Printed circuit boards are essential for electronics manufacturing. This board serves as a framework for most electronic devices. Therefore, it is very important to utilize efficient materials for these boards. There is a wide range of PCB laminates used for PCB fabrication. With the development in the PCB industry, there is a rising demand for high reliability multi-layer materials. In this article, we will be discussing the Panasonic HEPER R-1755E PCB material.
What is Panasonic HEPER R-1755E PCB Material?
Panasonic HEPER R-1755E PCB material is a heat resistant multilayer PCB material. Also, this laminate features a low CTE and high decomposition temperature. This PCB material is greatly ideal for use in high performance applications. In addition, this material features high heat resistance. This lead-free soldering compatible material offers exceptional benefits.
Panasonic HEPER R-1755E PCB material offers great laminate processability. This PCB material adheres to some standards in the PCB industry. For instance, it is RoHS compliant. Also, it is safe for use in PCB fabrication. It is a non-toxic PCB material. This multilayer PCB material meets the specification of IPC 4101/126/97/98/99/101. Therefore, it is a highly reliable PCB material.
Panasonic HEPER R-1755E PCB material guarantees great performance and functionality. Also, it offers great reliability. This material can survive varying temperature degrees because of its high heat resistance. Panasonic HEPER R-1755E PCB material maintains a great balance between cost and performance.
Properties of Panasonic HEPER R-1755E PCB Material
Panasonic HEPER R-1755E features great mechanical, thermal, and electrical properties. These properties contribute to the performance of this laminate. Also, these properties are suitable for high frequency applications.
High thermal decomposition temperature
The decomposition temperature of Panasonic HEPER R-1755E is 370 degrees Celsius. Also, this thermal property describes the temperature at which Panasonic HEPER R-1755E decomposes chemically. The decomposition temperature of PCB materials varies. When this material is exposed to a temperature above 370oC, it will decompose.
Low glass transition temperature
The glass transition temperature of this material is 133 degrees Celsius. This is a very low glass transition temperature. Also, this is an important property of a PCB material. Glass transition temperature indicates the temperature at which a material becomes unstable.
The dielectric constant of Panasonic HEPER R-1755E PCB material is 4.6 at 1 GHz. Also, this electrical property contributes to low signal loss. A low dielectric PCB material is suitable for high power applications. This is because it reduces electric power loss.
Low dissipation factor
The dissipation factor of a material measures its inefficiency to act as an insulating material. Panasonic HEPER R-1755E is 0.013 and 0.019 at 1 GHz and 10 GHz. Low dissipation factor indicates the efficiency of the material. Therefore, Panasonic HEPER R-1755E PCB material is an efficient insulator system.
Low water absorption
The water absorption rate of a PCB material is very essential for a PCB performance. Also, a PCB material with a low water absorption rate contributes to thermal performance. The water absorption rate of Panasonic HEPER R-1755E is 0.11%.
Low coefficient of thermal expansion
The CTE of this material is very low at both X and Y axis. Also, it maintains a low Z-axis CTE value. The CTE at Z-axis is 42.
Benefits of Panasonic HEPER R-1755E PCB Material
Panasonic HEPER R-1755E features excellent benefits. Also, these benefits make this material ideal for use in network equipment. Therefore, the advantages of Panasonic HEPER R-1755E include:
High heat resistance
Panasonic HEPER R-1755E highly resists heat. Also, this material can withstand extreme temperatures. Therefore, this material is ideal in applications that demand high performance. Panasonic HEPER R-1755E PCB material features low CTE and high decomposition temperature. These properties contribute to its high level of heat resistance.
Great through-hole reliability
There are several factors that contribute to the reliability of a through hole. Also, through-hole reliability is a major concern for multi-layer PCBs. Therefore, Panasonic HEPER R-1755E is an ideal material for multilayer boards. This is because this material offers excellent through-hole reliability.
Industry approval
This is another benefit of Panasonic HEPER R-1755E PCB material. This material meets the specifications of some PCB standards. For instance, this material is RoHS compliant. Also, Panasonic HEPER R-1755E meets the specification of IPC/4101. This indicates the functionality of this material.
Great CAF resistance
Conductive anodic filament (CAF) is a major concern in PCB fabrication. This PCB material resists CAF. Therefore, it is ideal for use in high frequency and high performance applications.
Lead free soldering compatibility
This laminate is compatible with lead-free soldering. Also, lead-free soldering is highly recommended for PCB fabrication. This type of soldering has a greater melting point. The use of lead soldering isn’t safe. Therefore, the PCB industry prohibits the use of such soldering.
Applications of Panasonic HEPER R-1755E PCB Material
Panasonic HEPER R-1755E PCB material is commonly used in the automotive industry. This PCB material is ideal for use in automotive components. Also, this material features great thermal and mechanical properties that are ideal for designing automotive components. However, this PCB material is also used in industrial applications.
Electrical appliance
Panasonic HEPER R-1755E PCB material is commonly used for designing electrical appliances. Also, this PCB material is ideal for use in this application due to its performance. Panasonic HEPER R-1755E PCB material offers low signal loss.
Automotive components
Panasonic HEPER R-1755E PCB material is ideal for use in the automotive industry. This PCB material is suitable for designing automotive components. Also, it is widely used for designing electric cars. The automobile industry keeps experiencing new development. One such development is the introduction of electric cars. Therefore, the use of advanced PCB material is highly recommended.
Industrial application
Some devices used in the industries require the use of high performance PCB material. Therefore, Panasonic HEPER R-1755E PCB material is widely used in this application. Also, this laminate offers great benefits and properties essential for designing industrial devices.
Conclusion
HEPER R-1755E PCB material is one of the best materials by Panasonic. Panasonic is well-known for delivering high performance material for PCB fabrication. In this article, we have discussed one such product.
