Description
TRICONEX 3625C1 Digital Input Module
TRICONEX 3625C1 analog module supports 8-channel input or output, and the new 4-channel analog input module provides 16 bit resolution of Ma and VDC signals. I/O modules are automatically discovered and added/removed. This module has an input power of 8 to 32VDC. I/O includes 6 (6) 8-32VDC inputs -2 (2) independent field selection sinking or procurement in addition to providing high-speed counting at 40 kHz; Two 10 bit analog channel fields can be selected from 0-5VDC, 0-10VDC, or 0-20MA; Six (6) digital/pressurized water pipe outputs rated at four (4) amperes, each with automatic overcurrent safety and programmable status monitoring.
TRICONEX 3625C1 batteries containing lithium will be utilized in electric vehicles, energy storage systems and a range of consumer electronics. The lithium mine has an expected lifespan of 26 years and is situated in the James Bay area of Quebec, Canada, in close proximity to the Nemaska Cree community. The mine will extract ore from one of the most abundant (by both volume and quality) deposits of lithium pyroxene diorite in the world. The hydroponic facility will be sited in Shawinigan, Quebec, at a distance of about 600 kilometres from the mine. Nimaska Lithium’s proprietary technique will be employed to transform ore into the significantly sought-after lithium hydroxide and carbonate.
TRICONEX 3625C1 is allowing Nemaska to utilise artificial intelligence and predictive analytics beyond the acceleration phase.Nemaska’s integrated approach also allows the use of artificial intelligence and predictive analytics beyond the acceleration phase of the project.”After all deliveries have been made, ABB will maintain collaboration with Nimaska Lithium to guarantee that its operational, productivity, energy efficiency, and safety objectives are achieved throughout the mine’s lifespan.Continuing a history of innovation that spans more than 125 years, today abb is writing the future of industrial digitisation and driving energy and the fourth industrial revolution.