6410-001-C-H-K Pacific Sentic Servo Drive

Description

6410-001-C-H-K Pacific Sentic Servo Drive

6410-001-C-H-K Pacific Sentic Servo Drive

The 6410 is designed for use with Pacific Scientific’s line of hybrid stepper motors or most other 2 phase stepper motors. The drive works with either the standard line or the enhanced high performance line of stepper motors. The motor winding current rating must be compatible with the output current of the drive package. Refer to the Torque/Speed Curves in the Pacific Scientific “Motion Control Solutions Catalog” or contact your local Pacific Scientific distributor for sizing and motor compatibility assistance.

For optimal thermal performance and minimum panel usage, mount the 6410 bookcase style to a cooling plate (typically an Aluminum plate or heatsink with enough thickness and surface area to maintain the 6410’s chassis below 60°C ) using two M4 or 6-32 screws inserted through the mounting slots on the back of the unit. Use a thermal pad or grease if surface is irregular. The maximum temperature of the 6410’s back plate must be held below 60°C.

The graph of 6410 power dissipation vs. current setting shown below may be used to design the cooling plate or direct measurements can be taken during normal operations and adjustments made to plate area or airflow over the plate if necessary. Make sure that any difference between the ambient temperature during the measurement and worst case ambient temperature is accounted for. The 6410 can also be mounted with its side against the cooling plate using 4 M4 or 6-32 screws if mounting depth is of greater concern than panel area. The same thermal considerations apply as for back mounting.

Due to the slow transmission speed and low efficiency of traditional bus control methods, only a common fault area can be shared, and only one call can be made at the same time. This directly restricts the availability of the control system during the production process. Once a control network failure occurs during the production process, it will result in the inability to operate and monitor the oxygen production equipment, leading to a major accident shutdown of the oxygen production equipment. Therefore, our factory has built a MESH network to meet production needs.
When constructing a Mesh network, workstations, control processors, and I/O cards need to be directly connected to the same network, and all stations have redundant Ethernet communication; Redundancy of the power system, controller, and network equipment can achieve undisturbed switching, facilitating fault detection and handling; The fieldbus adopts FCP270 controller and uses FBI (Field Bus Isolation Component) for signal and electrical isolation; The FBM is hung on the bus through the FBI, providing interfaces for the control processor and field sensors/actuators, and communication between them is completed through redundant field buses.

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