The Bosch Rexroth Indramat CSH01.1C-CO-EN2-EN2-MA1-S2-S-NN-FW from the CSH Advanced Controllers series offers a highly modular control solution tailored for sophisticated motion applications. This Advanced Control System features Master Communication: CANopen/DeviceNet alongside a RS232 serial interface, enabling seamless integration into existing automation networks. It supports a Primary Encoder Option: EnDat 2.1/1 Vpp/TTL and is compatible with HSF-interface encoder modules for absolute and incremental feedback. The unit is engineered for single-axis configurations and provides Analog Outputs: 2, 0 to 4 digital outputs, and a dedicated 1 digital input for versatile I/O connectivity.
Short cycle times are a cornerstone of the CSH01.1C, delivering a current control time of 62.5–125 μs that enhances dynamic response and tightens speed, velocity, and current loop regulation. Plug-in module support—including CANopen, DeviceNet, and Sercos interface modules and the optional CD X61 CANopen module—extends functionality without altering the core control section. Emulation capabilities for both incremental and absolute encoders simplify retrofits, while the robust firmware ensures deterministic performance even under high-throughput conditions. The flexible design allows seamless adaptation to IndraDrive power sections and various external modules, streamlining maintenance and upgrades.
Engineers benefit from the system’s compact form factor and advanced firmware features that minimize commissioning time and optimize machine uptime. With its blend of high-precision feedback, low-latency control loops, and broad module ecosystem, the CSH01.1C-CO-EN2-EN2-MA1-S2-S-NN-FW is ideal for machine tools, packaging lines, printing presses, and food-processing equipment. This controller elevates position and speed control to meet the demands of modern automation, delivering reliable, high-performance operation across diverse industrial environments.
Analog Outputs
2
Master Communication
CANopen/DeviceNet
Primary Encoder Option
EnDat 2.1/1 Vpp/TTL