New 1-Axis Controller with internal 800W sine drive from Galil

It uses a 32-bit RISC processor to provide higher speed than older models. The DMC-30012 features an internal 800-Watt brushless sine drive which minimizes space, cost and wiring



The DMC-30012 Series is Galil's latest generation single-axis motion controller. It uses a 32-bit RISC processor to provide higher speed than older models. The DMC-30012 features an internal 800-Watt brushless sine drive which minimizes space, cost and wiring .The motion controller operates stand-alone or can be networked to a PC via Ethernet. Features include:

• Single-axis motion controller with on-board 800 W brushless sinusoidal servo amplifier; 10 A cont.,15 A peak at 20-80 VDC rated
• Two daisy-chainable Ethernet 100 Base-T ports. One 115kbaud RS232 port
• Ethernet supports multiple masters and slaves. TCP/IP, UDP and Modbus TCP master protocol for communication with I/O devices
• Encoder feedback up to 15 MHz. Quadrature standard; SSI and BiSS encoder option. Main and auxiliary encoder inputs
• Non-volatile memory for programs, variables and arrays
• Concurrent execution of four programs
• Optically isolated forward and reverse limit inputs and homing input 8 uncommitted, isolated inputs and 4 isolated outputs
• High speed position latch and output compare
• 2 uncommitted analog inputs and 1 uncommitted analog output

Information on the DMC-30012 Motion Controller can be viewed at: https://www.servo2go.com/product.php?ID=105334&cat=

Featured Product

Festo - Complete Mechatronics Motion Solutions

Festo - Complete Mechatronics Motion Solutions

Mechatronic Motion Solutions from Festo is a unique system of components, modules, and software. It integrates all types of pneumatic, servopneumatic and (electro)mechanical automation motion and combines them according to your task. Irrespective of the control system environment you use, Mechatronic Motion Solutions always provides the appropriate interfaces. The fingers can be actively moved and their strength amplified; the operator's hand movements are registered and transmitted to the robotic hand in real time. The objectives are to enhance the strength and endurance of the human hand, to extend humans' scope of action and to secure them an independent lifestyle even at an advanced age.