KR100976814B1 - a wireless transmitter using solar battery - Google Patents

Abstract

The present invention relates to a wireless repeater using a solar cell,

The wireless repeater using a conventional solar cell has a constant output power of the forward amplification unit 30 'regardless of the presence or absence of a signal from the mobile station, and power is always supplied to the reverse amplification unit 40'. There was a problem such that the capacity of the solar cell 11 'and the storage battery 13' of the solar power generation unit 10 'is relatively large,

A forward output controller configured to control amplification and gain of a signal input from the first antenna; A forward amplifier configured to amplify a forward output controller signal, wherein the backward amplification unit is configured to low noise amplify the signal received from the second antenna; A reverse amplifier for amplifying the reverse preamplifier output; A reverse input level detector for detecting the output of the reverse preamplifier; Switch to cut off the power supplied to the reverse amplifier by the control of the supervisory control unit; configured to cut the power consumption of the reverse amplifier when there is no reverse signal and to control the forward output to lower the power consumption According to the present invention, when there is no reverse signal, the operation of the reverse amplifier is stopped and the output of the forward amplifier is reduced, thereby reducing power consumption and reducing the capacity of the solar cell and the battery. It becomes possible to make a repeater compact.

Wireless repeater, solar cell, forward amplifier, reverse amplifier, monitoring controller

Description

Wireless repeater using solar cell {a wireless transmitter using solar battery}

The present invention relates to a wireless repeater using a solar cell, and more particularly, to operate the reverse amplifier only when a reverse input is received, and at the same time to reduce the power output by lowering the forward output to reduce power consumption of the repeater to save power as well as wireless It is about making it possible to extend the life of the repeater.

Conventionally, diesel power generation and large-scale solar power generation had to be performed in order to establish a wireless relay station in a shaded area such as a mountain area, a plain area, a desert area, etc., which are difficult to accommodate commercial power.

1 is a block diagram showing the configuration of a wireless repeater using a conventional solar cell.

As shown in FIG. 1, a wireless repeater using a conventional solar cell includes a solar power generation unit 10 ′ that generates and charges electricity using sunlight. An antenna unit 20 'for transmitting and receiving radio signals of the base station and the mobile station; A forward amplifier 30 'for amplifying the forward signal; A reverse amplifier 40 'for amplifying the reverse signal; And a monitoring control unit 50 'for monitoring and controlling the solar power generation unit 10', the forward amplifying unit 30 ', and the reverse amplifying unit 40'.

In the wireless repeater using the conventional solar cell, the solar power generation unit 10 'is to convert sunlight into electrical energy and convert it into a voltage required by the wireless repeater. The solar cell 11' converts sunlight into an electrical signal. )Wow; A power supply and charger 12 'for converting an electrical signal into a voltage required by a charging and wireless repeater; It consists of a storage battery (13 ') for storing electricity in the absence of sunlight.

In the conventional wireless repeater using a solar cell, the antenna unit 20 'is for transmitting and receiving radio signals with a base station and a mobile station, and a first antenna 21' for transmitting and receiving a radio signal with a base station; And a second antenna 22 'for transmitting and receiving a radio signal with the mobile station.

In the conventional wireless repeater using a solar cell, the forward amplifier 30 'is for amplifying a signal input from the first antenna 21' and adjusting gain.

In the conventional wireless repeater using a solar cell, the reverse amplification unit 40 'is for amplifying a reverse radio signal received through the second antenna 22' and adjusting gain.

In the wireless repeater using the conventional solar cell, the monitoring control unit 50 'monitors and controls the forward amplifier 30', the reverse amplifier 40 ', and the power and charger unit 12'. It is for.

The solar generator 10 ′ of the wireless repeater using the conventional general solar cell configured as described above primarily converts electricity generated from the solar cell 11 ′, which converts sunlight into an electrical signal, from a power source and a charger 12 ′. It is stabilized and stored in the battery 13 ', and the electricity stored in the battery 13' is converted into a voltage required by the repeater through a voltage conversion circuit and supplied to each part of the repeater.

In addition, referring to the radio signal link of the wireless repeater, first, the radio signal transmitted from the base station is received by the first antenna 21 'is controlled and amplified through the forward amplifier 30', and the amplified forward signal is the second antenna. Is sent to the mobile station via 22 '.

The wireless signal transmitted from the mobile station is received by the second antenna 22 ', controlled and amplified by the reverse amplifier 40', and then transmitted to the base station through the first antenna 21 '. The controller 50 'monitors and controls the forward amplifier 30', the reverse amplifier 40 ', the power supply and the charger 12'.

The wireless repeater using the conventional solar cell allows the relay station to be built in an area where commercial power is not available, but the output of the forward amplifier 30 'becomes constant regardless of the presence or absence of a signal from the mobile station. Since the power is always supplied to the 40 ', there is a problem in that the amount of power consumption is increased, so that the capacity of the solar cell 11' and the storage battery 13 'of the solar power generation unit 10' becomes relatively large. There was a problem.

In addition, since the current always flows in the forward amplification unit 30 'and the reverse amplification unit 40', the amount of heat is increased, thereby reducing the life of the repeater.

The present invention has been made in view of the problems of the conventional wireless repeater using a solar cell as described above, and its purpose is to reduce the amount of power consumption by stopping the operation of the reverse amplifier and reducing the output of the forward amplifier when there is no reverse signal. Of course, to provide a wireless repeater using a solar cell that can reduce the capacity of the solar cell and storage battery.

In addition, another object of the present invention is to provide a wireless repeater using a solar cell that can reduce the amount of heat generated to extend the life of the repeater, as well as to configure the repeater more compact.

Wireless repeater using a solar cell of the present invention for achieving the above object includes a forward output controller for controlling the amplification and gain of the signal received from the first amplifying antenna; A forward amplifier configured to amplify a forward output controller signal, wherein the backward amplification unit is configured to low noise amplify the signal received from the second antenna; A reverse amplifier for amplifying the reverse preamplifier output; A reverse input level detector for detecting the output of the reverse preamplifier; Switch to cut off the power supplied to the reverse amplifier by the control of the supervisory control unit; configured to reduce the power consumption by cutting off the power of the reverse amplifier in the absence of the reverse signal and by controlling the forward output to lower .

The wireless repeater using the solar cell of the present invention is a solar cell converting sunlight into an electrical signal and a power and charger for converting the electrical signal into a voltage required by the charging and wireless repeater, and in case there is no sunlight A solar power generation unit having a storage battery configured to store and generate electricity by using sunlight; An antenna unit having a first antenna for transmitting and receiving a radio signal with a base station and a second antenna for transmitting and receiving a radio signal with a mobile station; A forward amplifier for amplifying the forward signal; A reverse amplifier for amplifying the reverse signal; In the configuration of a wireless repeater using a solar cell consisting of a monitoring control unit for monitoring and controlling the solar power generation unit, the forward amplification unit, the reverse amplification unit, the forward amplification unit for controlling the amplification and gain of the signal input from the first antenna An output controller; A forward amplifier configured to amplify a forward output controller signal, wherein the backward amplification unit is configured to low noise amplify the signal received from the second antenna; A reverse amplifier for amplifying the reverse preamplifier output; A reverse input level detector for detecting the output of the reverse preamplifier; The switch cuts off the power supplied to the reverse amplifier by the control of the monitoring control unit.

In the present invention, the power of the reverse amplifier and the gain of the forward amplifier are controlled using the signals of the reverse input level detector of the reverse amplifier to reduce power consumption.

In addition, in the present invention, if the power supply and the charger inside the solar power generation unit is placed in the instrument enclosure of the wireless, and using the output voltage of the power supply and charger directly as a power source for each module of the wireless repeater, the components can be simplified as well. The cost can be reduced.

According to the present invention, when there is no reverse signal, the operation of the reverse amplifier is stopped and the output of the forward amplifier is reduced, thereby reducing power consumption and reducing the capacity of the solar cell and the battery. It becomes possible to make a repeater compact.

In addition, according to the present invention it is possible to obtain the effect, such as to more easily establish a wireless relay station in a region without commercial power.

Hereinafter, the specific technical details of the present invention will be described in more detail with reference to the accompanying drawings.

Figure 2 is a block diagram showing the configuration of a wireless repeater using a solar cell of the present invention.

As shown in FIG. 2, the wireless repeater using the solar cell of the present invention also has a solar power generation unit 10 for generating and charging electricity using sunlight, similar to the conventional wireless repeater of FIG. 1; An antenna unit 20 for transmitting and receiving radio signals of the base station and the mobile station; A forward amplifier 30 for amplifying the forward signal; A reverse amplifier 40 for amplifying the reverse signal; Surveillance control unit 50 for monitoring and controlling the solar power generation unit 10, the forward amplification unit 30, the reverse amplification unit 40;

In the wireless repeater using the solar cell of the present invention, the solar power generation unit 10 converts solar light into electrical energy required by a wireless repeater, and converts solar light into an electrical signal 11. Wow; A power supply and charger 12 for converting an electrical signal into a voltage required by a charging and wireless repeater; It consists of a storage battery 13 for storing electricity in the absence of sunlight.

The antenna unit 20 is for transmitting and receiving radio signals with a base station and a mobile station, and a first antenna 21 for transmitting and receiving a radio signal with a base station; And a second antenna 22 for transmitting and receiving radio signals with the mobile station.

The forward amplifier 30 is for amplifying the signal input from the first antenna 21 and adjusting the gain. The forward output controller controls the amplification and gain of the signal input from the first antenna 21 ( 31); And a forward amplifier 32 for amplifying the forward output controller signal.

The reverse amplification unit 40 is for amplifying the reverse radio signal received through the second antenna 22 and adjusting the gain. The reverse preamplifier for low noise amplifying the signal received from the second antenna 22. (41); A reverse amplifier 42 for amplifying the reverse preamplifier output; A reverse input level detector 43 for detecting the output of the reverse preamplifier 41; The switch 44 to cut off the power supplied to the reverse amplifier 42 by the control of the monitoring control unit 50;

The monitoring control unit 50 is for monitoring and controlling the forward amplifying unit 30, the reverse amplifying unit 40, the power supply and the charger 12.

The present invention reduces the power consumption by controlling the gain of the reverse amplifier 42 and the gain of the forward amplifier 32 using the signals of the reverse input level detector 43 of the reverse amplifier 40.

In the present invention, when the power supply and the charger 12 inside the solar power generation unit 10 are disposed in the wireless repeater housing and the output voltage of the power supply and the charger 12 is directly used as the power of each module of the wireless repeater, It can be simplified.

In the wireless repeater effectively using the solar cell of the present invention configured as described above, the solar power generation unit 10 stabilizes electricity generated from the solar cell 11 that converts sunlight into an electrical signal in the power source and the charger 12. The battery 13 is stored in the storage battery 13, and the electricity stored in the storage battery 13 is converted into a voltage required by the repeater through a voltage conversion circuit and supplied to each part of the repeater.

In addition, referring to the radio signal link of the radio repeater, first, the radio signal transmitted from the base station is received by the first antenna 21 and amplified and gain-controlled by the forward output controller 31 to an appropriate size, and then the forward amplifier 32. Amplified, and the amplified forward signal is transmitted to the mobile station through the second antenna (22).

The radio signal transmitted from the mobile station is received by the second antenna 22, low noise amplified by the reverse preamplifier 41, amplified by the reverse amplifier 42, and then to the base station through the first antenna 21. Is sent.

Meanwhile, in the present invention, a part of the output of the reverse preamplifier 41 is detected by the reverse input level detector 43 and then sent to the supervisory control unit 50, and the supervisory control unit 50 switches when the reverse input level is absent. 44) and the gain of the forward output controller 31 is controlled to cut off the power supply of the reverse amplifier 42 and to reduce the power consumption by reducing the forward output (e.g., 3 to 5 dB).

When the reverse input is applied in this state, the monitoring controller 50 controls the gains of the switch 44 and the forward output controller 31 to supply power to the reverse amplifier 42 and restore the forward output to normal.

The present invention described above is not limited to the above-described embodiments and drawings, and various permutations, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be apparent to those who have

1 is a block diagram showing the configuration of a wireless repeater using a conventional solar cell

Figure 2 is a block diagram showing the configuration of a wireless repeater using a solar cell of the present invention

<Explanation of Signs of Major Parts of Drawings>

10: Solar power generation department

11: solar cell

12: power and charger

13: storage battery

20: antenna unit

21: first antenna

22: second antenna

30: forward amplifier

31: forward output controller

32: forward amplifier

40: reverse amplification unit

41: reverse preamplifier

42: reverse amplifier

43: reverse input level detector

44: switch

50: supervisory control unit

Claims (3)

It is equipped with a solar cell that converts sunlight into an electric signal, a power and charger that converts an electric signal into a voltage required by a charging and wireless repeater, and a storage battery that stores electricity in the absence of sunlight. A solar power generation unit generating and charging electricity by using; An antenna unit having a first antenna for transmitting and receiving a radio signal with a base station and a second antenna for transmitting and receiving a radio signal with a mobile station; A forward amplifier for amplifying the forward signal; A reverse amplifier for amplifying the reverse signal; In the configuration of a wireless repeater using a solar cell comprising a monitoring control unit for monitoring and controlling the solar power generation unit, the forward amplification unit, the reverse amplification unit, A forward output controller configured to control amplification and gain of the signal input from the first antenna; A forward amplifier for amplifying the forward output controller signal; A reverse preamplifier for low noise amplifying the signal received from the second antenna; A reverse amplifier for amplifying the reverse preamplifier output; A reverse input level detector for detecting the output of the reverse preamplifier; A wireless repeater using a solar cell, characterized in that the switch; cut off the power supplied to the reverse amplifier by the control of the monitoring control unit. The wireless repeater of claim 1, wherein the power consumption of the reverse amplifier and the gain of the forward amplifier are controlled by using signals of the reverse input level detector of the reverse amplifier to reduce power consumption. The wireless repeater of claim 1, wherein a power source and a charger inside the solar generator are disposed in a wireless repeater housing, and an output voltage of the power source and the charger is directly used as a power source for each module of the wireless repeater. .

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