Overview of 1571610-2 by TE Connectivity
The 1571610-2 by TE Connectivity is classified as a Sealed Right-Angle Tactile Switch within the Keypad Switches subcategory of electronic switches. Characterized by its SPST configuration, the switch supports a contact rating of 50mA at 24VDC and an operational voltage up to 24V. Incorporating a round button actuator styled in black, the switch ensures a side-actuated orientation. It’s designed for through-hole mounting, which enhances durability and resistance against stress in various operational environments.
This part is notable for its environmental sealing rated at IP67, ensuring protection against dust and temporary immersion in water, making it applicable in robust outdoor or industrial settings where exposure to such elements is a concern. The tactile nature of the switch, combined with an operating force of 160 gf (1.274 newtons), provides a positive tactile feedback which is crucial in user interface environments. Other mechanical attributes include a actuator length of 0.152 inches made from durable nylon, and housing crafted from polyphenylene sulphide, noted for its chemical and temperature resistance. Factory lead time for this part is currently 23 weeks, 1 day, as of the most recent update.
Industry Applications for 1571610-2
- Consumer Electronics: This switch could potentially be utilized in consumer electronics, such as in portable devices where durability and reliable switching under varying environmental conditions are necessary. Specifically, its IP67 rating and robust actuation force makes it an excellent choice for outdoor devices like handheld GPS units or rugged cameras.
- Industrial Automation: The tactile switch may find applications in control systems within industrial machines. Industries focusing on automation require components that provide clear tactile feedback and can withstand harsh operating conditions, which aligns well with the features of the 1571610-2, particularly its high operating temperature range and moisture resistance.
- Healthcare: In medical devices that require frequent interaction and where reliability and sanitation are crucial, this switch’s sealing and durable design might make it a potential candidate. Devices such as portable diagnostic equipment or ruggedized hospital equipment could benefit from using a switch with these specifications. Note that any applications in healthcare should confirm that the component complies fully with specific medical standards and regulations.
Note that the potential industry applications listed are conceptual and should be validated by engineering teams for specific compliance and performance requirements.
About TE Connectivity
TE Connectivity stands out as a significant manufacturer in the electronic components sector, producing a broad range of products including connectors, sensors, and switches. Their expertise in manufacturing Keypad Switches is well demonstrated in their production of parts like the 1571610-2. TE Connectivity is known for producing parts that achieve reliability and performance, particularly under demanding conditions, aligning well with the stringent specifications often required in medical, industrial, and automotive applications. By consistently meeting diverse industry standards and pushing technological boundaries, TE Connectivity ensures that their switches, including the variety of tactile and keypad switches, serve the needs of a highly diversified clientele.
Where to Find 1571610-2 by TE Connectivity
To purchase the 1571610-2, potential buyers should consider exploring options on findchips.com. The site not only provides updated stock levels and pricing across multiple distributors but also offers insights into potential alternatives within the Keypad Switches selection. Distributors such as Mouser Electronics, DigiKey, and Avnet Americas have historically stocked this part, though availability can fluctuate.
To ensure the most comprehensive purchasing strategy, users should verify current availability and price conditions directly through Findchips’ centralized platform.