IDEX Biometrics Further Strengthens its Supply Chain by Partnering with MFLEX
March 3, 2021 | Globe NewswireEstimated reading time: 1 minute
IDEX Biometrics ASA, a leading provider of advanced fingerprint identification and authentication solutions, has signed an agreement with Multi-Fineline Electronix, Inc. (MFLEX), a subsidiary of Suzhou Dongshan Precision Manufacturing Co., Ltd. (DSBJ), and a leading global provider of high-quality, technologically advanced flexible printed circuits and assemblies. The agreement forms a key part of IDEX’s mass production ready supply chain, essential to meet the growing demand for biometric payment cards.
Under the agreement, MFLEX will provide flexible printed circuit assemblies for IDEX’s biometric payment card reference design. This reference design is the only biometric smart card reference design that has been used in cards certified by China UnionPay. MFLEX has received an initial order from a Tier 1 card manufacturer.
“Developing an end-to-end supply chain for biometric card manufacture is critical to accelerating the development of biometric cards by card producers,” said Reza Meshgin, CEO, MFLEX. “This allows card manufacturers to focus on their competences such as lamination, embedding, and personalization, and streamlines the card development and go-to-market processes.”
“As we establish a supply chain that is mass-production ready, we are pleased to have signed this agreement with MFLEX, a global leader in its field. This agreement allows card manufacturers to have instant access to high-quality flexible printed circuit boards in the required large quantities,” said Vince Graziani, CEO, IDEX Biometrics.
Suggested Items
iNEMI Packaging Tech Topic Series: Role of EDA in Advanced Semiconductor Packaging
04/26/2024 | iNEMIAdvanced semiconductor packaging with heterogenous integration has made on-package integration of multiple chips a crucial part of finding alternatives to transistor scaling. Historically, EDA tools for front-end and back-end design have evolved separately; however, design complexity and the increased number of die-to-die or die-to-substrate interconnections has led to the need for EDA tools that can support integration of overall design planning, implementation, and system analysis in a single cockpit.
Cadence, TSMC Collaborate on Wide-Ranging Innovations to Transform System and Semiconductor Design
04/25/2024 | Cadence Design SystemsCadence Design Systems, Inc. and TSMC have extended their longstanding collaboration by announcing a broad range of innovative technology advancements to accelerate design, including developments ranging from 3D-IC and advanced process nodes to design IP and photonics.
Ansys, TSMC Enable a Multiphysics Platform for Optics and Photonics, Addressing Needs of AI, HPC Silicon Systems
04/25/2024 | PRNewswireAnsys announced a collaboration with TSMC on multiphysics software for TSMC's Compact Universal Photonic Engines (COUPE). COUPE is a cutting-edge Silicon Photonics (SiPh) integration system and Co-Packaged Optics platform that mitigates coupling loss while significantly accelerating chip-to-chip and machine-to-machine communication.
Siemens’ Breakthrough Veloce CS Transforms Emulation and Prototyping with Three Novel Products
04/24/2024 | Siemens Digital Industries SoftwareSiemens Digital Industries Software launched the Veloce™ CS hardware-assisted verification and validation system. In a first for the EDA (Electronic Design Automation) industry, Veloce CS incorporates hardware emulation, enterprise prototyping and software prototyping and is built on two highly advanced integrated circuits (ICs) – Siemens’ new, purpose-built Crystal accelerator chip for emulation and the AMD Versal™ Premium VP1902 FPGA adaptive SoC (System-on-a-chip) for enterprise and software prototyping.
Listen Up! The Intricacies of PCB Drilling Detailed in New Podcast Episode
04/25/2024 | I-Connect007In episode 5 of the podcast series, On the Line With: Designing for Reality, Nolan Johnson and Matt Stevenson continue down the manufacturing process, this time focusing on the post-lamination drilling process for PCBs. Matt and Nolan delve into the intricacies of the PCB drilling process, highlighting the importance of hole quality, drill parameters, and design optimization to ensure smooth manufacturing. The conversation covers topics such as drill bit sizes, aspect ratios, vias, challenges in drilling, and ways to enhance efficiency in the drilling department.