JP2003152745A - Data transmission system, transmitter, and receiver - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a data transmission system that can reduce the area of a circuit board on which a transmission line is formed and enhance the data transfer speed, and to provide a data transmitter and a data receiver. SOLUTION: When a transmission request transmission section 11 transmits a transmission request to a receiver 2, a transmission request reception section 21 receives the transmission request via a data line D1, and a transfer clock generating section 24 transmits a transfer clock to a data transmission section 12 via a control line C1. In this case, the data transmission section 12 transmits transmission data in n-bits to a data reception section 22 via data lines D1 to Dn synchronously with the received transfer clock, and the data reception section 22 receives the n-bit received data sent from the data transmission section 12 synchronously with a delayed transfer clock outputted from a transfer clock delay section 23.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data transmission system for transmitting predetermined data from a transmission device to a reception device via a transmission line, and a transmission device and a reception device used in the system.

[0002]

2. Description of the Related Art A computer such as a computer has a CPU
A bus that connects the (central control unit) to peripheral ICs (integrated circuits), memories, etc. is used, and in recent computers that require higher-speed data transmission, a bus is used between the CPU and the graphic board. Used AGP (Advanced Gra
Phics Peripheral), GTL (Gunned Tranceiver Logic) used between CPU and peripheral IC, and Hyper
rTransport, PCI (Peripheral Component Interco) used between peripheral control IC and peripheral board
nnect) is used for each standard bus.

Further, there is an IIC (Inter IC) bus or the like as an inter-IC bus for an embedded system, and SDRAM (Synchronous DRAM) or RDRAM is used as a memory bus.
A memory bus that meets the specifications of (Rambus DRAM) is used.

As described above, various buses are used in a computer, and each bus basically has a plurality of data lines for transmitting data and a plurality of data lines for controlling transmission / reception of transmitted data. It is composed of a control line.

[0005]

However, in recent years, with the dramatic improvement in the processing speed of computers, it is required to increase the capacity of data transfer width, the number of data lines increases, and the number of control lines also increases. It tends to increase. For example, in the above-described HyperTransport bus, eight control lines are used regardless of the number of bits of data. When the number of control lines is increased as described above, the area of the circuit board is increased due to the formation of a large number of control lines, and the lengths of the control lines and the data lines are increased, resulting in a decrease in the data transfer rate.

An object of the present invention is to provide a data transmission system capable of reducing the area of a circuit board on which a transmission path is formed and improving the data transfer rate,
A data transmitting device and a data receiving device are provided.

[0007]

[Means for Solving the Problems and Effects of the Invention] (1)
A first invention A data transmission system according to a first invention is a data transmission system for transmitting predetermined data from a transmitting device to a receiving device via a transmission line, wherein the transmission line is for transmitting data. The transmitting device includes one or more data lines and one control line for controlling data transmission using the data lines, and the transmitting device uses one of the data lines to transmit data. The receiving device includes a transmission request transmitting unit for transmitting a transmission request for notifying to the receiving device, the receiving device includes a transmission request detecting unit for detecting the transmission request transmitted by the transmission request transmitting unit, and the transmission request detecting unit for transmitting the transmission request. If detected,
A clock transmitting means for transmitting a reference clock, which is a reference for data transmission, to the transmitting device using the control line, and the transmitting device uses the data line to transmit the data based on the reference clock transmitted by the clock transmitting means. To the receiving device, and the receiving device further includes a data receiving device to receive the data transmitted from the data transmitting device based on the reference clock.

In the data transmission system according to the present invention, the transmission request for notifying the data transmission is transmitted from the transmission device to the reception device using one of the data lines, and the reception device transmits the transmission request. Detected transmission request. When a transmission request is detected, the reference clock that is the reference for data transmission is transmitted from the receiving device to the transmitting device using the control line, and the transmitting device receives the data using the data line based on the transmitted reference clock. The data is transmitted to the device, and the receiving device receives the data to be transmitted based on the transfer clock.

Since data can be transmitted using one control line in this way, the number of data lines and control lines used for data transmission can be reduced to the necessary minimum. Therefore, the area of the circuit board on which the transmission path is formed can be reduced, the length of the transmission path can be shortened, and the data transfer rate can be improved.

(2) Second Invention A data transmission system according to a second invention is the data transmission system according to the first invention, wherein the data line is
The transmitting device includes two or more data lines, and the transmitting device uses a data line other than the data line used for transmitting the transmission request,
Burst length transmitting means for transmitting burst length information for specifying the burst length of data to be transmitted to the receiving device, wherein the receiving device receives the burst length information transmitted by the burst length transmitting means. Further, the clock transmitting means transmits the reference clock corresponding to the burst length information received by the burst length receiving means to the transmitting device using the control line.

In this case, the transmission request is transmitted from the transmission device to the reception device using one of the data lines, and the data line other than the data line used for transmitting the transmission request is used. Since the burst length information for specifying the burst length of the data is transmitted from the transmitter to the receiver, the burst length of the data to be transmitted can be notified to the receiver. Further, since the reference clock corresponding to the burst length specified by the received burst length information is transmitted from the receiving device to the transmitting device, the reference clock required for data transmission can be obtained without increasing the number of data lines and control lines. Only the clock can be transmitted to the transmitter.

(3) Third Invention A data transmission system according to a third invention is the first or second invention.
In the configuration of the data transmission system according to the invention, the data line includes two or more data lines, and the transmission device uses the data line other than the data line used for transmitting the transmission request to reset the reception device. The receiving device further includes a transmitting-side reset command transmitting unit that transmits the command to the receiving device, and the receiving device further includes a receiving-side reset unit that performs a reset operation according to the reset command transmitted by the transmitting-side reset command transmitting unit.

In this case, a reset command is transmitted from the transmission device to the reception device using a data line other than the data line used for transmitting the transmission request, and the reception device performs the reset operation according to the transmitted reset command. Therefore, the receiving device can be reset without increasing the number of data lines and control lines.

(4) Fourth Invention A data transmission system according to a fourth invention is the data transmission system according to any one of the first to third inventions, wherein the clock transmission means is a transmission request detection means. When the transmission request is not detected, the control line is used to transmit a reset clock, which is a reset command to the transmitting device, to the transmitting device, and the transmitting device is reset in accordance with the reset clock transmitted by the clock transmitting means. It

In this case, when a transmission request is not detected, a reset clock that is a reset command for the transmitter is transmitted from the receiver to the transmitter by using the control line, and the transmitter is reset according to the reset clock. Therefore, the transmitter can be reset without increasing the number of data lines and control lines.

(5) Fifth Invention A transmitter according to the fifth invention is one or more data lines for transmitting data, and one control for controlling data transmission using the data lines. A transmission device that transmits predetermined data to a reception device via a transmission line including a line, and uses one of the data lines to receive a transmission request for notifying transmission of data. A transmission request transmitting means for transmitting to the device, and when the receiving device receives the transmission request and transmits a reference clock that is a reference for data transmission using the control line, the data line is used based on the transmitted reference clock. Data transmitting means for transmitting data to the receiving device.

In the transmitting device according to the present invention, a transmission request for notifying the transmission of data is transmitted to the receiving device using one of the data lines, and the receiving device receives the transmission request. Then, when a reference clock serving as a reference for data transmission is transmitted using one control line, data is transmitted to the receiving device using the data line based on the transmitted reference clock.

Since data can be transmitted using one control line in this manner, the number of data lines and control lines used for data transmission can be reduced to the necessary minimum. Therefore, the area of the circuit board on which the transmission path is formed can be reduced, the length of the transmission path can be shortened, and a transmitter that can improve the data transfer rate can be realized.

(6) Sixth Invention A receiving device according to the sixth invention is one or more data lines for transmitting data, and one control for controlling data transmission using the data lines. A receiving device for receiving predetermined data from a transmitting device via a transmission line including a line,
When the transmitting device transmits a transmission request for notifying the transmission of data using one of the data lines,
Transmission request detection means for detecting the transmitted transmission request, and clock transmission means for transmitting a reference clock serving as a reference for data transmission to the transmission device using the control line when the transmission request detection means detects the transmission request. , A data receiving means for receiving, based on the reference clock, the data transmitted by the transmitting device based on the reference clock using the data line.

In the receiving device according to the present invention, when the transmitting device transmits the transmission request for notifying the data transmission using one of the data lines, the transmitted transmission request is detected. A reference clock that is a reference for data transmission is transmitted to the transmitting device using the control line in response to the transmission request, and the data transmitted by the transmitting device based on the reference clock using the data line is based on the reference clock. Be received.

Since data can be transmitted using one control line in this way, the number of data lines and control lines used for data transmission can be reduced to the necessary minimum. Therefore, the area of the circuit board on which the transmission path is formed can be reduced, the length of the transmission path can be shortened, and a receiving device that can improve the data transfer rate can be realized.

[0022]

DESCRIPTION OF THE PREFERRED EMBODIMENTS A data transmission system according to each embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing the configuration of a data transmission system according to the first embodiment of the present invention.

In FIG. 1, the data transmission system comprises a transmitter 1, a receiver 2 and a bus 3. Transmitter 1
Includes a transmission request transmission unit 11 and a data transmission unit 12.
The receiving device 2 includes a transmission request receiving unit 21 and a data receiving unit 2
2, transfer clock delay unit 23 and transfer clock generation unit 2
Including 4. The bus 3 includes n (n is an integer of 1 or more) data lines D1 to Dn and one control line C1.

The transmitter 1 is connected to the receiver 2 via the bus 3.
N-bit data is transmitted in parallel to, for example, the transmission device 1 and the reception device 2 are a CPU and a peripheral IC, which are arranged on a predetermined printed circuit board, and the bus 3 is a wiring formed on the printed circuit board. . The data lines D1 to Dn and the control line C1 are unidirectional (directions of arrows in the drawing) transmission-only lines, and can be configured by a single line or a differential line.
The data lines D1 to Dn can transfer n-bit data at one time.

The transmission request transmission unit 11 has n data lines D.
One of the data lines 1 to Dn, for example, the data line D
1 is used to transmit a transmission request for notifying the receiving device 2 of the data transmission to the transmission request receiving unit 21.

The data transmission unit 12 receives data input from the outside and synchronizes the n-bit data with the data lines D1 to Dn in synchronization with the transfer clock transmitted from the transfer clock generation unit 24 via the control line C1. Data receiving unit 2 via
Send to 2.

When switching the connection between the transmission request transmission unit 11 and the data transmission unit 12 and the data line D1, the transmission request transmission unit is switched until a transmission request is transmitted using a switching means such as a predetermined switch. 11 and the data line D1 are connected, and after the transmission of the transmission request is completed, the data transmission unit 1
2 and the data line D1 may be connected.

The transmission request receiving unit 21 is the transmission request transmitting unit 1
The transmission request transmitted from the transmission device 1 is received, and the transmission request of the transmission device 1 is detected. When the transmission request reception unit 21 detects a transmission request, the transmission clock reception unit 21 generates a transfer clock that is a reference clock that serves as a reference for data transmission.
4, and also notifies the data receiving unit 22 that the data will be transmitted from the data transmitting unit 12.

The transfer clock generation unit 24, when instructed by the transmission request reception unit 21 to generate the transfer clock, generates the transfer clock and transmits the transfer clock to the data transmission unit 12 via the control line C1. Output to the clock delay unit 23. When the transfer clock is not transmitted from the transfer clock generation unit 24, the transmission device 1 may determine that the reception device 2 is in the busy state and is not in the receivable state. Also, using the control line C1,
You may make it notify to the transmitter 1 whether the receiver 2 can receive.

The transfer clock delay section 23 outputs a delayed transfer clock obtained by delaying the input transfer clock by a predetermined time to the data receiving section 22. This delay time depends on the frequency of the transfer clock, the data lines D1 to Dn and the control line C1.
Depends on the length, etc., and is proportional to the frequency and length.

The data receiving unit 22 is the transmission request receiving unit 21.
When it is notified that the data will be transmitted, the n-bit data transmitted from the data transmission unit 12 via the data lines D1 to Dn is synchronized with the delayed transfer clock output from the transfer clock delay unit 23. Received and output the received data to the outside.

When the connection switching between the transmission request receiving unit 21 and the data receiving unit 22 and the data line D1 is performed, a switching unit such as a predetermined switch is used until the transmission request is transmitted until the transmission request is transmitted. 21 and the data line D1 are connected, and after the reception of the transmission request is completed, the data receiving unit 2
2 and the data line D1 may be connected.

In this embodiment, the bus 3 corresponds to a transmission path, the transmitter 1 corresponds to a transmitter, the receiver 2 corresponds to a receiver, and the data lines D1 to Dn correspond to data lines. The control line C1 corresponds to the control line, and the transmission request transmission unit 11
Corresponds to the transmission request transmitting unit, the transmission request receiving unit 21 corresponds to the transmission request detecting unit, the transfer clock generating unit 24 corresponds to the clock transmitting unit, the data transmitting unit 12 corresponds to the data transmitting unit, and the data receiving unit receives the data. The unit 22 corresponds to the data receiving means.

FIG. 2 is a timing chart for explaining the operation of the data transmission system shown in FIG. Figure 2
As shown in FIG. 1, first, when the transmission request is output from the transmission request transmission unit 11, the transmission request reception unit 21 receives the transmission request via the data line D1 and generates the transfer clock so that the transfer clock generation unit Instruct 24.

Next, the transfer clock generator 24 transmits a transfer clock having a predetermined frequency to the data transfer unit 12 via the control line C1.

Next, the data transmitter 12 synchronizes with the transfer clock transmitted from the transfer clock generator 24, and transmits n-bit transmission data DATA1, DATA2, DATA.
, ... through the data lines D1 to Dn
Send to 2. At this time, the transmission data output from the data transmitting unit 12 is delayed by the time T1 due to the transmission delay of the control line C1 with respect to the transfer clock and then output.

Next, the data receiving section 22 receives the data line D1.
N-bit reception data DATA1, DATA2, DATA3 transmitted from the data transmission unit 12 via Dn.
Are received in synchronization with the delayed transfer clock output from the transfer clock delay unit 23. At this time, the data receiving unit 2
The received data received by 2 is delayed by the time T2 due to the transmission delay of the control line C1 and the data lines D1 to Dn with respect to the transfer clock, and is received. In this embodiment,
The transfer clock delay unit 23 considers the delay of the time T2,
The transfer clock delay unit 23 delays the transfer clock by one clock and outputs the delayed transfer clock as a delayed transfer clock.

For example, when glass epoxy resin FR4 is used as the material of the printed circuit board forming the bus 3 and the transfer clock is set to 400 MHz, if the transfer clock is delayed by one clock, the length of the bus 3, that is, the data line D1.
The length of ~ Dn can be set to 100 mm at the maximum, and can be set to 200 mm at the maximum by delaying by 2 clocks, which is a sufficient length for a printed circuit board used in a general computer.

As described above, in the present embodiment, since the data can be transferred using one control line C1, the number of the data lines D1 to Dn and the control line C1 used for the data transmission must be the minimum required. It can be reduced to the limit. Therefore, the area of the printed circuit board on which the bus 3 is formed can be reduced, and the lengths of the data lines D1 to Dn and the control line C1 can be shortened to improve the data transfer rate.

FIG. 3 is a block diagram showing the configuration of a data transmission system according to the second embodiment of the present invention. The difference between the data transmission system shown in FIG. 3 and the data transmission system shown in FIG. 1 is that the transmission device 1 is changed to a transmission device 1a further including a burst length transmission unit 13, and
The receiving device 2 is changed to a receiving device 2a further including a burst length receiving unit 25, and the transfer clock generating unit 24 is changed to a transfer clock generating unit 24a that generates a transfer clock corresponding to the burst length. Since other points are almost the same as those of the data transmission system shown in FIG. 1, the same portions are denoted by the same reference numerals, and the characteristic points of the present embodiment will be described below.

When the transmission request transmission unit 11 transmits a transmission request in the same manner as in the first embodiment, the burst length transmission unit 1
3 uses data lines other than the data line D1 used for transmitting the transmission request, for example, the data lines D2 to Dn,
As the burst length information for specifying the burst length of the data transmitted from the data transmitting unit 12, the burst length of the transmitted data, that is, the length of the transmitted data is transmitted to the burst length receiving unit 25. In this case, since the burst length can be designated by using n-1 (n is an integer of 2 or more) data lines D2 to Dn, the maximum burst length that can be designated is 2 ^(n-1) . Become.

The data line used for transmitting the burst length is not particularly limited to the above example, and various changes can be made. Also, the burst length information for specifying the burst length of the data to be transmitted is not particularly limited to the above example,
A predetermined burst length information may be set in advance for each burst length, and this burst length information may be transmitted. In this case, the maximum number of burst length types that can be specified is 2 ^(n-1).
Becomes

When switching the connection between the burst length transmitter 13 and the data transmitter 12 and the data lines D2 to Dn, the burst length is transmitted until the burst length is transmitted using a switching means such as a predetermined switch. The transmitter 13 and the data lines D2 to Dn may be connected, and the burst length transmitter 13 and the data lines D2 to Dn may be connected after the transmission of the burst length is completed.

The burst length receiving unit 25 receives the burst length transmitted from the burst length transmitting unit 13, and notifies the received burst length to the transfer clock generating unit 24a. When instructed by the transmission request reception unit 21 to generate a transfer clock, the transfer clock generation unit 24 a sets the transfer clock corresponding to the burst length notified by the burst length reception unit 25, that is, the length of data to be transferred. On the other hand, a necessary transfer clock is generated, transmitted to the data transmission unit 12 via the control line C1, and output to the transfer clock delay unit 23.

For example, the three data DATA shown in FIG.
When 1, DATA2 and DATA3 are transferred, if the data of the data line D2 is the least significant bit and the data line Dn is the most significant bit, the burst length transmission unit 13 will
1 is transmitted via 2 and D3, and 0 is transmitted via the other data lines D4 to Dn. In this way, the burst length receiving unit 25 notifies the transfer clock generating unit 24a of 3 as the burst length, and the transfer clock for 3 clocks is transmitted to the data transmitting unit 12.

When switching the connection between the burst length receiving unit 25 and the data receiving unit 22 and the data lines D2 to Dn, the burst length is received until the burst length is received by using a switching means such as a predetermined switch. The receiving unit 25 and the data lines D2 to Dn may be connected, and the burst length receiving unit 25 and the data lines D2 to Dn may be connected after the reception of the burst length is completed.

In this embodiment, the transmitter 1a corresponds to the transmitter, the receiver 2a corresponds to the receiver, the transfer clock generator 24a corresponds to the clock transmitter, and the burst length transmitter 13 corresponds to the burst length. It corresponds to the transmitting means, the burst length receiving section 25 corresponds to the burst length receiving means, and the other points are the same as in the first embodiment.

With the above configuration, the data transmission system shown in FIG. 3 operates in the same manner as the data transmission system shown in FIG. 1 except for the above operation, and obtains the same effect as the data transmission system shown in FIG. At the same time, the transmitter 1a uses the data line D used for transmitting the transmission request.
Since the burst length of the data can be transmitted to the burst length receiving unit 25 using the data lines D2 to Dn other than 1, the burst length of the transmitted data can be notified to the receiving device 2a. At this time, since the transfer clock corresponding to the burst length received by the receiving device 2a is transmitted to the transmitting device 1a, the data lines D1 to Dn and the control line C1.
It is possible to transmit only the transfer clock required for data transmission to the transmitter 1a without increasing the number of.

FIG. 4 is a block diagram showing the configuration of a data transmission system according to the third embodiment of the present invention. The difference between the data transmission system shown in FIG. 4 and the data transmission system shown in FIG. 1 is that the transmitter 1 has a reset transmitter 1
4, the receiver 2 further includes a reset receiver 26, and the receiver 2 further includes a reset receiver 26.
b, and further, the data transmission unit 12 is changed to a data transmission unit 12a that resets in response to a reset clock, and a transmission request reception unit 21, a data reception unit 22, a transfer clock delay unit 23, and a transfer clock generation unit. The transmission request receiving unit 21a, the data receiving unit 22a, and the transfer clock delay unit 2 that the unit 24 resets in response to the reset signal
3a and the transfer clock generation unit 24a, and other points are almost the same as those of the data transmission system shown in FIG. 1, and therefore, the same portions are denoted by the same reference numerals and the characteristic features of the present embodiment will be described below. This point will be described.

First, the reset operation of the receiver 2b by the transmitter 1b will be described. Reset transmission unit 14
Before the transmission request transmission unit 11 transmits the transmission request as in the first embodiment, a data line other than the data line D1 used for transmitting the transmission request, for example, the data line Dn is used. , And sends a reset command to the receiving device to the reset receiving unit 26.

When switching the connection between the reset transmission section 14 and the data transmission section 12a and the data line Dn,
By using a switching means such as a predetermined switch, the reset transmission unit 14 and the data line Dn are connected to each other when data transmission is not performed, and the data transmission unit 12a and the data line Dn are transmitted when data transmission is performed. And may be connected.

The reset receiver 26 is the reset transmitter 1.
The reset signal is output to the transmission request reception unit 21a, the data reception unit 22a, the transfer clock delay unit 23a, and the transfer clock generation unit 24a in response to the reset command transmitted from the communication control unit 4. Transmission request receiving unit 21a, data receiving unit 22a, transfer clock delay unit 23a, and transfer clock generating unit 24a
Are reset according to the input reset signal, and the receiving device 2b is reset.

When switching the connection between the reset receiving section 26 and the data receiving section 22a and the data line Dn,
By using a switching means such as a predetermined switch, the reset receiving unit 26 and the data line Dn are connected when the data transmission is not performed, and the data receiving unit 22a and the data line Dn are connected when the data transmission is performed. And may be connected.

Further, the reset command transmitted via the data line Dn is directly provided to the transmission request reception unit 21a, the data reception unit 22a, the transfer clock delay unit 23a and the transfer clock generation unit 24a without providing the reset reception unit 26. You may make it input and reset each part.

Next, the reset operation of the transmitter 1b by the receiver 2b will be described. Transfer clock transmitter 2
4b, when the transmission request detection unit 21a has not detected a transmission request, the data transmission unit 1 uses a reset clock as a reset command to the transmission device 1b using the control line C1.
2a. For example, the transfer clock transmitter 24b
Transmits a transfer clock as shown in FIG. 2 as a reset clock for only one cycle. The reset clock is not particularly limited to the above example, and another signal may be used as long as it is a signal that can be distinguished from the normal transfer clock.

The data transmitter 12a is reset in accordance with the reset clock transmitted from the transfer clock transmitter 24b, and the transmitter 1b is reset. The transmission request transmission unit 11 may be reset in addition to the data transmission unit 12a.

In this embodiment, the transmitter 1b corresponds to the transmitter, the receiver 2b corresponds to the receiver, the transmission request receiver 21a corresponds to the transmission request detecting means, and the transfer clock generator 24a operates as the clock. The data transmission unit 12a corresponds to the data transmission unit, the data reception unit 22a corresponds to the data reception unit, and the reset transmission unit 14 corresponds to the transmission unit.
Corresponds to the transmitting side reset command transmitting means, the reset receiving section 26 corresponds to the receiving side resetting means, and other points are the same as those in the first embodiment.

With the above configuration, the data transmission system shown in FIG. 4 operates in the same manner as the data transmission system shown in FIG. 1 except for the above operation, and obtains the same effect as the data transmission system shown in FIG. In addition, the reset transmission unit 14 transmits a reset command to the reset reception unit 26 using the data line Dn other than the data line D1 used for transmitting the transmission request, and the reception device 1b responds to the transmitted reset command. Since the reset operation is performed by using the reset line, the number of the data lines D1 to Dn and the control line C1 is not increased.
The receiving device 2b can be reset.

Further, when the transmission request receiving section 21a does not detect the transmission request, the transfer clock generating section 24b transmits the reset clock using the control line C1, and the data transfer section 12a responds to the reset clock. Therefore, the transmitter 1b can be reset without increasing the numbers of the data lines D1 to Dn and the control lines C1.

The transmitting device and the receiving device to which the present invention is applied are the CPU, the peripheral IC, and the like in the computer as described above.
The present invention can be similarly applied to data transmission between computers or between a computer and another device without being limited to boards and devices, and similar effects can be obtained.

[Brief description of drawings]

FIG. 1 is a block diagram showing a configuration of a data transmission system according to a first embodiment of the present invention.

FIG. 2 is a timing chart for explaining the operation of the data transmission system shown in FIG.

FIG. 3 is a block diagram showing a configuration of a data transmission system according to a second embodiment of the present invention.

FIG. 4 is a block diagram showing a configuration of a data transmission system according to a third embodiment of the present invention.

[Explanation of symbols]

1,1a, 1b transmitter 2,2a, 2b receiver 3 buses 11 Transmission request transmission unit 12, 12a Data transmission unit 13 Burst length transmitter 14 Reset transmitter 21,21a Transmission request reception unit 22,22a Data receiving unit 23, 23a Transfer clock delay unit 24, 24a, 24b Transfer clock generation unit 25 Burst length receiver 26 Reset receiver D1 to Dn data line C1 control line

   ─────────────────────────────────────────────────── ─── Continued front page    F term (reference) 5B077 AA01 FF11 GG15 GG16 HH03                       MM02                 5K032 CC13 DA11 DA13 DA14 DA15                       DB08 DB09 DB18                 5K034 AA01 AA11 DD01 EE08 EE10                       FF01 HH01 HH02 NN13 PP01

Claims (6)

[Claims] 1. A data transmission system for transmitting predetermined data from a transmitting device to a receiving device via a transmission path, wherein the transmission path includes one or more data lines for transmitting data, and the data. And a control line for controlling data transmission using a line, wherein the transmission device uses one data line among the data lines to request transmission of data. To the receiving device, the receiving device includes a transmission request detecting unit that detects the transmission request transmitted by the transmission request transmitting unit, and the transmission request detecting unit detects the transmission request. In this case, a clock transmitting means for transmitting a reference clock, which is a reference for data transmission, to the transmitting device using the control line, wherein the transmitting device is transmitted by the clock transmitting means. The receiving device further includes data transmitting means for transmitting data to the receiving device using the data line based on a reference clock, and the receiving device receives data transmitted from the data transmitting device based on the reference clock. A data transmission system further comprising data receiving means. 2. The data line includes two or more data lines, and the transmission device specifies a burst length of data to be transmitted by using a data line other than a data line used for transmitting a transmission request. Further comprising burst length transmitting means for transmitting burst length information to the receiving device, wherein the receiving device further comprises burst length receiving means for receiving the burst length information transmitted by the burst length transmitting means, 2. The data transmission system according to claim 1, wherein the clock transmitting means transmits the reference clock corresponding to the burst length information received by the burst length receiving means to the transmitting device using the control line. 3. The data line includes two or more data lines, and the transmission device uses the data line other than the data line used for transmitting a transmission request to issue the reset command to the reception device. It further includes a transmitting side reset command transmitting means for transmitting to the receiving device, and the receiving device further includes receiving side resetting means for performing a reset operation in accordance with the reset command transmitted by the transmitting side reset command transmitting means. The data transmission system according to claim 1 or 2. 4. The clock transmitting means, when the transmission request detecting means has not detected a transmission request, transmits a reset clock, which is a reset command for the transmitting device, to the transmitting device using the control line. The data transmission system according to any one of claims 1 to 3, wherein the transmission device is reset according to a reset clock transmitted by the clock transmission means. 5. Predetermined data is received via a transmission line including one or more data lines for transmitting data and one control line for controlling data transmission using the data line. A transmission device for transmitting to a device, the transmission request transmitting means for transmitting a transmission request for notifying transmission of data to the reception device using one of the data lines, the reception device When the device receives a transmission request and transmits a reference clock serving as a reference for data transmission using the control line, transmits data to the receiving device using the data line based on the transmitted reference clock A transmitting apparatus comprising: a data transmitting unit. 6. Predetermined data is transmitted via a transmission line including one or more data lines for transmitting data and one control line for controlling data transmission using the data line. A receiving device for receiving from a device, wherein when the transmitting device transmits a transmission request for notifying the transmission of data using one of the data lines, the transmitted transmission request is detected. A transmission request detecting unit for transmitting a reference clock serving as a reference for data transmission to the transmitting device using the control line when the transmission request detecting unit detects the transmission request; And a data receiving unit that receives the data transmitted based on the reference clock using the data line, based on the reference clock.