Overview of 170136-2 by TE Connectivity
The 170136-2 by TE Connectivity is characterized as a 1.47mm diameter pin receptacle strip designed to accommodate wire sizes up to 20 AWG with a cross-section of 0.6 mm2. This component is specifically categorized within the sub-category of Terminals and Terminal Blocks, making it a critical element in various wiring and connection applications across a spectrum of electronic devices and systems. An integral part of the Terminal Blocks category, this product ensures robust connectivity in printed circuit boards (PCBs).
With the part being RoHS compliant and marked by a “Pbfree Code” as Yes, it meets rigorous environmental standards which restrict the use of hazardous substances in electronic equipment. Moreover, its “Reach Compliance Code” affirms its conformity to environmental standards and safety protocols, including an UL safety approval which underscores its quality and reliability in electronic assemblies. Despite being classified as “obsolete” in its Life Cycle Code, it remains a viable choice for certain applications where specifications match precisely.
Industry Applications for 170136-2
The following industry applications are ideal realms where the 170136-2 might find utilization, driven by its design attributes and specification. Note that these applications are conceptual and should be explored more deeply by engineering and design teams to ensure compliance with specific requirements:
- Consumer Electronics: Due to its small size and reliable connectivity, this pin receptacle strip could potentially be used in the manufacturing of consumer electronic goods such as home appliances and personal devices where space and reliable electrical connection are crucial.
- Computing and Data Storage: The size and UL safety certification potentially make the 170136-2 suitable for applications in computing hardware, where precise and dependable connections are necessary for the efficient functioning of data storage units and servers.
- Telecommunications: In telecommunications equipment, where integrity and durability of connections are vital, this PCB terminal could be used to ensure consistent performance and reliability in various communication devices.
- Industrial Automation: The robust design and compliance with safety standards might make this component applicable in industrial automation systems, which require durable and reliable connections to handle operational stresses and rigorous usage.
It’s important to note that while these use cases are theoretically possible, each application would need to be substantiated by further technical evaluation and adherence to relevant industry standards.
About TE Connectivity
TE Connectivity is a global industry leader in the field of electronic connectivity solutions, heavily focusing on the design and manufacturing of an extensive range of connector and sensor components. Within the context of Terminals and Terminal Blocks, TE Connectivity offers a wide spectrum of highly engineered terminal configurations, including series like the 170136-2. This part aligns with TE Connectivity’s commitment to providing high-quality, reliable components that meet stringent specifications and are designed to withstand intensive use scenarios. TE Connectivity is renowned for its broad product lines that suit a vast array of applications across multiple industries, ensuring that its products not only meet but frequently exceed the requirements of design engineers globally.
Where to Find 170136-2 by TE Connectivity
To purchase the 170136-2 or discover similar parts, using specialized electronic component platforms like findchips.com is advisable. On findchips.com, one can search for this specific component under the category of Terminals and Terminal Blocks to check availability from various distributors. Historically, distributors such as Master Electronics, Onlinecomponents.com, Mouser Electronics, Avnet Americas, DigiKey, and Newark have listed this part. However, current stock levels and pricing should be verified on findchips.com since availability can vary.