the semiconductor memory and supplied to the recording / reproducing apparatus, while the signal level of the input audio signal is changed. Is lower than the predetermined value, the control signal generating means generates the control signal to set the recording / reproducing apparatus in the recording standby state, and when the switching means switches to the pre-recording state, the control is performed. Of the signals written in the semiconductor memory, the release signal is generated from the signal generating means to release the recording standby state of the recording / reproducing apparatus, the input audio signal is digitally converted and written in the semiconductor memory. An additional device for a recording / reproducing apparatus, wherein a signal from a time point traced back to a time point when the pre-recording state is set is read from the semiconductor memory and supplied to the recording / reproducing apparatus.