Proventia
Electric Powertrain Engineering
Electric Powertrain Engineering for Off-Highway Machinery
We help OEMs electrify their machines by delivering system expertise, advanced technologies, and engineering capabilities that ensure reliable, high-performance electric systems.
Our approach simplifies the electrification of off-highway (NRMM) applications by combining modular battery systems with intelligent control systems and power electronics into architectures that are durable, safe, and straightforward to integrate. With proven technologies and deep integration experience, we help build the next generation of low- and zero-emission machinery.
Why choose proventia electric powertrain solution?
Engineered for demanding use
Our systems are designed for extreme loads, rapid power peaks, and dynamic duty cycles. Our battery chemistries ensure optimal performance in applications requiring continuous operation, frequent peak power events, or extended duty cycles.
Complete Multidisciplinary Expertise
We integrate battery technology, power electronics, control engineering, and combustion engine expertise into optimized hybrid and electric powertrain solutions. This enables a robust and efficient architecture that performs reliably throughout the machine’s lifecycle.
Validated for Real-World Conditions
Proventia’s Test Center enables full system testing of internal combustion engines, batteries, electric control units, inverters, and electric machines. This capability allows precise hybrid system validation under real operating conditions and provides data that directly supports machine-level optimization.
Flexible, Modular Architecture
Standardized battery platforms and a configurable Proventia Electric Control Unit (PECU) enable fast, cost-efficient integration across various machine types and powertrain configurations.
Hybrid systems engineering
Hybrid Powertrains
Our hybrid powertrain architecture integrates the customer’s internal combustion engine with a Proventia LTO battery, PECU, motor inverter, and electric machine.
We validate optimal battery sizing, simplify power electronics, optimize thermal behaviour, and enhance overall system durability. This results in improved productivity, reduced fuel consumption, and lower emissions.
Proventia
power batteries
Safe and reliable Lithium Titanate Oxide (LTO) technology, built for rapid power delivery and long cycling life.
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Proventia
Energy batteries
Environmentally friendly Lithium Iron Phosphate (LFP) technology, designed for full electric applications and stable performance.
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Proventia provides complete electric powertrain engineering services for mobile machinery and industrial applications. Our services include electric and hybrid powertrain development, control systems, calibration, thermal management, testing, and validation. We help our customers integrate electric motors, inverters, DC/DC converters, charging systems, batteries, and vehicle control systems into a complete powertrain solution. The scope of the project is always defined according to the application and customer requirements.
Integration is tailored to the customer’s machine architecture and control strategy. Our systems interface directly with customer automation environments, including PLC-level integration and machine-level power requests. Communication is supported through standard protocols such as J1939, along with application-specific HMI solutions when required.
Component selection is based on real application requirements. Key factors include torque demand, speed range, peak power duration, duty cycle, and overall system architecture. During the development phase, we verify the compatibility of the electric motor, inverter, and other power electronics through simulation, testing, and system-level evaluation, ensuring reliable performance under real-world operating conditions.
Proventia delivers complete battery systems and battery management solutions. We also support system-level integration, including electrical and mechanical interfaces, in collaboration with power electronics and control-system partners. The scope of delivery is defined individually for each case at the start of each project.
Thermal management is integrated into the overall powertrain design. Solutions are defined based on load profile, ambient conditions, and performance targets. This may include separate cooling circuits for batteries and power electronics, battery thermal management system (BTMS) integration, and environment-specific sizing. Thermal performance is verified through simulation, testing, and validation.
An integrated electric powertrain enables system-level optimization. This improves durability, reduces system complexity, and lowers CAPEX. It also improves overall machine performance and supports efficient energy use and off-grid operation where required.
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