|Manufacturer Part Number: MAX488MJA
|Manufacturer / Brand: Analog Devices Inc
|Part of Description: SoC FPGA MAX488MJA
|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
|Pd – Power Dissipation
|Supply Current – Max
|Supply Voltage – Max
|Supply Voltage – Min
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RS-485 transceivers, including the MAX488MJA, are widely used in industrial automation systems for communication between programmable logic controllers (PLCs), sensors, actuators, and other field devices.
Building Automation Systems:
RS-485 is employed in building automation for communication between control systems, sensors, and actuators. The MAX488MJA can be used in HVAC (heating, ventilation, and air conditioning) systems, lighting control, and other building management applications.
Process Control Systems:
The transceiver is utilized in process control systems for communication between various components in a distributed control system (DCS).
In motor control applications, RS-485 communication is used for transmitting control signals between a central controller and motor drives. The MAX488MJA can be part of the communication interface in such systems.
Data Acquisition Systems:
RS-485 is commonly used in data acquisition systems for transmitting sensor data over long distances. The MAX488MJA facilitates reliable communication in these applications.
The transceiver is employed in instrumentation systems for communication between measurement instruments and data acquisition units.
Security and Access Control Systems:
The transceiver can be part of the communication network in security systems, such as access control panels and security cameras.
Solar Inverter Systems:
RS-485 communication is used in solar inverter systems for monitoring and control. The MAX488MJA can be used to establish communication between inverters and a central control unit.
RS-485 is used in telecommunications infrastructure for communication between network components. The MAX488MJA can be part of communication interfaces in networking equipment.
Energy Management Systems:
The transceiver is used in energy management systems for communication between energy meters, sensors, and control units.
In robotics applications, RS-485 communication can be used for transmitting control signals and sensor data between different components of a robotic system.
Traffic Control Systems:
RS-485 transceivers are employed in traffic control systems for communication between traffic signal controllers, sensors, and central control units.
Elevator Control Systems:
The MAX488MJA can be 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 MAX488MJA ensures reliable communication in such applications.
RS-485 communication may be used in automotive applications for communication between different vehicle components.