KR101258495B1 - A synchronization of mimo measurement system - Google Patents

Abstract

PURPOSE: A transmission/reception synchronization method of MIMO(Multiple-Input and Multiple-Output) measurement equipment is provided to prevent unnecessary use of cables by obtaining synchronization between transmission equipment and reception equipment by using a detachable synchronization module. CONSTITUTION: A synchronization module mounted on reception equipment is operated with a battery and separated from the reception equipment. The separated synchronization module is brought to transmission equipment, and a cable for synchronization is connected to the synchronization port of the synchronization module. When the transmission equipment executes a synchronization command, timing modules of the transmission equipment and synchronization module are reset with an identical signal. The synchronized synchronization module is mounted on the reception equipment and connected with power and necessary signal cables. When the reception equipment runs a program, signals are obtained at a location synchronized with the transmission equipment.

Description

Transmit and Receive Synchronization Method of MEMS Measurement Equipment {A synchronization of MIMO Measurement System}

The present invention relates to a transmission and reception synchronization method of a MIMO measurement equipment, and more particularly, to a method for synchronizing antenna selection signals of a transmission device and a reception device.

In general, various multimedia services such as video, music, and games are provided in a wireless communication system. In this case, in order to smoothly provide a multimedia service in a wireless communication system, a high data rate for a large amount of multimedia data should be guaranteed.

In the general technique, one transmitting antenna and one receiving antenna are used. MIMO (Multi-Input Multi-Output) is a method using a plurality of transmission antennas and a plurality of reception antennas, and this method can improve the transmission and reception efficiency of data. That is, by using a plurality of antennas at the transmitting end or the receiving end of the wireless communication system, the capacity can be increased and the performance can be improved. In the following description, MIMO may be referred to as a 'multi-antenna'.

In a multi-antenna technique, it does not rely on a single antenna path to receive one full message. Instead, the multi-antenna technique completes data by merging each data fragment received from multiple antennas. Using multi-antenna technology, it is possible to improve the data rate within a cell area of a specified size or to increase system coverage while guaranteeing a specific data rate. This technique can also be widely used in mobile communication terminals, repeaters, and the like. According to the multiple antenna technology, it is possible to overcome the transmission limit in the mobile communication according to the prior art, which used a single antenna.

A schematic diagram of a typical multiple antenna (MIMO) communication system is shown in FIG. NT transmitting antennas are provided at the transmitting end, and NR receiving antennas are provided at the receiving end. When the plurality of antennas are used in both the transmitter and the receiver as described above, the theoretical channel transmission capacity is increased than when the plurality of antennas are used in either the transmitter or the receiver. The increase in channel transmission capacity is proportional to the number of antennas. Therefore, the transmission rate is improved and the frequency efficiency is improved. If the maximum transmission rate when using one antenna is Ro, the transmission rate when using multiple antennas can theoretically be increased by multiplying the rate of increase rate Ri by the above Ro.

The MIMO wideband channel measurement system consists of a transmission system that transmits PN signals at a rate of up to 100 Mcps and a reception system that receives them.

Since the wideband channel measurement system measures the characteristics of the MIMO channel using four transmit antennas and four receive antennas, accurate analysis is possible only when all four transmit antennas receive signals transmitted from one transmit antenna.

However, since the transmission system and the reception system are transmitted / received in a space separated from each other, it is important to receive all four reception antennas in synchronization with the transmission time of one transmission antenna. That is, the transmitting system must know exactly at which antenna the transmitting system transmits the signal. For this synchronization, a means for exactly matching the switching timing of the antenna to the transmitting / receiving terminal is required.

An object of the present invention is to propose a method for enabling synchronization of a frame sync between a transmitting device and a receiving device.

Another problem to be solved by the present invention is to propose a method that can be performed without unnecessary cables in synchronizing the frame sync between the transmitting equipment and the receiving equipment.

To this end, a method of synchronizing a frame sync between a transmitting device and a receiving device constituting the MIMO wideband channel measurement system of the present invention includes connecting a synchronization module attached to the receiving device with a battery and supplying power from the receiving device. Detaching, connecting the detached cable of the sync module to the sink port of the sink module of the transmitting device, executing a sync command in the transmitting device to synchronize the frame sync of the transmitting device with the sync module; Detaching the cable of the sync module from the sink port of the sink module and attaching the sync module to the receiving equipment.

To this end, in the apparatus for synchronizing the frame sync between the transmitting device and the receiving device constituting the MIMO broadband channel measurement system of the present invention, the power supply is connected to the battery, detached from the receiving device sink module of the transmitting device And a sync module connected to a sink port of the sync device to execute a sync command in the transmitting device to synchronize the frame sync with the transmitting device, and then disconnect from the sink port of the sink module and attach the sync device to the receiving device.

In the transmission and reception synchronization method of the MIMO measurement equipment according to the present invention, the synchronization module is detached from the battery and is synchronized with the transmission device, and then attached to the reception device to perform synchronization between the transmission device and the reception device. By using the detachable synchronization module as described above, there is an advantage that the cable is not unnecessary because the synchronization between the transmitting device and the receiving device is acquired.

1 illustrates a MIMO system.
2 illustrates a configuration of a transmission system in a MIMO wideband channel measurement system according to an embodiment of the present invention.
3 illustrates a configuration of a reception system in a MIMO wideband channel measurement system according to an embodiment of the present invention.
4 is a diagram illustrating an antenna selection signal timing diagram of a transmitter / receiver according to an embodiment of the present invention.
5 is a diagram illustrating a connection between a transmission module and a sink module for synchronizing a frame sink according to an embodiment of the present invention.

The foregoing and further aspects of the present invention will become more apparent through the preferred embodiments described with reference to the accompanying drawings. Hereinafter will be described in detail to enable those skilled in the art to easily understand and reproduce through this embodiment of the present invention.

2 illustrates a configuration of a transmission system in a MIMO wideband channel measurement system according to an embodiment of the present invention. Hereinafter, a configuration of a transmission system in a MIMO wideband channel measurement system according to an embodiment of the present invention will be described in detail with reference to FIG. 2.

According to FIG. 2, the transmission system includes an oscillator, a timing module, a signal generator, a D / A converter, a controller, an LPF, an up converter, a high frequency amplifier (HPA), an RF switch module, and a plurality of antennas. It is obvious that other configurations may be included in the transmission system, of course.

The oscillator 200 generates a clock for use in the transmission system. All clocks used in the transmission system in connection with the present invention are generated using a 10 MHz rubidium oscillator and therefore operate very accurately.

The timing module 202 transfers the clock generated by the oscillator 200 to the signal generator 204 according to a control command of the controller.

The signal generator 204 loads the generated signal on the clock provided from the timing module 202 and transfers the generated signal to the D / A converter 206. The D / A converter 206 converts the signal generated by the signal generator 204 into an analog signal. The LPF 208 performs filtering on the converted analog signal, and the Up converter 210 converts the filtered signal into an RF signal. The RF signal is then amplified in the high frequency amplifier 212 and then time-divided into four antennas by the RF switch module 214 and transmitted through the antenna.

3 illustrates a configuration of a reception system in a MIMO wideband channel measurement system according to an embodiment of the present invention. Hereinafter, a configuration of a reception system in a MIMO wideband channel measurement system according to an embodiment of the present invention will be described in detail with reference to FIG. 3.

According to FIG. 3, the receiving system includes a plurality of antennas, an RF switch module, a LAN, a down converter, a high speed data capture unit, a channel analysis module, a controller, a timing module, and an oscillator. Obviously, other configurations may be included in the receiving system in addition to the above-described configuration.

Oscillator 312 generates a clock for use in the receiving system. All clocks used in the reception system in connection with the present invention are generated using a 10 MHz rubidium oscillator and therefore operate very accurately.

The timing module 310 transmits the clock generated by the oscillator 312 to the channel analysis module 308 according to a control command of the controller 314.

The signals received at the four antenna stages are selected in time division at the RF switch module 300. The selected RF signal is amplified at LAN 302 and baseband signal converted at down converter 304. The baseband signal converted signal from the down converter 304 is input to the high speed A / D converter 306. The high-speed A / D converter 306 converts the input analog signal to A / D conversion and delivers it to the channel analysis module 308. The channel analysis module 308 is responsible for analyzing the characteristics of the channel using the signal data acquired by the high speed A / D converter 306.

4 is a diagram illustrating an antenna selection signal timing diagram of a transmitter / receiver according to an embodiment of the present invention. As shown in FIG. 4, when the antenna selection signal timing diagram of the transmitter and the antenna selection signal timing diagram of the receiver are examined, synchronization may not be accurately performed.

In general, in order to synchronize the frame sync for antenna selection signal, the first start point should be matched by connecting the transmitter and the receiver with a cable. However, it is not so easy to connect cables between the transmission equipment mainly installed on the roof of the building and the reception equipment installed in the vehicle. However, as described above, for synchronization, a means for exactly matching the switching timing of the antenna of the transmitter and the antenna of the receiver is required. To this end, the present invention uses a frame sink using a battery operated sink module. A method of synchronizing frame sync using a sync module is as follows.

1. Operate the sink module mounted on the receiving device with a battery and remove it from the receiving device.

2. Take the sink module separated from the receiving device to the transmitting device and connect the sync cable to the sink port of the sink module.

5 is a diagram illustrating a connection between a transmission module and a sink module for synchronizing a frame sink according to an embodiment of the present invention.

3. When the sink device executes the sink command, the timing module of the transmitter device and the sink module is reset by the same signal. The frame sync starts at the same position at the same position by the same signal.

4. Bring the synchronized sink module to the receiving device, install it, and connect the power and necessary signal cables.

5. By executing the program of the receiving device, the signals can be obtained at the position synchronized with the transmitting device.

As such, when the frame sync is synchronized between the transmitting device and the receiving device by the sink module, the switching timing of the transmitting antenna and the switching timing of the receiving antenna coincide.

As described above, the present invention enables synchronization between the transmitting device and the receiving device by using a sink module attached to the receiving device for the synchronization of the transmitting device and the receiving device.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the scope of the present invention .

Claims (4)

delete delete delete An apparatus for synchronizing a frame sync between a transmitting device and a receiving device constituting a MIMO wideband channel measurement system,
battery;
Power is supplied from the connected battery, detached from the receiving device and connected to the sink port of the transmitting module of the transmitting device to execute a sync command in the transmitting device to synchronize the frame sync with the transmitting device, and then And a sink module attached to the receiving device after detaching from the sink port.
Frame sync synchronization, characterized in that to synchronize the frame sync to match the switching timing of the transmitting antenna and the receiving antenna corresponding to the transmitting antenna in a MIMO broadband channel measurement system having at least two transmitting antennas and at least two receiving antennas Device.

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