JP4234296B2 - Reception control device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a reception control apparatus capable of switching antennas (antennas) as a function of a receiver in order to perform sweeping of an input sensation signal over a wide band, and the present invention operates a receiver. In order to carry out scanning, which is a general function for monitoring, over a wide band, not only the operator's operation, but also an antenna switching control device with a function that allows the receiver to automatically select the antenna Further, the present invention relates to a reception control device that can automatically identify and select a frequency range that each antenna has individually when a plurality of antennas are connected to the receiver.
[0002]
[Prior art]
An example of a circuit configuration of a conventional antenna switching device is shown in FIG. In this conventional antenna switching device, the operation by the relay switching command from the main control unit is not performed, but only by the operation of the relay switching command by the operator. The operation procedure is shown below, and an outline of the operation will be described. (1) The operator stores the frequency range assigned to the antenna separately. (2) Based on the information, the antenna assigned to the frequency for which the reception operation is to be performed is selected, and the operator issues a switching command to the antenna switching relay to perform relay switching. (3) Distribute the input from the antenna and output it to the receiver. Since such an operation operation is performed, there is a problem that the sweep function, which is a general function of the receiver, cannot be performed over a wide band.
[0003]
Further, as shown in FIG. 8 as an example of the circuit configuration of the conventional antenna switching device, the operation by the switching command from the control circuit is not performed and only the switching command by the operator is performed. Next, an operation procedure and an outline of the operation will be described. (1) The operator separately stores the frequency range to which the antenna is assigned. (2) Based on the data, an antenna is selected according to the frequency to be received, and the operator switches the antenna for each of the receivers. (3) For connection to a plurality of receivers, inputs are distributed to four antennas. In order to perform such operations, there has been a problem that the sweep function, which is a general function of a broadband receiver, cannot be fully exhibited.
[0004]
An example of a connection configuration between a conventional receiver and a reception controller is shown in FIG. In the figure, the receiver is connected to the reception controller through a parallel interface and a GP-IB interface. Data is transmitted and received by these two interfaces. A plurality of antennas (up to four in this example) are connected to the reception controller. The reception controller switches the antenna connection. The receiver stores the frequency data for each CH (channel) and the frequency data range of each antenna (the latter data is notified from the reception controller).
[0005]
The receiver compares the above two data when switching the frequency. When the frequency to be tuned is outside the range of the currently connected antenna, the receiver requests the reception controller to switch the antenna. In response to this request, the reception controller switches the antenna and sends a completion notification to the receiver.
[0006]
The reception controller of this system needs to set the adaptive frequency range of the antenna connected to the own device and notify the receiver. However, in the current system, since this data input is performed by the operator, there is a trouble that the operator has to perform the data setting operation every time the connection state of the antenna is changed. There has been a problem that frequency data has to be input from the numeric keypad (key for inputting numbers from 0 to 9) from the panel surface of the reception control unit.
[0007]
[Problems to be solved by the invention]
It is an object of the present invention to connect a plurality of antennas having different frequency bands, and in a wideband receiver having a wide range of receivable frequency bands, the operator performs antenna selection in the conventional method of selecting an antenna. It is necessary to store the assigned frequency range separately, and this solves the problem that it is not suitable for scanning (sweep) of the sensation signal over a wide band, which is a function of the receiver. The reception control device having an antenna switching unit, a reception unit, a main control unit, and an input unit that can improve the operator's work efficiency and improve the operational efficiency of a plurality of receivers Is to provide.
[0008]
It is another object of the present invention to receive signals when a conventional receiver and a reception controller are connected by a parallel interface and a GP-IB interface, and an antenna of a system in which a plurality of antennas are connected is connected or switched. The controller must set the adaptive frequency range of the antenna and notify the receiver. In the conventional system, the operator inputs the frequency data for each antenna from the panel of the reception control unit every time the antenna connection status changes. An object of the present invention is to provide a reception control apparatus to which an automatic identification and automatic notification function of an antenna frequency range is added.
[0009]
[Means for Solving the Problems]
In order to achieve the above object, the present invention provides a reception control apparatus in which a receiver and a reception controller are connected by a parallel interface and a GP-IB interface, wherein the reception controller determines a frequency range of an antenna to be connected. With the ability to automatically identify and configure,
When the system power is turned on, the presence / absence of an antenna is checked. If there is an antenna connected, the type data is fetched from the antenna allocation frequency table stored in advance in the storage unit of the reception controller. Means,
Based on the type of antenna, the reception controller searches the assigned frequency table for the antenna composed of the antenna type, frequency lower limit value, and frequency upper limit value, and if not connected or defined in the table above. If there is no type, it will result in a search error and a means to set data that defines unconnected,
The receiver controller build notification data to the receiver based on the search error also included test Sakuyui result, it means for transmitting,
The receiver requests switching of the antenna based on the received data, and means for switching to any antenna when there is a search error in the reception controller;
The reception controller includes at least means for monitoring the connection state and type of the antenna.
[0013]
By adopting a configuration as described in the above claims, the present invention makes it possible to perform a scan (sweep) of a wide range of sensation signals, which is a function of the receiver, and switch the antenna to the receiver. It can be automatically implemented as a function, and there is an effect that it is possible to improve the work efficiency of the operator and the operational efficiency of a plurality of receivers.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
< Reference Example 1>
Figure 1 is a circuit diagram showing the configuration of the antenna switching unit of the reception control apparatus of Example 1 of the present invention, FIG. 3 is a block diagram showing a configuration of the reception control apparatus, FIG. 4, the received It is a figure which shows the flowchart of the antenna switching process of a control apparatus.
FIG. 5 is a diagram showing a flowchart of the antenna connection state confirmation process of the reception control device,
In FIG.
(Note 1) The antenna connection information is captured and inspected.
(Note 2) Antenna type information is captured and inspected.
(Note 3) If the antenna type information is undefined, set the unconnected data to prevent malfunction.
(Note 4) When changing the maximum number of antennas that can be connected, this value is compared with a value obtained by adding 1 to this value.
(Note 5) The data transmission timing to the receiving unit has the following two patterns.
(1) Performed when the system power is turned on.
(2) Monitor the state of the antenna at all times, and implement it when the state changes. Presence of the antenna, check the status change, such as normal or not carried by a comparison of the "frequency range data transmitted to the last receiver".
6 is a block diagram showing the internal configuration of the main control unit of the reception control apparatus.
Here, an antenna allocation frequency table (antenna adaptive frequency search table) used in this reference example is shown in FIG. In [Table] in FIG. 10, unconnected information indicates a case where the antenna is not connected or a case where the antenna is not normal.
[0015]
Figure 4 shows a flow chart of the antenna switching process of the present embodiment (when operating the reception control apparatus for its normal begins operation 1).
※Initial setting
(1) The antenna allocation frequency is stored in advance in a table in the ROM of the main control unit (see the antenna allocation frequency table shown in Table of FIG. 10).
The operator inputs the following information into the input unit.
(A) When an antenna is connected, the frequency information assigned to the antenna is input.
(B) If the antenna is not connected, enter the unconnected information.
* Operation 1 (see the antenna connection state confirmation processing flowchart shown in FIG. 5).
The connection state of the antenna is inspected based on the assigned frequency table of the antenna.
* Operation 2 (when an antenna is changed or added).
(1) Store the assigned frequency of the antenna in a table in the ROM of the main control unit (see the antenna assigned frequency table shown in Table of FIG. 10).
The operator inputs antenna assignment frequency information to the input unit.
* Aerial line switching operation
(1) The contents (data) of the allocated frequency table are output from the main control unit to the receiving unit . The main control unit monitors the state of the antenna and outputs status (presence / absence of the antenna and whether it is normal) information.
(2) The reception frequency is output from the reception unit to the main control unit.
An operator inputs a desired reception frequency to the reception unit.
(3) An antenna switching relay control signal is output from the main control unit to the antenna switching unit (see the antenna switching unit shown in FIG. 1).
The main control unit refers to the received reception frequency and antenna assignment frequency table.
(A) When there is an antenna suitable for the reception frequency, a switching signal is output to the antenna switching unit.

(B) When there is no antenna suitable for the reception frequency, a message is sent to the reception unit, and the antenna switching operation is not performed.
[0016]
The operation procedure of the reception control apparatus of this reference example will be described below.
[Operation procedure 1]
(1) The antenna adaptive frequency table (antenna allocation frequency table) shown in [Table] in FIG. 10 is stored in advance in the storage element of the main control unit of the CPU (see the antenna connection state confirmation processing flowchart shown in FIG. 5).
(2) The main control unit transfers the frequency range stored in the storage element to the receiving unit.
(3) The selected antenna is designated by the receiving unit, and the antenna switching unit relay control is performed (see the circuit configuration of the antenna switching unit shown in FIG. 1).
[Operation procedure 2]
(1) The storage element stores the data that the operator inputs from the input unit the antenna-assigned frequency range.
(2) and (3) are performed in the same procedure as the above [Operation procedure 1].
[0017]
[Supplementary explanation]
(1) In order to protect the antenna switching unit and the receiving unit, the main control unit selects one of the antennas.
(2) As relay protection, always terminate when not connected.
(3) The hybrid (symbol H shown in FIG. 1) is for RF (high frequency) signal distribution to the receiver.
[0018]
The reception control device of this reference example can perform scanning (sweep) of the sensation signal over a wide band, which is a function of the receiver, and can automatically switch the antenna as a function of the receiver. It was possible to improve the operator's work efficiency and the operational efficiency of multiple receivers.
< Reference Example 2>
FIG. 7 shows a circuit configuration of an antenna switching device according to Reference Example 2 of the present invention, and the procedure of the switching operation will be described below.
(1) Input the assigned frequency range of the antenna to the control circuit.
(2) Set the antenna switching method to “automatic” in the control circuit.
(3) The receiver receives the allocated frequency range and holds the numerical value in the control circuit of the receiver.

(4) At the receiver, compare the frequency to be received with the assigned frequency range of the antenna.
(5) An antenna switching command is output to the antenna switching circuit.
(6) The antenna switching relay operates.
Here, when manually switching the antenna, which is the conventional method, the antenna switching method is input to the control circuit as “manual” in the process (2). At this time, the sweep (scan) function can be performed, but the operation is temporarily stopped during the scan, and the antenna must be switched each time.
[0019]
The description will be supplemented with respect to FIG.
(1) The receiver is always connected to any one of the antennas 1 to 4.
(2) To protect the relay, be sure to terminate it when not connected to the receiver.
(3) By providing a distributor in the previous stage, control signals are distributed to the receiver 1 and the receiver 2.
7 shows an antenna switching circuit composed of a distributor, a switching relay, and a terminator, and FIG. 8 shows a conventional antenna switching circuit.
[0020]
In the wideband receiver that can be connected to multiple antennas with different frequency bands as shown in this reference example, the antenna can be automatically switched, and sweeping over a wide range is possible, which improves the operational efficiency of the wideband receiver. I was able to improve.
<Embodiment 1 >
In the present embodiment, a reception control apparatus having a function of automatically identifying and setting a frequency range of an antenna (antenna) to be connected in a receiver will be described. When connecting a plurality of antennas to a receiver, it is necessary for the receiver to recognize the frequency range that each antenna has individually. Based on this frequency range, the receiver can perform antenna switching processing by switching frequencies.
[0021]
In this embodiment, a method for automatically identifying the frequency range of an antenna connected and operated in a receiver will be described. Here, FIG. 9 shows a connection relationship between the conventional receiver and the reception controller. The receiver 6 is connected to the reception controller 7 through a parallel interface and a GP-IB interface. Data is transmitted and received by these two interfaces. A plurality of antennas (maximum of four in this embodiment) are connected to the reception controller 7. The reception controller switches the connection of the antenna, and the outline of the operation of this system is described below.
[0022]
The receiver stores the frequency data for each CH (channel) and the frequency data range of each antenna in the memory (the latter data is notified from the reception controller). When the frequency is switched, the receiver compares the above two data. If the frequency to be tuned is outside the range of the connected antenna, the receiver makes a request to switch the antenna to the reception controller. In response to this request, the reception controller performs antenna switching and sends a completion notification to the receiver. In this system, the reception controller needs to set the adaptive frequency range of the antenna connected to itself and notify the receiver. However, in the current system, this data input is performed by the operator, so the operator must perform a setting operation every time the antenna connection state changes.
[0023]
Conventionally, an operator inputs frequency range data for each antenna from the panel surface of the reception control unit using a numeric keypad (key for inputting numbers from 0 to 9). In the present embodiment, in order to eliminate the complexity of inputting the frequency range data for each antenna from the panel surface of the reception control unit using the numeric keypad, a reception control device with an automatic identification and automatic notification function of the antenna frequency range is provided. In the following, a reception control apparatus to which these two functions are added will be described based on the antenna connection state confirmation processing flowchart shown in FIG.
[0024]
When the system power is turned on, the reception controller checks the connected antenna. First, check whether the antenna is connected. If there is a connected antenna, the type data is taken from the port of the parallel interface. As input information, there are the following antenna connection information and antenna type information, and the presence and type of the connection are checked.
* As antenna connection information
(1) With / without connection of antenna (1) (2) With / without connection of antenna (2) (3) With / without connection of antenna (3) (4) With or without antenna (4) / Nothing ※ As antenna type information
(1) Antenna (1) type data (2) Antenna (2) type data (3) Antenna (3) type data (4) Antenna (4) type data The receiving controller is based on the type of antenna. Search the frequency range table defined in the software. The frequency range table (see the antenna assignment frequency table shown in [Table] in FIG. 10) is composed of antenna types, frequency lower limit values, and frequency upper limit values. If it is not connected, or if the type is not defined in the table, a search error occurs and data defining unconnected is set. The reception controller constructs and transmits notification data to the receiver based on the retrieved result. The receiver makes an antenna switching request based on the received data. The monitoring of the connection state and type of the antenna is always monitored by the reception controller, and notification data is transmitted to the reception controller when a change in state is detected.
[0025]
The reception control device to which the automatic identification and automatic notification function of the antenna frequency range in the present embodiment is added can delete the operator's frequency range data setting work by the automatic antenna identification, and the conventional frequency range data for each antenna Can be eliminated, and the operational efficiency of the broadband receiver can be improved.
[0026]
【The invention's effect】
According to the reception control device of the present invention, relay switching can be automatically performed by a control signal from the main control unit, and connection and switching with a plurality of antennas having different frequency bands can be automatically performed. Also, by inputting the antenna allocation frequency range table in advance, it becomes unnecessary to input the allocation frequency by the operator, and it is possible to improve the work efficiency and the operation efficiency in the broadband receiver.
[Brief description of the drawings]
FIG. 1 is a circuit diagram showing a configuration of an antenna switching unit in a reception control apparatus of Reference Example 1 of the present invention.
FIG. 2 is a circuit diagram showing a configuration of a conventional reception controller.
FIG. 3 is a block diagram showing a configuration of a reception control apparatus according to Reference Example 1 of the present invention.
FIG. 4 is a flowchart of antenna switching processing in the reception control apparatus of Reference Example 1 of the present invention.
FIG. 5 is a flowchart of antenna connection state confirmation processing in the reception control apparatus of Reference Example 1 of the present invention.
FIG. 6 is a block diagram showing an internal configuration of a main control unit of a reception control apparatus according to Reference Example 1 of the present invention.
FIG. 7 is a circuit diagram showing a configuration of an antenna switching device according to a second embodiment of the present invention.
FIG. 8 is a circuit diagram showing a configuration of a conventional antenna switching device.
FIG. 9 is a block diagram showing a configuration of a conventional antenna switching device.
FIG. 10 is a table showing [Table] of an antenna allocation frequency table according to Reference Example 1 of the present invention.
[Explanation of symbols]
1 ... distributor 2 ... connector 3 ... relay 4 ... resistor 5 ... antenna (antenna)
6 ... Receiver 7 ... Reception controller

Claims (1)

In the reception control apparatus in which the receiver and the reception controller are connected by the parallel interface and the GP-IB interface, the reception controller has a function of automatically identifying and setting the frequency range of the antenna to be connected,
When the system power is turned on, the presence / absence of an antenna is checked. If there is an antenna connected, the type data is fetched from the antenna allocation frequency table stored in advance in the storage unit of the reception controller. Means,
Based on the type of antenna, the reception controller searches the assigned frequency table for the antenna composed of the antenna type, frequency lower limit value, and frequency upper limit value, and if not connected or defined in the table above. If there is no type, it will result in a search error and a means to set data that defines unconnected,
The receiver controller build notification data to the receiver based on the search error also included test Sakuyui result, it means for transmitting,
The receiver requests switching of the antenna based on the received data, and means for switching to any antenna when there is a search error in the reception controller;
The reception control apparatus according to claim 1, wherein the reception controller includes at least means for monitoring the connection state and type of the antenna.

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