News Article
Successful Demonstration Of PV Metallisation
DEK reveals innovative new metallisation system at PVSEC in Valencia.
Precision screen printing specialist DEK chose this year's EU PVSEC show in Valencia to reveal its new PV1200 metallisation line to the European market. It is the first time that DEK has directly promoted its innovative new solution in this territory since launching the product line in March.
As well as the company's compact PVP1200 printer, the DEK stand featured handlers, flippers and buffers on a single lane demonstration system, alongside a new dual lane implementation. The dual lane system essentially doubles line throughput without doubling capital equipment investment. A very high level of interest was shown by visitors and other exhibitors, not least of which was due to DEK apparently being the only company using real 150 micron silicon wafers in its metallisation demonstrations on both its exhibits.
A set of multi-crystalline wafers spent the week transiting the single lane PV1200, clocking up more than 5,000 cycles; while another pair constantly traversed up and down the dual lane system for the four days of the event totalling over 17,000 cycles without a single breakage.
“150 micron wafers are increasingly common as they permit the silicon suppliers to cut more wafers from an ingot,” explains Darren Brown, Alternative Energy Development Manager at DEK. “However, they are very brittle and as such demand meticulous handling characteristics from the process line,” he adds.
The handing characteristics of the PV1200 system are paramount in minimising breakages during metallisation. DEK's proprietary transport mechanisms never grip the fragile wafer by its edges, nor exert more force on the cell than its own mass, even during flipping, buffering and unloading into the 42 bay cassettes. The compact dimensions and tiny footprint of the highly modular PV1200, a form factor that belies its 1200 cells per hour throughput, 6 Sigma process rating, 12.5 micron resolution, and exemplary handling capabilities. The system is also easy to observe and monitor, featuring fully transparent covers, a touch screen interface and a workspace at waist height.
DEK is a circa $250 million global business (part of the Dover Group, revenue in excess of $7billion) with a market share in the screen printing sector for electronics circuit board assembly.
“In these sectors, factory floorspace is a valuable commodity that cannot be squandered by needlessly large pieces of production equipment, and the new generation of solar cell manufacturers face the same commercial challenge,” explains John Knowles, DEK's Chairman, who is personally heading up the company's Solar Cell process initiatives. “We understand these needs intimately as we were delivering solar metallisation lines in the early 1980s and continued to develop a large installed base of our first generation machines, mostly in China and Asia, through DEK Japan. The PV1200 simply continues the long association DEK has with the Solar industry” he adds.
Another factor that drives the manufacturing life cycle in related industries is time to market. While the solar cell sector is used to equipment lead times measured in many months, DEK is able to bring its world class lean manufacturing expertise to bear and will supply PV1200 systems in a matter of weeks from order. “With the photovoltaic sector booming and the demand for sustainable alternative energies escalating, we can help manufacturers respond quickly and fast track their way to efficient commercial solar cell production,” claims Brown.
As well as the company's compact PVP1200 printer, the DEK stand featured handlers, flippers and buffers on a single lane demonstration system, alongside a new dual lane implementation. The dual lane system essentially doubles line throughput without doubling capital equipment investment. A very high level of interest was shown by visitors and other exhibitors, not least of which was due to DEK apparently being the only company using real 150 micron silicon wafers in its metallisation demonstrations on both its exhibits.
A set of multi-crystalline wafers spent the week transiting the single lane PV1200, clocking up more than 5,000 cycles; while another pair constantly traversed up and down the dual lane system for the four days of the event totalling over 17,000 cycles without a single breakage.
“150 micron wafers are increasingly common as they permit the silicon suppliers to cut more wafers from an ingot,” explains Darren Brown, Alternative Energy Development Manager at DEK. “However, they are very brittle and as such demand meticulous handling characteristics from the process line,” he adds.
The handing characteristics of the PV1200 system are paramount in minimising breakages during metallisation. DEK's proprietary transport mechanisms never grip the fragile wafer by its edges, nor exert more force on the cell than its own mass, even during flipping, buffering and unloading into the 42 bay cassettes. The compact dimensions and tiny footprint of the highly modular PV1200, a form factor that belies its 1200 cells per hour throughput, 6 Sigma process rating, 12.5 micron resolution, and exemplary handling capabilities. The system is also easy to observe and monitor, featuring fully transparent covers, a touch screen interface and a workspace at waist height.
DEK is a circa $250 million global business (part of the Dover Group, revenue in excess of $7billion) with a market share in the screen printing sector for electronics circuit board assembly.
“In these sectors, factory floorspace is a valuable commodity that cannot be squandered by needlessly large pieces of production equipment, and the new generation of solar cell manufacturers face the same commercial challenge,” explains John Knowles, DEK's Chairman, who is personally heading up the company's Solar Cell process initiatives. “We understand these needs intimately as we were delivering solar metallisation lines in the early 1980s and continued to develop a large installed base of our first generation machines, mostly in China and Asia, through DEK Japan. The PV1200 simply continues the long association DEK has with the Solar industry” he adds.
Another factor that drives the manufacturing life cycle in related industries is time to market. While the solar cell sector is used to equipment lead times measured in many months, DEK is able to bring its world class lean manufacturing expertise to bear and will supply PV1200 systems in a matter of weeks from order. “With the photovoltaic sector booming and the demand for sustainable alternative energies escalating, we can help manufacturers respond quickly and fast track their way to efficient commercial solar cell production,” claims Brown.
