CN106569187B - A kind of automatic monitored control system based on agingtable - Google Patents
A kind of automatic monitored control system based on agingtable Download PDFInfo
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- CN106569187B CN106569187B CN201610921488.0A CN201610921488A CN106569187B CN 106569187 B CN106569187 B CN 106569187B CN 201610921488 A CN201610921488 A CN 201610921488A CN 106569187 B CN106569187 B CN 106569187B
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01S—RADIO DIRECTION-FINDING; RADIO NAVIGATION; DETERMINING DISTANCE OR VELOCITY BY USE OF RADIO WAVES; LOCATING OR PRESENCE-DETECTING BY USE OF THE REFLECTION OR RERADIATION OF RADIO WAVES; ANALOGOUS ARRANGEMENTS USING OTHER WAVES
- G01S7/00—Details of systems according to groups G01S13/00, G01S15/00, G01S17/00
- G01S7/02—Details of systems according to groups G01S13/00, G01S15/00, G01S17/00 of systems according to group G01S13/00
- G01S7/40—Means for monitoring or calibrating
- G01S7/4004—Means for monitoring or calibrating of parts of a radar system
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- Radar, Positioning & Navigation (AREA)
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- Computer Networks & Wireless Communication (AREA)
- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Testing Electric Properties And Detecting Electric Faults (AREA)
Abstract
The present invention relates to a kind of automatic monitored control systems based on agingtable, include: power supply device, test device, ageing rack, switch matrix, router, acoustic-optic alarm and puts device in advance, wherein, power supply device is connect with test device, ageing rack and router respectively, for powering for automatic monitored control system;Test device respectively with ageing rack, switch matrix, router, acoustic-optic alarm and in advance put device and connect, for testing the power-up ageing properties of T/R component;Ageing rack is put device and is connect with switch matrix and in advance respectively, for connecting T/R component;Switch matrix is used to switch the channel of microwave signal;Router is used for transmission control command;Acoustic-optic alarm is used for sound-light alarm;Device is put in advance for amplifying microwave signal.A kind of automatic monitored control system based on agingtable provided by the invention realizes the real-time automatic monitoring to the component aging performance of T/R, can find in time and solve the problems, such as that T/R component exists in burn-in test, promotes the reliability of T/R component.
Description
Technical field
The present invention relates to automation field more particularly to a kind of automatic monitored control systems based on agingtable.
Background technique
T/R component (Transmitter and Receiver) is the critical component of Connectors for Active Phased Array Radar, design
Success or not determines the cost, productibility and system performance of whole radar.Radar system application is delivered in T/R component
Before, it to carry out comprehensively long-term power-up ageing properties to T/R component to test, for assessing the ageing properties of T/R component.
Currently, the device of the test component aging performance of T/R generally includes: universal tester (including microwave signal source, function
Rate meter), ageing rack, DC power supply, the test component aging performance of T/R relies primarily on tester to the tested T/R component of a batch
A certain channel is timed selective examination detection, but since the equipment of the existing test component aging performance of T/R is to tester's dependence
Greatly, the ageing properties that can not monitor and record in real time whole T/R component, cause the accuracy of test result not high.
Summary of the invention
The technical problem to be solved by the present invention is to be directed to the equipment of the existing test component aging performance of T/R to tester
The problem of dependence is big, can not monitor and record in real time the ageing properties of whole T/R component provides one kind based on agingtable to T/
The system of R component progress automatic monitoring.
The technical scheme to solve the above technical problems is that
A kind of automatic monitored control system based on agingtable, comprising: power supply device, test device, ageing rack, switch matrix,
Router, acoustic-optic alarm and device is put in advance, wherein
The power supply device is connect with the test device, the ageing rack and the router respectively, the power supply dress
Set for in addition to the switch matrix other each devices and the ageing rack power supply;
The test device respectively with the ageing rack, the switch matrix, the router, the acoustic-optic alarm
It is connected with the pre- device of putting, the test device is used to carry out the survey of the power-up ageing properties of T/R component according to test command
Examination, obtains the ageing properties information of the T/R component, obtains test result;
The ageing rack is connect with the switch matrix and the pre- device of putting respectively, and the ageing rack is described for connecting
T/R component;
The switch matrix is used to switch according to the test command channel of microwave signal;
The router is used for transmission the control command;
The acoustic-optic alarm is used to carry out sound-light alarm according to the test result;
The pre- device of putting is for amplifying the microwave signal.
The beneficial effects of the present invention are: a kind of automatic monitored control system based on agingtable provided by the invention, passes through aging
Frame connects T/R component, issues control command control test device by router and is powered up ageing properties test to T/R group,
And switch the channel of microwave signal by switch matrix, and amplify microwave signal by putting device in advance, and fill by sound-light alarm
It sets and sound-light alarm is carried out to test result, realize the real-time automatic monitoring to the component aging performance of T/R, can find in time simultaneously
It solves the problems, such as that T/R component exists in burn-in test, promotes the reliability of T/R component.
Based on the above technical solution, the present invention can also be improved as follows.
Further, the power supply device includes: power-up control combination, insert row, the first high-power DC power supply and the
Two high-power DC power supplies, wherein
The input terminal a of the power-up control combination is connect with 380v supply voltage, and input terminal b and 220v supply voltage connect
It connects, the output end c input terminal a with the input terminal a of first high-power DC power supply and the second high-power DC power supply respectively
Connection, output end d are connect with the energization input a of the insert row;
The insert row is connect with the test device;
The network input b of first high-power DC power supply is connected to the router, power output end c with it is described
Ageing rack connection;
The network input b of second high-power DC power supply is connected to the router, power output end c with it is described
Ageing rack connection.
Further, the test device includes: spectrum analyzer, microwave signal source, wave beam control combination, control calculating
Machine, KVM, power meter, temperature measuring device and program-control DC power, wherein
The energization input a of the spectrum analyzer is connect with the power output end b of the insert row, microwave input port b with
The switch matrix connection, network input c are connected to the router;
The energization input a of the microwave signal source is connect with the power output end c of the insert row, network input b with
The router connection, microwave output end c are connect with the pre- device of putting;
The power input a of the wave beam control combination is connect with the channel b of the program-control DC power, network input
B is connected to the router, and wave control output end c is connect with the ageing rack;
It is described control computer energization input a connect with the power output end d of the insert row, network input b and
The router connection, serial ports output end c are connect with the switch matrix, and the end VGA d is connect with the end the VGA b of the KVM;
The energization input a of the KVM is connect with the power output end e of the insert row, and the end VGA b and the control calculate
The end the VGA d connection of machine;
The energization input a of the power meter is connect with the power output end f of the insert row, network input b with it is described
Router connection, microwave input port c are connect with the switch matrix;
The energization input a of the temperature measuring device is connect with the power output end g of the insert row, network input b with
The router connection, temperature sensor end c are connect with the ageing rack;
The energization input a of the program-control DC power is connect with the power output end h of the insert row, channel b with it is described
The power input a connection of wave beam control combination, network input c are connected to the router, channel d and the sound-light alarm
Device connection, channel e are connect with the pre- device of putting.
Further, the power output end c of the power input a of the ageing rack and first high-power DC power supply
Connection;
Power input b is connect with the power output end c of second high-power DC power supply;
Microwave input port c is connect with the pre- device of putting;
Microwave output end d is connect with the switch matrix;
Wave control input terminal e is connect with the wave control output end c of the wave beam control combination;
Sensing bit end f is connect with the temperature sensor end c of the temperature measuring device.
Further, the serial ports input terminal a of the switch matrix is connect with the serial ports output end c of the control computer;
The microwave output end b microwave input port c with the microwave input port b of the spectrum analyzer and the power meter respectively
Connection;
Power input c is electrically connected with 220v exchange;
Microwave input port d is connect with the microwave output end d of the ageing rack.
Further, the network output a of the router is connect with the network input c of the spectrum analyzer;
Network output b is connect with the network input b of the microwave signal source;
Network output c is connect with the network input b of the wave beam control combination;
Network output d is connect with the network input b of the control computer;
Network output e is connect with the network input b of the power meter;
Network output f is connect with the network input b of the temperature measuring device;
Network output g is connect with the network input c of the program-control DC power;
Network output h is connect with the network input b of first high-power DC power supply;
Network output i is connect with the energization input b of second high-power DC power supply;
Power input j is connect with the power output end i of the insert row.
Further, the power input a of the acoustic-optic alarm is connect with the channel d of the program-control DC power.
Further, the pre- microwave input port a for putting device is connect with the microwave output end c of the microwave signal source;
Microwave output end b is connect with the microwave input port c of the ageing rack;
Power input c is connect with the channel e of the program-control DC power.
Further, the switch matrix includes independent power switch.
Further, the spectrum analyzer, the microwave signal source, the control computer, the power meter,
The temperature measuring device, the program-control DC power and the router respectively contain power switch, the power switch
For closing the power switch, turning off the power switch of the switch matrix, make after power-up control combination power-up
The automatic monitored control system enters working condition.
The advantages of additional aspect of the invention, will be set forth in part in the description, and will partially become from the following description
It obtains obviously, or practice is recognized through the invention.
Detailed description of the invention
Fig. 1 is a kind of structural framing figure of the automatic monitored control system based on agingtable provided in an embodiment of the present invention;
Fig. 2 be another embodiment of the present invention provides a kind of automatic monitored control system based on agingtable device connection relationship
Figure.
Specific embodiment
The principle and features of the present invention will be described below with reference to the accompanying drawings, and the given examples are served only to explain the present invention, and
It is non-to be used to limit the scope of the invention.
As shown in Figure 1, being a kind of structural framing of the automatic monitored control system based on agingtable provided in an embodiment of the present invention
Figure, the structural framing of the automatic monitored control system include:
Power supply device 110, test device 120, ageing rack 130, switch matrix 140, router 150, acoustic-optic alarm
160 and put device 170 in advance, wherein
Power supply device 110 is connect with test device 120, ageing rack 130 and router 150 respectively, and power supply device 110 is used for
For in addition to switch matrix 140 other each devices and ageing rack 130 power;
Test device 120 respectively with ageing rack 130, switch matrix 140, router 150, acoustic-optic alarm 160 and pre-
The connection of device 170 is put, test device 120 is used to carry out the test of the power-up ageing properties of T/R component according to test command, obtains
The ageing properties information of T/R component, obtains test result;
Ageing rack 130 is put device 170 and connect with switch matrix 140 and in advance respectively, and ageing rack 130 is used to connect T/R component;
Switch matrix 140 is used to switch according to test command the channel of microwave signal;
Router 150 is used for transmission control command;
Acoustic-optic alarm 160 is used to carry out sound-light alarm according to test result;
Device 170 is put in advance for amplifying microwave signal.
A kind of automatic monitored control system based on agingtable provided in above-described embodiment connects T/R component by ageing rack,
Control command control test device is issued by router, ageing properties test is powered up to T/R group, and pass through switch matrix
Switch microwave signal channel, and by put in advance device amplify microwave signal, and by acoustic-optic alarm to test result into
Row sound-light alarm realizes the real-time automatic monitoring to the component aging performance of T/R, can find and be solved in burn-in test in time
T/R component there are the problem of, promoted T/R component reliability.
In another embodiment, as shown in Fig. 2, for another embodiment of the present invention provides it is a kind of based on the automatic of agingtable
The device annexation figure of monitoring system, the device of the automatic monitored control system include:
It is powered on control combination 111, input terminal a is connect with 380v supply voltage, and input terminal b and 220v supply voltage connect
It connects, the output end c input terminal with the input terminal a of the first high-power DC power supply 113 and the second high-power DC power supply 114 respectively
A connection, output end d are connect with the energization input a of insert row 112;
Insert row 112 is connect with test device 120;
First high-power DC power supply 113, network input b are connect with router 150, power output end c and aging
Frame 130 connects;
Second high-power DC power supply 114, network input b are connect with router 150, power output end c and aging
Frame 130 connects;
Spectrum analyzer 121, energization input a are connect with the power output end b of insert row 112, microwave input port b with open
It closes matrix 140 to connect, network input c is connect with router 150;
Microwave signal source 122, energization input a are connect with the power output end c of insert row 112, network input b and road
Connected by device 150, microwave output end c with put device 170 in advance and connect;
Wave beam control combination 123, power input a are connect with the channel b of program-control DC power 128, network input b
It is connect with router 150, wave control output end c is connect with ageing rack 130;
Computer 124 is controlled, energization input a is connect with the power output end d of insert row 112, network input b and road
It is connected by device 150, serial ports output end c is connect with switch matrix 140, the end the VGA b connection of the end VGA d and KVM125;
KVM125, energization input a are connect with the power output end e of insert row 112, the end VGA b and control computer 124
The d connection of the end VGA;
Power meter 126, energization input a are connect with the power output end f of insert row 112, network input b and router
150 connections, microwave input port c are connect with switch matrix 140;
Temperature measuring device 127, energization input a are connect with the power output end g of insert row 112, network input b and road
It is connected by device 150, temperature sensor end c is connect with ageing rack 130;
Program-control DC power 128, energization input a are connect with the power output end h of insert row 112, channel b and wave beam control
The power input a connection of system combination 123, network input c are connect with router 150, channel d and acoustic-optic alarm 160
Connection, channel e are put device 170 and are connect with pre-;
Ageing rack 130, power input a are connect with the power output end c of the first high-power DC power supply 113, power supply
Input terminal b is connect with the power output end c of the second high-power DC power supply 114, microwave input port c with put device 170 in advance and connect,
Microwave output end d is connect with switch matrix 140, and wave control input terminal e is connect with the wave control output end c of wave beam control combination 123, is passed
Sense bit end f is connect with the temperature sensor end c of temperature measuring device 127;
Switch matrix 140, serial ports input terminal a are connect with the serial ports output end c of control computer 124, microwave output end b
Connect respectively with the microwave input port c of the microwave input port b of spectrum analyzer 121 and power meter 126, power input c with
220v exchange electrical connection, microwave input port d are connect with the microwave output end d of ageing rack 130;
Router 150, network output a are connect with the network input c of spectrum analyzer 121, network output b with
The network input b connection of microwave signal source 122, network output c are connect with the network input b of wave beam control combination 123,
Network output d is connect with the network input b of control computer 124, the network inputs of network output e and power meter 126
B connection is held, network output f is connect with the network input b of temperature measuring device 127, network output g and program-control DC power
128 network input c connection, network output h are connect with the network input b of the first high-power DC power supply 113, network
Output end i is connect with the energization input b of the second high-power DC power supply 114, and power input j and the power supply of insert row 112 are defeated
Outlet i connection;
Acoustic-optic alarm 160, power input a are connect with the channel d of program-control DC power 128;
Device 170 is put in advance, microwave input port a is connect with the microwave output end c of microwave signal source 122, microwave output end b
It is connect with the microwave input port c of ageing rack 130, power input c is connect with the channel e of program-control DC power 128.
Further, switch matrix 140 includes independent power switch.
Further, spectrum analyzer 121, microwave signal source 122, control computer 124, power meter 126, temperature measuring device
127, program-control DC power 128 and router 150 respectively contain power switch, and power switch is used for when power-up control combination
After 111 power-up, turns off the power switch, turn off the power switch of switch matrix 140, automatic monitored control system is made to enter work shape
State.
In several embodiments provided herein, it should be understood that disclosed device can be by others side
Formula is realized.For example, the apparatus embodiments described above are merely exemplary, for example, the division of device, only one kind are patrolled
Volume function division, there may be another division manner in actual implementation, such as multiple devices or element can combine or can be with
It is integrated into another device, or some features can be ignored or not executed.In addition, shown or discussed mutual coupling
Close or direct-coupling or communication connection can be through some interfaces, the indirect coupling or communication connection of device or unit, can also
To be electric, mechanical or other form connections.
The foregoing is merely presently preferred embodiments of the present invention, is not intended to limit the invention, it is all in spirit of the invention and
Within principle, any modification, equivalent replacement, improvement and so on be should all be included in the protection scope of the present invention.
Claims (9)
1. a kind of automatic monitored control system based on agingtable characterized by comprising power supply device (110), test device
(120), ageing rack (130), switch matrix (140), router (150), acoustic-optic alarm (160) and device is put in advance
(170), wherein
The power supply device (110) respectively with the test device (120), the ageing rack (130) and the router (150)
Connection, the power supply device (110) are used for as other described each devices in addition to the switch matrix (140) and described old
Change frame (130) power supply;
The test device (120) respectively with the ageing rack (130), the switch matrix (140), the router (150),
The acoustic-optic alarm (160) and described pre- put device (170) connect, and the test device (120) is used to be ordered according to test
The test for send/receive the power-up ageing properties of T/R component is enabled, the ageing properties information of the T/R component is obtained, obtains
Test result;
The ageing rack (130) connect with the switch matrix (140) and the pre- device (170) of putting respectively, the ageing rack
(130) for connecting the T/R component;
The switch matrix (140) is used to switch according to the test command channel of microwave signal;
The router (150) is used for transmission control command;
The acoustic-optic alarm (160) is used to carry out sound-light alarm according to the test result;
Described pre- put device (170) are for amplifying the microwave signal;
The power supply device (110) includes: power-up control combination (111), insert row (112), the first high-power DC power supply (113)
And second high-power DC power supply (114), wherein
The input terminal a of power-up control combination (111) is connect with 380v supply voltage, and input terminal b and 220v supply voltage connect
Connect, output end c respectively with the input terminal a and the second high-power DC power supply (114) of first high-power DC power supply (113)
Input terminal a connection, output end d connect with the energization input a of the insert row (112);
The insert row (112) connect with the test device (120);
The network input b of first high-power DC power supply (113) is connect with the router (150), power output end c
It is connect with the ageing rack (130);
The network input b of second high-power DC power supply (114) is connect with the router (150), power output end c
It is connect with the ageing rack (130).
2. automatic monitored control system according to claim 1, which is characterized in that the test device (120) includes: frequency spectrum point
Analyzer (121), microwave signal source (122), wave beam control combination (123), control computer (124), KVM switch KVM
(125), power meter (126), temperature measuring device (127) and program-control DC power (128), wherein
The energization input a of the spectrum analyzer (121) is connect with the power output end b of the insert row (112), microwave input
End b is connect with the switch matrix (140), and network input c is connect with the router (150);
The energization input a of the microwave signal source (122) is connect with the power output end c of the insert row (112), network inputs
End b is connect with the router (150), and microwave output end c is connect with the pre- device (170) of putting;
The power input a of the wave beam control combination (123) is connect with the channel b of the program-control DC power (128), network
Input terminal b is connect with the router (150), and wave control output end c is connect with the ageing rack (130);
The energization input a of control computer (124) is connect with the power output end d of the insert row (112), network inputs
End b is connect with the router (150), and serial ports output end c is connect with the switch matrix (140), the end VGA d and the KVM
(125) the end VGA b connection;
The energization input a of the KVM (125) is connect with the power output end e of the insert row (112), the end VGA b and the control
The end the VGA d connection of computer (124) processed;
The energization input a of the power meter (126) is connect with the power output end f of the insert row (112), network input b
It is connect with the router (150), microwave input port c is connect with the switch matrix (140);
The energization input a of the temperature measuring device (127) is connect with the power output end g of the insert row (112), network inputs
End b is connect with the router (150), and temperature sensor end c is connect with the ageing rack (130);
The energization input a of the program-control DC power (128) is connect with the power output end h of the insert row (112), channel b
It is connect with the power input a of the wave beam control combination (123), network input c is connect with the router (150), is led to
Road d is connect with the acoustic-optic alarm (160), and channel e is connect with the pre- device (170) of putting.
3. automatic monitored control system according to claim 2, which is characterized in that the power input a of the ageing rack (130)
It is connect with the power output end c of first high-power DC power supply (113);
Power input b is connect with the power output end c of second high-power DC power supply (114);
Microwave input port c is connect with the pre- device (170) of putting;
Microwave output end d is connect with the switch matrix (140);
Wave control input terminal e is connect with the wave control output end c of the wave beam control combination (123);
Sensing bit end f is connect with the temperature sensor end c of the temperature measuring device (127).
4. automatic monitored control system according to claim 3, which is characterized in that the serial ports of the switch matrix (140) inputs
End a is connect with the serial ports output end c of control computer (124);
The microwave output end b microwave with the microwave input port b of the spectrum analyzer (121) and the power meter (126) respectively
Input terminal c connection;
Power input c is electrically connected with 220v exchange;
Microwave input port d is connect with the microwave output end d of the ageing rack (130).
5. the automatic monitored control system according to any one of claim 2-4, which is characterized in that the router (150)
Network output a is connect with the network input c of the spectrum analyzer (121);
Network output b is connect with the network input b of the microwave signal source (122);
Network output c is connect with the network input b of the wave beam control combination (123);
Network output d is connect with the network input b of control computer (124);
Network output e is connect with the network input b of the power meter (126);
Network output f is connect with the network input b of the temperature measuring device (127);
Network output g is connect with the network input c of the program-control DC power (128);
Network output h is connect with the network input b of first high-power DC power supply (113);
Network output i is connect with the energization input b of second high-power DC power supply (114);
Power input j is connect with the power output end i of the insert row (112).
6. automatic monitored control system according to claim 5, which is characterized in that the power supply of the acoustic-optic alarm (160)
Input terminal a is connect with the channel d of the program-control DC power (128).
7. the automatic monitored control system according to any one of claim 2,3,4 or 6, which is characterized in that described pre- to put device
(170) microwave input port a is connect with the microwave output end c of the microwave signal source (122);
Microwave output end b is connect with the microwave input port c of the ageing rack (130);
Power input c is connect with the channel e of the program-control DC power (128).
8. automatic monitored control system according to claim 4, which is characterized in that the switch matrix (140) includes independent
Power switch.
9. automatic monitored control system according to claim 8, which is characterized in that the spectrum analyzer (121), the microwave
Signal source (122), the control computer (124), the power meter (126), the temperature measuring device (127), the direct current
Programmable power supply (128) and the router (150) respectively contain power switch, and the power switch is used to work as the power-up
After control combination (111) power-up, the power switch is closed, the power switch of the switch matrix (140) is turned off, made described
Automatic monitored control system enters working condition.
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CN107525988A (en) * | 2017-08-18 | 2017-12-29 | 成都雷电微力科技有限公司 | A kind of general microwave components aging test equipment |
CN110161334B (en) * | 2019-05-24 | 2021-08-17 | 上海航天电子通讯设备研究所 | Burn-in system for sending and receiving assembly |
CN112098753B (en) * | 2020-09-11 | 2023-05-16 | 北京无线电测量研究所 | Electronic component aging test system and method |
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发射-接收组件老化结果分析;R.J. 斯利瓦;《雷达与对抗》;19880530(第2期);65-70页 |
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