モリマーエスエスピー List of Products and Services

With the increase in signal high frequency, there is a tendency for the heat generation from components to increase, and the heat generated from individual circuit components also rises due to the increase in electrical power of the circuit. If these components are used without sufficient heat dissipation, issues such as unstable operation, reduced output, and decreased reliability may occur. By embedding a copper inlay, which is a metal with good thermal conductivity, directly beneath the mounted components, it is possible to efficiently dissipate heat to the heat sink. Our company can accommodate everything from double-sided boards to multilayer boards, and we can use materials such as FR-4, high Tg materials, and high-frequency materials. Please contact us for details regarding configuration and materials. 【Features】 ■ Directly dissipates heat from mounted components to the heat sink ■ Thermal conductivity of copper inlay: 390W/mK ■ Compatible with double-sided boards to multilayer boards ■ Materials available include FR-4, high Tg materials, and high-frequency materials *For more details, please refer to the PDF document or feel free to contact us.

• Printed Circuit Board

When focusing on cost and availability, FR4 becomes a material with significant losses at high frequencies, while PTFE, which has issues with cost, is highlighted when considering high-frequency characteristics. Additionally, the reality is that high-frequency material substrates are often difficult to obtain, and it is not easy to find manufacturers that can accommodate small-scale prototypes. The "composite material substrate" uses PTFE material for the layers that form high-frequency circuits. General circuits and power circuits are constructed with FR-4 or high Tg materials, providing multilayer substrates that are compatible with high frequencies while keeping total costs down. 【Composite Material Substrate Features】 ■ PTFE + General-purpose materials ■ PTFE material is used for the layers that form high-frequency circuits ■ General circuits and power circuits are constructed with FR-4 or high Tg materials ■ Multilayer substrates compatible with high frequencies that keep total costs down *For more details, please refer to the PDF document or feel free to contact us.

• Printed Circuit Board

We would like to introduce our "Ultra-thin Substrate" that we handle. Detailed designs tailored to customer requirements are possible through layer composition, copper foil thickness, and lamination methods. It has become an ultra-thin printed circuit board while maintaining the characteristics of rigid substrates. It can accommodate a wide range of methods, including build-up processes and through-hole technology, and unlike flexible substrates, it possesses both the electrical characteristics and strength of rigid substrates. 【Features】 ■ Innovative substrate materials and methods for 4-layer and 6-layer designs ■ Detailed designs tailored to customer requirements through layer composition, copper foil thickness, and lamination methods ■ Accommodates a wide range of methods, including build-up processes and through-hole technology ■ An ultra-thin printed circuit board that maintains the characteristics of rigid substrates ■ Unlike flexible substrates, it combines the electrical characteristics and strength of rigid substrates *For more details, please refer to the PDF document or feel free to contact us.

• Printed Circuit Board

The miniaturization of devices, the high-frequency characteristics of circuits, and the increase in the current being handled have led to concerns about heat generation from the devices and circuits mounted on the substrate. This document provides detailed information on substrate design techniques that can accommodate everything from small-scale prototypes to mass production. We explain various new technologies for heat dissipation measures in substrate design. We encourage you to read it. 【Contents】 ■ Trends in devices ■ High heat dissipation measures for specific devices ■ Improving heat dissipation with surface structures ■ Metal core and metal base substrates ■ Thick copper substrates *For more details, please refer to the PDF document or feel free to contact us.

• Circuit board design and manufacturing
• Printed Circuit Board

Sales of materials by Elite Material Co. Ltd. (EMC) Main lineup of CCL ■EM-528 ■EM-528K ■EM-890 ■EM-890K ■EM-892K ■EM-370(5) ■EM-370(Z) Others Shielding boards are also available. For more details, please download the materials or contact us.

• Other electronic parts

SDGs, carbon neutrality, marine debris measures, etc. This material can greatly contribute to the harmony of the global environment. Japan BioPlastic Association (JPBA) TüV Austria (OK biobased) Certifications obtained both domestically and internationally. 【Features】 ■ Uses approximately 50% non-food plant resources (cellulose), with the remainder also being a safe material. No petroleum-based resins are used. ■ Has durability equivalent to petroleum-based materials and is biodegradable in the natural environment over the long term. It achieves both durability and biodegradability. ■ Can reduce CO2 emissions by 40% compared to PC and ABS resins. ■ Achieves a beautiful appearance (low brightness, high gloss) without painting. ■ Exhibits antibacterial properties against E. coli and antiviral properties against the novel coronavirus. ■ Existing equipment (molds) can be used. *For more details, please refer to the PDF materials or feel free to contact us.

• Other polymer materials
• others

This document introduces the current status of the development of stretchable substrates. It includes information on material development, improvements in construction methods, and the expansion of application uses. Our company has been able to provide variations of standard connection methods, allowing for more diverse proposals for application development on the customer side. [Contents] ■ Preface ■ Material Development ■ Improvements in Construction Methods ■ Expansion of Application Uses ■ Future Developments *For more details, please refer to the PDF document or feel free to contact us.

• Printed Circuit Board

The "stretchable circuit board" conforms to uneven surfaces and curves, maintaining conductivity even during stretching. It allows for circuit formation on any material depending on the application, while ensuring elasticity. As a stretchable pressure sensor, it can be utilized in various applications such as monitoring beds and shoe insoles, and it does not break even under load. Additionally, the stretchable biosensor detects weak biological signals using Ag/AgCl electrodes. 【Features】 ■ Conforms to uneven surfaces and curves ■ Maintains conductivity during stretching ■ Supports various batch sizes ■ Can serve as electrodes for various sensors ■ Does not break under load *For more details, please refer to the PDF materials or feel free to contact us.

• Printed Circuit Board

A solder plating or tin plating is applied in advance under the substrate, and by thermally bonding it to the metal plate, a complete surface joint is provided. It is also possible to use high-frequency compatible substrates made of low dielectric materials or substrates made of fluororesin. Such combinations can provide a very effective heat dissipation structure for high-frequency applications. Additionally, it is also effective for EMI countermeasures in RF applications.

• High frequency/microwave parts

Our company handles special processing of "high-precision substrates for high-precision devices." The accuracy of the counterbore processing is ±20μm, the high-precision outer diameter processing by laser is ±10μm, and the high-precision processing for pattern alignment is ±50μm. By installing ICs in the counterbore section, it is possible to keep the height of the substrate low after mounting. 【High-Precision Processing】 ■ Counterbore processing accuracy: ±20μm ■ High-precision outer diameter processing by laser: ±10μm ■ High-precision processing for pattern alignment: ±50μm *For more details, please refer to the PDF document or feel free to contact us.

• Printed Circuit Board
• Other electronic parts
• converter

Our "High-Density Substrate" utilizes a semi-additive process to accommodate fine patterns. We employ a 5μm copper foil known as UTC for primary copper, achieving stable peel strength regardless of substrate type, and preventing abnormal gold plating due to palladium residue. Additionally, by adopting via-fill plating for electro-copper plating, we minimize variations in plating thickness and accommodate filled vias. With an any-layer stack structure and multi-stage build-up wiring boards at its core, we respond to various substrate needs from double-sided boards to multilayer boards. 【Features】 ■ Peel strength of 10N/cm or more ■ Adoption of via-fill plating for electro-copper plating *For more details, please refer to the PDF document or feel free to contact us.

• Printed Circuit Board

Our company handles the heat dissipation substrate "Heat Dissipation Via." With the increasing heat generation due to the high performance and miniaturization of electronic components, there is a growing need for heat dissipation pathways that allow the heat generated by components to escape from the space to the pattern, in order to maintain the performance of electronic devices and extend their lifespan. We propose solutions to these issues as heat dissipation measures. It is also possible to create multilayer thick copper substrates, allowing for the development of new applications that have not been seen before. 【Features】 ■ Thick copper substrate with copper foil thickness of 210μm ■ Copper paste VIA hole filling (thermal conductivity 0.58–7.8W/mk) - Small diameter VIA φ 0.15 is supported, - Bottom-filled VIA hole filling can also be handled in-house with vacuum filling. *For more details, please refer to the PDF document or feel free to contact us.

• Printed Circuit Board

Our company handles the heat dissipation substrate "High Precision Heat Dissipation Via." The applicable substrate methods include general through-hole TH, BVH, IVH, and build-up methods. The finishing plating options include electroless NiAu, bonding NiAu, and other impedance control solutions. By combining high-precision machining with a high heat dissipation structure, we meet advanced requirements. 【Features】 ■ Applicable substrate methods: Compatible with general through-hole TH, BVH, IVH, and build-up methods ■ Finishing plating: Electroless NiAu, bonding NiAu 　　　　　　　　Other impedance control compatible ■ Resin dam structure compatible with both high and low standards *For more details, please refer to the PDF document or feel free to contact us.

• Printed Circuit Board
• Circuit board design and manufacturing

We handle "heat dissipation structure substrates" with built-in copper. We use a thick copper three-layer substrate (inner layer copper thickness 0.2mm, total board thickness 0.35mm) and ultra-thin PP (0.03mm). These are used for applications such as mobile phone camera flash substrates. 【Required Performance】 ■ Circuit and SR alignment tolerance of 0.04mm ■ Surface treatment for gold wire bonding (electroless NiPdAu plating) ■ Deviation tolerance between the outer shape centerline and the component pad centerline of ±0.075mm *For more details, please refer to the PDF document or feel free to contact us.

• Printed Circuit Board
• Circuit board design and manufacturing
• Other electronic parts

Our company handles "thick copper and special substrates." One of our recommended products is the metal substrate (outer type). 【Features】 This substrate dissipates heat from heated components through the metal by bonding metal to the substrate. ■ Metal core substrate - The metal core part is bonded to the substrate with TH plating. - Compatible with many metals such as aluminum and copper. - Effective for improving thermal conductivity, high-frequency response, and EMI countermeasures. *For more details, please refer to the PDF materials or feel free to contact us.

• Printed Circuit Board
• Circuit board design and manufacturing
• EMC countermeasure products

The "HDI substrate" is a printed circuit board created by forming copper circuit wiring on the surface of a resin board, stacking multiple layers, and then heating and bonding them together. It can accommodate a variety of specifications, including 4 to 54 layers, thicknesses from 0.5mm to 6.3mm, and multiple impedance control specifications. There are multilayer structures such as "IVH substrates," which use vias that connect only specific layers, and "build-up substrates," which create multilayer printed circuit boards by laminating each layer, laser drilling, and forming wiring and vias repeatedly. 【Features of IVH substrates】 ■ A method for producing multilayer printed circuit boards using vias that connect only specific layers. ■ Can improve integration density. *For more details, please refer to the PDF materials or feel free to contact us.

• Printed Circuit Board

We can manufacture large circuit boards for motherboard, backboard, and server applications. We support up to 24 layers with dimensions of 750mm × 1,100mm. 【Features】 ■ Maximum product size: 1050 × 570mm ■ Capable of core processing with copper thickness of 300–400μm ■ Maximum total thickness: t5.0–6.0mm *For more details, please refer to the PDF document or feel free to contact us.

• Printed Circuit Board

This product is a "high-precision device substrate" that allows for a low profile of the board after mounting by installing an IC in the seat groove. It is designed for LED light reflectors, and the cup angle and bottom surface size can be freely selected. In addition, we also offer "high heat dissipation device substrates" and "ultra-thin glass cloth multilayer substrates." 【Features】 <High-Precision Device Substrate> ■ Enables a low profile of the board after mounting ■ Cup angle and bottom surface size can be freely selected <High Heat Dissipation Device Substrate> ■ Combines various heat dissipation technologies to meet advanced requirements ■ Copper pillars do not damage through-hole plating as they are not press-fitted *For more details, please refer to the PDF materials or feel free to contact us.

• Printed Circuit Board

This catalog features products from Morima SSP Co., Ltd., a plastic trading company capable of manufacturing. We offer products such as "glass cloth," which utilizes excellent performance and quality, and "roving cloth," known for its outstanding workability. Please feel free to consult us if you have any requests. [Contents] ■ Glass Cloth ■ Glass Tape ■ Roving Cloth ■ Glass Yarn *For more details, please download the PDF or feel free to contact us.

• fiber
• plastic
• Other consumables