Overview of SMP1330-040LF by Skyworks Solutions Inc.
The SMP1330-040LF by Skyworks Solutions Inc. is categorized as a PIN Diode and is designed for high-performance RF switching and attenuation applications. This product boasts operational characteristics suited for RF and microwave frequencies, with specifications including a reverse breakdown voltage of 20 V and a maximum power dissipation of 0.75 W. The diode comes encapsulated in a green, plastic/epoxy package with two no-lead, bottom-positioned terminals (SOD-882 package).
Among its attributes, the SMP1330-040LF has a low series inductance of 0.45 nH and a diode capacitance maximum of 1 pF, which facilitate its application in high-frequency circuits. The part operates within a temperature range of -55 °C to 175 °C, ensuring reliability under various environmental conditions. This diode is compatible with a peak reflow temperature of 260 °C for a maximum duration of 40 seconds, aligning with standard PCB assembly processes.
With certifications for lead-free and RoHS compliance, the SMP1330-040LF meets modern environmental safety standards. These certifications bolster its applicability in global markets adhering to strict hazardous substance regulations.
Industry Applications for SMP1330-040LF
The SMP1330-040LF is suitable for several industries due to its robust design and electrical properties. Here are some potential applications, keeping in mind these applications need to be validated by engineering teams:
- Telecommunications: Due to its high-frequency performance, the SMP1330-040LF might be employed in RF signal switching within base stations or network infrastructure. Its small package and high temperature tolerance can be critical in the dense, heat-sensitive environments of telecom equipment racks.
- Consumer Electronics: In consumer electronics, particularly in wireless communication devices such as smartphones or portable radios, the SMP1330-040LF could potentially be used in the antenna switching circuitry. Its small footprint and high power handling capability support compact, high-performance design requirements.
- Aerospace and Defense: The outstanding temperature range and reliability might make this diode a candidate for military communication devices and aerospace applications, where parts need to function flawlessly under extreme conditions.
- Electronic Manufacturing: In testing and measurement equipment used during the manufacturing of electronic components and devices, SMP1330-040LF may be utilized for its precise electronic switching capabilities and reliability over a broad range of operating conditions.
Note: The above potential applications are conceptual and further analysis and verification by design and engineering teams are essential to ensure compliance with specific industrial standards and application requirements.
About Skyworks Solutions Inc.
Skyworks Solutions Inc. is a prominent player in the semiconductor industry, specializing in creating innovative analog semiconductors. Within the realm of PIN Diodes, Skyworks offers a broad array of parts, including the SMP1330-040LF, which underscore their capability in RF and microwave applications. The company’s focus on reliability, performance, and compliance with environmental standards is evident in their extensive product offerings, which cater to a wide range of technological needs across diverse industries.
Where to Find SMP1330-040LF by Skyworks Solutions Inc
To purchase the SMP1330-040LF, utilize platforms such as findchips.com. Here, current stock levels and prices from multiple distributors can be compared to ensure the best purchase. Historically, distributors like CHIPMALL.COM LIMITED, Richardson RFPD, Verical, Mouser Electronics, and DigiKey have stocked this part. Use the links on Findchips to navigate directly to these distributors’ websites, as real-time availability may vary.
In addition to sourcing the SMP1330-040LF, it is advisable to explore other similar offerings from Skyworks Solutions Inc. or different manufacturers by searching through the PIN Diodes category on Findchips for comparative analysis and potentially more suitable alternatives.