Overview of ACPL-217-500E by Avago Technologies
The ACPL-217-500E by Avago Technologies is a single-channel transistor output Optocoupler that comes in a small-outline package (SOP-4) that is RoHS compliant. This part is designed for signal isolation applications where high voltage insulation, low power consumption, and stable performance are essential. The coupling device within the Optocoupler allows signals to be transferred between two isolated circuits while keeping them electrically separated with an isolation voltage maximum rating of 3,000 volts. With a forward current of up to 50 mA and a maximum forward voltage of 1.4 volts, this photovoltaic output optoisolator is suitable for many electronic applications requiring safety and precision.
Additionally, the ACPL-217-500E supports an extensive operating temperature range from -55°C to +110°C, ensuring functionality under extreme environmental conditions. The Optocoupler is also UL approved for safety critical applications, supporting its use in regulated industries. Key attributes like a minimum common-emitter breakdown voltage of 80 V and a minimum current transfer ratio of 50% underline its efficiency in various signaling applications.
Industry Applications for ACPL-217-500E
The ACPL-217-500E by Avago Technologies might potentially be used across a variety of technical fields due to its ability to provide reliable isolation in circuit designs. Here are a few industries where this Optocoupler could potentially be beneficial:
- Industrial Automation: This Optocoupler might robustly perform in environments that require electrical noise isolation in equipment such as PLCs and sensor interfaces, where precise signal integrity is crucial.
- Telecommunications: In communication systems, signal fidelity is vital, and the use of components like ACPL-217-500E could potentially help in isolating sensitive circuits from harmful voltage spikes and surges, thus maintaining system reliability and performance.
- Consumer Electronics: Devices such as LED TVs and home appliances could potentially benefit from the isolation capabilities of ACPL-217-500E to protect control circuits from high voltages typically involved in power inputs.
- Computing and Data Storage: In data centers and personal computers, ensuring the integrity of the power supply and data signals can be critical. ACPL-217-500E might be used to isolate control pathways from the power stages in these devices, potentially improving system stability and data reliability.
- Renewable Energy Systems: In photovoltaic systems and wind turbines, where electrical isolation is required between high-power circuits and low-voltage controller circuits, this Optocoupler might be considered for effective separation, contributing to safer and more reliable operations.
Note that these potential industry applications are only conceptual/illustrative and require analysis and verification by engineering and design teams for adherence to industry standards and specific application requirements.
About Avago Technologies
Avago Technologies, today known as Broadcom Inc., has been a significant player in the field of semiconductor solutions. Their expertise in the development of Optocoupler devices and broader fields within Optoelectronics is well recognized in the industry. Avago Technologies not only offers devices like the ACPL-217-500E but also a range of similar parts that serve various electronic signal isolation needs. Known for their reliability, precision, and efficiency, their products are widely adopted across high-tech industries including telecommunications, computing, consumer electronics, and industrial automation.
Where to Find ACPL-217-500E by Avago Technologies
To purchase the ACPL-217-500E, findchips.com serves as an excellent resource. Use this link to search for alternate parts to ACPL-217-500E that might be offered by Avago Technologies or other manufacturers. While historically the part was available through distributors such as LCSC and Chip 1 Exchange, current stock levels and pricing can vary and should be checked on findchips.com.