JP3915856B2 - Remote control device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a remote controller.
[0002]
[Prior art]
A so-called headphone stereo, that is, a headphone-type stereo cassette player, is generally provided with a remote control (remote operation) operation part in the middle of the headphone cord so that the player can be remote controlled.
[0003]
4 and 5 show an example of a signal system of such a headphone stereo and a remote control operation unit. Reference numeral 1 denotes the player, reference numeral 3 denotes headphones, and reference numeral 4 denotes a remote control operation unit.
[0004]
The player 1 includes a magnetic tape 2, a reproducing circuit 10, a tape running mechanism 21, a microcomputer 22 for system control, various operation keys 23, an LCD 24 for displaying operation modes, a power supply circuit 25, and the like. The reproduction circuit 10 includes left and right channel reproduction heads 11L and 11R, reproduction equalizer amplifiers 12L and 12R, volume adjusting variable resistors 13L and 13R, output amplifiers 14L and 14R, and a headphone jack 15.
[0005]
The jack 15 is used not only for outputting an audio signal but also for receiving a remote control signal from the remote control operation unit 4. Therefore, as will be described later, there are 7 contacts (7 poles), left and right channel audio contacts A and B, audio ground contact C, DC voltage output contact D, remote control contact E, and display contact. F, and a ground contact G for control.
[0006]
Although not shown, the tape traveling mechanism 21 includes a capstan, a pinch roller, a capstan motor, a plunger, and the like, and triggers a lever by the plunger and uses the rotational force of the capstan motor to make the player 1 The mechanical state is controlled to a stop mode, a playback mode, or the like.
[0007]
Further, although not shown, the power supply circuit 25 includes a DC-DC converter and the like, for example, by forming various DC voltages necessary for the player 1 and the remote control operation unit 4 from the output voltage of one AA battery. Supply to each. The resistor R21 is for voltage division.
[0008]
Further, the headphone 3 includes a plug 35, a headphone cord 36, and left and right channel sound units (signal / acoustic conversion units) 3L and 3R. In this case, the plug 35 is inserted into the jack 15 when the headphones 3 are used without using the remote control operation unit 4, and has the contacts A to C respectively connected to the contacts A to C of the jack 15. The headphone cord 36 is connected to the acoustic units 3L and 3R.
[0009]
In addition, the remote control operation unit 4 is configured to be inserted between the player 1 and the headphones 3 when used, and includes a plug 45 and a cord 46. The plug 45 is inserted into the jack 15 when the remote control operation unit 4 is used. The plug 45 has contacts A to G connected to the contacts A to G of the jack 15, respectively. Connected inside.
[0010]
Further, the remote control operation unit 4 includes therein volume adjusting variable resistors 41L and 41R, a display control circuit 42, an LCD 43 for displaying an operation mode, and a jack 47 into which a plug 35 is inserted. Further, the remote control operation unit 4 is provided with a stop key KST, a reproduction key KPB, a fast-forward key KFF, and a rewind key KRW as operation keys. These operation keys KST to KRW are constituted by non-lock type normally open push switches.
[0011]
In such a configuration, when using the remote controller 4, the plug 45 is inserted into the jack 15 and the plug 35 is inserted into the jack 47. When a reproduction key, for example, of the operation keys 23 is pressed, this is detected by the microcomputer 22, and the traveling mechanism 21 is controlled by the microcomputer 22 so that the mechanical operation mode of the player 1 is set to the reproduction mode. The magnetic tape 2 is run at a constant speed, and the left and right channel audio signals L and R are reproduced from the tape 2 by the heads 11L and 11R.
[0012]
Then, the signals L and R are converted into reproduction equalizer amplifiers 12L and 12R → variable resistors 13L and 13R → headphone amplifiers 14L and 14R → headphone jack 15 contacts A and B (and C) → plug 45 contacts A and B ( And C) → code 46 → variable resistors 41L and 41R → contacts A and B (and C) of jack 47 → contacts A and B (and C) of plug 35 → acoustic units 3L and 3R through the signal line of headphone cord 36 To be supplied.
[0013]
Therefore, the reproduced sound of the audio signals L and R reproduced by the player 1 can be heard by the headphones 3. At this time, a predetermined display signal is supplied from the microcomputer 22 to the LCD 24, and the operation mode of the player 1 is displayed on the LCD 24.
[0014]
Further, during the operation of the player 1, for example, a DC voltage VDC of 3 V is taken out from the power supply circuit 25, and this voltage VDC is obtained from the contact D (and G) of the jack 15 → the contact D (and G) of the plug 45 → the code 46. The operating voltage is supplied to the control circuit 42 through the voltage line. Further, the display data DISP is serially output from the microcomputer 22, and this data DISP is sent to the control circuit 42 through the signal line of the contact F (and G) of the jack 15 → the contact F (and G) of the plug 45 → the code 46. It is supplied and converted into a display signal, and this display signal is supplied to the LCD 43. Thus, the operation mode of the player 1 is displayed on the LCD 43.
[0015]
Further, when none of the operation keys KST to KRW is pressed, these are off, so that the voltage VRM at the contact E of the jack 15 is pulled up by the resistor R21 to the voltage VDC. When the stop key KST is pressed, the contact E of the jack 15 is connected to the contact G, that is, the ground through the plug 45 and the cord 46, so that the voltage VRM becomes zero. Further, when any of the operation keys KPB, KFF, and KRW is pressed, the voltage VDC is generated by the resistor R21 and one or more resistors corresponding to the pressed key of the resistors R41 to R43. The voltage is divided and the divided voltage becomes the voltage VRM.
[0016]
If the voltage VRM is supplied to the analog input port A / D (input terminal of the built-in A / D converter) A / D of the microcomputer 22 and whether or not the keys KST to KRW are pressed, the voltage VRM is pressed. The operation key is determined, and the operation mode of the player 1 is controlled in the same manner as when the operation key 23 is operated according to the determination result. Therefore, the player 1 can be remote-controlled by the remote control operation unit 4.
[0017]
[Problems to be solved by the invention]
By the way, there is a headphone stereo in which a tuner circuit is built in a player so that AM broadcast, FM broadcast, etc. can be received.
[0018]
However, when the tuner circuit is built in the player, the AM antenna sensitivity is lowered because the bar antenna for receiving the AM broadcast is close to the mechanical chassis and the case.
[0019]
Furthermore, high-frequency components generated in a microcomputer, a DC-DC converter of a power supply circuit, a circuit for dynamically driving an LCD, etc., jump into the bar antenna as noise, thereby reducing the reception quality.
[0020]
In general, the headphone cord is used as an FM broadcast receiving antenna. However, it is difficult to adjust the length of the headphone cord to the wavelength of the FM broadcast wave because of the remote control operation unit, resulting in a decrease in FM reception sensitivity. Resulting in.
[0021]
Further, the player tends to place the circuit components in the gap between the configuration of the tape running mechanism and the parts, and the FM antenna, that is, the jack to which the headphone cord is connected to the FM front end circuit. Since the FM signal line is routed by a flexible printed circuit board or the like, the FM signal received by the headphone cord is attenuated, and the FM reception sensitivity also decreases from this point.
[0022]
Further, the player becomes larger than a player that does not incorporate a tuner circuit. Furthermore, when the player is used as a receiver, it is still larger than a single receiver.
[0023]
The present invention is intended to solve the above problems.
[0024]
[Means for Solving the Problems]
For this reason, in the present invention,
A cord supplied with an audio signal from the player, a signal line connected between the headphones,
A tuner circuit for supplying an audio signal obtained by receiving a broadcast to the signal line;
A plurality of operation switches connected to the player through the cord and for remotely operating the player;
Built-in battery,
A power switch;
A first switch circuit connected between the internal battery and the power line of the tuner circuit;
A second switch circuit connected in parallel with the stop switch of the plurality of operation switches,
When the cord is connected to the player and the power switch is off, the first and second switch circuits are turned off, and the audio signal supplied from the player to the signal line through the cord is sent to the headphones. To supply
When the cord is connected to the player and the power switch is on, the first switch circuit is turned off,
A remote operation signal equivalent to when the second switch circuit is turned on and the stop switch is operated is supplied to the player through the code, and
The DC voltage supplied from the player through the cord is supplied as an operating voltage to the tuner circuit through the power switch, and the audio signal is extracted from the tuner circuit.
This audio signal is supplied to the headphones,
When the cord is not connected to the player and the power switch is off, the first and second switch circuits are turned off,
When the cord is not connected to the player and the power switch is on, the first switch circuit is turned on to supply the voltage of the built-in battery to the tuner circuit as its operating voltage. Extract the audio signal from the circuit,
The remote control device is configured to supply the extracted audio signal to the headphones.
Therefore, at the time of broadcast reception, the tuner circuit is operated by the DC voltage from the player or the voltage of the built-in battery, and the audio signal from this tuner circuit is supplied to the headphones instead of the audio signal from the player.
[0025]
DETAILED DESCRIPTION OF THE INVENTION
Now, considering the remote control operation unit 4, as shown in FIG. 4, the remote control operation unit 4 is a separate entity from the player 1 and is used apart from the player 1. 5 is provided with an LCD 43 so that the operation mode of the player 1 is displayed. However, the LCD 43 is not indispensable and the remote control operation without a display element such as an LCD is performed. There is also a department.
[0026]
The present invention pays attention to these points, and incorporates a tuner circuit in the remote control operation unit so as to be able to receive and listen to broadcasts, and the remote control operation unit can be used alone as a radio receiver. It is.
[0027]
3 shows an example of the usage state of the remote control operation unit 6 according to the present invention. FIG. 3A shows a case where the remote control operation unit 6 is used in combination with the player 1, and FIG. This is a case where the part 6 is used alone. Details of these usage states will be described later.
[0028]
FIG. 1 shows an embodiment of a remote control operation unit 6 according to the present invention, which has an input / output jack 64 and an output jack 65. In this case, the input / output jack 64 is for receiving an audio signal from the player 1 and outputting a signal for remote control of the player 1. For this reason, the jack 64 has six contacts, and has audio contacts A and B for the left and right channels, an audio common contact C, a DC voltage input contact D, a remote control contact E, and a ground contact G. Further, the output jack 65 is a plug into which the plug 35 of the headphone 3 is inserted. Therefore, the output jack 65 has contacts A to C to which the contacts A to C of the plug 35 are respectively connected.
[0029]
The contacts A and B of the jack 64 are connected to the contacts A and B of the jack 65 through the volume adjusting variable resistors 61L and 61R, and the contact C of the jack 64 is connected to the contact C of the jack 65. .
[0030]
Further, since the cord 36 of the headphone 3 is used as an antenna for FM reception, a ferrite bead 62L is used as a high frequency blocking element in the signal line between the variable resistors 61L and 61R and the contacts A and B of the jack 65. 62R and a ferrite bead 62C is provided on the signal line between the contact C of the jack 64 and the contact C of the jack 65. Note that the ferrite beads 62L to 62C are provided in a portion close to the contacts A to C of the jack 65 in consideration of reception sensitivity.
[0031]
Further, the remote control operation unit 6 is provided with a tuner circuit 63. The tuner circuit 63 receives AM broadcast and FM broadcast, for example, and although not shown, in this example, the reception band is switched by a slide switch, and tuning is performed by a so-called variable capacitor (variable capacitor). Has been. The tuner circuit 63 can output left and right channel audio signals L and R. The standard or specification tuner circuit 63 is made into a one-chip IC and used for a radio receiver or the like.
[0032]
The contact C of the jack 65 is connected to the FM antenna input circuit (not shown) of the tuner circuit 63 through the capacitor C61, and the audio output terminal of the tuner circuit 63 is connected to the variable resistors 61L and 61R through the capacitors C62 and C63. In addition to being connected to the signal input side, the ground line of the tuner circuit 63 is connected to the contact C of the jacks 64 and 65 through the capacitor C64.
[0033]
Further, the contact D of the jack 64 is connected to the power line of the tuner circuit 63 through the diode D61 for preventing backflow, and the contact G of the jack 64 is connected to the ground line of the tuner circuit 63 through the power switch 66 for radio. A decoupling (smoothing) capacitor C65 is connected between the power supply line and the ground line of the tuner circuit 63.
[0034]
As a DC power source, for example, one AAA battery 67 is provided, one output electrode of which is connected to the power source line of the tuner circuit 63 through the emitter and collector of the switching transistor Q61, and the other electrode is connected to the power source line. Connected to the contact of the jack 64. Further, the contact D of the jack 64 is connected to the base of the transistor Q61 through a diode D62 for preventing backflow, and a resistor R64 is connected between the base and the output side of the switch 66.
[0035]
Further, between the contact E and contact G of the jack 64, the resistors R61 to R63 and a stop key KST, a reproduction key KPB, a fast-forward key KFF, and a rewind key KRW for remote control operation are ladder-connected. The collector and emitter of the switching transistor Q62 are connected between the contact E of the jack 64 and the output side of the switch 66, and the base thereof is connected to the collector of the transistor Q61 through the resistor R65. The operation keys KST to KRW are constituted by non-lock type normally open push switches.
[0036]
For example, a connection cord 5 as shown in FIG. 2 is prepared. The connection cord 5 is for connecting the player 1 and the remote control operation unit 6, and therefore has a cord 56 and plugs 55 and 54. When the plug 55 is inserted into the jack 15 of the player 1, the plug 55 has contacts A to E and G connected to the contacts A to E and G of the jack 15, and the plug 54 is a jack of the remote control operation unit 6. When plugged into 64, it has contacts A-E, G connected to contacts A-E, G of jack 64. The contacts A to E and G of the plug 55 are connected to the contacts A to E and G of the plug 54 through the cord 56.
[0037]
In such a configuration, when the player 1 is used by remote control operation, as shown in FIG. 3A, the plug 55 of the connection cord 5 is inserted into the jack 15 of the player 1, and the plug 54 is connected to the jack 64 of the remote control operation unit 6. And the plug 35 of the headphone 3 is inserted into the jack 65 of the remote control operation unit 6. The power switch 66 is turned off.
[0038]
Then, the contacts E and G of the jack 64 of the remote control operation unit 6 are connected to the contacts E and G of the jack 15 of the player 1 through the connection cord 5. When none of the operation keys KST to KRW is pressed, these are off, so that the voltage VRM at the contact E of the jack 15 is pulled up by the resistor R21 to the voltage VDC. When the stop key KST is pressed, the contact E of the jack 15 is connected to the contact G, that is, the ground through the stop key KST, so that the voltage VRM becomes zero. Further, when any of the operation keys KPB, KFF, KRW is pressed, the voltage VDC is generated by the resistor R21 and one or more resistors corresponding to the pressed key of the resistors R61 to R63. The voltage is divided, and the divided voltage becomes the voltage VRM.
[0039]
Then, the voltage VRM is supplied to the analog input port A / D of the microcomputer 22, and it is determined from the voltage VRM whether or not the keys KST to KRW have been pressed, and if so, which operation key is to be pressed. According to the determination result, the operation mode of the player 1 is controlled in the same manner as when the operation key 23 is operated. Therefore, the player 1 can be remote-controlled by the remote control operation unit 6.
[0040]
At the time of reproduction, the audio signals L and R from the amplifiers 14L and 14R are converted from the contacts A and B (and C) of the headphone jack 15 → the connection cord 5 → the contacts A and B (and C) of the jack 64 → the variable resistor. 61L, 61R → contacts A and B (and C) of the jack 65 → contacts A and B (and C) of the plug 35 → headphone cord 36 are supplied to the acoustic units 3L and 3R through the signal line. Therefore, the reproduced sound of the audio signals L and R reproduced by the player 1 can be heard by the headphones 3.
[0041]
That is, the remote control operation unit 6 can be used in the same manner as the remote control operation unit 4 in FIG. 5, can control the player 1, and reproduces audio signals L and R reproduced by the player 1 with headphones. 3 can be heard.
[0042]
Further, as shown in FIG. 3A, when the remote control operation unit 6 and the headphones 3 are connected to the player 1, the voltage VDC at the contact D (and G) of the jack 15 of the player 1 is controlled by the remote control through the connection cord 5. It is supplied to the contact D (and G) of the jack 64 of the section 6.
[0043]
Therefore, when the power switch 66 is turned on, the voltage VDC at the contact D (and G) of the jack 64 passes through the line of contact D → diode D61 → resistor R65 → base of transistor Q62 → emitter → switch 66 → contact G. Since it is supplied to the base of the transistor Q62, the transistor Q62 is turned on. If the transistor Q62 is on, this is equivalent to pressing the stop key KST to turn it on, so that the player 1 enters the stop mode regardless of the operation mode until the switch 66 is turned on. .
[0044]
Further, at this time, the voltage VDC at the contact D (and G) of the jack 64 is applied to the tuner circuit 63 through the contact D → diode D61 → the power line of the tuner circuit 63 → the ground line → the switch 66 → the contact G line. Supplied as voltage. When receiving FM broadcasts, FM broadcast waves are received by the cord 36 of the headphone 3, and the received signal is sent from the tuner C 63 through the signal line of the contact C of the plug 35 → the contact C of the jack 65 → the capacitor C61. To be supplied.
[0045]
Therefore, the tuner circuit 63 receives the broadcast, and the broadcast audio signals L and R are extracted from the tuner circuit 63. The signals L and R are output to the contacts A and B (and C) of the jack 65 through the signal lines of the capacitors C62 and C63 (and C64) → variable resistors 61L and 61R. Can be heard.
[0046]
At this time, the voltage VDC at the contact D of the jack 64 is supplied to the base of the transistor Q61 through the diode D62 and, for example, VDC = 3V and the voltage of the battery 67 is 1.5V, so that the switch 66 is on. However, transistor Q61 is reverse biased and off, and battery 67 is not consumed.
[0047]
Thus, when the switch 66 is turned on, the tuner circuit 63 is supplied with power, and the broadcast received by the tuner circuit 63 can be listened to by the headphones 3. At that time, the volume can be adjusted by the variable resistors 61L and 61R. Further, since the player 1 is in the stop mode and the transistor Q61 is also off, the current not related to the broadcast reception is not wasted.
[0048]
Therefore, as shown in FIG. 3A, when the remote control operation unit 6 and the headphones 3 are connected to the player 1, the player 1 and the remote control operation unit 6 are similar to a general headphone stereo incorporating a tuner circuit. Tape playback and broadcast reception can be performed.
[0049]
On the other hand, the remote control operation unit 6 can be used as an FM / AM receiver when used alone. That is, in that case, for example, as shown in FIG. 3B, the plug 35 of the headphone 3 is connected to the jack 65 of the remote control operation unit 6, and nothing is connected to the jack 64.
[0050]
When the switch 66 is turned on, the voltage of the battery 67 is supplied between the base and emitter of the transistor Q61 through the switch 66 and the resistor R64, so that the transistor Q61 is turned on. Therefore, since the voltage of the battery 67 is supplied as an operating voltage to the tuner circuit 63 through the transistor Q61 and the switch 66, the tuner circuit 63 receives the broadcast and can listen to this through the headphones 3.
[0051]
As described above, according to the remote control operation unit 6 of FIG. 1, when this is connected to the player 1, the player 1 can be remote-controlled and broadcast can be received even if the player 1 does not have a tuner circuit built-in. And listen. In this case, particularly, according to the above-described remote controller 6, the bar antenna for receiving the AM broadcast does not come close to the mechanical chassis or the case of the player 1, thereby reducing the AM reception sensitivity. There is no.
[0052]
Further, even if a high frequency component is generated in the microcomputer 22 of the player 1, the power supply circuit 25, a circuit for dynamically driving the LCD 24, etc., the tuner circuit 63 is provided in the remote control operation unit 6. It does not jump into the bar antenna, and therefore the reception quality is not deteriorated by noise.
[0053]
In addition, since the length of the headphone cord 36 can be adjusted to the wavelength of the FM wave, the FM reception sensitivity can be increased. Furthermore, since the tuner circuit 63 can be arranged close to the jack 65, attenuation of the FM signal received by the headphone cord 36 can be suppressed, and a decrease in FM reception sensitivity can be prevented.
[0054]
Furthermore, since it is not necessary to incorporate the tuner circuit 63 in the player 1, the player 1 is not increased in size. Further, if the player is versatile and can use the remote control operation unit 4 of FIG. 5, the remote control operation unit 6 can be used regardless of the model. For example, only the user who wants to listen to the broadcast can purchase the remote control unit 6 separately.
[0055]
In addition, only the remote control unit 6 can be used as a single FM / AM receiver, and at that time, it is as small and light as a general small radio.
[0056]
In the above description, the player 1 reproduces a cassette tape, but it may be a player or a recording / reproducing apparatus that reproduces a CD or MD. Further, the cord 56 can be directly connected to the corresponding part of the operation unit 6 without providing the jack 64 and the plug 54 in the remote control operation unit 6 and the connection cord 5. Similarly, the cord 36 can be directly connected to the corresponding part of the operation unit 6 without providing the jack 65 and the plug 35 in the remote control operation unit 6 and the headphones 3.
[0057]
【The invention's effect】
According to the present invention, AM reception sensitivity does not decrease. Further, it is possible to prevent a decrease in FM reception sensitivity. Furthermore, the player does not increase in size. Moreover, versatility is high. Moreover, it can be used alone as a receiver, and at that time, it is as small as a general small radio.
[Brief description of the drawings]
FIG. 1 is a connection diagram illustrating one embodiment of the present invention.
FIG. 2 is a connection diagram for explaining the present invention.
FIG. 3 is a diagram for explaining the present invention.
FIG. 4 is a connection diagram for explaining the present invention.
FIG. 5 is a connection diagram for explaining the present invention.
[Explanation of symbols]
1 = cassette player, 2 = magnetic tape, 3 = headphone, 3L and 3R = acoustic unit, 6 = remote control unit, 10 = reproducing circuit, 15 = headphone jack, 21 = tape running mechanism, 22 = microcomputer, 23 = Operation keys, 24 = LCD, 35 = plug, 63 = tuner circuit, 64 and 65 = jack, 66 = power switch, 67 = battery, KST to KRW = operation keys

Claims (2)

A cord supplied with an audio signal from the player, a signal line connected between the headphones,
A tuner circuit for supplying an audio signal obtained by receiving a broadcast to the signal line;
A plurality of operation switches connected to the player through the cord and for remotely operating the player;
Built-in battery,
A power switch;
A first switch circuit connected between the internal battery and the power line of the tuner circuit;
A second switch circuit connected in parallel with the stop switch of the plurality of operation switches,
When the cord is connected to the player and the power switch is off, the first and second switch circuits are turned off, and the audio signal supplied from the player to the signal line through the cord is sent to the headphones. To supply
When the cord is connected to the player and the power switch is on, the first switch circuit is turned off,
A remote operation signal equivalent to when the second switch circuit is turned on and the stop switch is operated is supplied to the player through the code, and
The DC voltage supplied from the player through the cord is supplied as an operating voltage to the tuner circuit through the power switch, and the audio signal is extracted from the tuner circuit.
This audio signal is supplied to the headphones,
When the cord is not connected to the player and the power switch is off, the first and second switch circuits are turned off,
When the cord is not connected to the player and the power switch is on, the first switch circuit is turned on to supply the voltage of the built-in battery to the tuner circuit as its operating voltage. Extract the audio signal from the circuit,
A remote controller operating the supplied audio signal to the headphones. The remote controller according to claim 1,
Receive FM broadcast waves with the above headphones code,
A remote controller that supplies the received signal to the tuner circuit.

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