Upgrade Kit improves drilling machines.February 18, 2003 -
Spindle Upgrade Kit allows Uniline Series single-station drilling machines run spindle speeds up to 150,000 rpm. It contains spindle covering full range from 20,000-150,000 rpm, all electronic components for integration of spindle, as well as software modifications to enable enhanced capabilities in controller.
(Archive News Story - Products mentioned in this Archive News Story may or may not be available from the manufacturer.)
Original Press release
Excellon Automation
20001 S. Rancho Way
Rancho Dominguez, CA, 90220
USA
Excellon Automation Co. Offers High Speed Spindle Upgrade for Uniline
Excellon offers high-speed spindle upgrade kits for the Uniline series single station drilling machines. The upgraded Uniline machines will then be capable running spindle speeds up to 150k RPM thus enhancing quality and throughput in a wide variety of applications.
The upgrade kit offers benefits for all applications that require higher spindle speed. Especially microvias can be drilled at higher spindle speed more efficient with improved hole wall quality and throughput.
The upgrade kit contains all hardware required. Key part is a state-of-the-art spindle covering the full range from 20k up to 150k RPM. All electronic components for integration of the spindle are supplied as well as software modifications to enable the new capabilities in the controller.
This upgrade kit is available for all Uniline drillers (not driller/routers) running currently at 110k or 125k RPM. Please contact your Excellon sales or service manager to ask for details.
Excellon Automation Co. has the largest installed PCB drilling machine base worldwide. Realizing Excellon equipment's longevity, we strive to provide you with upgrades to keep you up to speed with the latest requirements.
Excellon Automation Company is a subsidiary of Esterline Technologies (ESL:NYSE). Excellon is the world's leader in via formation solutions, featuring a complete product spectrum from mechanical drilling and routing to laser via formation systems.
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