Engineering Manager
CurrentLeading the development, operations, and support for Critical Environments
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@johnsoncontrols.com
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Matt Asmus is listed as Engineering Manager | Engineering & Technical Leadership | Product Development at Johnson Controls, based in Greater Milwaukee, United States. AeroLeads shows a work email signal at johnsoncontrols.com and a matched LinkedIn profile for Matt Asmus.
Matt Asmus previously worked as Engineering Manager at Johnson Controls and Principal System Engineer at Milwaukee Tool. Matt Asmus holds Master Of Engineering - Meng, Engineering from Milwaukee School Of Engineering.
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Accomplished, solutions-focused Engineering Leader & Product Developer with two decades of success driving innovation, product quality and savings while developing engineering teams to deliver on aggressive designs, and objectives.• Delivering software, automation, systems, and control solutions to improve lives and increase building facility management efficiencies for large institutions, commercial clients and universities • Exceptional innovation experience guiding energy product solutions for a global multi-industrial leader serving customers in 150+ countries; currently hold nine approved US patents, two European patents, and 15+ pending•Proven client relationship building skills, able to lead complex, global-scale projects with experience working with and leading teams around the globe, building rapport with all tiers within a company I am currently leading multiple teams in support of complex automation projects and solutions at Stanford University and Kent State and at Children's Hospital of Alabama, University of Arkansas, Tulane University and Universidad EAFIT in Columbia. I have received multiple awards including the 2018 Inventor Wall of Fame and an award for the Kent State Project from corporate leadership at Johnson Controls. I have a Master's degree in Engineering and a Bachelor's degree in Electrical Engineering. I am interested in networking, new alliances, industry leadership engagement opportunities and continuous learning. Contact me via LinkedIn messaging. Project Management | Program Development | Global Team Development | Performance Management | Strategic Planning | Energy Analysis | Solutions Engineering | Product Development | Mathematical Optimization | Classical & Modern Control | Firmware Design | Programming & Coding | Thermal Dynamic Systems | Product Quality | EMC Testing | Failure Modes Effects Analysis
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Cork, Ireland, Ie
Leading the development, operations, and support for Critical Environments
Cork, Ireland, Ie
Leading the development, operations, and support for the Central Plant Optimization (CPO) product for several major institutions, universities, hospitals, and agencies within the US and around the world.• Leading multiple teams including a 4-member operational tool team, a 6-engineer algorithm team and a 3-member operations team which integrates CPO into the control automation at the plant; in 2019 to date, have led the field support efforts for the continuation of projects at Stanford University and Kent State University, expanding the equipment base supported by the software• Installation projects included managing development and implementation of solutions for several major universities, hospitals, and institutions including the University of Arkansas, Stanford Redwood City Campus, Children’s Hospital of Alabama, Universidad EAFIT in Medellin, Columbia, and Tulane University• Leading energy studies at Bank of Hawaii, Dell, two Ascension hospital sites, the Charlotte Airport, and NIST
Cork, Ireland, Ie
Recruited to lead the initial CPO product development (initially called EOS – Enterprise Optimization System), for the Advanced Development and Emerging Products Group, due to my performance and experience automating, controlling and optimizing central energy facilities with Controls team. • Applied for and granted several patents during the development phase, leading what was a low-level optimization, which selected the optimal combination of equipment and optimal setpoints to run the plant• Following software installation, Stanford ran a study and determined the software decreased their costs to run the plant by $535K, far better than their best operators could run the plant• The University of Arkansas at Fayetteville was identified as another candidate for the CPO/EOS software, leading the operations and commissioning team, targeting annual energy savings of $480K • Kent State University expressed interest; led and delivered a real-time central energy facility cost-based optimization system to KSU; analysis showed potential to save $1M; managed a team of five engineers rewriting and generalizing the Stanford Code success, integrating it into the KSU plant • Worked closely with clients on all projects during the commissioning process• With success and potential, the CPO product transitioned out of the Advanced Development group into the Data Enabled Solutions Group; was recruited to lead the group as Director CPO Engineering
Cork, Ireland, Ie
• Led, mentored, trained, assigned tasks, and evaluated a 10-member, geographically diverse, development team, tasked with developing a solution to improve occupant comfort by reducing control error and increasing stability. Combining several individual control apps into one large app, it ultimately reduced errors as well as warranty costs and with implementation, sales vastly increased, warranty claims dropped, and the smart equipment control installed across the RTU lines• Developed a math and physics-based energy optimization algorithm for chilled water plants, creating a US Patent (Issued: 9,002,532); these control applications are the standard in Metasys; though developed years ago, they continue to be used today, and are installed and used in hundreds of buildings globally• Served as Control Applications Technical Lead, developed standard chilled water plant automation and heuristics-based optimization applications, leading, mentoring and evaluating a 6-member, geographically diverse development team; wrote requirements, developed the design, project estimation, and planning; the applications have been installed in hundreds of sites globally and are still in use today • Led a 2-engineer team to prototype battery-less, wireless sensors collect surplus energy from the environment, convert it to electrical energy and power the wireless sensors; developed prototypes, provision patent filed • Led development of standard FX applications, which included mixed air single duct AHU, mixed air dual duct AHU, 100% outdoor air single duct AHU, 100% outdoor air dual duct AHU, unit ventilator, fan & coil, single and dual duct variable air volume box, and heat pump applications• Developed a smoke control system to meet requirements of UL864; to manage smoke and hazardous gases in a building to maximize life-safety of occupants during a smoke or fire situation• Also held roles as Senior Staff Engineer, and Staff Engineer during this time
Cork, Ireland, Ie
• Led a $500K project, directed a 4-member team of engineers, technicians and an outside consultant. Developed 18 different control unit vent applications for a major OEM. Control variations include water source heat pump, air source heat pump, hydronic heating and cooling, compressorized cooling and hydronic heating, and electric heat and hydronic cooling.• Performed open loop code validation tests, applied Statistical Process Control (SPC) methods to verify controller accuracy and stability, and used Six Sigma techniques to verify system response time
Cork, Ireland, Ie
Guided new product development, hardware, and software failure modes effects analysis (FMEA), sustaining engineering, manufacturing support, returned goods analysis, project planning, qualification testing.• Created a C-language tool to translate text-based state machine information into assembly language code• Created Pascal language automated test equipment for life cycle tests• Updated firmware of seven product families to meet requirements of UL1998 software safety standard• Led a cost reduction project, which saved $300K annually• nDeveloped 6805 based integrated function ignition control for a natural gas furnace
Menomonee Falls, Wisconsin, Us
Researched and identified applications for water control market system, installation and customer service. Projects: battery powered bipolar solenoid controls, infrared controls for touchless faucets, 8051 based water control systems
Product development, test equipment development, test procedure writing. Projects: Time delay and latching relays, instrument panels and safety interlock control module.
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Matt Asmus works for Johnson Controls.
Matt Asmus is listed as Engineering Manager | Engineering & Technical Leadership | Product Development at Johnson Controls.
AeroLeads has found 1 work email signal at @johnsoncontrols.com for Matt Asmus at Johnson Controls.
Matt Asmus is based in Greater Milwaukee, United States while working with Johnson Controls.
Matt Asmus has worked for Johnson Controls, Milwaukee Tool, Bradley Corporation, and Marlin Electric Company.
You can use AeroLeads to view verified contact signals for Matt Asmus at Johnson Controls, including work email, phone, and LinkedIn data when available.
Matt Asmus holds Master Of Engineering - Meng, Engineering from Milwaukee School Of Engineering.
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