The ADG507AKN is a high-performance monolithic CMOS analog multiplexer from Analog Devices Inc., a leading innovator in precision high-performance integrated circuits. This device is designed to connect one of eight inputs to a common output, depending on the state of the select inputs. Its exceptional design ensures superb accuracy and low power consumption, making it an ideal choice for a wide range of data acquisition systems and test equipment.

Features and Benefits

• High Precision: The ADG507AKN boasts a precise channel-to-channel matching and very low on-resistance, which remains consistent over the full analog signal range, ensuring accurate signal handling.
• Low Power Consumption: With CMOS technology, the power requirements are minimal, making it suitable for battery-powered and portable devices without compromising performance.
• Wide Signal Range: The multiplexer can handle a wide range of analog signals, from the supply rail to the negative power supply, providing flexibility in various applications.
• Break-Before-Make Switching: This feature prevents momentary short circuits when switching between channels, enhancing the reliability of the device.
• Plug-In Replacement: The device is designed to be a direct replacement for the industry-standard DG507A, facilitating easy upgrades or design substitutions.

Applications

• Data Acquisition Systems
• Battery-Powered Systems
• Communication Systems
• Test Equipment
• Sample-Hold Systems

Technical Specifications

The ADG507AKN operates with a dual power supply ranging from ±4.5V to ±18V or a single supply from 9V to 36V. It features a typical on-resistance of 80 ohms and an on-resistance flatness of 6 ohms over the entire analog input range. The device is available in a 28-pin DIP package, ensuring compatibility with standard breadboards and sockets for easy integration into various circuits.

With its robust design and reliable performance, the ADG507AKN from Analog Devices Inc. is a versatile component that meets the stringent requirements of high-end analog signal switching.