KR100223372B1 - Channel choice method for fixing channel - Google Patents

Abstract

end. The technical field to which the invention described in the claims belongs

It relates to a channel selection method of a radiotelephone stationary device.

I. The technical problem that the invention is trying to solve

The present invention provides a method for determining a channel allocation rank by receiving a received electric field strength for each channel and detecting an identifier according to an input signal at a predetermined period, and selecting a channel with reference to the determined channel allocation rank.

All. Summary of Solution of the Invention

After entering the channel test mode according to the power application, the channels are sequentially selected according to a predetermined priority, and then the strength of the received field strength is measured corresponding to each of the selected channels, and the measured strength of the received field strength is constant. Detects an identifier received according to an input signal of a corresponding channel only for a channel that is equal to or greater than a reference value, increases the number of interferences only for a channel for which the identifier is not detected, and prioritizes channel allocation of each channel with reference to the increased number of interferences. Characterized by determining the ranking.

la. Important uses of the invention

Used to select a channel on a cordless phone

Description

Channel selection method of cordless phone fixing device.

The present invention relates to a method for controlling a radiotelephone fixed device, and more particularly, to a method for selecting a channel that maintains a most suitable call environment in forming a call path between the fixed device and a portable device for radiotelephone.

In radiotelephones, fixed devices and portable devices operate with multiple channels to cope with the radio wave environment.

The conventional method of selecting a channel to form a communication path between the fixed device and the portable device is as follows.

First, when a call signal is input to the fixing device, the fixing device attempts to form a call by allocating a channel to one channel. However, if a communication path is not formed due to a lot of interference in one channel, an attempt is made to allocate a channel by assigning a channel to the next channel. In this case, the next channel is a channel having some distance from channel 1 for avoiding interference, and may be, for example, 5 channels. Since even the 5 channels have much interference, the channel is allocated to 10 channels and attempted to form a call. Channel ranks, including one channel, were assigned to the first channel to form a currency.

As described above, since a channel is attempted to form a call by assigning channels according to a fixed channel rank once, a call path is formed late and a call path fails.

Accordingly, an object of the present invention, in the fixed device of the radiotelephone, determine the channel allocation order by the received electric field strength for each channel and whether or not to detect the identifier according to the input signal at regular intervals, and to determine the channel with reference to the predetermined channel allocation rank To provide a way to choose.

In order to achieve the above object, the present invention enters a channel test mode according to power application, sequentially selects channels according to a predetermined priority, and then measures the intensity of the received field strength corresponding to each of the selected channels. If the measured intensity of the received electric field is more than a certain reference value, the channel detects an identifier received according to the input signal of the corresponding channel, increases the frequency of interference only for the channel where the identifier is not detected, and increases the interference. We propose a channel selection method of a radiotelephone fixed apparatus which determines and assigns channel allocation priority of each channel with reference to the number of times.

1 is a block diagram of a fixing device for a radiotelephone according to an embodiment of the present invention.

2 is a block diagram of a portable device of a wireless telephone according to an embodiment of the present invention.

3 is a flowchart illustrating a process of selecting a channel in a wireless telephone according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to the components of each drawing, it should be noted that the same components have the same reference numerals as much as possible even if displayed on different drawings. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

Figure 1 shows a block diagram of a fixing device of a radiotelephone according to an embodiment of the present invention.

Referring to the drawing, the controller 910 collectively controls the overall operation of the fixing device. The controller 10 is a one chip microprocessor, and includes a room for storing a program and a RAM for temporarily storing data generated during the execution of the program. In particular, the ROM stores a protocol and an identifier (ID) code of a wireless telephone. The protocol and identifier code of the radiotelephone is known from 1-ETS 131: November 1994.

The memory 100 is a nonvolatile memory and stores n channels and channel ranks under the control of the controller 10. The memory 100 may use a ROM of the controller 10.

The transmitter 20 modulates and frequency-converts the data output from the controller 10 or the voice signal output from the microphone 30 and outputs the result in the form of a wireless signal.

The transmission and reception separation unit 30 separates a radio signal to be transmitted or received and transmits and receives the radio signal to the antenna 50.

The receiver 60 converts and demodulates the received radio signal separated by the transceiver 40 to transmit a voice signal to the speaker 70 and transmits data to the controller 10.

The frequency synthesizer 80 generates a frequency for designating a transmission / reception channel of the transmitter 20 and the receiver 60 under the control of the controller 10.

The trunk line connecting unit 90 is connected to the switching network in a wired manner, and interfaces signals (eg, ring signals) between the fixing device and the control unit of the switching network for connection with the switching network, and a voice signal between the fixing device and the switching network. Interface.

Figure 2 shows a block diagram of a portable device of a wireless telephone according to an embodiment of the present invention.

The controller 110 collectively controls the overall operation of the portable wireless communication terminal. The controller 110 is a one chip microprocessor, and includes a ROM for storing a program and a RAM for temporarily storing data generated during the execution of the program.

The transmitter 180 modulates and frequency-converts the data output from the controller 110 or the voice signal output from the microphone 120 and outputs the result in the form of a wireless signal.

The transmission and reception separation unit 130 separates a radio signal to be transmitted or received and transmits and receives the transmission and reception to the antenna 140.

The receiver 150 converts and demodulates the received radio signal separated by the transceiver 130 to transmit a voice signal to the first speaker 160, and transmits data to the controller 110.

The frequency synthesizer 170 generates a frequency for designating a transmission / reception channel of the transmitter 180 and the receiver 15 under the control of the controller 110.

The key input unit 190 includes a plurality of keys for dialing and various function keys such as a use mode switching key, and generates key data by an external operation and outputs the key data to the controller 110.

The display unit 200 is a liquid crystal display (LCD), and receives the display data from the control unit and displays the state of the portable wireless communication terminal.

3 is a flowchart illustrating a process of selecting a channel in a wireless telephone according to an embodiment of the present invention.

Hereinafter, a detailed description will be made based on the configuration of FIGS. 1 and 2 described above.

When the power is turned on in operation 300, the controller 10 drives to perform a channel test mode in operation 310. In step 320, the controller 10 reads the channel rank set in the memory 100 to test one channel first in step 330. The one channel refers to a channel initially set as a channel having the highest priority. Here, the testing is controlled by the control unit 10 and the frequency synthesizer 80 controls the transmission and reception unit at a frequency corresponding to one channel to allocate a channel, and detects an input signal at this time and outputs it to the control unit 10. do. In operation 340, the controller 10 determines whether the electric field strength of the input signal is greater than or equal to the reference value. If the determination result of step 340 is greater than or equal to the reference value, in step 350, the controller 10 determines whether an identifier is detected in the input signal. If the identifier is not detected in operation 350, the controller 10 considers that the interference signal is input to the testing channel and increases the number of interference by one. Determine. If there is a next channel in step 370, in step 380, the controller 10 tests the next channel and performs step 340. If there is no next channel as a result of the determination in step 370, the controller 10 considers the currently tested channel as the last channel and determines whether the number of testing is greater than or equal to a predetermined number of times. If the determination result is not more than the specified number of times, step 330 is repeated. If the determination result is greater than or equal to the specified number of times, in step 400, the controller 10 compares the number of interferences for each channel, and in step 410, the controller 10 changes the channel number with the lowest number of interferences according to the comparison result to the memory in order of priority. 100). Thereafter, the controller 10 starts timing at step 420. At this time, when the call request signal is input from the telephone line and input through the trunk line connecting unit 90, the controller 10 inputs the call request signal at step 430. FIG. Then, in step 440, the controller 10 allocates a channel by controlling the frequency combiner to one channel by accessing the channel rank in the memory 100. In operation 450, the controller 10 generates a recognition signal, modulates and converts the frequency through the transmitter 20, and transmits the received signal to the portable apparatus through the antenna 50 through the transceiver 40. Then, the portable device inputs the recognition signal from the control unit 110 through the antenna 140, the transmission and reception separation unit 130, and the reception unit 15, and transmits a second response signal to the transmission unit 120 and the transmission and reception separation unit 130. And transmits to the fixing device through the antenna (140). Then, the fixing device receives the second response signal through the antenna 50, the transceiver 40, and the receiver 60. In step 470, when the second response signal is received, the controller 10 performs a call mode for relaying call data. When the call ends in step 480, the process returns to step 310 again. If the call request signal is not input in step 430, the controller 10 determines whether the timing has reached a predetermined time. If the determination result is a predetermined time, the process returns to step 310 in order to restart the channel test mode. In addition, if an identifier of the determination result of operation 350 is detected, in step 500, the controller 10 allocates a channel to a conventional channel 1 and transmits a first response signal to the portable apparatus in operation 510 to form a communication path. Step 470 is performed.

As described above, the present invention can determine the channel rank by testing the electric field strength of each channel at regular intervals, and select the channel according to the channel rank to allocate the channel to the channel having the best call sensitivity. In addition, when a call request signal is input, a call path may be formed.

Claims (4)

In a channel selection method of a radiotelephone fixed device having channel allocation priority for a plurality of channels and channel selection according to the priority, A first process of entering a channel test mode according to power on; A second process of sequentially selecting channels according to a predetermined priority, and then measuring the intensity of the received electric field strength corresponding to each of the selected channels; A third step of detecting an identifier received according to an input signal of a corresponding channel only for a channel having a strength of a received electric field strength equal to or greater than a predetermined reference value in the second step; And in the third step, increasing the number of interference for only the channel where the identifier is not detected. And a fifth process of determining and assigning channel allocation priority of each channel under reference to the increased number of interferences. The method of claim 1, wherein the third process comprises: In the case of a channel of which the strength of the received field strength is greater than or equal to a predetermined reference value, the wireless telephone apparatus further comprises the step of selecting a channel designated as the next rank of the corresponding channel and performing the measurement of the received field strength of the selected channel again. How to select the channel of the fixture. The method of claim 1, wherein the fourth process, And in the third step, if there is a channel in which the identifier is detected, selecting a corresponding channel as a call channel. The method of claim 1, wherein the fifth process, Comparing the number of interference of each channel with each other, A method of selecting a channel of a radiotelephone fixed device, characterized in that the channel allocation priority is determined by using the channel having the least number of interference as the priority.