Název projektu:
New approach of developing customised high performance power modules for automotive, marine and various industrial electrical traction systems (10 SI 68CN 3GTP)
Popis:
A Slovenian SME offers a novel approach of developing customized power modules that are used in automotive, marine, industrial applications and in hybrid vehicles electrical traction systems. The novel approach is achieving higher electrical and thermal performances. The laboratory testings show the 30% price/performance improvements in comparison to the market available power modules. The SME seeks commercial collaborations with technical assistance as well as any other kind of collaboration.
Požadavky na partnera:
A Slovenian R&D SME is specialized in research, design and production of high performance power modules that are used in automotive, marine, industrial applications and in hybrid vehicles electrical traction systems. The company offers a complete service of developing customized power modules from idea to the production. For the power module development and prototype realization advanced materials and components are used as well as high-end assembly technologies.
The company has developed (and patented) a novel approach of power module design that offers excellent price/performance ratio. The new power module design approach is based on advanced technologies used for microelectronics and electronic circuit assembly. Newly developed and modified processes which were developed with the goal of achieving simplified power module assembly and higher price/performance ratio are used. Special attention is paid to the power module size optimization, minimizing parasitic influences and thermal performance. The main advantage of the used approach is the optimization of the power and thermal losses due to the developed art how of the electrical and thermal connections of individual semiconductor power devices inside the power application is realized.
The developed technology and »know-how« can be used in automotive, marine, industrial applications and in hybrid vehicles electrical traction systems as well as in other electrical power applications where high performance is required and better price/performance ratio should be met.
Innovative Aspects:
The novel power module design approach is unique in comparison to the state of the art since it is achieving higher electrical and thermal performances.
The power module is used to convert a Direct Current to Alternating Current (DC-to-AC). This means that the electrical energy stored in batteries is transformed to the proper AC signals required for driving the electrical motors. Semiconductor power devices are used for switching the high current densities (usually MOSFET, IGBT or other controlled switching devices). To achieve the high performance of the power module electrical connections of the build-in power switches must be properly realized. The goal is to optimize the dynamic and static power dissipation of the power semiconductor power devices. Keeping the power dissipation of the power devices as low as possible is the company's patented approach that makes this feasible. The design benefits a lot from the fact that the power dissipation of the power module is kept low. The main benefit is the usage of lower number of semiconductor power switches without influencing the power capabilities of the power module performances.
With new design approach heat dissipation is reduced. Because of lower power module heat dissipation lifetimes of construction parts are extended. For power module construction new high-technology processes need to be set and some adjustments need be done on the existing SMT assembly technology.
The laboratory testing of the power module proves that the novel power module design approach in comparison with market available power modules improves the price/performance ratio for 30%.
Degree of development:
Patents/Rights: Patent(s) applied for but not yet granted
Requested Cooperation: Assembly, Engineering, Quality control, Adaptation to specific needs
- Type of partner sought:
1. Industry partners involved in automotive, marine, hybrid vehicles and other electrical transportations systems support.
2. Research organizations active in the development of new materials and advanced semiconductor devices.
- Specific area of activity of the partner & task to be performed by the partner sought: Partner being involved in electrical traction system development; working together with a goal of bringing the product as a part of the system on the market.
The company has developed (and patented) a novel approach of power module design that offers excellent price/performance ratio. The new power module design approach is based on advanced technologies used for microelectronics and electronic circuit assembly. Newly developed and modified processes which were developed with the goal of achieving simplified power module assembly and higher price/performance ratio are used. Special attention is paid to the power module size optimization, minimizing parasitic influences and thermal performance. The main advantage of the used approach is the optimization of the power and thermal losses due to the developed art how of the electrical and thermal connections of individual semiconductor power devices inside the power application is realized.
The developed technology and »know-how« can be used in automotive, marine, industrial applications and in hybrid vehicles electrical traction systems as well as in other electrical power applications where high performance is required and better price/performance ratio should be met.
Innovative Aspects:
The novel power module design approach is unique in comparison to the state of the art since it is achieving higher electrical and thermal performances.
The power module is used to convert a Direct Current to Alternating Current (DC-to-AC). This means that the electrical energy stored in batteries is transformed to the proper AC signals required for driving the electrical motors. Semiconductor power devices are used for switching the high current densities (usually MOSFET, IGBT or other controlled switching devices). To achieve the high performance of the power module electrical connections of the build-in power switches must be properly realized. The goal is to optimize the dynamic and static power dissipation of the power semiconductor power devices. Keeping the power dissipation of the power devices as low as possible is the company's patented approach that makes this feasible. The design benefits a lot from the fact that the power dissipation of the power module is kept low. The main benefit is the usage of lower number of semiconductor power switches without influencing the power capabilities of the power module performances.
With new design approach heat dissipation is reduced. Because of lower power module heat dissipation lifetimes of construction parts are extended. For power module construction new high-technology processes need to be set and some adjustments need be done on the existing SMT assembly technology.
The laboratory testing of the power module proves that the novel power module design approach in comparison with market available power modules improves the price/performance ratio for 30%.
Degree of development:
Patents/Rights: Patent(s) applied for but not yet granted
Requested Cooperation: Assembly, Engineering, Quality control, Adaptation to specific needs
- Type of partner sought:
1. Industry partners involved in automotive, marine, hybrid vehicles and other electrical transportations systems support.
2. Research organizations active in the development of new materials and advanced semiconductor devices.
- Specific area of activity of the partner & task to be performed by the partner sought: Partner being involved in electrical traction system development; working together with a goal of bringing the product as a part of the system on the market.
Obchodní firma/fyzická osoba:
Technologické inovační centrum s.r.o.
Sídlo/Místo podnikání:
Kontaktní osoba:
Ing. Lenka Kostelníková Phd.
Email:
Telefon:
+420 739 570 792
