HU212356B - An one-wire remote controlled tv picture monitoring system and an one-wire remote selected safety sensing and alarm system - Google Patents

Abstract

The present invention is a single-wire, remote-controlled television image monitoring system and a single-wire, remote-controlled security sensor and alarm system comprising a central control and monitoring unit (A), a receiving and distribution unit (B), a camera and / or a sensor unit (C), optionally a duplex amplifier. (DE), and the image monitoring system is configured such that the output of the control signal decoder (DK1) to the mode switch (ÜV) input, one of the outputs of the mode switch (ÜV) to the drive stage (MH) and the other output of the mode switch (ÜV) is connected to a video switch (VK) input, and the drive stage (MH) output cameras (KI, K2, Kn) are connected to a remote input and the video signal outputs of the cameras (OFF, K2, Kn) are connected to the video switch (VK) video signal input, and the output of the video switch (VK) is connected to one of the inputs of the second aggregator (Ö2). EN 212 356 B Scope of the description: 8 pages (including 2 sheets)

Description

The security sensor and alarm system is characterized in that in the receiving and distribution unit (B) the output of the sensor signal decoder (KD3) is connected to the code input of the sensor switch (BC) and the other inputs of the sensor switch (BC) have sensors (Ed, E2, Me). connected, the output of the sensor switch (NE) is connected to the input of a modulating signal generator (MJ), the output of the modulating signal generator (MJ) is connected to the input of a sensing signal modulator (MD2) and the output of the sensor signal modulator (MD2) connected to the other input of the totalizer (Ö2) and the common input and output of the second totalizer (Ö2) directly or via a duplex amplifier (DE) incorporated in the transmission line (AV) in the central control and monitoring unit (A) is connected to the common I / O of the first summary (AA), its output is connected via a second intercarrier frequency filter (SZ3) to the input of a sensor signal demodulator (DM2), the output of the sensor signal demodulator (DM2) is connected to an input of an alarm signal (RK) and to the input of an alarm signal switch (RK) ), the outputs of the alarm signal are connected to the alarm signal display (RJ), and one of the inputs of the sensor signal encoder (KD2) is connected to the code switch (KK), the other input of the control signal encoder (KD1) and the sensor signal encoder (KD2) connected to the input of a decoder (DK2).

BACKGROUND OF THE INVENTION The present invention relates to a single-wire, remote-controlled television image monitoring system and to a single-wire, remote-selected security detection and alarm system.

It is known that security image surveillance, detection, and alarm systems often have to meet a variety of needs and purposes. Basically, these complex, complex systems can be divided into two parts. One part is the video system built with video surveillance cameras, representative video monitors, remote control and image storage units, and other auxiliary units for direct image surveillance. The other part consists of a system independent of the video system, built with heat, smoke, touch, acoustic, infrared and other sensors and alarms.

This second system can be a good complement to the video system, since all areas that can be controlled by direct image monitoring are not usually visible at the same time on the video monitors, but only the images corresponding to manual or programmed selection. This is especially true for large, large radial networks and so-called backbone networks lined up on a single line. The two security systems can be installed side by side, independently or separately. In case of joint deployment, it is advisable to establish complementary, auxiliary system technology connections.

Both systems are characterized by the fact that they are made up of units that are central and, in many cases, several kilometers from the center. In the case of a video system, the video signal from the television cameras is most often transmitted via a coaxial cable to the monitors in the control panel. These are called closed circuit television (CCTV) systems. Remote control of the camera and its surroundings - for example: changing optical characteristics, turning on / off, rotating the bogie - is done conventionally using a multi-core remote control cable. This is the case with the Multi Control System built with Panasonic's WV-7230B, WV-7435, WV7490B, which uses 7 or 13 control cable cables in addition to the coaxial cable.

Remote control cable installation is complicated and expensive systems. That's why remote wireless solutions have been developed.

In the videocordon system of Hiradástechnika Rt., Which is based on patent application HU 185 502, the remote control and / or remote control signals and data are arranged as digital signals in the picture extinguishing section of the video signal, in the range 6-21 and 318-333. all signals are routed through a coaxial cable. The solution requires the complete synchronization of the system units (genlock) and the use of a large number of logic circuits or unique device-oriented circuits in each unit for data input and output. The advantage of this solution is that it also provides bidirectional data transmission: thus, data from sensors independent of the video system are transmitted from the cameras to the control panel. Its disadvantages are the complex circuit design and its incompatibility with other CCTV units.

There is also a coaxial cable video and camera remote control signal transmission for video systems according to US 4,949,181 and US 4,954,886. Here, however, the remote control signals in the control panel modulate a carrier frequency higher than the video bandwidth, which signal is demodulated on the receiving side of the camera. The advantages of the solutions are simplicity and compatibility with different make units.

US 4,949,181 discloses the remote control of a plurality of cameras (n) from a single location, wherein each camera has a separate transmission line from the control panel, a separate amplifier per line, and electronics receiving a separate remote control signal for each camera: filter, demodulator , decoder, and operation control unit are required. Therefore, this arrangement is not technically and economically optimal in the very common case where television cameras are grouped together within a radius of 50-100 m and the control and monitoring center is distant from the cameras, 500-2000 m. is on. A further disadvantage of the system solution is that it does not provide reverse data transmission.

HU 212 356 Β

U.S. Pat. No. 4,954,886 discloses a remote control system in which a television camera can be controlled from multiple locations independently from a control panel. The present invention also does not provide remote control of a plurality of cameras on a single transmission line and reverse data transmission.

Burle Industries, Inc. (Security Product Division) is a microprocessor controlled TC85OO and TC85OOX named Allegiant and TC8700 and TC8700X Allegiant Π. , both the video and the sensor system are configured with the help of multi-core cables, which has the disadvantages mentioned above.

It is an object of the present invention to provide a simpler and more economical video system and a security system built with matching sensing and alarm devices while retaining the advantageous features of the prior art video-frequency remote control signal systems and transmitting to and from the control panel in both systems. on a common transmission line.

It has been discovered that the selection and remote control of grouped cameras on a transmission line can be simplified, more economically, by replacing the n number of receiving electronic units required for the n number of cameras with only one common receiving and distribution unit operating each camera.

It has also been discovered that the data received from the sensors of the security sensor and alarm system on the same transmission line for transmitting the video signal - between the receiving unit, the distribution unit and the central control unit - is opposite to the direction of the carrier frequency remote control signal of television image surveillance cameras. they can also be transmitted using a carrier frequency signal outside the video bandwidth.

The systematic design of a single-wire, remote-controlled television image monitoring system and a single-wire, remote-selected security sensor and alarm system also led to the important recognition that the carrier-frequency sensor signal of the security sensor and alarm system is intercarrier-frequency 5, e.g. optional, and the television image monitoring system carrier frequency remote control signal according to OIRT

It can be a 6.5 MHz signal or vice versa.

This choice of carrier frequencies allows the use of mass-produced ceramic bandpass filters in FM modulation.

Accordingly, the present invention relates, on the one hand, to a single-wire, remote-controlled television image monitoring system, and, on the other hand, to a single-wire, remote sensing security and alarm system. The systems include a central control and monitoring unit, a receiving and distribution unit, a camera or sensor unit, and optionally a duplex amplifier. In a one-wire, remote-controlled television image monitoring system, one of the outputs of the control signal encoder in the central control and monitoring unit is connected to the first summing input of a first interconnector frequency filter, one output of the first summing through a low pass filter, the summing input and output of the summing unit is connected via a transmission line directly or via a duplex amplifier included in the transmission line to the second summing output and input of the second summing unit in the receiving and distributing unit, the second summing output via the first intercarrier frequency filter to the demodulator input connected to the decoder input. The present invention relates to a single-wire, remote-controlled television image monitoring system, wherein the control signal decoder output is connected to a mode switch input, one output of the mode switch is connected to a drive stage input and the other mode output is connected to a video switch input, and the video signal outputs of the cameras are connected to the video signal video input, and the video signal output is connected to one of the inputs of the second summator.

In a one-wire, remote selected security detection and alarm system, the output of a sensor encoder is coupled to a modulator input, a first summation input of a modulator output via a first interconnector frequency filter, and a common summing input and output of the first summation directly or it is connected via a duplex amplifier to a common input / output of a second summing device in the receiving and distributing unit, a second summing output connected to a demodulator input via a first intercarrier frequency filter, and a demodulator output to a sensor signal encoding input. The present invention is characterized by a single-wire, remote selected security sensor and alarm system, wherein the sensor signal decoder output at the receiving and distribution unit is connected to the code input of a sensor switch, and sensors are connected to the other inputs of the sensor switch. the output of the modulator is connected to the input of a sensor signal modulator, and the output of the sensor signal modulator is connected to the second input of a second interleaver via a second interconnector frequency filter, and the combined output and input of the second interleaver directly on the transmission line or via the duplex amplifier connected to a common input and output of a first summator in a central control and monitoring unit, the second output of the first summator on a second intercarrier frequency filter k is connected to the input of a sensor signal demodulator, the output of the sensor signal demodulator is connected to one of the inputs of the alarm signal switch and the outputs of the sensor signal decoder switch are connected to the other inputs of the alarm signal switch, the alarm outputs of the alarm signal switch are connected.

A signal switch is connected to one input of the signal encoder, the other output of the control signal encoder is connected to the other input, and the output of the sensor signal encoder is connected to the input of the sensor signal decoder.

The invention will be explained in more detail with reference to the embodiments shown in the figures. The

Fig. 1 is a block diagram of a one-wire, remote-controlled television image monitoring and one-wire, remote-selected security detection and alarm system. THE

Figure 2 is a block diagram of a system of the invention for a backbone network.

1, one of the outputs of the KD1 control signal encoder in the central control and monitoring unit A of the television image monitoring part of the one-wire, remote-controlled television image monitoring and single-wire remote security detection and alarm system is connected to the MD1 modulator input, via the first A1 input, one output of the first I1 is connected to a MO monitor input via a low pass filter SZ2, and the combined input and output of the first I1 via a ÁV transmission line or a DE duplex amplifier incorporated in the ÁV transmission line is connected to the common input and output of the second totalizer Ö2 in the distribution unit. The second summing output of Ö2 is connected to the DM1 demodulator via the first intercarrier frequency filter SZ4, and the DM1 demodulator output to the control signal decoder input DK1.

The output of the control signal decoder DK1 is connected to the input of a mode switch, one of the outputs of the mode switch to the drive input of MH and the other output of the mode switch to the video signal input VK. The outputs of the MH drive stage are connected to the remote input of cameras K1, K2, Kn and the video signal outputs of the cameras K1, K2, Kn are connected to the video signal input of the VK video switch. The output of the VK video switch is connected to one of the inputs of the second totalizer Ö2.

In the security detection and alarm system, the output of a KD2 sensor signal encoder is connected to the input of a modulator MD1. The output of the MD1 modulator is via the first intercarrier frequency filter S1 to the O1 summing input, and the O1 summing input / output via the ÁV transmission line or via the DE duplex amplifier DE included in the ÁV transmission line, the second summing unit O2 in the receiving and distribution unit B. and connected to its input.

The second summation output of Ö2 is connected to the DM 1 demodulator input via the first intercarrier frequency filter SZ4, and the DM 1 demodulator output is connected to the signal decoder input of the DK3 sensor. In the receiving and distributing unit B, the output of the sensor signal decoder DK3 is connected to the code input of an encoder of the encoder switch, and the edges of the encoder of the encoder are connected to the other inputs of the encoder. The output of the SW sensor switch is connected to the MJ modulator input, and the MJ output to the MD2 sensor signal modulator input. The output of the MD2 sensor signal modulator is connected to the second input of the second totalizer Ö2 via the second intercarrier frequency filter SZ5, and the combined input and output of the second totalizer Ö2 via the ÁV transmission line or the DE duplex amplifier in the ÁV transmission line. is bound to the common I / O of the first summarizer. The second output of the first I1 is connected to the input of a DM2 sensor signal demodulator via a second intercarrier frequency filter SZ3, the output of the DM2 sensor signal demodulator is connected to one of the inputs of the RK alarm signal switch and the other inputs of the RK alarm signal switch are connected to the DK2 sensor signal decoder RK Alarm Switch Alarm Outputs are connected to an RJ Alarm Display. A KK code switch is connected to one input of the KD2 sensor signal encoder, the other output of the control signal encoder KD1 is connected to the other input, and the sensor signal encoder output of the KD2 is connected to the sensor signal decoder input DK2.

The following describes the structure and operation of the television image monitoring system. The KD1 control signal encoder is equipped with an SAA1250 type IC designed for the remote control transmitter. The IC input in the matrix system is selected using push buttons when control is performed. When sending a control command, the KD1 control signal encoder also provides a disable signal to the security system KD2 sensor signal encoder described below. By default, the encoder IC provides three remote control modes for eight cameras. The number of controlled cameras can be increased to sixteen and thirty-two with simple circuit additions.

The output code of the KD1 control signal encoder modulates an MD1 modulator, preferably an FM modulator. Its frequency is preferably 6.5 MHz intercarrier frequency. The stroke setting of the MD1 modulator is approx. ± 70 kHz with an output level of 0-300 mV from the ÁV transmission line, adjustable according to the length of the coaxial cable. The intercarrier frequency is above the video band (5 MHz), and the advantage of selecting it is that the filters can be mass-produced ceramic filters. Such a ceramic filter is also the SZI1 first intercarrier frequency filter, through which the modulated signal coupling capacitors l1 are applied to the ÁV transmission line, a coaxial cable. Depending on the length of the cable, the signal is transmitted directly to the receiving and distribution unit B via a duplex amplifier DE providing bidirectional transmission, where, after coupling, the signal is transmitted to a DM 1 demodulator input via a ceramic SZ4 first intercarrier frequency filter. The demodulation is performed by a TBA120T type IC, the output of which already shows a digital code, which is decoded by the SAA1251 infrared receiver IC. Generates an SN7445 type decimal code from the BCD code received at the program output. The decimal code is fed to the input of the mode changeover mode, which is the stage in the code4

Depending on the nature of the tube, it will be fed to either the MH drive stage, which consists of transistors and relays, or the VK video switch of the similarly selected KI, K2, Kn camera, which changes the camera characteristics.

The selected video signal is output from the output of the VK video switch via the second totalizer Ö2 through the coaxial cable, if necessary via the DE duplex amplifier to the central control and monitoring unit A. Here, after unlinking in the first I1 synthesizer, the signal appears on a MO monitor passing through a 5 MHz SZ2 low pass filter. Proper synchronization of the encoding-decoding is ensured by setting the encoding-decoding ICs to the same mode.

The operation of the security detection and alarm system is as follows. The KD2 sensor signal encoder is also built with an SAA1250 type IC developed for infrared remote control transmitter. If the condition of the sensors is checked, that is, there is no remote control in the image monitoring system, the KD2 sensor signal encoder receives an enable signal from the KD1 control signal encoder. Then, according to the KK code switch signal mounted on the stable multivibrator], the KD2 sensor signal encoder outputs the code groups corresponding to each edge, edge, self. This signal is applied to the input of the modulator MD1 as well as to the input of the sensor signal decoder DK2. This latter stage provides the identification of the feedback sensor. From the output of the modulator MD1, the FM signal is demodulated through the steps described above in the receiving and distributing unit B. The content of the demodulated code packet is decoded by a DK3 sensor signal decoder, which is also configured with an infrared remote control receiver type SAA1251. The BCD code obtained from the program output of the IC produces a decimal code, as described above, which sequentially controls a series of switches in the IC sensor switch. A signal from the Alarm System Edge, Edge, Self sensors is applied to the switch line input. In the event of an alarm, the alarm signal associated with the sensor activates the MJ modulator signal generator, such as a sound frequency multivibrator, through the switch. The modulating signal modulates the MD2 sensor signal modulator. This stage is also an intercarrier frequency FM stage, but the carrier frequency

5.5 MHz The MD2 sensor signal modulator has the same operating setting as the MD1 modulator. The modulated signal is coupled to the ÁV transmission line, a coaxial line, through a ceramic SZ5 second intercarrier frequency filter, Ö2 second summator. The cable then has three signals, a 6.5 MHz FM signal, a 5.5 MHz FM signal, and a selected video signal. The 5.5 MHz FM signal is disconnected backward through the cable, either directly or through a DE duplex amplifier, in the first preamplifier, and demodulated in a DM2 sensor signal demodulator. Demodulation is done with a TBA120 type IC. The alarm signal is triggered by the switching signals received from the DK2 detector signal decoder via the RK alarm signal switch, which includes a controlled switching line, to the RJ alarm signal display, which is acoustic, light or other.

The system for the backbone network shown in Fig. 2 consists of a central control and monitoring unit and a plurality of I, II, k remotely controlled and / or remote selected groups, either directly or via a DE duplex amplifier, mounted on the single-wire AV transmission line. switch, SZ6 filter, B receiving and distribution unit, C camera and / or sensor unit. The output of the central control and monitoring unit A is connected directly to one of the inputs of the selector switch J either directly on the ÁV transmission line or via a duplex amplifier DE incorporated in the ÁV transmission line. One output of select switch J is connected to one end of filter SZ6 and input of receiving and distributing unit B, one output of receiving and distributing unit B is connected to another input of select switch J and the other output is connected to input of camera and / or sensor unit. The other output of the selector switch J and the other end of the SZ6 filter are either via an additional ÁV transmission line or via an additional DE duplex amplifier in FIG. connected to the input of the remote and / or remote group, and the output of the remote and / or remote group (k-1) is further connected directly to the remote controlled and / or remote group input via an AV transmission line or via an additional DE duplex amplifier.

In the backbone system, the J selector is built with a switch relay. In the case of remote control or remote selection, in the addressed I, II, k remote and / or remote selected groups, the signal is at the relay's resting contacts and the 5.5 MHz and

Passing through a 6.5 MHz ceramic SZ6 filter, it is decoded in the receiving and distribution unit B and is instructed to turn on the relay. This group is then connected to the ÁV transmission line and thus to the other groups only through the SZ6 filter, meaning that the system remains matched to the video signal, and the remote control and remote selection for each group remains. The selected video signal is transmitted to the control panel through the contacts of the inverter relay.

The present invention provides sophisticated, versatile image surveillance and security systems with a more economical, simpler solution. Another advantage of the system according to the invention is that it can be easily adapted to, or transformed into, existing systems.

Claims (4)

1. A one-wire, remote-controlled television image monitoring system comprising a central control and monitoring unit, a receiving and distribution unit, a camera unit, optionally a duplex amplifier, wherein one output of a control signal encoder in a central control and monitoring unit is connected to a modulator input. to the first summation input of the first intercarrier through a frequency filter, one of the outputs of the first summation being low-pass EN 212 356 B is connected to a monitor input via a filter B, connected to a common input / output of the first totalizer directly on a transmission line or via a duplex amplifier included in the transmission line to a common input and output of a second totalizer in the receiving and distributing unit. connected via a first intercarrier frequency filter to a dc modulator input, a demodulator output to a control decoder input, characterized in that the control signal encoder (DK1) output is a mode inverter input, one of the mode inverter output (MH) output drive stage (MH) The other output of VV) is connected to the input of a video switch (VK), and the output of the drive stage (MH) is connected to a remote input of cameras (K1, K2, Kn) and the video signal outputs of the cameras (K1, K2, Kn) are connected to video signal input, the video signal terminal and the output of solo (VK) is connected to one of the inputs of the second totalizer (Ö2). The single-wire, remote-controlled television image monitoring system according to claim 1, characterized in that the control signal encoder (KD1) is configured with an integrated circuit SAA1250 used in an infrared transmitter transmitter or another type for similar purposes, and the control signal decoder (DK1) ) with an integrated circuit of the type SAA1251 used in an infrared remote control receiver or similar type. 3. One-wire remote security detection and alarm system comprising a central control and monitoring unit, a receiving and distribution unit, a sensor unit, optionally a duplex amplifier, comprising a sensor signal encoder output coupled to a modulator input, the modulator output on a first intercarrier frequency filter via a first summing input of the first summing means, connected to a common summing input and output of the first summing directly or via a duplex amplifier incorporated in the transmission line to a second summing summing input and input in the receiving and distributing unit; The input of the demodulator is connected to the input of a sensor signal decoder, characterized in that the output of the sensor signal decoder (DK3) in the receiving and distribution unit (B) is connected to a sensor. Connected to the (IN) code input and the other inputs of the sensor switch (ON) are connected sensors (Ed, E2, I), the output of the sensor switch (ON) to the modulator signal (MJ) input, the output of the modulator signal (MJ) sensor signal modulator (MD2), the output of the sensor signal modulator (MD2) is connected to a second input (Ö2) of a second totalizer (Ö2) via a second intercarrier frequency filter (SZ5), either directly or via a common line via the transmission line (ÁV). connected via a duplex amplifier (DE) incorporated in a transmission line (ÁV) to the common I / O of the first totalizer (I1) in the central control and monitoring unit (A), the other output of the first totalizer (I1) via a second intercarrier frequency filter (SZ3) connected to the input of a sensor signal demodulator (DM2), the output of the sensor signal demodulator (DM2) is connected to an alarm signal is connected to one of the inputs (RK) and the outputs of the sensor signal decoder (DK2) to the other inputs of the alarm signal switch (RK), the outputs of the alarm signal switch (RK) are connected to the alarm signal display (RJ), One of the inputs of KD2) is connected to a code switch (KK), the other output of a control signal encoder (KD1) is connected, and the output of the sensor signal encoder (KD2) is connected to the input of the sensor signal decoder (DK2). The single-wire remote security detection and alarm system according to claim 3, wherein the sensor signal modulator (MD2) is an intercarrier frequency modulator and the second intercarrier frequency filter (SZ3, SZ5) is a corresponding ceramic bandpass filter.