Penerangan
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.
FEATURES
P70360 AC Stepper Drives:
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P70360-SD:
Conventional step and direction interface
Dedicated inputs for jog+/-, enable and step/direction control
User-provided pulse train to rotate the motor
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P70530-PN adds to the base drive:
Indexing capability, allowing up to 63 independent, programmable moves
Modbus RTU compatibly
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P70360-R4 adds to the base drive:
Indexing capability, allowing up to 63 independent, programmable moves
Modus RTU compatibly
Adds an RS-485 interface
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Integral power supply
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Input voltage: 120 to 240 VAC (1 phase, 50/60 Hz) for a broad range of power sources
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Continuous current: 2.5 Amps; microstep peak current: 3.5 Amps
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Max shaft power: 525 W
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Speed range: 0 to 50 rev/sec
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Motor inductance: 50 to 200 mH (320 VDC BUS), 7 to 30 mH (160 VDC BUS)
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9 programmable inputs
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Easy-to-use graphical interface
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Open loop stall detection
P70530 DC Stepper Drives:
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P70530-SD:
Conventional step and direction interface
Dedicated inputs for jog+/-, enable and step/direction control
User-provided pulse train to rotate the motor
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P70530-PN adds to the base drive:
Indexing capability, allowing up to 63 independent, programmable moves
Modus RTU compatibly
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Input voltage: 20 to 75 VDC
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Continuous current: 5 Amps; microstep peak current: 7.1 Amps
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Max shaft power: 300 W
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Speed range: 0 to 50 rev/sec
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Motor inductance: 2 to 15 mH
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9 programmable inputs
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Easy-to-use graphical interface
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Open loop stall detection
Benefits:
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Ideal solution for single or multi-axis applications that require high-speed performance or low speed smoothness
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9 programmable inputs, available indexing model and easy-to-use graphical interface simplify configuration for complex machine requirements
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Integral stall detection eliminates the need for expensive external sensors or feedback, reducing system cost by up to 30%
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Multistepping™ feature inserts fine micro-steps to smooth coarse low speed motion without having to redesign machine control architecture
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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
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Dynamic smoothing quasi-S-curve algorithm reduces jerk, especially upon acceleration, increasing mechanical life and reducing energy consumption
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