TECHNOLOGY TRANSFER
If you are seeking a source of Technology or looking to Transfer your Technology ...................GM Systems can assist you in this task
see below:
see below:
EXAMPLES OF TECHNOLOGY TRANSFERS, GM SYSTEMS WAS INVOLVED IN AND/OR COORDINATED.
1-MULTILAYER THICK FILM HYBRID FOR MILITARY MEMORY MODULES
2-THICK FILM DC PLASMA PANELS
3-THIN FILM AC PLASMA PANELS
4-SMT LCD DISPLAY FOR CIVILIAN AIRCRAFT APPLICATIONS
5-FIBER OPTIC LITHIUM NIOBATE MODULE FOR TELECOM MARKET
6-CMOS ASIC DEVELOPMENT
7-TRANSFORMER ASSEMBLY AND PLANAR TRANSFORMER ASSEMBLY
8-HYBRID MICROCIRCUIT
9-THICK FILM PROCESS
10-64 BIT MILITARY MICROPROCESSOR (SBC) COMPUTER BOARD
11-HALL EFFECT SENSOR FOR BRUSHLESS MOTOR
12-RF AND MICROWAVE AMPLIFIER FOR TELECOM APPLICATIONS
13-THIN FILM MOLDED AND PRE MOLDED MCMS FOR TELECOM
14-MULTI-LAYER THIN FILM, THIN FILM, THICK FILM (CROSS-UNDER)-
THIN FILM SUBSTRATE FABRICATION PROCESS
AND BEAM LEAD ASSEMBLY PROCESS FOR TELECOM MARKET
15-CRYSTAL TUNING PROCESS FOR HI-REL APPLICATION
16-ARC FAULT PHOTO-DETECTOR HYBRID
17-LASER RANGEFINDER HYBRID
18-LED SCREEN AND MULTILAYER THICK FILM HYBRID
19-THICK FILM DC PLASMA PANEL
20-2.5 & 10GBIT OPTICAL RECEIVER
21-LASER DIODE ASSEMBLY FOR TELECOM
22-CORD WOOD MODULE REPLACEMENT USING THICK FILM HYBRID
23-AIRCRAFT ARINC 629 BUS THIN FILM HYBRID
24-RF/MICROWAVE POWER AMPLIFIER WITH PHASE CONTROL
25-MOLDED POLYHIC THIN FILM MULTILAYER PROCESS
26-MERGER OF A TWO MIL-AERO-TELECOM-HYBRID FACILITIES
27-CHIP ON BOARD MODULES FOR SATELLITE APPLICATIONS
1-MULTILAYER THICK FILM HYBRID FOR MILITARY MEMORY MODULES
2-THICK FILM DC PLASMA PANELS
3-THIN FILM AC PLASMA PANELS
4-SMT LCD DISPLAY FOR CIVILIAN AIRCRAFT APPLICATIONS
5-FIBER OPTIC LITHIUM NIOBATE MODULE FOR TELECOM MARKET
6-CMOS ASIC DEVELOPMENT
7-TRANSFORMER ASSEMBLY AND PLANAR TRANSFORMER ASSEMBLY
8-HYBRID MICROCIRCUIT
9-THICK FILM PROCESS
10-64 BIT MILITARY MICROPROCESSOR (SBC) COMPUTER BOARD
11-HALL EFFECT SENSOR FOR BRUSHLESS MOTOR
12-RF AND MICROWAVE AMPLIFIER FOR TELECOM APPLICATIONS
13-THIN FILM MOLDED AND PRE MOLDED MCMS FOR TELECOM
14-MULTI-LAYER THIN FILM, THIN FILM, THICK FILM (CROSS-UNDER)-
THIN FILM SUBSTRATE FABRICATION PROCESS
AND BEAM LEAD ASSEMBLY PROCESS FOR TELECOM MARKET
15-CRYSTAL TUNING PROCESS FOR HI-REL APPLICATION
16-ARC FAULT PHOTO-DETECTOR HYBRID
17-LASER RANGEFINDER HYBRID
18-LED SCREEN AND MULTILAYER THICK FILM HYBRID
19-THICK FILM DC PLASMA PANEL
20-2.5 & 10GBIT OPTICAL RECEIVER
21-LASER DIODE ASSEMBLY FOR TELECOM
22-CORD WOOD MODULE REPLACEMENT USING THICK FILM HYBRID
23-AIRCRAFT ARINC 629 BUS THIN FILM HYBRID
24-RF/MICROWAVE POWER AMPLIFIER WITH PHASE CONTROL
25-MOLDED POLYHIC THIN FILM MULTILAYER PROCESS
26-MERGER OF A TWO MIL-AERO-TELECOM-HYBRID FACILITIES
27-CHIP ON BOARD MODULES FOR SATELLITE APPLICATIONS
DEFINITION OF TECHNOLOGY TRANSFER
Even though technology transfer is not a new business phenomenon, the considerable literature on technology transfer that has emerged over the years agree that defining technology transfer is difficult due to the complexity of the technology transfer process . The definitions depend on how the user defines technology and in what context .
The term technology transfer can be defined as the process of movement of technology from one entity to another. The transfer may be said to be successful if the receiving entity, the "transferee", can effectively utilize the technology transferred and eventually assimilate it. The movement may involve physical assets, know-how, and technical knowledge. Technology transfer in some situations may be confined to relocating and exchanging of personnel or the movement of a specific set of capabilities. Technology transfer has also been used to refer to movements of technology from the laboratory to industry, developed to developing countries, or from one application to another domain. In a very limited sense, where technology is considered as information, technology transfer is sometimes defined as the application of information into use. Others have attempted a broader definition where they state that technology transfer is the movement of knowledge, skill, organization, values and capital from the point of generation to the site of adaptation and application. (Click for full Article) FIgure 3 below shows the typical five phase model of a technology transfer.
The five phases of this model are as follows:
The term technology transfer can be defined as the process of movement of technology from one entity to another. The transfer may be said to be successful if the receiving entity, the "transferee", can effectively utilize the technology transferred and eventually assimilate it. The movement may involve physical assets, know-how, and technical knowledge. Technology transfer in some situations may be confined to relocating and exchanging of personnel or the movement of a specific set of capabilities. Technology transfer has also been used to refer to movements of technology from the laboratory to industry, developed to developing countries, or from one application to another domain. In a very limited sense, where technology is considered as information, technology transfer is sometimes defined as the application of information into use. Others have attempted a broader definition where they state that technology transfer is the movement of knowledge, skill, organization, values and capital from the point of generation to the site of adaptation and application. (Click for full Article) FIgure 3 below shows the typical five phase model of a technology transfer.
The five phases of this model are as follows:
- Carrying out a pre-investment and feasibility study
- Developing engineering specifications and design based on the feasibility study
- Commence capital goods production based on the engineering specifications and designs that have been developed.
- Commissioning and start-up including comprehensive training of the workforce
- Commence commercial production