CN115407685A - Vehicle-mounted antenna lodging control circuit and device - Google Patents

Abstract

The invention belongs to the technical field of vehicle-mounted antenna lodging and discloses a vehicle-mounted antenna lodging control circuit and a device, wherein the vehicle-mounted antenna lodging control circuit comprises a controller, a power module, a motor control module and a display module; the motor control module controls the corresponding antenna to stand up or fall down according to the execution signal; and the display module performs corresponding display after determining the state of each antenna. Through the mode, the vertical or lodging state of the antenna can be realized without manually adjusting the fixing screws.

Description

Vehicle-mounted antenna lodging control circuit and device

Technical Field

The invention relates to the technical field of vehicle-mounted antenna lodging, in particular to a vehicle-mounted antenna lodging control circuit and device.

Background

The antenna lodging device on the existing communication vehicle generally adopts a bolt fixing mode to fix an antenna base on the vehicle roof firmly, and two fixing states of vertical or lodging are realized by presetting a limiting support on the base. Therefore, the vehicle-mounted antenna lodging device can only adjust the fixing bolt in a manual mode so as to realize the vertical or lodging state of the antenna.

Disclosure of Invention

The invention mainly aims to provide a vehicle-mounted antenna lodging control circuit and device, and aims to solve the technical problem that in the prior art, the fixing bolt can only be adjusted manually so as to realize the vertical or lodging state of an antenna.

In order to achieve the purpose, the invention provides a vehicle-mounted antenna lodging control circuit, which comprises a controller, a power module, a motor control module and a display module, wherein the motor control module, the controller and the display module are sequentially connected, the motor control module and the display module are respectively connected with the power module, and the motor control module is connected with each antenna;

the power supply module is used for supplying power to the motor control module and the display module;

the controller is used for acquiring an execution signal and transmitting the execution signal to the motor control module;

the motor control module is used for controlling the corresponding antenna to be erected or laid down according to the execution signal;

and the display module is used for determining the state of each antenna and carrying out corresponding display.

Optionally, the vehicle-mounted antenna lodging control circuit further comprises an operation panel, wherein a plurality of groups of control switches are arranged on the operation panel, and the operation panel is connected with the controller;

the operation panel is used for generating an operation signal according to an operation action on the control switch and transmitting the operation signal to the controller;

the controller is used for determining an execution signal according to the operation signal.

Optionally, the vehicle-mounted antenna lodging control circuit further comprises an isolation module, an input end of the isolation module is connected with the power module, and an output end of the isolation module is connected with the display module.

Optionally, the motor control module includes a plurality of groups of antenna control circuits, the antenna control circuit includes relay drive module, relay, motor and antenna interface, the relay drive module, relay, motor and antenna interface in controller, each group connect gradually.

Optionally, the vehicle-mounted antenna lodging control circuit further comprises a plurality of groups of angle detection circuits, each angle detection circuit comprises an angle sensor and an isolation circuit, the angle sensors are arranged on the corresponding motors, and the controller, the isolation circuits in each group and the angle sensors are sequentially connected;

the angle sensor is used for acquiring an angle detection signal of a corresponding antenna and outputting the angle detection signal to the isolation circuit for signal isolation;

the isolation circuit is used for transmitting the isolated angle detection signal to the controller;

the controller is used for transmitting the isolated angle detection signal to the display module;

and the display module is used for determining the state of the antenna according to the isolated angle detection signal and carrying out corresponding display.

Optionally, the vehicle-mounted antenna lodging control circuit further comprises a network port, and the network port is connected with the controller;

the network port is used for acquiring a control signal and transmitting the control signal to the controller;

the controller is used for transmitting the execution signal to the motor control module after receiving the control signal;

and the motor control module is used for controlling the erection or lodging of the corresponding antenna according to the execution signal.

Optionally, the vehicle-mounted antenna lodging control circuit further comprises a serial port, and the serial port is connected with the controller;

the serial port is used for acquiring a configuration signal and transmitting the configuration signal to the controller;

and the controller is used for carrying out network configuration according to the configuration signal.

Optionally, the vehicle-mounted antenna lodging control circuit further comprises an abnormality indicator light, and the controller is connected with the abnormality indicator light;

the controller is used for generating an alarm signal when the abnormal information is acquired and transmitting the alarm signal to the abnormal indicator light;

and the abnormal indicator light is used for lighting after receiving the alarm signal.

Optionally, the vehicle-mounted antenna lodging control circuit further includes an antenna withdrawing indicator light and an antenna withdrawing button, and the antenna withdrawing indicator light and the antenna withdrawing button are respectively connected to the controller;

the antenna withdrawing button is used for generating a withdrawing signal and transmitting the withdrawing signal to the controller;

the controller is used for transmitting the receiving signal to the antenna receiving removing indicator lamp;

and the antenna withdrawing indicator lamp is used for lighting up after receiving the withdrawing signal.

In order to achieve the above object, the present invention further provides a vehicle-mounted antenna lodging control device, which includes the vehicle-mounted antenna lodging control circuit, and the vehicle-mounted antenna lodging control device is connected to an antenna on a vehicle actuator and is used for controlling the antenna.

The invention provides a vehicle-mounted antenna lodging control circuit, which comprises a controller, a power module, a motor control module and a display module, wherein the power module, the motor control module and the display module are respectively connected with the controller; the power supply module is used for supplying power to the motor control module; the controller is used for acquiring an execution signal and transmitting the execution signal to the motor control module; the motor control module is used for controlling the erection or lodging of the corresponding antenna according to the execution signal; and the display module is used for determining the state of each antenna and performing corresponding display. In the invention, the obtained execution signal is transmitted to the motor control module through the controller to control the corresponding antenna to be erected or laid, and the erection or laying state of the antenna is realized without manually adjusting a fixed spiral on the antenna.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a functional block diagram of an embodiment of a vehicle antenna lodging control circuit of the invention;

fig. 2 is a schematic circuit structure diagram of a vehicle-mounted antenna lodging control circuit according to an embodiment of the invention;

fig. 3 is a schematic diagram of a circuit connection structure between a motor control module and a controller in an embodiment of the vehicle-mounted antenna lodging control circuit of the invention;

fig. 4 is a schematic circuit connection structure diagram of the angle detection circuit and the controller in an embodiment of the vehicle antenna lodging control circuit of the invention.

The reference numbers indicate:

reference numerals	Name(s)	Reference numerals	Name(s)
				100	Controller	301	Relay drive module
200	Power supply module	302	Relay device
				300	Motor control module	303	Electric machine
400	Display module	304	Antenna interface
				500	Angle detection circuit	501	Angle sensor
502	Isolation circuit

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that all directional indicators (such as up, down, left, right, front, back \8230;) in the embodiments of the present invention are only used to explain the relative positional relationship between the components, the motion situation, etc. in a specific posture (as shown in the attached drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

The invention provides a vehicle-mounted antenna lodging control circuit.

Referring to fig. 1, in the embodiment of the present invention, the vehicle-mounted antenna lodging control circuit includes a controller 100, a power module 200, a motor control module 300, and a display module 400, where the motor control module 300, the controller 100, and the display module 400 are sequentially connected, the motor control module 300 and the display module 400 are respectively connected to the power module 200, and the motor control module 300 is connected to each antenna;

the power module 200 is configured to supply power to the motor control module 300 and the display module 400.

It should be noted that the power module 200 is a dc power source, a part of the power source after the dc power source is input can directly supply power to the motor control module 300, and another part of the power source can supply power to the display module 400 through the isolation module. Meanwhile, the voltage and the current are sampled aiming at the input direct-current power supply, so that the condition of the whole vehicle-mounted antenna lodging control circuit is detected in real time.

The controller 100 is configured to obtain an execution signal and transmit the execution signal to the motor control module.

It should be noted that the controller 100 may adopt a single chip microcomputer, in this embodiment, the controller 100 adopts the single chip microcomputer whose model is JS32F407, and this embodiment does not specifically limit this.

The motor control module 300 is configured to control the erection or lodging of the corresponding antenna according to the execution signal.

It should be noted that the execution signals include an up execution signal, a down execution signal, and a stop execution signal; the motor control module 300 controls the antenna to be erected or laid down according to the received execution signal.

It can be understood that, in the process of the antenna increasing from 0 degree to 90 degrees, the received wireless signal is gradually enhanced; on the contrary, in the process that the antenna is reduced from 90 degrees to 0 degrees, the wireless signal of the antenna is gradually weakened; the angle of the antenna refers to the angle of the antenna to the horizontal plane.

The display module 400 is configured to determine the states of the antennas and perform corresponding display.

It should be noted that, as shown in fig. 2, the display module may be a display panel equipped with angle lamps, each antenna corresponds to one group of angle lamps, each group of angle lamps may correspond to angle states of four antennas, where the antennas are at 0 degree, 15 degrees, 45 degrees, and 90 degrees, and when it is detected that the antennas are at 90 degrees, the angle lamps corresponding to 90 degrees are turned on; the display module can also be used for displaying 80 degrees on the display corresponding to the antenna A when the antenna A is detected to be at 80 degrees.

The embodiment provides a vehicle-mounted antenna lodging control circuit, which comprises a controller, a power module, a motor control module and a display module, wherein the power module, the motor control module and the display module are respectively connected with the controller, the power module is connected with the motor control module, and the motor control module is connected with each antenna; the power supply module is used for supplying power to the motor control module; the controller is used for acquiring an execution signal and transmitting the execution signal to the motor control module; the motor control module is used for controlling the erection or lodging of the corresponding antenna according to the execution signal; and the display module is used for determining the state of each antenna and carrying out corresponding display. In the invention, the obtained execution signal is transmitted to the motor control module through the controller to control the corresponding antenna to be erected or laid, and the erection or laying state of the antenna is realized without manually adjusting a fixed spiral on the antenna.

Further, the vehicle-mounted antenna lodging control circuit further comprises an isolation module, wherein the input end of the isolation module is connected with the power module, and the output end of the isolation module is connected with the display module.

It should be noted that the isolation module can isolate the power transmitted from the power module to the motor control module 300 from the power transmitted to the display module 400. The isolation circuit mainly comprises an optical coupling device.

In this embodiment, the isolation module isolates the power supplied to the display module and the power supplied to the motor control module, and thus interference caused by electrical connection can be prevented, thereby affecting the stability of signals.

Further, the vehicle-mounted antenna lodging control circuit further comprises an operation panel, wherein a plurality of groups of control switches are arranged on the operation panel, and the operation panel is connected with the controller 100;

the operation panel is configured to generate an operation signal according to an operation action on the control switch, and transmit the operation signal to the controller 100; the controller 100 is configured to determine an execution signal according to the operation signal.

It should be noted that the control switch may be a key or an operation rod; each group of control switches correspondingly controls each antenna, and illustratively, the group A of control switches correspondingly controls the erection or lodging of the group A of antennas; each group of control switches comprises an up switch, a stop switch and a down switch.

In a specific implementation, the control switch is an operating rod as an example, a user dials the operating rod to the raising switch, the working indicator light on the operating panel is turned on, a raising operating signal is generated at the same time, the operating panel transmits the operating signal to the controller 100, the controller 100 determines an execution signal for controlling the raising of the antenna according to the operating signal and transmits the execution signal to the motor control module 300, and finally the raising of the antenna is controlled by the motor control module 300, that is, the raising is performed; after the antenna is raised to a certain angle, the corresponding angle lamp on the display module 400 is turned on, and for example, after the antenna is raised to 15 degrees, the angle lamp of 15 degrees is turned on; when the antenna reaches a certain angle, a user can dial the operating rod to the stop switch, and the antenna stops rising or stops falling.

Further, as shown in fig. 3, the motor control module 300 includes a plurality of antenna control circuits, each antenna control circuit includes a relay 302 driving module, a relay 302, a motor 303, and an antenna interface 304, and the controller 100, the relay 302 driving module, the relay 302, the motor 303, and the antenna interface 304 in each group are sequentially connected.

It should be noted that the antenna is connected to the motor 303 through the antenna interface 304; each group of antenna control circuits controls the erection or lodging of each antenna; in this embodiment, high power relays 302 may be used to control the raising, stopping, and lowering of the antennas, each antenna being controlled by two relays 302, one for controlling the raising, i.e., erecting, and the other for controlling the lowering, i.e., lodging, of the antenna. In the present embodiment, four sets of antenna control circuits are taken as an example for explanation, and as shown in fig. 2, the antenna control circuits of the a set, the antenna control circuits of the B set, the antenna control circuits of the C set, and the antenna control circuits of the D set are respectively, and the number of the antenna control circuits is not limited herein.

Further, the vehicle-mounted antenna lodging control circuit further comprises a plurality of groups of angle detection circuits 500, each angle detection circuit comprises an angle sensor 501 and an isolation circuit 502, each angle sensor 501 is arranged on the corresponding motor 303, and the controller 100, the isolation circuits 502 in each group and the angle sensors 501 are sequentially connected;

the angle sensor 501 is configured to acquire an angle detection signal of a corresponding antenna, and output the angle detection signal to the isolation circuit 502 for signal isolation;

the isolation circuit 502 is configured to transmit the isolated angle detection signal to the controller 100;

the controller 100 is configured to transmit the isolated angle detection signal to the display module;

the display module 400 is configured to determine the state of the antenna according to the isolated angle detection signal, and perform corresponding display.

Specifically, as shown in fig. 4, the angle detection circuit 500 includes an angle sensor 501 and an isolation circuit 502 connected in sequence, where the isolation circuit 501 corresponds to an "isolation" block on the left side of the controller 100 in fig. 2, and the angle detection signal may be transmitted to the controller 100 after passing through the isolation circuit according to the determination of fig. 2.

It should be noted that the isolation circuit includes an optical coupling device, which can isolate the angle sensor from the controller 100, so as to improve the anti-interference performance of the controller; each motor controls the elevation of each antenna, illustratively the a motor controls the elevation of the a antenna.

In specific implementation, as shown in fig. 2, after the antenna a is connected to the motor a 303 through the antenna a interface 304, the antenna a can go up and down along with the lifting of the motor a 303, the angle of the antenna a is determined by detecting the rotation degree of the motor a 303, the antenna a is at 15 degrees and transmits a 15-degree angle detection signal to the isolation circuit after generating the 15-degree angle detection signal, the angle sensor is isolated from the controller 100 by the isolation circuit, which can avoid affecting the stability of the angle sensing signal, the isolated angle detection signal is transmitted to the controller 100 by the isolation circuit, and finally the angle detection signal is transmitted to the display module by the controller 100, and when the display module determines that the antenna a is at 15 degrees according to the angle detection signal, the 15-degree angle lamp corresponding to the antenna a on the display module will be lighted.

Further, the vehicle-mounted antenna lodging control circuit further comprises a network port, and the network port is connected with the controller 100;

the network port is configured to acquire a control signal and transmit the control signal to the controller 100;

the controller 100 is configured to transmit the execution signal to the motor control module 300 after receiving the control signal;

the motor control module 300 is configured to control the erection or lodging of the corresponding antenna according to the execution signal.

It should be noted that the control signal is generated by a user through controlling a computer, and then the control signal is transmitted to the controller 100 through a network port, and the controller 100 transmits the execution signal to the motor control module 300 after receiving the control signal, so as to control the motor control module 300 through the network port, thereby achieving the purpose of erecting or lodging an antenna installed on a vehicle execution mechanism.

In the embodiment, a user can use a computer to erect or lay down an antenna mounted on a vehicle actuator through a network port.

Further, the vehicle-mounted antenna lodging control circuit further comprises a serial port, and the serial port is connected with the controller 100;

the serial port is configured to obtain a configuration signal and transmit the configuration signal to the controller 100;

the controller 100 is configured to perform network configuration according to the configuration signal.

It should be noted that the configuration signal is generated by a user by controlling a computer, and is transmitted to the controller 100 through a serial port, so that the controller 100 can complete network configuration according to the configuration signal; specifically, the network configuration mainly includes an IP configuration, a Netmask configuration, a Gateway configuration, and a DNS configuration.

It should be noted that the controller 100 may also perform parameter setting according to the configuration signal.

In the present embodiment, the user uses the computer to implement the network configuration for the controller 100 through the serial port, so that the user can quickly and conveniently implement the adjustment of the network configuration through the computer.

Further, the vehicle-mounted antenna lodging control circuit further comprises an abnormal indicator light, and the controller 100 is connected with the abnormal indicator light;

the controller 100 is configured to generate an alarm signal when obtaining the abnormal information, and transmit the alarm signal to the abnormal indicator light;

and the abnormal indicator light is used for lighting after receiving the alarm signal.

The abnormal information is obtained by sampling the voltage and current of the input direct-current power supply in real time; when detecting that the control circuit is abnormal, the controller 100 generates an alarm signal and transmits the alarm signal to the abnormal indicating lamp, and the abnormal indicating lamp is turned on after receiving the alarm signal.

In the embodiment, the abnormal condition of the vehicle-mounted antenna lodging control circuit can be timely found by detecting the input direct-current power supply in real time, and then the abnormal indicating lamp is turned on to remind a user that the vehicle-mounted antenna lodging control circuit is abnormal, so that the situation that the antenna cannot be controlled to be erected or lodged due to the abnormal condition of the vehicle-mounted antenna lodging control circuit can be avoided.

Further, the vehicle-mounted antenna lodging control circuit further comprises an antenna withdrawing indicator light and an antenna withdrawing button, wherein the antenna withdrawing indicator light and the antenna withdrawing button are respectively connected with the controller 100;

the antenna receive-remove button is configured to generate a receive-remove signal and transmit the receive-remove signal to the controller 100;

the controller 100 is configured to transmit the receive signal to the antenna receive cancellation indicator;

and the antenna withdrawing indicator lamp is used for lighting up after receiving the withdrawing signal.

It should be noted that the antenna retraction lamp is turned on to indicate that all the antennas mounted on the vehicle actuator have been retracted.

In a specific implementation, as shown in fig. 2, a user controls an antenna-withdrawing button to be in an "on" state, generates a withdrawing signal and transmits the withdrawing signal to the controller 100, the controller 100 will control all the vehicles on the vehicle actuator to withdraw, the controller 100 determines that all the antennas on the vehicle actuator have been withdrawn, and then transmits the withdrawing signal to a withdrawing indicator lamp, and the withdrawing indicator lamp will be turned on after receiving the withdrawing signal.

In this embodiment, remove through the antenna and receive the button and accomplish fast and remove the receipts to a key of installing all antennas on vehicle actuating mechanism, need not to operate the operating switch of all antennas and can accomplish the receipts of all antennas, not only can avoid the vehicle to damage the antenna when passing through the limit for height region because of the antenna is removed untimely, can also let military vehicle avoid being discovered by the enemy because of the antenna is removed untimely.

In order to achieve the purpose, the invention further provides a vehicle-mounted antenna lodging control device which comprises the vehicle-mounted antenna lodging control circuit. The specific structure of the circuit refers to the above embodiments, and since the vehicle-mounted antenna lodging control device can adopt the technical solutions of all the above embodiments, the circuit at least has the beneficial effects brought by the technical solutions of the above embodiments, and details are not repeated here.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

It should be noted that, in the practical application of the present invention, the software program is inevitably applied to the software program, but the applicant states that the software program applied in the embodiment of the present invention is the prior art, and in the present application, the modification and protection of the software program are not involved, but only the protection of the hardware architecture designed for the purpose of the invention.

Claims (10)

1. The vehicle-mounted antenna lodging control circuit is characterized by comprising a controller, a power supply module, a motor control module and a display module, wherein the motor control module, the controller and the display module are sequentially connected, the motor control module and the display module are respectively connected with the power supply module, and the motor control module is connected with each antenna;

the power supply module is used for supplying power to the motor control module and the display module;

the controller is used for acquiring an execution signal and transmitting the execution signal to the motor control module;

the motor control module is used for controlling the corresponding antenna to be erected or laid down according to the execution signal;

and the display module is used for determining the state of each antenna and carrying out corresponding display.

2. The vehicle-mounted antenna lodging control circuit of claim 1, further comprising an operation panel, wherein a plurality of groups of control switches are arranged on the operation panel, and the operation panel is connected with the controller;

the operation panel is used for generating an operation signal according to an operation action on the control switch and transmitting the operation signal to the controller;

the controller is used for determining an execution signal according to the operation signal.

3. The vehicle-mounted antenna lodging control circuit as claimed in claim 1, further comprising an isolation module, wherein an input end of the isolation module is connected with the power module, and an output end of the isolation module is connected with the display module.

4. The vehicle-mounted antenna lodging control circuit of claim 1, wherein the motor control module comprises a plurality of groups of antenna control circuits, the antenna control circuits comprise relay driving modules, relays, motors and antenna interfaces, and the controller, the relay driving modules, the relays, the motors and the antenna interfaces in each group are connected in sequence.

5. The vehicle-mounted antenna lodging control circuit according to claim 4, wherein the vehicle-mounted antenna lodging control circuit further comprises a plurality of groups of angle detection circuits, each angle detection circuit comprises an angle sensor and an isolation circuit, the angle sensors are arranged on the corresponding motors, and the controller, the isolation circuits in each group and the angle sensors are connected in sequence;

the angle sensor is used for acquiring an angle detection signal of a corresponding antenna and outputting the angle detection signal to the isolation circuit for signal isolation;

the isolation circuit is used for transmitting the isolated angle detection signal to the controller;

the controller is used for transmitting the isolated angle detection signal to the display module;

and the display module is used for determining the state of the antenna according to the isolated angle detection signal and carrying out corresponding display.

6. The vehicle antenna lodging control circuit of claim 1, further comprising a network port, the network port being connected to the controller;

the network port is used for acquiring a control signal and transmitting the control signal to the controller;

the controller is used for transmitting the execution signal to the motor control module after receiving the control signal;

and the motor control module is used for controlling the erection or the lodging of the corresponding antenna according to the execution signal.

7. The vehicle antenna lodging control circuit of claim 1, further comprising a serial port, the serial port being connected to the controller;

the serial port is used for acquiring a configuration signal and transmitting the configuration signal to the controller;

and the controller is used for carrying out network configuration according to the configuration signal.

8. The vehicle-mounted antenna lodging control circuit of claim 1, further comprising an abnormality indicator light, the controller being connected to the abnormality indicator light;

the controller is used for generating an alarm signal when the abnormal information is acquired and transmitting the alarm signal to the abnormal indicator light;

and the abnormal indicator light is used for lighting after receiving the alarm signal.

9. The vehicle-mounted antenna lodging control circuit according to claim 1, further comprising an antenna withdrawal indicator light and an antenna withdrawal button, wherein the antenna withdrawal indicator light and the antenna withdrawal button are respectively connected with the controller;

the antenna withdrawing button is used for generating a withdrawing signal and transmitting the withdrawing signal to the controller;

the controller is used for transmitting the receiving signal to the antenna receiving removing indicator lamp;

and the antenna withdrawing indicator lamp is used for lighting up after receiving the withdrawing signal.

10. A vehicle antenna lodging control device, characterized in that the vehicle antenna lodging control device comprises a vehicle antenna lodging control circuit according to any one of claims 1 to 9, and the vehicle antenna lodging control device is connected with an antenna on a vehicle actuator for controlling the antenna.

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