Parts & Supplies | Pick and Place/Feeders
Yamah YV100 II parameter 1. Highways based on the reliability of basic structures 2. Paste of protective elements 3.0.25 seconds / CHIP high-speed mount 4. Can mount 0.5 foot spacing 32mm QFP 5. High Speed Image Processing 6.2 cameras reduced p
Industry News | 2018-10-18 11:19:07.0
How To Design Cost-Effective PCBs
Used SMT Equipment | Pick and Place/Feeders
Samsung SM411, Samsung SM411 Mounter, Second-hand Samsung SM411 Chip Shooter Equipment Profile: The SM411 uses the Samsung Patent On The Fly identification method and the double cantilever structure to achieve the chip component 42,000 CPH an
Used SMT Equipment | Pick and Place/Feeders
JUKI SMT machine RX-7R element mount speed (best condition) : chip element 75,000CPH ELEMENT SIZE: 03015 chip □25mm square element P16 suction nozzle mount head, realized high-speed, high-density Mount p 8 suction nozzle mount head to the small
New Equipment | Education/Training
The J-STD-001 Space Electronics Hardware Addendum provides additional requirements over those published in IPC J-STD-001 to ensure the reliability of soldered electrical and electronic assemblies that must survive the vibration and thermal cyclic env
Used SMT Equipment | Pick and Place/Feeders
Yamaha YV100X parameters Substrate size ATS20 (end orientation) W-AT assembly: L460*W250(Max)/L50*W50(Min) Substrate thickness 0.4-3.0 SMD components can be placed 100 kinds (8MM) Board transfer direction right-left Mounting accuracy ±0.1m
Used SMT Equipment | Pick and Place/Feeders
RS-1 Board Size max. 650 mm × 370 mm (single clamping) max. 950 mm × 370 mm (double clamping) max. 1,200 mm × 370 mm (double clamping)*1 Component Height 25 mm Component Size 0201*2 (metrisch) ~ 74 mm / 50 × 150
Introducing the ezCLIP universal stop clip for PCB magazine racks. The ezCLIP system was created to allow electronics manufacturers who manually load/unload PCB magazine racks a simple way to distinguish required spacing between boards and to prevent
Technical Library | 2012-12-17 22:05:22.0
Package on Package (PoP) has become a relatively common component being used in mobile electronics as it allows for saving space in the board layout due to the 3D package layout. To insure device reliability through drop tests and thermal cycling as well as for protecting proprietary programming of the device either one or both interconnect layers are typically underfilled. When underfill is applied to a PoP, or any component for that matter, there is a requirement that the board layout is such that there is room for an underfill reservoir so that the underfill material does not come in contact with surrounding components. The preferred method to dispensing the underfill material is through a jetting process that minimizes the wet out area of the fluid reservoir compared to traditional needle dispensing. To further minimize the wet out area multiple passes are used so that the material required to underfill the component is not dispensed at once requiring a greater wet out area. Dispensing the underfill material in multiple passes is an effective way to reduce the wet out area and decrease the distance that surrounding components can be placed, however, this comes with a process compromise of additional processing time in the underfill dispenser. The purpose of this paper is to provide insight to the inverse relationship that exists between the wet out area of the underfill reservoir and the production time for the underfill process.
Nordson ASYMTEK's Panorama S-Line delivers conformal coating process control in a compact footprint – with overlapping line processes that minimize manufacturing floor space use up to 50%.
