DTI-1000 and STS-100 reference sensors0 pages
Specification Sheet
SS-CP-2290-US
temperature
Model DTI-1000 and STS-100
Reference Digital Temperature
Indicator
Wide temperature range
DTI-1000: -200 to 750°C (-328 to 1382°F)
STS-100 probe:
-150 to 650°C (-238 to 1202°F)
Improve your accuracy
DTI-1000:
accuracy to ±0.005°C (±0.009°F)
DTI-1000 + STS probe:
±0.03°C (±0.054°F) ± LSD
Reliable temperature readings
The measuring principle is a 4-wire True
Ohm Measurement, which eliminates the
EMF in cables, sockets, and sensors
PRODUCT DESCRIPTION
Wherever there is a
demand for reliable
and accurate temperature measurement, you can rely on
the JOFRA DTI-1000
reference thermometer and the JOFRA
STS reference probes;
backed on more than
50 years of experience.
Dual channel inputs
Sensor 1 and sensor 2, with differential
value 1 - 2, peak hold etc.
Minimize paperwork
RS232 communication, special calibration
and data storage software are included
Fast response time
Ensures correct monitoring of the temperature stability
Specified low drift
Maintains a minimum uncertainty budget
over the entire period between re-calibration intervals
Wide selection of probes
Including 90° angled or cable probe, and 4
mm / 0.16 in or 6.35 mm / 0.25 in, offering
flexibility in test methods and sensorsunder-test
ISO 9001 Manufacturer
Features
The JOFRA DTI-1000 with an STS-probe is a fully traceable thermometer
recommended as the reference instrument to verify the true temperature
in any type of temperature calibrator, liquid bath, or dry-block calibrator.
Use the JOFRA DTI-1000 and the STS probes as your working temperature reference in any calibration application or use the set-up directly
in custody transfer applications where high accuracy (low uncertainty)
means money.
The superior specifications combined with a long history of reliability and
low drift have made the JOFRA DTI-1000 and the STS probes the working standard in many national laboratories worldwide.
The JOFRA STS industrial temperature reference probes are built to last.
All JOFRA Superior Temperature Standard probes are economical and
offer fast response times, low immersion depths, compact physical sizes,
and specified low drift rates; even at high temperatures.