The Right Approach: Get Ready for ISO 9001 Version 6
Dan’s Biz Bookshelf: ‘Still Broke: Walmart’s Remarkable Transformation'
Driving Innovation: Depth Routing Processes—Achieving Unparalleled Precision in Complex PCBs
Basic Principles of Polymer Thick Film Flexible Circuits
August 7, 2014 | Joe Fjelstad, Verdant ElectronicsEstimated reading time: 1 minute
Polymer thick film (PTF) technologies have been used to manufacture printed circuits for decades. In fact, some of the very first circuits ever produced in volume were made by printing conductive inks patterned on an insulating substrate using a stencil. While the versatile nature of the materials used and the simplicity of the manufacturing process have made possible its continued use for more than six decades. In more recent decades, the technology has seen extensive use in the manufacture of inexpensive, polyester film-based membrane switches for electronic devices of every imaginable type, from hand-held calculators and computer keyboards to household appliances including microwave ovens and washers and dryers and beyond.
Polymer thick film circuits are similar in many ways to their rigid and flexible counterparts; however, because of the materials and processes, they have their own very specific design rules. Because most PTF processing is most commonly based on screen printing technology, the limits of design are intrinsically linked to the printed ink’s processing considerations and limitations. For example, there are the unique processing properties for conductive and resistive as well as insulating inks in terms of their thixotropy, which influence their printability. There is also the important consideration of the final values for the conductivity and/or resistivity of the ink used when cured. In addition, there are also the limits of the screen printing materials and the processes used.
Traditional screen printing methods are typically limited to the production of relatively course features (e.g., 250 µm). However, very fine-featured screen printed circuit technology has been reported down to ranges closer to 125 µm. For the foreseeable future, screen printing will remain an important technology for the manufacture of PTF circuits, both rigid and flexible. That said, inkjet printing is well positioned to augment time honored screen print methods. It also opens the door to realizing the possibility of producing circuits economically at a run unit of one, which has been one of the ideals of manufacturing.
Read the full article here.
Editor's Note: This article originally appeared in the June 2014 issue of The PCB Magazine.
Share on:
Testimonial
"We’re proud to call I-Connect007 a trusted partner. Their innovative approach and industry insight made our podcast collaboration a success by connecting us with the right audience and delivering real results."
Julia McCaffrey - NCAB GroupSuggested Items
United Electronics Corporation Unveils Revolutionary CIMS Galaxy 30 Automated Optical Inspection System
09/11/2025 | United Electronics CorporationUnited Electronics Corporation (UEC) today announced the launch of its new groundbreaking CIMS Galaxy 30 Automated Optical Inspection (AOI) machine, setting a new industry standard for precision electronics manufacturing quality control. The Galaxy 30, developed and manufactured by CIMS, represents a significant leap forward in inspection technology, delivering exceptional speed improvements and introducing cutting-edge artificial intelligence capabilities.
Intel Announces Key Leadership Appointments to Accelerate Innovation and Strengthen Execution
09/09/2025 | Intel CorporationIntel Corporation today announced a series of senior leadership appointments that support the company’s strategy to strengthen its core product business, build a trusted foundry, and foster a culture of engineering across the business.
DARPA, State of New Mexico Establish Framework to Advance Quantum Computing
09/08/2025 | DARPAAs part of the Quantum Benchmarking Initiative (QBI), DARPA signed an agreement with the State of New Mexico’s Economic Development Department to create the Quantum Frontier Project.
LPKF Strengthens LIDE Technology Leadership with New Patent Protection in Korea
09/04/2025 | LPKFLPKF Laser & Electronics SE today announced that its groundbreaking LIDE (Laser Induced Deep Etching) technology has received additional patent protection in Korea through the Korean Patent Office (KPCA), effective September 1, 2025.
UHDI Fundamentals: UHDI Technology and Industry 4.0
09/03/2025 | Anaya Vardya, American Standard CircuitsUltra high density interconnect (UHDI) technology is rapidly transforming how smart systems are designed and deployed in the context of Industry 4.0. With its capacity to support highly miniaturized, high-performance, and densely packed electronics, UHDI is a critical enabler of the smart, connected, and automated industrial future. Here, I’ll explore the synergy between UHDI and Industry 4.0 technologies, highlighting applications, benefits, and future directions.