JP2643324B2 - Microprocessor multiplexing system - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a microprocessor multiplexing system, and more particularly to multiplexing of a microprocessor multiplexing system capable of stably transmitting a frequency-modulated multiplexed signal. About the bus.

[Prior Art] In a conventional microprocessor multiplexing system of this type, a multiplexing bus connects a frequency-modulated multiplexed signal to a transmission cable via an electric modulator / demodulator and transmits the multiplexed signal by an electric signal. Was composed.

[Problems to be solved by the invention]

Since the multiplexing bus of the above-described conventional microprocessor multiplexing system transmits a frequency-modulated multiplexed signal as an electric signal, the multiplexed bus is easily affected by external waves, particularly electromagnetic waves generated from around the transmission system, There has been a problem that special consideration has to be taken, such as consideration of the installation site of the multiplexed bus and provision of shielding.

The present invention has been made in view of such circumstances, and an object of the present invention is to provide a microprocessor multiplexing system that is not affected by electromagnetic waves generated from the periphery of a transmission system.

[Means for solving the problem]

In the present invention, (a) a plurality of CPUs for instructing the setting or change of the frequency, (b) a plurality of decoders provided for each of the CPUs and correspondingly decode the instructions of the CPUs,
(C) a frequency controller for allocating and controlling frequencies in response to a frequency command signal obtained by decoding these decoders, and (d) a plurality of CPUs described above at frequencies controlled by the frequency controller, and A plurality of modulation means for respectively modulating a control signal, an address signal and a data signal output from a peripheral device;
(E) a plurality of electro-optical converters for converting control signals, address signals and data signals modulated by these modulators from electrical signals to optical signals, and (f) conversion by these electro-optical converters. An optical fiber multiplexing bus for multiplexing the transmitted optical signals and (g) demodulating the optical signals multiplexed and transmitted by the optical fiber multiplexing bus at the frequency set by the frequency controller and performing modulation before modulation, respectively. A microprocessor multiplexing system is provided with a demodulation means for obtaining a control signal, an address signal and a data signal.

〔Example〕

 Hereinafter, the present invention will be described in detail with reference to examples.

The microprocessor multiplexing system of the present embodiment includes a central processing unit (hereinafter, referred to as a CPU) 1
0, 12, decoders 14, 16, a frequency controller 18, an optical converter 20, a modulator / demodulator 22, and a peripheral device 24 such as a memory.
, An optical fiber multiplexed bus 100, a frequency control line 102,
And a bus 104.

In the above configuration, the CPUs 10 and 12 output control / address / data signals to the modulator / demodulator 22 and the decoders 14 and 16 via the bus 104 in order to perform data processing. Decoders 14 and 16 decode any address and data signals issued by CPUs 10 and 12 to set or change the modulation frequency or demodulation frequency of any frequency preset type modulator / demodulator 22, and decode the frequency at the subsequent stage. Controller
Send to 18.

The frequency controller 18 receives the frequency command signals from the decoders 14 and 16, allocates the modulation frequency or the demodulation frequency of the modulator / demodulator 22, and controls the modulation frequency or the demodulation frequency of the modulator / demodulator 22.

The modulator / demodulator 22 modulates an output signal from the peripheral device 24 such as the CPU 10, 12, RAM, or ROM with the frequency specified by the frequency control signal from the frequency controller 18, and transfers control address data. The optical signal is output to the optical fiber multiplexing bus 100 via the optical conversion unit 20 and the CPU 10, 12 and RA
When the peripheral device 24 such as M, ROM, etc. is in the input state, the control address data signal modulated at the frequency specified by the frequency control signal is selected from the optical fiber multiplexing bus 100 and the optical conversion unit 20. And demodulate. The optical conversion unit 20 converts the electrical control address data signal from the modulator / demodulator 22 into an optical signal and converts it into an optical fiber multiplexed bus.
Output to 100. Conversely, it converts the modulated control address data signal from the optical fiber multiplexing bus 100 into an electric signal and outputs it to the modulator / demodulator 22. Further, the peripheral device 24 such as a RAM and a ROM receives the processed signal demodulated by the frequency preset type modulator 22 and outputs the processed signal to the modulator / demodulator 22 again. Thus, the optical fiber multiplexing bus 100 transmits a frequency-modulated multiplexed optical signal.

Here, 102 is a frequency control line for transmitting a frequency control signal, and 104 is a bus for transmitting a control address data signal.

In this embodiment, the following effects are obtained by transmitting the frequency-modulated address / data signal through the optical fiber multiplexing bus. First, high-speed modulation is possible, and furthermore, it is suitable for frequency multiplex communication, so that large-capacity information transmission is possible in principle. Second, since signals are transmitted by light, there is no interference from power cables or the like and no interference from broadcast waves.
Advantageous device design is possible, such as no problem due to device potential difference between transmission devices.

〔The invention's effect〕

As described above, according to the present invention, after a plurality of CPUs respectively set a frequency for modulation or demodulation and modulate a control signal, an address signal and a data signal at desired frequencies, respectively, The converted optical signal was multiplexed and transmitted through an optical fiber multiplexing bus, and the optical signal was demodulated at each frequency. In this way, since each CPU can set or change the frequency while taking into account peripheral devices, etc., efficient transmission becomes possible, and as a result, high-speed modulation can be performed as much as possible. In addition, a large amount of information can be transmitted. Further, since the optical signal is transmitted, it is possible to perform the transmission with high reliability by avoiding the influence of the electromagnetic wave or the like generated from the periphery of the transmission system.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing a configuration of an embodiment of a microprocessor multiplexing system according to the present invention. 10, 12 CPU, 14, 16 decoder, 18 frequency controller, 20 optical converter, 22 modulator / demodulator, 24 peripheral equipment, 100 optical fiber multiplexed bus , 102 ... frequency control line, 104 ... bus.

Claims (1)

(57) [Claims] 1. A method for setting or changing a frequency.
A CPU, a plurality of decoders provided for each of the CPUs and corresponding to the instructions of the CPUs, and a frequency controller for allocating and controlling frequencies in response to frequency instruction signals obtained by decoding the decoders A plurality of modulating means for modulating control signals, address signals and data signals output from the plurality of CPUs and their peripheral devices at a frequency controlled by the frequency controller; and Said control signal,
A plurality of electro-optical conversion means for converting address signals and data signals from electrical signals to optical signals; an optical fiber multiplexing bus for multiplexing and transmitting the optical signals converted by these electro-optical conversion means; Demodulation means for demodulating an optical signal multiplexed and transmitted by an optical fiber multiplexing bus at a frequency set by the frequency controller and obtaining the control signal, address signal and data signal before modulation, respectively. A microprocessor multiplexing system characterized.