Military : Missile Launch Control Testing a nd Simulation System


square-arrow-blue A Meeting of Top Technology
 
In the unbearable heat of the barren northern desert, the SUNIX 16 ports serial card has already endured 270 days of nonstop outdoor burn-in testing. To ensure the absolute stability of the missile launch control system, the military spent endless hours conducting test after test under extreme conditions. Surprisingly, even in such a harsh environment, the highest temperature of the Matrix microchip inside the serial card still remained the same as the outdoor temperature, i.e. no extra heat was being produced that would affect its operation performance. The military was really amazed with this result!

The military conducted the missile launch system´s self detection and test launch simulation with the RS-232. From missile launch, aiming, satellite positioning, ballistic analysis, etc. the RS-232 was used to transmit, send back, verify, and accurately control the drop site of the missiles. In the past, the military had always used a 16 ports serial card from a world famous manufacturer to control the missile launch control system. Currently in the market today, a single chipset can only support up to 8 ports. Therefore, to support 16 ports, 2 sets of chipsets are needed. Due to the space limitations and the high temperature caused by the 2 enclosed chipsets, the system became very unstable. Hence, the military decided to look for an even more advanced solution.

Matrix is the most intelligent chipset in the world today. Each chipset can support 16 ports. Its low power consumption < 0.35W, which almost generates no extra heat, is state-of-the-art technology. In addition, it only takes up one PCI expansion port, thereby resolving the military´s original space limitation and overheating concerns. Not only was the hardware impressive, the SUNIX serial card also supports Sco Unix. The military´s senior engineers can write their own program application using Sco Unix. This is a great benefit for the missile launch control system, which places high demands on self detection and test launch simulation accuracy. The Matrix chip gave the military´s high technology a top notch match.
   
square-arrow-blue WHY SUNIX
   
Fully supports Sco Unix, satisfies the need to write own program applications
 
The most important parts in the military´s missile launch control system are the self detection and test launch simulation systems. The self detection system can conduct testing on the missile´s aiming, satellite positioning, pressure signal, etc., while the test launch simulation is used to perform the ballistic analysis, which simulates the flight of the missile from when it is launched to when it hits the target. This can help save tremendous cost when the missiles are actually launched. These complex and detailed requirements can be completed by writing up special programs in Sco UNIX. The SUNIX driver team developed this special system support, thus becoming the customer´s most solid back up.
   
9 months of stringent burn-in testing wins customer´s 100% trust
 
The Matrix intelligent chipset can withstand up to 80 C temperature conditions. Even in full operation, the chipset´s power consumption is less than 0.35W and generates almost no extra heat. The Matrix passed 9 months of burn-in testing by the military, proving that even under the most extreme environment, the Matrix´s stability and quality is your best protection.
   

 

Military : Missile Launch Control Testing a nd Simulation System


square-arrow-blue A Meeting of Top Technology
 
In the unbearable heat of the barren northern desert, the SUNIX 16 ports serial card has already endured 270 days of nonstop outdoor burn-in testing. To ensure the absolute stability of the missile launch control system, the military spent endless hours conducting test after test under extreme conditions. Surprisingly, even in such a harsh environment, the highest temperature of the Matrix microchip inside the serial card still remained the same as the outdoor temperature, i.e. no extra heat was being produced that would affect its operation performance. The military was really amazed with this result!

The military conducted the missile launch system´s self detection and test launch simulation with the RS-232. From missile launch, aiming, satellite positioning, ballistic analysis, etc. the RS-232 was used to transmit, send back, verify, and accurately control the drop site of the missiles. In the past, the military had always used a 16 ports serial card from a world famous manufacturer to control the missile launch control system. Currently in the market today, a single chipset can only support up to 8 ports. Therefore, to support 16 ports, 2 sets of chipsets are needed. Due to the space limitations and the high temperature caused by the 2 enclosed chipsets, the system became very unstable. Hence, the military decided to look for an even more advanced solution.

Matrix is the most intelligent chipset in the world today. Each chipset can support 16 ports. Its low power consumption < 0.35W, which almost generates no extra heat, is state-of-the-art technology. In addition, it only takes up one PCI expansion port, thereby resolving the military´s original space limitation and overheating concerns. Not only was the hardware impressive, the SUNIX serial card also supports Sco Unix. The military´s senior engineers can write their own program application using Sco Unix. This is a great benefit for the missile launch control system, which places high demands on self detection and test launch simulation accuracy. The Matrix chip gave the military´s high technology a top notch match.
   
square-arrow-blue WHY SUNIX
   
Fully supports Sco Unix, satisfies the need to write own program applications
 
The most important parts in the military´s missile launch control system are the self detection and test launch simulation systems. The self detection system can conduct testing on the missile´s aiming, satellite positioning, pressure signal, etc., while the test launch simulation is used to perform the ballistic analysis, which simulates the flight of the missile from when it is launched to when it hits the target. This can help save tremendous cost when the missiles are actually launched. These complex and detailed requirements can be completed by writing up special programs in Sco UNIX. The SUNIX driver team developed this special system support, thus becoming the customer´s most solid back up.
   
9 months of stringent burn-in testing wins customer´s 100% trust
 
The Matrix intelligent chipset can withstand up to 80 C temperature conditions. Even in full operation, the chipset´s power consumption is less than 0.35W and generates almost no extra heat. The Matrix passed 9 months of burn-in testing by the military, proving that even under the most extreme environment, the Matrix´s stability and quality is your best protection.
   

 

Military : Missile Launch Control Testing a nd Simulation System


square-arrow-blue A Meeting of Top Technology
 
In the unbearable heat of the barren northern desert, the SUNIX 16 ports serial card has already endured 270 days of nonstop outdoor burn-in testing. To ensure the absolute stability of the missile launch control system, the military spent endless hours conducting test after test under extreme conditions. Surprisingly, even in such a harsh environment, the highest temperature of the Matrix microchip inside the serial card still remained the same as the outdoor temperature, i.e. no extra heat was being produced that would affect its operation performance. The military was really amazed with this result!

The military conducted the missile launch system´s self detection and test launch simulation with the RS-232. From missile launch, aiming, satellite positioning, ballistic analysis, etc. the RS-232 was used to transmit, send back, verify, and accurately control the drop site of the missiles. In the past, the military had always used a 16 ports serial card from a world famous manufacturer to control the missile launch control system. Currently in the market today, a single chipset can only support up to 8 ports. Therefore, to support 16 ports, 2 sets of chipsets are needed. Due to the space limitations and the high temperature caused by the 2 enclosed chipsets, the system became very unstable. Hence, the military decided to look for an even more advanced solution.

Matrix is the most intelligent chipset in the world today. Each chipset can support 16 ports. Its low power consumption < 0.35W, which almost generates no extra heat, is state-of-the-art technology. In addition, it only takes up one PCI expansion port, thereby resolving the military´s original space limitation and overheating concerns. Not only was the hardware impressive, the SUNIX serial card also supports Sco Unix. The military´s senior engineers can write their own program application using Sco Unix. This is a great benefit for the missile launch control system, which places high demands on self detection and test launch simulation accuracy. The Matrix chip gave the military´s high technology a top notch match.
   
square-arrow-blue WHY SUNIX
   
Fully supports Sco Unix, satisfies the need to write own program applications
 
The most important parts in the military´s missile launch control system are the self detection and test launch simulation systems. The self detection system can conduct testing on the missile´s aiming, satellite positioning, pressure signal, etc., while the test launch simulation is used to perform the ballistic analysis, which simulates the flight of the missile from when it is launched to when it hits the target. This can help save tremendous cost when the missiles are actually launched. These complex and detailed requirements can be completed by writing up special programs in Sco UNIX. The SUNIX driver team developed this special system support, thus becoming the customer´s most solid back up.
   
9 months of stringent burn-in testing wins customer´s 100% trust
 
The Matrix intelligent chipset can withstand up to 80 C temperature conditions. Even in full operation, the chipset´s power consumption is less than 0.35W and generates almost no extra heat. The Matrix passed 9 months of burn-in testing by the military, proving that even under the most extreme environment, the Matrix´s stability and quality is your best protection.
   

 

Military : Missile Launch Control Testing a nd Simulation System


square-arrow-blue A Meeting of Top Technology
 
In the unbearable heat of the barren northern desert, the SUNIX 16 ports serial card has already endured 270 days of nonstop outdoor burn-in testing. To ensure the absolute stability of the missile launch control system, the military spent endless hours conducting test after test under extreme conditions. Surprisingly, even in such a harsh environment, the highest temperature of the Matrix microchip inside the serial card still remained the same as the outdoor temperature, i.e. no extra heat was being produced that would affect its operation performance. The military was really amazed with this result!

The military conducted the missile launch system´s self detection and test launch simulation with the RS-232. From missile launch, aiming, satellite positioning, ballistic analysis, etc. the RS-232 was used to transmit, send back, verify, and accurately control the drop site of the missiles. In the past, the military had always used a 16 ports serial card from a world famous manufacturer to control the missile launch control system. Currently in the market today, a single chipset can only support up to 8 ports. Therefore, to support 16 ports, 2 sets of chipsets are needed. Due to the space limitations and the high temperature caused by the 2 enclosed chipsets, the system became very unstable. Hence, the military decided to look for an even more advanced solution.

Matrix is the most intelligent chipset in the world today. Each chipset can support 16 ports. Its low power consumption < 0.35W, which almost generates no extra heat, is state-of-the-art technology. In addition, it only takes up one PCI expansion port, thereby resolving the military´s original space limitation and overheating concerns. Not only was the hardware impressive, the SUNIX serial card also supports Sco Unix. The military´s senior engineers can write their own program application using Sco Unix. This is a great benefit for the missile launch control system, which places high demands on self detection and test launch simulation accuracy. The Matrix chip gave the military´s high technology a top notch match.
   
square-arrow-blue WHY SUNIX
   
Fully supports Sco Unix, satisfies the need to write own program applications
 
The most important parts in the military´s missile launch control system are the self detection and test launch simulation systems. The self detection system can conduct testing on the missile´s aiming, satellite positioning, pressure signal, etc., while the test launch simulation is used to perform the ballistic analysis, which simulates the flight of the missile from when it is launched to when it hits the target. This can help save tremendous cost when the missiles are actually launched. These complex and detailed requirements can be completed by writing up special programs in Sco UNIX. The SUNIX driver team developed this special system support, thus becoming the customer´s most solid back up.
   
9 months of stringent burn-in testing wins customer´s 100% trust
 
The Matrix intelligent chipset can withstand up to 80 C temperature conditions. Even in full operation, the chipset´s power consumption is less than 0.35W and generates almost no extra heat. The Matrix passed 9 months of burn-in testing by the military, proving that even under the most extreme environment, the Matrix´s stability and quality is your best protection.
   

 

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