Technical Library: dummy (Page 1 of 1)

Dummy Components Part Numbering System

Technical Library | 2000-11-13 20:45:03.0

Free 16 page guide quickly explains how to read Dummy Component and test vehicle part numbers. Covers CSP, BGA, QFP, SOIC, Flip Chips, flat packs and discretes and chips.

TopLine Dummy Components

Quick Study Guide to Dummy Components

Technical Library | 2000-11-13 20:48:41.0

Free 16 page reference guide includes lots of pictures. Quickly explains the most important features of SMD components.

TopLine Dummy Components

IPC-CC-830B Versus the 'Real World'

Technical Library | 2016-09-22 17:52:59.0

Conformal Coatings are often used to increase the reliability of electronic assemblies operating in harsh or corrosive environments where the product would otherwise fail prematurely. Conformal coatings are often qualified to international standards, intended to enable users to better differentiate between suitable conformal coating chemistries, but always on a flat test coupon, which is not representative of real world use conditions. In order to better correlate international standards with real world-use conditions, three-dimensional Surface Insulation Resistance (SIR) test boards have been manufactured with dummy components representative of those commonly used on printed circuit assemblies...

Electrolube

SMD Nomenclature - in Plain English

Technical Library | 2000-11-13 20:16:17.0

Free 40 page booklet explains about SMD component nomeclature. Lot of drawings. Easy to read. Want to know what 1206 means? Or the difference between a TQFP and LQFP? It's all included.

TopLine Dummy Components

Photonic Flash Soldering on Flex Foils for Flexible Electronic Systems

Technical Library | 2021-11-03 16:49:59.0

Ultrathin bare die chips were soldered using a novel soldering technology. Using homogeneous flash light generated by high-power xenon flash lamp the dummy components and the bare die NFC chips were successfully soldered to copper tracks on polyimide (PI) and polyethylene terephthalate (PET) flex foils by using industry standard Sn-Ag-Cu lead free alloys. Due to the selectivity of light absorption, a limited temperature increase was observed in the PET substrates while the chip and copper tracks were rapidly heated to a temperatures above the solder melting temperature. This allowed to successfully soldered components onto the delicate polyethylene foil substrates using lead-free alloys with liquidus temperatures above 200 °C. It was shown that by preheating components above the decomposition temperature of solder paste flux with a set of short low intensity pulses the processing window could be significantly extended compared to the process with direct illumination of chips with high intensity flash pulse. Furthermore, it was demonstrated that with localized tuning of pulse intensity components having different heat capacity could be simultaneously soldered using a single flash pulse.

NovaCentrix

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