JP2010278647A - High-speed serial transmission system, and control method thereof - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To flexibly apply and control a transmission bandwidth and a transmission quality according to a usage environment of a transmission system. <P>SOLUTION: A high-speed serial transmission system 200 has a transmission rate setting control portion 105 adaptively controlling a transmission rate setting so as to adapt to a required transmission bandwidth based on the required transmission bandwidth suitable to a radio communication. The transmission rate setting control portion 105 can designate whether or not adaptive control is performed and a control range of a transmission rate. In addition, the high-speed serial transmission system 200 has a transmission amplitude pre-emphasis setting control portion 108 adaptively controlling a transmission amplitude so as to adapt to a required transmission quality and a transmission pre-emphasis setting based on the required transmission quality suitable for the radio communication and a transmission quality state of a signal received. The transmission amplitude pre-emphasis setting control portion 108 can designate whether or not the adaptive control is performed, and the transmission amplitude and the control range of the transmission pre-emphasis. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a high-speed serial transmission system and a control method thereof.

  In recent years, systems using high-speed serial transmission have been developed as interface technologies for mobile phones. For example, Patent Document 1 discloses high-speed serial transmission. FIG. 7 shows an example of a conventional high-speed serial transmission system. As shown in FIG. 7, the conventional high-speed serial transmission system 300 includes a high-speed serial transmission unit 100b and a high-speed serial reception unit 110b. The high-speed serial transmission unit 100b includes an initial transmission rate setting unit 102b, an initial transmission amplitude pre-emphasis setting unit 103b, and a high-speed serial signal transmission unit 101b. The high-speed serial reception unit 110b includes a high-speed serial signal reception unit 111b and a transmission quality status calculation unit 112b.

  The initial transmission rate setting unit 102b sets a transmission rate between the transmission unit 101b and the reception unit 111b when the system 300 is activated. The initial transmission amplitude pre-emphasis setting unit 103b sets a signal transmission amplitude and transmission pre-emphasis when the system 300 is activated. Although the quality of high-frequency signals deteriorates during transmission, the quality can be maintained before reaching the receiving unit 111b by amplifying the data signal by transmission pre-emphasis. The high-speed serial signal transmission unit 101b is directed to the high-speed serial signal reception unit 111b by the transmission rate set by the initial transmission rate setting unit 102b and the transmission amplitude and pre-emphasis set by the initial transmission amplitude pre-emphasis setting unit 103b. Send a signal.

  Here, in the conventional transmission system 300, the maximum transmission rate that the system 300 is capable of is set in the initial transmission rate setting unit 102b, and the system 300 is always operated with the transmission rate fixed at this set value. Further, based on the signal received by the high-speed serial signal receiving unit 111b, the transmission quality status calculation unit 112b calculates the transmission amplitude and transmission pre-emphasis that are considered to be optimal in the evaluation under a specific environment where the system 300 is operated. . The initial transmission amplitude pre-emphasis setting unit 103b is set with the calculated transmission amplitude and transmission pre-emphasis that appear to be optimal, and the system 300 is operated with these values fixed at all times.

JP 2002-223204 A

  A high-speed serial transmission system is easily affected by external factors such as variations in devices such as a transmitter and a receiver constituting the system and a use environment such as a temperature at which these devices are used. For this reason, in the conventional configuration in which the transmission rate, transmission amplitude, and transmission pre-emphasis are always fixed, it is difficult for the system to maintain optimum transmission quality over a long period of operation. . Therefore, it is necessary to always maintain optimum transmission quality even if the system is operated for a long period of time. That is, since the required transmission band and transmission quality differ depending on the use environment of the transmission system, the transmission band and transmission quality must be flexibly and adaptively controlled. Furthermore, if the transmission rate and transmission amplitude are increased, the power consumption will increase more than necessary depending on the usage environment.Therefore, it is necessary to suppress this, and if transmission pre-emphasis is increased more than necessary, signal Since the radiation noise of the high-frequency component becomes large, it is necessary to suppress this to a predetermined level or less.

  In view of the problems as described above, it is an object of the present invention to provide a high-speed serial transmission system capable of flexibly applying and controlling a transmission band and transmission quality according to the use environment of the devices constituting the system, and a control method thereof. And

  In order to solve the above-described problem, a high-speed serial transmission system according to the present invention transmits from a transmission unit (for example, the high-speed serial transmission unit 100 in the embodiment) to a reception unit (for example, the high-speed serial reception unit 110 in the embodiment) by wireless communication. A high-speed serial transmission system for serially transmitting data, wherein the transmission means adapts the data transmission rate to the required transmission band based on the required transmission band suitable for wireless communication between the transmission means and the reception means. A transmission rate setting control unit (for example, the transmission rate setting control unit 105 in the embodiment) that adaptively controls the setting of the transmission rate, and the transmission rate setting control unit specifies whether to perform adaptive control; and A control range of a transmission rate that can be set by adaptive control can be specified.

  In order to solve the above-described problem, a high-speed serial transmission system according to the present invention includes a wireless communication for transmitting from a transmitting unit (for example, high-speed serial transmitting unit 100 in the embodiment) to a receiving unit (for example, high-speed serial receiving unit 110 in the embodiment). ) Based on the required transmission quality suitable for wireless communication between the transmission means and the reception means, and the transmission quality status of the signal received by the reception means. The transmission amplitude setting control means (for example, the transmission amplitude pre-emphasis setting control unit 108 in the embodiment) that adaptively controls the setting of the transmission amplitude of the signal so that the transmission quality status satisfies the required transmission quality is provided. Specification of whether or not amplitude setting control means performs adaptive control, and transmission amplitude control range that can be set by adaptive control It may perform specified.

  In order to solve the above-described problem, a high-speed serial transmission system according to the present invention includes a wireless communication for transmitting from a transmitting unit (for example, high-speed serial transmitting unit 100 in the embodiment) to a receiving unit (for example, high-speed serial receiving unit 110 in the embodiment). ) Based on the required transmission quality suitable for wireless communication between the transmission means and the reception means, and the transmission quality status of the signal received by the reception means. Transmission pre-emphasis setting control means (for example, transmission amplitude pre-emphasis setting control unit 108 in the embodiment) for adaptively controlling the setting of signal transmission pre-emphasis so that the transmission quality status satisfies the required transmission quality. , Designation of whether transmission pre-emphasis setting control means performs adaptive control, and adaptive control Thus it may perform the specified control range of configurable transmit pre-emphasis.

  Furthermore, the high-speed serial transmission system configured as described above preferably includes a transmission rate setting control means, a transmission amplitude setting control means, and a transmission pre-emphasis setting control means.

  Further, in the high-speed serial transmission system configured as described above, when the transmission amplitude setting control means increases the required transmission quality by a predetermined amount, it is determined whether or not the transmission quality status satisfies the required transmission quality. It is preferable to judge.

  Further, in the high-speed serial transmission system configured as described above, whether or not the transmission pre-emphasis setting control means satisfies the required transmission quality in which the transmission quality status is high when the required transmission quality is increased by a predetermined amount. Is preferably determined.

  On the other hand, in order to solve the above problems, a method for controlling a high-speed serial transmission system according to the present invention includes a data transmission rate, a transmission amplitude, and An adaptive control method for transmission pre-emphasis, wherein the method is based on a required transmission band suitable for wireless communication between a transmitting means and a receiving means, so that the data transmission rate is adapted to the required transmission band. And a step of controlling the setting of the transmission amplitude so that the transmission quality status is adapted to the required transmission quality based on the required transmission quality and the transmission quality status of the signal received by the receiving means; Based on the required transmission quality and the transmission quality status of the signal received by the receiving means, the transmission quality status adapts to the required transmission quality It has a step of controlling the setting of so that transmit pre-emphasis, a.

  Further, in the control method of the high-speed serial transmission system configured as described above, the step of controlling the transmission amplitude setting further increases the required transmission quality when the required transmission quality is increased by a predetermined amount. And the step of controlling the transmission pre-emphasis setting further increases the transmission quality status when the required transmission quality is increased by a predetermined amount. It is preferable to have a step of determining whether or not the required transmission quality is satisfied.

  According to the high-speed serial transmission system and its control method of the present invention, the transmission rate setting control means, the transmission amplitude setting control means, and the transmission pre-emphasis setting control means are adapted to a required transmission band or transmission quality, respectively. The transmission rate, transmission amplitude, and transmission pre-emphasis settings can be adaptively controlled. For this reason, even when the system is operated for a long period of time, regardless of external factors such as the ambient environment such as the variation in the products of the devices constituting the system or the ambient temperature where the system devices are installed, It can be controlled to always maintain the optimum transmission quality for the system. This is because, for example, the transmission amplitude setting control means and the transmission pre-emphasis setting control means perform adaptive control of transmission amplitude and transmission pre-emphasis based on information from the required transmission quality notification section 109 and transmission quality status calculation section 112 shown in FIG. This is because optimal transmission quality is maintained by performing the above.

  Further, it is possible to suppress an increase in power consumption more than necessary during the operation regardless of the operation environment of the transmission system. This is because the transmission rate setting control means performs transmission rate application control to reduce the transmission rate to the minimum required transmission rate for the required transmission band, thereby suppressing the power consumption of the system. Because.

  Also, in transmission amplitude adaptive control, if the transmission quality does not meet the required transmission quality, the required transmission quality can be increased by increasing the transmission amplitude within a range that does not exceed the upper limit of the transmission amplitude control range. It is controlled to satisfy. On the other hand, when the transmission quality condition satisfies the required transmission quality, the transmission amplitude is not increased more than necessary by reducing the transmission amplitude setting within a range that does not exceed the lower limit of the transmission amplitude control range. It becomes possible to suppress power consumption.

  Furthermore, in transmission pre-emphasis adaptive control, if the transmission quality does not meet the required transmission quality, the transmission pre-emphasis setting is increased within the range that does not exceed the upper limit of the transmission pre-emphasis control range. It is controlled to satisfy the transmission quality. Also, if the transmission quality meets the required transmission quality, the transmission pre-emphasis will not become stronger than necessary by reducing the transmission pre-emphasis setting within the range that does not exceed the lower limit of the transmission pre-emphasis control range, It becomes possible to suppress radiation noise of high frequency components due to pre-emphasis.

FIG. 1 is a diagram showing a high-speed serial transmission system according to the present invention. FIG. 2 is a configuration diagram in which the transmission rate, transmission amplitude, and transmission pre-emphasis are adaptively controlled by the high-speed serial transmission system according to the present invention. FIG. 3 is a configuration example of adaptive control in which the setting of whether to enable / disable adaptive control and the control range of each set value are specifically specified. FIG. 4 is a flowchart showing transmission rate adaptive control according to the present invention. FIG. 5 is a flowchart showing transmission amplitude adaptive control according to the present invention. FIG. 6 is a flowchart showing transmission pre-emphasis adaptive control according to the present invention. FIG. 7 is a configuration diagram of a conventional high-speed serial transmission system.

  Hereinafter, preferred embodiments of a high-speed serial transmission system and a control method thereof according to the present invention will be described with reference to FIGS.

  FIG. 1 shows an overall configuration diagram of a high-speed serial transmission system according to the present invention. As shown in FIG. 1, the high-speed serial transmission system 200 includes a high-speed serial transmission unit 100, a high-speed serial reception unit 110, a required transmission band notification unit 106, and a required transmission quality notification unit 109. The high-speed serial transmission unit 100 includes a high-speed serial signal transmission unit 101, an initial transmission rate setting unit 102, an initial transmission amplitude pre-emphasis setting unit 103, a transmission rate change unit 104, a transmission rate setting control unit 105, and a transmission amplitude. A pre-emphasis changing unit 107 and a transmission amplitude pre-emphasis setting control unit 108 are included.

  The initial transmission rate setting unit 102 stores a transmission rate setting value (initial value) when the system 200 is activated. The transmission rate setting control unit 105 adaptively controls the transmission rate during operation of the system 200 based on the notification from the required transmission band notification unit 106. The transmission rate changing unit 104 is notified of the transmission rate initially set by the initial transmission rate setting unit 102 or the transmission rate adaptively controlled by the transmission rate setting control unit 105. The notified transmission rate is a high-speed serial signal transmission. Are set in the unit 101 and the high-speed serial signal receiving unit 111.

  Also, the initial transmission amplitude pre-emphasis setting unit 103 stores the transmission amplitude and the transmission pre-emphasis setting value (initial value) when the system 200 is activated. The transmission amplitude pre-emphasis setting control unit 108 adaptively controls the transmission amplitude and pre-emphasis during operation of the system 200 based on notifications from the required transmission quality notification unit 109 and the transmission quality status calculation unit 112. The transmission amplitude pre-emphasis changing unit 107 includes a transmission amplitude and transmission pre-emphasis initially set by the initial transmission amplitude pre-emphasis setting unit 103, or a transmission amplitude and transmission pre-emphasis adaptively controlled by the transmission amplitude pre-emphasis setting control unit 108. Is set in the high-speed serial signal transmission unit 101. Then, the high-speed serial signal transmission unit 101 transmits a physical interface signal based on the transmission rate notified from the transmission rate changing unit 104 and the transmission amplitude and pre-emphasis notified from the transmission amplitude pre-emphasis changing unit 107. In the transmission pre-emphasis of the present invention, in order to prevent the transmission quality on the high frequency side of the signal from deteriorating during the transmission of the signal from the signal transmitting unit 101 to the signal receiving unit 111, a specific frequency component on the high frequency side of the signal is used. It emphasizes and modulates.

  The high-speed serial reception unit 101 includes a high-speed serial signal reception unit 111 and a transmission quality status calculation unit 112. The high-speed serial signal reception unit 111 receives a physical interface signal from the high-speed serial signal transmission unit 101. The transmission quality status calculation unit 112 calculates the transmission quality of BER (Bit Error Rate) and BLER (Block Error Rate) using the reception data obtained from the high-speed serial signal reception unit 111, and transmits the result to the transmission amplitude prescaler. Notify the emphasis setting control unit 108.

  In addition, the required transmission band notification unit 106 notifies the transmission rate setting control unit 105 of a transmission band necessary for operating the system 200. The required transmission quality notification unit 109 notifies the transmission quality required by the high-speed serial reception unit 110 when the system 200 is operated.

  In addition, the transmission part 100 and the receiving part 110 which comprise the system 200 are not restricted to the case where each is comprised by one piece as mentioned above, You may comprise a transmission part and a receiving part by 2 or more, respectively. For example, in a high-speed serial transmission system such as a radio base station apparatus, there are many cases in which a plurality of high-speed serial transmission systems are provided, and can be individually controlled by the present invention.

  Next, adaptive control of transmission rate, transmission amplitude, and transmission pre-emphasis will be described with reference to FIGS.

  FIG. 2 is a block diagram for adaptively controlling the transmission rate, transmission amplitude, and transmission pre-emphasis according to the present invention. In FIG. 2, two circles A are connected, and when the system 200 starts operation, adaptive control is performed in the order of transmission rate adaptive control, transmission amplitude adaptive control, and transmission pre-emphasis adaptive control, and adaptive control of transmission pre-emphasis adaptive control. When the process ends, transmission rate adaptive control is started again. In this way, the three adaptive controls are sequentially repeated. The transmission rate changing unit 104 can set a total of eight parameters from 0.5 Gps to 4.0 Gps as transmission rate parameters that can be changed during operation of the system 200. The set value of the transmission rate by the transmission rate adaptive control 105-1 executed in the transmission rate setting control unit 105 is notified to the transmission rate changing unit 104.

  The transmission amplitude pre-emphasis changing unit 107 can set a total of eight parameters of amplitude levels 1 to 8 as transmission amplitude setting parameters that can be changed when the system 200 is operated. The setting value of the amplitude level by the transmission amplitude adaptive control 108-1 executed in the transmission amplitude pre-emphasis setting control unit 108 is notified to the transmission amplitude pre-emphasis changing unit 107.

  In addition, the transmission amplitude pre-emphasis changing unit 107 can set a total of eight parameters from 0% to 52.5% as pre-emphasis parameters that can be changed when the system 200 is operated. The pre-emphasis setting value by the transmission pre-emphasis adaptive control 108-2 executed in the transmission amplitude pre-emphasis setting control unit 108 is notified to the transmission amplitude pre-emphasis changing unit 107.

  In the above description, a total of 8 parameters can be set for the transmission rate, transmission amplitude, and transmission pre-emphasis, but these are not limited to 8 parameters each, and are adapted to the environment in which the transmission system 200 is installed. It is possible to use n parameters other than eight parameters.

  The transmission rate adaptive control 105-1, the transmission amplitude adaptive control 108-1, and the transmission pre-emphasis adaptive control 108-2 are ON / OFF switching for enabling or disabling each adaptive control, and the control range of each set value. Can be specified.

  FIG. 3 is a configuration example of adaptive control in which the setting of whether to enable / disable adaptive control and the control range of each set value are specifically specified. As shown in FIG. 3, in this configuration example, the transmission rate adaptive control 105-1 is disabled (OFF), and the transmission rate can be specified only at 2.5 Gps (fixed at 2.5 Gps). Further, the transmission amplitude adaptive control 108-1 is enabled (ON), and the amplitude level can be designated as any one of five levels ranging from level 4 to level 8. Further, the transmission pre-emphasis adaptive control 108-2 is enabled (ON), and the transmission pre-emphasis can be designated in any one of six stages ranging from 0% to 37.5%. In this way, in the present invention, the adaptive control 105-1, 108-1, and 108-2 can be switched on and off and the control range can be designated, and obtained in advance by evaluation by the transmission quality status calculation unit 112 or the like. The transmission rate, transmission amplitude, and transmission pre-emphasis can be controlled according to the received contents and the operation status of the system 200.

  4 to 6 show flowcharts relating to each adaptive control. 4 shows a flowchart of the transmission rate adaptive control 105-1, FIG. 5 shows a flowchart of the transmission amplitude adaptive control 108-1, and FIG. 6 shows a flowchart of the transmission pre-emphasis adaptive control 108-2. Show.

  Here, a transmission rate adaptive control method will be described with reference to FIG. First, in step 120, it is determined whether or not transmission rate adaptive control is ON (valid). Here, when it is determined to be invalid (OFF), the transmission rate adaptive control according to FIG. 4 is not performed, and the process proceeds to the transmission amplitude adaptive control shown in the flowchart of FIG. On the other hand, if it is determined in step 120 that the transmission rate adaptive control is valid, it is determined in step 121 whether or not the transmission rate setting satisfies the required transmission band notified from the required transmission band notification unit 106. do. If it is determined that the transmission rate setting does not satisfy the required transmission band, it is determined in step 122 whether or not the upper limit of the control range is exceeded even if the transmission rate setting is increased by one step. I do. If the transmission rate setting exceeds the upper limit of the control range, the transmission rate setting value is held in step 126 without being increased by one step, and the process proceeds to transmission amplitude adaptive control (FIG. 5). On the other hand, if it is determined in step 122 that the transmission rate setting does not exceed the upper limit of the control range, the transmission rate setting value is increased by one step in step 127 and the process proceeds to transmission amplitude adaptive control.

  If it is determined in step 121 that the transmission rate setting satisfies the required transmission band, it is determined in step 123 whether the required transmission band is satisfied even if the transmission rate setting is reduced. I do. Here, when the transmission rate setting is reduced by one step and the transmission rate does not satisfy the required transmission band, the transmission rate setting is maintained without being reduced (step 126), and the process proceeds to transmission amplitude adaptive control. To do. On the other hand, if the transmission rate satisfies the required transmission bandwidth even if the transmission rate setting is decreased by one step, the transmission rate will not reach the lower limit of the control range even if the transmission rate setting is decreased by one step in the following step 124. Judgment is made whether or not it exceeds. Here, when the transmission rate setting is decreased by one step and the transmission rate exceeds the lower limit of the control range of the required transmission band, the transmission rate setting is held at step 126 without being reduced. On the other hand, if the transmission rate does not exceed the lower limit of the control range of the required transmission band even if the transmission rate setting is decreased by one step, the transmission rate setting is decreased by one step in step 125 for transmission amplitude adaptive control. Transition.

  As described above, in the transmission rate adaptive control, the setting of the transmission rate is increased within a range that does not exceed the upper limit so as to satisfy the transmission rate when the transmission rate does not satisfy the required transmission band. Further, when the transmission rate satisfies the required transmission band, the transmission rate setting is reduced within a range that does not exceed the lower limit of the control range in order to suppress the power consumption of the system as much as possible.

  Next, a transmission amplitude adaptive control method will be described with reference to FIG. First, in step 130, it is determined whether or not the transmission amplitude adaptive control is ON (valid). Here, if it is determined to be invalid (OFF), the transmission amplitude adaptive control according to FIG. 5 is not performed, and the process proceeds to the transmission pre-emphasis adaptive control shown in the flowchart of FIG. On the other hand, if it is determined that the transmission amplitude adaptive control is effective, in step 131, the transmission quality status notified from the transmission quality status calculation unit 112 satisfies the required transmission quality notified from the required transmission quality notification unit 109. Judge whether or not. Here, if it is determined that the transmission quality status does not satisfy the required transmission quality, whether or not the transmission amplitude setting is increased by one step in step 132, the upper limit of the transmission amplitude control range is exceeded. Judgment is made. Here, when the transmission amplitude setting is increased by one step and the transmission amplitude exceeds the upper limit of the control range, the transmission amplitude setting is held without increasing in step 136, and transmission pre-emphasis adaptive control (FIG. 6) is performed. ). On the other hand, if it is determined in step 132 that the transmission amplitude setting does not exceed the upper limit of the control range, the transmission amplitude setting is increased by one step in step 137 and the process proceeds to transmission pre-emphasis adaptive control.

  If it is determined in step 131 that the transmission quality status satisfies the required transmission quality, in the subsequent step 133, the required transmission quality is set to the required transmission quality notified from the required transmission quality notification unit 109. For example, even if the transmission quality is improved by 30%, it is determined whether or not the transmission quality status satisfies the required transmission quality improved by 30%. Here, when the required transmission quality is improved by 30% and the transmission quality status does not satisfy the required transmission quality improved by 30%, the transmission amplitude setting is kept unchanged (step 136), and transmission is performed. Transition to pre-emphasis adaptive control. On the other hand, even if the required transmission quality is improved by 30%, if the transmission quality status satisfies the required transmission quality by 30%, the transmission amplitude can be reduced even if the transmission amplitude is reduced by one step in the following step 134. It is determined whether or not the lower limit of the transmission amplitude control range is exceeded. If the transmission amplitude setting is reduced by one step and the lower limit of the transmission amplitude control range is exceeded, the transmission amplitude setting is held without being reduced by one step (step 136). On the other hand, if the transmission amplitude does not exceed the lower limit of the transmission amplitude control range even if the transmission amplitude setting is decreased by one step, the transmission amplitude setting is decreased by one step in step 135 and transmission pre-emphasis adaptive control is performed. Transition.

  As described above, in the transmission amplitude adaptive control, the setting of the transmission amplitude is increased within a range that does not exceed the upper limit so that the transmission quality does not satisfy the required transmission quality. Further, when the transmission quality satisfies the required transmission quality, the transmission amplitude setting is reduced within a range that does not exceed the lower limit in order to suppress the power consumption of the system as much as possible without increasing the transmission amplitude more than necessary.

  Further, by further adding a determination when the required transmission quality is improved by, for example, 30%, in a situation where the transmission quality status is near the critical value of the required transmission quality, the transmission amplitude setting is maintained without being reduced. As a result, even if the required transmission quality subsequently changes, the transmission quality status is likely to still satisfy the required transmission quality, and it is necessary to perform adaptive control that frequently raises and lowers the transmission amplitude setting. Sex is lost. That is, it is possible to suppress variations in transmission amplitude control near the criticality of transmission quality.

  Next, a transmission pre-emphasis adaptive control method will be described with reference to FIG. First, in step 140, it is determined whether or not transmission pre-emphasis adaptive control is ON (valid). Here, when it is determined to be invalid (OFF), the transmission pre-emphasis control is not performed, and the processing shifts to the transmission rate adaptive control shown in the flowchart of FIG. On the other hand, when it is determined that the transmission pre-emphasis adaptive control is effective, the transmission quality status notified from the transmission quality status calculation unit 112 in step 141 indicates the required transmission quality notified from the required transmission quality notification unit 109. Judgment whether or not it is satisfied. If it is determined that the transmission quality status does not satisfy the required transmission quality, does the transmission pre-emphasis control range exceed the upper limit even if the transmission pre-emphasis setting is increased by one step in step 142? Determine whether or not. If the transmission pre-emphasis exceeds the upper limit of the control range when the transmission pre-emphasis setting is increased by one step, the transmission pre-emphasis setting is held at step 146 without increasing the transmission pre-emphasis by one step. Control is passed to (FIG. 4). On the other hand, if it is determined in step 142 that the transmission pre-emphasis exceeds the upper limit of the control range, the transmission pre-emphasis setting value is increased by one step in step 147 and the process returns to step 140 again.

  If it is determined in step 141 that the transmission quality status satisfies the required transmission quality, the required transmission quality is set to the required transmission quality notified from the required transmission quality notifying unit 109 in the following step 143, for example. Even if the transmission quality is improved by 10%, it is determined whether or not the transmission quality status satisfies the required transmission quality. Here, when the required transmission quality is improved by 10% and the transmission quality status does not satisfy the required transmission quality improved by 10%, the transmission pre-emphasis setting is kept unchanged (step 146), and the transmission is performed. The process proceeds to rate adaptive control (FIG. 4). On the other hand, even if the required transmission quality is improved by 10%, if the transmission quality status satisfies the required transmission quality by 10%, the transmission pre-emphasis setting is reduced by one step in the following step 144. It is determined whether or not the emphasis exceeds the lower limit of the transmission pre-emphasis control range. Here, when the transmission pre-emphasis setting is weakened by one step and the lower limit of the transmission pre-emphasis control range is exceeded, the transmission pre-emphasis setting is held without weakening by one step (step 146). The process proceeds to transmission rate adaptive control (FIG. 4). On the other hand, if the transmission pre-emphasis does not exceed the lower limit of the transmission amplitude control range even if the transmission pre-emphasis setting is weakened by one step, the transmission amplitude setting is weakened by one step in step 145 and the processing returns to step 140. .

  As described above, in transmission pre-emphasis adaptive control, the setting of transmission pre-emphasis is increased within a range that does not exceed the upper limit so that transmission quality does not satisfy the required transmission quality. If the transmission quality meets the required transmission quality, the transmission range should not exceed the lower limit in order to minimize the radiation noise of high frequency components due to excessive pre-emphasis without increasing transmission pre-emphasis more than necessary. Reduce the pre-emphasis setting.

  Further, by further adding a determination when the required transmission quality is improved by, for example, 10%, the transmission pre-emphasis setting is maintained without being reduced in a situation where the transmission quality status is near the critical value of the required transmission quality. As a result, as in the case of the transmission amplitude adaptive control described above, it is highly possible that the transmission quality status still satisfies the required transmission quality even when the required transmission quality is subsequently changed. The need for adaptive control that frequently raises and lowers emphasis settings is eliminated. That is, it is possible to suppress variations in transmission pre-emphasis control near the criticality of transmission quality.

  The preferred embodiments of the high-speed serial transmission system and the control method thereof according to the present invention have been described above, but according to the present invention, the transmission rate setting control means, the transmission amplitude setting control means, and the transmission pre-emphasis setting control means include: Each of the transmission rate, transmission amplitude, and transmission pre-emphasis settings may be adaptively controlled to adapt to the required transmission band or transmission quality. For this reason, even when the system is operated for a long period of time, regardless of external factors such as the ambient environment such as the variation in the products of the devices constituting the system or the ambient temperature where the system devices are installed, It can be controlled to always maintain the optimum transmission quality for the system. This is because, for example, the transmission amplitude setting control means and the transmission pre-emphasis setting control means perform adaptive control of transmission amplitude and transmission pre-emphasis based on information from the required transmission quality notification section 109 and transmission quality status calculation section 112 shown in FIG. This is because optimal transmission quality is maintained by performing the above.

  Further, it is possible to suppress an increase in power consumption more than necessary during the operation regardless of the operation environment of the transmission system. This is because the transmission rate setting control means performs transmission rate application control to reduce the transmission rate to the minimum required transmission rate for the required transmission band, thereby suppressing the power consumption of the system. Because.

  Also, in transmission amplitude adaptive control, if the transmission quality does not meet the required transmission quality, the required transmission quality can be increased by increasing the transmission amplitude within a range that does not exceed the upper limit of the transmission amplitude control range. It is controlled to satisfy. On the other hand, when the transmission quality condition satisfies the required transmission quality, the transmission amplitude is not increased more than necessary by reducing the transmission amplitude setting within a range that does not exceed the lower limit of the transmission amplitude control range. It becomes possible to suppress power consumption.

  Also, in transmission pre-emphasis adaptive control, if the transmission quality does not meet the required transmission quality, the transmission pre-emphasis setting is increased within the range that does not exceed the upper limit of the transmission pre-emphasis control range. It is controlled to satisfy the transmission quality. Also, if the transmission quality meets the required transmission quality, the transmission pre-emphasis will not become stronger than necessary by reducing the transmission pre-emphasis setting within the range that does not exceed the lower limit of the transmission pre-emphasis control range, It becomes possible to suppress radiation noise of high frequency components due to pre-emphasis.

  The high-speed serial transmission system and the control method thereof according to the present invention can be applied to all network devices such as a large-capacity radio base station device.

100 High-speed serial transmission unit (transmission means)
101 high-speed serial signal transmission unit 102 initial transmission rate setting unit 103 initial transmission amplitude pre-emphasis setting unit 104 transmission rate change unit 105 transmission rate setting control unit (transmission rate setting control means)
106 Required Transmission Band Notification Unit 107 Transmission Amplitude Pre-emphasis Changing Unit 108 Transmission Amplitude Pre-emphasis Setting Control Unit (Transmission Amplitude Pre-emphasis Setting Control Unit)
109 Required transmission quality notification unit 110 High-speed serial reception unit (reception means)
200 High-speed serial transmission system

Claims (8)

A high-speed serial transmission system for serially transmitting data from a transmitting means to a receiving means by wireless communication,
The transmission means adaptively controls the setting of the transmission rate based on a required transmission band suitable for wireless communication between the transmission means and the receiving means so that the transmission rate of the data is adapted to the required transmission band. Having transmission rate setting control means,
The high-speed serial transmission system, wherein the transmission rate setting control means can specify whether or not to perform the adaptive control and can specify a control range of the transmission rate that can be set by the adaptive control. A high-speed serial transmission system for serially transmitting data from a transmitting means to a receiving means by wireless communication,
Based on the required transmission quality suitable for wireless communication between the transmitting means and the receiving means, and the transmission quality status of the signal received by the receiving means, the transmission means determines that the transmission quality status is the required transmission quality. Transmission amplitude setting control means for adaptively controlling the transmission amplitude setting of the signal to satisfy
The high-speed serial transmission system, wherein the transmission amplitude setting control means can specify whether or not to perform the adaptive control, and can specify a control range of the transmission amplitude that can be set by the adaptive control. A high-speed serial transmission system for serially transmitting data from a transmitting means to a receiving means by wireless communication,
Based on the required transmission quality suitable for wireless communication between the transmitting means and the receiving means, and the transmission quality status of the signal received by the receiving means, the transmission means determines that the transmission quality status is the required transmission quality. Transmission pre-emphasis setting control means for adaptively controlling the setting of signal transmission pre-emphasis so as to satisfy
The high-speed serial transmission system, wherein the transmission pre-emphasis setting control means can specify whether or not to perform the adaptive control and can specify a control range of the transmission pre-emphasis that can be set by the adaptive control. A high-speed serial transmission system for serially transmitting data from a transmitting means to a receiving means by wireless communication,
4. A high-speed serial transmission system comprising: the transmission rate setting control means according to claim 1; the transmission amplitude setting control means; and the transmission pre-emphasis setting control means.   Further, the transmission amplitude setting control means determines whether or not the transmission quality status satisfies the increased transmission quality when the required transmission quality is increased by a predetermined amount. The high-speed serial transmission system according to claim 2 or 4.   Further, when the transmission pre-emphasis setting control means increases the required transmission quality by a predetermined amount, the transmission pre-emphasis setting control means determines whether or not the transmission quality status satisfies the required transmission quality. The high-speed serial transmission system according to claim 3 or 4, characterized by the above. An adaptive control method of data transmission rate, transmission amplitude, and transmission pre-emphasis in a high-speed serial transmission system that serially transmits data from a transmission unit to a reception unit by wireless communication, the method comprising:
Controlling the setting of the transmission rate based on a required transmission band suitable for wireless communication between the transmitting means and the receiving means so that the transmission rate of the data is adapted to the required transmission band;
Controlling the setting of the transmission amplitude so that the transmission quality status adapts to the required transmission quality based on the required transmission quality and the transmission quality status of the signal received by the receiving means;
Controlling the setting of the transmission pre-emphasis so that the transmission quality status adapts to the required transmission quality based on the required transmission quality and the transmission quality status of the signal received by the receiving means;
A method characterized by comprising: The step of controlling the setting of the transmission amplitude further determines whether or not the transmission quality status satisfies the required transmission quality when the required transmission quality is increased by a predetermined amount. Has steps,
The step of controlling the setting of the transmission pre-emphasis further determines whether or not the transmission quality status satisfies the required transmission quality when the required transmission quality is increased by a predetermined amount. The method according to claim 7, further comprising the step of:

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