The TSC-106L3 is a signal relay produced by TE Connectivity. This relay is engineered for applications needing dependable switching for low-power signals. Typical uses include telecom equipment, industrial automation, and various electronic devices. Key attributes are its small form factor, minimal power usage, and heightened sensitivity.

Applications

• Telecommunications apparatus
• Industrial automation systems
• Diverse electronic devices
• Measurement and testing instruments
• Security infrastructures

Features

• Compact size: Enables high-density placement on circuit boards.
• Low power consumption: Reduces overall system energy requirements.
• High sensitivity: Operates efficiently with minimal coil input.
• High isolation: Offers strong electrical separation between control and load circuits.
• Extended operational life: Provides reliable and consistent switching over time.
• RoHS compliance: Meets environmental regulations for restricted substances.

Benefits

• Greater system dependability: Delivers consistent signal switching capabilities.
• Lower energy expenditures: Decreases operational costs by using less power.
• Optimized space utilization: Facilitates smaller and more efficient product designs.
• Improved safety characteristics: Ensures high isolation to prevent electrical hazards.
• Prolonged equipment uptime: Extends the lifespan of devices and minimizes maintenance.
• Eco-friendly design: Conforms to environmental protection standards.

Additional Details

The TSC-106L3 is designed for through-hole mounting. The 'L3' likely refers to a specific coil voltage or construction variation. The contact configuration is generally SPDT (Single Pole Double Throw). For precise electrical characteristics, such as coil resistance, contact current ratings, and operating temperature ranges, refer to the official datasheet from TE Connectivity. This relay is frequently employed where precise and reliable switching of low-current signals is critical. The sealed construction ensures protection against environmental contaminants, further enhancing its reliability in demanding applications.