KR0145776B1 - Pager - Google Patents

Abstract

1. Technical field to which the invention described in the claims belongs

Wireless Call Receiver

2. Technical problem that the invention tries to solve

Wide Area Network Service of Wireless Call Receiver

3. Summary of solution of invention

In a wide area mobile call receiver comprising a first reference channel frequency-m reference channel frequencies and a memory for storing service channel frequencies of the regional zones belonging to the common regional group, the regional bandwidth standard in which the frequency of the subscribers is frequently located during initial operation. Priority is given to channels, and the channel is sequentially searched for reference channels according to the frequency to check the reception of data. If no data is received during the discovery process, the above-described discovery process is repeated. When the data reception is detected on the arbitrary reference channel, the local information is analyzed and the radio call function is serviced by tuning to the corresponding service channel.

4. Important uses of the invention

In the wide area wireless call receiver, the initial channel can be quickly searched.

Description

Reference Channel Frequency Search Method of Radio Call Receiver

1 is a block diagram of a wireless call receiver

2A- 2D is a schematic diagram of EEPROM in FIG.

3 is a flowchart of a first embodiment for searching a reference channel frequency of a radio page receiver according to the present invention.

4 is a flowchart of a second embodiment for searching a reference channel frequency of a radio page receiver according to the present invention.

5 is a reference channel frequency search waveform diagram in the first embodiment.

6 is a reference channel frequency search waveform diagram in the second embodiment.

* Explanation of symbols for main parts of the drawings

11: RF part 12: decoder

13: control unit 14: frequency synthesis unit

15: EEPROM 16: Display

17: Alarm department

The present invention relates to a service method of a wide area wireless pager, and more particularly, to a method for quickly searching for a reference channel of a wireless pager.

In general, a paging receiver decodes data transmitted from a paging system, which is a transmitting side, to perform a radio calling function. In this case, it is assumed that data transmitted from the paging system is a POCSAG code. The POCSAG code consists of one preamble signal and a plurality of batches, and one batch consists of one word sync and eight frames. Each frame is composed of an address codeword and a message codeword of 32 bits. In this address codeword, cap codes which are unique addresses of a radio call receiver to be called are carried, and a message such as a telephone number of the calling party is carried in the message codeword.

Such a wireless calling method can be serviced only within its own area. That is, the serviceable territories are divided, and channel regions of different bands are used between adjacent territories to prevent crosstalk. Therefore, each subscriber can only serve in the service area to which he belongs.

However, with the development of the modern industry, subscribers have to carry out frequent business trips, which often leads to subscribers moving to other service areas. At this time, if the wireless call receiver needs to receive the wireless call service only in a certain region, the subscriber cannot be able to perform the wireless call function if it is located in another service area.

Complementing the above disadvantages of the wireless calling system is a wide area service system in which a subscriber can receive a wireless calling service in various regions. A radio call receiver capable of receiving such wide area service should be a frequency synthesis method that can tune to various frequencies. In addition, when the subscriber moves out of the registered area, it should be able to perform the wireless calling service after determining the service area of the area by determining the area right where the wireless call receiver is located.

To this end, the wide area wireless paging system collects zones using the same reference channel frequency among zones to form a common zone group, and the common zone group has a service channel frequency corresponding to each zone zone. In addition, the cap code sent out from the system includes the area code indicating the location of the area area currently receiving the radio calling service. Therefore, the wide area network radio receiver receives the wide area radio calling service by analyzing the channel information and cap code as described above and tuning to the channel of the current region.

Accordingly, an object of the present invention is to provide a method of quickly tuning a reference channel in a wide area wireless paging system to efficiently tune a service channel of a corresponding region.

Another object of the present invention is to quickly search the reference channel frequencies of the common area groups in the region where the subscribers move frequently from the common area group of the region to which the radio call receiver is subscribed in the wide area network wireless paging system to quickly find the reference channel. To provide a way to navigate.

Another object of the present invention is to search for a reference channel to identify a current position in a wireless call receiver having a first reference channel frequency-m reference channel frequency corresponding to m common area groups in a wide area wireless paging system, respectively. And a first search process-m search process, wherein the first search process tunes the first reference channel frequency and checks the data reception, and the second search process does not receive data in the first search process. Time-receiving while checking the data reception while synchronizing the first reference channel frequency and the second reference channel frequency, and the third search process sequentially when there is no data reception in the second search process The data search is checked while tuning the channel frequency, and the fourth search process-m-1 search process does not receive data in the previous search process in the same manner as the search processes. The data reception is checked while the reference channel frequencies of the corresponding search process are tuned, and the mth search process sequentially tunes the first reference channel frequency to the mth reference channel frequency when there is no data reception during the m-1 search process. When data reception is detected and data received during the data reception inspection process of the first search process-m search process is detected, after analyzing the region information from the cap code of the received data, the service channel frequency of the corresponding region is tuned. The present invention provides a method for searching a reference channel of a wide area network radio page receiver.

Another object of the present invention is to search for a reference channel to identify a current position in a wireless call receiver having a first reference channel frequency-m reference channel frequency corresponding to m common area groups in a wide area wireless paging system, respectively. And a first search process-m search process, wherein the first search process tunes the first reference channel frequency and checks data reception, and the second search process does not receive data in the first search process. The data reception is checked while the first reference channel frequency and the second reference channel frequency are sequentially tuned in time, and the third search process sequentially performs the first reference channel frequency and the third reference when there is no data reception in the second search process. The data reception is examined while tuning the channel frequency, and the fourth search process-m-1 search processes receive data from the previous search process in the same manner as the above search processes. When there is no data, the data reception is checked while tuning the reference channel frequencies of the corresponding search process. The m-th search process sequentially adjusts the first reference channel frequency and the m-th reference channel frequency when there is no data reception during the m-1 search process. By checking the data reception while tuning, and analyzing the local information from the cap code of the received data when the data is detected in the data reception inspection process of the first search process-m search process, the service channel frequency of the corresponding region is tuned. The present invention also provides a method for searching a reference channel of a wide area network radio page receiver.

In order to achieve the objects of the present invention, the radio call receiver of the present invention belongs to the first reference channel frequency-m reference channel frequencies corresponding to each of the first common area group-m common area group and the common area group. And a memory for storing service channel frequencies in the region areas. In a first embodiment of performing a wireless paging service in such a wide area wireless paging receiver, a process of reading channel information of the memory during initial driving, and a first search for checking data reception after tuning the first reference channel frequency are performed. And a second search process of checking data reception while sequentially tuning a first reference channel frequency and a second reference channel frequency when there is no data reception in the first search process, and receiving data in the second search process. A third search process of checking data reception while the first reference channel frequency and a third reference channel frequency are sequentially tuned when there is no data; and the first reference channel frequency and fourth order sequentially when there is no data reception in the third search process. A fourth search process for checking data reception while tuning the reference channel frequency, and when there is no data reception in the same manner as the search processes The fifth search process-m-1 search processes for checking data reception while tuning channel frequencies, and the first reference channel frequency-m reference channel frequency are sequentially performed when there is no data reception in the m-1 search process. When the data is detected in the first search process and the first data search process of the first search process-m search process while analyzing the local information from the cap code of the received data, the corresponding area service It is characterized in that the service channel designation process to tune the channel frequency.

In a second embodiment of performing a wireless paging service in such a wide area wireless paging receiver, a process of reading channel information of the memory during initial driving and a first search for checking data reception after tuning the first reference channel frequency are performed. And a second search process of checking data reception while sequentially tuning a first reference channel frequency and a second reference channel frequency when there is no data reception in the first search process, and receiving data in the second search process. A third search process for checking data reception while the first reference channel frequency and the third reference channel frequency are sequentially tuned when there is no data; and the first reference channel frequency and the fourth search order sequentially when there is no data reception in the third search process. A fourth search process for checking data reception while tuning the reference channel frequency and no data reception in the same manner as the search processes. The fifth search process-m-1 search processes for checking data reception while tuning the reference channel frequencies at the same time, and the first reference channel frequency and the m-th reference channel sequentially when there is no data reception during the m-1 search process The m-th search process for checking data reception while tuning the frequency, and the corresponding area zone after analyzing the local information from the cap code of the received data when the data is detected in the data reception check process of the first search process-m search process. It is characterized by consisting of a service channel designation process to tune the service channel frequency of.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that the same parts in the figures represent the same reference signs wherever possible.

In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present invention, such as region name, region code, reference channel frequency, number of service channel frequencies, and the like. It will be apparent to those skilled in the art that the present invention may be practiced without these specific details.

The term reference channel frequency as used herein is data for setting a frequency channel used by a local subscriber, and refers to PLL data of a frequency synthesizer. The term service channel frequency is data for setting a frequency channel used by a wide area network subscriber and indicates PLL data of a frequency synthesizer. The CAP code is a unique address of the radio page receiver, and the preceding predetermined bits have regional information indicating the subregion to which the subscriber is subscribed. A regional zone refers to an area capable of performing radio calling service at the same frequency in a region of a predetermined size, and functions similar to a cell in a mobile communication system. The common area group means that the zones remotely separated from each other use a common reference channel frequency.

1 is a configuration diagram of a radio call receiver according to the present invention, in which an RF unit 11 is designated by a frequency synthesizer 14 and converts and outputs an RF signal of a designated channel received through an antenna into digital data. The RF unit 11 amplifies the weak RF signal received through the designated channel, frequency-converts the amplified signal to the original signal band, demodulates it, and outputs the waveform by shaping the demodulated signal as digital data. The digital data is coded at the time of transmission.

The decoder 12 decodes and outputs the digital coding data outputting the RF unit 11. The decoder 12 decodes the received encoded data (generally BCH encoded data) into original data, detects a preamble signal, a word sink in the POCSAG code form as shown in FIG. 1, and detects its own frame data. Output

EEPROM15 is a memory that stores information of the radio page receiver. The information stored in the EEPROM15 varies depending on the type of subscriber. In the case of a wide area network subscriber, the information stored in the EEPROM15 may include a cap code composed of unique address data and frame data including region information, reference channel frequencies for setting a channel frequency of a region, and a reference channel frequency. Stores service channel frequencies for receiving wireless calling service in the area. In the case of the local subscriber, the information stored in the EEPROM15 stores a cap code composed of unique address data and frame data.

The controller 13 analyzes the information of the EEPROM15 to determine whether it is a local subscriber or a wide area network subscriber, and then controls the operation of the wireless paging service according to the type of subscriber. First, when the subscriber is a local subscriber, the controller 13 outputs a reference channel frequency to which the subscriber belongs to designates a channel. Secondly, when the subscriber is a wide area network subscriber, the controller 13 sequentially selects reference channel frequencies accessed from the EEPROM15, and outputs the selected reference channel frequency at a predetermined period so that a channel is designated and data of the specified channel is designated. Check for reception. At this time, when data is received, it analyzes the area information included in the cap code to determine the area where the current wireless call receiver is located, and then outputs the service channel frequency of the corresponding area to analyze the frame data received from the designated service channel. . The controller 13 outputs a power control signal for controlling the power supply of the RF unit 11 at regular intervals to perform a power saving mode.

A frequency synthesizer 14 designates a channel of the RF unit 11 according to the channel data output from the control unit 13. The channel data may be reference channel frequencies for designating a reference channel frequency in a local area and service channel frequencies for radio calling service of a wide area network subscriber.

The display unit 16 displays various situations and received messages generated during the radio call service under the control of the control unit 13. The display unit 16 may be an LCD. The alarm unit 17 generates an alarm signal upon receiving a message under the control of the control unit 13. The alarm unit 17 is composed of a means for generating an alarm sound, a vibrator for generating a vibration signal, and the like.

2A to 2D show the internal configuration of EEPROM15 in FIG. 2A is an overall configuration diagram of the EEPROM15, which includes an area 31 for storing a cap code, an area 32 for storing a reference channel frequency, and an area 33 for storing a service channel frequency.

2B is a configuration diagram of the area 31 and may be formed of a plurality of cap codes. The cap codes are unique addresses and group addresses of the radio page receiver. In the case of a radio call receiver used alone, only the cap code 1 is normally stored.

2C is a configuration diagram of the area 32, and is composed of a plurality of reference data. The reference data correspond to the number of assigned common area groups. In the present invention, it is assumed that four common region groups are allocated, and therefore, the first reference channel frequencies corresponding to the first common region group and the fourth common region group, respectively, in which regions not adjacent to each other can use the same frequency. F1-the fourth reference channel frequency F4. Here, the fifth reference channel frequency F5 may be a channel frequency for the reserve common area group. Herein, the first reference channel frequency F1 is assigned to the frequency of the common regional group to which the regional network to which the wide area network subscriber belongs, and the second reference channel frequency F2 is assigned to the frequency of the common regional group to which the regional area to which the wide area network subscriber frequently moves. The third reference channel frequency F3 and the fourth reference channel frequency F4 are also determined in the same manner as above.

FIG. 2D is a configuration diagram of the area 33, and is composed of a plurality of service channel frequencies. The service channel frequency is a frequency at which a wide area network subscriber can actually receive a radio calling service and allocates several service channel frequencies to one reference channel frequency. The service channel frequencies stored in the EEPROM15 of the wide area network subscriber are actually composed of numbers corresponding to the respective territories in which the subscriber receives the radio calling service. In the present invention, it is assumed that nine territories have been allocated, and therefore, the first service channel frequency Fs1 to the ninth service channel frequency Fs9 are provided.

First, when the power of the radio call receiver is turned on or the radio call receiver is moved to another area, the location of the current area of the radio call receiver should be analyzed to designate the service channel frequency of the area. In the present invention, such a state is referred to as an initial driving state, and it is assumed that the initial driving state is performed by an operation of a power switch. When the initial driving state occurs, the controller 13 reads information of EEPROM15. The EEPROM15 stores a cap code of a receiver, a reference channel frequency, a service channel frequency, and the like.

Here, the relationship between the reference channel frequency, the service channel frequency and the cap code of the wide area wireless paging system will be described. The paging receiver analyzes the address codeword in its own frame. The capcode format, represented by seven decimal digits, is divided by eight and divided by hexadecimal. At this time, the form is 18 digits, and the first two are used to determine the area.

The 7-digit capcode form is displayed as XXYYZZZZZ in Korea, where XX is information representing a region and YY is a service channel frequency. In this case, the YY-type service channel frequency is not included in the cap code and is displayed on the back of the pager. At this time, the radio call receiver analyzes by converting the cap code consisting of 18-digit binary data into 7-digit decimal data. Therefore, if the cap code is displayed in binary form of 18 digits, it is like ******************, and if it is expressed in decimal, it is 7 characters like XXZZZZZ. The first two digits represent local information. It is assumed here that the area information is as follows.

Regional Capital Capital Region Gyeongnam Region Gyeongbuk Region Jeju Region Jeonnam Region Chungcheong Province Jeonbuk Region Gangwon Province

Area Code 11 12 13 14 15 16 17 18

In the present invention, it is assumed that the wide area wireless paging service system is divided into eight regions and divided into four common regions. The common region group is assigned a reference channel frequency that can be used in common, and designates a service channel frequency that can be used by a radio call receiver corresponding to a region belonging to the common region group. Therefore, the wide area radio receiver is first tuned to the reference channel frequency to check the reception of data.If the data is received, it analyzes the area information of the cap code and tunes it to the service channel frequency of the corresponding area. Perform.

In the present invention, it is assumed that the relationship between eight regional zones, four common regional groups, and each channel frequency is shown in Table 1 below.

The present invention is a method for quickly designating a service channel frequency after searching a reference channel quickly by checking a reference channel during initial driving in the wide area wireless call receiver as described above. A first embodiment of the present invention proposes a method for searching a reference channel in the same manner as in FIG. 5 when initially driving a wide area wireless page receiver. The method of searching for a reference channel as shown in FIG. 5 is performed in the same manner as in FIG. A second embodiment of the present invention proposes a method for searching a reference channel in the same manner as in FIG. 6 when initially driving a wide area wireless pager. The method of searching a reference channel as shown in FIG. 6 is performed in the same manner as in FIG.

[First Embodiment]

3 is a flowchart of a first embodiment according to the present invention, the process of reading the channel information of the memory during the initial operation, the first start channel frequency set, the search start process of supplying power to the receiver; A reference channel search process that checks data reception after tuning the set reference channel frequency, and sets the next reference channel frequency number when the data is not received for the first time in the data check process and then checks the number of channels to search Comparing the reference channel frequency numbers to be searched, and if the number of channels to be searched is not smaller than the set reference channel frequency number, returning to the reference channel search process, and comparing the reference channel frequency numbers set in the channel comparison process When it is small, the process of shutting off the power supply of the receiver and waiting for a second time, and searching after performing the waiting process After increasing the number of nulls, it is checked whether the number of channels to be searched exceeds the m th reference channel frequency number, and when the number of channels to be searched is not greater than the m th reference channel frequency number, the process proceeds to the search start process. When the number of channels to be searched is greater than the m th reference channel frequency number, the process proceeds to the search start process after initializing the number of channels to be searched, and when the data reception is detected in the data checking process, the region information is received from the cap code of the received data. After the analysis, the service channel designation process is performed to tune the service channel frequency of the corresponding region.

Referring to the operation of the first embodiment with reference to the flowchart of FIG. 3 and the operation characteristic diagram of FIG. 5 having the above configuration, in operation 311, the control unit 13 starts the 2B to 2D views from the EEPROM15 in step 311. Leads to the same information. In step 313, the controller 13 initializes a variable m representing the number of channels to be searched and initializes a variable n representing the number of channels checked in step 315. In step 317, the controller 13 supplies power to the RF unit 11 and the frequency synthesizer 14 to turn on the RF.

In step 319, the controller 13 outputs data for tuning the first reference channel frequency F1 to the frequency synthesizer 14, and the frequency synthesizer 14 designates the reception channel of the RF unit 11 as the first reference channel frequency F1. do. In step 321, the controller 13 turns on the first timer to set the tuning time of the first reference channel frequency F1 to the first time T1.

In this state, the RF unit 11 amplifies, converts frequency, demodulates, and waveforms the RF signal received through the antenna and outputs the same. The data outputting the RF section 11 becomes POCSAG code data. Decoder 12 then detects the preamble and word sync of the POCSAG code data, decodes the frame data and outputs the decoded data to the controller 13.

Then, the controller 13 analyzes the area information by analyzing the information of the address codeword of the frame data. However, when the radio call receiver is not located in the common area group corresponding to the current reference channel frequency, no data is received.

Therefore, in step 323, the controller 13 checks whether there is data received while the current reference channel frequency is tuned. Wherein the data is a POCSAG code. If the data received in step 323 is not detected, the controller 13 checks whether the first timer is terminated in step 333. In this case, if the first timer is not in the OFF state, the first time T1 has not been completed yet, and the process returns to step 323 to check whether data is received in the state tuned to the current reference channel frequency.

However, if it is determined in step 333 that the first timer is turned off, the controller 13 recognizes that the first time T1 has elapsed and increases the variable n representing the number of channels checked in step 335 and then increases the number of discovery channels in step 337. It checks whether the variable m is smaller than the variable n of the number of channels checked. In this case, if the variable m is greater than or equal to the variable n, the reference channel frequency to be checked still remains, and the flow proceeds to step 319 to set the reference channel frequency to be checked next and repeats the above operation. That is, after continuously tuning the next reference channel frequency, it is checked whether data is received through the reference channel frequency tuned for the first time T1.

However, if the variable m is smaller than the variable n in step 337, the control unit 13 proceeds to step 333 and the control unit 13 blocks the RF supplied to the RF unit 11 and the frequency synthesis unit 14 to turn off the RF. In step 341 and 343, the RF power is turned off by interrupting the power supply for the second time T2 set by the second timer. That is, the controller 13 performs a search process to check whether data is received through a set number of reference channel frequencies. If no data is received, the controller 13 waits for a second time T2 and then performs the next search process.

In order to perform the next search process, the controller 13 first increases the variable m in step 345 so as to search for one reference channel frequency further in the next search process, and then in step 347, the variable m is common to all. Check if the reference channel frequency of the local group is exceeded. That is, in the case of having M reference channel frequencies, it is checked whether the variable m is larger than M. If the variable m is smaller than or equal to M, the process proceeds to step 315 to repeat the search process. If the variable m is larger than M, the variable m is initialized to start the first search process again. After that, the process returns to step 315.

Therefore, when data is not received through the arbitrary reference channel frequency, the reference channel search process is performed while continuously repeating and changing the reference channel frequency in units of the first time T1. Here, the reference channel search of the first embodiment is repeated as follows when data is not received.

First Search Process: F1

Second Search Process: F1, F2

Third Search Process: F1, F2, F3

Fourth Search Process: F1, F2, F3, F4

.

.

.

M Search process: F1, F2, F3, F4, ---, FM

However, if it is determined in step 323 that data is received at the currently tuned reference channel frequency, the control unit 13 maintains the RF on state in step 325, and in step 327 the address codeword region of the frame data received from the decoder 12 is received. Analyze the cap code received and check the area right where the wireless call receiver is located. In other words, it analyzes the preceding two-digit information of the bar code and the above-mentioned to identify the current zone is located. In step 327, the service channel frequency of the region corresponding to the confirmed region is output to the frequency synthesizer 14 to synchronize the service channel frequency. Then, the radio call receiver 331 performs a service function by analyzing radio call information received through the tuned service channel frequency.

Referring to the wireless call service process performed in step 331, the control unit 13 has already designated a service channel of a corresponding regional area in the case of a wide area network subscriber through the frequency synthesizer 14, and in the case of a local subscriber, a corresponding common area group. The reference channel is specified. In this state, the controller 13 determines whether the POCSAG code is received and outputs a power control signal of the RF unit 11 at regular intervals. When the power control signal is received, the RF unit 11 amplifies, converts, and demodulates an RF signal received from an antenna and outputs the digital encoded data. The decoder 12 then analyzes whether the POCSAG code has been received. That is, since the POCSAG code is composed of preamble signals, word sync, and frame data, first, the preamble signal is detected. At this time, if the preamble signal is not detected, the power control signal is turned off.

As described above, the operation of detecting the preamble is repeated at a predetermined cycle.

At this time, when the decoder 12 detects the preamble signal, it outputs a power control signal to the RF unit 11 to detect a word sync signal. When the decoder 12 detects the word sync signal, the power supply to the RF unit 11 is cut off until its frame period. Then, the power is supplied to the RF unit 11 again in the frame period, and the received frame data is received to check whether the message is a magnetic message. That is, the address codeword of the frame data is compared with the capcode which is its own address, and if it is the same, it is determined as a self message. Otherwise, the received message is ignored.

When the received frame data is a self message, the controller 13 stores a message codeword in the frame data, controls the display unit 16 to display the received message, and simultaneously controls the alarm unit 17 to indicate that the message has been received.

Referring to FIG. 5, a process of searching for a reference channel is described. First, in step 311, the controller 13 reads channel information as shown in Table 1 above. In order to perform the search process, the variables are initialized to m = 1 and n = 1 in steps 313 and 315, respectively.

First, the control unit 13 performs a first search process. To this end, the controller 13 checks whether data is received through the first reference channel frequency F1 tuned for the first time T1 period through steps 319, 321, 323, and 333. . If data is not received through the first reference channel frequency F1 during the first time T1, the variable n is increased by one in step 335 and then compared with the variable m. At this time, since the variables are m = 1 and n = 2, the process performs steps 339-343 to wait for the second time T2. The variable m is increased by one to m = 2, and the process returns to step 315 to perform a second search process.

In the second search process, the controller 13 initializes the variable n, tunes the first reference channel frequency F1 for the first time T1, and checks whether data is received through the tuned channel. If no data is received within the first time T1, the control unit 13 increases the variable n by one to n = 2 in step 335 and compares the variable m in step 337. In this case, since the variables are m = 2 and n = 2, the controller 13 returns to step 319. Therefore, since the control unit 13 tunes the second reference channel frequency F2 in step 319 and turns on the first timer again in step 321, the controller 13 tunes the second reference channel frequency for the first time T1 and checks whether data is received. If no data is received at this time, the variables are m = 2 and n = 3, and thus, steps 339 to 343 are performed to wait for a second time T2. The variable m is increased by one to m = 3, and the process returns to step 315 to perform a third search process.

When the third search process starts, the control unit 13 initializes the variable n, tunes the first reference channel frequency F1 for the first time T1, and checks whether data is received through the tuned channel. If no data is received within the first time T1, the control unit 13 increases the variable n by one to n = 2 in step 335 and compares the variable m in step 337. In this case, since the variables are m = 3 and n = 2, the controller 13 returns to step 319. Therefore, since the control unit 13 tunes the second reference channel frequency F2 in step 319 and turns on the first timer again in step 321, the controller 13 tunes the second reference channel frequency for the first time T1 and checks whether data is received. If no data is received at this time, since the variables are m = 3 and n = 3, the controller 13 returns to step 319. Since the controller 13 tunes the third reference channel frequency F3 in step 319 and turns on the first timer again in step 321, the controller 13 tunes the second reference channel frequency for the first time T1 and checks whether data is received. However, if no data is received at this time, since the variables are m = 3 and n = 4, steps 339 to 343 are performed to wait for a second time T2. The variable m is increased by one to m = 4, and the process returns to step 315 to perform a fourth search process.

In the fourth search process, the data is sequentially tuned to the reference channel frequencies F1, F2, F3, and F4 at the first time T1 period, and the data is received. If no data is received at this time, since the variables are m = 4 and n = 5, steps 339 to 343 are performed to wait for a second time T2. After changing the variable m to m = 5, the variable m is compared with the number M of reference channel frequencies in step 347. In this case, since the reference channel frequency M is 4, the variable m is initialized to 1 in step 349 and the first search process is performed again.

During the first search process and the fourth search process, if it detects that data is received in a state in which an arbitrary reference channel frequency is tuned, the controller 13 recognizes this in step 323 and performs steps 325 to 331. After confirming the location of the current regional area, and tunes to the service channel frequency of the corresponding regional area to transition to the state of the radio calling service.

Accordingly, in the reference channel search method according to the first embodiment of the present invention, as shown in FIG. 5, each search process sequentially searches from a reference channel frequency having a high frequency of the subscriber's location, and the search processes use the reference channel frequencies. Since it is performed in increments one by one, it is possible to quickly search the reference channel of the region in which the current wireless call receiver is located.

Second Embodiment

4 is a flow chart of a second embodiment according to the present invention, the process of reading the channel information of the memory during the initial operation, the first start channel frequency set, the search start process of supplying power to the receiver; A reference channel search process for checking data reception after tuning the set reference channel frequency, and increasing the number of channels to be searched if no data is received during the first time during the data checking process, and then searching for a second reference channel. A process of checking whether a frequency is applied, setting the next reference channel frequency of the number of the second reference channel frequencies tuned in the state before the second reference channel frequency is the reference channel frequency to be searched, and then proceeding to the reference channel searching process; A second time after the supply power of the receiver is cut off when the reference channel frequency to be searched is not the second reference channel frequency; During the process of waiting and increasing the number of channels to be searched after performing the waiting process, and checking whether the number of channels to be searched exceeds the m th reference channel frequency number, and whether the number of channels to be searched is greater than the m th reference channel frequency number. If not, the process proceeds to the search start process, and the service channel designation process that analyzes the region information from the cap code of the received data in the data inspection process and then tunes the service channel frequency of the corresponding region. .

Referring to the operation of the first embodiment with reference to the flowchart of FIG. 4 and the operation characteristic diagram of FIG. 6 having the configuration as described above, in operation 411, the controller 13 performs the 2B to 2D views from the EEPROM15 in step 411. Leads to the same information. The controller 13 initializes a variable m representing the number of channels to be searched in step 413 and initializes a variable n representing the number of channels checked in step 415. In step 417, the control unit 13 supplies power to the RF unit 11 and the frequency synthesis unit 14 to turn on the RF.

In step 419, the controller 13 outputs data for tuning the first reference channel frequency F1 to the frequency synthesizer 14, and the frequency synthesizer 14 designates the reception channel of the RF unit 11 as the first reference channel frequency F1. do. In step 421, the controller 13 turns on the first timer to set the tuning time of the first reference channel frequency F1 to the first time T1.

In this state, the RF unit 11 amplifies, converts frequency, demodulates, and waveforms the RF signal received through the antenna and outputs the same. The data outputting the RF section 11 becomes POCSAG code data. Decoder 12 then decodes the POCSAG code data, detects the preamble and word sync of the POCSAG code data, notifies the controller 13 of this, and outputs frame data to the controller 13. Then, the controller 13 analyzes the area information by analyzing the information of the address codeword of the frame data. However, when the radio call receiver is not located in the common area group corresponding to the current reference channel frequency, no data is received.

Therefore, in step 423, the controller 13 checks whether there is data received while the current reference channel frequency is tuned. If the data received in step 423 is not detected, the controller 13 checks whether the first timer is terminated in step 433. In this case, if the first timer is not in the OFF state, the first time T1 has not been completed yet, and the flow returns to step 423 to check whether data is received in the state tuned to the current reference channel frequency.

However, if it is determined in step 433 that the first timer is off, the controller 13 recognizes that the first time T1 has elapsed and increases the variable m by one in step 435. In step 437, it is checked whether the variable m is 3. In this case, when the variable m is 3, since the second reference channel frequency to be checked still remains, the controller 13 increases one variable n representing the channel number to be checked in step 439. Increasing the variable n by one means designating the next reference channel frequency number of the reference channel frequency number searched in the previous search process. In step 441, the control unit 13 repeats the above process after tuning the reference channel frequency corresponding to the reference channel frequency number increased in step 439.

However, if the variable m is not 3 in step 437, all the reference channel frequencies in the current search process have been searched. Therefore, the controller 13 proceeds to step 443 to block the supply to the RF unit 11 and the frequency synthesizer 14. Turn off the RF. In step 445 and step 447, the RF power is turned off by interrupting the power supply for the second time T2 set by the second timer. That is, the controller 13 performs a search process to check whether data is received through a set number of reference channel frequencies. If no data is received, the controller 13 waits for a second time T2 and then performs the next search process.

In order to perform the next search process, the controller 13 first checks whether the variable n representing the number of search processes has a value greater than or equal to M, the number of reference channel frequencies, in step 445. That is, in step 449, it is checked whether a search process is performed using all reference channel frequencies. This means that the variable n refers to the number of reference channel frequencies tuned in the current search process. Thus, comparing the variable n with the number of the last reference channel frequency FM confirms whether or not the current search process performed the last search process. It will be possible.

If the variable n is less than M in step 449, the search is not yet performed until the last reference channel frequency FM. In step 451, the control unit 13 sets the variable m to 2 and then returns to step 417 to repeat the next search process. . In this case, the variable m = 2 is for setting the first tuning to the first reference channel frequency F1 and the second tuning to the reference channel frequency Fn set by the variable n. In addition, if the variable n is not smaller than M in step 449, since the search is completed to the last reference channel frequency FM, the process returns to step 413 and repeats the search process from the first search process again.

Therefore, when data is not received through the arbitrary reference channel frequency, the reference channel search process is performed while continuously repeating and changing the reference channel frequency in units of the first time T1. Here, the reference channel search of the first embodiment is repeated as follows when no data is received.

First Search Process: F1

Second Search Process: F1, F2

Third Search Process: F1, F3

Fourth Search Process: F1, F4

.

.

.

M Searching process: F1, FM

However, if it is determined in step 423 that data is received at the currently tuned reference channel frequency, the controller 13 maintains the RF on state in step 425, and in step 427, an address codeword region of the frame data received from the decoder 12. Analyze the cap code received on the terminal to check the area right where the current wireless call receiver is located In other words, it analyzes the preceding two-digit information of the bar code and the above-mentioned to identify the current zone is located. In step 427, the service channel frequency of the region corresponding to the confirmed region is output to the frequency synthesizer 14 to synchronize the service channel frequency. Then, the radio call receiver 441 performs a service function by analyzing radio call information received through the tuned service channel frequency.

Here, referring to FIG. 6, a reference channel frequency search process of a wireless call receiver in which the reference channel frequency is F 1 to F 4 (M = 4) is described. Lead. In order to perform the search process, the variables are initialized to m = 1 and n = 1 in steps 313 and 315, respectively.

First, the controller 13 performs a first search process. For this, the controller 13 checks whether data is received through the first reference channel frequency F1 tuned for the first time T1 period through steps 419, 421, 423, and 433. . In this case, if data is not received through the first reference channel frequency F1 during the first time T1, a variable m is increased by one in step 435, and then it is checked whether m = 3. In this case, since the variable is m = 2, steps 443 to 447 are performed to wait for a second time T2. After performing the waiting process, the variable is set to m = 2 and the process returns to step 417 to perform a second search process.

In the second search process, the controller 13 tunes the first reference channel frequency F1 for the first time T1 and then checks whether data is received through the tuned channel. If no data is received within the first time T1, the controller 13 increases the variable m by one in step 435, and then checks whether variable m = 3 in step 437. In this case, since the variable is m = 3, the reference channel frequency number n to be checked is increased by one to n = 2 in step 439, and the second reference channel frequency F2 is tuned in step 441, and then the process returns to step 421. The second reference channel frequency F2 is tuned for a first time T1 to check whether data is received. If data is not received at this time, the variable m is increased by one in step 435, so that the variable m is equal to 4, and it is recognized in step 437, and steps 443-447 are performed to wait for the second time T2. After changing the variable m to m = 2, the process returns to step 417 and performs a third search process.

When the third search process starts, the controller 13 tunes the first reference channel frequency F1 for the first time T1 and then checks whether data is received through the tuned channel. If no data is received within the first time T1, the controller 13 increases the variable m by one in step 435, and then checks whether variable m = 3 in step 437. In this case, since the variable is m = 3, in step 439, the reference channel frequency number n to be checked is increased by one to set n = 3. In other words, the reference channel frequency number (n = 2) which has been previously examined is increased by one and set as the second reference channel frequency number of the current search process. Accordingly, the controller 13 tunes to the third reference channel frequency F3 in step 441 and returns to step 421. The third reference channel frequency F3 is tuned for a first time T1 to check whether data is received.

If data is not received at this time, the variable m is increased by one in step 435, so that the variable m is equal to 4, and it is recognized in step 437, and steps 443-447 are performed to wait for the second time T2. After changing the variable m to m = 2, the process returns to step 417 and performs a fourth search process.

When the fourth search process is started, the controller 13 tunes the first reference channel frequency F1 for the first time T1 and then checks whether data is received through the tuned channel. If no data is received within the first time T1, the control unit 13 increases the variable m by one in step 435, and then checks whether variable m = 3 in step 437. In this case, since the variable is m = 3, the reference channel frequency number n to be checked is increased by one to set n = 4. Here again, it can be seen that the reference channel frequency number (n = 3) previously checked is increased to set as the second reference channel frequency number in the current search process. Accordingly, the controller 13 tunes to the fourth reference channel frequency F4 in step 441 and returns to step 421. The fourth reference channel frequency F4 is tuned for a first time T1 to check whether data is received. If no data is received at this time, the variable m is increased by one in step 435, so that the variable m is equal to 4, and it is recognized in step 437, and steps 443-447 are performed to wait for the second time T2. At this time, since the variable n is n = 4, the number of reference channel frequencies (M = 4) to be searched is equal to the value of the variable n. Accordingly, the controller 13 recognizes this in step 449 and returns to step 413.

Therefore, the above searching process is performed at all times from the first searching process. During the first search process and the fourth search process, if it detects that data is received in a state in which an arbitrary reference channel frequency is tuned, the controller 13 recognizes this in step 323 and performs steps 425-431. After confirming the location of the current regional area, and tunes to the service channel frequency of the corresponding regional area to transition to the radio calling service state.

Accordingly, in the reference channel search method according to the second embodiment of the present invention, as shown in FIG. 6, each search process sequentially searches from the reference channel frequency having a high frequency of the subscriber's location, and the search processes use the reference channel frequencies. Since it is performed in increments one by one, it is possible to quickly search the reference channel of the region in which the current wireless call receiver is located.

Claims (12)

A radio call receiver having a memory for storing a first reference channel frequency corresponding to each of the first common area group-m common area group-m reference channel frequencies and a service channel frequency of local areas belonging to each common area group. A service method of claim 1, further comprising: a first search process for checking data reception after tuning the first reference channel frequency, and a first reference channel frequency and a second reference channel frequency when there is no data reception in the first search process. A second search process of checking data reception while sequentially tuning, and a third search test of data reception while sequentially tuning a first reference channel frequency and a third reference channel frequency when there is no data reception in the second search process And receiving data while sequentially tuning the first reference channel frequency to the fourth reference channel frequency when there is no data reception in the third search process. Is a fourth search process, and when there is no data reception in the previous search process, the fifth search process-m-1 search processes which check data reception while sequentially tuning reference channel frequencies in the same manner as the search processes; And m-th search process for checking data reception by sequentially tuning a first reference channel frequency-m-th reference channel frequency when there is no data reception in the m-1 search process, and the first search process-m search process The method of searching for a reference channel of a radio receiver according to claim 1, wherein the data receiving inspection process comprises analyzing the local information from the received data and tuning the service channel frequency of the corresponding area. The method of claim 1, wherein the first search process-m search process comprises: a reference channel designation process for checking data reception while maintaining tuning of respective reference channel frequencies for a first time, and a last reference channel in the reference channel designation process; A method of searching for a reference channel of a radio receiver according to claim 1, wherein the operation of the mobile page receiver is performed after the operation of the power supply is cut off for a second time after the end of the data test for the frequency. The method of claim 1 or 2, further comprising performing a radio call service through a designated service channel after performing the service channel designation process. 4. The method of claim 3, wherein the first reference channel frequency is a reference channel frequency of a common area group to which the radio call receiver is subscribed. A service method of a radio call receiver having a memory for storing reference channel frequencies corresponding to each of a plurality of common area groups and a service channel frequency of area areas belonging to the common area group, the process of setting a specific reference channel frequency And a reference channel search process for supplying operation power to a receiver on a first time basis, and checking whether data is received after tuning the set reference channel frequency, and when data is not received during the reference channel search process. Setting a reference channel frequency, comparing the set number of reference channel frequencies with the number of search channels, and returning to the reference channel search process when the set reference channel frequency number is not smaller than the number of search channels; When the number of search channels is smaller than the currently set reference channel frequency number, The process of shutting off the power supply and waiting for a second time; and after increasing the number of search channels after performing the waiting process, checking whether the number of search channels exceeds the last reference channel frequency number, and the number of search channels is the last reference channel. If it is not greater than the frequency number, the specific reference channel frequency is set, and then the reference channel search process is performed. When the number of search channels is larger than the last reference channel frequency number, the search channel number is initialized and the specific reference channel frequency is initialized. After setting a, proceed to the reference channel search process, and the service channel designation process to tune the service channel frequency of the corresponding region after analyzing the local information from the received data when the data reception is detected in the reference channel search process Reference channel search of wireless call receiver, characterized in that Way. 6. The method of claim 5, wherein the specific reference channel frequency is a reference channel frequency of a common area group to which the subscriber of the wireless call receiver belongs. A first reference channel frequency corresponding to each of the first common area group-m common area group-m reference channel frequencies and a memory for storing a service channel frequency of the regional zones belonging to the common area group. In the service method, a first search process for checking data reception after tuning the first reference channel frequency, and a first reference channel frequency and a second reference channel frequency when there is no data reception in the first search process. A second search process of checking data reception while tuning to a third step; and a third search process of checking data reception while sequentially tuning a first reference channel frequency and a third reference channel frequency when there is no data reception in the second search process And, when there is no data reception in the third search process, detects data reception while sequentially tuning a first reference channel frequency and a fourth reference channel frequency. In the fourth search process and the fifth search process-m-1 search processes for checking data reception while sequentially tuning reference channel frequencies in the same manner as the search processes when there is no data reception in the fourth search process and the previous search process. And m-th search process of checking data reception while sequentially tuning a first reference channel frequency and an m-th reference channel frequency when there is no data reception in the m-1 search process, and the first search process-m search. A method of searching for a reference channel of a radio call receiver, comprising analyzing a local information from received data and detecting a service channel frequency of a corresponding region when a data is detected during a data reception inspection process. 8. The method of claim 7, wherein the first search process-m search process comprises: a reference channel designation process for checking data reception while maintaining tuning of reference channel frequencies for a first time, and a last reference channel frequency in the reference channel designation process; The method of searching for a reference channel of a radio call receiver, characterized in that the process of proceeding to the next search after the operation power supply is cut off for a second time after the end of the data reception test for. 10. The method of claim 8, wherein the first reference channel frequency is a reference channel frequency of a common area group to which the radio call receiver is subscribed. 10. The method according to any one of claims 7 to 9, further comprising performing a radio call service through a designated service channel after designating the service channel. A service method of a radio call receiver having a memory for storing reference channel frequencies corresponding to each of a plurality of common area groups and service channel frequencies of local areas belonging to the common area group, the process of setting a specific reference channel frequency And a reference channel search process for supplying operation power to a receiver on a first time basis, tuning the set reference channel frequency, and checking whether data is received, and the number of search channels when data is not received during the reference channel search process. The step of checking whether the second reference channel frequency after increasing the reference channel frequency, and after setting the next reference channel frequency of the number of the second reference channel frequency tuned in the state before the second reference channel frequency, the reference channel search process And the reference channel frequency to be searched is the second reference channel If the wave number is not, the process of shutting off the power supply of the receiver and waiting for the second time, and after increasing the number of search channels after performing the waiting process, and checking whether the number of channels to be searched exceeds the last reference channel frequency number. When the number of channels is not greater than the last reference channel frequency number, the process proceeds to the reference channel search start process, and when the data reception is detected in the reference channel search process, after analyzing the region information from the received data, the corresponding service channel A method of searching for a reference channel of a radio call receiver, comprising a service channel designation process for tuning a frequency. 12. The method of claim 11, wherein the first reference channel frequency is a reference channel frequency of a common area group to which the subscriber of the wireless call receiver belongs.