Overview of MAX487EESA+T by Analog Devices Inc.
The MAX487EESA+T by Analog Devices Inc. is a low-power transceiver for RS-485 and RS-422 communication with ±15kV ESD protection and a slew-rate-limited design to reduce electromagnetic interference (EMI). The part comes in an 8-SOIC package with dimensions that comply with the 0.150-inch lead-free, MS-012A, SOIC-8 specifications, and it operates within the industrial temperature range of -40 to 85°C.
With a pin count of 8, this component facilitates differential transmission which is crucial for high-noise environments. It provides several enhanced features including a common I/O, one receiver active under shutdown, and a tristateable receiver, making it particularly adaptable for complex multi-node communication systems. Its power specifications ensure low energy consumption with a maximum supply current of 0.4 mA and a supply voltage range of 4.75 V to 5.25 V.
As a part of the electronic parts subcategory of Line Driver or Receivers in the category of Drivers And Interfaces, the MAX487EESA+T supports robust data communication and is tailor-made for applications requiring high-speed data transmission and exceptional noise immunity. The part’s ESD protection and slew-rate limitation make it a reliable option for sensitive and critical data applications.
Noted as RoHS compliant and with a “REACH Compliance” code listing, this part assures adherence to current environmental standards and regulations, essential for international market compatibility.
Industry Applications for MAX487EESA+T
Based on its specifications and feature set, the MAX487EESA+T could potentially be valuable in a variety of industry applications where reliable, high-speed, and secure data transmission is required. Each of these uses must be thoroughly examined and verified by engineering and design teams to ensure compliance with industry standards and specific application needs:
- Industrial Automation: The device could potentially be used in control systems where long-distance data transmission is critical. Its ESD protection could be advantageous in electrically noisy industrial environments.
- Telecommunications: In networking equipment, the MAX487EESA+T might be integrated due to its ability to support differential signaling, which enhances signal integrity over long cables.
- Computing and Data Storage: Data servers and storage systems, which rely on robust data transmission systems, could possibly benefit from the low-power consumption and protected signaling features of the MAX487EESA+T.
- Consumer Electronics: Given its characteristics, this part may be suited to smart home devices that require reliable communication between multiple nodes, such as security systems and home automation networks.
It is critical to note that these potential industry applications are hypothetical and require thorough confirmation of conformity with specific applications’ demands and standards.
About Analog Devices Inc.
Analog Devices Inc., a recognized leader in the realm of semiconductor design and manufacturing, broadly covers various electronics domains, including Line Driver or Receivers and other Drivers and Interfaces. Known for quality and innovation, their products like the MAX487EESA+T embody the advanced engineering and application-focused design that Analog Devices is known for. Their expertise in creating components that meet stringent industrial demands speaks volumes about their capacity to deliver robust solutions tailored for challenging applications.
Where to Find MAX487EESA+T by Analog Devices Inc
To source the MAX487EESA+T, one of the best resources available is findchips.com. At findchips.com, users can not only locate current stock levels and pricing but also explore alternative parts within the Line Driver or Receivers subcategory from Analog Devices Inc. and other manufacturers.
Historically, the part has been available from distributors like Mouser Electronics, though availability can vary. It’s recommended to check the aforementioned website to get real-time updates on availability and purchases.