JPH11225316A - Transmitter, receiver, transmission reception system, transmission method, reception method, and transmission reception method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide the transmission reception system that forms an accurate output image independently of a phase difference between a system clock and a transfer cycle on a receiver side. SOLUTION: The transmission reception system is provided with a transmitter 12, a transmission line 14 and a receiver 16. The transmitter 12 is provided with an image signal source 18, a transmission circuit 20, a receiver 16 a cycle register 22 that outputs common time information to the transmission circuit 20 and the receiver 16, a reception circuit 24 that receives transmission start time information from the receiver 16, and an image signal source control section 26 that controls a timing of output of image data from the image signal source 18 based on the time information and the transmission start time information. The receiver 16 is provided with a reception circuit 28, a line memory 30, an image forming section 32, a cycle time register 34, a synchronization control section 36 that calculates transmission start time information based on a synchronizing signal outputted from the image forming section 32 and the time information and a transmission circuit 38 that sends the transmission star time to time transmitter 12.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a packetized data transmitting apparatus, a receiving apparatus, and a transmitting / receiving system, and a packetized data transmitting method, a receiving method, and a transmitting / receiving method.

[0002]

2. Description of the Related Art Digitalization in the information society in recent years,
The flow of multimedia has been extended not only to offices and business systems but also to ordinary homes, and the need for a digital interface that is inexpensive, high-speed, and suitable for real-time transfer is increasing. To meet these needs, the IEEE (The Institute of Electrical
and Electronics Engi-neers, Inc.) 1394 High Performance Serial Bus (hereinafter IEEE 1394)
Is getting attention.

[0003] In IEEE1394, in addition to asynchronous (asynchronous) data transfer, synchronous data transfer called isochronous transfer can be performed.
In the isochronous transfer, transmission of one packet of data is always ensured at a constant transfer cycle (125 μs) irrespective of the system clocks of the data transmission side and the reception side, so that real-time transmission of image data and the like is possible. Become.

[0004] As described above, IEEE1394 can be used for real-time transmission of audio data and image data, and is used in, for example, a transmission / reception apparatus as described in Japanese Patent Application Laid-Open No. Hei 8-79744. .

[0005]

The use of IEEE 1394 makes it possible to transmit image data and the like in real time. However, IEEE which transmits a packet in a transfer cycle different from the system clock of the transmission side and the reception side is used.
For example, when an image is formed using an image forming apparatus such as a laser printer or a facsimile based on image data transmitted using an interface such as E1394, there are the following problems.

When the image forming apparatus forms an image, it is necessary to input image data in synchronization with, for example, a drive system such as a transfer drum. Therefore, a video clock synchronized for each pixel and a line for each line are used. The image data is input based on a line synchronization signal for synchronizing the image data and a page synchronization signal for synchronizing each page.

Here, when a transmission path for transmitting a packet in a transfer cycle irrelevant to the system clock of the transmission side or the reception side such as IEEE 1394 is used, a transmission / reception system as shown in FIG. 3 is usually used. That is, the transmission / reception system 100 includes a transmission device 110 that transmits image data, a transmission path 120 that is a medium for transmitting image data, and a reception device 130 that receives image data and forms an image.

When the page synchronizing signal OS1 for instructing the start of image formation is turned on from the image forming section 132 in the receiving device 130 (meaning that the page synchronizing signal OS1 is output as logical value 1; the same applies hereinafter), the transmitting circuit 134 transmits the transmission start notification packet OS2 to the transmission device 110 via the transmission path 120. Upon receiving the transmission start notification packet OS2, the reception circuit 112 in the transmission device 110 turns on the image output signal OS3 to the image signal source 114. Based on the image output signal OS3, image data OS4 is output from the image signal source 114 to the transmission circuit 116. The image data OS4 is packetized by the transmission circuit 116 and then transmitted to the transmission path 120 as an image data packet OS5. Is done.

The image data packet OS 5 transmitted via the transmission line 120 is transmitted to the receiving circuit 13 in the receiving apparatus 130.
6 is received. Each pixel data included in the image data packet OS5 is temporarily stored in the line memory 138 as line memory write pixel data OS6. Here, the image data packet OS5 received by the receiving circuit 136 is temporarily stored in the line memory 138.
Since the transmission of the packet cannot be synchronized with the video clock, the line synchronization signal, etc., the pixel data for each line (hereinafter referred to as line data) is stored in a plurality of image data packets OS5. This is because it is necessary to buffer the pixel data in the image data packet OS5 that has been divided and transmitted and received by the receiving circuit 136 for each line of the formed image. Line memory 1
The line data stored in 38 is read out to the image forming unit 132 as line memory read pixel data OS8 by the line synchronization signal OS7 from the image forming unit 132. The image forming unit 132 forms an output image based on the line data read from the line memory 138.

The relationship between the timing of each signal and the formed image when forming an image based on image data transmitted using IEEE 1394 will be described with reference to FIG. still,
The symbols L1, L2,... In the figure indicate pixel data included in the first line and pixel data included in the second line, respectively.

When the page synchronizing signal OS1 for instructing the start of image formation is output from the image forming section 132, the transmitting circuit 134 in the receiving device 130 transmits a transmission start notification packet OS2 to the transmitting device 110. Here, IEEE1
When a transmission path for transmitting a packet in a transfer cycle irrelevant to the system clock on the reception side is used as in 394, the timing at which the line synchronization signal OS7 generated by the system clock on the transmission side turns on and the transmission path The relative relationship with the start timing of each transfer cycle (hereinafter referred to as the timing difference between the line synchronization signal on the receiving side and the transfer cycle on the transmission path) can vary in various ways. That is, as shown in FIG. 4, the situation (Case 1) in which the transmission start notification packet OS2 is transmitted early from the time when the page synchronization signal OS1 is turned on, and the page synchronization signal O
A situation (Case 2) in which the transmission start notification packet OS2 is transmitted with a delay close to one transfer cycle from the time when S1 is turned on is considered.

In case 1, the transmission start notification packet OS2 is transmitted early after the page synchronization signal OS1 is turned on, so that the receiving circuit 136 of the receiving device 130 can receive the image data packet OS5 early. . Therefore, the pixel data in the image data packet OS5 is stored in the line memory 138 early as the line memory write image data OS6. Therefore, after the page synchronization signal OS1 is turned on, the first half of the line data is stored in the line memory 138 until the line synchronization signal OS7 is turned on.
Until the line synchronizing signal OS7 is turned off (meaning that the logical value is output as 0, the same applies hereinafter), the entire line data is stored in the line memory 138. As a result, the image forming unit 132 can correctly read all the line data as the line memory read image data OS8, and can form an accurate output image.

On the other hand, in the case of Case 2, when the page synchronization signal OS1 is turned on, one of the transfer cycles starts.
A transmission start notification packet OS2 with a delay close to the period
Is transmitted, the reception of the image data packet OS5 by the receiving circuit 136 and the storage of the pixel data in the line memory 138 cause a delay closer to one transfer cycle compared to the case shown in Case 1. . Therefore,
After the page synchronization signal OS1 is turned on, the first half of the line data is stored in the line memory 138 by the time the line synchronization signal OS7 is turned on. All of the line data is not stored in the line memory 138.
As a result, when reading the line data as the line memory read image data OS8, the image forming unit 132 can correctly read the pixel data of the line for the first half of each line data. For the latter half, the pixel data of the line is not yet stored in the line memory 138, so the pixel data of the previous line (for the first line,
In this case, invalid data remaining in the line memory 138 is read, and an accurate output image cannot be formed.

Accordingly, the present invention provides a method for forming an image based on image data transmitted by using an interface for transmitting a packet in a transfer cycle different from the system clock of the receiving side when a line synchronization signal on the receiving side is transmitted. A receiving device, a transmitting device, a transmitting / receiving system, a transmitting method, which can form an accurate output image based on received image data regardless of a timing difference from a transfer cycle of a road,
It is an object to provide a receiving method and a transmitting / receiving method.

[0015]

In order to solve the above-mentioned problems, a transmitting apparatus according to the present invention comprises: transmitting means for transmitting image data; time information output means for outputting time information common to a receiving apparatus; Receiving means for receiving the transmission start time information transmitted from the apparatus, and timing at which the transmission means transmits image data based on the time information output from the time information output means and the transmission start time information received by the reception means And control means for controlling the

[0016] By controlling the timing at which the transmitting means transmits the image data based on the time information common to the receiving device and the transmission start time information received from the receiving device, it is possible to match the transmission start time requested by the receiving device. Image data can be transmitted.

[0017] In order to solve the above-mentioned problems, a receiving apparatus of the present invention includes a receiving means for receiving image data, a storage means for storing the image data received by the receiving means, and time information common to the transmitting apparatus. Time information output means for outputting, and transmission start time information calculation for calculating transmission start time information based on the page synchronization signal for image formation output from the image forming apparatus and the time information output from the time information output means And transmission means for transmitting the transmission start time information calculated by the transmission start time information calculation means to the transmission device.

An appropriate transmission start time information is calculated based on the page synchronization signal and the time information common to the transmission device, and the transmission start time information is transmitted to the transmission device. Can be notified, and image data can be received at an appropriate timing.

In order to solve the above problems, a receiving apparatus according to the present invention comprises: a receiving unit for receiving image data; a storing unit for storing image data received by the receiving unit; and an image data stored in the storing unit. Image forming means for forming an output image based on the read image data, outputting a page synchronization signal for image formation, time information output means for outputting time information common to the transmitting device, Transmission start time information calculating means for calculating transmission start time information based on the page synchronization signal output from the forming means and the time information output from the time information output means, and the transmission calculated by the transmission start time information calculating means Transmitting means for transmitting the start time information to the transmitting device.

Based on the page synchronization signal and the time information common to the transmitting device, appropriate transmission start time information is calculated, and the transmission start time information is transmitted to the transmitting device. Can be notified, image data can be received at an appropriate timing, and the image forming means can appropriately read out the image data stored in the storage means.

In order to solve the above-mentioned problems, the transmission / reception system of the present invention comprises the above-mentioned transmission device for transmitting packetized image data, and the above-mentioned transmission device for receiving packetized image data transmitted from the transmission device. And a receiving device.

By using the above-mentioned transmitting apparatus, image data can be transmitted in accordance with the transmission start time requested by the receiving apparatus. The transmission start time can be notified.

To solve the above problem, a transmission method according to the present invention comprises a time information output step of outputting time information common to a reception apparatus, and a reception step of receiving transmission start time information transmitted from the reception apparatus. And an image data output step of transmitting image data based on the time information output in the time information output step and the transmission start time information received in the reception step.

By controlling the timing of transmitting image data based on the time information common to the receiving device and the transmission start time information received from the receiving device, the image data can be transmitted in accordance with the transmission start time requested by the receiving device. Can be sent.

In order to solve the above problems, a receiving method according to the present invention includes a time information output step of outputting time information common to a transmitting apparatus, a page synchronization signal output from an image forming apparatus, and a time information output step. A transmission start time information calculating step of calculating transmission start time information based on the time information output by the transmission step; a transmission step of transmitting the transmission start time information calculated by the transmission start time information calculation step to a transmission device; A receiving step of receiving image data transmitted from the transmitting device based on the transmission start time information transmitted in the step, and a storing step of storing the image data received in the receiving step. .

Based on the page synchronization signal and the time information common to the transmitting apparatus, appropriate transmission start time information is calculated, and the transmission start time information is transmitted to the transmitting apparatus, so that the transmitting apparatus has an appropriate transmission start time. Can be notified, and image data can be received at an appropriate timing.

In order to solve the above-mentioned problems, a receiving method according to the present invention provides a page synchronizing signal outputting step of outputting a page synchronizing signal for image formation, and a time information outputting step of outputting time information common to a transmitting apparatus. A transmission start time information calculating step of calculating transmission start time information based on the page synchronization signal output by the page synchronization signal output step and the time information output by the time information output step; and a transmission start time information calculation step A transmitting step of transmitting the transmission start time information calculated by the transmitting apparatus to the transmitting apparatus; a receiving step of receiving image data transmitted from the transmitting apparatus based on the transmitting start time information transmitted by the transmitting step; Storing the read image data, reading the image data stored in the storing step, and reading the read image data It is characterized by comprising an image forming step of forming an output image on the basis of.

An appropriate transmission start time information is calculated based on the page synchronization signal and the time information common to the transmission device, and the transmission start time information is transmitted to the transmission device. Can be notified, image data can be received at an appropriate timing, and the image forming means can appropriately read out the image data stored in the storage means.

In order to solve the above-mentioned problems, the transmitting and receiving method of the present invention comprises the above-mentioned transmitting method for transmitting packetized image data, and the above-mentioned transmitting and receiving method for receiving packetized data transmitted by the transmitting method. Any one of the receiving methods is provided.

By using the above-described transmission method, image data can be transmitted in accordance with the transmission start time requested by the receiving apparatus. The transmission start time can be notified.

[0031]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A transmission / reception system according to an embodiment of the present invention will be described below with reference to the drawings. still,
The transmitting and receiving system according to the present embodiment includes the transmitting device and the receiving device according to the embodiment of the present invention.

First, the configuration of the transmission / reception system according to the embodiment of the present invention will be described. FIG. 1 is a configuration diagram of a transmission / reception system according to an embodiment of the present invention. The transmission / reception system 10 includes a transmission device 1 that transmits image data.
2. A transmission path 14, which is a medium for transmitting the image data transmitted from the transmission apparatus 12, and receives the image data transmitted from the transmission apparatus 12 and transmitted through the transmission path 14, and receives the received image data. And a receiving device 16 that forms an output image based on the received image.

The transmitting device 12 includes a transmitting unit as transmitting means for transmitting image data, a cycle time register 22 as time information outputting means for outputting time information common to the receiving device 16, and a transmitting unit transmitted from the receiving device 16. A receiving circuit 24 serving as a receiving means for receiving the start time information; and a transmitting unit transmitting the image data based on the time information output from the cycle time register 22 and the transmission start time information received by the receiving circuit 24. An image signal source control unit 26, which is a control unit for controlling the timing of the operation, is provided.
Hereinafter, each component of the transmission device 12 will be described in detail.

The transmitting section includes an image signal source 18 as an image data source, and a transmitting circuit 20 for transmitting image data output from the image signal source 18. Image signal source 1
8 transmits the image data to be transmitted to the receiving device 16 based on the image data output start signal SS1.
2 and transmitted to the transmission circuit 20. The transmission circuit 20 packetizes the image data SS2 transmitted from the image signal source 18 and transmits the packetized image data SS1 to the reception device 16 via the transmission path 14 as an image data packet TS1.

The cycle time register 22 has an IEEE
This is a time information generation circuit usually provided in a device connected by the E1394 bus. The cycle time register 22 has a clock of, for example, 24.576 MHz, and counts a count value counted for each transfer cycle of the transmission line by a cycle time register output value S.
The signal is output to the image signal source control unit 26 as S3. here,
All devices connected to the IEEE 1394 bus (in this embodiment, the transmitting device 12 and the receiving device 1
In 6), when the transmission path is initialized, the time is adjusted so that the count value of the cycle time register indicates the same value.

The receiving circuit 24 receives the transmission start notification packet TS2 transmitted from the receiving device 16. The transmission start notification packet TS2 includes a transmission start time indicating a timing at which the image data SS2 is output from the image signal source 18 as a function of the count value of the cycle time register. The count value is output to the image signal source control unit 26 as transmission start time information SS4.

The image signal source control unit 26 controls the cycle time register output value SS3 and the transmission start time information SS3.
4 to output an image data output start signal SS1 to the image signal source 18.

The transmission line 14 is a transmission line employing an IEEE 1394 bus, and can always transmit the image data packet TS1 at a constant transfer cycle regardless of the system clocks on the transmission side and the reception side. I have.

The receiving device 16 is a receiving circuit 28 which is a receiving means for receiving image data, a line memory 30 which is a storing means for storing the image data received by the receiving circuit 28, and a line memory 30 which is stored in the line memory 30. The image forming unit 3 is an image forming unit that periodically reads out image data, forms an output image based on the read out image data, and outputs a page synchronization signal for image formation.
2. The cycle time register 34, which is time information output means for outputting time information common to the transmission device 12, the page synchronization signal output from the image forming unit 32 and the time information output from the cycle time register 34 The synchronization control unit 36 is a transmission start time information calculation unit that calculates transmission start time information based on the transmission start time information, and the transmission circuit 38 is a transmission unit that transmits the transmission start time information calculated by the synchronization control unit 36 to the transmission device 12. It is comprised including. Hereinafter, each component of the receiving device 16 will be described in detail.

The receiving circuit 28 receives the image data packet TS1 transmitted from the transmission device 12 via the transmission path 14, and converts the pixel data in the received image data packet TS1 into line memory write pixel data RS1 as line data. The data is sent to the memory 30.

The line memory 30 has a capacity for storing one line of pixel data, and sequentially stores the pixel data sent from the receiving circuit 28. In addition, line
The memory 30 sequentially sends pixel data for one line to the image forming unit 32 as line memory read pixel data RS3 based on the line synchronization signal RS2 sent from the image forming unit 32.

The image forming unit 32 sequentially reads out the pixel data stored in the line memory 30 by sending out a line synchronizing signal RS2 that repeats ON / OFF periodically to the line memory 30, An output image is formed based on the pixel data. The image forming unit 3
2 generates a page synchronization signal RS4 for instructing start of image formation as a synchronization signal for image formation, and sends it to the synchronization control unit 36.

The cycle time register 34 has the same IE as the cycle time register 22 of the receiver 12.
This is a time information generating circuit normally provided in a device connected by the EE1394 bus. The cycle time register 34 also has, for example, a clock of 24.576 MHz, and outputs a count value counted for each transfer cycle of the transmission line to the synchronization control unit 36 as a cycle time register output value RS5. Here, the time is adjusted so that the count value of the cycle time register 34 of the receiving device 16 becomes equal to the count value of the cycle time register 22 of the transmitting device 12.

The synchronization control unit 36 calculates transmission start time information based on the page synchronization signal RS4 output from the image forming unit 32 and the cycle time register output value RS5 output from the cycle time register 34. .
Here, the transmission start time information is the cycle time register output value R at the time when the page synchronization signal RS4 is turned on.
S5 and the count number from the point when the page synchronization signal RS4 is turned on to the start of transmission. For example, if the count number until the start of transmission is “8”, the point in time when the page synchronization signal RS4 is turned on and the cycle time register output value RS5 is counted by “8”, that is, 125 μs (transfer cycle) × 8 = 1 ms later is the transmission start time. A specific method of calculating the count number until the start of transmission will be described later. Synchronization control unit 36
The transmission start time information RS6 is also used to calculate the above-described calculated count up to the start of transmission and the cycle time register output value RS5 when the page synchronization signal RS4 is turned on.
To the transmission circuit 38.

The transmission circuit 38 packetizes the transmission start time information RS6 output from the synchronization control unit 36, and transmits the packetized transmission start time information RS6 to the transmission device 12 as a transmission start notification packet TS2.

Next, the operation of the transmission / reception system according to this embodiment will be described, and the transmission / reception method according to this embodiment will be described. Note that the transmitting and receiving method according to the present embodiment includes the transmitting method and the receiving method according to the present embodiment.

FIG. 2 is a timing chart when an image is formed using the transmission / reception system according to the present embodiment.
Image formation is started when the page synchronization signal RS4 sent from the image forming unit 32 to the synchronization control unit 36 is turned on.

When the page synchronization signal RS4 is turned on, the transmission start time information is calculated by the synchronization control unit 36. The transmission start time information includes a cycle time register output value RS5 at the time when the page synchronization signal RS4 is turned on.
And the number of counts up to the start of transmission.

Here, a specific calculation method of the count number until the start of transmission in the synchronization control unit 36 will be described. First, the line synchronization signal R output from the image forming unit 32 is output.
The cycle of S2, and T _1. Here, the line synchronization signal RS
1 is stored in the line memory 30 so that one line of pixel data is read out to the image forming unit 32 every time the switch 2 is turned on.
Time line of pixel data is stored is equal adjusted to T _1. That is, assuming that the pixel data amount for one line is D ₁ and the transfer cycle of the transmission path is T ₂ , the pixel data amount D _p included in each packet is D _p = D ₁ × T ₂ / T ₁ (1 ). For example, D _l = 4800 Byte, T ₁ = 600
If μs and T ₂ = 125 μs, the pixel data amount per packet D _p = 1000 Bytes.

The time when the line synchronizing signal RS2 is on, that is, when the image forming unit 32
The time for reading out one line of pixel data from is assumed to be T ₃ . T ₃ is derived from the pixel data amount D _{1 for} one line and the frequency F ₁ of the system clock of the image forming unit 32 as T ₃ = D ₁ / F ₁ (2). For example, D _l = 4800 Byte, F ₁ = 1
If it is 0 MHz, T ₃ = 480 μs.

Here, the cycle T ₁ of the line synchronization signal RS2
(Equal to the time the pixel data of one line in the line memory 30 is stored) is usually because the image forming unit 32 is large compared with the time T ₃ to read the pixel data of one line from the line memory 30 In order for the image forming unit 32 to accurately read the pixel data of each line from the line memory 30, the writing of the pixel data of each line to the line memory 30 is performed at a timing when the line synchronization signal RS2 is turned on. , Must be started earlier by at least a difference time ΔT represented by ΔT = T ₁ −T ₃ (3).

Further, since the transfer cycle of the transmission line is asynchronous with the line synchronization signal RS2, the page synchronization signal RS2
4 even if the timing of the on the same, the timing difference between the line synchronizing signal RS2 receiving and transfer cycle of the transmission path, the time for receiving image data packets TS1 is changed in the range of up to T ₂ sell. Therefore,
A synchronization signal (line synchronization signal R) for image formation on the receiving side
In order for the image forming unit 32 to accurately read the pixel data of each line from the line memory 30 irrespective of the timing difference between S2) and the transfer cycle of the transmission path, the line memory of the pixel data of each line is required. Writing to 30 must be started at least earlier by the difference time ΔT ′ represented by ΔT ′ = T ₁ −T ₃ −T ₂ (4) than the timing when the line synchronization signal RS2 is turned on. It is.

That is, if the timing at which the page synchronization signal RS4 is turned on is taken as the starting point, the transmission start time t
_By setting _a to t _a = T ₁ × m−ΔT ′ (5) (or faster), the image forming unit 32 can accurately read pixel data of each line from the line memory 30. It becomes possible. Where (5)
M in the formula is an integer. Furthermore, when representing a transmission start time t _a count number c _a to start transmission, the transfer cycle of the transmission path by using a _{T 2, c a = f (} (T 1 × m-ΔT ') / T 2) (6) Here, the function f (x) is a function that rounds up the decimal part of x and converts it to an integer, and m is an integer.

Based on the above calculation, the synchronization control unit 36 uses the cycle time register output value RS5 at the time when the page synchronization signal RS4 is turned on and the count number c _a until the start of transmission as transmission start time information RS6 as a transmission circuit. 38. For example, as shown in FIG.
When the cycle time register output value RS5 at the time point when S4 is turned on is “N” and the count number c _a until the start of transmission calculated by substituting m = 2 into the equation (6) is 8, These values are output to the transmission circuit 38 as transmission start time information RS6.

The transmission start time information RS6 calculated by the synchronization control unit 36 is sent to the transmission circuit 38, packetized by the transmission circuit 38, and transmitted to the transmission device 12 as a transmission start notification packet TS2. At this time,
Due to the timing difference between the line synchronization signal RS2 on the receiving side (reception device 16) and the transfer cycle of the transmission path, as shown in FIG. 2, the transmission start notification packet OS2 is transmitted earlier than the time when the page synchronization signal OS1 is turned on. The transmission state (Case 1) and the transmission start notification packet OS2 with a delay close to one transfer cycle period from the time when the page synchronization signal OS1 is turned on (Cas)
e2) is considered.

When the receiving circuit 24 of the transmitting device 12 receives the transmission start notification packet TS2, the receiving circuit 24 sends transmission start time information SS4 to the image signal source control unit 26. The transmission start time information SS4 includes the image signal source 1
8 includes the transmission start time indicating the timing at which the image data SS2 is output as a function of the count value of the cycle time register. That is, it includes the cycle time register output value RS5 at the time when the page synchronization signal RS4 is turned on, and the count number until the start of transmission.

Thereafter, the image signal source control unit 26
The cycle time register output value SS3 is compared with the transmission start time information SS4, and the cycle time register output value SS3 is changed to the cycle time register output value RS5 ("N" in FIG. 2) at the time when the page synchronization signal RS4 is turned on. A value (“N +” in FIG. 2) counted by the count number (“8” in FIG. 2) from “)” to the start of transmission.
8 ”), the image data output start signal SS1 output from the image signal source control unit 26 to the image signal source 18 is turned on.

When the image data output start signal SS1 is turned on, image data SS2 is transmitted from the image signal source 18 to the transmission circuit 20, and after the transmission circuit 20 packetizes the image data, the image data is packetized. The received image data packet TS1 is transmitted to the receiving device 16.

When the receiving circuit 28 of the receiving device 16 receives the image data packet TS1, the pixel data in the received image data packet TS1 is sequentially stored in the line memory 30 as line memory write pixel data RS1.

Further, based on the line synchronizing signal RS2 sent from the image forming unit 32, the pixel data for each line is sequentially read out from the line memory 30 to the image forming unit 32 as line memory read pixel data RS3. ,
An output image is formed by the image forming unit 32 based on the pixel data.

At this time, transmission start time information is included in the transmission start notification packet TS2 transmitted from the receiving device 16, and the image signal source 18 is transmitted based on the transmission start time information.
The transmission of the image data packet TS1 from the transmission device 12 is started in accordance with the transmission start time requested by the reception device 16 by controlling the timing at which the image data is output from the. Therefore, as shown in FIG. 2, even in a situation (Case 1) in which the transmission start notification packet OS2 is transmitted early from the time when the page synchronization signal OS1 is turned on, or when the page synchronization signal OS1 is turned on. A situation in which the transmission start notification packet OS2 is transmitted with a delay close to one transfer cycle from the time point (Case)
Even in the case of 2), it is possible to avoid a situation in which the image forming unit 32 reads the pixel data of each line before the pixel data of one line is stored in the line memory 30.

Next, the effect of the transmission / reception system according to the embodiment of the present invention will be described. Transmission / reception system 10
Is a transmission start notification packet T transmitted from the receiving device 16
The transmission start time information is included in S2, and the timing at which the image data is output from the image signal source 18 is controlled based on the transmission start time information, so that the transmission is performed in accordance with the transmission start time requested by the receiving device 16. It is possible to transmit the image data packet TS1 from the device 12. Therefore, regardless of the timing difference between the line synchronization signal RS2 on the receiving side and the transfer cycle of the transmission path, that is, as shown in FIG. Is transmitted (Case 1), or the page synchronization signal O
Even when the transmission start notification packet OS2 is transmitted with a delay close to one cycle of the transfer cycle from the time when S1 is turned on (Case 2), one line of pixel data is stored in the line memory 30. It is possible to avoid a situation in which the image forming unit 32 reads pixel data of each line before the pixel data is stored.

As a result, the image forming section 32 can accurately read the pixel data of each line, and can form an accurate output image.

[0064]

According to the transmitting apparatus, the receiving apparatus, the transmitting / receiving system, the transmitting method, the receiving method, and the transmitting / receiving method of the present invention, the receiving apparatus uses a synchronization signal for image formation and time information common to the transmitting apparatus. Appropriate transmission start time information is calculated, the transmission start time information is transmitted to the transmission device, and the transmission device receives an image based on the time information common to the reception device and the transmission start time information received from the reception device. The configuration is such that the timing at which the image data is output from the signal source is controlled. Therefore, the receiving device can notify the transmitting device of an appropriate transmission start time, and the transmitting device can transmit image data in accordance with the transmission start time requested by the receiving device.

As a result, when an image is formed based on image data transmitted using an interface for transmitting a packet in a transfer cycle different from the system clock on the receiving side, a line synchronization signal on the receiving side and transfer of a transmission path are performed. It is possible to form an accurate output image based on the received image data regardless of the timing difference from the cycle.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of a transmission / reception system according to an embodiment of the present invention.

FIG. 2 is a timing chart when image formation is performed in the transmission / reception system according to the embodiment of the present invention.

FIG. 3 is a configuration diagram of a transmission / reception system according to the related art.

FIG. 4 is a timing chart when image formation is performed in a transmission / reception system according to the related art.

[Explanation of symbols]

REFERENCE SIGNS LIST 10 transmission / reception system, 12 transmission device, 14 transmission line, 16 reception device, 18 image signal source, 20 transmission circuit, 22 cycle time register, 24 reception circuit, 26 image signal source control unit , 28 ... receiving circuit, 30 ...
Line memory, 32 image forming unit, 34 cycle time register, 36 synchronization control unit, 38 transmission circuit,
100 transmission / reception system, 110 transmission device, 112
Receiving circuit, 114: image signal source, 116: transmitting circuit, 1
Reference Signs List 20 transmission line, 130 receiving device, 132 image forming unit, 134 transmitting circuit, 136 receiving circuit, 138 line memory

Claims (8)

[Claims] 1. A transmitting device for transmitting packetized image data to a receiving device, a transmitting unit for transmitting image data, a time information output unit for outputting time information common to the receiving device, and the receiving device Receiving means for receiving the transmission start time information transmitted from the transmitting means, the time information output from the time information output means, and the transmission start time information received by the receiving means, A transmission device, comprising: control means for controlling timing for transmitting data. 2. A receiving device for receiving packetized image data transmitted from a transmitting device and transmitting the received image data to an image forming device, comprising: a receiving unit for receiving image data; Storage means for storing received image data; time information output means for outputting time information common to the transmitting device; a page synchronization signal for image formation output from the image forming device; and the time information Transmission start time information calculating means for calculating transmission start time information based on the time information output from the output means; and transmitting the transmission start time information calculated by the transmission start time information calculating means to the transmitting device. And a transmitting unit that performs the transmission. 3. A receiving apparatus for receiving packetized image data transmitted from a transmitting apparatus and forming an image based on the received image data, wherein: a receiving means for receiving the image data; A storage unit for storing the received image data, reading the image data stored in the storage unit, forming an output image based on the read image data, and outputting a page synchronization signal for image formation An image forming unit, a time information output unit that outputs time information common to the transmitting device, a page synchronization signal output from the image forming unit, and time information output from the time information output unit. Transmission start time information calculation means for calculating transmission start time information; and a transmission start time calculated by the transmission start time information calculation means. A transmitting unit for transmitting time information to the transmitting device. 4. The transmitting device according to claim 1, which transmits packetized image data, and the receiving device according to claim 2, which receives packetized image data transmitted from said transmitting device. And a transmission / reception system comprising: 5. A transmission method for transmitting packetized image data to a receiving device, wherein: a time information output step of outputting time information common to the receiving device; and a transmission start time information transmitted from the receiving device. Receiving step of receiving, time information output in the time information output step,
Transmission start time information received in the receiving step,
And transmitting an image data based on the image data. 6. A receiving method for receiving packetized image data transmitted from a transmitting apparatus and transmitting the received image data to an image forming apparatus, wherein time information for outputting time information common to the transmitting apparatus is provided. An output step, a page synchronization signal output from the image forming apparatus, and a transmission start time information calculating step of calculating transmission start time information based on the time information output by the time information output step, A transmission step of transmitting the transmission start time information calculated by the transmission start time information calculation step to the transmission apparatus; and receiving image data transmitted from the transmission apparatus based on the transmission start time information transmitted by the transmission step. A receiving step of storing the image data received in the receiving step. 7. A receiving method for receiving packetized image data transmitted from a transmitting device and forming an image based on the received image data, wherein a page synchronization signal for outputting a page synchronization signal for image formation is provided. A signal output step, a time information output step of outputting time information common to the transmission device, a page synchronization signal output by the page synchronization signal output step, and a time information output by the time information output step, A transmission start time information calculating step of calculating transmission start time information based on: a transmission step of transmitting the transmission start time information calculated by the transmission start time information calculation step to the transmitting device; A receiving step of receiving image data transmitted from the transmitting device based on the transmitted transmission start time information; A storage step of storing the image data received in the storage step, and an image forming step of reading the image data stored in the storage step and forming an output image based on the read image data. And the receiving method. 8. The transmission method according to claim 5, which transmits packetized image data, and the reception method according to claim 6, which receives packetized data transmitted by the transmission method. A transmission / reception method, comprising: