JPH0134419Y2 - - Google Patents

Description

[Detailed Description of the Invention] The purpose of this invention is to reduce conversion loss and improve performance of a microwave integrated circuit mixer constituted by a planar circuit such as a microstrip line.

Conventionally, for example, an SHF receiver for receiving satellite broadcasting includes a single-ended microwave integrated circuit mixer (hereinafter referred to as MIC mixer) configured of a planar circuit such as a microstrip line.

The conventional MIC mixer is configured as shown in Figure 1 by grounding the entire back side of the double-sided board and forming a copper film pattern on the front surface of the double-sided board. The wave input signal is transmitted through the input path 2 to the first and second wave input signals.
The input signal is input to a two-stage filter of input signal band pass filters (hereinafter referred to as BPF) 3 and 4, and the input signals of a predetermined band are extracted by both BPFs 3 and 4.

Furthermore, the input signal of the predetermined band extracted by both BPFs 3 and 4 is transmitted to the cathode of the mixer diode 6 via one end of the transmission line 5.

Further, the local oscillation signal of the local oscillation signal input terminal 7 is inputted to the local oscillation signal BPF 9 via the input path 8, and the local oscillation signal extracted by the BPF 9 is transmitted to the diode 6 via the other end of the transmission line 5. transmitted to the cathode.

By the way, in order to supply the input signal and the local oscillation signal to the cathode of the diode 6 most efficiently, the line length l1 from one end of the transmission line 5 to the connection position of the cathode of the diode 6 is set so that the line length _l1 from the diode 6 to the BPF 3, 4 is The impedance when viewed is an open impedance, and the length at which the local oscillation signal terminates at the connection position of the cathode of the diode 6 is set to an integral multiple of 1/2 wavelength of the local oscillation signal. The line length _l2 from the end to the connection position of the cathode of diode 6 is the length at which the impedance when looking at BPF 9 from diode 6 becomes an open impedance, and the input signal terminates at the connection position of the cathode of diode 6, that is, the input The length is set to an integral multiple of 1/2 wavelength of the signal.

Then, the input signal and the local oscillation signal are subtractively mixed by the diode 6, and the input signal and the local oscillation signal are subtracted and mixed from the anode of the diode 6 to a low-pass filter (hereinafter referred to as a low-pass filter).
An intermediate frequency signal having a frequency obtained by subtracting the frequency of the input signal and the frequency of the local oscillation signal is outputted to an intermediate frequency signal output terminal 11 via an LPF (referred to as LPF) 10.

In addition, in order to short-circuit the frequency of the image signal, which is twice the frequency of the local oscillation signal and the frequency of the input signal, at the connection position of the cathode of the diode 6, a wire with a quarter wavelength of the image signal is connected to one end of the transmission line 5. An image signal blocking filter 12 having an odd number times the length is formed, and a current feedback path 1 forming a feedback path for the direct current flowing through the diode 6 is provided on the other end side of the transmission line 5.
3 is formed.

Furthermore, when an intermediate frequency signal occurs at the cathode of the diode 6, the intermediate frequency signal is consumed by the transmission line 5, the filter 12, and the current return path 13, reducing efficiency. 14 is formed,
A chip capacitor 15 is provided between the inductor 14 and the ground by wire bonding or the like, and the series circuit of the inductor 14 and the capacitor 15 constitutes a series resonant circuit for shorting the intermediate frequency signal. The cathode is grounded at high frequency to short-circuit the intermediate frequency signal.

That is, in the case of FIG. 1, it is necessary to form the pattern of the inductor 14 and provide the chip capacitor 15 in order to short-circuit the intermediate frequency signal.

Further, due to variations in the capacitance of the chip capacitor 15, inductance components of the electrodes, etc., the resonance frequency of the series resonant circuit deviates from the frequency of the intermediate frequency signal, resulting in an increase in conversion loss and a decrease in conversion efficiency.

This invention was made with the above points in mind, and in a microwave integrated circuit mixer having a planar circuit configuration, an input signal band-pass filter for extracting an input signal in a predetermined band from a high-frequency signal input terminal, and a local a band-pass filter for local oscillation signals that extracts a local oscillation signal from an oscillation signal input terminal; a line length la that is an odd multiple of 1/4 wavelength of an intermediate frequency signal formed by the input signal and the local oscillation signal; and the input terminal. a transmission line having a line length equal to the sum of a line length lb that is an integral multiple of 1/2 wavelength of the signal, and into which the input signal is input at one end and the local oscillation signal is input at the other end; a mixer diode having one end connected to a position of the line length la from one end of the line and outputting the intermediate frequency signal from the other end; The present invention provides a microwave integrated circuit mixer provided with a band rejection filter that short-circuits and prevents a local oscillation signal substantially at the connection point of the diode.

Therefore, according to the microwave integrated circuit mixer of this invention, the intermediate frequency signal at one end of the mixer diode can be short-circuited without using the conventional series resonant circuit for short-circuiting the intermediate frequency signal, and in this case, the chip capacitor is used. Since the intermediate frequency signal is not used, it is possible to reliably short-circuit the intermediate frequency signal, prevent an increase in conversion loss, stably improve conversion efficiency, and improve performance.

Next, this invention will be explained in detail with reference to FIG. 2 showing one embodiment thereof.

In FIG. 2, the same symbols as in FIG. 1 indicate the same or equivalent parts, and the difference is that a transmission line 16 is formed instead of the transmission line 5 in FIG. 1, and the inductor 14 and chip capacitor in FIG. 15, and in order to short-circuit the local oscillation signal almost at the connection position of the cathode of the diode 6, a substantially L-shaped band rejection filter 17 is connected to the transmission line 16.
This point is formed near one end side of the connection position of the cathode of the diode 6.

The line length la from one end of the transmission line 16 to the connection position of the cathode of the diode 6 is set to an odd multiple of the 1/4 wavelength of the intermediate frequency signal. The impedance for the frequency signal becomes a short-circuit impedance, and the intermediate frequency signal is short-circuited.

Also, the line length lb from the other end of the transmission line 16 to the connection position of the cathode of the diode 6 is set to an integral multiple of the 1/2 wavelength of the input signal, similar to the line length _l2 in Fig. 1. , the impedance to the input signal when looking at BPF 9 from diode 6 becomes an open impedance, and the input signal
terminates at the cathode connection point.

Further, in order to make the impedance for the local oscillation signal when looking at the BPFs 3 and 4 from the diode 6 into an open impedance, and to terminate the local oscillation signal at the connection position of the cathode of the diode 6, the diode 6 is connected from the center of the bend of the filter 17. The length lc to the cathode connection position is set to an odd multiple of the quarter wavelength of the local oscillation signal.

Therefore, according to the embodiment, as in the case of FIG. 1, the input signal and the local oscillation signal are terminated at the connection position of the cathode of the diode 6, and the intermediate frequency signal of the cathode of the diode 6 is short-circuited. Therefore, from the anode of diode 6
The intermediate frequency signal can be outputted to the output terminal 11 via the LPF 10, and in this case, there is no need to provide the chip capacitor 15 shown in Fig. 1, so the intermediate frequency signal can be reliably shorted without any variation, resulting in an increase in conversion loss. can be prevented and conversion efficiency can be stably improved.

Note that it is of course possible to use not only a planar circuit made of microstrip wires but also a planar circuit made of coplanar wires, for example.

[Brief explanation of the drawing]

FIG. 1 is a plan view of a double-sided substrate forming a conventional microwave integrated circuit mixer, and FIG. 2 is a plan view of one embodiment of the microwave integrated circuit mixer of this invention. 1...High frequency signal input terminal, 3, 4...1st,
Bandpass filter for second input signal, 6... Diode for mixer, 7... Local oscillation signal input terminal, 9
...Local oscillation signal bandpass filter, 16...
Transmission line, 17...Band rejection filter.

Claims (1)

[Claims for Utility Model Registration] An input signal band-pass filter 3 for extracting an input signal in a predetermined band from the high-frequency signal input terminal 1;
4, a local oscillation signal bandpass filter 9 for extracting the local oscillation signal of the local oscillation signal input terminal 7, and one end of the input signal bandpass filter 3, 4.
a transmission line 16 to which the input signal from the local oscillation signal is input and the local oscillation signal from the local oscillation signal bandpass filter 9 is input to the other end; and a current return path 13 provided on the transmission line 16.
In a microwave integrated circuit mixer having a planar circuit configuration, the line length lb is an integral multiple of the 1/2 wavelength of the input signal, and
The line length (la+lb) is the sum of the input signal and a line length la that is an odd multiple of 1/4 wavelength of the intermediate frequency signal formed by the local oscillation signal, and the line length of the transmission line 16 is set as the line length of the transmission line 16. a mixer diode 6, one end of which is connected from one end of the transmission line 16 to a position with a line length la that is an odd multiple of 1/4 wavelength of the intermediate frequency signal, and outputs the intermediate frequency signal from the other end; a band rejection filter 17 that is provided near one end of the transmission line 16 from the connection position of the diode 6 and that blocks the local oscillation signal from being short-circuited approximately at the connection point of the diode 6; mixer.