JPH11112374A - Reception antenna device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a reception antenna device which can easily match a resonance frequency with a received frequency even if the installation position of a receiver or the laying of antenna line becomes slightly different as a result of the assembly work. SOLUTION: A micro computer 6 takes in received signal intensity RI from a receiver 4 inputting resonance output while the capacity of variable capacity diodes 2 and 3 forming a resonance circuit by connecting them with a loop antenna 1 is controlled with control DC voltage Vc from a D/A converter 7 from an A/D converter 5, and obtains control DC voltage Vc when received signal intensity RI becomes the largest. The capacity of the variable capacity diodes 2 and 3 is fixed with control DC voltage Vc and the resonance frequency of the resonance circuit is matched with the received frequency.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a receiving antenna device of a receiver mounted on, for example, a radio control (ie, radio control) model car.

[0002]

2. Description of the Related Art Conventionally, as a receiving antenna device of a receiver (a receiver for receiving a radio control signal transmitted from an operation device) mounted on a radio-controlled model car, for example, a so-called shortened whip antenna having a thin rod shape is used. Was used. As shown in FIG. 3A, the shortened whip antenna 10 is mounted on a roof 1 of a body 11 of the model car.
2 is provided on the model car in a state of protruding outside from _a hole 12a provided in the model vehicle. The shortened whip antenna 10 has a lower end fixed to the floor pan 13 in the model car, as shown in FIG. The shortened whip antenna 1
Numeral 0 is connected to a receiver 15 fixedly installed on the floor pan 13 by an antenna line 14 routed on the floor pan 13.

[0003]

By the way, a lover of a radio control model, for example, a radio control car model, generally does not purchase these finished products, but purchases each component part, assembles it by itself, and assembles it. When you run, you compete for the quality of your own assembly. Therefore, the position on the floor pan 13 where the receiver 15 is fixed and the antenna line 14
The method of routing will differ slightly for each RC model. For this reason, the receiving frequency is set to the antenna or the like at the time of shipment from the factory (radio control generally uses the 27 MHz band)
Even if it is adjusted so as to tune in, the resonance frequency of the antenna or the like after assembly is deviated from the reception frequency, and as a result, a receiver including such an antenna is
Poor sensitivity, weak to noise.

[0004] The present invention has been made in view of the above circumstances, and even if the installation position of the receiver or the routing of the antenna line is slightly different due to the assembling work, the resonance frequency can be reduced. An object of the present invention is to provide a receiving antenna device that can easily match a receiving frequency.

[0005]

According to the first aspect of the present invention, a receiving antenna device of a receiver mounted on a radio-controlled model is constituted as follows. That is, an antenna, a variable-capacitance capacitor connected to the antenna to form a resonance circuit, and a reception signal strength of a reception frequency signal (ie, a radio control signal) using the resonance circuit are obtained. A control circuit for adjusting the capacitance of the capacitor so as to maximize the strength is provided, and after assembling the radio-controlled model, the resonance frequency of the receiving antenna device is automatically tuned to the receiving frequency.

According to a second aspect of the present invention, a receiving antenna device of a receiver mounted on a radio control model is configured as follows. That is, a loop antenna, a variable-capacitance capacitor connected to the loop antenna to form a parallel resonance circuit, and a reception signal strength of a reception frequency signal using the resonance circuit are obtained, and the reception signal strength is maximized. And a control circuit for adjusting the capacitance of the capacitor so that the resonance frequency of the receiving antenna device is automatically tuned to the receiving frequency after assembling the radio control model.

According to a third aspect of the present invention, a receiving antenna device of a receiver mounted on a radio-controlled model automobile having an insulating body is constituted as follows. That is, a loop antenna provided in the body of the radio control model car,
A variable-capacitance capacitor connected to the loop antenna to form a parallel resonance circuit; and the capacitor using the resonance circuit to obtain a reception signal strength of a reception frequency signal and maximize the reception signal strength. And a control circuit for adjusting the capacity of the radio-controlled model car. After the radio-controlled model car is assembled, the resonance frequency of the reception antenna device is automatically tuned to the reception frequency.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be specifically described below based on an embodiment shown in the drawings. FIG. 1 shows a configuration of the embodiment, and a loop antenna 1 is a loop antenna that extends around a body 11 as described later. The two variable capacitance diodes 2 and 3 each having a cathode connected thereto are connected to a D / D
Functions as a capacitor whose capacitance varies with control DC voltage V _C applied via A converter 7 resistor R, which constitute a parallel resonance circuit connected in parallel with the loop antenna 1.

The receiver 4 takes in the resonance voltage of the parallel resonance circuit as an input signal, amplifies and detects this, and
This circuit obtains the transmitted signal and sends it to another circuit. A part of the output of the built-in intermediate frequency amplifier circuit is given to the A / D converter 5 as a received signal strength RI. The A / D converter 5 is a circuit unit that takes in the received signal strength RI, converts the received signal strength RI into corresponding digital data, and supplies the digital data to the microcomputer 6. The microcomputer 6 stores the digital data sent from the A / D converter 5 in a storage unit,
A circuit section for referring to the stored digital data and outputting predetermined digital data to the D / A converter 7 in accordance with a previously stored program. D / A converter 7 is a circuit for outputting an analog output or DC voltage V _C for the control corresponding thereto to the digital data sent from the microcomputer 6. The bypass capacitor C is a bypass capacitor for releasing a high-frequency component signal generated in the parallel resonance circuit to the ground.

FIG. 2 shows an arrangement state of the loop antenna 1.
RP (Fiberglass reinforced)
A large loop area is stretched inside a body 11 made of an insulating material such as plastics.

In the embodiment configured as described above, after assembling, when the radio wave relating to the radio control signal is being transmitted, the radio signal to the receiver 4 or the like (including the microcomputer 6) is transmitted. Each time the power supply is started, the following operation is performed. That is, the microcomputer 6
In accordance with a program stored in advance, corresponding digital data (hereinafter, referred to as control data) is sequentially changed so that the control DC voltage V _C changes by sweeping from a predetermined minimum value to a predetermined maximum value. the plan to capacity changes of the variable capacitance diode 2 and 3 with the change of control DC voltage V _C of the D / a converter 7 will sent (in this case, the loop antenna 1, the variable capacitance diode 2 and 3
The resonance frequency of the resonance circuit composed of

Further, the microcomputer 6 sequentially inputs a digital value (hereinafter referred to as intensity data) of the received signal intensity RI according to the change from the A / D converter 5 and stores it in association with the control data. To go. Thereafter, the microcomputer 6 sets the control data corresponding to the highest intensity among the stored intensity data as tuning control data in a predetermined register, and thereafter sets the tuning control data to D / D. The signal is continuously supplied to the A converter 7. Thus, the control DC voltage V _C corresponding to the tuning time control data is sent from the constantly D / A converter 7, the resonant frequency of the resonant circuit matches the frequency of the Rajioko signal (i.e. synchronized) , The input to the receiver 4 is the largest. In other words, after the model car is assembled, the auto tuning operation is performed. Even if the installation position of the receiver or the routing of the antenna line becomes slightly different due to the assembling work, accurate tuning is performed. Will be obtained.

In the present embodiment, the loop antenna 1
Is disposed in the body 11, but this has the advantage that the antenna is not subjected to wind pressure and the model car can travel comfortably accordingly.

The present invention is not limited to the above embodiment. For example, in the above embodiment, a loop antenna is used as an antenna. However, the present invention is not limited to this. Of course, it is good.

In this embodiment, the auto-tuning operation is performed only when the power supply to the receiver or the microcomputer is started. However, the auto-tuning operation may be performed at regular intervals after the start. Of course it is.

[0016]

As described above in detail, according to the present invention, even if the installation position of the receiver or the routing of the antenna line becomes slightly different due to the assembling work, the resonance frequency is changed to the reception frequency. It is possible to provide a receiving antenna device that can easily match with the above.

[Brief description of the drawings]

FIG. 1 is a diagram showing an embodiment of the present invention.

FIG. 2 is a diagram showing an arrangement state of a loop antenna according to the embodiment.

FIG. 3 is a diagram showing a conventional example.

[Explanation of symbols]

1 loop antenna 2 variable capacitance diode third variable capacitance diode R resistor C bypass capacitor 4 receiver RI received signal strength 5 A / D converter 6 the microcomputer 7 D / A converter V _C control DC voltage 10 truncated whip antenna 11 body 12 Roof 12 _a hole 13 floor pan 14 antenna line 15 receiver

Claims (3)

[Claims] 1. A receiving antenna device for a receiver mounted on a radio-controlled model, comprising: an antenna; a variable-capacitance capacitor connected to the antenna to form a resonance circuit; and a reception frequency using the resonance circuit. A receiving antenna device, comprising: a control circuit that obtains a received signal strength of a signal (ie, a radio control signal) and adjusts the capacity of the capacitor so that the received signal strength is maximized. 2. A receiving antenna device for a receiver mounted on a radio control model, comprising: a loop antenna; a variable capacitance capacitor connected to the loop antenna to form a parallel resonance circuit; And a control circuit that obtains the received signal strength of the received frequency signal and adjusts the capacitance of the capacitor so that the received signal strength is maximized. 3. A receiving antenna device for a receiver mounted on a radio-controlled model car having an insulating material body, wherein the loop antenna is provided in the body of the radio-controlled model car and is connected to the loop antenna. A variable-capacitance capacitor forming a parallel resonance circuit, and a control circuit that obtains a reception signal strength of a reception frequency signal using the resonance circuit, and adjusts the capacitance of the capacitor so that the reception signal strength is maximized. And a receiving antenna device.