Brand:GE
Model:HE693RTM705
Type:RTU Master Communication Module
Operating Frequency:400 Hz – 5 kHz
Data Rate:1200 bps – 115200 bps
Protocol Compatibility:Modbus RTU, CANopen, DeviceNet
Power Consumption:Max. 10W (typ.)
Operating Temperature:-20°C to +60°C
Storage Temperature:-40°C to +85°C
Dimensions:145 mm x 115 mm x 30 mm
Weight:0.3 kg
Communication Interface:RS-485/RS-422
Operating Voltage:12V to 36V DC
The GE HE693RTM705 RTU Master Communication Module is engineered for unparalleled performance in demanding industrial environments. This state-of-the-art module ensures efficient data exchange between field devices and central control systems, enabling seamless automation across various industries.
Featuring advanced RS-485 and RS-232 communication protocols, it supports Modbus RTU, ASCII, and Binary formats, making it compatible with a wide range of industrial equipment and software systems. Its robust design withstands extreme temperatures (-40°C to +70°C) and maintains high reliability standards, ensuring continuous operation in harsh conditions.
With an operating power consumption of less than 1 watt, this module is energy-efficient, reducing operational costs without compromising on performance. The compact size (86 x 140 x 76 mm) and lightweight design (approximately 150g) make it easy to integrate into existing systems, minimizing installation and maintenance efforts.
Equipped with 8 I/O ports, the HE693RTM705 facilitates versatile connectivity options, allowing for the monitoring and control of multiple devices simultaneously. Its IP67-rated front panel and IP20 enclosure rating provide protection against dust and water ingress, ensuring reliable operation in outdoor or dusty industrial settings.
Backed by GE‘s commitment to quality and reliability, this communication module is designed to meet the stringent requirements of industries seeking dependable and efficient solutions for their automation needs. It’s an ideal choice for enhancing system performance, improving operational efficiency, and ensuring long-term reliability in critical applications.
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