CN107764143A - A kind of all-electronin fuse tester and its method of testing for carrying out high-precision bus communication delays time to control - Google Patents

Abstract

The invention provides a kind of all-electronin fuse tester for carrying out high-precision bus communication delays time to control, the program includes single-chip microcomputer, FPGA module, RS422 drivers, AC DC modules, connector, DC DC modules and relay；Single-chip microcomputer electrically connects with relay, DC DC modules, FPGA module and connector respectively；FPGA module electrically connects with RS422 drivers；Relay respectively with AC DC modules, connector and monolithic mechatronics；Connector also electrically connects with RS422 drivers；AC DC modules electrically connect with DC DC modules and relay respectively.The program carries out high-precision delays time to control using FPGA module to RS422 bus communications data, and the fuse for the high-precision delays time to control that need RS422 bus communication data can be tested.

Description

A kind of all-electronin fuse tester for carrying out high-precision bus communication delays time to control and Its method of testing

Technical field

The present invention relates to one kind, especially a kind of all-electronin fuse for carrying out high-precision bus communication delays time to control Tester.

Background technology

Fuse is the apparatus to cause bursting on missile weapon system, is the important component in whole armament systems.With mesh The development of mark, warhead and the mode of operation and science and technology, the function of fuse is also in constantly improve.In order to realize to fuse High-accuracy time control, often time precision requires higher in the delay of control.

2013,《Detection and control journal》What the 3rd phase of volume 35 delivered《It may be programmed and survey on fuse electronic safety system piece Try instrument versatility technology》In one text, it is described in detail on a kind of SCM Based fuse electronic safety system piece and may be programmed survey Instrument is tried, wherein, from figure 2 it can be seen that single-chip microcomputer does not have bus communication interface to fuse product, RS422 buses can not be realized Communication, it can not more realize the high-precision delays time to control of bus communication.

With reference to the principles and methods of SCM Based fuse electronic safety system programmable test instrument, it is seen then that full electricity at present For sub- fuse tester during fuse is tested, what is no matter tested is which type of fuse, when being tested, can not be realized The high-precision delays time to control of RS422 bus communication data.

If all-electronin fuse tester can not realize the high-precision delays time to control of RS422 bus communication data, then When the fuse for carrying out having such requirement is tested, satisfactory high-precision delays time to control cannot be provided.Therefore, need to be designed to Carry out the tester of the high-precision delays time to control of RS422 bus communication data.

The content of the invention

The purpose of the present invention, aiming at the deficiency present in prior art, and high-precision bus can be carried out by providing one kind The technical scheme of the all-electronin fuse tester of communication delay control, the program is using FPGA module to RS422 bus communication numbers According to high-precision delays time to control is carried out, the fuse for the high-precision delays time to control for needing RS422 bus communication data can be surveyed Examination.

This programme is achieved by the following technical measures：

A kind of all-electronin fuse tester for carrying out high-precision bus communication delays time to control, include single-chip microcomputer, FPGA module, RS422 drivers, AC-DC module, connector, DC-DC module and relay；Single-chip microcomputer respectively with relay, DC-DC module, FPGA module and connector electrical connection；FPGA module electrically connects with RS422 drivers；Relay respectively with AC-DC module, even Connect device and monolithic mechatronics；Connector also electrically connects with RS422 drivers；AC-DC module respectively with DC-DC module and Relay electrically connects.

As the preferred of this programme：Single-chip microcomputer electrically connects with ferroelectric memory.

As the preferred of this programme：Single-chip microcomputer electrically connects with indicator lamp.

As the preferred of this programme：Single-chip microcomputer electrically connects with reset circuit.

As the preferred of this programme：Single-chip microcomputer electrically connects with crystal oscillator.

A kind of method of testing for the all-electronin fuse tester for carrying out high-precision bus communication delays time to control, include with Lower step：

A, tested fuse is connected by testing Electricity Federation with connector；

B, 220V AC voltage is accessed to tester, opens facility switching, AC-DC module is translated into the power supply of Furukawa fuse will The DC voltage asked is transported to relay and DC-DC module；The photovoltaic conversion of reception is single-chip microcomputer work electricity by DC-DC module Press, after single-chip microcomputer electrification reset, carry out operating system initialization and internal pin and associated inner module initialization, crystal oscillator is to single Piece machine provides frequency signal；

C, control relay exports fuse power supply signal, fuse power supply initialization to connector；

D, single-chip microcomputer is sent to FPGA by internal UART modules and instructed, and after FPGA receives UART instructions, is decoded, by correlation Solution protects signal and carries out high accuracy delay delay output；RS422 drivers protect signal to solution and carry out level conversion, defeated by connector Go out to fuse；

E, after completing solution guarantor's control, single-chip microcomputer passes through connector and exports initiation command, fuse output detonator signal；

F, fuse sends ignition monitoring signals, and single-chip microcomputer is stored in the data of ignition monitoring signals in ferroelectric memory, Ran Houjin Row ignites the state recognition of monitoring signals, and indicator lamp carries out result and shown；

It is consistent if g, igniting monitoring signals items state index with predetermined, " fuse test result " place display blue lamp, lamp is bright Continue to extinguish for 1 second；If every state index is not inconsistent with predetermined, " fuse test result " place shows red light, and lamp is bright to continue 1 second Extinguish；

H, fuse power supply signal is disconnected after test terminates.

The beneficial effect of this programme can learn that this programme can be to RS422 bus communications according to the narration to such scheme High-precision delays time to control is carried out, the fuse for having such demand can be tested.

As can be seen here, the present invention compared with prior art, has substantive distinguishing features and progress, its beneficial effect implemented It is obvious.

Brief description of the drawings

Fig. 1 is the structural representation of the present invention.

Fig. 2 is the control flow chart of the present invention.

Embodiment

All features disclosed in this specification, or disclosed all methods or during the step of, except mutually exclusive Feature and/or step beyond, can combine in any way.

This specification（Including any accessory claim, summary and accompanying drawing）Disclosed in any feature, except non-specifically chatting State, can alternative features equivalent by other or with similar purpose replaced.I.e., unless specifically stated otherwise, each feature It is an example in a series of equivalent or similar characteristics.

A kind of all-electronin fuse tester for carrying out high-precision bus communication delays time to control, includes single-chip microcomputer, FPGA Module, RS422 drivers, AC-DC module, connector, DC-DC module and relay；Single-chip microcomputer respectively with relay, DC-DC Module, FPGA module and connector electrical connection；FPGA module electrically connects with RS422 drivers；Relay respectively with AC-DC moulds Block, connector and monolithic mechatronics；Connector also electrically connects with RS422 drivers；AC-DC module respectively with DC-DC moulds Block and relay electrical connection.Single-chip microcomputer electrically connects with ferroelectric memory.Single-chip microcomputer electrically connects with indicator lamp.Single-chip microcomputer is with resetting Circuit electrically connects.Single-chip microcomputer electrically connects with crystal oscillator.

A kind of method of testing for the all-electronin fuse tester for carrying out high-precision bus communication delays time to control, include with Lower step：

A, tested fuse is connected by testing Electricity Federation with connector；

B, 220V AC voltage is accessed to tester, opens facility switching, AC-DC module is translated into the power supply of Furukawa fuse will The DC voltage asked is transported to relay and DC-DC module；The photovoltaic conversion of reception is single-chip microcomputer work electricity by DC-DC module Press, after single-chip microcomputer electrification reset, carry out operating system initialization and internal pin and associated inner module initialization, crystal oscillator is to single Piece machine provides frequency signal；

C, control relay exports fuse power supply signal, fuse power supply initialization to connector；

D, single-chip microcomputer is sent to FPGA by internal UART modules and instructed, and after FPGA receives UART instructions, is decoded, by correlation Solution protects signal and carries out high accuracy delay delay output；RS422 drivers protect signal to solution and carry out level conversion, defeated by connector Go out to fuse；

E, after completing solution guarantor's control, single-chip microcomputer passes through connector and exports initiation command, fuse output detonator signal；

F, fuse sends ignition monitoring signals, and single-chip microcomputer is stored in the data of ignition monitoring signals in ferroelectric memory, Ran Houjin Row ignites the state recognition of monitoring signals, and indicator lamp carries out result and shown；

It is consistent if g, igniting monitoring signals items state index with predetermined, " fuse test result " place display blue lamp, lamp is bright Continue to extinguish for 1 second；If every state index is not inconsistent with predetermined, " fuse test result " place shows red light, and lamp is bright to continue 1 second Extinguish；

H, fuse power supply signal is disconnected after test terminates.

This programme can carry out high-precision delays time to control to RS422 bus communications, fill up such in fuse detection field Technological gap, the use range of fuse detector is widened.

The invention is not limited in foregoing embodiment.The present invention, which expands to, any in this manual to be disclosed New feature or any new combination, and disclose any new method or process the step of or any new combination.

Claims (6)

1. a kind of all-electronin fuse tester for carrying out high-precision bus communication delays time to control, it is characterized in that：Include monolithic Machine, FPGA module, RS422 drivers, AC-DC module, connector, DC-DC module and relay；The single-chip microcomputer respectively with after Electrical equipment, DC-DC module, FPGA module and connector electrical connection；The FPGA module electrically connects with RS422 drivers；It is described Relay respectively with AC-DC module, connector and monolithic mechatronics；The connector also electrically connects with RS422 drivers； The AC-DC module electrically connects with DC-DC module and relay respectively.

2. a kind of all-electronin fuse tester for carrying out high-precision bus communication delays time to control according to claim 1, It is characterized in that：The single-chip microcomputer electrically connects with ferroelectric memory.

3. a kind of all-electronin fuse tester for carrying out high-precision bus communication delays time to control according to claim 1, It is characterized in that：The single-chip microcomputer electrically connects with indicator lamp.

4. a kind of all-electronin fuse tester for carrying out high-precision bus communication delays time to control according to claim 1, It is characterized in that：The single-chip microcomputer electrically connects with reset circuit.

5. a kind of all-electronin fuse tester for carrying out high-precision bus communication delays time to control according to claim 1, It is characterized in that：The single-chip microcomputer electrically connects with crystal oscillator.

6. a kind of method of testing for the all-electronin fuse tester for carrying out high-precision bus communication delays time to control, it is characterized in that： Include following steps：

A, tested fuse is connected by testing Electricity Federation with connector；

B, 220V AC voltage is accessed to tester, opens facility switching, AC-DC module is translated into the power supply of Furukawa fuse will The DC voltage asked is transported to relay and DC-DC module；The photovoltaic conversion of reception is single-chip microcomputer work electricity by DC-DC module Press, after single-chip microcomputer electrification reset, carry out operating system initialization and internal pin and associated inner module initialization, crystal oscillator is to single Piece machine provides frequency signal；

C, control relay exports fuse power supply signal, fuse power supply initialization to connector；

D, single-chip microcomputer is sent to FPGA by internal UART modules and instructed, and after FPGA receives UART instructions, is decoded, by correlation Solution protects signal and carries out high accuracy delay delay output；RS422 drivers protect signal to solution and carry out level conversion, defeated by connector Go out to fuse；

E, after completing solution guarantor's control, single-chip microcomputer passes through connector and exports initiation command, fuse output detonator signal；

F, fuse sends ignition monitoring signals, and single-chip microcomputer is stored in the data of ignition monitoring signals in ferroelectric memory, Ran Houjin Row ignites the state recognition of monitoring signals, and indicator lamp carries out result and shown；

It is consistent if g, igniting monitoring signals items state index with predetermined, " fuse test result " place display blue lamp, lamp is bright Continue to extinguish for 1 second；If every state index is not inconsistent with predetermined, " fuse test result " place shows red light, and lamp is bright to continue 1 second Extinguish；

H, fuse power supply signal is disconnected after test terminates.