JPS63179265A - Signal generation controller - Google Patents

Abstract

PURPOSE:To control external equipments by providing a signal generating device with an external input/output control part and an external signal input/ output terminal. CONSTITUTION:The external input/output signal control part 16 can set respective input/output modes at the same time for respective external input/output terminals at the same time. The external input/output control part 16 is controlled by a control part 3 by using an operation part 14 or GP-iB interface 6 according to an instruction from a controller to et an output signal to be outputted from the eternal signal input/output terminal 17. Further, the setting of this output signal can be performed by storing and reading this setting in and out of a memory 4. Further, an input signal to the terminal 17 can be sent out to the controller by using the interface 6. Thus, external equipments are made controllable.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a signal generation control device used as a signal source for measuring the characteristics of electronic equipment such as an FM stereo broadcast radio.

Prior Art Conventionally, this type of signal generation control device allows the modulation frequency, deviation, etc. to be set freely, and is equipped with multiple memories that can store various setting states at independent addresses. By setting the signal generator to a desired state and storing the set state at an arbitrary address in the memory, even complex settings can be reproduced with simple operations.

FIG. 5 shows the configuration of a conventional signal generator. Fifth
In the figure, reference numeral 2 denotes a signal modulation section, which is controlled by the control section 3 according to the state set on the operation section 14. Reference numeral 4 denotes a memory, in which multiple setting states can be stored in memory at independent addresses. By storing a necessary state in advance in the memory 4 using the operating section 14 and calling the memory from the operating section 14, the necessary state can be reproduced with a simple operation. Furthermore, when a control signal is applied to the memory control signal input section 5, the memory address is sequentially increased/decreased and the setting state can be called up.This makes remote control possible.

Furthermore, remote control can also be performed using the GP-18 interface 6. In this case, the signal modulation section 2 is controlled by the control section a according to commands from the controller, and storage and recall of the above-mentioned memory are also possible.

The measurement system shown in FIG. 6 can be considered as an example of using the conventional signal generator as described above to omit complicated setting operations and shorten measurement time. In Fig. 2, the signal generator 1
The output signal of the measured object 9 is applied to the measured object 9, and the output signal of the measured object 9 is measured by the measuring device 10. Here, if the measuring device 5 is equipped with the memory 4 and memory control input terminal 8 shown in FIG. 5 like the signal generator described above, and remote control by recalling the memory is possible, then the remote control shown in FIG. By simultaneously applying a memory control signal from the switch 11 to the signal generator 1 and the measuring device 10,
The signal generator 1 and the measuring device 1° can be remotely controlled to the required settings.

FIG. 7 shows a measurement system that is an extension of this measurement system and can measure a plurality of objects to be measured. In Fig. 7, 12 is an input signal switching device, and 1a is an output signal switching device, which selects any one of the plurality of objects to be measured, adds the output signal of the signal generator to it, and selects the selected one. Measure the output signal of the object under test. Here, if the measuring device 9, input signal switching device 12, and output signal switching device 13 have a memory function similar to that of the signal generating device 1 described above and can be remotely controlled, the remote control switch 11 can be used to control each device. can be set to the required state and multiple objects to be measured can be sequentially measured.

In FIG. 7, a signal generator 1, an input signal switching device 1
2. Each device of the output signal switching device 13 and the measuring device 10,
If a GP-IB interface is provided, each device can be remotely controlled by GP-i 8 using the system controller instead of the remote control switch 11. This is shown in FIG. 8th
In the figure, each device is set to a required state by a controller 15, and can sequentially measure a plurality of objects to be measured, similar to the measurement system shown in FIG.

FIG. 9 shows the configuration of a signal switching device equipped with the above-mentioned memory function and GP-i8 interface.

In FIG. 9, reference numeral 23 denotes a signal switching section which is controlled by the control section 22 according to the state set by the operation section 22. Similar to the memory function that the signal generator has, the setting state can be stored in the memory 20, and the memory can be sequentially recalled by applying a control signal to the memory control signal input terminal 24, allowing remote control. can. Further G
Since it is equipped with a P-18 interface, it can also be remotely controlled using a controller. The signal switching unit 23 includes a relay driver 28 and a relay 29, and the control unit 22 applies a signal to the relay driver 28 to control the relay that switches the signal. The input signal switching device 12 adds the output signal of the signal generator to the signal input/output terminal 26 and connects the object to be measured to each of the signal input/output terminals 25 so that the signal can be applied to any one device. The output signal switching device 13 is one in which an output signal from the object to be measured is applied to a signal input/output terminal 25, and a measuring device is connected to a signal input/output terminal 26.

As shown in the two examples above, if the signal switching device is equipped with a memory function or a GP-18 interface, it is possible to sequentially remotely measure multiple objects using a conventional signal generator. .

Problems to be Solved by the Invention However, in the conventional measurement system using remote control of a memory shown in FIG. There was a problem in that the measurement system could not be configured unless it had the same memory function as the generator. Also, the 8th
In the measurement system shown in the figure, which is remotely controlled by a controller using GP-18, there is a problem that the measurement system cannot be constructed unless all of the devices are equipped with a GP-18 interface. In the input signal switching device shown in FIGS. 7 and 8, the output signal switching device 13 is made as a jig and is equipped with a memory function and a GP-1 day interface as in the stereo modulation device described above. It is common that there is no such thing. Therefore, Figures 7 and 8
There was a problem in that a measurement system as shown in the figure could not be easily configured.

The present invention solves these conventional problems and easily controls external devices such as input signal switching devices and output sign switching devices that are not equipped with the above-mentioned memory function or GP-I B interface. The object of the present invention is to provide an excellent signal generation control device that can perform the following functions.

Means for Solving the Problems In order to achieve the above object, the present invention provides a signal generator with an external input/output signal control section 16 and an external signal input/output terminal 17, and outputs a control signal to an external device or outputs a control signal to an external device. This allows signals to be input from devices. The external input/output signal control unit 16 can set input mode and output mode, and can set each input/output mode to each external input/output terminal, such as setting some things to outputs and others to inputs. Can be set at the same time. The signal output from the external signal input/output terminal 17 is sent to the operation unit 14 or the GP-18.
Using the interface, the external input/output signal control section 17 is controlled by the control section 3 according to instructions from the controller, and output signals are set. Additionally, output signal settings can be stored in memory, and settings can also be made by recalling the memory. The input signal to the external signal input/output terminal 17 can be sent to the controller using the GP-1 interface. In addition, nine input/output terminals are set to input mode, one of which is used as an STB signal, and the remaining eight are used as an 8-bit data bus, into which a memory address is input using a BCO code. However, by inputting the STB signal afterwards, direct recall of the memory can also be remotely controlled.

Effects The present invention has the following effects due to the above configuration. In other words, by setting the signal generator to the desired state from the operation panel in advance, and at the same time setting the output signal to be output from the external signal input/output terminal and storing it in memory, and recalling the memory, the signal generator can be easily adjusted. The settings can be used to reproduce the output signal to external equipment. The output signal can also be set by a command from the controller using the GP-iB interface. Here, the input signal switching device 12 and the output signal switching device 13 shown in FIGS. 7 and 8 have a memory function, GP-
Even if the device is not equipped with a 18 interface, as long as it is equipped with an input terminal that receives the output signal from the signal generator, the input signal switching device and output signal switching device can be controlled simply by remotely operating the signal generator. can.

Additionally, the controller can read the input signal to the external signal input/output terminal specified in the input mode using the GP-18 interface, which allows the controller to monitor external devices that are not equipped with a GP-18 interface. can do. Furthermore, by being able to directly call up memory addresses, in addition to the conventional method of sequentially increasing and decreasing memory locations, it has become possible to call up arbitrary addresses by remote control.

Embodiment FIG. 1 is a block diagram of a signal generation control device according to an embodiment of the present invention, and FIG. 2 is a measurement example according to the same embodiment. 1st
2, 1 is a signal generating device such as a stereo modulation device, and its external signal input/output terminal 17 is an input signal switching device that has an input terminal for an external signal and can switch signals according to the external signal. 18 and an output signal switching device 19 . The output signal from the signal generator 1 is sent to the input signal switching device 18 as well as to the input signal switching device 1.
8, the output signal is selected by the output signal switching device 19, and the plurality of objects to be measured are sequentially measured in addition to the measuring device 10. It is something.

Next, the operation of the above embodiment will be explained. In the above embodiment, it is assumed that the measuring device 10 has a memory function similar to that of a stereo signal device, and the conditions necessary for measurement are stored in the memory in advance, and the memory of the signal generating device 1 stores the device settings. Assuming that the output signals to the external device are stored in advance, the necessary settings can be made by sequentially calling up the memory addresses of the signal generator 1 and the measuring device 10 using the remote control switch 11 that remotely controls the memory. The situation can be easily realized. On the other hand, in the memory of the signal generator 1,
Since the output signals that control the input signal switching device 18 and the output signal switching device 19 are also stored at the same time, the input signal switching device 18 and the output signal switching device 19 can be controlled by calling the memory of the signal generating device 1, and the necessary One of the plurality of objects to be measured can be selected.

As described above, the above embodiment has the advantage that the input signal switching device 18 and the output signal switching device 19 can be controlled simultaneously by remotely controlling the memory of the signal generating device 1 using the remote control switch 11.

Further, according to the above embodiment, the input signal switching device 18 and the output signal switching device 19 do not have to have a complicated memory function as the signal generating device 1 has, but can have simple input terminals. Since remote control is possible using the input signal switching device 18 and output signal switching device 1,
9 is an input signal switching device 12 with a memory function and an output signal switching device 13 with a memory function in FIG.
The system is simpler, and the same effect as the measurement system shown in FIG. 7 can be easily obtained.

In FIG. 2, the signal generator and the measuring device are remotely controlled using the remote control switch 11, but FIG. 3 shows an embodiment in which they are remotely controlled by the controller 15 using the GP-1 interface. show. In FIG. 3, the input signal switching device 18 and the output signal switching device 19 are the same as those in FIG. It is. Input signal switching device 1
8. Although the output signal switching device 19 is not equipped with a GP-i8 interface, the signal generating device 1 is controlled by the controller to control its setting state and the output signal to external equipment, so the input signal switching device 19 can be used to switch the input signal through the stereo modulation device. Device 18 and output signal switching device 19 can be controlled from a controller.

According to the above embodiment, by remotely controlling the signal generating device using the GP-I B interface with the controller, it is possible to control the signal switching device that does not have the GP-rB interface with the controller. has advantages. Therefore, the signal switching device is simpler than the input signal switching device 12 and output signal switching device 13 equipped with the GP-I B interface shown in FIG. 8, and can easily achieve the same effect as the measurement system shown in FIG. Obtainable.

From the above two embodiments, the signal switching device becomes simple as shown in FIG. In the signal switching device shown in Fig. 9, the signal to control the relay is applied to the relay driver from the control section, but in the signal switching device shown in Fig. 4, the signal to control the relay is given from the signal generator. . Therefore, a signal switching device can be easily manufactured, and a measurement system that sequentially measures a plurality of objects to be measured can be easily constructed.

Effects of the Invention As is clear from the above embodiments, the present invention has the following advantages: (1) An output signal to an external device can be stored in a memory, and a necessary output signal can be obtained by recalling the memory. By providing the external device with an input terminal for a control signal, the external device can be controlled by calling the memory of the signal generator.

@) The output signal of the external device can be controlled by the controller using the GP-1 interface, so if the external device is equipped with a control signal input terminal, the controller can control the external device through the signal generator. .

(3) Since the output signal of the external device can be input, the controller can monitor the external device through the signal generator using the GP-1 interface.

It has this effect.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of a signal generation control diagram according to an embodiment of the present invention, and a block diagram of a signal switching device according to the present embodiment. DESCRIPTION OF SYMBOLS 1... Signal generator, 2... Signal modulation section, 3... Control section, 4... Memory, 5...
...Memory control signal input section, 6...GP
-I B interface, 7...output terminal, 8
...Memory control signal input terminal, 16...
...External input/output signal control section, 17...External signal input/output terminal.

Claims (1)

[Claims] an input signal switching device that inputs a measurement signal and outputs it to a measured object specified by the switching signal among the plurality of measured objects;
an output signal switching device that inputs an output signal of the measured object specified by the switching signal among the objects to be measured;
A measuring device that is controlled by a remote control signal and measures the output of the output signal switching device and an operation section set the signal generation state and the switching signal and store them in a memory. Recall the data and output the switching signal,
A signal generation control device comprising a signal generation device that outputs a signal generation state to a specified signal generation state to the input signal switching device.