Overview of FSM2JSMA by TE Connectivity
The FSM2JSMA is a keypad switch characterized by its single-pole single-throw (SPST) configuration and momentary-tactile switching behavior. Rated at 0.05A and 24VDC, this switch is designed for low power applications. The actuation force required is 160 grams, and it comes with a polyamide actuator that is gray in color and round in shape. Known for its surface mount (SMD) design, the FSM2JSMA is ideal for compact, embedded applications where space saving is critical.
This component from TE Connectivity features a robust design compliant with RoHS, reflected in its material choice and construction. Notably, the switch has an operating temperature range from -20 °C to 85 °C, allowing it to function in a wide array of environmental conditions. The electrical life of the switch is rated for 100,000 cycles, demonstrating its durability and reliability in continuous use applications. Additionally, the switch’s contacts are plated with silver, offering excellent conductivity and resistance to oxidation.
This switch is packaged using bulk packing methods and boasts significant insulation resistance up to 100 million ohms, ensuring effective performance in varied electrical environments. With dimensions tailored for compact setups (body length or diameter and breadth both at 6 mm), FSM2JSMA offers a versatile option for designers focusing on miniaturized or densely packed devices.
Industry Applications for FSM2JSMA
- Consumer Electronics: The FSM2JSMA’s small size and low power consumption make it potentially ideal for handheld electronic devices. Integrated into items such as remote controls or portable gaming devices, this switch could offer a reliable solution for user input functions.
- Telecommunications: In communication devices, including desktop phones and radio communication systems, the tactile feedback and compact design of the FSM2JSMA can provide an enhanced user interface that is both, space-efficient and reliable.
- Computing and Data Storage: This particular switch might be utilized in peripheral devices such as keyboards or control panels on storage units. Its durability and reliability can be crucial in environments where frequent interaction is common.
- Robotics and Drones: Given its durability under various temperature conditions and mechanical reliability, the FSM2JSMA could possibly be used in interactive interfaces or control units for robots and drones, where precise control and feedback are required.
Note: These potential industry applications are conceptual/illustrative and require analysis and verification by engineering and design teams for adherence to industry standards and specific application requirements.
About TE Connectivity
TE Connectivity is a global technology leader in connectivity and sensor solutions. Within the realm of electronic switches, their offerings cover a broad spectrum, with an emphasis on high reliability and precision in demanding environments. The FSM2JSMA is one example of their innovative products under the Keypad Switches subcategory. TE Connectivity designs these components to meet stringent industry standards, providing solutions that are not only effective but also reliable over the long term.
In the wider category of switches, TE Connectivity’s products are known for their robustness and compatibility across a range of applications, ensuring that they remain a preferred choice for engineers and designers looking to integrate tactile switches into their projects.
Where to Find FSM2JSMA by TE Connectivity
For procuring the FSM2JSMA, findchips.com provides a reliable platform to compare stock levels and pricing across various distributors. Historically, the part has been available at distributors such as Master Electronics, Sensible Micro Corporation, Sager, and Bristol Electronics, among others. However, for the most current availability and best pricing options, checking findchips.com is advisable. Additionally, for alternative parts within TE Connectivity’s offerings or from other manufacturers, the Keypad Switches link can be explored.