KR20010092919A - Combine controller of High Power Transmitter - Receiver and Control Method Thereof - Google Patents

Abstract

PURPOSE: A high output combining system and method for controlling operation of such system is provided to minimize manufacturing cost by using minimized number of exciters and power amplifiers and allowing power to be transmitted in an efficient manner through antennas. CONSTITUTION: A combining system comprises a signal source(1) for generating a transmitting signal; an exciter(2) for receiving the signal from the signal source and modulating and amplifying the received signal into a predetermined size; a power amplifying unit(3) for amplifying the signal modulated by the exciter; a dummy load(4) and a combiner(5) provided with the signal amplified by the power amplifying unit; antennas(6,7) for receiving output from the combiner and radiating radio wave; a key pad(8) for operating antennas; a display(9) for displaying operation state of the key pad; a signal detector(10) connected between the signal source and the exciter, and which determines whether each channel generates a signal; an input signal path selector(11) for connecting the selected signal to the exciter; an RF driver path selector(12) connected between the exciter and the power amplifying unit, and which controls the power amplifying unit so as to improve operation efficiency of the combiner; a plurality of pickup units(13) for sensing the output state of the power amplifying unit; a switch(14) for feeding high frequency power selectively to the dummy load or the combiner; and an integrated control unit(15) for receiving signals from each unit and transmitting control signals to each unit.

Description

Combination controller of High Power Transmitter-Receiver and Control Method Thereof}

The present invention relates to a large output combine system and a control method thereof, which enable efficient operation of a base station operating a plurality of high power transmitters, and in particular, a minimized number of exciters with reference to the operation of each channel ( The present invention relates to a large output combine system and a method of controlling the same, which effectively utilize an exitor and an power amplifier.

As is well known, transmission stations operating multiple communication transmitters generally have the same number of equipments and antennas as input lines for each network and operate in a 1: 1: 1 response. .

According to this operation method, in operation of a transmission station operating a plurality of transmitters, an operation network, an antenna, and a feeder line corresponding to a plurality of equipments should be installed, and since there is a lot of wasteful elements, it is necessary to secure corresponding sites. .

Therefore, in recent years, it is operated in a form that can be transmitted to one transmission antenna by using a combiner. However, this also means that the number of transmission antennas is set to one. Exciter or power amplifier is separately installed for each channel. It is difficult to find a significant improvement in the installation cost or footprint, and it is also a problem that the power loss in the combiner is large and the efficiency is low. Therefore, each channel is transmitted by an independent separate transmission antenna. There are many cases where conventional methods are used.

SUMMARY OF THE INVENTION In view of the above-mentioned problems, an object of the present invention is to provide a large output combine system and a control method using a minimized number of exciters and power amplifiers so that the power can be efficiently transmitted through an antenna. have.

1 is a block diagram of an entire system according to the present invention;

2 is a detailed circuit diagram of a detector for detecting an output signal.

3 is a high-frequency power amplifier block diagram.

4 is a high frequency power amplifier output distribution pattern diagram;

5A, 5B, and 5C are flowcharts for explaining the control method according to the present invention;

6 is an exemplary diagram of a combiner and a peripheral configuration.

* Explanation of symbols for the main parts of the drawings

1: signal source 2: exciter

3: power amplifier 4: pseudo load

5: combiner 6,7: antenna

8: Keypad 9: Indicator

10: signal detection unit 11: ISPS

12: RDPS 13: Pickup

14: cockswitch 15: integrated control unit

In order to achieve the above object, the present invention provides a signal source (1) for generating a transmission signal, an exciter (2) for receiving and modulating a signal of the signal source (1) and amplifying the signal to an appropriate magnitude, and the exciter ( A power amplifier 3 for amplifying the signal modulated in 2) with an appropriate force, and a dummy load 4 or combiner 5 to which the signal amplified by the power amplifier 3 is supplied; And an antenna (6,7) for radiating radio waves by receiving the output of the combiner (5), a keypad (8) for manipulating their operation, and an indicator (9) for indicating the operation state. In that of

A signal detector 10 for determining whether a signal of each channel is generated between the signal source 1 and the exciter 2 and an ISPS 11 for connecting the selected signal to the exciter 2 (Input Signal) RDPS 12 (RF Driver Path) connected between the exciter 2 and the power amplifier 3 to control the power amplifier 3 to improve the efficiency of the combiner 5. Selector, a plurality of pickups 13 for sensing the output state of the power amplifier 3, and a commercial switch for selectively supplying high frequency power to the pseudo load 4 or the combiner 5 ( 14) and an integrated control unit 15 for receiving signals from the elements and transmitting control signals.

The overall operation of the present invention as described above will be described with reference to the control method shown in FIG.

In the present invention, the system initialization operation is performed by the CPU of the integrated control unit 15 when the power is initially applied. In this case, the operator operates the keypad 8 to transmit power, modulation type, carrier frequency, and propagation type for each channel. Enter various conditions (Step 1).

Subsequently, when the operation start button of the keypad 8 is operated, the signal or data of the signal source 1 is detected by the detector 10 before being applied to the exciter 2 and modulated and amplified. (Step 2)

When the input signal of -20 to 0 [Hz] is detected, the signal is transmitted to the CPU of the integrated control unit 15 at the TTL level, and the signal determines the exciter 2 to be used by the CPU. Is indicated by the indicator 9 (steps 3 and 4).

In addition, the integrated controller 15 determines the power amplifier 3 (step 5), and accordingly, the ISPS 11 and the RDPS 12 are selected, so that the output distribution pattern of the power amplifier 3 is varied according to the number of line inputs. It is decided.

In more detail, the signal of the signal source 1 is output through the low pass filter, the non-inverting amplification and the buffer for each channel of the detector 10, and the variable resistor in order to adjust the input level to the detector 10. Since the signal source 1 of each channel is provided, the signal is smoothed and amplified to an appropriate level. The signal output in this way is converted into a digital value via the A / D converter of the integrated control unit 15 so that the CPU of the integrated control unit 15 recognizes the input status of each channel (step 1).

That is, in the present invention, the ISPS 11 is controlled by referring to the presence or absence of a signal for each channel recognized by the integrated controller 15 so as to be connected to the exciter 2. In this case, the exciter 2 connected to each signal source 1 has a frequency, a propagation type, an output level, a modulation type, and the like determined for each channel according to a state previously designated by the keypad 8 by the user. It can be adjusted appropriately (steps 2 and 3).

In addition, the signal of the signal source 1 modulated through the exciter 2 in this way is applied to the power amplifier 3, in the present invention, even when there is only one signal source 1 from which the signal is generated, By operating the entire part 3, the efficiency decrease caused by the conveyor is prevented. (Step 5)

That is, when power is supplied to any one of the terminals of the combiner 5, the power is distributed to the coils connected to the respective terminals of the combiner, and the high frequency power output through the antennas 6 and 7 is combined with the combiner ( In case of 8 terminals of 5), it is reduced to 1/8.

In order to prevent such inefficiency, in the present invention, uniform power is supplied to all terminals of the conveyor so that the supplied power is applied to the antennas 6 and 7 without loss.

To this end, when there are 8 coils of the combiner 5, the power supplied to each coil is 1/8 of the target power, and the integrated control unit 15 is such that 1/8 of the power is supplied from each power amplifier 3. ) Is applied to the power amplifier 3.

The specific connection state between the power amplifier 3 and the combiner 5 is shown in the figure.

In addition, the control of the power amplifier 3 is determined by the output distribution pattern set by the user by operating the keypad 8 'of the power amplifier 3 shown in FIG. For example, when the output is 1Kw, if the power amplifier 3 is composed of eight and the number of conbiners is eight, each power amplifier 3 outputs 125W. This output distribution pattern is shown in the left end of the pattern diagram as shown in FIG.

In order to control the power amplifier 3 in this manner, the power amplifier 3 according to the present invention is connected to an input terminal and connected to a driver 16 and a driver 16 for amplifying the applied signal to an optimum level. A plurality of amplifiers 17 for amplifying, a small output combiner 18 for combining the output of the amplifier 17, and a filter for minimizing interference by being connected to the small output combiner 18 The operation of the filter unit 19 and the amplifying unit 17 provided with a bias is controlled by a bias, and when the output controlled by the bias is output through the small output combiner 18 in consideration of the modulation frequency, etc. The PA controller 15 'is provided to allow the optimum filter to be selected and connected. The PA control unit 15 'is provided with three types of bits in one byte. That is, the operation determining decision bit, the level setting bit, and the selection bit related to the filter selection are the ones. If a signal of 1 byte is applied from the integrated control unit 15, the PA controller 15 'recognizes that it is in a normal reception state. ) Signal is transmitted to the integrated control unit 15.

In the present invention, when the transmission output is 2Kw, as shown in the second column from the left of the pattern of FIG. 5, the output of each power amplifier 3 is controlled to be 250W in the same manner as described above. Thus, 250W of power is uniformly applied to each coil of each of the combiners so that the total power of 2Kw is supplied to the antennas 6 and 7.

However, for example, in the case of 3 Kw, the equal load of the power supply may be difficult with the eight power amplifiers 3, which are already determined numbers, as described in the third column from the left of FIG. In this case, it is necessary to divide the two groups into four equal loads of 500W and the remaining four equal loads of 250W so that the sum of the powers applied to the conveyor is 3Kw.

In this manner, even in the case of 5Kw and 6Kw, as shown in the pattern diagram of FIG.

In this way, the present invention allows each of the power amplifiers 3 to participate together in the supply of the transmission power so that the power flowing through the combiner 5 coil can be equally burdened. The efficiency will be improved.

In addition, in the present invention, when the transmission power is different for each channel, the integrated control unit 15 controls the PA control unit of the power amplifier 3 by referring to the designated transmission power data of each channel. By controlling the amplification part of the combiner and designating a filter whose interference can be minimized according to the frequency among the plurality of filters, supplying power to the corresponding terminal of the combined combiner 5 of the combiner 5 In addition to improving transmission efficiency, the interference between outputs of each power amplifier 3 can be minimized to further improve efficiency.

In addition, in the present invention, various signals are applied to the input port of the integrated control unit 15 by the signal of the temperature sensor and the operation detection sensor of the heat radiating fan, which are generated when the power amplifier 3 is overheated as is known. If it is determined that the operation is stopped immediately, and the output of the power amplifier 3 is detected by the pickup 13 configured as a condenser, rectified and applied to the integrated control unit 15 by the power amplifier 3 Check for abnormal operation (Steps 6 and 7).

Further, as is well known, the cock switch 14 operates the keypad 8 of the integrated controller 15 so that the output of the power amplifier 3 is connected to the pseudo load 4 by the control of the integrated controller 15. Or to be selectively connected to the conveyor to perform an operation test or to transmit high frequency power to the antennas 6 and 7, and the output of the conveyor by the additionally installed cockswitch 14 is connected to the main antennas 6 and 7 or It can be selectively connected to the auxiliary antenna (6, 7).

In addition, when the user wants to change various data such as transmission power or radio wave type necessary for the operation by the user, the data is immediately corrected and the changed data is displayed by the indicator 9 (step 8 You will repeat this series of actions.

In the present invention, as described above, the operation of the other power amplifier 3 is started by checking whether the power amplifier 3 is abnormal and controlling the RDPS 12 when the power amplifier 3 is found to be abnormal. By doing so, the continuity of power transmission by the other power amplifier 3 can be maintained even when the power amplifier 3 fails, and the time required for this can be about 200 ms or less.

In addition, the line input for 200 ms is stored in the internal buffer of the exciter 2 and is automatically transmitted after completion of the RDPS 12 setting.

In addition, when the exciter 2 is broken, the integrated control unit 15 that detects an abnormality in the generated signal from the exciter 2 controls the ISPS 11 to select another exciter 2 to signal it. Change the path to another exciter (2). At this time, the required time is about 200㎳ or less.

In this way, the present invention is to be able to operate efficiently with the minimum number of exciter (2) and the power amplifier (3) according to the situation of the signal source (1) can minimize the cost of manufacturing equipment Of course, the ISPS (11) and the RDPS (12) utilizing the exciter (2) and the power amplifier (3) in the event of a failure to ensure the continuity of the power transmission by a fast switching operation to enable a stable operation.

In addition, the present invention is to control the power amplifier 3 so that the power amplifier (3) to generate the optimum output to the convener to exhibit the highest efficiency to minimize the power consumption to minimize the transmission station operating costs Will be

In particular, the present invention is that the power amplifier (3) and the optimum filter is connected to minimize the interference between the output forces applied to each terminal of the conveyor to improve the efficiency as well as to improve the transmission quality useful effects such as There is.

Claims (3)

A signal source 1 for generating a transmission signal, an exciter 2 for receiving and modulating a signal of the signal source 1, and amplifying the signal to an appropriate magnitude, and a signal modulated by the exciter 2 with an appropriate force; Power amplifier 3 for amplifying, a dummy load 4 or combiner 5 to which the signal amplified by the power amplifier 3 is supplied, and the output of the combiner 5 In the known one consisting of an antenna (6,7) for radiating radio waves, a keypad (8) for manipulating their operation, and an indicator (9) for indicating the operation state, A signal detector 10 for determining whether a signal of each channel is generated between the signal source 1 and the exciter 2 and an ISPS 11 for connecting the selected signal to the exciter 2 (Input Signal) RDPS 12 (RF Driver Path) connected between the exciter 2 and the power amplifier 3 to control the power amplifier 3 to improve the efficiency of the combiner 5. Selector, a plurality of pickups 13 for sensing the output state of the power amplifier 3, and a commercial switch for selectively supplying high frequency power to the pseudo load 4 or the combiner 5 ( 14) and an integrated control unit (15) for receiving signals from said elements and for transmitting control signals. The signal from the signal source 1 generating the transmission signal is modulated by the exciter 2, amplified to an appropriate magnitude by the power amplifier 3, and is a pseudo load 4 or a dummy load. In the known method of radiating radio waves through you 5 and antennas 6 and 7, The signal detection unit 10 detects the presence or absence of the signal of the signal source 1, and according to the result, the ISPS 11 (Input Signal Path Selector) connects the signal source 1 and the selected exciter 2, According to the output of the pickup 13 for detecting the output state of the power amplifier 3 by the RDPS 12 (RF Driver Path Selector) and the exciter 2 depending on whether there is an abnormality of the power amplifier 3. The output method of the high power combine system control method characterized in that the output can be delivered to the combiner (5) or pseudo load (4) through a specific power amplifier (3). The method of claim 2, The integrated control unit (15) designates a filter of the power amplifier (3) to minimize the interference between each channel characterized in that the high power combine system control method.