CN213585704U - Spectrum expanding device based on dual-port mixer - Google Patents

Abstract

The utility model discloses a spectrum extension device based on dual-port mixer, including input duplexer, local oscillator frequency multiplier, local oscillator filter, local oscillator amplifier, output duplexer and terahertz dual-port mixer now. The input duplexer is used for receiving local oscillation signals output by the frequency spectrograph, and the local oscillation signals sequentially pass through a local oscillation frequency multiplier, a local oscillation filter, a local oscillation amplifier and the output duplexer in a local oscillation channel and then provide high-frequency local oscillation signals for the terahertz dual-port frequency mixer. The terahertz dual-port mixer is used for receiving a terahertz signal from equipment to be tested and down-converting the terahertz signal to an intermediate frequency signal through a frequency local oscillator signal; the output duplexer transmits the intermediate frequency signal to the frequency spectrograph for analysis and display through the intermediate frequency path and the input duplexer. The utility model provides a terahertz wave band frequency spectrograph frequency extension device has extremely low frequency conversion loss, can show increase frequency spectrograph signal measurement's dynamic range.

Description

Spectrum expanding device based on dual-port mixer

Technical Field

The utility model belongs to terahertz wave band frequency spectrograph frequency extension field, in particular to terahertz wave band down conversion receiver.

Background

With the requirements of modern system application and the development of device process technology, more and more applications are expanded to the millimeter wave high end and terahertz frequency band. The terahertz wave band (frequency > 0.1THz) has high frequency and extremely rich spectrum resources, for example, only the bandwidth of the G wave band (140-. The test equipment is the basis for developing related science and product research, however, the test equipment instrument of the terahertz waveband is extremely expensive, and the development of technical research in related fields has great significance.

The electrical signal measuring equipment generally comprises three types, namely a vector network analyzer, a signal source and a frequency spectrograph. At present, the working frequency of the main instrument host in the world does not exceed 67GHz, and a certain host of a manufacturer can work to 120GHz (German N5291A vector network analyzer). In order to realize the measurement of terahertz frequency band signals, a spread spectrum device needs to be externally connected to an instrument host. The spread spectrum devices are also classified into three types, namely vector network analyzer spread spectrum devices, signal source spread spectrum devices and spectrum analyzer spread spectrum devices. Generally, the signal source spread spectrum device is a frequency multiplication chain formed by cascading a plurality of frequency multipliers, and a necessary filter and an amplifier are contained in the frequency multiplication chain, so that a signal source in a microwave frequency band is multiplied to a terahertz wave band. The frequency spreading device of the frequency spectrograph is a harmonic mixer, a local vibration source for frequency mixing is integrated in the frequency spectrograph with the frequency spreading option, the output frequency of the local vibration source is generally lower than 20GHz, therefore, the harmonic mixer is needed to realize frequency mixing reception of terahertz wave band signals, and intermediate frequency signals are sent to the frequency spectrograph for frequency spectrum measurement. The spread spectrum device of the vector network analyzer generally comprises the local oscillation frequency doubling chain, the harmonic mixer, other passive devices and the like.

The utility model discloses related to the spread spectrum technique of frequency spectrograph, carried out corresponding investigation to current frequency spectrograph host computer and spread spectrum equipment. First, for the mainframe, two manufacturers that are widely used in the market today are rodschwarz, germany and germany, and the spectrometers of both manufacturers have extended functionality. The mainstream spectrometer in the de-cash stage is a PXA series spectrometer, which has an expansion interface (identifier LO/IF), and the port is actually a bidirectional port, and the inside of the spectrometer contains a duplexer. The port can provide local oscillation signals to the external harmonic mixer, and can also receive intermediate frequency signals generated by mixing of the external harmonic mixer for spectrum analysis, and the expansion mode with only one expansion interface is suitable for the dual-port harmonic mixer, namely an RF port and a shared LO/IF port, and the LO/IF port of the mixer is directly connected with the LO/IF port of a frequency spectrograph, for example, an eighth harmonic mixer of Dem 1971W. The mainstream spectrometer of the current stage of rodschwarz is the FSW series, which has two sets of three expansion interfaces (labeled LO/IF, LO and IF, respectively) that can operate independently, where the LO/IF port is the same as the LO/IF port of rodschz. The two ports of the LO and the IF are suitable for a three-port harmonic mixer, namely an RF port, an LO port and an IF port, and the LO port and the IF port of the harmonic mixer are correspondingly connected with the LO port and the IF port of the frequency spectrograph respectively.

For a spectrometer host, the local oscillator signal frequency range provided by the German PXA is 3.75-14.1 GHz, and the receiving intermediate frequency is 332.5 MHz; the frequency range of local oscillation signals provided by the FSW of Roder Schwarz is 7.65-17.45 GHz, and the receiving intermediate frequency is less than 1.5 GHz. Therefore, the local oscillation signal provided by the host is generally low in frequency, and needs to be mixed by higher harmonic waves when measuring terahertz signals. For example, the German PXA spectrometer measures 75-110 GHz signals, the harmonic frequency needs at least 8 times, and actually, the frequency of the German M1971W spread spectrum harmonic mixer is 8 times. Along with the increase of the measuring frequency, the harmonic frequency of the corresponding frequency mixer is also increased, and the corresponding frequency conversion loss is also greatly increased. For example, the frequency conversion loss of the harmonic mixer in the WR3.4 band (220-.

Disclosure of Invention

The purpose of the invention is as follows: aiming at the prior art, the spectrum spreading device based on the dual-port mixer is provided, so that the loss of the mixer can be obviously reduced, and the sensitivity of a spread spectrum system is greatly improved.

The technical scheme is as follows: a spectrum expansion device based on a dual-port mixer comprises an input duplexer, a local oscillator frequency multiplier, a local oscillator filter, a local oscillator amplifier, an output duplexer and a terahertz dual-port mixer;

the input duplexer is used for receiving local oscillation signals output by the frequency spectrograph, and providing high-frequency local oscillation signals for the terahertz dual-port frequency mixer after the local oscillation signals sequentially pass through a local oscillation frequency multiplier, a local oscillation filter, a local oscillation amplifier and an output duplexer in a local oscillation channel; the local oscillator frequency multiplier is used for multiplying the frequency of the local oscillator signal for N times, wherein N is more than or equal to 12;

the terahertz dual-port mixer is used for receiving terahertz signals from equipment to be tested, the terahertz signals are down-converted to intermediate frequency signals through the frequency local oscillator signals, the output duplexer passes through an intermediate frequency channel and the input duplexer transmits the intermediate frequency signals to the frequency spectrograph for analysis and display.

Further, the local oscillator frequency multiplier is configured to multiply the frequency of the local oscillator signal by N times, where the local oscillator frequency multiplier is a frequency multiplier, or is formed by cascading two or more frequency multipliers.

Furthermore, the local oscillation filter is used for filtering the frequency-multiplied signal and filtering out components except for the N-th harmonic.

Further, the terahertz dual-port mixer is a fundamental wave mixer or a low-order harmonic mixer.

Has the advantages that: the utility model discloses a terahertz wave band frequency spectrograph frequency extension device can provide terahertz double-port mixer with the microwave local oscillator signal that the frequency spectrograph provided after N times of doubling of frequency enlargies to realize the terahertz signal down conversion of low-loss, and send into the frequency spectrograph and carry out the analysis. At present, the mainstream spectrum spreading device is higher harmonic mixing. Compared with the prior art, the utility model discloses can directly carry out the local oscillator frequency extension to terahertz double-port mixer now to can realize low order harmonic or even fundamental wave mixing, greatly reduced frequency conversion loss.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

As shown in fig. 1, a spectrum spreading apparatus based on a dual-port mixer includes an input duplexer 1, a local oscillation frequency multiplier 2, a local oscillation filter 3, a local oscillation amplifier 4, an output duplexer 5, and a terahertz dual-port mixer 6. The input duplexer 1 is used for receiving local oscillation signals output by the frequency spectrograph, and the local oscillation signals sequentially pass through a local oscillation frequency multiplier 2, a local oscillation filter 3, a local oscillation amplifier 4 and an output duplexer 5 in a local oscillation channel 7 and then provide high-frequency local oscillation signals for a terahertz dual-port mixer 6. The terahertz dual-port mixer 6 is used for receiving a terahertz signal from equipment to be tested and down-converting the terahertz signal to an intermediate frequency signal through a frequency local oscillator signal; the output duplexer 5 sends the intermediate frequency signal to the spectrometer for analysis and display through the intermediate frequency path 8 and the input duplexer 1.

The input duplexer 1 separates a local oscillation signal in an interface used for expansion on the frequency spectrograph from an intermediate frequency signal generated by the terahertz dual-port mixer 6, so that the local oscillation signal is prevented from flowing into an intermediate frequency channel, and the intermediate frequency signal is prevented from flowing into the local oscillation channel. The local oscillator frequency multiplier 2 in the local oscillator channel 7 is used for multiplying the frequency of the local oscillator signal by N times, wherein N is more than or equal to 12. And the local oscillation filter 3 in the local oscillation channel 7 is used for filtering the frequency-multiplied signal and filtering components except the N-th harmonic. The local oscillator amplifier 4 in the local oscillator channel 7 is configured to amplify the filtered signal, so that the signal strength can meet the requirement of the subsequent mixer. The output duplexer 5 is used for separating the local oscillation signals after the frequency multiplication for N times from the intermediate frequency signals generated by the terahertz dual-port mixer 6, so that the frequency multiplication for N times is avoided from flowing into the intermediate frequency channel, and the intermediate frequency signals are avoided from flowing into the local oscillation channel 7. The terahertz dual-port mixer 6 is a fundamental wave mixer or a low-order harmonic mixer, and is used for realizing low-loss down-conversion of terahertz signals.

In this embodiment, the design of each unit circuit is specifically described by taking a WR3.4 band (220 to 325GHz) frequency expansion device as an example, and is also effective for the design of other frequency bands.

The design indexes of the frequency spectrum instrument frequency expansion device comprise the following radio frequency: 220-325GHz, medium frequency: DC-3GHz, second harmonic local oscillation frequency: 110 to 162.5 GHz. In order to design a frequency expanding device, a mainstream frequency spectrograph of German and Rogerman Schwarz can be used simultaneously, namely the local oscillator provided by the frequency spectrograph is 14.1GHz at most, and in order to realize the second harmonic local oscillator frequency, the frequency multiplication frequency of the local oscillator frequency multiplier 2 in the frequency expanding device is at least 12 times. Therefore, each component is designed, and index decomposition and requirements are as follows. Therefore, each component is designed, and index decomposition and requirements are as follows.

The frequency requirement of the intermediate frequency channel of the input duplexer 1 is DC-3GHz, the local oscillation channel is 9.1-14.1 GHz, and the isolation requirement of the two channels is more than 60dB, so that the input duplexer 1 can realize the separation of intermediate frequency and local oscillation signals.

The local oscillator frequency multiplier 2 is a 12-time frequency multiplier, can be cascaded by a 6-time frequency multiplier and a 2-time frequency multiplier, and has the output power requirement of more than 0 dBm; the design of the 6-time frequency multiplier needs to include preliminary filtering, so that the subsequent 2-time frequency multiplication is performed after the relatively pure 6-time frequency multiplication is realized.

The passband of the local oscillation filter 3 is 110 to 162.5GHz, that is, the fundamental wave and 3 harmonic signals are suppressed through the output signal of the preceding stage 2-order frequency multiplication, that is, 55 to 81.25GHz and 165 to 243.75GHz are suppressed. The filter may be implemented by a combination of a band pass filter and a low pass filter, taking into account the actual rejection bandwidth.

And the local oscillator amplifier 4 further amplifies the signal after the frequency doubling filter of 110-162.5 GHz, and the requirement of output power is more than 10 dBm.

The frequency requirement of the intermediate frequency channel of the output duplexer 5 is DC-3GHz, the local oscillator channel is 110-162.5 GHz, the isolation requirement of the two channels is more than 60dB, and thus the input duplexer can realize the separation of intermediate frequency and frequency multiplication local oscillator signals for 12 times.

The terahertz mixer 6 is a dual-port mixer, and the structure of the terahertz mixer can adopt a dual-port plane harmonic mixer for spread spectrum disclosed in Chinese patent 201910952314.4. The index requirements are as follows, radio frequency: 220-325GHz, harmonic mixing frequency: intermediate frequency: DC-3GHz, frequency conversion loss requirement: less than or equal to 12 dB.

Through the indexes of the components and the circuit planning design, the frequency spectrum instrument frequency expansion of a WR3.4 waveband (220-325GHz) with low loss can be finally realized, because the intermediate frequency is low, the loss of the two duplexers at the intermediate frequency is also low, the final frequency conversion loss is expected to be less than 14dB, and therefore the sensitivity of the conventional harmonic mixer expansion mode can be improved by two orders of magnitude.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (4)

1. A spectrum expansion device based on a dual-port mixer is characterized by comprising an input duplexer (1), a local oscillator frequency multiplier (2), a local oscillator filter (3), a local oscillator amplifier (4), an output duplexer (5) and a terahertz dual-port mixer (6);

the input duplexer (1) is used for receiving local oscillation signals output by the frequency spectrograph, and providing high-frequency local oscillation signals for the terahertz dual-port mixer (6) after the local oscillation signals sequentially pass through a local oscillation frequency multiplier (2), a local oscillation filter (3), a local oscillation amplifier (4) and an output duplexer (5) in a local oscillation channel (7); the local oscillator frequency multiplier (2) is used for multiplying the frequency of the local oscillator signal by N times, wherein N is more than or equal to 12;

terahertz dual-port mixer (6) are used for receiving the terahertz signal that comes from the equipment of awaiting measuring, through frequency local oscillator signal will terahertz signal down-conversion reaches intermediate frequency signal, output duplexer (5) pass through intermediate frequency route (8) and input duplexer (1) will intermediate frequency signal sends to the frequency spectrograph carries out analysis and display.

2. The dual-port mixer-based spectrum spreading device according to claim 1, wherein the local oscillator frequency multiplier (2) is a frequency multiplier or is formed by cascading two or more frequency multipliers.

3. The dual-port mixer-based spectrum spreading device according to claim 2, wherein the local oscillator filter (3) is configured to filter the frequency-multiplied signal to filter out components other than the N-th harmonic.

4. The dual port mixer-based spectrum spreading device according to any one of claims 1 to 3, wherein the terahertz dual port mixer (6) is a fundamental wave mixer or a low-order harmonic mixer.

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