Low-Temp Dry Bath

Low-temperature calibration bath −35°C to 100°C. Ambient-start design for RTD calibration in field and laboratory conditions. ±0.01°C stability. Get a quote.

Liquid calibration baths are precision thermal vessels filled with temperature-stable liquids (ethanol, methanol, oil, water-glycol blends) used to calibrate and verify temperature sensors. The liquid surrounding sensors provides uniform thermal contact—unlike dry blocks that rely on point contact. This makes liquid baths the primary standard for sensor calibration. Indeecon offers four core models covering -100°C to +270°C with stability down to ±0.005°C, meeting ISO/IEC 17025 and NABL calibration laboratory requirements.

Key Specifications

Temperature: -35°C to 100°C
Electronic refrigeration; No liquid mess
Stable control for repeatable results
Suitable for RTD, thermocouple and probe calibration
Compact bench-top configuration

Key Features

Dual-Stage Cascade Refrigeration: Achieves -100°C for cryogenic applications with exceptional stability
Precision Stability: ±0.005°C to ±0.020°C across entire temperature range
Uniform Temperature Distribution: ±0.010-0.030°C uniformity enables simultaneous multi-sensor calibration
High-Torque Variable-Speed Stirrer: Vertical laminar flow design prevents mixing turbulence and thermal gradients
Vacuum-Insulated Observation Port: Frost-free viewing windows maintain performance in cryogenic environments
Large Calibration Capacity: Accommodate 10-15 sensors simultaneously vs. 2-3 in dry blocks
Intelligent Level Control: Safety circuits prevent oil expansion overflows and dry-run protection
Temperature Display: Digital readout with 0.1°C resolution across all models
NABL Calibration Ready: ISO/IEC 17025 uncertainty budget pre-certified
Dual-Stage Cascade Refrigeration: Advanced cascade refrigeration cycle achieves -100°C deep cryogenic temperatures with exceptional stability, enabling calibration of cryogenic sensors used in aerospace and research applications.
Advanced Stirring Technology: High-torque, variable-speed stirrer with vertical laminar flow prevents mixing turbulence, ensuring uniform temperature across 10-15 sensors simultaneously—impossible with dry-block systems.
Vacuum-Insulated Observation Ports: Frost-free viewing windows in cryogenic models allow real-time sensor monitoring without condensation, critical for unattended long-duration calibration runs.
Intelligent Level Control & Safety: Automatic level monitoring prevents oil expansion overflows, dry-run pump damage, and system shutdown during thermal cycling. Critical for overnight/weekend calibration operations.
Indeecon combines advanced refrigeration engineering with precision thermal stability. Our cascade refrigeration technology delivers -100°C cryogenic capability, while our variable-speed stirrer ensures uniform distribution. All units come NABL-ready with ISO/IEC 17025 traceability and are backed by comprehensive technical support for laboratory accreditation.

Applications

Temperature Sensor Calibration (RTD, Thermocouple, NTC, PT1000)
Industrial Thermometer Verification
Data Logger & Temperature Indicator Calibration
Medical Thermometer Testing (Ear, Oral, Infrared)
Aerospace & Defence Sensor Certification
Pharmaceutical & Food Safety Testing
Research Laboratory Experiments
Educational Demonstrations (Physics, Chemistry)
ISO/IEC 17025 Calibration Service Labs

Compliance Standards

ISO/IEC 17025 (NABL Calibration Readiness)
ITS-90 (International Temperature Scale of 1990)
NIST Traceability (Through international calibration networks)
ISO 5725 (Measurement Repeatability & Reproducibility)
IEC 61010-1 (Laboratory Equipment Safety)
IS 1286 (Thermometers - General Requirements)

Safety Features

Over-temperature protection and controller safety limits
Electrical safety protections for heater and controller

Optional Features

Custom inserts and probe holders
Reference probe integration support
Data logging and documentation support

How It Works

Select the temperature setpoint on the controller
Allow stabilisation at the required setpoint
Insert probe/sensor into the calibration zone
Compare readings against reference standard
Record results for calibration traceability and reporting

Datasheets & Resources

Temperature Range
Stability / Uniformity

Frequently Asked Questions

What's the difference between L-CRIO-100 and L-ULT-80?

L-CRIO-100 reaches -100°C with ±0.005°C stability for ultra-cryogenic applications. L-ULT-80 reaches -80°C with ±0.010°C stability. Choose based on your lowest required temperature.

Can I calibrate multiple sensor types simultaneously?

Yes. The liquid bath accommodates RTDs, thermocouples, NTC thermistors, and other sensors simultaneously. All immersed sensors stabilize to the same temperature.

How do I avoid oil degradation in the L-OIL-270 model?

Use premium synthetic silicone oils (food-grade or laboratory-grade). Indeecon recommends oil change every 2 years or 2000 hours, whichever comes first. We supply certified oils.

Can the baths be integrated with data logging systems?

Yes. All models feature digital temperature outputs (RS-232 / Modbus TCP available). Integration with LIMS and calibration software is straightforward.

Schedule a Calibration Bath Demonstration

See precision calibration in action—contact our calibration specialists

Related Guides

Continue your evaluation with the most relevant master pages, comparison guides, and technical resources for this product family.

Calibration Equipment Guide — Dry block calibrators and liquid baths — equipment families, temperature ranges, and selection factors.
Temperature Calibration Guide — Traceability, uncertainty, and temperature calibration fundamentals.
Calibration Selection Guide — Select equipment by range, stability, and application constraints.
Dry Block vs Liquid Bath — Compare portability, accuracy, immersion, and temperature coverage.