The MAX313CUE from Maxim Integrated is a high-performance, quad, SPST (Single Pole Single Throw) analog switch designed to deliver precision and reliability for a broad range of applications. This component is ideal for systems that require low-voltage operation and where board space is at a premium.

Key Features

• Low Voltage Operation: The MAX313CUE operates from a single +2V to +12V supply or from dual ±2V to ±6V supplies, making it versatile for various circuit configurations.
• Low On-Resistance: With a low on-resistance of 100Ω (max), this switch ensures minimal signal distortion and power loss, which is crucial for maintaining signal integrity in sensitive applications.
• Low Charge Injection: The device has a low charge injection of 10pC (max), which minimizes switching transients and is beneficial for precision analog signal handling.
• High Off-Isolation: Off-isolation of -50dB at 1MHz ensures that signals are effectively isolated when the switch is in the off state, reducing crosstalk between channels.
• Fast Switching Speeds: The MAX313CUE features tON of 120ns and tOFF of 80ns, providing quick response times for applications that require high-speed switching.
• Low Power Consumption: It has a low power consumption, which is critical for battery-powered and energy-efficient devices.

Applications

The MAX313CUE is suitable for a wide range of applications, including:

• Audio and Video Switching
• Sample and Hold Circuits
• Communication Systems
• Data Acquisition Systems
• Medical Equipment
• Battery-Operated Devices

Package and Quality

The MAX313CUE comes in a 16-pin TSSOP package, which is compact and suitable for space-constrained applications. Maxim Integrated ensures high-quality and reliability of their products, and the MAX313CUE is no exception, adhering to stringent quality control standards.

Whether you are designing a consumer electronics device, a medical instrument, or a complex industrial system, the MAX313CUE provides the performance and reliability you need to deliver a superior end product.