JP2732365B2 - Transmission power control method - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a transmission output control system for controlling a transmission output to an appropriate level in a wireless communication system. 2. Description of the Related Art In communication using a conventional wireless communication device, the transmission output is manually operated so that the strength of each other's radio waves is adjusted according to the received signal level while checking the level of the received signal. It was switching and communicating. However, in most cases, communication is performed with an unnecessarily large transmission power depending on the communication distance. In order to solve the above-mentioned problem, the applicant of the present application applied for a patent application No. 248299 "Transmission power saving method" in 1994. According to the present invention, a fixed reception level is set, and the transmission power is automatically adjusted so as to approach the reception level. However, even in this method, there is no problem in the case of communication between wireless stations having a small difference in the maximum transmission power, but it is difficult to evenly save the transmission power when the maximum transmission power is different from twice or three times. there were. [0004] In the prior art,
The transmission output can be switched by checking the signal level received by each other with your own ears or by checking the reception level display on the display, and switching the transmission output manually to perform communication, or automatically changing the transmission output level. It is difficult to save the transmission output in the case of communication between wireless stations having extremely different maximum transmission powers even in the method of setting. In addition, when the transmission output is larger than necessary, the transmission frequency becomes monopolized, which may cause interference to other stations communicating with the same frequency. In order to solve the above problem, the present invention transmits transmission power information so that the transmission output power required by each station in communication can be confirmed from the signal being transmitted and the optimum transmission output power can be switched. And performs transmission output control. Means for Solving the Problems A transmission signal from a wireless communication device is organized into transmission power information including a wireless station type and a transmission power of the own station, and a DTMF (Dual Tone Mu) is formed.
a means for converting the received signal into a signal and a transmission power information when there is a DTMF signal in the received signal.
If the transmission power information is determined, the transmission power is calculated based on the transmission power information and the reception level during reception so as to obtain the optimum transmission power, and the transmission power information of the own station is transmitted based on the transmission power. The transmission power is set by selecting and setting one of a plurality of divided steps from the maximum transmission power to the economy transmission power to determine the transmission level of each other's communication partner station. It is a method. The radio station on the calling side first selects a transmission power control code from the control types, and then a type code of the local station to which the radio station type is assigned according to the maximum transmission power,
By selecting the transmission power to be transmitted from the classification number in which the strength of the transmission power is set in a plurality of levels and transmitting the transmission power information formed by setting the three-digit number from the operation unit, the received communication partner station can The transmission power information is detected, stored in a memory, and displayed on a display if necessary. The transmission power transmitted by the own station is calculated and set based on the received transmission power information and the received signal level. The transmission power is added to the own station's radio station type code to form transmission power information, and the response is transmitted. The calling wireless station is also set to an appropriate transmission power according to the transmission power information of the partner station. Therefore, the transmission power is not unnecessarily high to other stations that do not enter this communication, so that appropriate transmission power communication can be performed without deteriorating the communication environment. [0008] In the case where communication is carried out beyond the types of handy radio stations, mobile radio stations and fixed radio stations, it is desirable that there is no difference in the transmission power between the two stations. However, in the case of an amateur radio station, a portable handy radio station has a maximum transmission power of 5 W. On the other hand, there are three types of mobile radio stations in which the low transmission power L is 10 W, the medium transmission power M is 25 W, and the high transmission power H is 35 W. On the other hand, in the case of a fixed radio station, L having a low transmission power of 10 W,
The medium transmission power M of 25 W and the high transmission power H of 50
There is a radio station with W. As described above, since there is a large difference in the maximum transmission power, if the transmission power is set to be low only with the data of the reception level unless the transmission power of each other is known at the time of communication, the reception state may be deteriorated at the partner station. The above problem can be solved by exchanging transmission power information between the communicating wireless stations. [0009] The transmission power information is composed of three digits. The first digit gives the classification of the transmitting power to communicate. The transmission power is represented by a number in six stages irrespective of the radio station type. Table 1 shows the classification of the transmission power and reference data for setting the transmission power between the communicating stations. Therefore, this Table 1
Looking at the figure, the number 1 is EL (economic transmission power), 2
Is (LOW1 and low power transmission power), 3 is (LOW2 and low power transmission power larger than LOW1), 4 is (LOW
3 is a small power transmission power larger than LOW2), 5 is a transmission power that is about half of the maximum transmission power, and 6 is (HL a maximum transmission power). [Table 1] In the second digit of the transmission power information, the type code of the radio station is entered. As for the type code of the radio station, the portable handy radio station is numbered 1, the mobile radio station S is numbered 2, and
The mobile radio station M is number 3 and the mobile radio station H is number 4. Next, 5 is a fixed wireless station S station, 6 is a fixed wireless station M
Stations 7 are classified into seven types of fixed wireless station H. The third digit of the transmission power information uses a hexadecimal code from 0 to F to control transmission power and allocate other necessary control codes. In the case of the present invention, 0 is assigned to the control code of the transmission power control in this control code. Transmission power information is composed of the above three digits.
Data such as the transmission power classification of the transmission power information, the radio station type code, and the control code are stored in advance in the memory of the radio. FIG. 1 is a flowchart for transmitting and receiving transmission power information between communicating radio stations. The figure will be described from the calling side. Processing S ₁ is the control code 0~F
, The transmission power control code 0 is selected from the operation keys and set. Type code of the station for the automatic second digit radio station type and selecting a transmission power control code process S ₂ is set is read from the memory. Next, referring to Table 1, the transmission power to be transmitted is selected from the economy transmission power 1 of EL to the maximum transmission power 6 of HL and set. At first, if an unspecified number of stations are called, a strict transmission power setting is not required, and a higher transmission power may be set. Data of such three-digit transmission power information is organized. As an example, when the mobile station is the mobile radio station S, and the transmission power is selected as LOW1 of 2 and the transmission power control code is selected as 0, Table 1 is obtained.
According to this, the transmission power information is “032”. Processing S ₅
In transmitting the processing S ₆ is converted into DTMF signals. [0013] becomes a standby state after transmission, to measure the intensity of the reception level in the process S ₇ there is a response communication from the remote station. Next, determine whether the DTMF signal box H ₂
In determining, if it is determined whether the call code sign * for call if, * code around the can if any pager set, determine if the presence of transmission power information then a three-digit number in box H ₄ no I do. Processing S if transmission power information
_{At 8} the data is stored in memory. The stored transmission power information data can be displayed on the display 4 as needed. Process calculates the transmission power of the own station set in on the basis of the radio station type code and transmission power in the received signal level of the measurement data and the transmission power information S _9. Processing S
Set transmission power by ₉ organizes the transmission power information including a control code and the radio station type code, DTM processing S ₄
And F conversion transmitted by the process S _5. [0014] In the standby side, on the other hand, since the receiving state, so that starting from the detection of the presence or absence of a received signal decision box H ₁ of the flowchart of FIG. Processing a receive signal from the reception level determination processing S ₇ S ₉
The transmission power is set by executing the above steps. In the process S ₁₀ organizes the transmission power information including a radio station type of the own station. The transmission power information is transmitted by the processing S ₅ converts the DTMF signal processing S _4. As shown in this flowchart, the transmission data information is received, the transmission power information is calculated and the reception level measurement value is calculated, and the transmission power of the own station is automatically set. By transmitting the transmission power information, the waiting station and the calling station can automatically set the transmission power to the optimum level. FIG. 2 is a block diagram of a wireless communication device used in the present invention. The figure will be described. 1 is an antenna, 2 is a transmitting unit, and 3 is a receiving unit. 4 is a display part, 5 is a DTMF
It is a receiver generator. Reference numeral 6 denotes a control unit, 7 denotes a memory, 8 denotes an AF unit of a low-frequency amplifier, 9 denotes a speaker, 10 denotes a microphone amplifier, and 11 denotes a microphone. The operation of the wireless communication device will be described by comparing Table 1 with the type code combination diagram of FIG. 3 described later. First, the radio station to be called first inputs transmission power information from a key board of an operation unit (not shown). Third
The control code of the digit is set by selecting a transmission power control code from control codes 0 to F. Since the transmission power setting code is 0, 0 is input. When the transmission power code is input, the wireless station type of the own station in the memory is automatically input in the second digit. Next, as the first digit, the number of the transmission power to be transmitted from among the numbers 1 to 6 of the transmission power classification is input. For example, if the own station is the fixed wireless station M and the transmission power is LOW ₂ , "063" is input and transmission power information can be organized by the setting key. The DTMF receiver / generator 5 controls the low-frequency DTM
The signal is converted into an F signal and transmitted from the transmission unit 2. Next, the case of reception will be described. The signal received by the receiving unit 3 determines the received signal level. In this case, a fixed reference value may be provided, the level may be given a predetermined width, and it may be determined whether the level is larger or smaller. This determination circuit can be sufficiently handled by a well-known comparator circuit. The received signal is passed through a DTMF receiver / generator 5 to detect a DTMF signal, and if there is, it is determined whether only a numerical value or a selective call code * is present. If it is only a number and three digits of transmission power information, it is stored in the memory. The control unit 6 calculates the data of the reception signal level, the radio station type of the transmission power information, and the respective numerical values of the transmission power to set the transmission power of the own station to the optimum value. Transmission power information based on the set transmission power is generated, and the transmission power information is transmitted in response to the communication. Other station in accordance with the flowchart of FIG. 1 receives this transmission destination station is also an appropriate transmit power running from decision box H ₁ to the processing S _8. FIG. 3 is a diagram showing combinations of transmission power type codes using this method. Stations A and B are handy radio stations. Next, station C is a mobile radio station S, station D is a mobile radio station M, and station E is a mobile radio station H according to transmission power. For the fixed wireless stations, the F station is the fixed wireless station S, the G station is the fixed wireless station M, and the H station is the fixed wireless station H according to the transmission power.
It is. Taking the mobile radio station E as an example, the transmission power information between the stations A and B of the handy radio station is "042", so the transmission power data is LOW.
1 and 2 and 5W transmission in Table 1. Since the numerical value of the transmission power information is set to “045” between the mobile radio station and the fixed radio station, MIDL
E and 10W. Table 1 shows a combination of the transmission power type for each radio station type and the transmission power type for the radio station type for reference. In the transmission power classification, the number of stations other than the handy radio station is small, but it is not impossible to classify into six classifications like the handy radio station in the future. According to the present invention, even in communication between wireless stations having different transmission maximum powers, it is possible for each wireless station to communicate with an appropriate transmission power. For this purpose, a transmission power control code is added between the communicating stations, and the radio station type code of the own station and the transmission power for selecting and transmitting one of a plurality of stages classified from the maximum transmission power to the economy transmission power. By transmitting the information as transmission power information, the control unit calculates the optimum transmission power including the received signal level. Also, by transmitting this transmission power as transmission power information, there is an advantage that the transmission level between the communication stations can be optimized, and communication can be performed without disturbing other stations using the same frequency.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a flowchart of transmission and reception of transmission power information according to the present invention. FIG. 2 is a block diagram of a wireless communication device for a transmission output control system according to the present invention. FIG. 3 is a reference diagram showing a combination of a radio station type and transmission power, showing one embodiment of a transmission output control method according to the present invention. [Description of Signs] 1 antenna 2 transmitting unit 3 receiving unit 4 display unit 5 DTMF receiver / generator 6 control unit 7 memory 8 AF unit 9 speaker 10 microphone amplifier 11 microphone

Claims (1)

(57) [Claims] [Claim 1] Fixed to handy and mobile radio stations
Transmission output <br/> control the Oite wireless communication capable radios with the radio station, or a pager communication or transmission power information by the control code
Selection means and radio station type that coded the type of radio station
Separate codes and transmission power are divided into multiple stages and numbered
Means for classifying the transmission power by performing
Select the control code of
And the transmission power number to be set,
A transmitting side for organizing, converting to a DTMF signal and transmitting
In the bear bearer, the pager communication is performed from the received and detected DTMF signal.
Discriminate between transmission and transmission power information and detect transmission power information
Then, the calculated transmission power information and reception level are calculated.
To set the transmission power number of your own
A transmission output control method characterized by organizing and transmitting .