KR20000009183A - Pager channel selecting method in overlapped area and the pager - Google Patents

Abstract

PURPOSE: A pager channel selecting method is provided to measure a substantial electric field strength accurately. CONSTITUTION: A pager comprises a controller(150) which outputs an on/off control signal to an automatic gain control(AGC) part(122). The function of the AGC part(122) is active or inactive according to the inputted on/off control signal. A pager channel selecting method includes the steps of stopping the function of the AGC part unless a call signal is received in the presently set service frequency; reading sequentially all internal service frequencies and measuring an electric field strength of each service frequency; and activating again the function of the AGC part. Accordingly, an electric field strength for recognizing area is measured accurately, thereby searching a correct area in an overlapped area in which a plurality of frequencies having similar electric field strengths exit.

Description

Method of selecting pager in nesting area and its pager.

The present invention relates to a channel selection method in a wireless pager and a wireless pager employing the method. In particular, the present invention relates to a method of selecting a correct frequency in an overlapping area where two or more frequencies are received and to a wireless pager employing the method.

As wireless pagers, one of the individual mobile communication means, become more popular and diversified, their functions are being developed day by day to provide more convenience to users. Therefore, various service functions such as clock, calendar, alarm, reception time display, automatic on / off, and melody function are added to the call function, which is the main function, for convenience of use. In addition, the wireless pager has been developed from a local method that can be serviced only by one service frequency defined in a registered area, and a wide area method that can receive a service even when moving to another area. Up to now, Korea has been implementing regional and wide area service using wireless calling method based on POCSAG method developed in UK. However, different calling methods have been attempted to overcome various problems such as delivery speed, subscriber capacity, and quality of call service. In Korea, we have introduced the Flex (FLEX) method developed by Motorola. Opening up The wireless paging system is expected to continue to evolve in the future. The development of call service is aiming at the way that it can serve without barriers even when going out between regions. The present invention relates to a technology for literally pursuing a wide area wireless calling service, which is not limited to each region, but is not limited to any country. The technical concept of the present invention is applicable to any method.

Looking at the prior art with reference to Figure 1 showing the configuration of a conventional pager as follows. In particular, this paper describes a wide area wireless pager that can be provided with calling service in various service areas using different service frequencies using frequency synthesis.

First, the configuration of the pager is as follows. Signals of various frequencies are received via the antenna 10. Of these, only one oscillation frequency designated by the frequency synthesizer 30 is transmitted to the receiver 20 under the control of the controller 50. The receiver 20 amplifies the weak high frequency signal received through the antenna 10, frequency converts the amplified signal to the original signal band and demodulates the signal, demodulates the demodulated signal into a digital signal, and then decodes the decoder. Output to (80). The controller 50 controls the operation of the receiver 20 by sending a control signal, and the decoder 80 which decodes all the signals input from the receiver 20 is coded in a pre-planned form and synchronized with the transmitted call signal. Detects code and frame information and detects data in blocks assigned to it. When the detected data is sent to the controller 50, the central processing unit (CPU) 52 in the controller 50 processes the input data according to a predetermined program. Meanwhile, the EEPROM unit 40, which is a kind of memory connected to the controller 50, is a means for storing general information of the radio call receiver and provides necessary information according to a request of the controller 50. It stores the cap code (pager number) assigned to it, service frequencies by region, and area code. The controller 50 sequentially outputs and tunes the frequency change data corresponding to the service frequency of each region read from the memory 40 to the frequency synthesizer 30 to determine whether the region code is received from each designated service frequency. . At this time, when receiving the area code, the decoder 80 outputs the message information to the control unit 50 when the pager number corresponding to the cap code exists in the call signal. The central processing unit (CPU) 52 of the controller 50 processes the received message information and displays it on the display unit 60, and drives the driving unit 70 to inform the user that the information has been received.

In the frequency synthesizing method for enabling a wide area wireless calling service, a signal must be received while switching a plurality of frequencies, and thus an antenna for automatically varying characteristics of the antenna 10 to correspond to the plurality of frequencies. The adjusting part 12 is provided. The antenna adjuster 12 uses the characteristics of a variable capacitance diode (variable capacitance diode), which is a device whose capacitance changes according to an applied voltage. The following method is used to automatically find the frequency used in the area where the pager is currently located (ie, the frequency with the strongest wave strength). The control voltage value corresponding to each frequency is previously stored in the EEPROM unit 40 during the pager production process, and the controller 50 sequentially stores the control voltage values through the built-in D / A converter 54. By sending to the antenna adjuster 12, the so-called scanning operation is performed to change the tuning point of the antenna and receive several channels one by one. The received signal is received by the receiver 20 using the RSSI unit 24 built in the receiver 20 which converts the strength (the strength of the frequency carrying the signal) into a voltage value and outputs the value. The electric field strength of each frequency is changed into a voltage value and digitized through the A / D converter 58 in the controller 50 and stored in the RAM unit 56, which is a kind of memory installed in the controller 50. The antenna control voltage data corresponding to the frequency corresponding to the largest value among the voltage values (field strength values) stored in the RAM unit 56 is outputted to the antenna adjusting unit 12 through the D / A converter 54 so that Make the tuning point optimal. Then, the area code contained in the call signal received at the maximum field strength frequency is detected to identify the area, and the call signal sent to the self is found.

In such a wide area wireless paging system, when a similar number is used between wireless call service providers, coverages are affected between carriers, and a pager is subjected to strong interference signals, so that coverage areas cannot be processed correctly. An area called a hole or blank area occurs. In order to overcome this problem, an automatic gain control circuit (AGC: Automatic Gain Control) is added to the receiver 20 of the pager. The AGC unit 22 measures the voltage according to the strength of the electric field received by the RSSI unit 24 and compares it with a reference voltage, and when a voltage higher than the reference voltage is input, the gain of the radio wave received by the receiver 20 is received. By attenuating, the strength of the electric field can be maintained at a constant value to minimize the effects of intermodulation.

As such, among the pagers that can receive a plurality of frequencies and selects the strongest electric field strength at all frequencies received in a certain region, the pager uses a method of recognizing the region in the coverage hall. The following problems occur when applying the AGC function to enhance the reception state.

If you move the area and no longer receive the call signal at the currently set frequency, it scans all available service frequencies for each area stored in the memory in order and selects the strongest field strength among them. However, when two or more frequencies are received above the reference field strength, the gain of the receiver becomes constant by the operation of the AGC when measuring the received field strength of each frequency. Therefore, the frequency with the strongest field strength cannot be selected. . That is, even though the voltage value of the frequency received above the reference voltage is actually different from the value, all of the same value due to the function of the AGC. As a result, accurate local recognition and service frequency selection are not possible.

SUMMARY OF THE INVENTION An object of the present invention is to provide a wireless pager having a method of accurately measuring the actual field strength value in measuring the electric field strength for region determination in the area movement processing. Another object of the present invention is to provide an electric field strength measuring method which is not influenced by AGC in measuring electric field strength for region determination in the region moving process. Another object of the present invention is to measure the field strength for local determination, stop the function of the AGC, measure the actual field strength for all frequencies received, select the service frequency, and then reactivate the AGC function. By activating, it provides a method of minimizing the failure factor of regional determination and service frequency switching by AGC operation.

1 is a schematic diagram showing the configuration of a conventional pager.

2 is a schematic diagram showing the configuration of a wireless pager according to the present invention.

3 is a diagram illustrating an equivalent circuit of an AGC unit used in a wireless pager according to the present invention.

4 is a flowchart illustrating a method of selecting a channel in a pager according to the present invention.

<Description of the reference numerals for the main parts of the drawings>

10, 100: antenna 12, 112: antenna adjustment unit

20, 120: receiver 22, 122: AGC unit

24, 124: RSSI unit 30, 106: frequency synthesis unit

40, 140: EEPROM section 50, 150: control section

52, 152: Central control unit (CPU) 54, 154: D / A converter

56, 156: RAM 58, 158: A / D converter

60, 118: display unit 70, 119: alarm unit

80, 180: decoder

In order to achieve the above object, the present invention provides a wireless pager including a control unit for outputting an ON / OFF control signal to the ACG unit and an AGC unit whose function is activated / stopped according to the input ON / OFF control signal. When the pager no longer receives the call signal at the currently set regional service frequency, the pager sequentially scans all service frequencies stored in the memory in order, and then measures the electric field strength. OFF Select the frequency with the strongest electric field strength by measuring electric field strength for all service frequencies in each region with AGC function stopped by sending control signal. Then, the antenna tuning point is tuned (resonated) at the selected frequency to extract the area code and wait for the call signal in the area indicated by the area code. At this time, before tuning the antenna tuning point to the service frequency for each region or before adjusting the antenna tuning point to the designated service frequency, the control unit sends an ON control signal to the AGC unit to activate the AGC function again.

In the channel selection method of the pager according to the present invention, if the call signal is not received at the currently set service frequency, stopping the function of the AGC unit, and sequentially reading all the service frequencies for each region stored in the EEPROM unit for each frequency. And measuring the field strength and reactivating the function of the AGC unit.

The present invention will be described with reference to the drawings and the embodiments in more detail. First, the structure of the pager according to the present invention will be described with reference to FIG.

The wireless pager according to the present invention is a frequency synthesis method, so that a plurality of frequencies can be tuned to receive a signal, and thus an antenna adjusting unit for automatically varying the characteristics of the antenna 100 to correspond to the plurality of frequencies. (112). The antenna adjusting unit 112 uses the characteristics of a variable capacitance diode, which is a device whose capacitance changes according to an applied voltage.

Frequency change data is output to the frequency synthesizer 130 according to the control signal of the controller 150, and accordingly, the frequency synthesizer 130 tunes to a designated frequency so that the receiver 120 receives a signal at the tuned frequency. Receive and convert. Here, the receiver 120 includes an RSSI 124 unit for converting the frequency-converted signal into a voltage magnitude according to the strength of an electric field and an AGC unit 122 for overcoming a coverage hole. . The control unit 150 controls the antenna adjusting unit 112 by the A / D converter 158 for converting a voltage value according to the electric field strength output from the RSSI unit 124 into a digital value and the control unit 150. And a D / A converter 154 for converting a control digital value to an antenna tuning value.

If the receiver 120 no longer receives the call signal at the frequency set in the antenna 100 so far, the pager regards the area movement and starts the process of finding the correct area.

First, the controller 150 outputs an OFF control signal to the AGC unit 122 through the control signal output unit 159 to stop the operation of the AGC unit 122. And, for all frequencies stored in the EEPROM 140, the control voltage corresponding to the frequency is sequentially output to the antenna adjusting unit 112 using the D / A converter 154 inside the controller 150. The antenna adjusting unit 112 changes the tuning point of the antenna according to the voltage, amplifies, filters, and converts frequencies received through the antenna, converts the signal into a magnitude of voltage, and outputs the RSSI unit ( 124). The voltage value of each frequency output from the RSSI unit 124 is digitized through the A / D converter 158 of the controller 150 and stored in the RAM unit 156 by the controller 150. Read the highest value of the voltage value of all frequencies stored in the RAM unit 156, and provides the antenna control voltage data corresponding to the service frequency to the antenna adjusting unit 112 through the D / A converter 158 to the By changing the tuning point, the region code is extracted from the call signal of the frequency with the strongest field strength in the current region.

When the area code is extracted, the controller 150 outputs an ON control signal to the AGC unit 122 through the control signal output unit 159 so that the AGC unit 122 can operate normally, and is used in the current region. Detect a call signal sent to it at the service frequency. When the decoder 18 receives the call signal matching the cap code which is its own number stored in the EEPROM unit 140, the decoder 18 outputs the corresponding message information to the controller 150. The central processing unit (CPU) 152 of the controller 150 processes the received message information and displays it on the display unit 160, and drives the driving unit 170 to inform the user that the information has been received.

The operation of the wireless pager according to the present invention will be described with reference to FIG. 3, which shows an equivalent circuit for the AGC unit 122.

First, the configuration of the AGC circuit is as follows. The power supply VDD 210 is applied to the power supply terminal 2 of the OP-AMP 220, and 5 is a ground terminal. The reference voltage for setting the reference value of the AGC circuit is applied to the reference terminal 4 at the distribution point 211 in which the power supply 210 is divided into the first resistor 221 and the second resistor 222. The first capacitor 231 connected to the power supply 210 is for stabilizing the power supply 210 and removing noise. The first voltage applied by the RSSI unit 124 is stabilized by the second capacitor 232, and is input to the comparison terminal 3 of the OP-AMP 220 through the third resistor 223. The second voltage corresponding to the AGC operation control signal applied from the controller 150 is connected to the comparison terminal 3 through the fourth resistor 224. The fifth resistor 225 and the third capacitor 233 between the comparison terminal 3 and the output terminal 1 of the OP-AMP 220 are for stabilization of the AGC circuit. The output voltage output through the output terminal 1 of the OP-AMP 220 is forwardly connected to the band switching diode 241 through the sixth resistor 226, and the fourth capacitor 234 is connected to the band switching diode. The other terminal of the fourth condenser 234 is connected to the intermediate terminal 250 output from the antenna 100 and input to the receiving unit 120.

The operation of the AGC circuit as described above is as follows. The first voltage determined by the first resistor 221 and the second resistor 222 from the power supply 210 is set to the reference terminal 4 as the reference voltage of the OP-AMP 220. The difference between the reference voltage and the second voltage indicating the electric field strength input from the RSSI unit 124 and input to the comparison terminal 3 is output to the output terminal 1 of the OP-AMP 220. Therefore, the difference voltage (output voltage) is supplied to the contact point of the fourth capacitor 234 and the band switching diode 241 through the sixth resistor 226. At this time, the fourth capacitor 234 connected between the antenna 100 and the receiver 120 using the forward characteristic of the band switching diode 241 is received by the antenna 100 according to the state of the band switching diode 241. The high frequency signal is bypassed to the ground terminal 260 (A). That is, since the internal resistance value of the diode 241 changes according to the output voltage magnitude output from the OP-AMP 220, the attenuation amount bypassed to the ground terminal 260 is adjusted. On the other hand, when the comparison voltage input to the comparison terminal 3 is lower than the reference voltage, the output voltage of the OP-AMP 220 is 0V, the band switching diode 241 is unable to perform the switching operation. Therefore, the path connected to the ground terminal 260 is cut off, and the high frequency signal received by the antenna 100 is directly applied to the receiver 120 without attenuation.

When the call signal is no longer received at the frequency set up to the receiver so far, the controller 150 measures the strength of each received electric field for all service frequencies for each region embedded in the EEPROM unit 140. At this time, the controller 150 transmits an OFF control signal having a low level signal to the comparison terminal 3 through the fourth resistor 224 of the AGC circuit. Therefore, since the magnitude of the voltage applied to the comparison terminal 3 is smaller than the reference voltage, the output voltage of the OP-AMP 220 becomes 0V, so that the signal received by the antenna 100 has no influence by the AGC circuit operation. It is applied to the receiver 120 without receiving. Therefore, the electric field strength of the signal actually received can be measured.

After the electric field strength measurement is completed and the controller 150 determines the frequency with the strongest electric field strength, the controller 150 again transmits a high level signal to the comparison terminal 3 through the fourth resistor 224 of the AGC circuit. Send the ON control signal. Therefore, the voltage applied from the RSSI unit 124 is again applied to the comparison terminal 3 as the comparison voltage, so that the original function of the AGC can be utilized.

A method of selecting a channel in a wireless pager including such a component will now be described with reference to the flowchart.

When the pager is powered on, the process proceeds to the step 4b of performing initialization in the starting step 4a. In other words, the wireless pager initialization operation is performed such as reading the general information stored in the external memory (EEPROM) to the control unit.

After the initialization is executed, step 4c is performed to send an OFF control signal to the AGC to stop the function.

In order to select a service area, channel information stored in an external memory (EEPROM) is sequentially read, tuned to the channel, and the electric field strength of the channel is measured (4d).

In step 4e of determining whether the measured electric field strength value is valid, it is determined whether the electric field strength value is less than or equal to a threshold value for all the measured channels. If the measured electric field strength value is valid, it is ranked according to the electric field strength and stored in the internal memory (RAM).

In step 4f, the control unit sends the ON control signal to the AGC unit and activates the AGC function again.

In step 4g, the service channel is set as the preferred channel having the greatest strength of the electric field strength. If the electric field strength value is not valid, step 4r is performed to determine that the user of the pager is in a position where the user cannot receive the call and inform the user.

If it is set as the priority channel, the process proceeds to step 4h of determining whether a signal is detected through the priority channel. If a signal is detected, step 4k is performed to determine whether synchronization is detected. If no signal is detected, step 4i of setting the service channel to the next channel whose field strength is set next.

After setting the service channel to the next channel, go to step (4j) of judging whether the switching is performed for all the channels set according to the electric field strength. In step 4r, it is determined that the user is in an impossible position and the user is recognized.

If synchronization is detected in step 4k of determining whether to detect synchronization, step 4l of determining whether a unique capcode has been received is performed. If synchronization is not detected, step 4n is checked to see if the first timing is completed.

If no unique capcode is received in step 4l of determining whether a unique capcode has been received, the process returns to step 4k of determining whether to detect synchronization. When the unique capcode is received, the execution step 4m of processing the received information is performed. As a result, the process returns to step 4k of recognizing that the user has been called and determining whether to detect synchronization, and repeating the above steps.

If it is not completed in step 4n of determining whether the first timing is completed, the process returns to step 4k of determining whether to detect synchronization. If the first timing is completed, proceeding to the step (4o) of setting the service channel set in the order of priority according to the strength of the electric field strength to set a new service channel, and determining whether or not the setting for all the set service channels Proceed to (4p).

If the synchronization is not detected even after checking whether the synchronization has been detected for all the set channels, step 4q is performed to determine whether the wireless pager has performed an initialization operation. At this time, if the pager performs an initialization operation, it determines that it is in a position where it cannot receive a call and proceeds to step 4r of notifying the user. If the initialization operation has not been performed, the process returns to step 4b of performing initialization and repeats the above operations.

In step 4r of letting the user know that the user is in a position where the call cannot be received, the step 4s of determining whether the second timing is completed is repeatedly checked until completion, and upon completion, the initialization is executed. Returning to step 4b, the above operations are repeated.

In the present embodiment, for example, the execution of the AGC function again before returning to the service frequency is taken as an example. However, stopping the ACG function is performed before scanning the service frequency of each region to measure the electric field strength, and reactivating the AGC function is performed at the appropriate time after the electric field strength measurement is finished. . Therefore, the appropriate timing can be arbitrarily set in the program according to the functions and operations of the entire pager.

Furthermore, the present invention is not limited to a particular calling service method, but may be applied to any calling service method for receiving a calling service in any region where a user with a current pager is located. In other words, the wireless paging service is based on radio waves and the service is provided using the most optimal radio wave in the place where the pager is located. It is possible to select the most optimal radio wave by changing the application of the concept of the present invention.

In the present invention, a border area in which several frequencies having similar field strengths are mixed due to the function of the AGC circuit to overcome the coverage hole in selecting a frequency having the strongest electric field strength and determining the frequency available in the area where the radio pager is currently located. Provides a solution to the problem of not selecting the correct frequency. In the present invention, the AGC function is stopped and performed when the electric field strength is measured by scanning the service frequency for each region in the process of moving to the region. This allows us to measure the correct field strength of the received service frequencies. After determining the frequency with the strongest electric field strength among the service frequencies for each region, the AGC function is restarted again, so that coverage hole occurrence can be solved at the service frequency. Therefore, in the present invention, there is an effect that can measure the actual field strength not changed by the AGC. By accurately measuring the electric field strength, which is a criterion for recognizing an area, it is possible to correctly find an area even in a border region where a plurality of frequencies having similar electric field strengths above the reference strength are mixed.

Claims (4)

A control unit for outputting an ON / OFF control signal to the ACG unit; And an AGC unit whose function is activated / stopped according to the input ON / OFF control signal. In a wireless pager receiving a call service by selectively setting one local frequency among the plurality of local frequencies in a wireless calling system using different local frequencies, Means for measuring field strength; Automatic gain means; and; Sending a function stop control signal to the automatic gain means when measuring the electric field strength for each of the plurality of frequencies by the electric field strength measuring means, and after the electric field strength measurement for the plurality of frequencies is finished, the automatic gain attenuation means. And a central control means for sending a function resume control signal to the wireless pager. Stopping a function of the AGC unit if a call signal is not received at the currently set service frequency; Reading all built-in service frequencies sequentially and measuring field strength for each service frequency; And re-activating the function of the AGC unit. In a radio calling channel selection method for selectively setting one service frequency among a plurality of service frequencies in a wireless call system in which each region uses a different service frequency, A first step of determining whether a call service can be provided at a currently set service frequency; A second step of stopping the function of the automatic gain means when the call service cannot be provided in the first step; A third step of measuring electric field strength received for the plurality of service frequencies; And a fourth step of resuming the function of the automatic gain means.