JPS5860842A - Optical data bus system for aircraft - Google Patents

Abstract

PURPOSE:To transmit a great amount of data at a time by transmitting data for specifying an extended mode command for the number of transmitted data words and the number of transmitted words before a bus controller transmits a reception/transmission command. CONSTITUTION:Terminal equipments 3a-3n are connected to a bus controller 1 through a star coupler 12 by data buses 101a-102n which use optical fibers. THose terminal equipments 3a-3n are each provided with a transmitting buffer memory for storing transmitted data, and a receiving buffer for storing received data. To transmit a great amount of data at a time, an extended mode command for the number of transmitted words is received from the bus controller 1 and then data for specifying the number of transmitted words is transmitted to all the terminals. Then, the controller 1 transmits a transmission/reception command to a receiving terminal and a transitting terminal. Further, the transmitting terminal transmits a great amount of data in extended mode to the receiving terminal at a time.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an aircraft optical fiber bus system in a data bus system for transmitting data between terminals scattered within an aircraft.

Conventionally, this virtue's serial digital data bus system for aircraft complies with the U.S. military standard (MIL-8TD-1553).
B), as shown in FIG. 1, a bus controller 1 and a plurality of terminal devices 3a to 3n are connected to a data bus 2,
The terminal device 3 is connected to input/output devices 4a to 4n. When transmitting data between terminals - bus controller 1 sends a receive command to the receiving terminal (terminal that receives data during data transmission), then bus controller 1 transmits the data to the transmitting terminal (terminal that receives data during data transmission). Send a send command to the terminal device that sends the message. Thereafter, the transmitting terminal transmits the status to the bus controller 1 and the data is transmitted to the receiving terminal. Transmit the number of data transmission candy x
8, the receiving terminal transmits the message to the bus controller l, and the data transmission between the terminals is completed. This transmission method is generally called a command response method. however.

In this command-response method, the maximum number of data transmission times that can be achieved with one send/receive command is 32i1 at most, so in order to perform data transmission with a number of data transmission words of 33# or more, Since a maximum of 32 tftI number of designated transmissions must be repeated multiple times, there is a drawback that the data transmission efficiency becomes low.

-Also, when the terminal device is transmitting to or receiving from the data bus, data transmission between the input/output device and the terminal device cannot be performed, so high-speed transmission between the input and output signals of the input/output device cannot be performed. In addition, since the data bus is constructed of wires, broadcast data transmission (data transmission from the transmitting terminal to all terminals other than the transmitting terminal) is difficult. In addition, it is susceptible to electromagnetic interference, and in particular, it can cause fires due to physical damage.

In data transmission, the present invention includes a data transmission word extension mode command and data specifying the number of data transmission words before a bus controller sends a receive/send command, and also prevents data transmission from occurring. A transmitting buffer memory for storing data to be transmitted from the terminal device through a data bus;
A receiving buffer memory is provided to store data received by a terminal device. Historically, in broadcast data transmission, broadcast receive/send commands are sent from the bus controller, and before multiplication, the broadcast data of the selected terminal device is By transmitting the specified data with the mode command and the selected terminal sound, and changing the data bus from wire to fiber, the above drawbacks are solved, and data transmission between terminals is made more efficient by transmitting multiple data at once. , do it fast,
1 more! The present invention provides a system in which a data bus of two types can be obtained.

Next, an embodiment of the present invention will be described with reference to FIG. rkU. FIG. 2 is a block diagram showing one embodiment of the present invention.

The bus controller l controls the data transmission procedure between the terminal devices (3a to an). Star coupler/2 has 1 terminal, input terminal and output terminal are 6. D. Light input to one input terminal is divided and output to n output terminals. The terminal devices (3a to 3n) include an electric-to-optical converter (E10 converter) that converts the output signal from the terminal device from electricity to light, and an electric-to-optical converter (E10 converter) that converts the input signal from the star coupler to the terminal device from the source to electricity. 9 - Built-in electrical converter (0/E converter > 1), a transmitting buffer that stores data to be output to the data bus, and a receiver to store data input from the data bus (also has a built-in buffer memory for m) Input/output device (4
a~40) are external input signals (401a~401n)
), converts the output signals (402a to 402n) to the outside, and performs data transmission with the transmitting buffer memory or receiving buffer memory of the terminal.

In command-response method data transmission, the number of data transmission words from the transmitting terminal 3a to the receiving terminal 3n is 1 to 3.
．． When transmitting data of 2 words, first receive data from bus controller l to terminal device 3n.
A reception command is transmitted from L to star coupler/2 to data bus 101n. Next, a transmission command is transmitted from the path control draw 41 to the transmission terminal 3a in the following order: data bus 102a → star coupler 12 → data noise i 101b. When the sending terminal device 3a receives the sending command, the status is sent to the bus controller 1 in the order of data bus 102b→star coupler I2→data bus 101&. Following this, the data bus 10 is connected from the transmitting terminal 3a to the receiving terminal 3n.
2b→star coupler 12→data bus 101n, the specified data transmission number is transmitted. When the number of data transmission words has been transmitted, the receiving terminal 3nri, the bus controller l, and the theme bus 102n → Star Cub 572 →
7'-71 lotus 101a is transmitted. The status includes status information such as data transmission parity check. Transmission terminal 631 & Karame optical output signal 102b
is the optical output signal 101a-1 at φ to the star coupler 12.
01n, but the sending and receiving terminal addresses are specified in the sending command and the receiving command, respectively.

Even if the original input signal is input to the terminal, no data other than the address on the lip is taken into the terminal.

The above procedure is repeated 9 by specifying the receiving terminal address and the transmitting terminal address by the receiving command and the transmitting command from the pass controller 1, and repeating the data transmission 9.

As mentioned above, it is necessary to specify the number of data transmission words to be 33 or more and repeat the above step 1- to complete the data transmission ft#8. For example, data transmission @ number 30
When the number of words is 0, data transmission t-9 same repetition υ of 32 words
In addition, 121f data transmissions have to be performed in return, which causes a decrease in transmission efficiency since the send command and receive command are specified 10 times, and at the same time has the drawback of complicating the process.

In order to solve this drawback, when specifying a data transmission number of 33 or more, a data/transmission number expansion mode command is sent from the receiving terminal and the fs transmission terminal's nibbus controller 1. rb. How to reset after data transmission is completed, and broadcast the data transmission eyelid ridge expansion mode command to all terminals to set the entire Nokusuji system to this mode, and after data transmission range is completed, data transmission - Learn how to reset the extended mode by sending a command to all terminals. To explain the details, the bus controller 1 broadcasts a data transmission-number expansion mode command to all terminals (3a to 3n). Next, the data with the designated number of data transmission words is transmitted to all the terminals (3a to 3n). Next, receive L14 from the bus controller l to the receiving terminal.
and sends a send command to the sending terminal.

At this time, the data transmission fs number section specified by the % receive command/send command is ignored, and the data (if the data transmission word count is specified) issued next to the data transmission word extension mode command issued prior to this command is ignored. ) is used. After the transmitting terminal receives the transmit command, the bus controller 1 sends the bus f-/s (IL) to perform data transmission from the transmitting terminal to the receiving terminal.

If the number of data transmission words is 300, the receiving terminal transmits f-1' to bus controller 1 when 300M data transmission is completed. Next, in order to reset this data transmission word number expansion mode command, the bus controller 1 broadcasts a data transmission candy number expansion mode command to all the terminals (3a to 3n).

Data transmission with and without using the above extended commands is as follows: When transmitting 300 words, if no extended command is specified, the receive command/send command)' is issued 10 times from the bus controller l, whereas the extended command If specified, the receive command/send command will be sent once,
[Extended command reset is performed twice in total], increasing transmission efficiency, and at the same time, processing is simplified by only specifying the specified information at the beginning.

Data transmission between the terminal device and the input/output device is carried out using the conventional method.If the 15 terminals are in the transmitting or receiving state, data transmission between the input/output device and the terminal device is impossible, and the input/output device is transmitted through the data bus. High-speed transmission of large amounts of data between devices is not possible. In order to solve this drawback, the terminal device has a built-in backup memory for transmission and a buffer memory for reception. When the terminal is not in the transmitting or receiving state, the input/output units (41 to 4
The input signal (4011 to 4ota) from the outside to the data transmission twin (301a to s
o ln ) to the transmission buffer memory of the terminal device (3a to 3n). When the terminal receives a transmission command, data Fi to be transmitted is read from this transmission backup memory and output from the terminal. The input signal from the data bus to the terminal device is written to the reception buffer memory, read out, and sent to the data transmission line (3
The signal is sent to the input/output device (4a to 4n) through the 3otn), where it is converted and becomes an external output signal (402a to +ozn).

With this configuration, it is possible to write data from the input/output device to the transmitting packer memory even when the terminal device is receiving data in the receiving state.

Even when the terminal changes from a receiving state to a transmitting state, there is almost no waiting time, and data can be transmitted. When outputting received data to the input/output device and when output from the input/output device to the transmission buffer memory of the terminal device is cross-accessed, it is necessary to take time-sharing ink, but the terminal device Data transmission is possible between the input/output device and the terminal device regardless of the transmission/reception status. This makes it possible to transmit a large amount of data at high speed with efficient transmission.

Broadcast data transmission is a method of transmitting data from a transmitting terminal to an all-tin device, but some terminals must receive the received data even if it is not necessary.Therefore, by receiving unnecessary data, This will lead to complicated processing.

In order to solve this drawback, broadcast data transmission is performed not to all terminals but only to a selected group of terminals from bus controller l.

The 10-docast mode command of the selected terminal is sent from the pass control draw 51 to all terminals (3a to 3n) from the data bus 102a → star coupler 12 → data bus (101
b-10In). Data containing information on the next selected terminal is transmitted to all terminals. When all the terminals receive the data containing the selected terminal information, each terminal checks whether the data specifies its own terminal. (If not specified, data transmitted by broadcast will not be received. If specified, data transmitted by broadcast will be received.) Next, the broadcast mode command of the terminal device selected from the path controller l is specified by the child data of the broadcast mode command. Sends a receive command to the receiving terminal group, and sends a transmitting command to the transmitting terminal. After the sending terminal receives the sending command, it sends the status to the path controller 1, and from the transmitting terminal to the receiving terminal group. Perform data transmission. After data transmission is completed, the bus controller broadcasts a mode command to reset this mode command.

In the above embodiment, a mode command to reset is executed to reset the mode command, but the mode command may be automatically reset with one data transmission and the mode command to reset does not need to be executed. In addition, when specifying a memory address in data transmission between buffers in a terminal device, or when specifying an address beyond the address that can be specified with a receive command/send command, use the same method as with the data transmission word count expansion mode command. , by using the data transmission address extension mode command), and by specifying an address for the data, data transmission can be performed.

The present invention is based on a command response method in a conventional aircraft serial digital data bus system, a broadcast mode command of a selected terminal, a transmitting buffer memory and a receiving buffer memory in the terminal, and a data bus 2-in optical system. When configured to use fiber cords and star couplers, it is possible to transmit large amounts of data at once efficiently and at high speed, and also has effects such as high reliability.

[Brief explanation of drawings]

Figure 1 is a block diagram of a conventional data bus system, Figure 2 is a block diagram of a conventional data bus system.
The figure is a block diagram of a nine data bus system showing one embodiment of the present invention. 1...Bus: Huntrolla, 2.Old...Bus,
31-3t...terminal device, 4a-4t...input/output device, 12...Star Cub 2゜ agent patent attorney Susumu Uchihara

Claims (1)

[Claims] In data transmission between terminal devices, data transmission is performed using send command/receive command, data transmission #@ridge extension command that allows you to arbitrarily specify the number of data words, and data transmission using a command that specifies broadcast transmission within a selected group of terminal devices. A bus controller that controls the data bus, a transmission buffer memory that stores data to be transmitted on the data bus, a reception buffer that stores data received from the data bus, a terminal device that contains the buffer memory, and a terminal device that stores data to be transmitted on the data bus. Star cabling, original 7-eye, and barcode for optically transmitting data between terminal devices or between a bus controller and a terminal device, and a buffer for converting external input/output signals and for transmitting/receiving terminal devices. An optical data bus system for aircraft that transmits data between a memory and a memory and uses a command-response method to transmit data.