OverviewLAUDA Integral XT process thermostats are a generation of industrial temperature control units designed for professional process regulation across a wide temperature span. They use a cold-oil overlay flow principle to extend the usable range of heat-transfer media and to support dynamic cooling and heating tasks.
Main product informationLAUDA Integral XT devices operate on the flow principle with a cold oil blanket, enabling operation with media across an extended temperature range. An electronically controlled, magnetically coupled pump provides an eight-stage Vario function to adapt flow for pressure-sensitive consumers and for applications with high hydraulic resistance. A modular interface concept enables extensive networking and LAUDA.LIVE remote maintenance and monitoring.
Benefits and added value- Fast cooling and heating cycles for dynamic process control
- Extended temperature range and increased lifetime of temperature-control media
- Preventive protection of pressure-sensitive consumers via eight-stage Vario pump
- Reliable performance at high pressure drops and low flow rates
Working range / Performance highlights- Minimum working temperature: down to -90 °C (model-dependent)
- Maximum working temperature: up to 320 °C
- Temperature stability: ≈ 0.05 ± K
- Cooling output and heater power vary by model (see variants list)
Operation & Connectivity- Modern TFT display on device for local operation
- Optional Command Touch operating unit with extended functions
- Modular interface concept for maximum networking (integrated webserver and interface modules)
- Prepared for LAUDA.LIVE remote diagnostics, monitoring and service
Product variants (selection) - table: Model | Min. working temp | Max. working temp | Heater power max. | Cooling output at 20 °C 50 HzIntegral IN 4 XTW | 25 °C | 320 °C | 3.5 kW | 2 kW
Integral IN 8 XTW | 25 °C | 320 °C | 8 kW | 2 kW
Integral IN 150 XT | -45 °C | 220 °C | 3.5 kW | 1.5 kW
Integral IN 250 XTW | -45 °C | 220 °C | 3.5 kW | 2.1 kW
Integral IN 280 XT | -80 °C | 220 °C | 4 kW | 1.6 kW
Integral IN 280 XTW | -80 °C | 220 °C | 4 kW | 1.7 kW
Integral IN 550 XT | -50 °C | 220 °C | 8 kW | 5 kW
Integral IN 550 XTW | -50 °C | 220 °C | 8 kW | 5.8 kW
Integral IN 590 XTW | -90 °C | 220 °C | 8 kW | 4.5 kW
Integral IN 750 XT | -50 °C | 220 °C | 8 kW | 7 kW
Integral IN 950 XTW | -50 °C | 220 °C | 8 kW | 9.5 kW
Integral IN 1590 XTW | -90 °C | 220 °C | 12 kW | 18.5 kW
Integral IN 1850 XTW | -50 °C | 220 °C | 16 kW | 20 kW
Integral IN 2040 XTW | -45 °C | 200 °C | 16 kW | 20.8 kW
Integral IN 2560 XTW | -60 °C | 220 °C | 24 kW | 25 kW
Accessories & Optional equipment (high level)- Filling and draining unit FD 50 (documentation available)
- Flow controllers FC 80 C and FC 80 MID (flow control options)
- Operating unit Command Touch and LAUDA Command App (software and brochures available)
NotesDevices are available configured for F-gases, natural refrigerants and CO2 depending on model and options. Many models offer refrigeration technology variants for natural refrigerants.
Technical specifications- Temperature range (model-dependent): from -90 °C up to 320 °C
- Temperature stability: ≈ 0.05 ± K
- Cooling output range (examples): ≈ 0.06 kW up to 25 kW depending on model
- Heater power range (examples): from 3.5 kW up to 24 kW depending on model
- Pump: electronically controlled, magnetically coupled, 8-stage Vario pump for gentle start-up and protection of pressure-sensitive consumers; adjustable for low flow / high pressure-drop applications
- Control: modern TFT display; optional Command Touch operating unit
- Connectivity: modular interface concept; LAUDA.LIVE-ready for remote diagnostics and monitoring
- Device dimensions (examples): small chassis approx. 430 x 550 x 760 mm; medium/large up to 1100 x 895 x 1865 mm (model-dependent)
- Documentation: product brochures, operating instructions, certificates and software available per model