KR101568975B1 - Multi-channel Receiver for DSRC - Google Patents

Abstract

The present invention relates to a multi-channel receiver for use in DSRC (Dedicated Short Range Communication), which is a short-distance dedicated communication, and which prevents interference characteristics of a signal converted due to a frequency deviation from deteriorating. A mixer for mixing a frequency and a channel frequency from two channels to output an intermediate frequency, and a channel filter for passing a frequency signal belonging to a predetermined range out of intermediate frequencies output from the mixer, Is a relatively low channel frequency (RF1) 5.830 GHz and a relatively high panel frequency (RF2) 5.840 GHz signal and the LO (local oscillator) frequency is from the middle between the low channel frequency RF1 and the high channel frequency RF2 And is shifted to one side.

Description

[0001] Multi-channel Receiver for DSRC [

The present invention relates to a multi-channel receiver, and more particularly, to a multi-channel receiver which is used in DSRC (Dedicated Short Range Communication), which is a short distance dedicated communication, and which prevents interference characteristics of a signal converted due to a frequency deviation from deteriorating .

ITS (Intelligent Transport System) is a system that applies electricity, electronics, information, communication, and automobile technology to traffic to effectively cope with such traffic problems. ITS collects, processes, and processes traffic related information, weather information, and road condition information for roads, vehicles, drivers and tourists nationwide, and provides information for convenience of traffic and communication of traffic volume.

DSRC (Dedicated Short Range Communications) is used as a communication system used in such ITS, and this DSRC is a communication method limited to a short distance. This communication method is a communication method and standard for establishing communication at a short distance only without long distance interference based on a few frequencies and an industrial / scientific / medical (ISM) band which does not require permission to use radio waves, and is a distance of several meters to several tens of meters And is a standard communication method that enables frequency reuse in each area because it is used in a narrow area.

Patent Literatures 1 to 3 are techniques related to such DSRC.

In Patent Document 1, since the information related to the gate clearance is transmitted and received by the wireless communication in the irregular state of the container vehicle, the cause of the congestion can be eliminated by enabling the quick and accurate customs clearance work, The present invention relates to an automatic gate clearance system applicable to an automated container terminal,

In Patent Document 2, when an OBU (High Pass Terminal) equipped vehicle enters its service area, it communicates with the OBU to collect communication history information including OBU ID information, and transmits the collected communication history information through the network At least one or more roadside base stations; And an OBU ID of the OBU mounted on the vehicle for a location information providing service of the vehicle in accordance with a request of the user is pre-registered in the database of the server, the OBU ID is extracted from the communication history information transmitted from the roadside base station, Registered OBU ID information in the database together with the communication history information without encrypting the received OBU ID information, if the location information providing service request is made from the arbitrary OBU through the roadside base station, the ID of the OBU is stored in the database And a server for transmitting the location information through the roadside base station to the OBU requesting the service according to the stored communication history information of the corresponding OBU if the OBU ID is not encrypted and stored in the OBU.

Patent Document 3 discloses an OBE (on-vehicle device using a DSRC system) mounted on public transportation means such as a bus; It is installed at regular intervals on the street facilities such as the signs of the bus stop, has an LCD screen to display information, transmits / receives predetermined information to / from the OBE, RSE (Roadside Equipment) transmitting; An information center including a data processing device and a database capable of collecting, processing, distributing information on traffic situation and information on vehicle driving situation from RSE, and providing information to related government agencies and public transportation companies; The present invention relates to a public transportation system comprising an information terminal for providing general users with departure / arrival information, bus schedule arrival time information, traffic situation and accident information according to information provided by an information center.

The systems using the DSRC include a DSRC receiver, which is configured as shown in FIG. 3, and a heterodyne system for demodulating a signal received using an intermediate frequency of 40 MHz or 10 MHz Has been used.

However, when using such an intermediate frequency, an automatic channel scan function for searching for a channel being serviced is required among a plurality of authorized channels to be used. Further channel selection time is required for channel search, The time to communicate in the area is reduced.

A radio frequency envelope detector-type receiver as shown in FIG. 4 has been developed to overcome such disadvantages. The RFED type receiver is capable of receiving multiple channels and has the advantage of not requiring channel information because of its wideband reception characteristic. However, since the band that can be communicated is wide, other signals (especially, 5.8 GHz Band wireless LAN) is likely to malfunction.

The technology of Patent Document 4 that was developed in order to overcome the disadvantages of the above two DSRC receivers.

Patent Document 4 is a technique of using a specific frequency fixed at an intermediate frequency, and a receiver as shown in Fig. 5 has been developed. This is done by setting the middle of the allowed RF receive channel spacing to the local oscillation frequency so that the intermediate frequencies of the two channels are the same.

The technology of Patent Document 4 has an advantage that two channels can be received at a fixed frequency setting without using a separate channel search function, and other channel signals except two channels having the same intermediate frequency are received at an intermediate frequency Since it can be removed by the channel filter, it is also advantageous to remove the interference wave which is a disadvantage of the receiver using the RFED. However, since the two channel signals are converted to the same intermediate frequency, when both channels are used, the adjacent channel rejection characteristic is deteriorated due to the same shape as the coherent interferer. In particular, since the frequency of the converted signal slightly changes with time due to the deviation of the local oscillation frequency, there is a problem that adjacent channel characteristics are much worse than the cochannel interference characteristic.

1. Korea Patent No. 0388113 2. Korea Patent No. 1047598 3. Korea Patent No. 0480344 4. Korea Patent No. 1131801

SUMMARY OF THE INVENTION The present invention has been developed to overcome the above-described problems, and it is an object of the present invention to provide a multi-channel receiver for a DSRC that prevents interference characteristics of signals converted due to frequency deviation from deteriorating.

More specifically, the local oscillation frequency is shifted from the middle of the input frequency to the one side so that the two channel frequency signals are kept at intervals without being overlapped, so that the adjacent channel interference characteristic is improved by the multiplexing for the DSRC Channel receivers.

In order to achieve the above object, a multi-channel receiver for DSRC
A mixer for mixing the local oscillation frequency of the local oscillator and the channel frequency from the two channels and outputting the intermediate frequency; And a channel filter for passing a frequency signal belonging to a set range out of intermediate frequencies output from the mixer, wherein a channel frequency inputted from the two channels is a low channel frequency (RF1) of 5.830 GHz, a high channel frequency (RF2) 5.840 GHz signal, and the local oscillation frequency is shifted to one side from the middle between the low channel frequency (RF1) and the high channel frequency (RF2), said channel filter having a low channel frequency, And has a bandwidth of a frequency interval.

The local oscillation frequency may be shifted to a lower channel frequency RF1 side or shifted to a higher channel frequency RF2 side.

As described above, the multi-channel receiver according to the present invention has an effect that the time required for channel search can be shortened while the adjacent channel characteristics satisfy the authentication criterion.

Accordingly, when the present invention is applied to an electronic toll collection system used in a highway requiring processing in a short period of time, it is possible to reduce the congestion of the vehicle by charge settlement by shortening the charge accumulation time.

1 is a graph illustrating a frequency graph of a multi-channel receiver for DSRC according to the present invention
2 is a block diagram of an example of a conventional receiver
3 is a block diagram of another example of a conventional receiver
4 is a block diagram of another example of a conventional receiver
Fig. 5 is a graph showing the frequency in the receiver shown in Fig. 4

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Like reference numerals are used for like elements in describing each drawing. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The present invention can prevent the interference characteristic of the converted signal from being deteriorated due to the frequency deviation.

The multi-channel receiver according to the present invention shifts the local oscillator frequency LO from the middle to the low frequency between the low channel frequency RF1 and the high channel frequency RF2 as shown in FIG. shifted so that the intermediate frequencies of the two input channel frequencies are changed according to changes in the temperature and time of the local oscillator.

The multi-channel receiver for DSRC according to the present invention has the same structure as a conventional receiver, and includes a local oscillator for generating a desired primary intermediate frequency by mixing with a received frequency, a local oscillation frequency of the local oscillator, And a channel filter for passing a frequency signal belonging to a predetermined range out of intermediate frequencies output from the mixer.

As shown in FIG. 5, the intermediate frequencies IF1 and IF2 of the two channel frequencies do not coincide with each other because the frequency varies depending on the temperature and time at which the local oscillator provided in the receiver operates. The interference characteristic of the signal becomes worse. In particular, it can be removed using a filter, but it is impossible to remove it using a filter because the two channel frequencies are very close.

Accordingly, instead of fixing the intermediate frequency between two channel frequencies, as described above, the interference between adjacent channels is improved by shifting from the middle of the two channel frequencies to one side.

1, the intermediate frequency is not set to 5 MHz, which is the middle of the two channel frequencies RF1 and RF2, and the adjacent channels are shifted to either side of the channel frequencies RF1 and RF2 so that the two signals are not overlapped, To the same channel interference level.

As described above, since the receiver according to the present invention is for DSRC, the channel frequencies inputted from the two channels are relatively low channel frequency (RF1) 5.830 GHz and relatively high channel frequency (RF2) 5.840 GHz.

The shifted local oscillation frequency is shifted several MHz to one side between the low channel frequency RF1 and the high channel frequency RF2.

The direction of shifting the local oscillation frequency LO may be shifted to the lower channel frequency RF1 side of the two input channel frequencies RF1 and RF2 or may be shifted to a higher channel frequency RF2, . ≪ / RTI > The intermediate frequencies IF1 and IF2 thereby improve the adjacent channel interference characteristics to the same channel interference level.

Since the interval is maintained so that the intermediate frequencies IF1 and IF2 are not overlapped, the channel filter should have a bandwidth as wide as the intermediate frequency interval between the two channels.

FR1, RF2: Channel frequency
IF1, IF2: Intermediate frequency
LO: Local oscillation frequency

Claims (4)

A mixer for mixing the local oscillation frequency of the local oscillator and the channel frequency from the two channels and outputting the intermediate frequency; And a channel filter for passing a frequency signal belonging to a set range out of intermediate frequencies output from the mixer,
The channel frequencies input from the two channels are the low channel frequency (RF1) 5.830 GHz and the high channel frequency (RF2) 5.840 GHz signal,
The local oscillation frequency is shifted to one side from the middle between the low channel frequency RF1 and the high channel frequency RF2,
Wherein the channel filter has a bandwidth of a low channel frequency and a channel frequency interval which are intervals between two channel intermediate frequencies. The method according to claim 1,
Wherein the local oscillation frequency is shifted toward a lower channel frequency (RF1) side. The method according to claim 1,
Wherein the local oscillation frequency is shifted to a higher channel frequency (RF2) side. delete

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