KR100725237B1 - Mobile communication system of elevator using cctv cable - Google Patents

Abstract

A mobile communication transceiving system inside an elevator is provided to install an RF(Radio Frequency) transceiver by using a CCTV cable equipped within an elevator of a building, thereby improving a mobile communication service as obtaining an emergency communication unit of the elevator. An RF relay system(100) includes a donor in-building optical distributor(120) which transmits a mobile communication RF signal through an optical cable(30) in a building equipped with an elevator. An underground service system(200) consists of a remote in-building distributor(210) for receiving the RF signal, a baseband converter(240) for converting the RF signal into a baseband signal, and an impedance matcher(250) for reducing matching loss of the baseband signal when the RF signal is transmitted by a CCTV cable(60a). An elevator internal system(300) consists of a distributor(310) for distributing the baseband signal, an RF converter(320) for converting(restoring) the distributed baseband signal into(to) the RF signal, and an elevator antenna(330) for transceiving a mobile communication signal inside the elevator.

Description

Mobile communication system of elevator using CCTV cable {Mobile communication system of elevator using CCTV cable}

1 is a schematic configuration diagram of an embodiment of a mobile communication transmitting and receiving system in an elevator using a CCTV cable of the present invention.

2 is a schematic diagram of another embodiment of a mobile communication transmitting and receiving system in an elevator using a CCTV cable of the present invention.

<Description of Major Symbols in Drawing>

100, 500: RF relay system 200: underground service system

300, 700: Elevator internal system 400, 800: CCTV monitoring system

110, 510: BTS local 120: donor in-building light scattering device

210: remote in-building disperser 220: coupler

230: underground antenna 240, 520: baseband converter

250, 600: impedance matcher 310, 710: divider

320, 720: Remote RF converter 330, 730: Elevator antenna

410, 810: BPF 420, 820: CCTV Modem

430, 830: CCTV Monitor

10: RF signal 20: clock signal

30: optical cable 40: baseband signal

50: power supply 60a, 60b: CCTV cable

The present invention relates to a mobile communication transmission and reception system for improving the transmission and reception quality of a mobile communication terminal in an elevator of a building. More specifically, the present invention relates to a transmission / reception system of a mobile communication system that improves a mobile communication service and secures an emergency communication means of an elevator by installing an RF transceiver using a CCTV cable installed in an elevator of a building.

Due to the location and structure of the elevator in the building, there are many problems in the transmission and reception of mobile communication smoothly, and current laws do not allow installation of facilities that are not related to additional elevator operation. There may be an alternative to the installation of an RF repeater, but it is legally regulated, and as another method, it is possible to install a facility to radiate radio waves in front of the elevator, but this is expensive.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a mobile communication transmission and reception system for transmitting and receiving mobile communication radio waves in an elevator installed inside a building.

As a technical idea for achieving the object of the present invention, the present invention provides an RF relay system including a donor in-building optical dispersion device for transmitting a mobile communication RF signal through an optical cable in a building in which an elevator is installed; The remote in-building dispersing device installed in the building for receiving the RF signal transmitted from the donor in building light scattering device, the baseband converter for converting the received RF signal into a baseband signal, and the CCTV cable to convert the RF signal An underground service system including an impedance matcher for reducing matching loss of baseband signals when transmitting; Transmitting / receiving a baseband signal received by the CCTV cable from the impedance matcher, an RF converter for converting (restore) the baseband signal branched from the distributor into an RF signal, and transmitting and receiving mobile communication signals in an elevator. An elevator internal mobile communication system using an CCTV cable including an elevator internal system including an elevator antenna is provided.

Meanwhile, the video signal captured by the surveillance camera inside the elevator is transmitted to the CCTV cable via the impedance matching device of the underground service system, and the band suppression filter, CCTV modem and CCTV monitor to solve the effect of the transmitted surveillance camera image. In addition, the present invention proposes a mobile communication transmission / reception system inside an elevator using a CCTV cable capable of monitoring a normal surveillance camera photographing video signal without the influence of a mobile communication signal.

In this way, by transmitting and receiving mobile communication RF signals by using the existing CCTV cable, improve the mobile phone service regardless of the legal regulations in the elevator with a lot of mobile phone radio wave attenuation, and high-quality emergency communication means in the elevator Can be provided.

Hereinafter, with reference to the accompanying drawings for the configuration and operation of the invention for the embodiment of the present invention will be described in detail.

1 is a schematic configuration diagram of a mobile communication transmission and reception system in an elevator using a CCTV cable according to an embodiment of the present invention.

As shown in FIG. 1, the present invention provides a donor in-building optical dispersing device for transmitting a mobile communication RF signal 10 through an optical cable 30 in an outside of a building in which an elevator is installed. An RF relay system 100 including 120;

A remote in-building dispersing device 210 installed in a building for receiving an RF signal transmitted from the donor in building light dispersing device 120, and a coupler for radiating or receiving the received RF signal. An underground antenna 230 installed through the 220, a baseband converter 240 for converting the received RF signal into a baseband signal, a baseband signal 40, a clock signal 20 and a power source ( An underground service system 200 including an impedance matcher 250 for reducing the matching loss when receiving 50) and transmitting it into the elevator through the CCTV cable 60a;

Splitter 310 for branching the baseband signal 40 transmitted through the CCTV cable 60a from the impedance matcher 250 and baseband signal 40 branched from the splitter 310 are mobile communication. Inside the elevator including an RF converter 320 for restoring the RF signal 10 for the purpose, and an elevator antenna 330 for radiating the restored RF signal 10 in the elevator and receiving a signal from the mobile communication terminal. System 300;

Meanwhile, the video signal photographed by the surveillance camera inside the elevator is transmitted to the CCTV cable 60a via the impedance matcher 250 of the underground service system and moved to the surveillance camera video signal received through the CCTV cable 60b. Band pass filter (BPF) 410 for minimizing the effects of influx of communication signals, CCTV modem 420 and CCTV monitor for receiving A / D conversion of the video signal filtered by the BPF 410 It comprises a CCTV monitoring system 400 comprising a (430).

The donor in building light scattering device 120 receives an 800 MHz RF signal 10 and a clock signal 20 transmitted from the BTS local 110, and is a device that is easily scalable to improve the internal quality of the in building. . The donor in building light scattering device 120 is a remote in building light scattering device 210 is installed in the interior (basement) of the RF signal 10 and clock signal 20 of the 800MHz through the optical cable 30 The RF signal 10 and the clock signal 20 received from the remote building distributed device 210 are transmitted to the baseband converter 240. The RF signal 10 transmitted from the remote in-building spreader 210 is output through the underground antenna 230 through the coupler 220. The baseband converter 240 is for converting the 800MHz RF signal 10 to 64MHz baseband signal 40 in order to reduce the loss caused when the RF signal 10 is carried on the CCTV cable.

In order to reduce the forward loss in the CCTV cable 60a of the baseband signal 40, 50Ω and 75Ω are matched in the impedance matcher 250.

In this case, impedance matching means that when the two circuits are connected to each other, the maximum impedance can be transmitted by adjusting the apparent impedance of the two circuits seen at the connection point.

In other words, if the impedance matching is not well performed, power cannot be properly transmitted, and thus power loss occurs, so the impedance matching serves as an important factor especially in a circuit for transmitting power.

The impedance-matched (50Ω → 75Ω) baseband signal 40 is transmitted to the distributor 310 inside the elevator through the CCTV cable 60a, and the baseband signal 40 branched from the distributor 310 is received. It is output through the elevator antenna 330 via a remote RF converter 320 for receiving and restoring the 800 MHz RF signal 10, which is a mobile communication signal.

In order to separate the video signal transmitted from the surveillance camera inside the elevator to the CCTV monitor 430 and the baseband signal 40 may be input to the CCTV cable (60a) through a coupler.

By doing so, it is possible to smoothly radiate a high-quality RF signal inside the elevator or to receive a signal from a mobile communication terminal inside the elevator by using an existing CCTV cable for elevator surveillance camera.

On the other hand, since the CCTV monitoring system 400 may affect the image due to the baseband signal 40 of the mobile communication, the video signal taken from the surveillance camera inside the elevator CCTV cable (60a) and CCTV Since it is transmitted through the cable (60b), the noise band (RF signal of the inverse mobile communication 800MHz) is filtered by the BPF (410) is received by the CCTV modem 420 and transmitted to the CCTV monitor 430 By using the CCTV cables 60a and 60b, an image which is not affected by the baseband signal of the mobile communication transmitted can be displayed on the CCTV monitor 430.

2 is a schematic system diagram of another embodiment of a mobile communication transmission and reception system using a CCTV cable of the present invention.

The above-described embodiment of FIG. 1 is an invention for improving elevator quality in a state where an underground service system such as an underground parking lot is interposed, but the embodiment shown in FIG. 2 is a state in which an underground service system is not interposed, that is, general movement. The invention using the communication system is shown.

As shown in FIG. 2, a donor baseband converter for receiving the RF signal 10 and the clock signal 20 transmitted from the BTS 510 and converting the RF signal 10 into a baseband signal 40. A mobile communication system 500 including 520;

When receiving the baseband signal 40, the clock signal 20 and the power source 50 transmitted from the donor baseband converter 520 of the mobile communication system 500 and transmits the inside of the elevator through the CCTV cable 60a An impedance matcher 600 for reducing matching loss;

Splitter 710 for branching the baseband signal 40 transmitted through the CCTV cable 60a from the impedance matcher 600, and baseband signal 40 branched from the splitter 710 in mobile communication. An elevator comprising a remote RF converter 720 for restoring the RF signal 10 for the purpose, and an elevator antenna 730 for radiating the restored RF signal 10 in the elevator and receiving a signal from the mobile communication terminal. An internal system 700;

The video signal captured by the surveillance camera inside the elevator is transmitted to the CCTV cable 60a via the impedance matcher 250 of the underground service system, and the mobile communication is performed to the surveillance camera video signal received through the CCTV cable 60b. Band pass filter (BPF) 810 for minimizing the effects of the reverse flow of the signal, CCTV modem 820 and CCTV monitor for receiving and A / D conversion of the video signal filtered by the BPF (810) ( And a CCTV monitoring system 800 including 830.

Operation of the embodiment of FIG. 2, that is, the functions of the baseband converter 520 and the impedance matcher 600 are the same as those of the embodiment of FIG. 1.

1 and 2, the power source 50 provided from the baseband converters 240 and 520 to the impedance matchers 250 and 600 is a DC power source. It is a power source for operation 720.

According to the present invention, by using the facilities required for the operation of the existing elevator, no additional facility construction is required, and the electric supply for RF signal transmission and reception, which is impossible at all when not shared with the elevator electricity, can be supplied from the outside, and CCTV cable loss problem. Cope with RF by converting to baseband, and the effect of CCTV surveillance is eliminated by using band suppression filter, and additional impedance matching device can reduce the loss value of forward baseband signal. There is an effect that can improve the mobile communication quality inside the elevator, and can provide a communication means inside the elevator in an emergency.

Claims (6)

An RF relay system including a donor in-building light scattering device for transmitting a mobile communication RF signal through an optical cable in a building in which an elevator is installed; A remote in-building disperser for receiving the RF signal transmitted from the donor in-building light scattering device, a baseband converter for converting the received RF signal into a baseband signal, and a baseband when transmitting the RF signal with a CCTV cable An underground service system including an impedance matcher for reducing matching loss of a signal; Transmitting / receiving a baseband signal received by the CCTV cable from the impedance matcher, an RF converter for converting (restore) the baseband signal branched from the distributor into an RF signal, and transmitting and receiving mobile communication signals in an elevator. Elevator internal mobile communication system using a CCTV cable, including an elevator internal system including an elevator antenna for. A mobile communication system including a baseband converter for receiving an RF signal transmitted from a BTS and converting the RF signal into a baseband signal; An impedance matching unit for reducing the matching loss of the baseband signal when receiving the baseband signal transmitted from the baseband converter of the mobile communication system and transmitting the inside of the elevator via a CCTV cable; A splitter for branching the baseband signal transmitted through the CCTV cable from the impedance matcher, a remote RF converter for converting (restore) the baseband signal branched from the splitter into an RF signal for mobile communication, and the restoration An elevator internal mobile communication system using a CCTV cable comprising an elevator system including an antenna for radiating the received RF signal in the elevator and receiving a signal from the mobile communication terminal. The method according to claim 1 or 2, The video signal captured by the surveillance camera inside the elevator is transmitted to the CCTV cable via the impedance matcher, and the BPF (Band) for minimizing the effect of the reverse inflow of the mobile communication signal to the surveillance camera video signal received through the CCTV cable. Pass filter) and a CCTV communication system inside the elevator using a CCTV cable further comprises a CCTV monitoring system including a CCTV modem and a CCTV monitor for receiving and filtering the video signal filtered by the BPF. The method according to claim 1 or 2, The baseband converter converts a mobile communication RF signal of 800MHz into a baseband signal of 64MHz, mobile communication transmitting and receiving system in the elevator using a CCTV cable. The method according to claim 1 or 2, The impedance matching device is an elevator internal mobile communication system using a CCTV cable, characterized in that matching 50Ω → 75Ω in order to reduce the loss of the CCTV cable of the baseband signal. The method according to claim 1 or 2, The RF converter is an elevator internal mobile communication system using a CCTV cable, characterized in that driven by the power provided through the CCTV cable.

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