eVALV
Precision coolant control for EV motors, boosting efficiency & reliability
Precision cooling for peak performance
Solero’s eVALV ensures electric motors operate at optimal temperatures by regulating coolant flow with advanced solenoid technology. Preventing overheating enhances motor efficiency, extends service life, and improves energy management. Built for durability with protection ratings up to IP69K, eVALV integrates seamlessly into electric vehicle thermal management systems, supporting various cooling fluids and compact installations.
Working principle
The eVALV leverages advanced solenoid technology to regulate coolant flow with precision, dynamically maintaining optimal temperature levels within electric motors. By preventing overheating, it ensures consistent motor performance and reliability in demanding conditions.
Benefits at a glance
- Optimized motor efficiency
Maintains ideal operating temperatures, enhancing motor performance and longevity - Improved energy management
Reduces power consumption by optimizing thermal control, contributing to better energy efficiency - Enhanced reliability
Minimizes the risk of motor damage from overheating, ensuring smoother and more dependable operation - Versatile application
Suitable for various electric vehicle motor types and cooling systems - System compatibility
Engineered for seamless integration into electric vehicle thermal management systems - Fluid compatibility
Supports a wide range of cooling fluids to meet diverse application needs - High durability
Built to withstand demanding environments with protection ratings up to IP69K - Extended service life
Ensures long-lasting performance under continuous operation - Compact and efficient design
Optimized for space-constrained installations while delivering exceptional control precision
Technical specifications
eVALV
Technical data
Pressure Drop:
40 kPa @ –30 °C, 6 L/min
Leakage:
40 mL/min @ 75 kPa, 100 °C
Voltage Min/Max:
9 / 16 V
Pull-in Current:
0.82 A
Max Hold Current:
0.2 A
Min/Max Temperature:
–40 °C / 120 °C
Mechanical Shock:
50 g & 25 g when energized
Coil Resistance:
18 Ω
Download
Technical drawing available for download. For a customer-specific offer drawing, please get in touch with us.
