N5-1-4 –  Motor controller for Modbus TCP

Single Price

Volume Discount

For quantities greater than 10, please contact us for volume pricing.

Availability

  • More stock available soon.

Under „Downloads“ you will find the technical manual that corresponds with the stock firmware. Please refer to the new technical manual and the document “Instructions for Firmware Update to Version FIR-v2039” when using Plug & Drive Studio 2.
 

Technical Data

  • Interface
  • Rated Current (RMS) 10 A
  • Matching Motors Brushless DC motors, Stepper Motors 
  • Type of Digital Inputs 5/24 V switchable or 5 - 24 V 
  • Type of Analog Input -10 - +10 V / 0 - 20 mA switchable 
  • Type of Digital Output open-drain (max. 24 V/500 mA) 
  • Encoder Signal Type incremental 
  • Weight
  • Operating Voltage 12 VDC - 72 VDC
  • Peak Current (RMS) 10 A
  • Number of Digital Inputs
  • Number of Analog Inputs
  • Number of Digital Outputs
  • Encoder Input  
  • Brake Output  
  • Temperature Range -10 °C - 40 °C

Dimensions

N5-x-4 Modbus TCP
Creation in progress ...

Accessories

EB-BRAKE-48V Brake module
ZK-PADP-12-500-S Encoder Cable Contr. 0.5m
ZK-M12-8-2M-2-PADP Encoder cable angled, 2m
ZK-MCM-12-500-S-JPAD Encoder cable NME2/3 0.5m
ZK-MCM-12-2,0-S-JPAD Encoder cable NME2/3 2.0m
ZK-NOE-10-500-S-PADP Encoder cable NOE, 0.5m
ZK-NTO3-10-1000-PADP Encoder cable NTO3, 1m
ZK-NTO3-10-500-PADP Encoder cable NTO3, 0.5m
ZK-WEDL-500-S-PADP Encoder cable WEDL, 0.5m
Z-K4700/50 Capacitor
Z-K10000/100 Capacitor
ZCPHOFK-MC0,5-12  * Connector
ZCWE-RM5-6  * Clip-on Plug, 6-pin, RM 5 mm
ZCPHOFK-MC0,5-2  * Connector
ZCWE-RM5-3  * Clip-on Plug, 3-pin, RM 5 mm
* Included in the scope of delivery for N5-1-4.

Knowledge Base

The examples and the Application Note show you how the NanoJ Library simplifies the use of the CiA 402 Power State Machine. The functions of the library are contained in a single header file, which you can easily add to your NanoJ project in Plug & Drive Studio.
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Closed-loop stepper motors as an alternative to BLDC motors Stepper motor technology was long considered to be a cost-effective alternative to applications that do not demand the high performance delivered by servo motors. Due to their attractive production price and comparatively high torque-to-size ratio, they continued to be used in device engineering. For auxiliary axes in mechanical engineering, however, servo systems began to be given…
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