JP2007127587A - Method of measuring array antenna - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method of measuring an array antenna capable of measuring an emission pattern by setting a plurality of phase shifters at the same time in one rotation of a rotary table. <P>SOLUTION: The method includes the rotary table 7 constituted to be rotated while holding an array antenna 1, a rotary table controller 8 for generating an angle signal in every fixed angle interval when rotating the rotary table, an RF signal generator 5 for generating an RF signal at a measuring frequency, a receiver 11 for supplying the RF signal to the array antenna, and for receiving the RF signal emitted from the array antenna while synchronized with a trigger signal from an outside, and a pulse generator 9 for generating the trigger signal to the receiver in a plurality of times, in every reception of the angle signal from the rotary table controller. The emission pattern by setting the plurality of phase shifters is measured at the same time in the one rotation of the a rotary table, by setting a phase of the phase shifter in the each array antenna in the every rotation angle, while rotating the rotary table at a desired rotation angle range, and by measuring a reception level of the receiver. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an array antenna measurement method, and more particularly to a radiation pattern measurement method for an array antenna.

  In the conventional array antenna measurement method, a method of adjusting the reception level from the phased array antenna to the maximum while sequentially changing the phase setting of the phase shifter of the phased array antenna is adopted. In order to carry out the above adjustment at an arbitrary beam scanning angle, the rotation angle of the turntable can be controlled, and the phase set in the phase shifter is sequentially changed while being fixed at the desired turntable angle. Thus, a method is adopted in which the phase setting of the phase shifter is adjusted so that the reception level becomes maximum, and when the adjustment is completed, the turntable is set to the next setting angle. (For example, refer to Patent Document 1).

Japanese Patent Laid-Open No. 7-263934

  In the radiation pattern measurement of the conventional phased array antenna, a phase value determined in advance is set in each phase shifter of the phased array antenna, and the turntable is rotated with the beam formed in a desired beam scanning direction. The radiation pattern was measured by measuring the reception level. For this reason, the radiation pattern at a specific phase shifter setting has been measured by rotating the turntable within a desired angle range to measure one radiation pattern at that phase shifter setting.

  Here, in order to shorten the time required for radiation pattern measurement, it is one means to rotate the turntable at high speed. However, the rotation speed of the turntable is small when the antenna mounted on the turntable is small. However, it is possible to rotate at a relatively high speed at a low cost, but in the case of measuring a large phased array antenna, as the mass of the antenna to be measured increases, the turntable becomes larger and its rotation speed increases. In many cases, it is difficult to rotate at a high speed at low cost.

  In addition, when stopping the rotation of the turntable, in order to accurately stop at the set angle, it is necessary to rotate at the normal speed from the start of rotation to the vicinity of the set angle, and from the vicinity of the set angle, the rotation speed needs to be sufficiently slow Therefore, as shown in Patent Document 1, the method of sequentially setting the setting angle of the turntable has a problem that the measurement time becomes enormous.

  Further, in the conventional radiation pattern measurement, when the turntable is rotated within a desired rotation angle range, an angle signal is generated at every predetermined angular interval, and the angle signal itself determines the timing for capturing the reception level of the receiver. It was a signal. Therefore, by rotating the turntable in a desired angle range, one radiation pattern at a specific phase shifter setting has been measured.

  Therefore, when measuring a radiation pattern with many phase shifter settings, it is necessary to rotate the turntable as many times as the number of phase shifter settings, which increases the measurement time. It was.

  The present invention has been made to solve the above-described problems, and it is possible to measure radiation patterns by setting a plurality of phase shifters simultaneously with one rotation of the turntable, greatly increasing the radiation pattern measurement time. It is an object of the present invention to provide an array antenna measurement method that can be reduced to a minimum.

  An array antenna measurement method according to the present invention includes an array antenna that is an antenna under measurement of a radiation pattern, a turntable that can be rotated while holding the array antenna, and a fixed angle when the turntable is rotated. A turntable controller that generates an angle signal at every interval, an RF signal generator that generates an RF signal at a frequency to be measured, and an RF signal generated by the RF signal generator is fed to the array antenna, and Each time an RF signal radiated from the array antenna is received in synchronization with an external trigger signal and an angle signal from the turntable controller, the trigger signal to the receiver is generated multiple times. A pulse signal generator, and setting the phase of the phase shifter of the array antenna for each rotation angle while rotating the turntable in a desired rotation angle range, and By measuring the reception level of signals machine, in rotation once the turntable, in which so as to measure the radiation pattern of a plurality of phase shifters simultaneously set.

  Since the array antenna measurement method according to the present invention is configured as described above, it is possible to measure radiation patterns by a plurality of phase shifter settings simultaneously with one rotation of the turntable, and to reduce the radiation pattern measurement time. It can be greatly reduced.

Embodiment 1 FIG.
Embodiment 1 of the present invention will be described below with reference to the drawings. FIG. 1 is a schematic diagram showing the configuration of a measurement system for explaining the measurement method according to the first embodiment. In FIG. 1, a phased array antenna 1 as an antenna to be measured includes a plurality of element antennas 2, a phase shifter 3 connected to each element antenna, and a distributor 4 that distributes an RF signal to each phase shifter. And is held by a turntable 7 that rotates within a desired angle range.

  Further, an RF signal generator 5 for generating an RF signal at a frequency to be measured is connected to the distributor 4 of the phased array antenna, and the phase shifter 3 is used to set the phase shifter to a desired phase value. A phase controller 6 is connected.

  Further, the turntable 7 is connected to a turntable controller 8 for controlling the rotation. The turntable controller 8 receives a pulse for a desired number of times each time an angle signal is received from the turntable controller 8. A pulse signal generator 9 for generating a signal is connected, and the pulse signal is input to a receiver 11 described later.

  On the other hand, the signal radiated from the phased array antenna 1 is received by the receiving antenna 10, and the RF signal received by the receiving antenna 10 is input to the receiver 11, and the reception level is measured. Further, the RF signal generator 5, the phase shifter controller 6, the turntable controller 8, and the receiver 11 are configured to be controlled by the measurement system controller 12.

  Next, the operation of the first embodiment will be described. The phased array antenna 1 which is the antenna to be measured obtains in advance the phase setting value of the phase shifter 3 so as to form a beam in a desired beam scanning direction. Here, a case will be described as an example where a radiation pattern is measured in N beam scanning directions in a desired beam scanning direction, for example.

  The turntable 7 is set to a measurement start angle within a desired radiation pattern measurement angle range via the turntable controller 8, and is rotated from the angle toward the measurement end angle. At that time, as shown in the timing chart of FIG. 2 and an enlarged view thereof, the turntable controller 8 generates an angle signal (a) for each fixed angular interval corresponding to the angular interval for which the reception level is to be measured. .

  This angle signal is input to the pulse signal generator 9. The pulse signal generator 9 generates a plurality of trigger signals, in this example, N trigger signals (b) every time an input angle signal is received. Upon receiving the first trigger signal among the N trigger signals, the phase shifter controller 6 sets the phase setting of the phase shifter 3 in the first beam scanning direction as shown in (c). The phase of the phase shifter 3 is set so that

  After completing the phase setting of the phase shifter, the pulse signal generator 9 generates a trigger signal (d) for causing the receiver 11 to measure the reception level. Receiving this trigger signal, the receiver 11 measures the reception level. Next, the phase shifter controller 6 which has received the second trigger signal (b) shifts the phase setting of the phase shifter 3 in the second beam scanning direction as shown in (c). The phase of the device 3 is set.

  After the phase setting of the phase shifter 3 is completed, the pulse signal generator 9 generates a trigger signal (d) for causing the receiver 11 to measure the reception level. Receiving this trigger signal, the receiver 11 measures the reception level. In this way, the reception level in N beam scanning directions is measured by repeating N times up to the Nth trigger signal. The N phase shifter settings and reception level measurements are processed until the next turntable angle signal is sent.

  By performing these processes at desired angular intervals between the angular ranges for which the radiation pattern is to be measured, the radiation pattern of the phased array antenna can be changed to the desired beam scanning direction without stopping the rotation of the turntable. In the above example, the radiation patterns for the N direction can be measured in one rotation of the turntable.

  The measured data is recorded in the measurement system controller 12. Here, the radiation pattern measurement with the amplitude is described as an example, but if the receiver 11 prepares the one capable of measuring the phase, the radiation pattern with the phase can be similarly applied.

Embodiment 2. FIG.
Next, a second embodiment of the present invention will be described with reference to the drawings. FIG. 3 is a schematic diagram showing the configuration of a measurement system for explaining the measurement method according to the second embodiment. In this figure, the same or corresponding parts as in FIG. 1 differs from FIG. 1 in that the RF signal generator 5 and the receiver 11 are replaced with the antenna 1 to be measured as a receiving system.

  In the first embodiment, the measurement system in a state where the antenna 1 to be measured is a transmission system is shown. However, as shown in FIG. 3, the measurement system in which the antenna 1 to be measured 1 is a reception system is also shown in FIG. The same effect as the case can be expected.

Embodiment 3 FIG.
Next, a third embodiment of the present invention will be described with reference to the drawings. FIG. 4 is a schematic diagram showing the configuration of a measurement system for explaining the measurement method according to the third embodiment. In this figure, the same or corresponding parts as in FIG. The difference from FIG. 1 is that after the phase setting of the phase shifter 3 is completed, the frequency of the RF signal generator 5 and the reception frequency of the receiver 11 are switched and set.

  In the first and second embodiments described above, measurement is performed at a single frequency. However, according to the third embodiment, not only the phase setting of the phase shifter 3 but also the frequency can be switched and measured. It becomes possible. In addition, if it is only frequency switching, it can be applied not only to a phased array antenna but also to other types of antennas that do not have a phase shifter.

  The present invention can be used mainly for radiation pattern measurement of a phased array antenna.

It is the schematic which shows the structure of the measurement system for demonstrating the measuring method by Embodiment 1 of this invention. 3 is a timing chart of various signals and an enlarged view thereof in Embodiment 1. FIG. It is the schematic which shows the structure of the measurement system for demonstrating the measuring method by Embodiment 2 of this invention. It is the schematic which shows the structure of the measurement system for demonstrating the measuring method by Embodiment 3 of this invention.

Explanation of symbols

1 phased array antenna, 2 element antenna, 3 phase shifter, 4 distributor,
5 RF signal generator, 6 phase shifter controller, 7 turntable, 8 turntable controller,
9 pulse signal generator, 10 receiving antenna, 11 receiver,
12 Measurement system controller.

Claims (3)

  An array antenna that is a measurement pattern antenna, a turntable that can be rotated while holding the array antenna, and a turntable that generates an angle signal at regular angular intervals when the turntable is rotated. A controller, an RF signal generator for generating an RF signal at a frequency to be measured, and the RF signal generated by the RF signal generator is fed to the array antenna, and the RF signal radiated from the array antenna is externally transmitted. And a pulse signal generator for generating a trigger signal to the receiver a plurality of times each time an angle signal is received from the turntable controller. While rotating the stage in a desired rotation angle range, setting the phase of the phase shifter of the array antenna for each rotation angle, and measuring the reception level of the receiver, Serial in turntable rotation once the array antenna measurement method to measure the radiation pattern of a plurality of phase shifters simultaneously set.   A turntable that can rotate while holding an array antenna that is an antenna under measurement of a radiation pattern, a turntable controller that generates an angle signal at regular angular intervals when the turntable is rotated, and an external Each time the receiver receives an RF signal radiated from the array antenna in synchronization with the trigger signal from the receiver and the angle signal from the turntable controller, the trigger signal to the receiver is generated a plurality of times. A pulse signal generator and an RF signal generator that switches the set frequency of the RF signal in synchronization with a trigger signal from the outside, and for each rotation angle while rotating the turntable within a desired rotation angle range By setting the frequency to be transmitted and measuring the reception level of the receiver, an array that measures the radiation pattern at multiple frequencies simultaneously with one rotation of the turntable. Antenna measurement method.   A turntable that can rotate while holding an array antenna, which is the antenna under measurement of the radiation pattern, a turntable controller that generates an angle signal at regular angular intervals when the turntable is rotated, and measurement An RF signal generator that generates an RF signal at a frequency to be transmitted and switches the frequency in synchronization with an external trigger signal, and an RF signal generated by the RF signal generator is fed to the array antenna, and the array antenna is supplied. A receiver that receives an RF signal radiated from an antenna in synchronization with an external trigger signal, and a pulse that generates a trigger signal to the receiver multiple times each time an angle signal is received from the turntable controller The phase shifter phase and transmission frequency of the array antenna for each rotation angle while rotating the turntable within a desired rotation angle range. By measuring the received level of the receiver, by the rotation of one time of the rotary table, an array antenna measurement method to measure the radiation pattern of a plurality of phase shifters set and a plurality of frequencies simultaneously.

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