Explore how these actuators are commonly used in applications where high force and precise control are essential, enabling efficient and reliable operation in equipment such as construction machinery, agricultural implements, and industrial automation systems.

In this engaging webinar, we unveil Parker's next-generation Global Vehicle Inverter (GVI), designed to complement the Global Vehicle Motor (GVM) and meet the evolving demands of electric and hybrid vehicle applications.

In both on-road and off-road vehicles, inverters are crucial for managing energy flow, optimizing performance, and enhancing the overall efficiency of electric and hybrid systems. This webinar will help you gain valuable insights into the functionality and significance of inverters in this evolving landscape.

Watch this engaging webinar on energy optimization in electrified off-road machinery. We discuss various technical challenges and how hardware optimization and real-time energy monitoring can mitigate them.

This webinar delves into hybrid system architectures that combine ICEs with electrified components, providing a practical and economically viable pathway for this transition. Join us to explore the significance, benefits, and potential of hybrid systems in modern equipment design.. 

Learn more about how ISO 13849 breaks down the procedural requirements for electric, hybrid and diesel machine design by providing a systematic approach to the design of safety-related parts over several steps and how you could be enhancing functional safety elements from an engineering perspective. 

ROI and Total Cost of Ownership (TCO) are key for any OEM’s electrification journey and fortunately, the data shows that becoming more sustainable can also be profitable. In this webinar, you will learn about market trends, benefits and challenges of integrated systems, and tips to reduce installation and maintenance costs.

Hydraulic pumps and the electric motors that power them must work together in harmony; smarter hydraulic components that can sense load requirements and opportunities for energy recovery are needed to achieve efficiency gains. In this webinar, you will learn how to analyze and identify the right electromechanical architectures to optimize machine efficiency. 

Why is it important to properly match the hydraulic pump, electric motor, and inverter in your electrified work functions? That is just one of many questions this seminar explores along with the main concepts to consider when converting a machine’s hydraulic work functions from an Internal Combustion Engine (ICE) to electric. Through a panel discussion, Parker Hannifin’s Hydraulic Pump and Power Systems’ engineers will step through the conversion process by focusing on key considerations and tools to aid in your migration from ICE to electric.

Waste management is a critical component of modern society, and the trucks that collect and transport waste are essential for maintaining clean and healthy communities. However, traditional waste trucks are powered by diesel engines, which emit harmful pollutants into the air and contribute to climate change. As society begins to shift to electric powered work trucks, Parker continues working to advance our capabilities by engaging in development activities with OEMs across the world.

Commercial work trucks have historically utilized mechanical Power Take Off units (PTOs) to transfer power from the diesel engine and transmission to operate hydraulic, water, vacuum pumps, pneumatic compressors, etc. An ePTO replaces the traditional mechanical PTO for electrified vehicles. ePTOs are a broad term and represent many implementations and form factors, which can be confusing, but the benefits include reduced engine runtime, lower emissions and fuel and maintenance savings.

Want to watch more webinars? Explore the On-demand webinar page to find more information from the experts on Parker's emerging technology.