Smart
Korea PCB
- #Printed Circuit Boards
- #Aerospace
Smart Korea PCB has built up a record of deliveries in a variety of areas of industry in Korea including semiconductors, aerospace, the defense industry, medicine, and nuclear power with high-density, highly laminated PCB production. We have received ISO quality and environmental management certifications and been recognized by the Ministry of Trade, Industry and Energy as a materials and component specialist. In addition, we have received production permits for the nationalization of space-grade PCB and AS9100 aerospace quality management certification, and we provide optimized solutions for our customers’ needs.
- +82-31-431-0504
- 21, 229beon-gil, Manhae-ro, Danweon-gu, Ansan-si, Gyeonggi-do, Republic of Korea
- www.koreapcb.com
Product Overview and Main Content
Aerospace Components
1. Next-Generation Medium-Sized Satellite 1 - Video data high-speed processing device 2. Nuri (KSLV-II) - Cube satellite attitude control gyro system 3. Danuri (KPLO) - Space internet payloadDefense Industry Components
1. Helicopters (LAH and KUH) - Small helicopter communications equipment 2. Armored vehicles (KAAV, K2, and K9) - Compound weapons stabilization control device and TDV camera products 3. Guided weapons (Cheongung and KGGB) - GPS homing bombSemiconductor Post-Processing Components
1. Load board - Inspection of electrical characteristics of devices 2. Probe card - Inspection of chips on wafers 3. Hi-fix board - Evaluation of electrical functions and characteristics 4. Burn in board - Test inspection of durability for high temperature and voltage 5. Socket board - Semiconductor package test inspectionProduct Highlights
-
Back drill
Removal of disturbances to impedance
-
BVH
Technology for increasing integration within a limited space
-
Creation of microcircuit patterns
Width/space : 50㎛/60㎛
-
Aspect ratio
Creation of 48:1
-
Flatness
Creation of total 300㎛ and BGA 50㎛
-
Impedance control
± 5%
Areas of Application
-
Aerospace Industry
Data processing devices, control devices, payload, etc.
-
Defense Industry
Communications and data conversion systems, remote devices, control devices, cameras, etc.
-
Semiconductor Industry
Semiconductor test equipment, etc.
Possible Areas for Cooperation
Technology license | ● | |
Investment Attraction | ||
Joint venture | ||
Technical Cooperation | Product Joint Development | ● |
(New Product) Performance Test | ● | |
Applying Other Products’ Technologies | ● | |
Production Consignment | New Material Production | |
Production Line Operation | ||
Changing Customers (CMO) | ||
Installing New Process | ||
Commercialization Contract Accompanying Technical Support | Assembly | |
Designing Commercial Products (Design & Engineering) | ||
Technical Consulting (Technical Advice, Education and Training) | ● | |
Quality Maintenance | ● | |
Operations Maintenance | ● |
Business Results
Market Outlook
- The semiconductor board market, which we are directly connected with, grew over 85% from KRW 2.7 trillion in 2019 to KRW 5 trillion in 2022. According to the electronics industry consulting firm Prismark, the PCB market as a whole is expected to face negative growth this year due to the economic recession, but the semiconductor board market is expected to grow by 5%. The Korean aerospace market is growing, reaching KRW 6.4 trillion in 2022, and the electronics industry is understood to account for around 3% of this figure. The government shows great interest in and provides considerable support for the aerospace industry, and continued growth is expected, with growth expected in the electronics industry as well.
Commercialization Plans
-
Certification for providing the PCB that is used for the aerospace industry is given to companies that receive recognition after being evaluated as highly reliable. Recently, we have passed reliability evaluation for aerospace PCB using back drill, HPL, BVH, and surface treatments and received recognition from the Korea Aerospace Research Institute (KARI). However, this is only a certification for the reliability of the technology we have acquired, and we do not have any examples of applying this technology in the domestic aerospace market. In the future, we believe it will be necessary to work cooperatively with KARI on further research. As in the semiconductor industry, it appears that the aerospace industry will require technology for signal characteristics and fast processing speed, and through future research including actual application, we aim to produce and deliver PCB products that meet the aerospace industry’s demands for technical refinement.