Novus Temperature Controller N1020 USB RS485 24V


  • Part #:NV-8102024100
  • Dimensions:48 x 24 mm
  • Availability: Inquire

Price: $153.00
Price: $214.20


Description

The temperature controller N1020 features advanced performance capability for the most complex and critical applications. Based on a high-end microprocessor and designed with a sophisticated auto-adaptive PID algorithm it continuously adjusts the PID parameters for best controlling performance. The programmable input and the configurable dual output along with the full range power supply, provide maximum flexibility in application. This 1/32 DIN size instrument has extremely small front dimensions of only 48 x 24 mm or 1/32nd DIN and is the right choice for controlling laboratory equipment when panel space is reduced.

Features & Specifications:

  • Switching power supply: 100 to 240 Vac/dc or 12 to 24 Vdc / 24 Vac
  • Version with RS485 serial communication
  • USB interface 2.0, CDC class (virtual communications port), USB connector: mini B, Modbus RTU protocol
  • High brightness red LED display  
  • Universal input: thermocouples, Pt100 RTD and 50 mV  
  • Self-adaptive PID control  
  • Auto-Tuning of PID parameters   
  • Dual output: 1 pulse and 1 relay  
  • Output functions: control, alarm 1, alarm 2  
  • Configurable alarms with 8 different functions  
  • Alarm inhibit function at start up  
  • Programmable timer  
  • “F” key with 3 possible functions  
  • Soft-start and ramp function  
  • Measured value offset  
  • Minimum and maximum limits for SP setting & Output value  
  • Access password for configuration protection  
  • Factory calibration settings restoration feature  
  • Silicone keypad   
  • Front panel: IP65, polycarbonate UL94 V-2, Enclosure: IP20, polycarbonate UL94 V-2  
  • CE and UL approved       

Technical Information

Optional Accessories

These Loop isolators provide signal protection by electrically isolating the input signal from the o (more...)

These Loop isolators provide signal protection by electrically isolating the input signal from the o (more...)