JP3097065U - TV tuner unit - Google Patents

Abstract

An object of the present invention is to reduce the number of terminals to achieve miniaturization, and to eliminate the influence of an intermediate frequency signal in an actual use state on other circuits in a television receiver.
A tuner unit for converting a frequency and outputting an intermediate frequency signal, a demodulating unit for demodulating the intermediate frequency signal and outputting at least an audio signal, and a frame housing the tuner unit and the demodulating unit. And a terminal 3a attached to the frame 1 for outputting an audio signal to the outside. The terminal 3a is connected to the audio signal output terminal 5b of the demodulation unit 5, and the tuner unit 4 is connected via the opening / closing means 7. It was connected to the intermediate frequency signal output terminal 4b.
[Selection diagram] Fig. 1

Description

[0001]
[Technical field to which the invention belongs]
The present invention relates to a television tuner unit having a tuner section and a demodulation section.
[0002]
[Prior art]
A conventional television tuner unit will be described with reference to FIG. FIG. 4 shows an internal configuration of a conventional television tuner. A connector 31 is attached to one side plate 30a of a metal frame (case) 30, and a mother of a television receiver body is attached to another side plate 30b. A plurality of terminals 32 connected to a substrate (not shown) are attached. A tuner unit 33, a demodulation unit 34, and the like are configured on a circuit board (not shown) housed in the frame 30.
[0003]
In the tuner unit 33, a tuning circuit, a frequency conversion circuit, and the like are configured. Then, the television signal input to the tuner 33 via the connector 31 is converted into an intermediate frequency signal by the frequency conversion circuit, and the intermediate frequency signal is output from the intermediate frequency signal output terminal 33a. The intermediate frequency signal output from the tuner 33 is input to the demodulation unit 34 via the SAW filter 35. Since the characteristics of the intermediate frequency signal need to be checked by an external device, the intermediate frequency signal output terminal 33a is connected to the terminal 32a.
[0004]
The demodulation unit 34 is configured by an integrated circuit, and demodulates the input intermediate frequency signal and outputs a video signal, an audio signal, and the like. Each of these signals is output to the terminal 32, while the audio signal is output to the audio signal output terminal 34a. The audio signal output terminal 34a is connected to the terminal 32b via the resistor 36 and to the ground by the resistor 37.
[0005]
In the television tuner unit configured as described above, various performances are checked in the manufacturing process. Therefore, the television tuner is mounted on a jig for measurement (not shown), and a signal is input from each terminal to a terminal of the jig. Then, for example, in the performance check of the intermediate frequency signal, the intermediate frequency signal is input to the jig from the terminal 32a.
[0006]
[Problems to be solved by the invention]
The terminal 32a for outputting the intermediate frequency signal to the outside is provided for checking characteristics, and is not used in an actual use state. Therefore, if this terminal can be replaced with another terminal, the number of terminals can be reduced. Also, since the intermediate frequency signal is always output from this terminal in the actual use state, the intermediate frequency signal may affect other circuits in the television receiver and cause interference.
[0007]
SUMMARY OF THE INVENTION It is an object of the present invention to reduce the number of terminals to reduce the size, and to eliminate the influence of an intermediate frequency signal on other circuits in a television receiver in an actual use state.
[0008]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, a tuner unit that converts a frequency and outputs an intermediate frequency signal, a demodulator that demodulates the intermediate frequency signal and outputs at least an audio signal, and a frame that houses the tuner unit and the demodulator And a terminal attached to the frame for outputting the audio signal to the outside. The terminal is connected to an audio signal output terminal of the demodulation unit, and an intermediate portion of the tuner unit is provided via an opening / closing unit. It was connected to the frequency signal output terminal.
[0009]
Further, the switching means is constituted by a diode, a fixed bias voltage is applied to an anode of the diode, and a switch transistor is provided in which an emitter is grounded and a collector is pulled up via a power supply resistor. The collector and the cathode of the diode were interconnected by an inductance element.
[0010]
Further, the tuner section includes an emitter follower transistor having an emitter connected to the intermediate frequency signal output terminal, and an anode of the diode is connected to the intermediate frequency signal output terminal.
[0011]
Further, a resistor was inserted between the terminal and the audio signal output terminal of the demodulation unit.
[0012]
[Embodiment of the invention]
The television tuner unit of the present invention will be described with reference to the drawings. In FIG. 1, a connector 2 is attached to one side plate 1a of a metal frame (case) 1. Further, a plurality of terminals 3 connected to a mother board (not shown) of the television receiver main body are attached to the other side plate 1b. A tuner unit 4, a demodulation unit 5, and the like are configured on a circuit board (not shown) housed in the frame 1.
[0013]
In the tuner unit 4, a tuning circuit, a frequency conversion circuit, an intermediate frequency circuit, and the like are configured. Then, the television signal input to the tuner unit 4 via the connector 2 is converted into an intermediate frequency signal by a frequency conversion circuit. The intermediate frequency signal is output from the emitter of the emitter follower transistor 4a provided in the intermediate frequency circuit to the intermediate frequency signal output terminal 4b. The intermediate frequency output terminal 4b is connected to the input terminal of the SAW filter 6 and is connected to the anode of a diode 7 serving as a switch. The output terminal of the SAW filter 6 is connected to the intermediate frequency signal input terminal 5a of the demodulation unit 5. The cathode of the diode 7 is connected to the terminal 3a. Therefore, the anode of the diode 7 is biased to a fixed value by the emitter voltage of the emitter follower transistor 4a.
[0014]
The tuner unit 4 is provided with a switch transistor 4c and a control terminal 4d. The collector of the switch transistor 4c is pulled up to a power supply via a power supply resistor 4e, and the emitter is grounded. Then, the control terminal 4 d is connected to the cathode of the diode 7 by the inductance element 8. Therefore, the cathode of the diode 7 is DC-connected to the emitter of the switch transistor 4c. On the other hand, the demodulation unit 5 outputs a video signal, an audio signal, and the like, and the audio signal is output from the audio signal output terminal 5b. The audio signal output terminal 5b is connected to the terminal 3a by a resistor 9 and to the ground by a resistor 10.
[0015]
Note that the switch transistor 4c does not necessarily need to be provided in the tuner unit 4, but may be provided independently outside the tuner unit 4. In addition, terminals 32 other than the terminal 3a are connected to the tuner unit 4 and the demodulation unit 5 according to their intended use.
[0016]
In the above configuration, when the television tuner unit is actually used by being incorporated into a television receiver or the like, the switch transistor 4c is turned off. Then, the cathode potential of the diode 7 increases and turns off, and the connection relationship as shown in FIG. 2 is formed. Therefore, only the audio signal from the demodulation unit 5 is output to the terminal 3a. At this time, since the terminal 32 is pulled up by the series circuit of the inductance element 8 and the power supply resistor 4e, the audio signal is not attenuated.
[0017]
On the other hand, in the manufacturing process of the television tuner unit, when evaluating the characteristics of the intermediate frequency signal, the switch transistor 4c is turned on. Then, the cathode potential of the diode 7 is lowered and turned on, and the connection relationship as shown in FIG. 3 is formed. Therefore, since the terminal 3a is connected to the intermediate frequency signal output terminal 4a of the tuner unit 4, the intermediate frequency signal is output to the terminal 3a. At this time, the audio signal from the demodulation unit 5 is also output to the terminal 3a, but the audio signal is hardly affected by the audio signal because the frequency is far away from the intermediate frequency signal. Further, since the resistor 9 is interposed between the terminal 3a and the audio output terminal 5b, the intermediate frequency signal does not largely leak to the demodulation unit 5 side, and the influence on the intermediate frequency signal is small. Furthermore, since the inductance 8 is connected to the terminal 3a, the attenuation is small.
[0018]
[Effect of the invention]
As described above, a tuner unit that converts the frequency and outputs an intermediate frequency signal, a demodulator that demodulates the intermediate frequency signal and outputs at least an audio signal, a frame housing the tuner unit and the demodulator, Since it has a terminal attached to the body and outputs an audio signal to the outside, and the terminal is connected to the audio signal output terminal of the demodulation unit and connected to the intermediate frequency signal output terminal of the tuner unit via the opening and closing means, An audio signal or an intermediate frequency signal can be output to the terminal by opening and closing the opening and closing means. Therefore, when used in a television receiver, by opening and closing the opening / closing means, an audio signal can be derived into the receiver. In that case, the intermediate frequency signal is not output to the terminal. It does not affect other circuits. In addition, when the characteristics of the intermediate frequency signal are evaluated in the manufacturing process or the like, the intermediate frequency signal can be extracted from the terminal by closing the opening / closing means.
[0019]
The switching means is constituted by a diode, a fixed bias voltage is applied to the anode of the diode, and a switch transistor whose emitter is grounded and whose collector is pulled up via a feed resistor is provided. Are connected to each other by an inductance element, so that when an intermediate frequency signal is output to the terminal, the intermediate element does not leak to the switch transistor side due to the interposition of the inductance element, thereby preventing attenuation of the intermediate frequency signal.
[0020]
The tuner section has an emitter follower transistor whose emitter is connected to the intermediate frequency signal output terminal.The anode of the diode is connected to the intermediate frequency signal output terminal, so the diode is supplied with a fixed bias voltage from the emitter follower transistor. Is done. Therefore, on / off control of the diode is simplified.
[0021]
Also, since a resistor is interposed between the terminal and the audio signal output terminal of the demodulation unit, when outputting the intermediate frequency signal to the terminal, the intermediate frequency signal is not input to the demodulation unit side, and there is no signal attenuation. Also, the demodulation section is not affected by the intermediate frequency signal.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram of an internal configuration of a television tuner unit of the present invention.
FIG. 2 is a connection diagram of the internal configuration of the television tuner unit of the present invention.
FIG. 3 is a connection diagram of the internal configuration of the television tuner unit of the present invention.
FIG. 4 is an explanatory diagram of an internal configuration of a conventional television tuner unit.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Frame body 1a, 1b Side plate 2 Connector 3, 3a Terminal 4 Tuner part 4a Emitter follower transistor 4b Intermediate frequency signal output terminal 4c Switch transistor 4d Control terminal 4e Power supply resistor 5 Demodulation part 5a Intermediate frequency signal input terminal 5b Audio signal output terminal 6 SAW filter 7 Opening / closing means (diode)
8 Inductance element 9, 10 Resistance

Claims (4)

A tuner section that converts the frequency and outputs an intermediate frequency signal, a demodulation section that demodulates the intermediate frequency signal and outputs at least an audio signal, a frame housing the tuner section and the demodulation section, and a frame body. A terminal that is attached to output the audio signal to the outside, and the terminal is connected to an audio signal output terminal of the demodulation unit, and connected to an intermediate frequency signal output terminal of the tuner unit via opening / closing means. A television tuner unit, characterized in that: The switching means is constituted by a diode, and a fixed bias voltage is applied to the anode of the diode, and a switch transistor whose emitter is grounded and whose collector is pulled up via a power supply resistor is provided. The television tuner unit according to claim 1, wherein the cathode of the diode is interconnected by an inductance element. 3. The television according to claim 2, wherein the tuner section includes an emitter follower transistor having an emitter connected to the intermediate frequency signal output terminal, and an anode of the diode connected to the intermediate frequency signal output terminal. Tuner unit. 4. The television tuner unit according to claim 1, wherein a resistor is interposed between the terminal and an audio signal output terminal of the demodulation unit.

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