MAX4530 (6)
MAX4530 is available from Analog Devices at Xecor. Designed for low-voltage, CMOS analog multiplexing and switching, the MAX4530 offers high performance, low power consumption, and flexible signal handling. Available in multiple package options, including 20-SSOP, it is ideal for applications such as audio-signal routing, automated test equipment (ATE), avionics, battery-powered systems, data acquisition, networking, and test equipment. Whether used in industrial, automotive, or telecommunications environments, this series ensures reliable performance, scalability, and efficiency for demanding applications. Xecor is an authorized distributor for Analog Devices. Please view our extensive selection of the MAX4530 series below.
| Part Number | Description | Package | Inventory | Add To Bom |
|---|---|---|---|---|
| MAX4530CWP+ | MAX4530CWP+: High-quality analog multiplexer in 20-pin SOIC package | SOIC-20 | 4,147 | |
| MAX4530EAP+ | Low-voltage CMOS analog multiplexers switches | SSOP-20 | 2,444 | |
| MAX4530CAP+ | Enable accurate data transmission with MAX45's low-voltage CMOS analog multiplexer switches featuring address latching functionality | 20-SSOP (0.209", 5.30mm Width) | 2,762 | |
| MAX4530CAP+T | Low-power consumption and high-speed switching make it perfect for battery-powered devices | SSOP-20 | 5,656 | |
| MAX4530EWP+T | Analog multiplexer with a single 8-to-1 configuration, packaged in a 20-pin SOIC with tape and reel | SOIC-20 | 6,292 | |
| MAX4530EWP+ | MAX4530EWP+ enables seamless signal routing with address latching | SOIC-20 | 3,167 |
Key Featrues
Low-Voltage Operation: The MAX4530 series operates with a single supply voltage ranging from 2V to 12V or dual supplies from ±2V to ±6V, making it ideal for low-voltage and battery-powered applications. This feature enhances energy efficiency and extends the device's usability in portable and low-power systems.
High-Speed Switching: With a maximum switch time of 150ns (tON) and 100ns (tOFF), the MAX4530 ensures rapid signal routing, which is critical for high-speed data acquisition and test equipment applications. This reduces latency and improves system responsiveness.
Low On-Resistance: The device offers a low on-resistance of 75Ω (with ±5V supplies) and 150Ω (with +5V supply), minimizing signal attenuation and ensuring high signal integrity. This is particularly beneficial for audio-signal routing and precision measurement systems.
Rail-to-Rail Signal Handling: The MAX4530 supports rail-to-rail signal handling, allowing it to process signals across the full voltage range of the supply. This feature maximizes dynamic range and is essential for applications requiring high signal fidelity, such as avionics and networking.
ESD Protection: With over 2kV ESD protection per Method 3015.7, the MAX4530 is highly resistant to electrostatic discharge, enhancing its reliability in harsh environments and reducing the risk of damage during handling or operation. This makes it suitable for industrial and automotive applications.
High-Speed Switching: With a maximum switch time of 150ns (tON) and 100ns (tOFF), the MAX4530 ensures rapid signal routing, which is critical for high-speed data acquisition and test equipment applications. This reduces latency and improves system responsiveness.
Low On-Resistance: The device offers a low on-resistance of 75Ω (with ±5V supplies) and 150Ω (with +5V supply), minimizing signal attenuation and ensuring high signal integrity. This is particularly beneficial for audio-signal routing and precision measurement systems.
Rail-to-Rail Signal Handling: The MAX4530 supports rail-to-rail signal handling, allowing it to process signals across the full voltage range of the supply. This feature maximizes dynamic range and is essential for applications requiring high signal fidelity, such as avionics and networking.
ESD Protection: With over 2kV ESD protection per Method 3015.7, the MAX4530 is highly resistant to electrostatic discharge, enhancing its reliability in harsh environments and reducing the risk of damage during handling or operation. This makes it suitable for industrial and automotive applications.
Applications
Audio-Signal Routing: The MAX4530 is ideal for routing audio signals in professional audio equipment, such as mixers and audio interfaces. Its low on-resistance and high bandwidth ensure minimal signal distortion, making it suitable for high-fidelity audio applications in recording studios and live sound environments.
Automated Test Equipment (ATE): The MAX4530 is well-suited for use in automated test equipment, where it can switch between multiple test points with high precision. Its fast switching times and low power consumption make it ideal for high-speed, high-accuracy testing in manufacturing and quality control environments.
Battery-Powered Applications: The MAX4530 is perfect for battery-powered devices, such as portable medical instruments or handheld measurement tools. Its low power consumption and wide operating voltage range ensure reliable performance in energy-efficient designs, extending battery life in critical applications.
Data Acquisition Systems: The MAX4530 is an excellent choice for data acquisition systems that require multiplexing multiple sensor inputs. Its low leakage current and high channel isolation ensure accurate data collection, making it suitable for industrial monitoring and control systems where precision is paramount.
Automated Test Equipment (ATE): The MAX4530 is well-suited for use in automated test equipment, where it can switch between multiple test points with high precision. Its fast switching times and low power consumption make it ideal for high-speed, high-accuracy testing in manufacturing and quality control environments.
Battery-Powered Applications: The MAX4530 is perfect for battery-powered devices, such as portable medical instruments or handheld measurement tools. Its low power consumption and wide operating voltage range ensure reliable performance in energy-efficient designs, extending battery life in critical applications.
Data Acquisition Systems: The MAX4530 is an excellent choice for data acquisition systems that require multiplexing multiple sensor inputs. Its low leakage current and high channel isolation ensure accurate data collection, making it suitable for industrial monitoring and control systems where precision is paramount.
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