CN205644268U - Gun -launched missile electron time delay part capability test appearance - Google Patents

Abstract

The utility model discloses a gun -launched missile electron time delay part capability test appearance, it includes industrial computer, router, oscilloscope, digital multimeter, function generator, programmable power supply, select switch, digital IO module, converting circuit, conversion control circuit and pulse -generating circuit, the beneficial effects are that: the utility model discloses an inspect, simulate the performance parameters of gun -launched missile electron time delay part, working timing, data communication etc to monitor whole experimental situation, the utility model discloses the configuration is nimble, convenient to use, easy operation, the utility model discloses stronger scalability has, with the utility model discloses a test demand of new model gun -launched missile electron time delay part can be accomplished in the basis, also can satisfy the test demand of digital gun -launched missile electron time delay part, the utility model discloses still have self -checking function, leave the equipment calibration interface, make things convenient for equipment periodic calibration.

Description

Gun launched missile electronic delay component capabilities tester

Technical field

This utility model belongs to guided munition technical field of measurement and test, relates to a kind of gun launched missile electronic delay component capabilities tester.

Background technology

Typically, gun launched missile product is the electronic product constituted based on ten million components and parts, or the Complex Structural System being made up of some assemblies and parts.And the Support of Complex Structural System more levels off to a great system engineering.In this system engineering, it is important that a part be then test system, the test of the various parameters of its main completion system level product and functional verification, including reliability test, ground simulation etc..

Electronic delay parts are one of critical pieces of gun launched missile guidance control system, and its parameter and functional verification are the important component parts of test guided munition properties of product, and to grasping, guided munition guidance control system overall performance state is significant.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of gun launched missile electronic delay component capabilities tester that electronic delay parts can carry out intelligent test.

Be the technical scheme is that a kind of gun launched missile electronic delay component capabilities tester by solving above-mentioned technical problem, it includes industrial computer, router, oscillograph, digital multimeter, functional generator, programmable power supply, selection switch, numeral I/O module, change-over circuit, conversion control circuit and pulse-generating circuit；Described change-over circuit includes the 17th relay, the 21st to the 24th relay and the 29th to the 30th relay；

Described oscillograph, digital multimeter, programmable power supply, functional generator, selection switch are connected with described industrial computer by router respectively with numeral I/O module；

Described digital multimeter is connected with the described corresponding port selecting switch；

Described selection switch is connected with the corresponding port of electronic delay parts X7；

Described functional generator is connected with the corresponding port of described pulse-generating circuit；

Described numeral I/O module corresponding port with described pulse-generating circuit and conversion control circuit respectively is connected；

Described programmable power supply corresponding port with conversion control circuit and pulse-generating circuit respectively is connected；

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

Described oscillographic port SB1 meets the outfan DYC of electronic delay parts X7 through the 1st normally opened contact KDY24-1 of described 24th relay；Described oscillographic port SB1D meets the GND port DYGD of electronic delay parts X7 through the 2nd normally opened contact KDY24-2 of described 24th relay；

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

The input DYR of electronic delay parts X7 connects the corresponding port of described pulse-generating circuit through the 1st normally opened contact KDY23-1 of described 23rd relay；The GND port DYGD of electronic delay parts X7 connects the corresponding port of described pulse-generating circuit through the 2nd normally opened contact KDY23-2 of described 23rd relay；

The port K21-1 of electronic delay parts X7 meets the port K21-2 of electronic delay parts X7 through the 1st normally opened contact KDY21-1 of described 21st relay；The port K21-3 of electronic delay parts X7 meets the port K21-4 of electronic delay parts X7 through the 2nd normally opened contact KDY21-2 of described 21st relay；

The port K29-1 of electronic delay parts X7 meets the port K29-2 of electronic delay parts X7 through the 1st normally opened contact KDY29-1 of described 29th relay；The port K29-3 of electronic delay parts X7 meets the port K29-4 of electronic delay parts X7 through the 2nd normally opened contact KDY29-2 of described 29th relay；

The port K30-1 of electronic delay parts X7 meets the port K30-2 of electronic delay parts X7 through the 1st normally opened contact KDY30-1 of described 30th relay；The port K30-3 of electronic delay parts X7 meets the port K30-4 of electronic delay parts X7 through the 2nd normally opened contact KDY30-2 of described 30th relay.

Described pulse-generating circuit includes phase inverter U11A, phase inverter U11B, enumerator U12, selector U13, switch module U14, resistance R90, the first Pulse Width Control relay, port MZ1 and port MGD1；

The outfan XF1 of described functional generator connects 4 feet of described switch module U14 through the 1st normally opened contact KMZ1-1 of described first Pulse Width Control relay；

The outfan XF2 of described functional generator connects 3 feet of described switch module U14 through the 2nd normally opened contact KMZ1-2 of described first Pulse Width Control relay；

The outfan XF1D of described functional generator connects 11 feet of described switch module U14；

The outfan XF2D of described functional generator connects 12 feet of described switch module U14；

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

Described port MZ1 meets the input DYR of electronic delay parts X7 through the 1st normally opened contact KDY23-1 of described 23rd relay；

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

Described port MGD1 meets the GND port DYGD of electronic delay parts X7 through the 2nd normally opened contact KDY23-2 of described 23rd relay；

Input 1 foot of described phase inverter U11A meets the port CLK of described numeral I/O module；

1 foot of described selector U13 to 4 feet meet port D3 ~ D0 that described numeral I/O module is corresponding respectively；12 feet of described selector U13 to 15 feet meet port D7 ~ D4 that described numeral I/O module is corresponding respectively；

Outfan 2 foot of described phase inverter U11A connects 5 feet of described enumerator U12；

3 feet of described enumerator U12 connect 11 feet of described selector U13；2 feet of described enumerator U12 connect 10 feet of described selector U13；6 feet of described enumerator U12 connect 9 feet of described selector U13；

7 feet of described enumerator U12 connect its 14 foot；

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

4 feet of described enumerator U12,11 feet and 16 feet meet the port+5V+ of described programmable power supply respectively；15 feet of described enumerator U12,1 foot, 10 feet, 9 feet and 8 feet ground connection respectively；16 feet of described selector U13 meet the port+5V+ of described programmable power supply；7 feet of described selector U13 and 8 feet ground connection respectively；

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

Described conversion control circuit include buffer U1-5 ~ U1-6, rp-drive U1-11 ~ U1-12 and 9 foot exclusion RP1；

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

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

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

The coil KDY21 of described 21st relay is connected between outfan 11 foot and the port+24V+ of described programmable power supply of described rp-drive U1-11；

The coil KDY22 of described 22nd relay is connected between outfan 12 foot and the port+24V+ of described programmable power supply of described rp-drive U1-11；

The coil KDY23 of described 23rd relay is connected between outfan 13 foot and the port+24V+ of described programmable power supply of described rp-drive U1-11；

The coil KDY24 of described 24th relay is connected between outfan 14 foot and the port+24V+ of described programmable power supply of described rp-drive U1-11；

The coil KDY29 of described 29th relay is connected between outfan 15 foot and the port+24V+ of described programmable power supply of described rp-drive U1-11；

The coil KDY30 of described 30th relay is connected between outfan 16 foot and the port+24V+ of described programmable power supply of described rp-drive U1-11；

The coil KDY17 of described 17th relay is connected between outfan 10 foot and the port+24V+ of described programmable power supply of described rp-drive U1-11；

The coil KMZ1 of described first Pulse Width Control relay is connected between outfan 16 foot and the port+24V+ of described programmable power supply of described rp-drive U1-12.

The model of described digital multimeter is 34405A；Described oscillographic model is DPO4034；The model of described functional generator is 33210A；The model of described programmable power supply is N6700B；The described model selecting switch is L4421A；The model of described numeral I/O module is L4450A.

The model of described phase inverter U11A and phase inverter U11B is 74LS04；The model of described enumerator U12 is 74LS193；The model of described selector U13 is 74LS151；The model of described switch module U14 is DG303AAK；The model of described buffer U1-5 is 74LS07；The model of described rp-drive U1-11 is MC1413.

The beneficial effects of the utility model are: this utility model is that the characterisitic parameter to gun launched missile electronic delay parts, work schedule, data communication etc. check, simulate, and is monitored whole Test condition；This utility model flexible configuration, easy to use, simple to operate；This utility model has stronger extensibility, based on this utility model, can complete the testing requirement of new model gun launched missile electronic delay parts, it is also possible to meet the test of digital gun launched missile electronic delay parts；This utility model also has self-checking function, leaves equipment Alignment interface, facilitates equipment periodic calibration.

Accompanying drawing explanation

Fig. 1 is this utility model theory diagram.

Fig. 2 is change-over circuit schematic diagram.

Fig. 3 is pulse-generating circuit schematic diagram.

Fig. 4 is conversion control circuit schematic diagram.

Detailed description of the invention

From the embodiment shown in Fig. 1-4, it includes industrial computer, router, oscillograph, digital multimeter, functional generator, programmable power supply, selection switch, numeral I/O module, change-over circuit, conversion control circuit and pulse-generating circuit；Described change-over circuit includes the 17th relay, the 21st to the 24th relay and the 29th to the 30th relay；

Described oscillograph, digital multimeter, programmable power supply, functional generator, selection switch are connected with described industrial computer by router respectively with numeral I/O module；

Described digital multimeter is connected with the described corresponding port selecting switch；

Described selection switch is connected with the corresponding port of electronic delay parts X7；

Described functional generator is connected with the corresponding port of described pulse-generating circuit；

Described numeral I/O module corresponding port with described pulse-generating circuit and conversion control circuit respectively is connected；

Described programmable power supply corresponding port with conversion control circuit and pulse-generating circuit respectively is connected；

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

Described oscillographic port SB1 meets the outfan DYC of electronic delay parts X7 through the 1st normally opened contact KDY24-1 of described 24th relay；Described oscillographic port SB1D meets the GND port DYGD of electronic delay parts X7 through the 2nd normally opened contact KDY24-2 of described 24th relay；

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

The input DYR of electronic delay parts X7 connects the corresponding port of described pulse-generating circuit through the 1st normally opened contact KDY23-1 of described 23rd relay；The GND port DYGD of electronic delay parts X7 connects the corresponding port of described pulse-generating circuit through the 2nd normally opened contact KDY23-2 of described 23rd relay；

The port K21-1 of electronic delay parts X7 meets the port K21-2 of electronic delay parts X7 through the 1st normally opened contact KDY21-1 of described 21st relay；The port K21-3 of electronic delay parts X7 meets the port K21-4 of electronic delay parts X7 through the 2nd normally opened contact KDY21-2 of described 21st relay；

The port K29-1 of electronic delay parts X7 meets the port K29-2 of electronic delay parts X7 through the 1st normally opened contact KDY29-1 of described 29th relay；The port K29-3 of electronic delay parts X7 meets the port K29-4 of electronic delay parts X7 through the 2nd normally opened contact KDY29-2 of described 29th relay；

The port K30-1 of electronic delay parts X7 meets the port K30-2 of electronic delay parts X7 through the 1st normally opened contact KDY30-1 of described 30th relay；The port K30-3 of electronic delay parts X7 meets the port K30-4 of electronic delay parts X7 through the 2nd normally opened contact KDY30-2 of described 30th relay.

Described pulse-generating circuit includes phase inverter U11A, phase inverter U11B, enumerator U12, selector U13, switch module U14, resistance R90, the first Pulse Width Control relay, port MZ1 and port MGD1；

The outfan XF1 of described functional generator connects 4 feet of described switch module U14 through the 1st normally opened contact KMZ1-1 of described first Pulse Width Control relay；

The outfan XF2 of described functional generator connects 3 feet of described switch module U14 through the 2nd normally opened contact KMZ1-2 of described first Pulse Width Control relay；

The outfan XF1D of described functional generator connects 11 feet of described switch module U14；

The outfan XF2D of described functional generator connects 12 feet of described switch module U14；

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

Described port MZ1 meets the input DYR of electronic delay parts X7 through the 1st normally opened contact KDY23-1 of described 23rd relay；

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

Described port MGD1 meets the GND port DYGD of electronic delay parts X7 through the 2nd normally opened contact KDY23-2 of described 23rd relay；

Input 1 foot of described phase inverter U11A meets the port CLK of described numeral I/O module；

1 foot of described selector U13 to 4 feet meet port D3 ~ D0 that described numeral I/O module is corresponding respectively；12 feet of described selector U13 to 15 feet meet port D7 ~ D4 that described numeral I/O module is corresponding respectively；

Outfan 2 foot of described phase inverter U11A connects 5 feet of described enumerator U12；

3 feet of described enumerator U12 connect 11 feet of described selector U13；2 feet of described enumerator U12 connect 10 feet of described selector U13；6 feet of described enumerator U12 connect 9 feet of described selector U13；

7 feet of described enumerator U12 connect its 14 foot；

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

4 feet of described enumerator U12,11 feet and 16 feet meet the port+5V+ of described programmable power supply respectively；15 feet of described enumerator U12,1 foot, 10 feet, 9 feet and 8 feet ground connection respectively；16 feet of described selector U13 meet the port+5V+ of described programmable power supply；7 feet of described selector U13 and 8 feet ground connection respectively；

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

Described conversion control circuit include buffer U1-5 ~ U1-6, rp-drive U1-11 ~ U1-12 and 9 foot exclusion RP1；

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

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

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

The coil KDY21 of described 21st relay is connected between outfan 11 foot and the port+24V+ of described programmable power supply of described rp-drive U1-11；

The coil KDY22 of described 22nd relay is connected between outfan 12 foot and the port+24V+ of described programmable power supply of described rp-drive U1-11；

The coil KDY23 of described 23rd relay is connected between outfan 13 foot and the port+24V+ of described programmable power supply of described rp-drive U1-11；

The coil KDY24 of described 24th relay is connected between outfan 14 foot and the port+24V+ of described programmable power supply of described rp-drive U1-11；

The coil KDY29 of described 29th relay is connected between outfan 15 foot and the port+24V+ of described programmable power supply of described rp-drive U1-11；

The coil KDY30 of described 30th relay is connected between outfan 16 foot and the port+24V+ of described programmable power supply of described rp-drive U1-11；

The coil KDY17 of described 17th relay is connected between outfan 10 foot and the port+24V+ of described programmable power supply of described rp-drive U1-11；

The coil KMZ1 of described first Pulse Width Control relay is connected between outfan 16 foot and the port+24V+ of described programmable power supply of described rp-drive U1-12.

The model of described digital multimeter is 34405A；Described oscillographic model is DPO4034；The model of described functional generator is 33210A；The model of described programmable power supply is N6700B；The described model selecting switch is L4421A；The model of described numeral I/O module is L4450A.

The model of described phase inverter U11A and phase inverter U11B is 74LS04；The model of described enumerator U12 is 74LS193；The model of described selector U13 is 74LS151；The model of described switch module U14 is DG303AAK；The model of described buffer U1-5 is 74LS07；The model of described rp-drive U1-11 is MC1413.

The method of testing that this utility model electronic delay parts input and output check is as follows: industrial computer sends instruction by numeral I/O module transfer to conversion control circuit, makes the normally opened contact of the 17th relay and the 22nd relay close, switches on power；Being the normally opened contact Guan Bi of the 23rd relay, connectivity function generator produces pulse command；The normally opened contact making the 24th relay closes, and connects oscillograph, observes output situation.

The foregoing is only preferred embodiment of the present utility model, not in order to limit this utility model, all any amendment, equivalent and improvement etc. made within spirit of the present utility model and principle, within being all contained in protection domain of the present utility model.

Claims (5)

1. a gun launched missile electronic delay component capabilities tester, it is characterised in that: include industrial computer, router, oscillograph, digital multimeter, functional generator, programmable power supply, selection switch, numeral I/O module, change-over circuit, conversion control circuit and pulse-generating circuit；Described change-over circuit includes the 17th relay, the 21st to the 24th relay and the 29th to the 30th relay；

Described oscillograph, digital multimeter, programmable power supply, functional generator, selection switch are connected with described industrial computer by router respectively with numeral I/O module；

Described digital multimeter is connected with the described corresponding port selecting switch；

Described selection switch is connected with the corresponding port of electronic delay parts X7；

Described functional generator is connected with the corresponding port of described pulse-generating circuit；

Described numeral I/O module corresponding port with described pulse-generating circuit and conversion control circuit respectively is connected；

Described programmable power supply corresponding port with conversion control circuit and pulse-generating circuit respectively is connected；

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

Described oscillographic port SB1 meets the outfan DYC of electronic delay parts X7 through the 1st normally opened contact KDY24-1 of described 24th relay；Described oscillographic port SB1D meets the GND port DYGD of electronic delay parts X7 through the 2nd normally opened contact KDY24-2 of described 24th relay；

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

The input DYR of electronic delay parts X7 connects the corresponding port of described pulse-generating circuit through the 1st normally opened contact KDY23-1 of described 23rd relay；The GND port DYGD of electronic delay parts X7 connects the corresponding port of described pulse-generating circuit through the 2nd normally opened contact KDY23-2 of described 23rd relay；

The port K21-1 of electronic delay parts X7 meets the port K21-2 of electronic delay parts X7 through the 1st normally opened contact KDY21-1 of described 21st relay；The port K21-3 of electronic delay parts X7 meets the port K21-4 of electronic delay parts X7 through the 2nd normally opened contact KDY21-2 of described 21st relay；

The port K29-1 of electronic delay parts X7 meets the port K29-2 of electronic delay parts X7 through the 1st normally opened contact KDY29-1 of described 29th relay；The port K29-3 of electronic delay parts X7 meets the port K29-4 of electronic delay parts X7 through the 2nd normally opened contact KDY29-2 of described 29th relay；

The port K30-1 of electronic delay parts X7 meets the port K30-2 of electronic delay parts X7 through the 1st normally opened contact KDY30-1 of described 30th relay；The port K30-3 of electronic delay parts X7 meets the port K30-4 of electronic delay parts X7 through the 2nd normally opened contact KDY30-2 of described 30th relay.

Gun launched missile electronic delay component capabilities tester the most according to claim 1, it is characterised in that: described pulse-generating circuit includes phase inverter U11A, phase inverter U11B, enumerator U12, selector U13, switch module U14, resistance R90, the first Pulse Width Control relay, port MZ1 and port MGD1；

The outfan XF1 of described functional generator connects 4 feet of described switch module U14 through the 1st normally opened contact KMZ1-1 of described first Pulse Width Control relay；

The outfan XF2 of described functional generator connects 3 feet of described switch module U14 through the 2nd normally opened contact KMZ1-2 of described first Pulse Width Control relay；

The outfan XF1D of described functional generator connects 11 feet of described switch module U14；

The outfan XF2D of described functional generator connects 12 feet of described switch module U14；

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

Described port MZ1 meets the input DYR of electronic delay parts X7 through the 1st normally opened contact KDY23-1 of described 23rd relay；

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

Described port MGD1 meets the GND port DYGD of electronic delay parts X7 through the 2nd normally opened contact KDY23-2 of described 23rd relay；

Input 1 foot of described phase inverter U11A meets the port CLK of described numeral I/O module；

1 foot of described selector U13 to 4 feet meet port D3 ~ D0 that described numeral I/O module is corresponding respectively；12 feet of described selector U13 to 15 feet meet port D7 ~ D4 that described numeral I/O module is corresponding respectively；

Outfan 2 foot of described phase inverter U11A connects 5 feet of described enumerator U12；

3 feet of described enumerator U12 connect 11 feet of described selector U13；2 feet of described enumerator U12 connect 10 feet of described selector U13；6 feet of described enumerator U12 connect 9 feet of described selector U13；

7 feet of described enumerator U12 connect its 14 foot；

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

4 feet of described enumerator U12,11 feet and 16 feet meet the port+5V+ of described programmable power supply respectively；15 feet of described enumerator U12,1 foot, 10 feet, 9 feet and 8 feet ground connection respectively；16 feet of described selector U13 meet the port+5V+ of described programmable power supply；7 feet of described selector U13 and 8 feet ground connection respectively；

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

Gun launched missile electronic delay component capabilities tester the most according to claim 2, it is characterised in that: described conversion control circuit includes buffer U1-5 ~ U1-6, rp-drive U1-11 ~ U1-12 and 9 foot exclusion RP1；

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

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

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

The coil KDY21 of described 21st relay is connected between outfan 11 foot and the port+24V+ of described programmable power supply of described rp-drive U1-11；

The coil KDY22 of described 22nd relay is connected between outfan 12 foot and the port+24V+ of described programmable power supply of described rp-drive U1-11；

The coil KDY23 of described 23rd relay is connected between outfan 13 foot and the port+24V+ of described programmable power supply of described rp-drive U1-11；

The coil KDY24 of described 24th relay is connected between outfan 14 foot and the port+24V+ of described programmable power supply of described rp-drive U1-11；

The coil KDY29 of described 29th relay is connected between outfan 15 foot and the port+24V+ of described programmable power supply of described rp-drive U1-11；

The coil KDY30 of described 30th relay is connected between outfan 16 foot and the port+24V+ of described programmable power supply of described rp-drive U1-11；

The coil KDY17 of described 17th relay is connected between outfan 10 foot and the port+24V+ of described programmable power supply of described rp-drive U1-11；

The coil KMZ1 of described first Pulse Width Control relay is connected between outfan 16 foot and the port+24V+ of described programmable power supply of described rp-drive U1-12.

Gun launched missile electronic delay component capabilities tester the most according to claim 3, it is characterised in that: the model of described digital multimeter is 34405A；Described oscillographic model is DPO4034；The model of described functional generator is 33210A；The model of described programmable power supply is N6700B；The described model selecting switch is L4421A；The model of described numeral I/O module is L4450A.

Gun launched missile electronic delay component capabilities tester the most according to claim 4, it is characterised in that: the model of described phase inverter U11A and phase inverter U11B is 74LS04；The model of described enumerator U12 is 74LS193；The model of described selector U13 is 74LS151；The model of described switch module U14 is DG303AAK；The model of described buffer U1-5 is 74LS07；The model of described rp-drive U1-11 is MC1413.