JPH01106631A - Tuner circuit - Google Patents

Abstract

PURPOSE:To contrive to attain reduction in the assembly parts and no adjustment by forming a local resonance inductor and a local pickup by a microstrip line and forming a high frequency filter to the strip line. CONSTITUTION:A resonance inductor 27, a local pickup line 29 are patterned on a printed circuit board 30 directly by a microstrip line as a pattern to eliminate the inductor for local adjustment and to form a local oscillation circuit. The line 29 depends on its the characteristic impedance, length and a distance from the inductor 27 and preset so as to obtain the best transmission characteristic. Moreover, a filter capacitor 31 patterned integratedly to the line 29 is formed. The cut-off frequency to suppress a harmonic disturbing wave is dependent on the capacitance Cs of the capacitor 31 and distances l1, l2 to the left/ right with respect to the center. Through the constitution above, number of assembly parts is decreased and no adjustment of the local oscillation frequency is attained.

Description

[Detailed Description of the Invention] "Industrial Application Field" The present invention provides a U
It relates to tuner circuits for the HF band and above, and particularly relates to local pickups, local resonant inductors, and their adjustment.

"Prior Art" Generally, a satellite broadcast television receiver has a tuner circuit as an adapter connected to the front stage of a normal terrestrial broadcast television receiver.

To explain this tuner circuit, when a satellite broadcast signal in the 11 GHz band and 4 GHz band is received by a parabolic antenna, it is converted into a first intermediate frequency (IF) signal in the 950 to 1450 M&band band by a converter, and this first IF signal is The signal is amplified by the signal amplification circuit, and the predetermined frequency signal is selected by the pre-selector circuit and sent to the mixer circuit, where it is mixed with the local oscillation signal of the local oscillation circuit.
Obtain a second intermediate frequency (IF) signal of 4.26MHz, amplify it with an amplifier circuit, and then pass it through a low-pass filter (LPF).
) circuit, is further amplified by an amplifier circuit, and then sent to the demodulation circuit of a normal television receiver.

Local oscillation circuit (8) in such a tuner circuit
) as shown in Figure 5, transistor (16), resistor (17) (1g) (19) (20), capacitor (21) (22) (23) (24) (25)
It consists of a variable capacitance diode (26), a resonant inductor (27) made of a microstrip line, an adjustment inductor (28), and a local pickup wire (29). As shown in Figure 4, conventionally, among these, inductors (27) and (28) were punched out of copper plates into a U-shape, and local pickups (28) were used.
9), a coated wire was used.

``Problems to be Solved by the Invention'' Since conventional inductors use sheet metal as shown in Figure 4, variations in connection with the resonant capacitance, such as the amount of solder and the size of the inductor. Variations due to lifting etc. had a large effect on the resonant frequency, causing a decline in quality. In addition, local oscillation signal pickup (2
9) uses a wire as shown in FIG. 4, and since it is adjacent to the resonant inductor (27), stray capacitance etc. exist unstably, which adversely affects the resonant frequency as described above. Therefore, as shown in FIG. 4, it was necessary to provide an adjustment inductor (28) for adjustment. In FIG. 4, (30) is a printed circuit board.

An object of the present invention is to obtain a circuit that does not require adjustment and has a simple circuit configuration.

"Means for Solving the Problems" The present invention has been made to achieve the above-mentioned objects, and it is a UH
In a tuner circuit for F band or higher, the local resonant inductor of the local oscillation circuit and the local pickup line for picking up the local signal are formed by a microstrip line, and a high frequency filter is integrated into the microstrip line for the local pickup line. The local resonant inductor, local pickup line and high frequency filter are formed by patterning microstrip lines on a printed circuit board.

"Operation" Taking the case of a satellite broadcast television receiver as an example, a parabolic antenna receives satellite broadcast signals in the 11 GHz band and 4 GHz band, and a converter receives the first I in the 950 to 1450 MHz band.
The signal is converted by F times, and the local signal from the local oscillation circuit is mixed into the mixer circuit to generate 134.26MHz.
A second IF multiplied signal is obtained, and this signal is amplified by the second xp amplifier circuit and sent to the demodulation circuit of a normal television receiver.

"Embodiment" Hereinafter, a satellite broadcast television receiver will be described as an embodiment of the present invention based on the drawings.

(1) is a parabolic antenna, and this parabolic antenna (
1) is coupled to the input terminal (4) of the tuner circuit (3) via the converter (2), and the input terminal (4) is connected to the first IF amplifier circuit (5) and the pre-selector circuit (6). The mixer circuit (7) is also connected to an oscillation circuit (8) and an oscillation signal amplification circuit (9) through the mixer circuit (7).
) are combined. The output side of this mixer circuit (7) is connected to an output terminal ( 14) are combined. Further, an automatic gain control (AGC) circuit (10) is coupled to the first stage amplifier circuit (11) for the second IF.

On the output side of the oscillation signal amplification circuit (9), a sufficient frequency circuit (15
) are combined.

The basic circuit configuration of the local oscillation circuit (8) is the same as in FIG. 5, but the resonant inductor (27), local pick, and upline (29) are
As shown in the figure, a microstrip line is formed by directly patterning on a printed circuit board (30), and the inductor for local adjustment is omitted. The local pickup line (29) is determined by its characteristic impedance, length, and distance from the resonant inductor (27), and is set in advance so as to have the best transfer characteristic.

In addition, the local pickup line (29) includes:
As shown in FIG. 2, an integrally patterned filter capacitor (31) is formed. This filter capacity (31
), the cutoff frequency for suppressing harmonic interference waves is determined by its size (Cs) and the left and right distances from the center (Q) (L).

Next, the present invention will be explained in detail.

When the parabolic antenna (1) receives satellite broadcast signals in the 1 GHz band and 4 GHz band, the converter (2) receives the 95
0 to 1450 to a first intermediate frequency (IF) signal, which is input to the input terminal (4) of the tuner circuit (3). The first IF multiplied signal input to this input terminal (4)
The signal is amplified by an IF amplifier circuit (5), a predetermined frequency is selected by a preselector circuit (6), and the signal is sent to a mixer circuit (7). In this mixer circuit (7), the local oscillation circuit (8
) and the local oscillation signal sent via the oscillation signal amplification circuit (9), and a second intermediate frequency (IF) signal of 134.26 MHz is output. This second IP multiplied signal is amplified by the first stage amplifier circuit (11) for the first IF, and at this time, the gain is controlled to a predetermined value by the AGC voltage from the AGC circuit (10). Then a low pass filter (LPF)
A two-stage amplifier circuit (1) for the second I-F via the circuit (12).
3) and this 134.26MHz second IF
The doubled signal is sent to the demodulation circuit of a normal television receiver via the output terminal (14).

"Effects of the Invention" Since the present invention is configured as described above, the number of assembly parts can be significantly reduced, and the local oscillation frequency can be eliminated without adjustment.
Furthermore, harmonic interference waves can be removed.

It is possible to improve productivity, reduce costs, and improve quality.

[Brief explanation of the drawing]

- Fig. 1 is a plan view of the resonant inductor and pickup line of the local oscillation circuit of the tuner circuit according to the present invention, Fig. 2 is a plan view of the circuit of Fig. 1 integrated with a harmonic filter, and Fig. 3 is a plan view of the satellite FIG. 4 is a block diagram of a tuner circuit of a broadcast television receiver, FIG. 4 is a perspective view of a conventional microstrip line, and FIG. 5 is a local oscillation circuit diagram. (1) Parabolic antenna, (2) Converter, (3) Tuner circuit, (4) Input terminal, (5) amplifier circuit, (6) Briselector circuit,
(7)...Mixer circuit, (8)...Oscillation circuit, (9
)...Oscillation signal amplification circuit, (1o)...AGC circuit, (11)...First stage amplifier circuit for second IF, (12)...
...LPF circuit, (13)...Two-stage amplifier circuit for second IF, (14)...Output terminal, (27)...Resonance inductor, (28)...Adjustment inductor, (29)・
...Local pickup line. Applicant Fujitsu General Ltd. J.2L-:・

Claims (2)

[Claims] (1) UH that allows resonant inductors to be realized with distributed constants
In a tuner circuit for F band or higher, the local resonant inductor of the local oscillation circuit and the local pickup line for picking up the local signal are formed by a microstrip line, and a high frequency filter is integrated into the microstrip line for the local pickup line. A tuner circuit characterized in that it is formed by forming. (2) The tuner circuit according to claim 1, wherein the local resonant inductor, the local pickup line, and the high-frequency filter are patterned on a printed circuit board as microstrip lines.