MAX351 (6)
MAX351 is available from Analog Devices at Xecor. Designed for precision analog switching, the MAX351 offers low on resistance (<35Ω), guaranteed channel-to-channel matching (<2Ω), and flat on resistance over the analog signal range (Δ3Ω max). Available in a 16-SOIC package, it is ideal for battery-powered applications, communication systems, guidance and control systems, and test equipment. Whether used in military radios, sample-and-hold circuits, or heads-up displays, this series ensures high performance, reliability, and efficiency for demanding applications. Xecor is an authorized distributor for Analog Devices. Please view our extensive selection of the MAX351 series below.
| Part Number | Description | Package | Inventory | Add To Bom |
|---|---|---|---|---|
| MAX351CPE+ | Compact PDIP package with reliable operation from -°C to C | PDIP-16 | 5,206 | |
| MAX351CSE+ | MAX351CSE offers top-notch performance for your circuitry | SOIC-16 | 4,022 | |
| MAX351CSE+T | High-performance quad analog switch for precision signal routing and control applications | SOIC-Narrow-16 | 2,561 | |
| MAX351ESE+T | Analog switch ICs with precision and quad design | SOIC-Narrow-16 | 7,328 | |
| MAX351ESE+ | This ROHS-compliant product ensures environmental compliance | SOIC-Narrow-16 | 3,965 | |
| MAX351EPE+ | High-performance MAX351EPE+ for quad SPST switching | PDIP-16 | 3,225 |
Key Featrues
Low On Resistance (< 35Ω): The MAX351/MAX352/MAX353 series offers low on resistance, typically less than 22Ω and guaranteed to be below 35Ω. This feature minimizes signal attenuation and distortion, making these switches ideal for high-precision applications such as sample-and-hold circuits and communication systems.
Matched On Resistance Between Channels (< 2Ω): The switches ensure that the on resistance between channels is matched within 2Ω. This tight matching enhances signal integrity and accuracy in multi-channel applications, such as test equipment and guidance and control systems.
Flat On Resistance Over Analog Signal Range (Δ3Ω Max): The on resistance remains flat over the entire analog signal range, with a maximum variation of 3Ω. This consistency ensures reliable performance across different signal levels, crucial for applications like battery-powered devices and military radios.
Fast Switching (Turn-On < 175ns, Turn-Off < 145ns): With fast switching times, these switches can handle rapid signal changes efficiently. This feature is particularly beneficial in high-speed applications such as heads-up displays and PBX/PABX systems, where quick response times are essential.
Low Leakage Current (< 250pA at +25°C, < 6nA at +85°C): The switches exhibit extremely low leakage currents, ensuring minimal power loss and high efficiency. This makes them suitable for low-power and high-temperature environments, such as in communication systems and industrial control applications.
Matched On Resistance Between Channels (< 2Ω): The switches ensure that the on resistance between channels is matched within 2Ω. This tight matching enhances signal integrity and accuracy in multi-channel applications, such as test equipment and guidance and control systems.
Flat On Resistance Over Analog Signal Range (Δ3Ω Max): The on resistance remains flat over the entire analog signal range, with a maximum variation of 3Ω. This consistency ensures reliable performance across different signal levels, crucial for applications like battery-powered devices and military radios.
Fast Switching (Turn-On < 175ns, Turn-Off < 145ns): With fast switching times, these switches can handle rapid signal changes efficiently. This feature is particularly beneficial in high-speed applications such as heads-up displays and PBX/PABX systems, where quick response times are essential.
Low Leakage Current (< 250pA at +25°C, < 6nA at +85°C): The switches exhibit extremely low leakage currents, ensuring minimal power loss and high efficiency. This makes them suitable for low-power and high-temperature environments, such as in communication systems and industrial control applications.
Applications
Battery-Powered Sensor Interface: The MAX351/MAX352/MAX353 precision analog switches are ideal for interfacing with sensors in battery-powered applications, such as portable medical devices or environmental monitoring systems. Their low on-resistance and low leakage ensure minimal power consumption, while their fast switching speeds enable efficient signal routing in compact, energy-efficient designs.
Communication System Signal Routing: These analog switches are well-suited for signal routing in communication systems, such as military radios or PBX/PABX systems. Their low crosstalk and high bandwidth ensure reliable signal integrity, while their dual-supply operation allows for flexible integration into both single and dual-supply architectures.
Guidance and Control System Multiplexing: The MAX351/MAX352/MAX353 can be used in guidance and control systems to multiplex analog signals from sensors or actuators. Their matched on-resistance and flat resistance over the signal range ensure precise signal handling, making them ideal for applications requiring high accuracy and reliability, such as aerospace or robotics.
Test Equipment Signal Switching: These switches are perfect for use in test equipment, such as sample-and-hold circuits or signal generators. Their fast switching times and low charge injection ensure minimal distortion, while their TTL/CMOS compatibility allows for easy integration into digital control systems, making them suitable for high-performance testing environments.
Communication System Signal Routing: These analog switches are well-suited for signal routing in communication systems, such as military radios or PBX/PABX systems. Their low crosstalk and high bandwidth ensure reliable signal integrity, while their dual-supply operation allows for flexible integration into both single and dual-supply architectures.
Guidance and Control System Multiplexing: The MAX351/MAX352/MAX353 can be used in guidance and control systems to multiplex analog signals from sensors or actuators. Their matched on-resistance and flat resistance over the signal range ensure precise signal handling, making them ideal for applications requiring high accuracy and reliability, such as aerospace or robotics.
Test Equipment Signal Switching: These switches are perfect for use in test equipment, such as sample-and-hold circuits or signal generators. Their fast switching times and low charge injection ensure minimal distortion, while their TTL/CMOS compatibility allows for easy integration into digital control systems, making them suitable for high-performance testing environments.
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