KR101862672B1 - Fire alarm system for detecting open position - Google Patents

Abstract

According to an embodiment of the present invention, a fire detection alarm system of a communications loop type with a shortcircuit notification function comprises: a communications loop including a positive (+) line for transmitting an operation voltage and a digital call signal, and a negative (-) line arranged in parallel to the positive (+) line and becoming a reference voltage of the positive (+) line; a plurality of fire detectors including a sensor for generating a measurement value, and a CPU for generating a current signal representing the measurement value; a display device for displaying a disconnection position; an interface unit; a plurality of (+) line disconnection detection signal generators; and a plurality of (-) line disconnection detection signal generators. The present invention can efficiently inform a manager of an accurate disconnection position in a fire detection alarm system of a communications loop type.

Description

FIELD OF THE INVENTION The present invention relates to a fire alarm system,

The present invention relates to a fire detection alarm system, and more particularly, to a communication loop fire detection alarm system.

A smoke detector that detects the generation of smoke, a temperature sensor to detect the ambient temperature, and a flame detector to detect the occurrence of a flame are used as a fire detection and alarm countermeasure for a large space such as inside and outside of the vessel, And a system for detecting the occurrence of fire according to the operation of each detector is constructed and applied.

This system includes a communication loop structure in which a (+) line to which a (+) terminal of each detector is connected and a (-) line to which a (-) terminal of each detector is connected are arranged in parallel, And an interface unit to which the other end is connected.

Each sensor is connected in parallel to the communication loop structure by being simultaneously connected to the (+) and (-) lines of the communication loop structure.

When the voltage to be applied to each sensor is applied through the (+) line of the one end of the communication loop structure in the interface unit, each sensor operates in sequence to change the current corresponding to the detection result of the sensor, It is possible to detect the occurrence of a fire by calculating the current change in the (+) or (-) line at the other end of the loop structure.

However, in this structure, when a fire occurs and a part of the communication loop is disconnected, there is a problem that the operation of all the detectors connected to the communication loop structure becomes paralyzed. In order to solve such a problem, a fire detection alarm system (Korean Patent Registration No. 10-1311950) having a two-way communication loop has been disclosed.

However, in the case of the conventional fire detection alarm system, when the communication loop is disconnected, there is a problem that information on the accurate disconnection position of the communication loop can not be provided to the manager.

Korean Patent No. 10-1311950

SUMMARY OF THE INVENTION It is an object of the present invention to provide a communication loop type fire detection alarm unit having a single line notification function.

A communication loop type fire detection alarm system according to the present invention includes a communication loop, a plurality of fire detectors, a display device, an interface unit, a plurality of (+) line disconnection detection signal generators and a plurality And a signal generator. The communication loop includes a (+) line for transmitting an operating voltage and a digital paging signal, and a (-) line arranged in parallel with the (+) line and serving as a reference voltage for the (+) line. The plurality of fire detectors are connected to the (+) line and the (-) line of the communication loop and are driven by the operating voltage of the (+) line to detect a fire occurrence condition from the surrounding environment, And a CPU for analyzing the digital paging signal and generating a current signal representing the measured value by varying the current flowing from the (+) line to the (-) line at the time when the digital paging signal is called. The display device displays the disconnection position. The interface unit comprises an A loop terminal provided with a (+) terminal to which the (+) line of the communication loop is connected and a (-) terminal to which a (-) line of the communication loop is connected, And a B loop terminal provided with a positive terminal of the communication loop and a negative terminal connected to the negative line of the communication loop; and a control circuit for outputting the operating voltage and the digital paging signal, And receiving the current signal from each of the (-) lines, converts the received current signal into a measured value of the fire detector. (+) Line disconnection detection signal generator, which is provided on the (+) line between the node of the (+) line to which the adjacent fire detector is connected and the node, To the (+) line. A plurality of negative line disconnection detection signal generators are respectively provided on a negative line between a node of a negative line to which an adjacent fire detector is connected and a negative line between the nodes to output a negative line disconnection detection signal having assigned unique identification information (-) line. Line disconnection detection signal generator in which the (+) line disconnection detection signal is not received is detected as a disconnection position of a (+) line and is displayed on the display device, and the (- Line line disconnection detection signal generator in which the line disconnection detection signal is not received is regarded as the disconnection position of the (-) line and is displayed on the display device.
The (+) line disconnection detection signal generator is connected in parallel to the (+) line, and the (-) line disconnection detection signal generator is connected in parallel to the (-) line.
Line disconnection detection signal generator provided at a position opposed to the (+) line disconnection detection signal generator, the (+) line disconnection detection signal generator receives the (+) line disconnection detection signal received from the opposing (-) line disconnection detection signal.
Line disconnection detection signal received from the (+) line disconnection detection signal generator as the (-) line disconnection detection signal in a direction opposite to the transmission direction of the (+) line disconnection detection signal, send.
The repeater transmits the (-) line disconnection detection signal at a different period than the (+) line disconnection detection signal.
The repeater delays the (+) line disconnection detection signal received from the (+) line disconnection detection signal generator and transmits it as the (-) line disconnection detection signal.
The repeater corrects the (+) line disconnection detection signal received from the (+) line disconnection detection signal generator and transmits it as the (-) line disconnection detection signal.

According to the embodiment of the present invention, accurate disconnection position can be efficiently notified to an administrator in a communication loop fire alarm system.

1 is a block diagram of a fire alarm system of a communication loop type.
FIG. 2 is a diagram illustrating an operation voltage, a digital call signal, and a current signal in a fire alarm system of a communication loop type. FIG.
3 is a block diagram showing the configuration of a fire detector;
Fig. 4 is a diagram for explaining an operation of outputting an operating voltage and a digital paging signal at each (+) terminal and detecting the same at each (-) terminal.
5 is a view for explaining the operation of each terminal when outputting a digital paging signal for selecting the operating voltage and the second fire detector at the (+) terminals on both sides of the communication loop.
FIG. 6 and FIG. 7 are block diagrams of a communication loop type fire alarm system for indicating a break position according to an embodiment of the present invention. FIG.
FIG. 8 is a view showing a state when a disconnection occurs according to an embodiment of the present invention. FIG.
9 is a diagram showing a transmission direction of a received (+) line disconnection detection signal and a transmission direction of a (-) line disconnection detection signal transmitted in opposite directions according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and how to achieve them, will be apparent from the following detailed description of embodiments thereof taken in conjunction with the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as being limited to the exemplary embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete and will fully convey the concept of the invention to those skilled in the art. And the present invention is only defined by the scope of the claims. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

2 is a view for explaining an operation voltage, a digital call signal, and a current signal in a fire alarm system of a communication loop type, FIG. 3 is a diagram illustrating a configuration of a fire detector FIG. 4 is a view for explaining an operation of outputting an operating voltage and a digital paging signal at each (+) terminal and detecting the same at each (-) terminal, and FIG. 5 is a view for explaining an operation The operation of each terminal in the case of outputting the operating voltage and the digital paging signal for selecting the second fire detector at the (+) terminal are shown.

The communication loop type fire detection alarm system includes an interface unit 40 including a communication loop 10, a plurality of fire detectors 20, and a loop card 30. The display device 70 may further include a display device 70.

The communication loop 10 includes a positive line 11 for transmitting an operating voltage and a digital paging signal and a positive voltage line 11 arranged in parallel with the positive line 11, And a negative (-) line 12. The communication loop 10 is made up of a loop line of a (+) line 11 in the form of a closed loop and a line of (-) line 12 in the form of a closed loop. Therefore, the (+) terminal 311 of the A loop terminal 31 and the (+) terminal 321 of the B loop terminal 32 are connected to each other by the (+) line 11 to form a closed loop, The negative terminal 312 of the terminal 31 and the negative terminal 322 of the B loop terminal 32 are connected to each other by a negative line 12 to form a closed loop.

Thus, various fire detectors 20, switches (not shown), and alarms (not shown) are connected to one communication loop 10. (+) Terminal of the fire detectors 20 and a (+) terminal of the fire detectors 20 in each of the communication loops 10. The communication loop 10 includes at least two parallel lines connected to two terminals of the loop card 30, -) terminals can be connected in parallel.

In the present invention, one loop card having an A loop terminal 31 and a B loop terminal 32 is exemplified as an example of the loop card 30. However, if a plurality of loop cards 30 are provided, It can also be extended to plural. In addition, devices that may be connected to the communication loop 10 may be added to the extent that they can distinguish each device within the communication loop 10. For example, if the communication loop 10 distinguishes each device by a 7-bit signal, it will be able to connect 127 devices. As a communication method in the communication loop 10, a power line communication (PLC) method can be used. (+) Line 11 for transmitting an operating voltage and a digital paging signal, a (-) line 12 arranged in parallel with (+) line 11 and serving as a reference voltage for (+) line 11, .

Referring to FIG. 2, which illustrates an operating voltage and a digital call signal and a current signal, each fire detector 20 is connected to a voltage (operating voltage) for operating each fire detector 20 connected to the communication loop 10 The digital paging signal including the paging information for selecting the modulated voltage waveform can be seen. Also, the voltage waveform is inputted and each detector operates, and at the time when the paging signal is called, the measured value is converted into a current signal, The current waveform can be confirmed.

The fire detector 20 is a sensing device that can be connected to the communication loop 10 and includes, for example, a smoke detector for detecting the generation of smoke, a temperature sensor for detecting the ambient temperature, Detectors, and the like.

A plurality of fire detectors 20 are connected to the (+) line 11 and the (-) line 12 of the communication loop 10. The fire detector 20 is driven by the operating voltage of the (+) line 11 to generate a measurement value by sensing a specific condition (for example, a condition capable of detecting a fire occurrence) from the surrounding environment. In order to express the measurement value generated at the time when the digital call signal of the (+) line 11 is called by the digital information, the (+) line 11 is connected to the -) < / RTI > line 12, as shown in FIG. The generated current signal can be sensed at each (-) terminal 312 of the interface unit 40.

The fire detector 20 is connected to the (+) line 11 and the (-) line 12 of the communication loop 10 as shown in FIG. A sensor 21 which is driven by an operating voltage to detect a fire occurrence condition from the surrounding environment and generates a measurement value, and a sensor 21 which analyzes the digital call signal of the (+) line 11, And a CPU 22 for generating a current signal representative of the measured value by varying the current flowing from the line 11 to the negative line 12.

The main control panel 50 outputs a digital paging signal for sequentially selecting one of the plurality of fire detectors 20 connected to the communication loop 10 of the interface unit 40. Also, it receives a measurement value generated in the called fire detector 20 and transmitted through the interface unit 40, and performs a process according to a pre-inputted program. That is, if the measured value indicates the occurrence of a flame, the main control panel 50 may indicate that a fire has occurred at the position of the fire detector 20. It may also output a signal for driving the relay connected to the fire extinguishing equipment at the corresponding location.

The interface unit 40 includes a control communication terminal 42 for receiving a digital paging signal from the main control panel 50, a power supply terminal 41 for receiving an operating voltage from the external power supply 60, Loop terminal 31 provided with a (+) terminal 311 to which a (+) line 11 of the communication loop 10 is connected and a (-) terminal 312 to which a (-) line 12 of the communication loop 10 is connected, (+) Terminal 321 to which the (+) line 11 of the communication loop 10 is connected and a (-) terminal 322 to which the (-) line 12 of the communication loop 10 is connected. A loop card 30 provided with a loop terminal 32, and an MCU 43 for controlling the loop card 30 to grasp the disconnection position.

The A loop terminal 31 is connected to the positive terminal 311 and the negative terminal 312 because the (+) line 11 and the (-) line 12 are arranged in parallel in the communication loop 10 Similarly, the B loop terminal 32 also has a (+) terminal 321 and a (-) terminal 322. At this time, although the (+) terminal 311 of the A loop terminal 31 and the (+) terminal 321 of the B loop terminal 32 are configured as individual circuits, the same operation voltage and digital paging signal . Thus, when an abnormal state occurs in which a circuit of any one (+) terminal 311 is short-circuited or disconnected, the stable operation of the system can be enhanced by stopping the circuit of the corresponding terminal.

The (-) terminal 312 of the A loop terminal 31 and the (-) terminal 322 of the B loop terminal 32 are configured independently from each other and the MCU 43 is connected to the (-) terminal 312 And measures the input current signal. The measured current signals can be combined with each other. The combination may be, for example, an OR operation.

Since the current signal sensed at the (-) terminal 312 of the A loop terminal 31 and the current signal sensed at the (-) terminal 322 of the B loop terminal 32 will contain the same information, There is no crosstalk. Rather, by configuring the one (+) terminal 311 to invoke the fire detector 20 and to sense the current signal separately at both (-) terminals 312 of the communication loop 10 simultaneously, At least one (-) terminal 312 is able to sense the current signal even if a disconnection occurs in any part of the communication loop 10.

For example, as shown in FIG. 4, if the first fire detector 20a is called in the digital call signal while the operating voltage is applied to the (+) terminal 311, the first fire detector 20a, And the output current signal can be detected simultaneously at the (-) terminal 312 of the A loop terminal 31 and the (-) terminal 322 of the B loop terminal 32 . The first fire detector 20a stops the current signal output operation when its call is terminated in the digital paging signal.

Subsequently, if the digital paging signal calls the second fire detector 20b while the operating voltage is still applied, the second fire detector 20b outputs the measured value as a current signal, Lt; / RTI > terminal 312 as shown in FIG. Likewise, when the third fire detector 20c or the fourth fire detector 20d is selected, the unselected detector stops outputting the current signal, and the current signal output by the called detector is outputted to both the (-) terminal 312, Lt; / RTI >

The MCU 43 outputs the operating voltage and the digital paging signal to the positive line 11 and the current signal from the negative line 12 to the fire detector 20 and transmits them to the main control panel 50 through the control communication terminal 42. [

Further, the MCU 43 of the present invention can analyze the current signal received from each of the (-) lines 12 to determine the disconnection position of the communication loop 10. That is, the first current signal received at the (-) terminal 312 of the A loop terminal 31 and the first current signal received at the B loop terminal 32 ( -) terminal 322 to determine the disconnection position of the communication loop 10.

For example, if it is assumed that the first fire detector 20a and the second fire detector 20b are closest to each other, a current signal generated in the first fire detector 20a is outputted to the (-) terminal of the A loop terminal 31, (-) terminal 322 of the A loop terminal 31 and the current signal generated in the adjacent second fire detector 20b are received at both the terminal 312 and the (-) terminal 322 of the B loop terminal 32 (-) line position between the first fire detector 20a and the second fire detector 20b when the (+) terminal 322 of the B loop terminal 32 is received but the (-) terminal 322 of the B loop terminal 32 is not .

For example, referring to FIG. 5, when the communication line is disconnected, the (-) terminal 312 of the A loop terminal 31 outputs a current signal when the second fire detector 20b outputs a current signal. (-) terminal 322 of the B loop terminal 32 will not be able to detect the current signal. (-) terminal 312 of the A loop terminal 31 will not be able to detect the current signal and the (-) terminal 312 of the B loop terminal 32 will not be able to detect the current signal if the third fire detector 20c outputs the current signal. Quot; terminal 322. < / RTI >

The disconnection position of the display device 70 is displayed.

On the other hand, as described above, the fire alarm system of any one of the communication loops can receive a signal even if any one of the points is disconnected. However, it is difficult to grasp the position of the broken wire correctly.

Accordingly, the present invention makes it possible to provide the manager with information on the accurate disconnection position of the communication loop when the communication loop is disconnected. This will be described below with reference to FIGS. 6 and 9. FIG.

FIG. 6 and FIG. 7 are diagrams of a fire alarm system of a communication loop type for indicating a disconnection position according to an embodiment of the present invention, FIG. 8 is a view showing a state when a disconnection occurs according to an embodiment of the present invention And FIG. 9 is a diagram illustrating a transmission direction of a received (+) line disconnection detection signal and a transmission direction of a (-) line disconnection detection signal transmitted in opposite directions according to an embodiment of the present invention.

6 and 7, the communication loop type fire alarm system for indicating the disconnection position of the present invention includes a (+) line 11 for transmitting an operation voltage and a digital paging signal, a (+) line 11 for transmitting a digital paging signal, A line 12 arranged in parallel with the line and a line 12 being the reference voltage of the line 11; (+) Line 11 and a negative line 12 of the communication loop and driven by the operating voltage of the (+) line 11 to detect a fire occurrence condition from the surrounding environment and generate a measurement value (11) to the (-) line (12) by analyzing the digital paging signal of the (+) line (11) and changing the current flowing from the (+ A plurality of fire detectors (20) including a CPU for generating signals; A display device (70) for displaying a disconnection position; And an A loop terminal 31 provided with a (+) terminal 311 to which a (+) line 11 of a communication loop is connected and a (-) terminal 312 to which a (-) line 12 of a communication loop is connected, A loop card 32 provided with a B loop terminal 32 provided with a (+) terminal 321 to which a (+) line 11 of a loop is connected and a (-) terminal 322 to which a (- (-) line 12 and a current signal from each of the (-) lines 12, and outputs the received current signal to the measured value of the fire detector 20 (+) Line 11 to which an adjacent fire detector 20 is connected and a (+) line 11 between the nodes, respectively, Line disconnection detection signal generators 1a and 2a for transmitting the (+) line disconnection detection signal having the identification information in a direction in which the (+) line disconnection detection signal is carried in the (+) line 11.

For example, as shown in FIG. 7, a (+) line disconnection detection signal first generator 1a is provided between a first node N11 and a second node N12 of the (+) line 11 Line line disconnection detection signal first generator 1a transmits a unique (+) line disconnection detection first signal.

Similarly, as shown in Fig. 7, a (+) line disconnection detection signal second generator 2a is provided between the second node N12 and the third node N13 of the (+) line 11, (+) Line disconnection detection signal second generator transmits a unique (+) line disconnection detection second signal.

Similarly, as shown in FIG. 7, a (+) line disconnection detection signal third generator 3a is provided between the third node and the fourth node of the (+) line 11, The signal third generator transmits a unique (+) line disconnection detection third signal.

The interface unit 40 is enabled to receive the (+) line disconnection detection signals transmitted from the (+) line disconnection detection signal generator unless the disconnection has occurred in the (+) line 11.

However, when a disconnection occurs in a part of the (+) line 11, the (+) disconnection detection signal transmitted in the disconnection part can not be received. For example, as shown in Fig. 8, when a disconnection occurs between the (+) line disconnection detection signal second generator 2a and the (+) disconnection detection signal third generator 3a, The detection signal transmitted by the detection signal second generator 2a is received by the positive terminal 311 of the A loop terminal of the interface unit 40 but is transmitted by the positive line disconnection detection signal second generator 3a (+) Terminal 311 of the A loop terminal of the interface unit 40 is not received.

Therefore, the interface unit 40 can grasp the position of the (+) line disconnection detecting signal generator in which the (+) line disconnection detecting signal is not received as the disconnection position of the (+ do.

Further, the present invention provides a line disconnection detection signal, which is provided in each line between the node of the line 12 to which the adjacent fire detectors are connected and the line 12 between the nodes, (-) line disconnection detection signal generation in which the negative (-) line disconnection detection signal is transmitted in one direction. Therefore, the interface unit 40 can identify the position of the (-) line disconnection detection signal generator in which the (-) line disconnection detection signal is not received, as the disconnection position of the (-) line 12 and display the position on the display device .

(+) Line disconnection detection signal generator 1b, 2b, ..., (-) line disconnection detection signal generator 1b, 2b, ..., ) Are connected in parallel to the (-) line (12). This is to prevent the detection signal transmitted from the disconnection detection signal generator at the subsequent stage from being blocked by the disconnection detection signal generator at the preceding stage and not being transmitted to the interface unit 40. [

(-) line disconnection detection signal generator 1b, 2b, -, - can be separately generated, but can be generated separately from the (+) line disconnection detection signal generator 1b , (2a), and (-) line disconnection detection signal.

(-) line disconnection detection signal generators 1b, 2b, ... provided at positions opposite to the (+) line disconnection detection signal generators 1a, 2a, (+) Line disconnection detection signal received from the detection signal generators 1a, 2a, ..., as a (-) line disconnection detection signal. Therefore, the repeater can be used as the (-) line disconnection detection signal generator (1b, 2b, ...) without the necessity of a separate line disconnection detection signal generator.

However, in the case of transmitting the (+) line disconnection detection signal received from the (+) line disconnection detection signal generator (1a, 2a, etc.) as a (-) line disconnection detection signal, Line line disconnection detection signal received from the (+) line disconnection detection signal generators 1a, 2a, etc. as shown in Fig. 9 is made opposite to the transmission direction of the (+) line disconnection detection signal -) line disconnection detection signal.

Line disconnection detection signal received from the (+) line disconnection detection signal generator is transmitted as a (-) line disconnection detection signal, the relay repeats the (+) line disconnection detection signal and the (-) line disconnection detection signal as a period.

Line line disconnection detection signal received from the positive line disconnection detection signal generator is transmitted as a (-) line disconnection detection signal, the repeater is connected to the (+) line disconnection detection signal generator The received (+) line disconnection detection signal can be delayed and transmitted as a (-) line disconnection detection signal.

Line line disconnection detection signal received from the positive line disconnection detection signal generator is transmitted as a (-) line disconnection detection signal, the repeater is connected to the (+) line disconnection detection signal generator (+) Line disconnection detection signal can be corrected and transmitted as a (-) line disconnection detection signal.

The embodiments of the present invention described above are selected and presented in order to assist those of ordinary skill in the art from among various possible examples. The technical idea of the present invention is not necessarily limited to or limited to these embodiments Various changes, modifications, and other equivalent embodiments are possible without departing from the spirit of the present invention.

10: Communication loop
20: Fire detector
30: Loop terminal
40: Interface unit

Claims (8)

In a communication loop fire alarm system with a single wire notification function,
(+) Line for transmitting an operating voltage and a digital paging signal, and a (-) line arranged in parallel with the (+) line and serving as a reference voltage for the (+) line;
A sensor connected to the (+) line and the (-) line of the communication loop and driven by the operating voltage of the (+) line to detect a fire occurrence condition from the surrounding environment and generate a measurement value; A plurality of fire detectors for analyzing the digital call signal and generating a current signal representing the measured value by varying the current flowing from the (+) line to the (-) line at the time when the digital call signal is called;
A display device for displaying a disconnection position;
(+) Line of the communication loop is connected to the (+) terminal of the communication loop and the (+) terminal of the communication loop is connected to the (- And a B-loop terminal provided with a negative terminal to which the negative line of the communication loop is connected; and a loop card for outputting the operation voltage and the digital paging signal from each of the (+) lines, An interface unit for receiving the current signal from each of the lines and converting the received current signal into a measured value of the fire detector;
(+) Line disconnection detection signal, which is provided on the (+) line between the node of the (+) line to which the adjacent fire detector is connected and the (+) line between the node and the assigned unique identification information, A plurality of (+) line disconnection detecting signal generators for transmitting signals; And
(-) line disconnection detection signal, which is provided in each line between the node of the (-) line to which the adjacent fire detector is connected and the line (-) between the nodes, (-) line disconnection detection signal generator,
Line disconnection detection signal generator in which the (+) line disconnection detection signal is not received is detected as a disconnection position of a (+) line and displayed on the display device, (-) line disconnection detection signal generator in which the line disconnection detection signal is not received is detected as a disconnection position of the (-) line and displayed on the display device. Alarm system.
delete The method according to claim 1,
The (+) line disconnection detection signal generator is connected in parallel to the (+) line,
And the negative line disconnection detection signal generator is connected in parallel to the negative line.
The method according to claim 1,
Line disconnection detection signal generator provided at a position opposed to the (+) line disconnection detection signal generator, the (+) line disconnection detection signal generator receives the (+) line disconnection detection signal received from the opposing And a repeater for transmitting the disconnection signal as the (-) line disconnection detection signal.
5. The apparatus of claim 4,
Line disconnection detection signal received from the (+) line disconnection detection signal generator as the (-) disconnection detection signal in the direction opposite to the transmission direction of the (+) line disconnection detection signal. Fire alarm alarm system with communication loop system.
5. The apparatus of claim 4,
Line disconnection detection signal is transmitted at a different period than the (+) line disconnection detection signal.
5. The apparatus of claim 4,
Line disconnection detection signal received from the (+) line disconnection detection signal generator, and transmits the delayed (+) line disconnection detection signal as the (-) line disconnection detection signal. .
5. The apparatus of claim 4,
Line line disconnection detection signal received from the positive line disconnection detection signal generator and corrects the (+) line disconnection detection signal received from the (+) line disconnection detection signal generator and transmits it as the (-) line disconnection detection signal. .

Images