MAX4619 (8)
MAX4619 is available from Maxim Integrated at Xecor. Designed for high-speed, low-voltage CMOS analog multiplexing and switching, the MAX4619 offers fast switching times (15ns tON, 10ns tOFF), low on-resistance (10Ω max at +5V supply), and single-supply operation from +2V to +5.5V. Available in a 16-PDIP package, it is ideal for audio/video signal routing, battery-powered applications, communication systems, and low-voltage data acquisition. Whether used in telecommunications, industrial automation, or portable devices, this series ensures reliable performance, low power consumption, and high signal integrity for demanding applications. Xecor is an authorized distributor for Maxim Integrated. Please view our extensive selection of the MAX4619 series below.
| Part Number | Description | Package | Inventory | Add To Bom |
|---|---|---|---|---|
| MAX4619CSE | Robust digital-to-analog conversion enables precise control over signal flow and routing | SOIC-16 | 6,688 | |
| MAX4619ESE+ | Tube of Analog Switches with Triple SPDT 16-Pin SOIC | 16-SOIC | 8,032 | |
| MAX4619CPE+ | With its low-voltage design, this Analog Switch IC provides efficient and reliable signal routing | 16-PDIP | 5,100 | |
| MAX4619CSE+T | 6-Pin SOIC N T/R, | SOIC-Narrow-16 | 7,275 | |
| MAX4619CUE+ | Reliable and Efficient Digital Signal Process | TSSOP-16 | 7,469 | |
| MAX4619CSE+ | Robust digital-to-analog conversion enables precise control over signal flow and routing | SOIC-16 | 3,493 | |
| MAX4619EUE+T | Renowned for its exceptional speed and voltage optimization | TSSOP-16 | 2,711 | |
| MAX4619ESE+T | Analog Switch ICs High-Speed, Low-Voltage, CMOS Analog Multiplexers/Switches | SOIC-Narrow-16 | 3,516 |
Key Featrues
Fast Switching Times (15ns tON, 10ns tOFF): The MAX4619CPE+ offers rapid switching times, enabling high-speed signal routing and reducing latency in applications such as communication systems and data acquisition. This feature enhances performance in time-sensitive operations.
Low On-Resistance (10Ω max at +5V): With a guaranteed low on-resistance, the device minimizes signal loss and distortion, making it ideal for audio/video signal routing and low-voltage applications. This ensures efficient signal integrity and reduces power consumption.
Single-Supply Operation (2V to 5.5V): The ability to operate on a single low-voltage supply makes the MAX4619CPE+ suitable for battery-powered and portable devices, extending its use cases to energy-efficient and compact designs.
TTL/CMOS-Logic Compatibility: Compatibility with TTL and CMOS logic levels ensures seamless integration into a wide range of digital systems, simplifying design and improving versatility in mixed-signal applications.
Low Crosstalk and High Off-Isolation (< -96dB): The device provides excellent signal isolation, minimizing interference between channels. This feature is critical in high-fidelity audio and precision measurement systems, ensuring accurate and clean signal transmission.
Low On-Resistance (10Ω max at +5V): With a guaranteed low on-resistance, the device minimizes signal loss and distortion, making it ideal for audio/video signal routing and low-voltage applications. This ensures efficient signal integrity and reduces power consumption.
Single-Supply Operation (2V to 5.5V): The ability to operate on a single low-voltage supply makes the MAX4619CPE+ suitable for battery-powered and portable devices, extending its use cases to energy-efficient and compact designs.
TTL/CMOS-Logic Compatibility: Compatibility with TTL and CMOS logic levels ensures seamless integration into a wide range of digital systems, simplifying design and improving versatility in mixed-signal applications.
Low Crosstalk and High Off-Isolation (< -96dB): The device provides excellent signal isolation, minimizing interference between channels. This feature is critical in high-fidelity audio and precision measurement systems, ensuring accurate and clean signal transmission.
Applications
Audio/Video Signal Routing: The MAX4619CPE+ is ideal for routing audio and video signals in multimedia systems, home theaters, and professional AV setups. Its high-speed switching and low-voltage operation ensure minimal signal distortion and high fidelity, making it suitable for applications requiring precise signal management and low crosstalk.
Battery-Powered Applications: The MAX4619CPE+ is well-suited for battery-powered devices such as portable medical instruments, handheld test equipment, and IoT devices. Its low-voltage operation (2V to 5.5V) and low power consumption ensure extended battery life, while its fast switching times maintain performance in energy-efficient designs.
Communication Systems: The MAX4619CPE+ is an excellent choice for signal routing and switching in communication systems, including RF front-ends, base stations, and network switches. Its low on-resistance and high off-isolation ensure reliable signal integrity, making it ideal for high-frequency and low-voltage communication applications.
Low-Voltage Data Acquisition: The MAX4619CPE+ is perfect for low-voltage data acquisition systems, such as those used in industrial automation and environmental monitoring. Its TTL/CMOS-logic compatibility and low leakage current ensure accurate signal routing and minimal interference, making it suitable for precision measurement and control applications.
Battery-Powered Applications: The MAX4619CPE+ is well-suited for battery-powered devices such as portable medical instruments, handheld test equipment, and IoT devices. Its low-voltage operation (2V to 5.5V) and low power consumption ensure extended battery life, while its fast switching times maintain performance in energy-efficient designs.
Communication Systems: The MAX4619CPE+ is an excellent choice for signal routing and switching in communication systems, including RF front-ends, base stations, and network switches. Its low on-resistance and high off-isolation ensure reliable signal integrity, making it ideal for high-frequency and low-voltage communication applications.
Low-Voltage Data Acquisition: The MAX4619CPE+ is perfect for low-voltage data acquisition systems, such as those used in industrial automation and environmental monitoring. Its TTL/CMOS-logic compatibility and low leakage current ensure accurate signal routing and minimal interference, making it suitable for precision measurement and control applications.
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