Q: What are the key features of the Moxa MGate EIP3170I-T?
A: The Moxa MGate EIP3170I-T is a 1-port EtherNet/IP-to-DF1 gateway designed for industrial applications. It features 2 kV isolation to protect against electrical interference and operates in a wide temperature range from -40 to 75°C, making it suitable for harsh environments. This model is part of the MGate EIP3170/EIP3270 Series, which facilitates seamless communication between EtherNet/IP and DF1 devices.
Q: How does the Moxa MGate EIP3170/EIP3270 Series enhance industrial edge connectivity?
A: The Moxa MGate EIP3170/EIP3270 Series enhances industrial edge connectivity by providing reliable protocol conversion between EtherNet/IP and DF1. This series supports both 1-port and 2-port configurations, allowing for flexible integration into existing industrial networks. The gateways are designed to ensure efficient data exchange and interoperability between different industrial devices and systems.
Q: Can the Moxa MGate EIP3170I-T be used in extreme temperature conditions?
A: Yes, the Moxa MGate EIP3170I-T is specifically designed to operate in extreme temperature conditions, with an operating temperature range of -40 to 75°C. This makes it ideal for use in environments where temperature fluctuations are common, ensuring reliable performance in both hot and cold settings.
Q: Where can I purchase Moxa products like the MGate EIP3170I-T in Australia?
A: In Australia, you can purchase Moxa products, including the MGate EIP3170I-T, from authorized resellers such as IP Trading. They offer a range of Moxa industrial connectivity solutions and can provide expert advice on selecting the right products for your specific needs.
Q: What type of isolation does the Moxa MGate EIP3170I-T provide, and why is it important?
A: The Moxa MGate EIP3170I-T provides 2 kV isolation, which is crucial for protecting the device and connected equipment from electrical surges and interference. This level of isolation helps ensure the reliability and safety of data communication in industrial environments, where electrical noise and voltage spikes can be common.