KR100212049B1 - Method for channel scanning of the wireless phone - Google Patents

Abstract

When attempting a call in a wireless telephone, the channel is locked in the order of the channels most recently identified as the empty channel, and call processing is performed to efficiently capture the call channel. To do this, first check the state of channel memory in the idle state, and then check the state of the new channel when there is a busy channel.In the free state, register the channel number as the highest-selected channel of the channel memory and set the priority of the remaining registered channels. Shift by one class. Therefore, the channel numbers most recently determined to be in the free state are sequentially registered in the channel memory. After the call attempt, the channels are locked according to the priority of the channel memory, and the call is attempted to quickly acquire the call channel.

Description

How to scan a channel on a cordless phone

1 is a block diagram of a wireless telephone.

2 is a flow chart of a channel scan of a radiotelephone according to the present invention.

3 is a memory map configuration diagram for registering channel numbers.

* Explanation of symbols for main parts of the drawings

10 microprocessor 20 keypad

30: memory 40: modem

50: RF unit

The present invention relates to a channel scanning method of a wireless telephone, and more particularly, to a method for scanning a channel so that a base unit can efficiently capture a channel in a handset unit in a wireless telephone using a multi-channel. .

In general, a radiotelephone consists of a handset unit and a base unit, and performs a radio frequency (RF) communication through a wireless link between the long-term handset unit and the base unit, and exchange period with the base unit. There is a wired communication through the telephone line. Therefore, the free channel must be scanned to form a wireless link between the hand set unit and the base unit.

In the conventional wireless telephone, one of three methods is used. When m channels are used first, there is a method of scanning from a fixed priority selection channel when a call is attempted and sequentially scanning until a free channel is acquired. Secondly, when m channels are used, a plurality of priority selection channels are determined, and then, when a call is attempted, the first priority channel is sequentially scanned to capture a free channel. The third method is to scan the most recently called channel.

However, the channel scanning method as described above has a low probability of capturing the channel to be scanned first. That is, when using the channel scan method as described above, the channel scan starts from a fixed channel number regardless of the busy state frequency of the corresponding channel, so that the channel cannot be efficiently captured when a call is attempted.

It is therefore an object of the present invention to provide a method in which a base unit can efficiently scan and capture a channel when a handset unit attempts to make a call in a wireless telephone.

It is still another object of the present invention to select a channel in a free state when scanning a channel in a wireless telephone and register sequentially as the first selected channel from the most recently checked channel number, and to check the state of the registered channel number when a call is attempted. To provide a way to try.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram of a wireless telephone,

A keypad 20 for allowing a user to control a radiotelephone device and an embedded program according to the selection of the keypad 20 to determine the free / busy status of m channels and the n priority It is determined whether the selected channel is maintained as an empty channel, and a microprocessor 10 which is responsible for performing overall functions of the phone, and locks the channel under the control of the microprocessor 10 to adjust the frequency. An RF unit 50 for transmitting and receiving, a modem 40 for allowing the signals of the microprocessor 10 and the RF unit 50 to be compatible with each other, and a reference frequency for locking a channel are embedded. Memory (EEPROM) 30.

The above configuration is common to both the handset unit and the base unit, and the base unit is a DTMF generator / receiver for dialing a line interface and telephone number for performing wired communication with a public switched network other than the above configuration. (DTMF generator / receiver) is further provided.

2 is a flow chart of a channel scan according to the present invention. First, when a channel is scanned in an idle state, n channels are selected in a free state and registered as a first selection channel, and the n priority selection channels registered in a call attempt are sequentially locked. In the process of free channel searching, the call function is shown in the corresponding channel.

FIG. 3 is a memory map configuration diagram which registers the number of the priority channel selected in the same flow as that of FIG. 2, and is set in the RAM area of the microprocessor 10. As shown in FIG.

Based on the configuration of FIG. 1 described above, the present invention will be described in detail with reference to the flowchart of FIG. 2 and the memory map of FIG.

First, the microprocessor of the base unit performs a channel scan operation as an idle status when a ring signal is received through a wired interface or a call view message is not received through the RF unit 30. Therefore, if it is determined in step 201 that it is not in the call view state, in step 202, the state of the channel memory as shown in FIG. 3 is checked to see if all n channel numbers are registered. In this case, when m channels are used in a multi-channel wireless telephone, n channel numbers are stored in the channel memory as shown in FIG. 3. At this time, it is set to be mn, because if there are about n free channels, the call channel can be easily captured using the corresponding channel number. For example, in the case of a wireless telephone using 40 channels, about 10 channels may be used as channel numbers (m = 40, n = 10). Therefore, the microprocessor 10 checks whether or not n channel numbers are stored in the channel memory as shown in FIG. In this case, if n channel numbers are registered in step 202, the channel numbers of the channel memory are sequentially checked in step 203 to check whether all channels are free. This step checks whether the channel number registered in the channel memory in the free state has transitioned to the busy state.

Accordingly, when n channel numbers are not registered in the channel memory in step 202 or there is a channel transitioned to busy state among the channel numbers registered in step 203, a new channel number is selected and registered. . Therefore, the microprocessor 10 accesses the data of the new channel number to the memory 30 in step 204, controls the RF unit 50 to lock the channel, and then locks in step 205. Check the status of the channel. In this case, the microprocessor 10 compares the reference signal with the strength of the signal received through the locked channel and determines that the received signal is large as a busy channel, and when the received signal is small, determines that it is a free channel. If the locking channel is determined to be a busy channel, the process proceeds to step 204 to lock the new channel again. However, if the corresponding locking channel is in the free state in step 305, the corresponding channel number is registered in the first storage area of the channel memory as shown in FIG. 3 and the storage channel numbers of the channel memory are shifted one by one in step 206. That is, when the channel in the free state is scanned in step 205, the channel numbers currently stored are shifted one by one, and the current channel numbers are registered as the highest selected channel numbers.

When the above process is performed, n free channel numbers are always stored in the channel memory, and are sequentially registered from the channel number most recently determined as the free state.

In this case, when the call view message is received from the handset unit, the microprocessor 10 recognizes that it is in the view view state in step 201, and is stored in the first storage area of the channel memory as shown in FIG. 3 in step 212. The channel number is accessed and locked to the RF unit 50. In this case, since the channel number stored in the first storage area of the channel memory is the most recently found free state, the channel acquisition probability is very high. Therefore, after locking with the highest priority channel number, if the channel is found to be free in step 213, the process proceeds to step 220 to perform a call processing process. However, if the channel is found to be busy in step 213, steps 214 to 217 are attempted to call the channel number registered in the channel memory. At this time, the call attempt process sequentially accesses and locks the channel numbers registered in the nth storage area in the second storage area, and performs call processing to the corresponding channel when the arbitrary channel number is free. If n = 0 is determined in step 217, it means that all n channels of the channel memory as shown in FIG. 3 are busy. In this case, the remaining channels of the n channels are sequentially locked. Try to call.

Therefore, summarizing the channel scanning process as described above, the microprocessor 10 sequentially scans the m available channels until n empty channels are determined, and the n priority selection channels stored in the channel memory are all included. Always check if it remains empty. At this time, if there is a channel converted into busy channel, the channel (mn) other than the selected channel is first scanned to store the channel most recently determined as an empty channel in the first storage area of the channel memory, and the other stored values Move by the storage area so that n free channels are always stored in the microprocessor's channel memory. Therefore, when the transmission channel is selected, the channel of the first storage area, which is the first selection channel of the channel memory, is first scanned. If the channel is captured, a call process is performed. Scan The channel memory storage area is sequentially scanned until it is captured in this manner, and if all channels of the channel memory are not captured, the channels next to the nth storage area of the channel memory are sequentially scanned to capture a channel.

As described above, the number of radiotelephone devices is increased, and as the number of radiotelephones using the same channel increases in adjacent areas, it takes a long time to capture an empty channel when attempting a call. When discriminating and storing a call, the channel is first scanned into an empty channel to capture a channel in a short time, thereby efficiently making a wireless call.

Claims (4)

In the channel scanning method of a radiotelephone, a process of inspecting the state of the radiotelephone, and sequentially scanning each channel during the idle state during the inspection process, setting priorities in order of being most recently determined as a free channel And sequentially storing the memory in a memory, and forming a call channel by locking channel numbers in order of a first-selected channel of the channel memory when the state of the view is in the check state. The method of claim 1, wherein the channel scanning process comprises: checking a handset unit memory to determine whether all of the predetermined number of channel numbers are in a free state, terminating a channel scan process in a free state; Searching for a channel in a free state by locking a different channel number when present and checking a channel state; registering the channel number as the first selected channel of the channel memory when searching for the free channel; A channel scanning method of a wireless telephone, characterized in that the step of ending the channel scanning process after the shifting. 3. The method of claim 1 or 2, wherein the call viewing process comprises: locking the highest channel number of the channel memory to perform a call processing when the channel is in a free state, and when the highest channel number is busy in the step, Sequentially locking the next selected channel numbers of the channel memory, and performing call processing to the corresponding channel when searching for a channel in the free state; and registering the channel number of the channel memory at the time of busy status until the last registered channel of the channel memory. Channel scanning method of a wireless telephone, characterized in that the step of attempting to call in other channels. A channel scanning method of a wireless telephone, the method comprising: checking whether a state of visibility is present, and checking a state of an idle state temporary channel memory in the state checking process, and checking a state when all channels registered in the channel memory are free state Returning to the channel, locking a new channel number when a busy channel is generated among the channels registered in the channel memory, scanning a channel number in a free state, and retrieving the corresponding channel number most recently scanned during the free channel scan. Returning to the status checking process and shifting the priority of the remaining registered channel numbers by one class, and locking the highest channel number of the channel memory when the status is in the status check process. And, if the channel is in the free state and proceeds to the call processing process And, when the locking channel is busy in the call diagram process, locks a channel number of the next rank registered in the channel memory in a random order and proceeds to a call processing process when searching for a free state channel. How to scan channels on your phone.