Overview of VBPW34FASR by Vishay Intertechnologies
The VBPW34FASR is a PIN photodiode characterized by its specialized features for efficient performance in optoelectronic applications. This part includes a photodiode with a PIN structure, ideal for high-speed response and low capacitance, well-suited for precision light measurement. This component operates optimally at a peak wavelength of 950 nm, and is housed in a 2-pin SMD (Surface-Mount Device) package, convenient for modern compact electronic assemblies. It is also notable for its reverse breakdown voltage minimum of 60 V and a continuous reverse voltage maximum also at 60 V, ensuring robust performance in varied operating conditions. The VBPW34FASR is specifically designed to detect infrared light, which aligns with its infrared range specification.
Constructed using silicon, this photodiode ensures durability and high sensitivity to light. Its light current is nominally rated at 0.055 mA, and it operates within a temperature range of -40 °C to 100 °C, making it versatile for use in diverse environmental conditions. The device supports surface mount technology, facilitating easier manufacturing processes and integration into various electronic devices. Packaging for this component is provided in a Tape and Reel format, specifically 7 inches TR, ensuring safe and efficient handling during assembly. Additionally, this part is RoHS compliant and meets REACH regulations, affirming its conformity with current environmental standards.
Industry Applications for VBPW34FASR
The versatile specifications of the VBPW34FASR make it an excellent candidate for use across several industry sectors. Below are a few potential applications in which this photodiode could be beneficial, although these suggestions are conditional and should be verified by engineering and design teams to ensure compliance and suitability:
- Industrial Automation: In industrial settings, the VBPW34FASR might be integrated into sensor systems for position sensing or object detection due to its precise infrared detection capabilities. The robust operating temperature range can suit the industrial environment, where high durability and adaptability to extreme conditions are often required.
- Computing and Data Storage: Within computing systems, especially in data centers, this photodiode could potentially serve in optical communication interfaces or for managing light signals in fiber optic applications. Its fast response time and reliability at different temperatures are characteristics that could enhance system efficiency and signal integrity.
Please be reminded that the uses suggested here are based on the capabilities of this type of component and require proper analysis and verification for compliance with relevant industry standards and specific application requirements.
About Vishay Intertechnologies
Vishay Intertechnologies is widely recognized for its broad portfolio in the electronics industry, especially in the domain of optoelectronics. Among their offerings, Photo Diodes like the VBPW34FASR are a testament to their commitment to providing high-quality, reliable components for a vast range of applications.
Vishay’s expertise extends across various types of optoelectronic devices, ensuring that each component like the VBPW34FASR is crafted to meet rigorous standards and versatility in application. Their products are well adapted for both mainstream and niche applications, offering solutions that integrate advanced technology and innovation.
Where to Find VBPW34FASR by Vishay Intertechnologies
To purchase the VBPW34FASR or explore alternatives, findchips.com offers an extensive listing of distributors and availability. Some of the distributors where this part has historically been available include TTI Europe, Future Electronics, Mouser Electronics, and Farnell. However, it is essential to check the current stock levels and pricing at findchips.com to get up-to-date information. For exploring similar or alternate Photo Diodes parts by Vishay Intertechnologies or other manufacturers, the provided link can be particularly useful.