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Easy
to Use: |
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Setup
through a simple PC program |
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Operate
the motor through PC program
or use stand-alone. |
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Speed
control: High-resolution
for accuracy and precision
with or without load (.02%-.08%
depending on motor speed
and number of poles) |
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Low
Jitter: Typically <1uS |
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Motor
speed: Maximum 30K RPM |
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Programmable
motor power supply |
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0-24V,
0-4A output |
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Better
than +/-1% Voltage Output Adjustment
Accuracy |
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Over-current
and lock rotor protection:
Virtually eliminates motor
or driver damage. |
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Unique
design: |
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All-digital
design. No pots to adjust. |
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Unidirectional
motor quick start: No reverse
motor rotation. |
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Constant
current ramp for short start
time and motor protection. |
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200
kHz PWM current regulator
for better speed control
and efficiency |
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Communication
with driver through RS232 port
allows: |
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Motor
Configuration for Speed; Motor
poles; Max drive current; Over-current
limit: start and run; Time
limit expired: start, ramp,
lock. |
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Motor
Control Commands for Run; Coast;
Brake; Stop; Clear errors;
Reset. |
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Data
Query for Run current; Speed;
State: off, starting, ramping
locking, locked, active brake,
coasting, braking; Over-current
limit error: start, run; Time
limit expired error: start,
ramp, lock. |
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Easy
integration into your test
environment: |
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Communicate
through a standard RS232 (USB
adaptor available) |
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LabVIEW
Library and example code |
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Windows
DLL. |
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Also
includes digital I/O motor
control: |
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Input
for controlling run/stop. |
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Output
to indicate speed lock/error. |
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Instrumentation
interface signals: |
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Current
sense resistor: direct differential
connection. |
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Run-current
voltage: amplified to 1Amp/Volt
Scale with analog ground. |
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Once-per-rev
index digital output. |
