Utilizziamo i cookie per assicurarti la migliore esperienza nel nostro sito. Questo sito utilizza i cookie, anche di terze parti, per inviarti messaggi promozionali personalizzati. Per saperne di più ed eventualmente disabilitarli, accedi alla Cookie Policy. Se prosegui nella navigazione di questo sito acconsenti all’utilizzo dei cookie.

Open-frame Platine BSD 02.V ( ADVANCED )
( 24 - 48 VDC 0.7 - 2.2 Amp ) mit Schraubverbinder

Einleitung

► New series of microstep stepping motor drives specifically developed for small and mid-size stepping motors.
► Ultra-compact and optimized design to reduce space and cost, combined with Adaptive Microstepping technology ensuring noise and vibration suppression.
► Target: simple and effective motion control solutions requiring low power, high precision, smoothness of movement and low acoustic noise.
► Ideal solution to replace integrated circuits and self-made, low power drives. The perfect choice for small routers, medical, 3D printers and all types of compact machines.

HIGHLIGHTS


► Full digital microstepping drive.
► Adaptive microstepping up to 3.200 step/rev.
► Intelligent management of the current profile that achieves good results in terms of smoothness of movement, low noise and vibration control.
► A highly sophisticated control system, preserving anyhow the traditional ease of use of R.T.A. drives.

Technische Daten

* Version: Open Frame Platine (78 x 68 x 21 mm) mit Schraubverbinder
* Versorgungsspannungsbereich: 24 - 48 VDC
* Strombereich: 0,7 - 2,2 A Einstellung von 4 Durchschnittswerten mittels Dip-Schalter
* Microstepping: 400, 800, 1.600 und 3.200 Impulse/Umdrehung, Einstellung mittels Dip-Schalter
* Verwaltung des einstellbaren Stromprofils mittels Dip-Schalter
* Automatischer Stromabfall bei stillstehendem Motor
* Schutzvorrichtungen:
- Unterspannungsschutz
- Kurzschluss-Schutz an den Motorausgängen
* Elektronische Dämpfung für die bestmögliche Lärm- und Vibrationskontrolle
* Adaptive Microstepping
* Garantie: 24 Monate


VORGESCHLAGENE MOTOREN / ENDSTUFENKOMBINATION