TWI806012B - Detonation signal processing test system and method - Google Patents
Detonation signal processing test system and method Download PDFInfo
- Publication number
- TWI806012B TWI806012B TW110108820A TW110108820A TWI806012B TW I806012 B TWI806012 B TW I806012B TW 110108820 A TW110108820 A TW 110108820A TW 110108820 A TW110108820 A TW 110108820A TW I806012 B TWI806012 B TW I806012B
- Authority
- TW
- Taiwan
- Prior art keywords
- unit
- signals
- actuation
- under test
- generate
- Prior art date
Links
Images
Landscapes
- Alarm Systems (AREA)
- Emergency Protection Circuit Devices (AREA)
Abstract
一種起爆信號處理測試系統,其中包括:一測台單元,係用於下達一做動指令;一判斷單元,該判斷單元係電性連接該測台單元,並用於接收該做動指令,並根據該做動指令進行計算從而產生複數做動訊號;以及一待測單元,該待測單元係電性連接該判斷單元,其中該判斷單元中的一切換單元對該待測單元中的複數攔截物件進行物件切換,當切換至其中一該攔截物件時,該待測單元根據該複數做動訊號進行判斷從而產生複數回饋訊號,並將該複數回饋訊號回傳至該判斷單元。 A detonation signal processing test system, which includes: a test platform unit, which is used to issue an actuation command; a judgment unit, which is electrically connected to the test platform unit, and is used to receive the actuation command, and according to The actuation command is calculated to generate a plurality of actuation signals; and a unit under test, the unit under test is electrically connected to the judgment unit, wherein a switching unit in the judgment unit intercepts the plurality of objects in the unit under test Object switching is performed. When switching to one of the intercepting objects, the unit under test makes a judgment according to the plurality of actuation signals to generate a plurality of feedback signals, and returns the plurality of feedback signals to the judgment unit.
Description
本發明係關於一種信號處理測試系統與方法,特別是關於一種起爆信號處理測試系統與方法。 The present invention relates to a signal processing and testing system and method, in particular to a detonation signal processing and testing system and method.
針對起爆訊號處理單元(SPFU,Signal Processing and Firing Unit)為飛彈接戰過程中執行脫節、引爆的重要模組,若無法正常工作,即便飛彈能追蹤、鎖定目標,仍無法完成攔截任務,故可靠度要求非常高;傳統技術在執行測試時,需要使用離架插銷、安全備炸裝置(S&A)、安全控制裝置(SCD)、碰炸開關等機械式手動裝置與SPFU模擬器,來模擬飛彈離架、引爆等狀態,但人為操作可能會有疏失,且每次測試操作的時序皆不同,機械式開關在切換時也會有人為延遲與機械干涉等問題,並非是高可靠度的測試程序。 The SPFU (Signal Processing and Firing Unit) is an important module that performs disconnection and detonation during missile engagement. If it fails to work normally, even if the missile can track and lock the target, it still cannot complete the interception task, so it is reliable The accuracy requirements are very high; traditional technology needs to use mechanical manual devices such as detachment pins, safety preparation devices (S&A), safety control devices (SCD), bump switches and SPFU simulators to simulate missile detachment. However, there may be mistakes in human operation, and the timing of each test operation is different. There are also problems such as human delay and mechanical interference when switching mechanical switches. It is not a highly reliable test program.
鑒於上述習知技術之缺點並同時改善上述機械式開關在切換時也會有人為延遲與機械干涉等問題,本發明提出使用起爆信號處理測試系統與方法,可透過搭配數位控制模組整合類比機電裝置,並以程式遠端控制取代人為操作,讓測試程序全自動化,且固定測試訊號的時序,有效降 低人為因素、提高測試可靠度與效率來解決上述的缺點。 In view of the shortcomings of the above-mentioned conventional technology and at the same time to improve the problems of artificial delay and mechanical interference when the above-mentioned mechanical switch is switched, the present invention proposes the use of a detonation signal processing test system and method, which can integrate analog electromechanical by matching a digital control module. device, and replace manual operation with program remote control, so that the test procedure is fully automated, and the timing of the test signal is fixed, effectively reducing the Low human factors, improve test reliability and efficiency to solve the above shortcomings.
為了達到上述目的,根據本發明所提出之一種起爆信號處理測試系統,其中包括:一測台單元,係用於下達一做動指令;一判斷單元,該判斷單元係電性連接該測台單元,並用於接收該做動指令,並根據該做動指令進行計算從而產生複數做動訊號;以及一待測單元,該待測單元係電性連接該判斷單元,其中該判斷單元中的一切換單元對該待測單元中的複數攔截物件進行物件切換,當切換至其中一該攔截物件時,該待測單元根據該複數做動訊號進行判斷從而產生複數回饋訊號,並將該複數回饋訊號回傳至該判斷單元。 In order to achieve the above object, a detonation signal processing and testing system proposed according to the present invention includes: a test platform unit, which is used to issue an actuation command; a judgment unit, which is electrically connected to the test platform unit , and is used to receive the actuation command, and calculate according to the actuation command to generate a plurality of actuation signals; and a unit to be tested, the unit to be tested is electrically connected to the judgment unit, wherein a switch in the judgment unit The unit performs object switching on the plurality of intercepting objects in the unit under test. When switching to one of the intercepting objects, the unit under test makes a judgment according to the plurality of actuation signals to generate a plurality of feedback signals, and returns the plurality of feedback signals to to the judging unit.
本發明的該起爆信號處理測試系統,其中該判斷單元包括:一處理單元,該處理單元係根據該做動指令進行判斷從而產生一處理資訊;一控制單元,該控制單元係電性連接該處理單元,並用於接收該處理資訊,並將該處理資訊進行計算並產生複數做動訊號;以及一做動單元,該做動單元係電性連接該控制單元,並將該複數做動訊號傳遞至該待測單元,該待測單元根據該複數做動訊號進行判斷從而產生複數回饋訊號,並將該複數回饋訊號回傳至該做動單元。 In the detonation signal processing and testing system of the present invention, the judging unit includes: a processing unit, which performs judgment according to the actuation command to generate processing information; a control unit, which is electrically connected to the processing unit A unit for receiving the processing information, calculating the processing information and generating multiple actuation signals; and an actuation unit, the actuation unit is electrically connected to the control unit, and transmits the multiple actuation signals to The unit under test performs judgment according to the plurality of actuation signals to generate a plurality of feedback signals, and returns the plurality of feedback signals to the actuation unit.
本發明的該起爆信號處理測試系統,其中該做動單元包括:一固態繼電器單元,係用於將該複數做動訊號傳遞至該待測單元;一電壓輸入單元,係用於接收該複數回饋訊號,並將該複數回饋訊號傳遞至該控制單元,該控制單元依 據該複數回饋訊號進行計算從而產生複數攔截訊號;一電壓輸出單元,係用於將該複數攔截訊號傳遞至該待測單元,該待測單元其中一該攔截物件則根據該複數攔截訊號對一物件進行攔截,此時該待測單元會產生一結果資訊;以及一收集單元,該收集單元係用於接收該結果資訊,並將該結果資訊傳遞致該控制單元,該控制單元再將該結果資訊傳送至該測台單元。 In the detonation signal processing and testing system of the present invention, the actuation unit includes: a solid state relay unit, which is used to transmit the multiple actuation signals to the unit under test; a voltage input unit, which is used to receive the multiple feedbacks signal, and transmit the complex feedback signal to the control unit, the control unit according to Calculate according to the multiple feedback signals to generate multiple intercept signals; a voltage output unit is used to transmit the multiple intercept signals to the unit under test, and one of the intercept objects in the unit under test is based on the multiple intercept signals. The object is intercepted, at this time, the unit under test will generate a result information; and a collection unit, the collection unit is used to receive the result information, and transmit the result information to the control unit, and the control unit then sends the result information The information is sent to the test bench unit.
本發明的該起爆信號處理測試系統,其中該測台單元包括:一顯示單元與一第一傳遞單元。 In the detonation signal processing and testing system of the present invention, the test platform unit includes: a display unit and a first transmission unit.
本發明的該起爆信號處理測試系統,其中該複數做動訊號包括:一拔除安全插銷開關、一啟動碰炸開關、一安全備炸裝置備位與一安全控制裝置備位。 In the detonation signal processing and testing system of the present invention, the plurality of actuation signals include: a pull-out safety plug switch, an activation bump switch, a safety preparation device for a standby position and a safety control device for a standby position.
本發明的該起爆信號處理測試系統,其中該複數回饋訊號包括:一安全插銷開啟、一安全插銷關閉、一碰炸開關開啟、一碰炸開關無開啟、一安全備炸裝置備位、一安全備炸裝置無備位、一安全控制裝置備位或一安全控制裝置無備位。 In the detonation signal processing and testing system of the present invention, the plurality of feedback signals include: a safety bolt is opened, a safety bolt is closed, a bumper switch is turned on, a bumper switch is not turned on, a safety device is ready for explosion, a safety The explosive preparation device has no standby position, a safety control device has a standby position, or a safety control device has no standby position.
本發明的該起爆信號處理測試系統,其中該複數攔截訊號包括:一物件攔截與一物件方向。 In the detonation signal processing and testing system of the present invention, the plurality of intercepted signals include: an object interception and an object direction.
本發明的該信號處理測試方法,其中利用該測台單元下達該做動指令;接著該判斷單元接收該做動指令,並根據該做動指令進行計算從而產生複數做動訊號;以及透過 該判斷單元中的該切換單元對該待測單元中的複數攔截物件進行物件切換,當切換至其中一該攔截物件時,該待測單元根據該複數做動訊號進行判斷從而產生複數回饋訊號,並將該複數回饋訊號回傳至該判斷單元。 In the signal processing test method of the present invention, the test platform unit is used to issue the actuation command; then the judging unit receives the actuation command, and performs calculations based on the actuation command to generate a plurality of actuation signals; and through The switching unit in the judging unit performs object switching on the plurality of intercepting objects in the unit under test, and when switching to one of the intercepting objects, the unit under test performs judgment according to the plurality of actuation signals to generate a plurality of feedback signals, and returning the plurality of feedback signals to the judging unit.
本發明的該起爆信號處理測試方法,其中該判斷單元包括:一處理單元,該處理單元係根據該做動指令進行判斷從而產生一處理資訊;一控制單元,該控制單元係電性連接該處理單元,並用於接收該處理資訊,並將該處理資訊進行計算並產生複數做動訊號;以及一做動單元,該做動單元係電性連接該控制單元,並將該複數做動訊號傳遞至該待測單元,該待測單元根據該複數做動訊號進行判斷從而產生複數回饋訊號,並將該複數回饋訊號回傳至該做動單元。 In the detonation signal processing and testing method of the present invention, the judging unit includes: a processing unit, which performs judgment according to the actuation command to generate processing information; a control unit, which is electrically connected to the processing unit A unit for receiving the processing information, calculating the processing information and generating multiple actuation signals; and an actuation unit, the actuation unit is electrically connected to the control unit, and transmits the multiple actuation signals to The unit under test performs judgment according to the plurality of actuation signals to generate a plurality of feedback signals, and returns the plurality of feedback signals to the actuation unit.
本發明的該起爆信號處理測試方法,其中該做動單元包括:一固態繼電器單元,係用於將該複數做動訊號傳遞至該待測單元;一電壓輸入單元,係用於接收該複數回饋訊號,並將該複數回饋訊號傳遞至該控制單元,該控制單元依據該複數回饋訊號進行計算從而產生複數攔截訊號;一電壓輸出單元,係用於將該複數攔截訊號傳遞至該待測單元,該待測單元其中一該攔截物件則根據該複數攔截訊號對一物件進行攔截,此時該待測單元會產生一結果資訊;以及一收集單元,該收集單元係用於接收該結果資訊,並將該結果資訊傳遞致該控制單元,該控制單元再將該結果資訊傳送至該 測台單元。 In the detonation signal processing and testing method of the present invention, the actuation unit includes: a solid state relay unit, which is used to transmit the multiple actuation signals to the unit under test; a voltage input unit, which is used to receive the multiple feedbacks signal, and transmit the complex feedback signal to the control unit, and the control unit performs calculations based on the complex feedback signal to generate a complex interception signal; a voltage output unit is used to transmit the complex interception signal to the unit under test, One of the intercepting objects of the unit under test intercepts an object according to the plurality of intercepting signals, and at this time, the unit under test will generate a result information; and a collection unit, the collection unit is used to receive the result information, and transmit the result information to the control unit, and the control unit transmits the result information to the Bench unit.
以上之概述與接下來的詳細說明及附圖,皆是為了能進一步說明本創作達到預定目的所採取的方式、手段及功效。而有關本創作的其他目的及優點,將在後續的說明及圖式中加以闡述。 The above overview and the following detailed description and accompanying drawings are all for the purpose of further explaining the ways, means and effects adopted by this creation to achieve the intended purpose. Other purposes and advantages of this creation will be described in subsequent descriptions and drawings.
1:測台單元 1: Bench unit
2:判斷單元 2: Judgment unit
3:待測單元 3: Unit under test
11:指令單元 11: Instruction unit
12:顯示單元 12: Display unit
13:第一傳遞單元 13: The first delivery unit
21:處理單元 21: Processing unit
22:控制單元 22: Control unit
23:做動單元 23: Action unit
24:第二傳遞單元 24: Second transfer unit
25:切換單元 25: Switch unit
231:固態繼電器單元 231: Solid state relay unit
232:電壓輸入單元 232: Voltage input unit
233:電壓輸出單元 233: Voltage output unit
234:收集單元 234: collection unit
第一圖係為本發明起爆信號處理測試系統之示意圖。 The first figure is a schematic diagram of the detonation signal processing and testing system of the present invention.
以下係藉由特定的具體實例說明本創作之實施方式,熟悉此技藝之人士可由本說明書所揭示之內容輕易地了解本創作之優點及功效。 The implementation of this creation is described below with specific examples, and those who are familiar with this technology can easily understand the advantages and effects of this creation from the content disclosed in this manual.
請參閱第一圖所示,本發明起爆信號處理測試系統之示意圖,其中起爆信號處理測試系統係由測台單元1、判斷單元2與待測單元3所組成,該測台單元1係用於下達一做動指令,該判斷單元2係電性連接該測台單元1,並用於接收該做動指令,其中該判斷單元2根據該做動指令進行計算從而產生複數做動訊號,以及該待測單元3係電性連接該判斷單元2,其中該判斷單元2中的切換單元25對該待測單元3中的複數攔截物件(攔截物件1、攔截物件2~擱截物件n)進行物件切換,當切換至其中一該攔截物件時,該待測單元3根據該複數做動訊號進行判斷從而產生複數回饋訊號,並將
該複數回饋訊號回傳至該判斷單元2;該測台單元1係由指令單元11、顯示單元12與第一傳遞單元13所組成,其中該指令單元11係用於下達一做動指令,該做動指令係透過該第一傳遞單元13傳遞於該判斷單元2;其中該複數做動訊號包括拔除安全插銷開關、啟動碰炸開關、安全備炸裝置備位、安全控制裝置備位,以及該複數回饋訊號包括安全插銷開啟、安全插銷關閉、碰炸開關開啟、碰炸開關無開啟、安全備炸裝置備位、安全備炸裝置無備位、安全控制裝置備位或安全控制裝置無備位,而上述所述複數做動訊號與複數回饋訊號不應本次實施例而有所限定。
Please refer to shown in the first figure, the schematic diagram of the detonation signal processing and testing system of the present invention, wherein the detonation signal processing and testing system is made up of a
再一較佳實施例中,該判斷單元2係由處理單元21、控制單元22、做動單元23、第二傳遞單元24與切換單元25所組成,該第二傳遞單元24係用於接收該做動指令,接著該處理單元21則根據該做動指令進行判斷從而產生一處理資訊,該控制單元22係電性連接該處理單元21,並用於接收該處理資訊,並將該處理資訊進行計算並產生複數做動訊號,以及該做動單元23係電性連接該控制單元22,並將該複數做動訊號傳遞至該待測單元3,其中該切換單元25對該待測單元3中的複數攔截物件進行物件切換,當切換至其中一該攔截物件時,該待測單元3根據該複數做動訊號進行判斷從而產生複數回饋訊號,並將該複數回饋訊號回傳至該做動單元23。
In yet another preferred embodiment, the
再另一較佳實施例中,該做動單元23係由固態繼電器單元231、電壓輸入單元232、電壓輸出單元233與收集單元234所組成,該固態繼電器單元231係用於將該複數做動訊號傳遞至該待測單元3,該電壓輸入單元232係用於接收該複數回饋訊號,並將該複數回饋訊號傳遞至該控制單元22,該控制單元22依據該複數回饋訊號進行計算從而產生複數攔截訊號,該電壓輸出單元233係用於將該複數攔截訊號傳遞至該待測單元3,該待測單元3其中一該攔截物件則根據該複數攔截訊號對一物件進行攔截,此時該待測單元3會產生一結果資訊;以及該收集單元234係用於接收該結果資訊,並將該結果資訊傳遞致該控制單元22,該控制單元22透過該第二傳遞單元24將該結果資訊傳送至該測台單元1,該測台單元1的第一傳遞單元13係用於接收該結果資訊,並將該結果資訊透過該顯示單元12用於顯示該結果;其中該複數攔截訊號包括物件攔截與物件方向,而上述所述複數攔截訊號不應本次實施例而有所限定。
In another preferred embodiment, the
再一較佳實施例中,一種起爆信號處理測試方法,包括利用該測台單元1中的該指令單元11下達該做動指令,接著該做動指令透過該第一傳遞單元13傳遞於該判斷單元2;接著透過該判斷單元2中的第二傳遞單元24接收該做動指令,再接著利用該處理單元21對該做動指令進行判斷從而產生一處理資訊,該處理資訊再透過該控制單元22進行計
算並產生複數做動訊號,接著透過該固態繼電器單元231將該複數做動訊號傳遞至該待測單元3,而此時利用該切換單元25對該待測單元3中的複數攔截物件進行物件切換,當切換至其中一該攔截物件時,該待測單元3根據該複數做動訊號進行判斷從而產生複數回饋訊號,並將該複數回饋訊號傳遞至該控制單元22,該控制單元22依據該複數回饋訊號進行計算從而產生複數攔截訊號,該複數攔截訊號並透過該電壓輸出單元233傳遞至該待測單元3,該待測單元3其中一該攔截物件則根據該複數攔截訊號對一物件進行攔截,此時該待測單元3會產生一結果資訊;以及該收集單元234係用於接收該結果資訊,並將該結果資訊傳遞致該控制單元22,該控制單元22透過該第二傳遞單元24將該結果資訊傳送至該測台單元1,該測台單元1的第一傳遞單元13係用於接收該結果資訊,並將該結果資訊透過該顯示單元12用於顯示該結果。
In yet another preferred embodiment, a detonation signal processing and testing method includes using the
需陳明者,以上所述僅為本案之較佳實施例,並非用以限制本創作,若依本創作之構想所作之改變,在不脫離本創作精神範圍內,例如:對於構型或佈置型態加以變換,對於各種變化,修飾與應用,所產生等效作用,均應包含於本案之權利範圍內,合予陳明。 It needs to be stated that the above description is only a preferred embodiment of this case, and is not used to limit this creation. If the changes made according to the concept of this creation do not depart from the spirit of this creation, for example: for configuration or arrangement If the form is changed, the equivalent effect produced by various changes, modifications and applications shall be included in the scope of rights of this case, and shall be stated together.
1:測台單元 1: Bench unit
2:判斷單元 2: Judgment unit
3:待測單元 3: Unit under test
11:指令單元 11: Instruction unit
12:顯示單元 12: Display unit
13:第一傳遞單元 13: The first delivery unit
21:處理單元 21: Processing unit
22:控制單元 22: Control unit
23:做動單元 23: Action unit
24:第二傳遞單元 24: Second transfer unit
25:切換單元 25: Switch unit
231:固態繼電器單元 231: Solid state relay unit
232:電壓輸入單元 232: Voltage input unit
233:電壓輸出單元 233: Voltage output unit
234:收集單元 234: collection unit
Claims (10)
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
TW110108820A TWI806012B (en) | 2021-03-10 | 2021-03-10 | Detonation signal processing test system and method |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
TW110108820A TWI806012B (en) | 2021-03-10 | 2021-03-10 | Detonation signal processing test system and method |
Publications (1)
Publication Number | Publication Date |
---|---|
TWI806012B true TWI806012B (en) | 2023-06-21 |
Family
ID=87803074
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
TW110108820A TWI806012B (en) | 2021-03-10 | 2021-03-10 | Detonation signal processing test system and method |
Country Status (1)
Country | Link |
---|---|
TW (1) | TWI806012B (en) |
Citations (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP0747656A2 (en) * | 1995-06-07 | 1996-12-11 | Hughes Missile Systems Company | Missile test method and apparatus |
TW436606B (en) * | 1999-03-15 | 2001-05-28 | Lockheed Corp | Electronic safe arm and fire device |
US7875837B1 (en) * | 2008-01-09 | 2011-01-25 | Lockheed Martin Corporation | Missile tracking with interceptor launch and control |
CN104215131A (en) * | 2014-05-25 | 2014-12-17 | 刘卓韬 | Manufacturing method of ground-interception missile defense system and application of missile defense system |
CN105737672A (en) * | 2014-12-10 | 2016-07-06 | 上海机电工程研究所 | Infrared guidance missile testing equipment and testing method thereof |
CN106323104A (en) * | 2016-09-29 | 2017-01-11 | 中国科学院长春光学精密机械与物理研究所 | Guided missile ground comprehensive test device and method based on wireless network |
US10156426B2 (en) * | 2016-06-21 | 2018-12-18 | The United States Of America, As Represented By The Secretary Of The Navy | Apparatus and methods for parallel testing of devices |
US10197611B2 (en) * | 2016-05-20 | 2019-02-05 | Raytheon Company | Systems and methods for testing arm and fire devices |
CN110749253A (en) * | 2019-10-24 | 2020-02-04 | 中国人民解放军32181部队 | Missile performance test unit for missile test system |
-
2021
- 2021-03-10 TW TW110108820A patent/TWI806012B/en active
Patent Citations (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP0747656A2 (en) * | 1995-06-07 | 1996-12-11 | Hughes Missile Systems Company | Missile test method and apparatus |
TW436606B (en) * | 1999-03-15 | 2001-05-28 | Lockheed Corp | Electronic safe arm and fire device |
US7875837B1 (en) * | 2008-01-09 | 2011-01-25 | Lockheed Martin Corporation | Missile tracking with interceptor launch and control |
CN104215131A (en) * | 2014-05-25 | 2014-12-17 | 刘卓韬 | Manufacturing method of ground-interception missile defense system and application of missile defense system |
CN105737672A (en) * | 2014-12-10 | 2016-07-06 | 上海机电工程研究所 | Infrared guidance missile testing equipment and testing method thereof |
US10197611B2 (en) * | 2016-05-20 | 2019-02-05 | Raytheon Company | Systems and methods for testing arm and fire devices |
US10156426B2 (en) * | 2016-06-21 | 2018-12-18 | The United States Of America, As Represented By The Secretary Of The Navy | Apparatus and methods for parallel testing of devices |
CN106323104A (en) * | 2016-09-29 | 2017-01-11 | 中国科学院长春光学精密机械与物理研究所 | Guided missile ground comprehensive test device and method based on wireless network |
CN110749253A (en) * | 2019-10-24 | 2020-02-04 | 中国人民解放军32181部队 | Missile performance test unit for missile test system |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN204028691U (en) | Aeromotor hardware is in loop test system | |
CN204965090U (en) | Integrated multiple fault type's intelligent fault injection system | |
TWI806012B (en) | Detonation signal processing test system and method | |
CN202004454U (en) | Testing system of direct-current power transmission converter and control protection equipment thereof | |
JPS6068624A (en) | Self-inspection system of lsi | |
KR101270582B1 (en) | Performance vertification device for gps/ins integrated navigation system | |
CN111637802A (en) | Missile simulator with small pendant electrical interface | |
CN103018659B (en) | System and method for testing frequency response of single event effect of processor | |
KR20130027911A (en) | Command control linkage signal simulator and method thereof | |
CN204666051U (en) | A kind of reliable and firing circuit of safety | |
CN109856994A (en) | A kind of infrared image injected simulation system and method based on optical fiber transmission | |
CN106094659A (en) | A kind of there is two-stage freestanding environment power identification function draw control device | |
CN108802668A (en) | A kind of multifunctional radiation source angle of arrival simulator and method | |
CN114089723B (en) | Single-stage reusable rocket power measurement and control system and testing method thereof | |
CN104407524B (en) | Far-end time synchronization igniting control circuit used for launch control equipment and control method thereof | |
GB639774A (en) | Improvements in and relating to electric circuit breaker operating means | |
CN106844127A (en) | A kind of highly reliable modular testing emulation platform | |
CN114593986B (en) | Pendulum impact test stand controller and control method thereof | |
CN109342067A (en) | A kind of solid rocket ramjet test macro | |
CN109703780B (en) | Method for realizing control surface jamming in fly test of telex transport type airplane | |
CN105204422B (en) | Engine vacuumizes redundant automation TT&C system and method | |
CN205744012U (en) | A kind of two from three voting, four take two hydraulic pressure blocking steam turbine protection device | |
CN103017608B (en) | Activation circuit tester | |
CN105700382A (en) | Infrared noise control method based on semi-physical simulation | |
CN209130527U (en) | For detecting the pressure drop rate detection device of booster detection device |