|Manufacturer Part Number: MAX487ESA+T
|Manufacturer / Brand: Analog Devices Inc
|Part of Description: SoC FPGA MAX487ESA+T
|Lead Free Status / RoHS Status: Lead free / RoHS Compliant
|Ship From: HK/Shen Zhen
|Shipment Way: DHL/Fedex/TNT/UPS
|Analog Devices Inc
|Package / Case
|Analog Devices / Maxim Integrated
|Maximum Operating Temperature
|Minimum Operating Temperature
|Factory Pack Quantity
|Supply Voltage – Min
|Supply Voltage – Max
|On Time – Max
|Off Time – Max
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RS-485 transceivers are widely used in industrial automation for communication between PLCs (Programmable Logic Controllers), sensors, actuators, and other field devices.
Building Automation Systems:
Applied in building automation for communication between control systems, sensors, and actuators. RS-485 is suitable for HVAC (heating, ventilation, and air conditioning) systems, lighting control, and other building management applications.
Process Control Systems:
Utilized in process control systems for communication between various components in a distributed control system (DCS).
Used in motor control applications for transmitting control signals between a central controller and motor drives. RS-485 is suitable for these applications due to its noise immunity.
Data Acquisition Systems:
Commonly used in data acquisition systems for transmitting sensor data over long distances. The MAX487ESA+T facilitates reliable communication in these applications.
Employed in instrumentation systems for communication between measurement instruments and data acquisition units.
Security and Access Control Systems:
Integrated into security systems for communication between access control panels, security cameras, and other security devices.
Solar Inverter Systems:
Used in solar inverter systems for monitoring and control. RS-485 communication enables data transmission between inverters and a central control unit.
Applied in telecommunications infrastructure for communication between network components. The MAX487ESA+T can be part of communication interfaces in networking equipment.
Energy Management Systems:
Used in energy management systems for communication between energy meters, sensors, and control units.
Integrated into robotics applications where RS-485 communication is used for transmitting control signals and sensor data between different components of a robotic system.
Traffic Control Systems:
Employed in traffic control systems for communication between traffic signal controllers, sensors, and central control units.
Elevator Control Systems:
Used in elevator control systems for communication between different elevator components, including control panels and motor drives.
Remote Monitoring Systems:
RS-485 is used in remote monitoring systems where data needs to be transmitted over long distances. The MAX487ESA+T ensures reliable communication in such applications.
RS-485 communication may be used in automotive applications for communication between different vehicle components.