Analog Devices Inc. ADG736LBRMZ Dual SPDT Switch

The ADG736LBRMZ is a high-performance, dual single-pole double-throw (SPDT) switch manufactured by Analog Devices Inc., a leader in high-performance semiconductors for signal processing applications. This compact and versatile switch is designed for 1.8 V to 5.5 V single-supply systems, making it suitable for a wide range of applications, including data acquisition systems, communication systems, and portable devices.

Constructed with Analog Devices' proprietary iCMOS® (industrial CMOS) process, the ADG736LBRMZ offers an optimal balance of low power consumption and high switching speeds. The device features an on-resistance of typically 0.4 ohms, which remains flat over the full signal range, ensuring excellent linearity and low distortion. The on-resistance match between channels is also superb, which is crucial for maintaining signal integrity in differential signal paths.

The ADG736LBRMZ comes in a compact 10-lead MSOP (Mini Small Outline Package) that is RoHS compliant and suited for space-constrained applications. The switch's digital inputs are TTL and CMOS compatible, which simplifies interfacing with microcontrollers and other digital logic. Additionally, the switch offers a low power consumption of less than 0.01 µW in standby mode, contributing to energy efficiency in battery-powered devices.

Key features of the ADG736LBRMZ include:

• 1.8 V to 5.5 V Single Supply Operation
• Low On-Resistance (0.4 ohms typical)
• Low On-Resistance Flatness
• Fast Switching Times (t_ON 20 ns and t_OFF 10 ns typical)
• Low Power Consumption (<0.01 µW in standby mode)
• TTL/CMOS Compatible Inputs
• Dual SPDT Configuration
• 10-lead MSOP Package
• RoHS Compliant

With its robust design and excellent electrical performance, the ADG736LBRMZ is an ideal choice for designers looking to add reliable switching capabilities to their electronic systems. Whether it's for routing analog or digital signals, this switch promises consistent performance and ease of use in a variety of applications.