The Panasonic EVQP1905M is a compact and reliable tactile switch designed for various electronic applications requiring a momentary contact. Its small size and robust construction make it suitable for high-density PCB layouts and demanding operating conditions. The switch provides a distinct tactile feedback upon activation, ensuring user satisfaction and accurate input.

Applications

• Mobile devices
• Audio equipment
• Gaming peripherals
• Industrial control panels
• Navigation systems
• Consumer electronics

Features

• Compact Size: Space-saving design for high-density PCB layouts.
• Tactile Feedback: Provides a clear tactile response, enhancing user experience.
• High Reliability: Durable construction ensures long-term performance.
• Operating Force: Optimized operating force for comfortable and accurate input.
• Surface Mount Technology (SMT): Designed for automated assembly processes.
• RoHS Compliant: Meets RoHS environmental standards.

Benefits

• Space Efficiency: Small footprint allows for integration into compact devices.
• Enhanced User Experience: Tactile feedback provides confidence in switch operation.
• Long-Term Performance: High reliability ensures extended product life.
• Efficient Manufacturing: SMT compatibility streamlines assembly processes.
• Environmentally Responsible: RoHS compliance ensures adherence to environmental regulations.

Additional Details

The EVQP1905M is manufactured using high-quality materials, ensuring consistent performance and longevity. Its design is optimized for easy integration into various electronic devices, offering a reliable and cost-effective solution for momentary contact applications. The switch is engineered to withstand a high number of operations while maintaining consistent tactile feedback and electrical performance.

Panasonic's EVQP1905M tactile switch combines compactness, reliability, and tactile feedback, making it a popular choice for a wide range of electronic devices and control panels, especially in applications where space is limited and reliable performance is critical.