KR20100091347A - Method for estimating frequency offset in repeater and apparatus thereof - Google Patents

Abstract

PURPOSE: A method for estimating a frequency offset in a converted frequency relay device and an apparatus thereof are provided to synchronize clock frequencies of two units, thereby improving service quality. CONSTITUTION: The first unit requests the second unit to start counting a clock(S720). The first unit stores the first clock count at this time. The first unit receives a message about a fixed number of clock count end from the second unit(S730). The first unit stores the second clock count at this time. The first unit calculates a clock frequency offset estimation value with the second unit by the clock count of the second unit and the first and second clock counts(S740).

Description

Frequency deviation estimating method and apparatus thereof in wave repeater {METHOD FOR ESTIMATING FREQUENCY OFFSET IN REPEATER AND APPARATUS THEREOF}

The present invention relates to frequency deviation estimation of a repeater, and more particularly, a clock frequency deviation between two units without using a separate frequency resource in a variable frequency repeater in which a master unit (MU) and a remote unit (RU) are connected wirelessly. The present invention relates to a frequency deviation estimating method and apparatus for a wave repeater capable of synchronizing two units.

As shown in FIG. 1, the conventional variable frequency repeater in which the MU 110 and the RU 120 are connected to each other wirelessly generates a pilot signal by modulating the clock generated by the reference clock generator to generate a pilot signal. And a pilot modulating and transmitting unit for transmitting to the 120, and the RU 120 generates a reference clock based on the pilot receiving and demodulating unit and the demodulated pilot signal for receiving and demodulating the pilot signal transmitted from the MU 110. And a clock generator.

However, in order to synchronize the clock between the MU and the RU, the conventional variable frequency repeater uses a separate pilot signal, and thus requires a separate frequency band for transmitting and receiving pilot signals, thus consuming additional frequency resources, and also piloting. If the occupied radio channel has frequency selectivity due to fading, the pilot signal may be lost or its quality may be greatly degraded, thereby causing difficulty in generating a reference clock in the RU.

In addition, although not shown in Figure 1, the reference clock applied to the band transition portion of the MU (110) and RU (120) is applied through the PLL, it is difficult to synchronize the clock frequency of the two units when the error between the PLL In order to solve this problem, a PLL having a small error should be used, which is a problem in that the unit price of a variable repeater increases due to a rise in the PLL price.

An object of the present invention, which is designed to solve the above problems, is to provide a variable frequency repeater capable of synchronizing the clock between two units by correcting the deviation of the clock frequency generated in each of the two units constituting the repeater. A method and apparatus for estimating frequency deviation are provided.

Furthermore, another object according to an embodiment of the present invention is to estimate the clock frequency deviation using the clock count performed in each of the two units, and to correct the clock frequency using this, thereby synchronizing the clock between the two units at no additional cost The present invention provides a method and apparatus for estimating frequency deviation of a variable wave repeater.

In order to achieve the above object, a frequency deviation estimation method of a repeater according to an aspect of the present invention is a frequency deviation estimation method of a variable frequency repeater comprising a first unit and a second unit, the first unit to the second unit Requesting to start a clock count of a predetermined number N and storing a first clock count NO at that time; Receiving, by the first unit, a message about the end of the predetermined number of clock counts from the second unit and storing a second clock count (N1) at that time; And calculating, by the first unit, a clock frequency deviation estimate with the second unit by using a predetermined number N clock counts of the second unit and the first and second clock counts N0 and N1. It may include.

The method may further include calculating, by the first unit, a message transmission and reception delay time with the second unit, and calculating the clock frequency deviation estimate may include the message transmission and reception delay time and a predetermined number of clocks of the second unit. The clock frequency deviation estimate may be calculated using a count and the first and second clock counts N0 and N1.

In the calculating of the message transmission / reception delay time, the process of transmitting a preset message to the second unit and requesting a response thereto is repeated a predetermined number of times, and the average time required for the transmission and response of the message is determined. It can be calculated as the message transmission and reception delay time.

According to another aspect of the present invention, there is provided a method for estimating a frequency deviation of a repeater including a first and a second unit, wherein the first unit requests the clock unit to start clock counting. Performing a clock count of a predetermined number N; Requesting and receiving, by the first unit, the clock count performed in the second unit from the second unit at a time point when the predetermined number N of clock counts ends; And calculating, by the first unit, a clock frequency deviation estimate with the second unit using the clock count received from the second unit and the predetermined number of clock counts (N).

An apparatus for estimating a frequency deviation of a repeater according to an aspect of the present invention is a frequency deviation estimating apparatus for a wave repeater including a first unit and a second unit, and includes a clock count of a predetermined number (N) performed in the second unit. A clock frequency deviation between the second unit and the clock counts N0 and N1 at the start request time and the end time, and by using the predetermined number of clock counts and the stored clock counts N0 and N1 of the second unit. A first unit for calculating an estimate; And a second unit that counts the predetermined number of clocks according to the start request of the first unit and transmits a message for ending the clock count of the predetermined number N to the first unit. .

According to another aspect of the present invention, an apparatus for estimating a frequency deviation of a repeater includes: a frequency deviation estimating apparatus for a wave repeater including a first unit and a second unit, wherein the second unit has a predetermined number of clock count times. Requesting and receiving a counted clock count from the second unit, and calculating a clock frequency deviation estimate with the second unit using the received clock count and the predetermined number of clock counts (N). A first unit; And a second unit configured to transmit the clock count counted for the predetermined number N of clock count times to the first unit by a request of the first unit.

Other objects and features of the present invention in addition to the above objects will be apparent from the description of the embodiments with reference to the accompanying drawings.

Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

Hereinafter, a method and apparatus for estimating frequency deviation of a wave repeater according to an exemplary embodiment of the present invention will be described in detail with reference to FIGS. 2 to 8.

2 shows an apparatus for estimating frequency deviation of a wave repeater according to an embodiment of the present invention.

As can be seen in FIG. 2, the frequency deviation estimating apparatus includes a MU 210 and a RU 220 that are wirelessly connected.

The MU 210 may include a first RF receiver 211, a band shift unit 212, a second RF transmitter 213, a clock counter 214, a reference clock generator 215, a controller 216, and wireless data. The modem unit 217 is included.

The first RF receiver 211 receives a transmission signal transmitted from a donor site, for example, a base station, band-passes the first frequency band, and then amplifies and outputs the signal.

The band shifter 212 transitions the RF signal of the first frequency band to the second frequency band to be used in the relay section.

The second RF transmitter 213 power amplifies the RF signal transitioned to the second frequency band and transmits the amplified RF signal to the RU 220.

The reference clock generator 215 generates a reference clock (or oscillation signal) of a reference frequency required for band transition.

The clock counter unit 214 counts the number of reference clocks generated by the reference clock generator 215 during the control time of the controller 216.

The wireless data modem unit 217 transmits a predetermined message to the RU 220 under the control of the controller 216 and receives a response message from the RU 220.

At this time, the digital signal transmitted and received between the MU 210 and the RU 220, that is, the message transmitted and received is a message for calculating the transmission and reception delay time, a message for starting the clock count start request of the RU and the clock count performed by the RU, It may include a start request for a certain number of clock counts performed and an end message thereof.

The controller 216 estimates the clock frequency deviation from the RU using the reference clock number obtained by controlling the clock counter unit 214 and the message information transmitted and received through the wireless data modem unit 217, and estimates the clock frequency of the RU. The clock frequency deviation estimate estimated to be corrected is transmitted to the RU 220 through the wireless data modem unit 217. A method of calculating the clock frequency deviation estimate will be described below.

1) A first embodiment for calculating the clock frequency deviation estimate will be described with reference to FIGS. 3 and 4.

Referring to the operation flowchart between the MU and the RU illustrated in FIG. 3, the controller 216 transmits a predetermined message to the RU 220 through the wireless data modem unit 217 and receives a response message thereto. Calculate the delay of message transmission and reception between MU and RU.

In this case, the message transmission / reception delay time may be obtained by repeating a process of transmitting a preset message to the RU and receiving a response thereto at least once, and calculating an average time for transmitting and receiving the repeated message. .

The controller 216 calculates a message transmission / reception delay time, transmits a message requesting a predetermined number of clock counts to the RU, and obtains a clock count N0 at that time through the clock counter unit 214. The clock count N1 at the time point when the message for the end of the predetermined number N of clock count executions is received from the RU is obtained and stored through the clock counter 214.

The controller 216 may calculate a clock frequency deviation estimate with the RU using the calculated message transmission / reception delay time, the clock count number N performed in the RU, and the stored clock count numbers N0 and N1.

Referring to the timing diagram shown in FIG. 4, the clock frequency deviation estimate is calculated as follows.

The clock frequency deviation estimate Δf may be expressed as Equation 1 below.

Δf = f _M -f _R

Δf = (N ₁ -N ₀ -NN _DM -N _DR ) / (T _DM + T _NR + T _DR )

Here, f _M , f _R refer to the reference clock frequencies of the MU and RU, N ₀ refers to the MU clock count at the time of N-clock count start request to the RU, N ₁ is received N-clock count completion message from the RU The MU clock count at the time point, T _DM refers to the transmission delay time of the message to receive from the RU to the message sent by the MU, T _DR is the reception of the message to receive the message from the MU to the MU Refers to the delay time, T _NR refers to the time taken to perform the N-clock count in the RU, N _DM and N _DR is the number of clock counts performed in the MU during the T _DM and T _DR time (N _DM = f _M × T _DM , N _DR = f _M × T _DR ).

That is, N _DM + N _DR means the number of clock counts performed in the MU during the calculated message transmission / reception delay time.

Meanwhile, N1-N0, which is the number of clock counts from the time of transmitting an N-clock count start request message to the RU to the time of receiving an N-clock count end message from the RU, may be expressed as Equation 2 below.

N ₁ -N ₀ = f _M × (T _DM + T _DR + T _NR )

That is, the clock counts (N1-N0) performed in the MU are the time required to request an N-clock count from the MU's clock frequency (f _M ) to the RU, and to receive an end message. The time taken to perform the N-clock count in S is divided by the time added.

Therefore, the clock frequency deviation estimate calculated by the controller 216 may be expressed as Equation 3 below.

Δf = f _M × (N ₁ -N ₀ -NN _DM -N _DR ) / (N ₁ -N ₀ )

As can be seen from Equation 3, the controller 216 controls the number of clock counts (N _DM + N _DR ) in the MU calculated by the message transmission / reception delay time, the number of clock counts performed in the RU (N), and the stored clock. The count number N0, N1 may be used to calculate the clock frequency deviation estimate with the RU.

The controller 216 may correct the clock frequency in the RU by transmitting the clock frequency deviation estimate calculated as described above to the RU through the wireless data modem unit.

2) A second embodiment of calculating the clock frequency deviation estimate will be described with reference to FIGS. 5 and 6.

Referring to the operation flowchart between the MU and the RU illustrated in FIG. 5, the control unit 216 transmits a clock count start request message to the RU through the wireless data modem unit 217 and simultaneously performs a predetermined number of clocks. When N clocks are counted by the clock counter unit 214, the RU requests and receives the clock count number N _R performed by the RU.

The controller 216 estimates the clock frequency deviation with the RU using the number of clock counts (N _R ) received from the RU, the number of clock counts (N) performed in the MU, and the time (T _N ) spent counting the N-clocks. Calculate

In this case, the clock frequency deviation estimation value Δf calculated by the controller 216 may be expressed by Equation 4 below.

Δf = (NN _R ) / T _N

Here, T _N refers to the time required for counting N-clocks in the MU. Since N = f _M × T _N , Equation 4 may be expressed as Equation 5 below.

Δf = f _M × (NN _R ) / N

That is, as can be seen from Equation 5, the controller 216 uses the clock frequency of the MU, the N-clock count performed in the MU, and the clock count (N _R ) performed in the RU, and the clock frequency deviation from the RU. Estimates can be calculated.

The clock frequency deviation estimate thus calculated is transmitted to the RU through the wireless data modem unit 217 to correct the clock frequency by the clock frequency deviation estimate in the RU, thereby synchronizing the clock frequency of the MU and the RU.

Referring back to FIG. 2, the RU 220 includes a second RF receiver 221, a band shifter 222, a first RF transmitter 223, a clock counter 225, a reference clock generator 224, And a control unit 227 and a wireless data modem unit 226.

The second RF receiver 221 receives the RF signal transmitted from the MU 210, band-passes the second frequency band, and then amplifies and outputs the RF signal.

The band shifter 222 transitions the RF signal of the second frequency band to the first frequency band to be used at the service site.

The first RF transmitter 223 power amplifies the RF signal transitioned to the first frequency band and transmits the RF signal to the service site.

The reference clock generator 224 generates a reference clock of the reference frequency required for band transition.

The clock counter unit 225 counts the reference clock number generated by the reference clock generator 224.

The wireless data modem unit 226 performs a message transmission / reception function with the MU 210.

When the control unit 227 receives the clock count start request message from the MU 210, the controller 227 controls the clock counter unit 225 to count the clocks, and the result message including the clock counting number or the end of the clock count execution. The message is transmitted to the MU, and when the clock frequency deviation estimation value is received from the MU, the clock frequency of the reference clock generator 224 is corrected using this.

In the above-described frequency deviation estimating apparatus according to an embodiment of the present invention, the clock frequency deviation estimate is calculated in the MU and the clock frequency is corrected in the RU using the same, but the clock frequency deviation estimate is not limited thereto. The clock frequency may be corrected in the MU, and the MU and the RU may perform functions opposite to those described above. That is, the RU may perform the function of calculating the clock count deviation estimate by using the clock count start request message, which is a function of the MU, and receiving the result message. The RU may perform the function of the RU. Of course, it is obvious to those skilled in the art that even in this case, the MU or the RU may perform the correction of the clock frequency using the clock frequency deviation estimate calculated at the RU.

As such, the apparatus for estimating frequency deviation according to an embodiment of the present invention transmits and receives a message required for estimating the clock frequency deviation as a digital signal using a wireless data modem unit configured in an MU and an RU, and includes an example of information included in the transmission and reception message. For example, by calculating the clock frequency deviation estimate between two units using the clock count number and the like, and correcting the clock frequency using the clock unit, there is no need to allocate an additional frequency band, and fading may be generated according to the use of a pilot signal. The problem can be solved, and the cost of the device can be reduced because there is no need to use an expensive PLL.

Furthermore, by synchronizing the clock frequencies of the two units, it is possible to improve the quality of service, thereby providing a high quality wireless communication service, thereby providing convenience to the user receiving the communication service. Reliability can also be improved.

7 is an operation flowchart of a frequency deviation estimation method according to an embodiment of the present invention, which is an operation flowchart of an MU in a wave repeater in which the MU and RU are wirelessly connected.

Referring to FIG. 7, the frequency deviation estimation method calculates a message transmission / reception delay time with a RU by transmitting and receiving a preset message to the RU (S710).

In this case, the MU may calculate at least one message transmission / reception delay time by transmitting at least one preset message to the RU and receive a response message, and calculate the average value thereof as the message transmission / reception delay time between the MU and the RU. .

The MU requests the RU for a predetermined number of times, for example, to start N clock counts, and stores the MU clock count NO at this request point (S720).

If the end message for the N-clock count is received from the RU while the MU is performing the clock count, the MU clock count N1 at the reception time is stored (S730).

The MU calculates a clock frequency deviation estimate with the RU using the message transmission / reception delay time with the RU, the N-clock count performed in the RU, and the stored clock counts N0 and N1 calculated in step S710 (S730).

In this case, the MU may calculate the clock frequency deviation estimate with the RU using Equations 1 to 3 above.

When the clock frequency deviation estimate is calculated, the MU transmits the clock frequency deviation estimate to the RU so that the clock frequency of the RU can be corrected using the clock frequency deviation estimate at the RU (S740).

Of course, in addition to correcting the clock frequency at the RU, the clock frequency may be corrected using the clock frequency deviation estimate at the MU.

In addition, although the operation flowchart illustrated in FIG. 7 has been described based on the MU, it should be appreciated that the clock frequency deviation estimate may be calculated in the RU without being limited thereto.

FIG. 8 is an operation flowchart of a frequency deviation estimation method according to another embodiment of the present invention, and is an operation flowchart in an MU similar to FIG. 7.

Referring to FIG. 8, the MU transmits a clock count start request message to the RU, and counts a predetermined number N of clocks from that point in time (S810 and S820).

The MU performs a clock count until a predetermined number (N), and if a predetermined number (N) of clocks are counted, the MU requests a clock count (N _R ) performed by the RU to the RU, and sends a message about the RU. It receives from (S830, S840).

The MU calculates the clock frequency deviation estimate with the RU using the number of clock counts (N) performed at the MU and the number of clock counts (N _R ) performed at the RU, and corrects the clock frequency using the clock frequency deviation estimate. The clock frequency deviation estimate calculated to be transmitted is transmitted to the RU (S850 and S860).

In this case, the MU may calculate the clock frequency deviation estimate using Equation 5 described above.

The method and apparatus for estimating the frequency deviation of a wave repeater according to the present invention can be modified and applied in various forms within the scope of the technical idea of the present invention and are not limited to the above embodiments. In addition, the embodiments and drawings are merely for the purpose of describing the contents of the invention in detail, not intended to limit the scope of the technical idea of the invention, the present invention described above is common knowledge in the technical field to which the present invention belongs As those skilled in the art can have various substitutions, modifications, and changes without departing from the spirit of the present invention, it is not limited to the embodiments and the accompanying drawings. And should be judged to include an equal range.

1 illustrates an apparatus for estimating frequency deviation of a wave repeater according to a related art.

2 shows an apparatus for estimating frequency deviation of a wave repeater according to an embodiment of the present invention.

3 is a flowchart illustrating an operation between an MU and an RU for explaining a frequency deviation estimation process according to the first embodiment of the present invention.

4 illustrates a timing diagram according to the operation flowchart of FIG. 3.

5 is a flowchart illustrating an operation between an MU and an RU for explaining a frequency deviation estimation process according to a second embodiment of the present invention.

6 illustrates a timing diagram according to the operation flowchart of FIG. 5.

7 is a flowchart illustrating a method of estimating frequency deviation according to an embodiment of the present invention.

8 is an operation flowchart of a frequency deviation estimation method according to another embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

210: master unit (MU)

211: first RF receiver

212, 222: band transition part

213: second RF transmitter

214, 225: clock counter section

215 and 224: reference clock generator

216, 227: control unit

217, 226: wireless data modem unit

220: remote unit (RU)

221: second RF receiver

223: first RF transmitter

Claims (13)

In the frequency deviation estimation method of the variable frequency repeater including the first, second unit, Requesting, by the first unit, to start the clock count a certain number of times to the second unit and storing a first clock count (N0) at that time; Receiving, by the first unit, a message about the end of the predetermined number of clock counts from the second unit and storing a second clock count (N1) at that time; And Calculating, by the first unit, a clock frequency deviation estimate with the second unit by using a predetermined number of clocks (N) of the second unit and the first and second clock counts (N0, N1). Frequency deviation estimation method of the repeater comprising a. The method of claim 1, Calculating a message transmission / reception delay time with the second unit by the first unit More, Computing the clock frequency deviation estimate And calculating the clock frequency deviation estimate using the message transmission / reception delay time, a predetermined number of clock counts of the second unit, and the first and second clock counts (N0, N1). The method of claim 2, Computing the clock frequency deviation estimate Calculating a third clock count corresponding to the message transmission / reception delay time; And Calculating the clock frequency deviation estimate using a predetermined number of clock counts of the second unit and the first to third clock counts. Frequency deviation estimation method of the repeater comprising a. The method according to any one of claims 1 and 2, A repeater for transmitting the clock frequency deviation estimate to the second unit or correcting the clock frequency of the first unit using the clock frequency deviation estimate so that the first unit can correct the clock frequency of the second unit; Frequency deviation estimation method. The method of claim 2, The calculating of the message transmission delay time is Repeating a predetermined number of times of transmitting a preset message to the second unit and requesting a response thereto, and estimating a frequency deviation of the repeater that calculates an average time required for the transmission and response of the message as the message transmission / reception delay time. Way. In the frequency deviation estimation method of the variable frequency repeater including the first, second unit, Requesting, by the first unit, to start the clock count to the second unit and performing a clock count a predetermined number (N); Requesting and receiving, by the first unit, the clock count performed in the second unit from the second unit at a time point when the predetermined number N of clock counts ends; And Calculating, by the first unit, a clock frequency deviation estimate with the second unit using the clock count received from the second unit and the predetermined number of clock counts (N). Frequency deviation estimation method of the repeater comprising a. The method of claim 6, A repeater for transmitting the clock frequency deviation estimate to the second unit or correcting the clock frequency of the first unit using the clock frequency deviation estimate so that the first unit can correct the clock frequency of the second unit; Frequency deviation estimation method. An apparatus for estimating frequency deviation of a wave repeater including a first unit and a second unit, The clock counts N0 and N1 of the start request time and the end time of the predetermined number N of clock counts performed by the second unit are stored, and the predetermined number of clock counts of the second unit and the stored clock count ( A first unit for calculating a clock frequency deviation estimate with the second unit using N0, N1); And A second unit that counts the predetermined number of clocks according to the start request of the first unit and transmits a message about the end of the predetermined number of clocks to the first unit; Frequency deviation estimation device of the repeater comprising a. The method of claim 8, The first unit The message transmission / reception delay time with the second unit is calculated, and the clock with the second unit is calculated using the calculated message transmission / reception delay time, a predetermined number of clock counts and the clock counts N0 and N1 of the second unit. Frequency deviation estimator of repeater for calculating frequency deviation estimates. The method according to any one of claims 8 and 9, And a frequency deviation estimator of the repeater correcting the clock frequency by using the clock frequency deviation estimate calculated by one of the first unit and the second unit. The method of claim 10, The second unit Remote unit (RU), The second unit A reference clock generator for generating a clock of a predetermined frequency; A clock counting unit counting the clock generated by the reference clock generating unit; And A controller for correcting the frequency of the reference clock generator using the clock frequency deviation estimate Frequency deviation estimation device of the repeater comprising a. An apparatus for estimating frequency deviation of a wave repeater including a first unit and a second unit, Request and receive the clock count counted from the second unit for the predetermined number N of clock count times, and receive the clock count of the second unit and the clock count of the predetermined number N. A first unit for calculating a clock frequency deviation estimate with the second unit using the first unit; And A second unit for transmitting the clock count counted for the predetermined number of clock count times to the first unit by a request of the first unit; Frequency deviation estimation device of the repeater comprising a. The method according to claim 8 or 13, The first unit and the second unit Frequency deviation estimator for repeaters connected wirelessly.

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