MITSUBISHI A1S65B-S1 Power supply unit

The MITSUBISHI A1S65B-S1 reduces downtime, provides improved process control with high resolution and high performance data sampling for increased throughput. The new Isolated Thermocouple Analogue Input Module and Isolated Resistance Temperature Device (RTD) Module provide channel-to-channel isolation to improve performance and heat exchange capabilities and reduce downtime. The more throughput you can get through your system, the more revenue you can make. These new modules utilise high performance buses to provide higher performance and advanced diagnostics. Water/wastewater, chemical manufacturing, and oil and gas thermocouple modules provide advanced temperature input capabilities for applications where control is critical.

In addition, GE offers process solutions for companies in the process industries. The cornerstone of these solutions is the Process System, a state-of-the-art, scalable, fully integrated process automation and control system. Contemporary, yet proven technology, the MITSUBISHI A1S65B-S1 provides the framework for a complete solution for process environments.
Companies using the MITSUBISHI A1S65B-S1 in process applications that require high performance thermocouple inputs to their controllers will be excited about these new modules because of the increased productivity.

The three most important factors in productivity are throughput, production and downtime. These new modules will go a long way to improving all of these areas. High-performance data sampling will provide better throughput because it processes critical sample information quickly. High resolution (11.1-16 bit) data provides better process control. The accuracy of your data is better and the resolution is higher, which directly contributes to the yield when you control these processes. The final step in productivity is downtime, and the new advanced diagnostics in these modules help to quickly clear faults and get processes back up and running so you can be more productive.

These new modules go a long way to improving each of these areas. High-performance data sampling will provide better throughput as it quickly processes critical sample information. High resolution (11.1-16 bit) data provides better process control. The accuracy of your data is better and the resolution is higher, which directly contributes to the yield when you control these processes. The final step in productivity is downtime, and the new advanced diagnostics in these modules help to quickly clear faults and get processes back up and running so you can be more efficient.