CN105843215B - A kind of guided munition electronic delay component capabilities test device - Google Patents

Abstract

The invention discloses a kind of guided munition electronic delay component capabilities test device, it includes industrial personal computer, router, oscillograph, digital multimeter, function generator, programmable power supply, selecting switch, numeral I/O modules, conversion circuit, conversion control circuit and pulse-generating circuit；Its advantage is：The present invention is that characterisitic parameter, work schedule, data communication of guided munition electronic delay component etc. are checked, simulated, and whole Test condition is monitored；Present invention configuration is flexible, easy to use, easy to operate；The present invention has stronger scalability, based on the present invention, can complete the testing requirement of new model guided munition electronic delay component, can also meet the testing requirement of digital guided munition electronic delay component；The present invention also has self-checking function, leaves equipment Alignment interface, facilitates equipment periodic calibration.

Description

A kind of guided munition electronic delay component capabilities test device

Technical field

The invention belongs to guided munition technical field of measurement and test, is related to a kind of guided munition electronic delay component capabilities test dress Put.

Background technology

Typically, guided munition product is the electronic product formed based on ten million component, or by some components and The Complex Structural System of parts composition.And the Support of Complex Structural System more levels off to a great system engineering.At this In a system engineering, it is important that a part be then test system, it mainly completes the various parameters of Complex Structural System Test and functional verification, including reliability test, ground simulation etc..

Electronic delay component is one of main composition part of guided munition guidance control system, its parameter and function is tested Card is the important component for testing guided munition properties of product.

The content of the invention

The technical problems to be solved by the invention are to provide a kind of can carry out intelligent test to electronic delay component Guided munition electronic delay component capabilities test device.

Technical solution is used by solve above-mentioned technical problem：A kind of guided munition electronic delay component capabilities test Device, it includes industrial personal computer, router, oscillograph, digital multimeter, function generator, programmable power supply, selecting switch, numeral I/O modules, conversion circuit, conversion control circuit and pulse-generating circuit；The conversion circuit include the 17th relay, the 21st to 24th relay and the 29th to the 30th relay；

The oscillograph, digital multimeter, programmable power supply, function generator, selecting switch and numeral I/O modules are led to respectively Router is crossed with the industrial personal computer to be connected；

The digital multimeter is connected with the corresponding port of the selecting switch；

The selecting switch is connected with the corresponding port of electronic delay component X7；

The function generator is connected with the corresponding port of the pulse-generating circuit；

Corresponding port of the numeral I/O modules respectively with the pulse-generating circuit and conversion control circuit is connected；

Corresponding port of the programmable power supply respectively with conversion control circuit and pulse-generating circuit is connected；

1st normally opened contact KDY17-1s of the port DY2- of the programmable power supply through the 17th relay connects electronic delay The power supply negative terminal mouth DYF of component X7；2nd normally opened contacts of the port DY2+ of the programmable power supply through the 17th relay KDY17-2 meets the GND ports DYGD of electronic delay component X7；

1st normally opened contact KDY24-1s of the port SB1 of the oscillograph through the 24th relay connects electronic delay component The output terminal DYC of X7；2nd normally opened contact KDY24-2s of the port SB1D of the oscillograph through the 24th relay connects The GND ports DYGD of electronic delay component X7；

1st normally opened contact KDY22-1s of the port DY1+ of the programmable power supply through the 22nd relay connects electronic delay The power positive end mouth DYZ of component X7；2nd normally opened contacts of the port DY1- of the programmable power supply through the 22nd relay KDY22-2 meets the GND ports DYGD of electronic delay component X7；

1st normally opened contact KDY23-1s of the input terminal DYR of electronic delay component X7 through the 23rd relay connects the arteries and veins Rush the corresponding port of generation circuit；2nd normally opened contacts of the GND ports DYGD of electronic delay component X7 through the 23rd relay KDY23-2 connects the corresponding port of the pulse-generating circuit；

1st normally opened contact KDY21-1s of the port K21-1 of electronic delay component X7 through the 21st relay connects electronics and prolongs When component X7 port K21-2；2nd normally opened contacts of the port K21-3 of electronic delay component X7 through the 21st relay KDY21-2 meets the port K21-4 of electronic delay component X7；

1st normally opened contact KDY29-1s of the port K29-1 of electronic delay component X7 through the 29th relay connects electronics and prolongs When component X7 port K29-2；2nd normally opened contacts of the port K29-3 of electronic delay component X7 through the 29th relay KDY29-2 meets the port K29-4 of electronic delay component X7；

1st normally opened contact KDY30-1s of the port K30-1 of electronic delay component X7 through the 30th relay connects electronics and prolongs When component X7 port K30-2；2nd normally opened contacts of the port K30-3 of electronic delay component X7 through the 30th relay KDY30-2 meets the port K30-4 of electronic delay component X7.

The pulse-generating circuit includes phase inverter U11A, phase inverter U11B, counter U12, selector U13, switching molding Block U14, resistance R90, the first Pulse Width Control relay, port MZ1 and port MGD1；

1st normally opened contact KMZ1-1s of the output terminal XF1 of the function generator through the first Pulse Width Control relay Connect 4 feet of the switch module U14；

2nd normally opened contact KMZ1-2s of the output terminal XF2 of the function generator through the first Pulse Width Control relay Connect 3 feet of the switch module U14；

The output terminal XF1D of the function generator connects 11 feet of the switch module U14；

The output terminal XF2D of the function generator connects 12 feet of the switch module U14；

2 feet and 5 feet of the switch module U14 meet the port MZ1 respectively；

1st normally opened contact KDY23-1s of the port MZ1 through the 23rd relay connects the input of electronic delay component X7 Hold DYR；

10 feet and 13 feet of the switch module U14 meet the port MGD1 respectively；

2nd normally opened contact KDY23-2s of the port MGD1 through the 23rd relay meets the GND of electronic delay component X7 Port DYGD；

1 foot of input terminal of the phase inverter U11A meets the port CLK of the numeral I/O modules；

1 foot of the selector U13 to 4 feet meet the corresponding port D3 ~ D0 of the numeral I/O modules respectively；The selection 12 feet of device U13 to 15 feet meet the corresponding port D7 ~ D4 of the numeral I/O modules respectively；

2 foot of output terminal of the phase inverter U11A connects 5 feet of the counter U12；

3 feet of the counter U12 connect 11 feet of the selector U13；2 feet of the counter U12 connect the selection 10 feet of device U13；6 feet of the counter U12 connect 9 feet of the selector U13；

7 feet of the counter U12 connect its 14 foot；

6 feet of the selector U13 connect 3 foot of input terminal of the phase inverter U11B；The output terminal 4 of the phase inverter U11B Foot meets the port+5V+ of the programmable power supply through the resistance R90；

4 feet, 11 feet and 16 feet of the counter U12 meet the port+5V+ of the programmable power supply respectively；The counter 15 feet, 1 foot, 10 feet, 9 feet and 8 feet of U12 are grounded respectively；16 feet of the selector U13 connect the port of the programmable power supply+ 5V+；7 feet and 8 feet of the selector U13 are grounded respectively；

14 feet of the switch module U14 meet the port+15V+ of the programmable power supply；8 feet of the switch module U14 connect Port-the 15V- of the programmable power supply；7 feet of the switch module U14 connect the port+15V- of the programmable power supply, end respectively Mouth -15V+ and port+5V-.

The conversion control circuit includes buffer U1-5 ~ U1-6, rp-drive U1-11 ~ U1-12 and 9 foot exclusions RP1；

Input terminal 1A ~ 5A of the buffer U1-5 connects the corresponding port of the numeral I/O modules respectively；The buffer Output terminal 1Y ~ 6Y of U1-5 connects the foot of 6 foot of correspondence input terminal of the rp-drive U1-11 ~ 1 respectively；The buffer U1-5 Power end VCC meet the port+5V+ of the programmable power supply；The ground terminal GND ground connection of the buffer U1-5；The anti-phase drive 9 feet of dynamic device U1-11 meet the port+24V+ of the programmable power supply；The 8 feet ground connection of the rp-drive U1-11；

Input terminal 5A ~ 6A of the buffer U1-6 connects the corresponding port of the numeral I/O modules respectively；The buffer The output terminal 5Y of U1-6 connects 1 foot of input terminal of the rp-drive U1-12；The output terminal 6Y of the buffer U1-6 connects described 7 foot of input terminal of rp-drive U1-11；The power end VCC of the buffer U1-6 meets the port+5V+ of the programmable power supply； The ground terminal GND ground connection of the buffer U1-6；9 feet of the rp-drive U1-12 connect the port of the programmable power supply+ 24V+；The 8 feet ground connection of the rp-drive U1-12；

Port+the 5V+ of the public termination programmable power supply of the 9 foot exclusion RP1, the 9 foot exclusion RP1 remaining 8 A foot connects the foot of 1 foot of input terminal of the rp-drive U1-11 ~ 7 and 1 foot of input terminal of the rp-drive U1-12 respectively；

The coil KDY21 of 21st relay is connected on 11 foot of output terminal of the rp-drive U1-11 and the journey Between the port+24V+ for controlling power supply；

The coil KDY22 of 22nd relay is connected on 12 foot of output terminal of the rp-drive U1-11 and the journey Between the port+24V+ for controlling power supply；

The coil KDY23 of 23rd relay is connected on 13 foot of output terminal of the rp-drive U1-11 and the journey Between the port+24V+ for controlling power supply；

The coil KDY24 of 24th relay is connected on 14 foot of output terminal of the rp-drive U1-11 and the journey Between the port+24V+ for controlling power supply；

The coil KDY29 of 29th relay is connected on 15 foot of output terminal of the rp-drive U1-11 and the journey Between the port+24V+ for controlling power supply；

The coil KDY30 of 30th relay is connected on 16 foot of output terminal of the rp-drive U1-11 and the journey Between the port+24V+ for controlling power supply；

The coil KDY17 of 17th relay is connected on 10 foot of output terminal of the rp-drive U1-11 and the journey Between the port+24V+ for controlling power supply；

The coil KMZ1 of the first Pulse Width Control relay be connected on 16 foot of output terminal of the rp-drive U1-12 with Between the port+24V+ of the programmable power supply.

The model 34405A of the digital multimeter；The model DPO4034 of the oscillograph；The function generator Model 33210A；The model N6700B of the programmable power supply；The model L4421A of the selecting switch；The numeral The model L4450A of I/O modules.

The model of the phase inverter U11A and phase inverter U11B are 74LS04；The model of the counter U12 74LS193；The model 74LS151 of the selector U13；The model DG303AAK of the switch module U14；The buffering The model 74LS07 of device U1-5；The model MC1413 of the rp-drive U1-11.

The beneficial effects of the invention are as follows：The present invention be the characterisitic parameter to guided munition electronic delay component, work schedule, Data communication etc. is checked, simulated, and whole Test condition is monitored；Present invention configuration is flexible, and system is changeable, It is easy to use easy to operate；The present invention has stronger scalability, based on the present invention, can complete new model guided munition The testing requirement of electronic delay component, can also meet the testing requirement of digital guided munition electronic delay component；The present invention Also there is self-checking function, leave equipment Alignment interface, facilitate equipment periodic calibration.

Brief description of the drawings

Fig. 1 is principle of the invention block diagram.

Fig. 2 is conversion circuit schematic diagram.

Fig. 3 is pulse-generating circuit schematic diagram.

Fig. 4 is conversion control circuit schematic diagram.

Embodiment

From the embodiment shown in Fig. 1-4, it includes industrial personal computer, router, oscillograph, digital multimeter, function hair Raw device, programmable power supply, selecting switch, numeral I/O modules, conversion circuit, conversion control circuit and pulse-generating circuit；Described turn Changing circuit includes the 17th relay, the 21st to the 24th relay and the 29th to the 30th relay；

The oscillograph, digital multimeter, programmable power supply, function generator, selecting switch and numeral I/O modules are led to respectively Router is crossed with the industrial personal computer to be connected；

The digital multimeter is connected with the corresponding port of the selecting switch；

The selecting switch is connected with the corresponding port of electronic delay component X7；

The function generator is connected with the corresponding port of the pulse-generating circuit；

Corresponding port of the numeral I/O modules respectively with the pulse-generating circuit and conversion control circuit is connected；

Corresponding port of the programmable power supply respectively with conversion control circuit and pulse-generating circuit is connected；

1st normally opened contact KDY17-1s of the port DY2- of the programmable power supply through the 17th relay connects electronic delay The power supply negative terminal mouth DYF of component X7；2nd normally opened contacts of the port DY2+ of the programmable power supply through the 17th relay KDY17-2 meets the GND ports DYGD of electronic delay component X7；

1st normally opened contact KDY24-1s of the port SB1 of the oscillograph through the 24th relay connects electronic delay component The output terminal DYC of X7；2nd normally opened contact KDY24-2s of the port SB1D of the oscillograph through the 24th relay connects The GND ports DYGD of electronic delay component X7；

1st normally opened contact KDY22-1s of the port DY1+ of the programmable power supply through the 22nd relay connects electronic delay The power positive end mouth DYZ of component X7；2nd normally opened contacts of the port DY1- of the programmable power supply through the 22nd relay KDY22-2 meets the GND ports DYGD of electronic delay component X7；

1st normally opened contact KDY23-1s of the input terminal DYR of electronic delay component X7 through the 23rd relay connects the arteries and veins Rush the corresponding port of generation circuit；2nd normally opened contacts of the GND ports DYGD of electronic delay component X7 through the 23rd relay KDY23-2 connects the corresponding port of the pulse-generating circuit；

1st normally opened contact KDY21-1s of the port K21-1 of electronic delay component X7 through the 21st relay connects electronics and prolongs When component X7 port K21-2；2nd normally opened contacts of the port K21-3 of electronic delay component X7 through the 21st relay KDY21-2 meets the port K21-4 of electronic delay component X7；

1st normally opened contact KDY29-1s of the port K29-1 of electronic delay component X7 through the 29th relay connects electronics and prolongs When component X7 port K29-2；2nd normally opened contacts of the port K29-3 of electronic delay component X7 through the 29th relay KDY29-2 meets the port K29-4 of electronic delay component X7；

1st normally opened contact KDY30-1s of the port K30-1 of electronic delay component X7 through the 30th relay connects electronics and prolongs When component X7 port K30-2；2nd normally opened contacts of the port K30-3 of electronic delay component X7 through the 30th relay KDY30-2 meets the port K30-4 of electronic delay component X7.

The pulse-generating circuit includes phase inverter U11A, phase inverter U11B, counter U12, selector U13, switching molding Block U14, resistance R90, the first Pulse Width Control relay, port MZ1 and port MGD1；

1st normally opened contact KMZ1-1s of the output terminal XF1 of the function generator through the first Pulse Width Control relay Connect 4 feet of the switch module U14；

2nd normally opened contact KMZ1-2s of the output terminal XF2 of the function generator through the first Pulse Width Control relay Connect 3 feet of the switch module U14；

The output terminal XF1D of the function generator connects 11 feet of the switch module U14；

The output terminal XF2D of the function generator connects 12 feet of the switch module U14；

2 feet and 5 feet of the switch module U14 meet the port MZ1 respectively；

1st normally opened contact KDY23-1s of the port MZ1 through the 23rd relay connects the input of electronic delay component X7 Hold DYR；

10 feet and 13 feet of the switch module U14 meet the port MGD1 respectively；

2nd normally opened contact KDY23-2s of the port MGD1 through the 23rd relay meets the GND of electronic delay component X7 Port DYGD；

1 foot of input terminal of the phase inverter U11A meets the port CLK of the numeral I/O modules；

1 foot of the selector U13 to 4 feet meet the corresponding port D3 ~ D0 of the numeral I/O modules respectively；The selection 12 feet of device U13 to 15 feet meet the corresponding port D7 ~ D4 of the numeral I/O modules respectively；

2 foot of output terminal of the phase inverter U11A connects 5 feet of the counter U12；

3 feet of the counter U12 connect 11 feet of the selector U13；2 feet of the counter U12 connect the selection 10 feet of device U13；6 feet of the counter U12 connect 9 feet of the selector U13；

7 feet of the counter U12 connect its 14 foot；

6 feet of the selector U13 connect 3 foot of input terminal of the phase inverter U11B；The output terminal 4 of the phase inverter U11B Foot meets the port+5V+ of the programmable power supply through the resistance R90；

4 feet, 11 feet and 16 feet of the counter U12 meet the port+5V+ of the programmable power supply respectively；The counter 15 feet, 1 foot, 10 feet, 9 feet and 8 feet of U12 are grounded respectively；16 feet of the selector U13 connect the port of the programmable power supply+ 5V+；7 feet and 8 feet of the selector U13 are grounded respectively；

14 feet of the switch module U14 meet the port+15V+ of the programmable power supply；8 feet of the switch module U14 connect Port-the 15V- of the programmable power supply；7 feet of the switch module U14 connect the port+15V- of the programmable power supply, end respectively Mouth -15V+ and port+5V-.

The conversion control circuit includes buffer U1-5 ~ U1-6, rp-drive U1-11 ~ U1-12 and 9 foot exclusions RP1；

Input terminal 1A ~ 5A of the buffer U1-5 connects the corresponding port of the numeral I/O modules respectively；The buffer Output terminal 1Y ~ 6Y of U1-5 connects the foot of 6 foot of correspondence input terminal of the rp-drive U1-11 ~ 1 respectively；The buffer U1-5 Power end VCC meet the port+5V+ of the programmable power supply；The ground terminal GND ground connection of the buffer U1-5；The anti-phase drive 9 feet of dynamic device U1-11 meet the port+24V+ of the programmable power supply；The 8 feet ground connection of the rp-drive U1-11；

Input terminal 5A ~ 6A of the buffer U1-6 connects the corresponding port of the numeral I/O modules respectively；The buffer The output terminal 5Y of U1-6 connects 1 foot of input terminal of the rp-drive U1-12；The output terminal 6Y of the buffer U1-6 connects described 7 foot of input terminal of rp-drive U1-11；The power end VCC of the buffer U1-6 meets the port+5V+ of the programmable power supply； The ground terminal GND ground connection of the buffer U1-6；9 feet of the rp-drive U1-12 connect the port of the programmable power supply+ 24V+；The 8 feet ground connection of the rp-drive U1-12；

Port+the 5V+ of the public termination programmable power supply of the 9 foot exclusion RP1, the 9 foot exclusion RP1 remaining 8 A foot connects the foot of 1 foot of input terminal of the rp-drive U1-11 ~ 7 and 1 foot of input terminal of the rp-drive U1-12 respectively；

The coil KDY21 of 21st relay is connected on 11 foot of output terminal of the rp-drive U1-11 and the journey Between the port+24V+ for controlling power supply；

The coil KDY22 of 22nd relay is connected on 12 foot of output terminal of the rp-drive U1-11 and the journey Between the port+24V+ for controlling power supply；

The coil KDY23 of 23rd relay is connected on 13 foot of output terminal of the rp-drive U1-11 and the journey Between the port+24V+ for controlling power supply；

The coil KDY24 of 24th relay is connected on 14 foot of output terminal of the rp-drive U1-11 and the journey Between the port+24V+ for controlling power supply；

The coil KDY29 of 29th relay is connected on 15 foot of output terminal of the rp-drive U1-11 and the journey Between the port+24V+ for controlling power supply；

The coil KDY30 of 30th relay is connected on 16 foot of output terminal of the rp-drive U1-11 and the journey Between the port+24V+ for controlling power supply；

The coil KDY17 of 17th relay is connected on 10 foot of output terminal of the rp-drive U1-11 and the journey Between the port+24V+ for controlling power supply；

The coil KMZ1 of the first Pulse Width Control relay be connected on 16 foot of output terminal of the rp-drive U1-12 with Between the port+24V+ of the programmable power supply.

The model 34405A of the digital multimeter；The model DPO4034 of the oscillograph；The function generator Model 33210A；The model N6700B of the programmable power supply；The model L4421A of the selecting switch；The numeral The model L4450A of I/O modules.

The model of the phase inverter U11A and phase inverter U11B are 74LS04；The model of the counter U12 74LS193；The model 74LS151 of the selector U13；The model DG303AAK of the switch module U14；The buffering The model 74LS07 of device U1-5；The model MC1413 of the rp-drive U1-11.

The test method of electronic delay component input and output inspection of the present invention is as follows：Industrial personal computer sends instruction and passes through numeral I/ O module is transferred to conversion control circuit, closes the normally opened contact of the 17th relay and the 22nd relay, powers on；It is The normally opened contact closure of 23 relays, contiguous function generator produce pulse command；The normally opened contact of the 24th relay is closed, Oscillograph is connected, observes output situation.

Embodiment described above is merely a preferred embodiment of the present invention, and the simultaneously exhaustion of non-invention possible embodiments. For persons skilled in the art, to any aobvious made by it on the premise of without departing substantially from the principle of the invention and spirit And the change being clear to, it should all be contemplated as falling with the claims of the present invention.

Claims (5)

1. A kind of 1. guided munition electronic delay component capabilities test device, it is characterised in that：Including industrial personal computer, router, oscillography Device, digital multimeter, function generator, programmable power supply, selecting switch, numeral I/O modules, conversion circuit, conversion control circuit And pulse-generating circuit；The conversion circuit includes the 17th relay, the 21st to the 24th relay and the 29th to the 30th relay Device；

   The oscillograph, digital multimeter, programmable power supply, function generator, selecting switch and numeral I/O modules pass through road respectively It is connected by device with the industrial personal computer；

   The digital multimeter is connected with the corresponding port of the selecting switch；

   The selecting switch is connected with the corresponding port of electronic delay component X7；

   The function generator is connected with the corresponding port of the pulse-generating circuit；

   Corresponding port of the numeral I/O modules respectively with the pulse-generating circuit and conversion control circuit is connected；

   Corresponding port of the programmable power supply respectively with conversion control circuit and pulse-generating circuit is connected；

   1st normally opened contact KDY17-1s of the port DY2- of the programmable power supply through the 17th relay connects electronic delay component The power supply negative terminal mouth DYF of X7；2nd normally opened contacts of the port DY2+ of the programmable power supply through the 17th relay KDY17-2 meets the GND ports DYGD of electronic delay component X7；

   1st normally opened contact KDY24-1s of the port SB1 of the oscillograph through the 24th relay connects electronic delay component X7's Output terminal DYC；2nd normally opened contact KDY24-2s of the port SB1D of the oscillograph through the 24th relay connects electronics The GND ports DYGD of time delay part X7；

   1st normally opened contact KDY22-1s of the port DY1+ of the programmable power supply through the 22nd relay connects electronic delay component The power positive end mouth DYZ of X7；2nd normally opened contacts of the port DY1- of the programmable power supply through the 22nd relay KDY22-2 meets the GND ports DYGD of electronic delay component X7；

   1st normally opened contact KDY23-1s of the input terminal DYR of electronic delay component X7 through the 23rd relay connects the pulse production The corresponding port of raw circuit；2nd normally opened contacts of the GND ports DYGD of electronic delay component X7 through the 23rd relay KDY23-2 connects the corresponding port of the pulse-generating circuit；

   1st normally opened contact KDY21-1s of the port K21-1 of electronic delay component X7 through the 21st relay meets electronic delay portion The port K21-2 of part X7；2nd normally opened contact KDY21-2s of the port K21-3 of electronic delay component X7 through the 21st relay Meet the port K21-4 of electronic delay component X7；

   1st normally opened contact KDY29-1s of the port K29-1 of electronic delay component X7 through the 29th relay meets electronic delay portion The port K29-2 of part X7；2nd normally opened contact KDY29-2s of the port K29-3 of electronic delay component X7 through the 29th relay Meet the port K29-4 of electronic delay component X7；

   1st normally opened contact KDY30-1s of the port K30-1 of electronic delay component X7 through the 30th relay meets electronic delay portion The port K30-2 of part X7；2nd normally opened contact KDY30-2s of the port K30-3 of electronic delay component X7 through the 30th relay Meet the port K30-4 of electronic delay component X7.
2. A kind of 2. guided munition electronic delay component capabilities test device according to claim 1, it is characterised in that：It is described Pulse-generating circuit includes phase inverter U11A, phase inverter U11B, counter U12, selector U13, switch module U14, resistance R90, the first Pulse Width Control relay, port MZ1 and port MGD1；

   1st normally opened contact KMZ1-1s of the output terminal XF1 of the function generator through the first Pulse Width Control relay meets institute State 4 feet of switch module U14；

   2nd normally opened contact KMZ1-2s of the output terminal XF2 of the function generator through the first Pulse Width Control relay meets institute State 3 feet of switch module U14；

   The output terminal XF1D of the function generator connects 11 feet of the switch module U14；

   The output terminal XF2D of the function generator connects 12 feet of the switch module U14；

   2 feet and 5 feet of the switch module U14 meet the port MZ1 respectively；

   1st normally opened contact KDY23-1s of the port MZ1 through the 23rd relay connects the input terminal of electronic delay component X7 DYR；

   10 feet and 13 feet of the switch module U14 meet the port MGD1 respectively；

   2nd normally opened contact KDY23-2s of the port MGD1 through the 23rd relay connects the GND ports of electronic delay component X7 DYGD；

   1 foot of input terminal of the phase inverter U11A meets the port CLK of the numeral I/O modules；

   1 foot of the selector U13 to 4 feet meet the corresponding port D3 ~ D0 of the numeral I/O modules respectively；The selector U13 12 feet to 15 feet meet the corresponding port D7 ~ D4 of the numeral I/O modules respectively；

   2 foot of output terminal of the phase inverter U11A connects 5 feet of the counter U12；

   3 feet of the counter U12 connect 11 feet of the selector U13；2 feet of the counter U12 meet the selector U13 10 feet；6 feet of the counter U12 connect 9 feet of the selector U13；

   7 feet of the counter U12 connect its 14 foot；

   6 feet of the selector U13 connect 3 foot of input terminal of the phase inverter U11B；4 foot of the output terminal warp of the phase inverter U11B The resistance R90 meets the port+5V+ of the programmable power supply；

   4 feet, 11 feet and 16 feet of the counter U12 meet the port+5V+ of the programmable power supply respectively；The counter U12's 15 feet, 1 foot, 10 feet, 9 feet and 8 feet are grounded respectively；16 feet of the selector U13 meet the port+5V+ of the programmable power supply；Institute 7 feet and 8 feet for stating selector U13 are grounded respectively；

   14 feet of the switch module U14 meet the port+15V+ of the programmable power supply；8 feet of the switch module U14 connect described Port-the 15V- of programmable power supply；7 feet of the switch module U14 connect respectively the port+15V- of the programmable power supply, port- 15V+ and port+5V-.
3. A kind of 3. guided munition electronic delay component capabilities test device according to claim 2, it is characterised in that：It is described Conversion control circuit includes buffer U1-5 ~ U1-6, rp-drive U1-11 ~ U1-12 and 9 foot exclusion RP1；

   Input terminal 1A ~ 5A of the buffer U1-5 connects the corresponding port of the numeral I/O modules respectively；The buffer U1-5 Output terminal 1Y ~ 6Y connect the foot of 6 foot of correspondence input terminal of the rp-drive U1-11 ~ 1 respectively；The electricity of the buffer U1-5 Source VCC meets the port+5V+ of the programmable power supply；The ground terminal GND ground connection of the buffer U1-5；The rp-drive 9 feet of U1-11 meet the port+24V+ of the programmable power supply；The 8 feet ground connection of the rp-drive U1-11；

   Input terminal 5A ~ 6A of the buffer U1-6 connects the corresponding port of the numeral I/O modules respectively；The buffer U1-6 Output terminal 5Y connect 1 foot of input terminal of the rp-drive U1-12；The output terminal 6Y of the buffer U1-6 connects described anti-phase 7 foot of input terminal of driver U1-11；The power end VCC of the buffer U1-6 meets the port+5V+ of the programmable power supply；It is described The ground terminal GND ground connection of buffer U1-6；9 feet of the rp-drive U1-12 meet the port+24V+ of the programmable power supply； The 8 feet ground connection of the rp-drive U1-12；

   Remaining 8 foot of the port+5V+ of the public termination programmable power supply of the 9 foot exclusion RP1, the 9 foot exclusion RP1 The foot of 1 foot of input terminal of the corresponding rp-drive U1-11 ~ 7 and the input terminal 1 of the rp-drive U1-12 are connect respectively Foot；

   The coil KDY21 of 21st relay is connected on 11 foot of output terminal of the rp-drive U1-11 and the program-controlled electric Between the port+24V+ in source；

   The coil KDY22 of 22nd relay is connected on 12 foot of output terminal of the rp-drive U1-11 and the program-controlled electric Between the port+24V+ in source；

   The coil KDY23 of 23rd relay is connected on 13 foot of output terminal of the rp-drive U1-11 and the program-controlled electric Between the port+24V+ in source；

   The coil KDY24 of 24th relay is connected on 14 foot of output terminal of the rp-drive U1-11 and the program-controlled electric Between the port+24V+ in source；

   The coil KDY29 of 29th relay is connected on 15 foot of output terminal of the rp-drive U1-11 and the program-controlled electric Between the port+24V+ in source；

   The coil KDY30 of 30th relay is connected on 16 foot of output terminal of the rp-drive U1-11 and the program-controlled electric Between the port+24V+ in source；

   The coil KDY17 of 17th relay is connected on 10 foot of output terminal of the rp-drive U1-11 and the program-controlled electric Between the port+24V+ in source；

   The coil KMZ1 of the first Pulse Width Control relay be connected on 16 foot of output terminal of the rp-drive U1-12 with it is described Between the port+24V+ of programmable power supply.
4. A kind of 4. guided munition electronic delay component capabilities test device according to claim 3, it is characterised in that：It is described The model 34405A of digital multimeter；The model DPO4034 of the oscillograph；The model of the function generator 33210A；The model N6700B of the programmable power supply；The model L4421A of the selecting switch；The numeral I/O modules Model L4450A.
5. A kind of 5. guided munition electronic delay component capabilities test device according to claim 4, it is characterised in that：It is described The model of phase inverter U11A and phase inverter U11B are 74LS04；The model 74LS193 of the counter U12；The selection The model 74LS151 of device U13；The model DG303AAK of the switch module U14；The model of the buffer U1-5 74LS07；The model MC1413 of the rp-drive U1-11.