Products
Microelectronics
PSX307A Plasma Cleaner
Building upon the PSX307 Plasma Cleaner, the PSX307A Plasma Cleaner features an enlarged plasma chamber capacity that improves productivity. In addition, the PSX307A system is able to handle full wafers (both bare and on dicing frames). Besides the increased capacity, Panasonic's original Plasma Monitoring System suppresses abnormal discharges resulting in a secure and efficient production process. Additionally, the option to include a traceability functionality ensures high level process Quality.
Microelectronics
PSX307 Plasma Cleaner
The PSX307 Plasma Cleaner provides 1.5 times the productivity of conventional plasma cleaners. Panasonic's parallel plate plasma chamber technology delivers superior etch uniformity compared to conventional batch-type plasma cleaner systems.By using an argon plasma treatment, ultra-thin gold-plated electrodes can be wire-bonded reliably without the formation of nickel compounds. The savings achieved in cheaper gold plating can provide the ROI justification alone. The PSX307 Plasma Cleaner's other capabilities include surface modification by oxygen plasma, improving mold resin adhesion and under-fill wettability, and reducing the incidence of peel-off, voids, and cracks.Panasonic's Plasma Monitoring System suppresses abnormal discharges for a secure and efficient production process. The option to include traceability functionality ensures high level process quality as well.
Microelectronics
MD-P300 Flip-chip Bonder
The MD-P300 Flip-chip Bonder is process-flexible, combining flip-chip and thermosonic bonding in a single, small-footprint solution.The MD-P300 contributes to the cost-effective production (high yield, high throughput) of value-added devices. The MD-P300 can achieve high speed and high accuracy bonding through its low gravity point and lightweight bonding head. The MD-P300 supports 300 mm (12") wafers, and is an ideal solution for COB hybrid assembly in combination with an in-line Panasonic SMT placement machine.The MD-P300 is capable of fast cycle times and a placement accuracy of +/-5 μm at 0.5 seconds per IC (dry run) - with thermosonic processes at 0.65 seconds, including process times.
Microelectronics
MD-P200 Die Bonder
Unit Level Manufacturing by the synchro-motion of dispensing and bondingThe MD-P200's die bonding is carried out immediately after epoxy dispensing, thereby making it possible to finish the bonding operation before the epoxy has deteriorated. This realizes stable and high quality bonding at all bond positions on a substrate. In addition, the bonding stage camera enables pre-bonding inspection immediately after epoxy dispensing and post-bonding control immediately after the bonding of a die. This process enables manufacturing with real-time quality inspection.User-friendly operationA large touch panel and interactive software realize an easy and reliable operating environment for all users from beginners to experts.
Microelectronics
APX300 Plasma Dicer
Plasma dicing is becoming increasingly attractive in the semiconductor market. Dies are becoming smaller and thinner and manufacturers are facing difficulties such as increasing material loss due to the width of the dicing line, mechanical damage to the dies from chipping and increasingly longer processing times due to line-by-line mechanical dicing. Panasonic’s APX300 Plasma Dicer solves these challenges and simultaneously provides a higher quality product with a lower cost of production. Features and benefits of Panasonic's APX300 Plasma DicerPlasma dicing requires a dicing street mask. After the mask is applied to the surface of the wafer and the dicing streets are exposed, the plasma process etches the exposed streets by a chemical reaction. By using a chemical etching process, a chipping-free and particle-free process is achieved. Thanks to the use of mask patterning, narrower street widths are possible – allowing more chips to be designed onto the wafer. Furthermore, the mask patterning allows complete flexibility in chip size, shape and position. The benefits of the Panasonic APX300 Plasma Dicer are: Particle-free and damage-free processHigher chip strengthYield improvementsThe Panasonic APX300 is available in a stand-alone single chamber (1 chamber) or a multi chamber (1, 2, or 3 chambers) configuration. Panasonic can provide a plasma dicing total solution to achieve a damage-free, particle-free, higher throughput and lower overall cost of production. The Panasonic APX300 is CE certified.
Microelectronics
APX300 Dry Etcher
The APX300 (option S) Dry Etcher is the perfect dry etching equipment for silicon and compound semiconductors. It incorporates a multi-wafer direct cooling system for optimal control of wafer temperature, as well as MSC-ICP (Multi-Spiral Coil type ICP) and BM-ICP (Beamed-type ICP) plasma sources to generate high density plasma. In this way, it achieves a uniform etching profile in a very short timeframe. Building upon the single wafer process chamber of the previous model (Panasonic E620), combined with enhanced process options and two different handling systems, the APX300 (option S) is extremely fast and covers a wide range of process demands.
Features and benefits of Panasonic's APX300 (option S) Dry Etcher The Panasonic APX300 (option S) Dry Etcher can process wafers such as power devices, SAW filters, communication devices, MEMS sensors and many more. The APX300 (option S) is the successor to the previous best-selling Panasonic E620 and utilizes the same single wafer process chamber. Two plasma sources are available: MSC-ICP (Multi-Spiral Coil type ICP) and BM-ICP (Beamed-type ICP). MSC-ICP is Panasonic's latest technology, developed to realize highly accurate processing. BM-ICP offers higher electron density and achieves faster processing, covering a wide range of process demands. In addition, two types of handling systems are available: Atmospheric Loading Supply and Vacuum Load Lock Supply. The Panasonic APX300 (option S) Dry Etcher is CE certified.
TAWERS Arc welding system solution
TAWERS WGH3 Arc welding system
Optimum welding processes are achieved by utilising an integrated inverter power source within the robot controller, ensuring complete synergy within the common control system.This ensures that the established benefits and advantages of the existing TAWERS Fusion Technology are also now available for use with WGH3.
TAWERS Arc welding system solution
TAWERS WG3 Arc welding system
Optimum welding processes are achieved by utilising an integrated inverter power source within the robot controller, ensuring complete synergy within the common control system. This ensures that the established benefits and advantages of the existing TAWERS Fusion Technology are also now available for use for the range of MIG, MAG and DC TIG welding process.
TAWERS Arc welding system solution
TAWERS Software
The TAWERS “Weld Navigation” Software is a unique feature that will make your weld development much easier and faster.
Software
Manufacturing operations optimizer (MFO)
Panasonic’s manufacturing operations optimizer automatically draws up production plans to reduce man-hours and enhancing production efficiency.
Insertion (THT/PTH)
RG131
The RG 131 is the successor of the RHSG. By supporting 3/4 pitches, expanding the range of board sizes and increasing component insertion rate, this high-density radial component insertion machine increases productivity. High speed insertion at a rate of between 0.25s and 0.6s per component can be achieved, even for large-size components with 3-pitch (2.5mm/5.0mm/7.5mm) or 4-pitch (2.5mm/5.0mm/7.5mm/10.0mm) configurations. A comprehensive self-correction function ensures high reliability. With large numbers of component supply and dual-partitioned component supply units, long-term operation can be obtained. A total of up to 80 types of components can be mounted. With large numbers of component supply and dual-partitioned component supply units, long-term operation can be achieved easily with the RG131. A total of up to 80 types of components can be mounted, with up to 32 (16 + 16) types of large components. The two separate component supply units enable components to be exchanged and replenished during operation. Panasonic offers also the RG131-S platform version with smaller footprint. Higher productivity expanding board size range and increasing component input.
Insertion (THT/PTH)
AV132
Supplied with a 40 or 80 component feeder with optional jumper wire, the compact supply unit configuration of the AV132 can fit both ammo pack and reel. The dual partition configuration enables a fast changeover. The next job can be set up while the current one is being processed.Capable of inserting components in four directions: 0°, 90°, 180°, and 270°, the AV132 optimizes productivity by simultaneously handling 26 and 52mm taped components and providing fast, full auto-recovery. The AV132 can reduce loading times by running two PCBs simultaneously, enabling efficient production due to a speed of 0.12s/component and a transfer speed of 2s/PCB.The fixed feeder unit and the out-of-component detection feature allow to replenish components while maintaining long-term non-stop runs.Preparation in advance or equipment operation during component change-over is possible.
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