The chip is a 132-pin device, surface mount CMOS technology and powered by 5 volts. The motion processor is driven by a host microprocessor through an asynchronous bi-directional serial port, giving users the ability to offload resource intensive motion control functions from the application's host. With over 130 commands, the MC3110 instruction set offers flexibility and versatility for application programming.
The MC3110 provides user-selectable profiling modes including S-curve, trapezoidal and velocity contouring. Driven by the host microprocessor, the motion control chip accepts input parameters such as position, velocity and acceleration to generate the trajectory. In addition, the chip also has a pre-programmed PID filter with feed forward velocity and acceleration that can be scaled and a bias offset. The MC3110 supports a 32-bit position error. Trace capabilities provide designers with on-the-fly data storage for analyzing system performance, tuning servo filters, and performing maintenance and diagnostics. The motion processor accepts feedback from an incremental encoder, or from an absolute encoder or resolver, to read the current axis position. In addition, the chip supports 16-bit DAC or 10-bit, 20 kHz PWM compatible output signals.
Multiple breakpoints offer precise sequencing and control of events by the application program. PLC-style instructions are provided which operate on inputs and set outputs. The instructions use Event, Activity and Signal registers. Input signals include two limit switches (one for each direction of travel), home indicator and a general-purpose programmable input. One general-purpose programmable output signal is provided. Eight general-purpose analog (0-5 V) and 256 (16-bit wide) general-purpose discrete inputs/outputs are also available.
Using Pilot chip-based, motion control solutions help designer engineers keep costs down while maintaining control over the project's design. With the Developer's Kit (DK3110), an integrated evaluation board and software package, development time is often reduced because applications programming can be initiated concurrent with board design. Applications and technical support are available from PMD technical service throughout the life of the project.