The P7000 drives offer unsurpassed system smoothness, functionality, performance and innovation. Available for AC(P70360) or DC(P70530) operation, these microstepping drives are designed to power 2-phase NEMA stepper motors. They offer unique features that are ideal for single or multi-axis applications requiring high-speed performance or low-speed smoothness.
Benefits
Ideal solution for single or multi-axis applications that require high-speed performance or low speed smoothness
9 programmable inputs, available indexing model and easy-to-use graphical interface simplify configuration for complex machine requirements
Integral stall detection eliminates the need for expensive external sensors or feedback, reducing system cost by up to 30%
Multistepping™ feature inserts fine micro-steps to smooth coarse low speed motion without having to redesign machine control architecture
Mid-band anti-resonance control reduces negative effects of mechanical resonance, allowing you to get more out of a smaller motor and virtually eliminating nuisance stalls and machine downtime
Dynamic smoothing quasi-S-curve algorithm reduces jerk, especially upon acceleration, increasing mechanical life and reducing energy consumption
The P7000 drives offer unsurpassed system smoothness, functionality, performance and innovation. Available for AC(P70360) or DC(P70530) operation, these microstepping drives are designed to power 2-phase NEMA stepper motors. They offer unique features that are ideal for single or multi-axis applications requiring high-speed performance or low-speed smoothness.
Benefits
- Ideal solution for single or multi-axis applications that require high-speed performance or low speed smoothness
- 9 programmable inputs, available indexing model and easy-to-use graphical interface simplify configuration for complex machine requirements
- Integral stall detection eliminates the need for expensive external sensors or feedback, reducing system cost by up to 30%
- Multistepping™ feature inserts fine micro-steps to smooth coarse low speed motion without having to redesign machine control architecture
- Mid-band anti-resonance control reduces negative effects of mechanical resonance, allowing you to get more out of a smaller motor and virtually eliminating nuisance stalls and machine downtime
- Dynamic smoothing quasi-S-curve algorithm reduces jerk, especially upon acceleration, increasing mechanical life and reducing energy consumption
