JP4048961B2 - Even harmonic quadrature modulator - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an even harmonic quadrature modulator used in a transmission device of a wireless communication system.
[0002]
As an example, an even harmonic is used in a transmitter of a vehicle-mounted or on-road transceiver configured as shown in FIG. 3 and used in a general-purpose narrow-area communication system currently under consideration for operation as shown in FIG. A wave quadrature modulator is used.
[0003]
[Prior art]
In conventional even harmonic quadrature modulator, power divider of the local oscillation wave to be supplied from the outside (hereinafter referred to as LO signal), and the power combiner even harmonic mixer output signal (hereinafter referred to as RF signal) Both have a configuration using a primary type, that is, one having a single frequency at which the amount of isolation between ports is maximized (see, for example, Patent Document 1).
[0004]
[Patent Document 1]
(Japanese Patent Laid-Open No. 8-242261, Item 28, Fig. 51, Item 21, Fig. 13, Fig. 14)
[0005]
[Problems to be solved by the invention]
In conventional even harmonic quadrature modulator, power divider of the LO signal, and therefore the power combiner both of the RF signal is used as the primary hybrid, two output ports of the power divider, and the power combiner The frequency band where the amount of isolation between the two input ports is sufficient is narrow. In the even harmonic quadrature modulator, the frequency of the RF signal is about twice the frequency of the LO signal, and the frequency of both is greatly different. Therefore, in order to improve the modulation accuracy as the quadrature modulator, Therefore, it is necessary to secure sufficient isolation between the ports of the power distributor and the power combiner. However, as described above, since the frequency band in which the amount of isolation between ports is sufficient is narrow, it is impossible to secure sufficient isolation between ports for both the frequency of the RF signal and the frequency of the LO signal. There was a problem that there was. For this reason, signals between the two output terminals of the power distributor that should be completely separated are mixed. At the same time, signals between the two input terminals of the power combiner, which should be completely separated, are mixed with each other. As a result, there is a drawback that the modulation accuracy of the even harmonic quadrature modulator deteriorates.
[0006]
[Means for Solving the Problems]
The present invention has been made to solve such a problem. Even if the difference between the frequency of the RF signal and the frequency of the LO signal is greatly different, sufficient isolation characteristics between ports are obtained for both frequencies. An object of the present invention is to obtain an even harmonic quadrature modulator having excellent modulation accuracy by configuring an even harmonic quadrature modulator using an LO signal power distributor and an RF signal power combiner.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
Embodiment 1 FIG.
FIG. 1 shows an even harmonic quadrature modulator according to Embodiment 1 of the present invention. In FIG. 1, the LO signal 2a supplied from the local oscillator 1 is input to the input terminal 4a, distributed to the same phase and the same amplitude by the secondary or higher equiphase hybrid power distributor 3, and distributed from the output terminal 5a. The LO signal 2b obtained by distributing the LO signal 2b from the output terminal 5b is output. The 45 degree phase shifter 6 converts the LO signal 2b into an LO signal 2d having a phase difference of 45 degrees and substantially the same amplitude as the LO signal 2c. The even harmonic mixer 7a analog-multiplies the I signal 9 from the baseband 8 and the second harmonic of the LO signal 2d to generate an RF signal 11a. The even harmonic mixer 7b generates an RF signal 11b by analog multiplication of the second harmonic of the Q signal 10 from the baseband 8 and the LO signal 2c. The RF signal 11a is input from the input terminal 4b, the RF signal 11b is input to the input terminal 4c, and is synthesized by the second-order or higher equiphase hybrid power combiner 12, and the RF signal 11c is output from the output terminal 5c.
[0008]
Embodiment 2. FIG.
FIG. 4 shows an even harmonic quadrature modulator according to the second embodiment of the present invention. In FIG. 4, the LO signal 2a supplied from the local oscillator 1 is input to the input terminal 4a, distributed in the same phase and the same amplitude by the secondary and higher equiphase hybrid power distributor 3, and distributed from the output terminal 5a. The LO signal 2b obtained by distributing the LO signal 2b from the output terminal 5b is output. The even harmonic mixer 7a analog-multiplies the I signal 9 from the baseband 8 and the second harmonic of the LO signal 2b to generate an RF signal 11a. The even harmonic mixer 7b generates an RF signal 11b by analog multiplication of the second harmonic of the Q signal 10 from the baseband 8 and the LO signal 2c. The 90-degree phase shifter 13 converts the RF signal 11a into an RF signal 11d having a phase difference of 90 degrees and substantially the same amplitude as the RF signal 11b. The RF signal 11d is input from the input terminal 4b, the RF signal 11b is input to the input terminal 4c, and is synthesized by the second-order or higher equiphase hybrid power combiner 12, and the RF signal 11c is output from the output terminal 5c.
[0009]
In even harmonic quadrature modulator which is configured as the first embodiment and the second embodiment, due to the use of secondary or more equiphase hybrid power divider and power combiner, the power divider The isolation between the two output ports and the two input ports of the power combiner can take any frequency band. Therefore, the frequency band can be a wide band including the frequency of the LO signal and the frequency of the RF signal, and sufficient isolation can be obtained at the frequency of the LO signal and the frequency of the RF signal. Therefore, mixing of mutual signal between two output terminals of the power distributor, and can suppress the contamination of the mutual signal between the input terminals of the power combiner, the improvement in the modulation accuracy even harmonic orthogonal modulator I can expect.
[0010]
As an example of the first embodiment and the second embodiment, a case where a secondary Wilkinson type is used for the power distributor and the power combiner will be described. The configuration of the secondary Wilkinson power divider is shown in FIG. Since the isolation characteristic of the power distributor has a characteristic shown by a solid line in FIG. 6, a power distributor that includes the frequency of the LO signal and the frequency of the RF signal in the frequency band may be used. Of course, the same applies to the case where the input terminal of the power distributor is used as an output terminal, the output terminal is used as an input terminal, and used as a power combiner.
[0011]
Embodiment 3 FIG.
Due to the use in even harmonic orthogonal modulator configured as the first embodiment and the second embodiment, the equiphase hybrid secondary or higher to the power distributor and the power combiner, a second power divider one isolation characteristics between the two input ports of the output port and the power combiner has the order the same number of poles of the power distributor and the power combiner. Therefore, an even harmonic quadrature modulator using a power distributor and a power combiner such that the frequency of one of the poles matches the frequency of the LO signal and the frequency of the RF signal.
[0012]
In the even harmonic quadrature modulator configured as in the third embodiment, sufficient isolation can be obtained at the frequency of the LO signal and the frequency of the RF signal. Therefore, incorporation of the mutual signal between two output terminals of the power distributor, and can suppress the contamination of the mutual signal between the input terminals of the power combiner, the improvement in the modulation accuracy even harmonic orthogonal modulator I can expect.
[0013]
As an example of the third embodiment, a case where a secondary Wilkinson type is used for the power distributor and the power combiner will be described. In this case, as shown by the solid line in FIG. 7, a power distributor and a power combiner whose pole frequencies coincide with the LO signal frequency and the RF signal frequency are used.
[0014]
Embodiment 4 FIG.
In the even harmonic quadrature modulator configured as in the first embodiment and the second embodiment, a power distributor in which either the frequency of the LO signal or the frequency of the RF signal exists in the frequency band, and Even harmonic quadrature modulator using a power combiner.
[0015]
Embodiment 5. FIG.
In even harmonic quadrature modulator which is configured as the fourth embodiment, due to the use of secondary or more equiphase hybrid power divider and power combiner, two output ports and power of the power distributor The isolation characteristic between the two input ports of the combiner has the same number of poles as the order of the power distributor and power combiner. Therefore, an even harmonic quadrature modulator using a power distributor and a power combiner such that the frequency of the LO signal or RF signal existing in the frequency band matches the frequency of any one pole.
[0016]
In the even harmonic quadrature modulator configured as in the fourth embodiment and the fifth embodiment, even when the required amount of isolation differs between the frequency of the LO signal and the frequency of the RF signal, the second or higher order is used. By arranging the equal-phase hybrid frequency band in an appropriate frequency band, sufficient isolation can be obtained. Therefore, mixing of mutual signal between two output terminals of the power distributor, and can suppress the contamination of the mutual signal between the input terminals of the power combiner, the improvement in the modulation accuracy even harmonic orthogonal modulator I can expect.
[0017]
As an example of the fourth embodiment and the fifth embodiment, a case where a secondary Wilkinson type is used for the power distributor and the power combiner will be described. In this case, as shown by the solid line in FIG. 8, the power divider and the power combiner whose frequency of the pole matches either the frequency of the LO signal or the frequency of the RF signal existing in the frequency band. Use a vessel.
[0018]
Embodiment 6 FIG.
In the even harmonic quadrature modulator configured as in the first and second embodiments, a power distributor and a power combiner in which a frequency band exists between the frequency of the LO signal and the frequency of the RF signal are used. Even harmonic quadrature modulator.
[0019]
In the even harmonic quadrature modulator configured as in the sixth embodiment, sufficient isolation can be obtained at the frequency of the LO signal and the frequency of the RF signal. Therefore, mixing of mutual signal between two output terminals of the power distributor, and can suppress the contamination of the mutual signal between the input terminals of the power combiner, the improvement in the modulation accuracy even harmonic orthogonal modulator I can expect.
[0020]
As an example of the sixth embodiment, a case where a secondary Wilkinson type is used for the power distributor and the power combiner will be described. In this case, as shown by the solid line in FIG. 9, a power distributor and a power combiner that have a frequency between the frequency of the LO signal and the frequency of the RF signal are used.
[0021]
【The invention's effect】
The present invention uses a second-order or higher equiphase hybrid for the power divider and power combiner of the even harmonic quadrature modulator, thereby allowing mutual mixing of signals between two output terminals of the power divider, and The mutual mixing of signals between the input terminals of the power combiner can be suppressed, and the modulation accuracy of the even harmonic quadrature modulator can be improved.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a first embodiment of an even harmonic quadrature modulator according to the present invention.
FIG. 2 is a perspective view showing an actual use example of a transceiver using the even harmonic quadrature modulator according to the present invention.
FIG. 3 is a block diagram of a transmission apparatus using an even harmonic quadrature modulator according to the present invention.
FIG. 4 is a block diagram showing a second embodiment of an even harmonic quadrature modulator according to the present invention.
FIG. 5 is an equivalent circuit showing a configuration of a secondary Wilkinson power divider used in an even harmonic quadrature modulator.
FIG. 6 is a diagram illustrating isolation characteristics of a second-order Wilkinson power divider and a power combiner in the first and second embodiments of the even harmonic quadrature modulator according to the present invention.
FIG. 7 is a diagram illustrating isolation characteristics of a second-order Wilkinson power divider and a power combiner in Embodiment 3 of the even harmonic quadrature modulator according to the present invention.
FIG. 8 is a diagram illustrating isolation characteristics of a secondary Wilkinson power divider and a power combiner in the fourth and fifth embodiments of the even harmonic quadrature modulator according to the present invention.
FIG. 9 is a diagram illustrating isolation characteristics of a second-order Wilkinson power divider and a power combiner in Embodiment 6 of an even harmonic quadrature modulator according to the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Local oscillator 2 LO signal 3 Secondary phase or higher equiphase hybrid type power divider 4 Input terminal 5 Output terminal 6 45 degree phase shifter 7 Even harmonic mixer 8 Baseband 9 I signal 10 Q signal 11 RF signal 12 Secondary The above equiphase hybrid type power combiner 13 90 ° phase shifter 14 lane 15 lane separation band 16 traveling direction 17 vehicle 18 vehicle-mounted transceiver 19 support 20 road transceiver 21 transmitted wave from vehicle transceiver 22 from road transceiver Transmission wave of 23 Communication area 24 Modulation circuit 25 Baseband amplifier (AMP)
26 Low-pass filter (LPF)
27 Even harmonic quadrature modulator 28 Band pass filter (BPF)
29 High Power Amplifier (HPA)
30 Antenna (ANT)
31 Transmission line 32 Isolation resistance

Claims (2)

An equiphase hybrid power distributor that distributes a local oscillation wave supplied from the outside , and a first wave that generates a mixed wave of a second harmonic of one output signal of the power distributor and the first external input signal An even harmonic mixer, a phase shifter that rotates the phase of the other output signal of the power distributor by 45 degrees, and a mixed wave of the second harmonic of the output signal of this phase shifter and the second external signal a second even harmonic mixer for generating, possess the equal phase hybrid power combiner that combines the output signals of the first and second even harmonic mixer, the equal phase hybrid type power distributor and the Both of the equiphase hybrid power combiners have an even harmonic quadrature characterized by having poles in the isolation characteristics between the frequency of the local oscillation wave and the frequency of the output signal of the equiphase hybrid power combiner. Modulator. An equiphase hybrid power distributor that distributes a local oscillation wave supplied from the outside , and a first wave that generates a mixed wave of a second harmonic of one output signal of the power distributor and the first external input signal An even harmonic mixer; a second even harmonic mixer that generates a mixed wave of a second harmonic of the other output signal of the power divider and a second external signal; and the first even harmonic mixer. possess a phase shifter for rotating the phase by 90 degrees of the output signal of the equal phase hybrid power combiner for combining the output signals of the second even harmonic mixer of the phase shifter, Both the equiphase hybrid power distributor and the equiphase hybrid power combiner have poles in the isolation characteristics between the frequency of the local oscillation wave and the frequency of the output signal of the equiphase hybrid power combiner. especially in that it has Even harmonic quadrature modulator to.

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