Single-double Sided PCB
2 layers immersion gold PCB
Item No.: M000134
This 2-layer pcb circuit board features a 1.6mm thickness, ENIG surface finish, and 1oz copper for high conductivity. Built by PCB fabrication experts for reliable performance.
Description
Durable 2-Layer Design with Standard Thickness
This product features a double-layer configuration with a total board thickness of 1.6mm, making it a suitable solution for a wide range of layout requirements in both prototyping and light production applications. Built on a solid glass epoxy substrate, the board provides excellent insulation and structural integrity across thermal cycles. The 1oz copper per layer ensures adequate current carrying capacity and conductivity, meeting the specifications demanded by professional pcb fabrication companies. A minimum line width of 0.13mm and a minimum hole diameter of 0.25mm provide layout flexibility while maintaining design accuracy. The board’s manufacturing consistency and compliance with standard fabrication tolerances make it a preferred option for those seeking efficient and scalable pcb circuit board solutions.
High-Reliability Surface Finish and Materials
The board uses an ENIG (Electroless Nickel Immersion Gold) surface finish, which is a widely adopted standard among pcb fabrication specialists due to its superior solderability and corrosion resistance. The finish delivers a smooth and planar surface ideal for fine-pitch components and contact pads, improving long-term reliability in diverse applications. Combined with the glass epoxy core, the construction ensures mechanical strength and thermal stability, supporting both leaded and lead-free soldering processes. As trusted pcb manufacturing companies demand materials that align with international quality norms, this board satisfies such expectations with its controlled manufacturing and traceable processes. It offers a dependable foundation for developing and assembling functional and test-ready pcb circuit board configurations.
Controlled Fabrication Parameters for Engineering Use
With fabrication parameters including ±0.2mm board size tolerance and 0.13mm line spacing, this board aligns with standard DFM (Design for Manufacturability) principles. These features allow designers and engineers to execute accurate routing and hole placement without concern for excessive variation in production. The board’s consistency is crucial for testing, validating, and assembling both analog and digital circuits during early product development. MEPCB, as one of the experienced pcb fabrication companies, supports such boards for customers requiring short lead-time, small-batch builds or engineering prototypes. These features make the board well-suited for pcb prototype service providers and OEM developers targeting functionality testing, signal integrity checks, and preliminary integration validation.
Product Advantages
Designed for Assembly Efficiency and Reliability
The ENIG finish not only enhances corrosion resistance but also enables high-performance soldering, crucial for surface mount and through-hole component attachment. This leads to fewer soldering defects, lower repair rates, and improved final product stability during circuit board assembly. The 1.6mm board thickness is compatible with standard stencil and reflow processes used by pcb manufacturing companies. By incorporating high-quality copper and a balanced layer stackup, the product minimizes warping during thermal processing. This enables seamless transitions from prototype evaluation to production handoff, which is critical in assembly-centric development pipelines that rely on predictable pcb circuit board quality and finish.
Manufactured with Engineering-Grade Precision
This 2-layer board is developed with tight control over manufacturing tolerances, including board size, hole diameter, line width, and spacing. These specifications are essential when designing multilayer test structures or signal integrity platforms during the prototype phase. The ±0.2mm outline tolerance helps ensure proper fit within enclosures or panelized arrays used by pcb fabrication companies. At the same time, the 0.25mm hole size supports common connector and via requirements for signal routing and grounding. These traits align with the needs of professional engineers and R&D teams working with pcb prototype service partners to evaluate design characteristics before final product release.
Flexible Usage in Pre-Production and Validation Stages
The combination of a standard double-layer structure, ENIG finish, and reliable material stack enables this board to be used flexibly across several engineering milestones. Whether in layout verification, electrical testing, or firmware debugging, the board’s configuration supports iterative development without the need for frequent re-spins. Its compatibility with multiple design flows and assembly methods allows developers to maintain workflow continuity from initial test builds to low-volume production. By meeting the specifications expected from dependable pcb manufacturing companies, this board enables seamless collaboration between design, fabrication, and circuit board assembly teams.
Use Scenarios
Engineering Validation and Signal Testing
This board is highly applicable in engineering test benches where PCB performance, trace impedance, and electrical continuity need to be verified. R&D engineers frequently use such 2-layer boards for simulation-to-hardware validation and signal integrity tests. With well-controlled trace geometry and ENIG finish, it supports consistent probe contact during oscilloscope and test jig connections. This makes it an ideal tool for pcb prototype service providers building custom test modules or evaluation platforms. Since early-stage circuit designs often undergo numerous revisions, the reliable fabrication offered by seasoned pcb fabrication companies ensures that each iteration delivers expected electrical characteristics without introducing new variables.
Low-Volume Production or Development Use
Many OEMs and development firms initiate pre-production using small batches to refine their designs and verify component sourcing strategies. This 2-layer pcb circuit board provides the consistency needed for such intermediate manufacturing efforts. The 1oz copper thickness allows it to handle typical application loads, while the ENIG finish ensures proper solderability throughout the process. For pcb manufacturing companies or product developers working on proof-of-concept units, this board strikes the right balance between performance, cost, and manufacturability. Its dimensions and hole tolerances conform to the needs of automation or semi-manual assembly environments in pilot production runs.
Training and Educational Circuit Design Projects
Educational institutions, training labs, and entry-level hardware courses often require repeatable PCB platforms for teaching soldering, circuit design, and debugging fundamentals. The clarity and simplicity of this 2-layer design, combined with robust materials and finish, make it suitable for controlled training environments. With high manufacturing reliability, the board can be used multiple times across various sessions without failure. As instructors and course developers collaborate with pcb fabrication companies to source boards for structured learning paths, this product aligns well with curriculum needs while also showcasing the quality and finish expected from professional pcb prototype service offerings.
About Us
MEPCB is a professional PCB manufacturer established in 2006, with nearly 20 years of industry experience in delivering high-quality circuit board solutions. The company specializes in providing comprehensive services covering PCB design, fabrication, and assembly, with capabilities extending from prototype to full-scale production. Its manufacturing facility spans 6,000 square meters and employs over 300 skilled workers, enabling it to handle a wide range of board types including 2–32 layer rigid PCBs, HDI, aluminum, flexible, and high-frequency options. MEPCB is certified under ISO9001, ISO14001, and UL standards, reinforcing its commitment to quality and environmental compliance. By focusing on advanced production equipment, strict inspection systems, and professional project management, MEPCB supports global clients in automotive, medical, industrial, and consumer electronics sectors. The company is recognized for its reliable pcb prototype service and its role as a long-term supplier among trusted pcb fabrication companies worldwide.
FAQ
What materials are used in the board construction?
The board uses glass epoxy as the base material and 1oz copper on both layers, meeting common pcb fabrication standards.
What is the minimum drill size supported?
The board supports a minimum hole size of 0.25mm, suitable for most routing and via configurations used in standard pcb circuit board designs.
Is this product appropriate for prototype validation?
Yes, the board's standard tolerances, ENIG finish, and consistent build make it suitable for engineering use in pcb prototype service settings.
Can this board be used for small-batch production?
Yes, it is often used in low-volume production and test builds by pcb manufacturing companies seeking reliable outputs before scaling up.
What is the surface finish applied to the copper layers?
An ENIG (Electroless Nickel Immersion Gold) surface finish is used, which improves solderability and ensures contact reliability during circuit board assembly.
Secure precision-built PCBs for your next prototype or pilot run—order from MEPCB’s professional fabrication and assembly team now!
This product features a double-layer configuration with a total board thickness of 1.6mm, making it a suitable solution for a wide range of layout requirements in both prototyping and light production applications. Built on a solid glass epoxy substrate, the board provides excellent insulation and structural integrity across thermal cycles. The 1oz copper per layer ensures adequate current carrying capacity and conductivity, meeting the specifications demanded by professional pcb fabrication companies. A minimum line width of 0.13mm and a minimum hole diameter of 0.25mm provide layout flexibility while maintaining design accuracy. The board’s manufacturing consistency and compliance with standard fabrication tolerances make it a preferred option for those seeking efficient and scalable pcb circuit board solutions.
High-Reliability Surface Finish and Materials
The board uses an ENIG (Electroless Nickel Immersion Gold) surface finish, which is a widely adopted standard among pcb fabrication specialists due to its superior solderability and corrosion resistance. The finish delivers a smooth and planar surface ideal for fine-pitch components and contact pads, improving long-term reliability in diverse applications. Combined with the glass epoxy core, the construction ensures mechanical strength and thermal stability, supporting both leaded and lead-free soldering processes. As trusted pcb manufacturing companies demand materials that align with international quality norms, this board satisfies such expectations with its controlled manufacturing and traceable processes. It offers a dependable foundation for developing and assembling functional and test-ready pcb circuit board configurations.
Controlled Fabrication Parameters for Engineering Use
With fabrication parameters including ±0.2mm board size tolerance and 0.13mm line spacing, this board aligns with standard DFM (Design for Manufacturability) principles. These features allow designers and engineers to execute accurate routing and hole placement without concern for excessive variation in production. The board’s consistency is crucial for testing, validating, and assembling both analog and digital circuits during early product development. MEPCB, as one of the experienced pcb fabrication companies, supports such boards for customers requiring short lead-time, small-batch builds or engineering prototypes. These features make the board well-suited for pcb prototype service providers and OEM developers targeting functionality testing, signal integrity checks, and preliminary integration validation.
Product Advantages
Designed for Assembly Efficiency and Reliability
The ENIG finish not only enhances corrosion resistance but also enables high-performance soldering, crucial for surface mount and through-hole component attachment. This leads to fewer soldering defects, lower repair rates, and improved final product stability during circuit board assembly. The 1.6mm board thickness is compatible with standard stencil and reflow processes used by pcb manufacturing companies. By incorporating high-quality copper and a balanced layer stackup, the product minimizes warping during thermal processing. This enables seamless transitions from prototype evaluation to production handoff, which is critical in assembly-centric development pipelines that rely on predictable pcb circuit board quality and finish.
Manufactured with Engineering-Grade Precision
This 2-layer board is developed with tight control over manufacturing tolerances, including board size, hole diameter, line width, and spacing. These specifications are essential when designing multilayer test structures or signal integrity platforms during the prototype phase. The ±0.2mm outline tolerance helps ensure proper fit within enclosures or panelized arrays used by pcb fabrication companies. At the same time, the 0.25mm hole size supports common connector and via requirements for signal routing and grounding. These traits align with the needs of professional engineers and R&D teams working with pcb prototype service partners to evaluate design characteristics before final product release.
Flexible Usage in Pre-Production and Validation Stages
The combination of a standard double-layer structure, ENIG finish, and reliable material stack enables this board to be used flexibly across several engineering milestones. Whether in layout verification, electrical testing, or firmware debugging, the board’s configuration supports iterative development without the need for frequent re-spins. Its compatibility with multiple design flows and assembly methods allows developers to maintain workflow continuity from initial test builds to low-volume production. By meeting the specifications expected from dependable pcb manufacturing companies, this board enables seamless collaboration between design, fabrication, and circuit board assembly teams.
Use Scenarios
Engineering Validation and Signal Testing
This board is highly applicable in engineering test benches where PCB performance, trace impedance, and electrical continuity need to be verified. R&D engineers frequently use such 2-layer boards for simulation-to-hardware validation and signal integrity tests. With well-controlled trace geometry and ENIG finish, it supports consistent probe contact during oscilloscope and test jig connections. This makes it an ideal tool for pcb prototype service providers building custom test modules or evaluation platforms. Since early-stage circuit designs often undergo numerous revisions, the reliable fabrication offered by seasoned pcb fabrication companies ensures that each iteration delivers expected electrical characteristics without introducing new variables.
Low-Volume Production or Development Use
Many OEMs and development firms initiate pre-production using small batches to refine their designs and verify component sourcing strategies. This 2-layer pcb circuit board provides the consistency needed for such intermediate manufacturing efforts. The 1oz copper thickness allows it to handle typical application loads, while the ENIG finish ensures proper solderability throughout the process. For pcb manufacturing companies or product developers working on proof-of-concept units, this board strikes the right balance between performance, cost, and manufacturability. Its dimensions and hole tolerances conform to the needs of automation or semi-manual assembly environments in pilot production runs.
Training and Educational Circuit Design Projects
Educational institutions, training labs, and entry-level hardware courses often require repeatable PCB platforms for teaching soldering, circuit design, and debugging fundamentals. The clarity and simplicity of this 2-layer design, combined with robust materials and finish, make it suitable for controlled training environments. With high manufacturing reliability, the board can be used multiple times across various sessions without failure. As instructors and course developers collaborate with pcb fabrication companies to source boards for structured learning paths, this product aligns well with curriculum needs while also showcasing the quality and finish expected from professional pcb prototype service offerings.
About Us
MEPCB is a professional PCB manufacturer established in 2006, with nearly 20 years of industry experience in delivering high-quality circuit board solutions. The company specializes in providing comprehensive services covering PCB design, fabrication, and assembly, with capabilities extending from prototype to full-scale production. Its manufacturing facility spans 6,000 square meters and employs over 300 skilled workers, enabling it to handle a wide range of board types including 2–32 layer rigid PCBs, HDI, aluminum, flexible, and high-frequency options. MEPCB is certified under ISO9001, ISO14001, and UL standards, reinforcing its commitment to quality and environmental compliance. By focusing on advanced production equipment, strict inspection systems, and professional project management, MEPCB supports global clients in automotive, medical, industrial, and consumer electronics sectors. The company is recognized for its reliable pcb prototype service and its role as a long-term supplier among trusted pcb fabrication companies worldwide.
FAQ
What materials are used in the board construction?
The board uses glass epoxy as the base material and 1oz copper on both layers, meeting common pcb fabrication standards.
What is the minimum drill size supported?
The board supports a minimum hole size of 0.25mm, suitable for most routing and via configurations used in standard pcb circuit board designs.
Is this product appropriate for prototype validation?
Yes, the board's standard tolerances, ENIG finish, and consistent build make it suitable for engineering use in pcb prototype service settings.
Can this board be used for small-batch production?
Yes, it is often used in low-volume production and test builds by pcb manufacturing companies seeking reliable outputs before scaling up.
What is the surface finish applied to the copper layers?
An ENIG (Electroless Nickel Immersion Gold) surface finish is used, which improves solderability and ensures contact reliability during circuit board assembly.
Secure precision-built PCBs for your next prototype or pilot run—order from MEPCB’s professional fabrication and assembly team now!
