THERMYS 150 (1) - AOIP, Instrumentation de test et mesure, contrôle moteur
THERMYS 150 (2) - AOIP, Instrumentation de test et mesure, contrôle moteur
THERMYS 150 (3) - AOIP, Instrumentation de test et mesure, contrôle moteur
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THERMYS 150

picto fleche Advanced field reference thermometer / temperature calibrator

THERMYS 150 is an all-in-one high accurate documenting field reference thermometer for thermocouples (14 types), resistive probes (12 types) and thermistors with a high accuracy of up to 0.005% RDG.

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THERMYS 150 is an all-in-one high accurate documenting thermometer / temperature calibrator for thermocouples (14 types), resistive probes (12 types) and thermistors with a high accuracy:

  • Thermocouples: Up to 0.005% RDG
  • RTDs: Up to 0.006% RDG
  • Thermistors: Up to 0.006% RDG

It is designed for field and lab use for advanced temperature maintenance and use on test bench in all industries.

  • Simultaneous measurement and emission of temperature (IN / OUT)
  • Simultaneous measurement over two channels for comparison calibration (IN / IN)

The second channel can be used either for temperature generation or measurement. When used as a dual input thermometer, THERMYS 150 is the perfect tool for temperature comparison calibration and differential measurement. When the second channel is used as an output, the instrument can be used to control temperature recorders, indicators, handheld thermometers.

Using this user-friendly instrument, calibration tasks can be quickly carried out over the whole process chain. Take the 900 g documenting process calibrator to the field with you during the whole week with 10 calibration procedures stored in the device. Run the procedure after connecting the probes to the instrument (Easy connect system®) and save the results for onsite easy and quick calibration. Back to the office, you can then upload the data on a computer in order to issue customized calibration certificates with dedicated calibration software DATACAL.

Providing extended functionalities (temperature simulation, scaling, steps, synthesizer, statistical functions…) and audit trails, THERMYS 150 complies with both 21 CFR Part 11 and NADCAP Heat Treatment standards and makes advanced data exploitation and full data traceability easier.

IP 54, fully protected by an antichoc rubber holster, THERMYS 150 integrates "easyconnect" terminals and a wide backlite display that makes it easy to use in any severe or dark conditions.

THERMYS 150 has also the capability to drive baths and dry-blocks when associated with the specific cable (ref. ACL600).

Easy connection system

CALYS_Easyconnect pressed_BD

Connect your probes by simply pushing on the terminal top and insert wires of up to 3 mm or 10 AWG diameter and compensated thermocouple connectors.

Wires are held tight between two brass plates ensuring thermal stability and a very good cold junction compensation for thermocouples.

This system also enables 4 mm banana plugs and security connectors to be connected on the terminal top.

 

Specifications and performances in temperature @23°C ±5°C

Uncertainty is given in % of reading (THERMYS 150 display) + fixed value.

Resistive probes: Measurement and simulation

Sensor Range (Input and Output) Resolution Accuracy / 1 year (Measurement) Accuracy / 1 year (Simulation)
Pt50 (α = 3851) -220°C to +850°C 0.01°C 0.006% RDG + 0.04°C 0.006% RDG + 0.04°C
Pt100 (α = 3851) -220°C to +850°C 0.01°C 0.006% RDG + 0.03°C 0.006% RDG + 0.03°C
Pt100 (α = 3916) -200°C to +510°C 0.01°C 0.006% RDG + 0.03°C 0.006% RDG + 0.03°C
Pt100 (α = 3926) -210°C to +850°C 0.01°C 0.006% RDG + 0.03°C 0.006% RDG + 0.03°C
Pt200 (α = 3851) -220°C to +850°C 0.01°C 0.006% RDG + 0.04°C 0.006% RDG + 0.04°C
Pt500 (α = 3851) -220°C to +850°C 0.01°C 0.006% RDG + 0.03°C 0.006% RDG + 0.03°C
Pt1000 (α = 3851) -220°C to +850°C 0.01°C 0.006% RDG + 0.03°C 0.006% RDG + 0.03°C
Ni100 (α = 618) -60°C to 180°C 0.01°C 0.006% RDG + 0.05°C 0.006% RDG + 0.05°C
Ni120 (α = 672) -40°C to +205°C 0.01°C 0.006% RDG + 0.05°C 0.006% RDG + 0.05°C
Ni1000 (α = 618) -60°C to +180°C 0.01°C 0.006% RDG + 0.05°C 0.006% RDG + 0.05°C
Cu10 (α = 427) -50°C to 150°C 0.10°C 0.006% RDG + 0.18°C 0.006% RDG + 0.18°C
Cu50 (α = 428) -50°C to +150°C 0.01°C 0.006% RDG + 0.05°C 0.006% RDG + 0.05°C

Resistive probes measurements in 2, 3 or 4 wires: automatic recognition of number of connected wires, with indication on screen
Accuracies are given for 4-wire mounted probes
Take into account particular error of temperature sensor used and implementation conditions
Admissible measuring current: 0.01 mA to 1 mA
In simulation mode, specifications given for 1 mA measuring current (Pt50 / 100, Ni100 / 120, Cu10 / 50) or 0.1 mA (Pt200 / 500 / 1000, Ni1000)
Establishing time:  <1ms for simulation (simulation on quick transmitters)
Temperature coefficient: < 10% of accuracy /°C

Thermocouples: Measurement and simulation

Type Input range Resolution Accuracy / 1 year (Measurement) Output range Resolution Accuracy / 1 year (Simulation)
K -250 to -200°C
-200 to -120°C
-120 to +1372°C		 0.10°C
0.05°C
0.01°C		 0.50°C
0.15°C
0.005% RDG + 0.08°C		 -250 to -50°C
-50 to +120°C
+120 to +1020°C
+1020 to +1370°C		 0.01°C
0.01°C
0.01°C
0.01°C		 0.15% RDG
0.06°C
0.005% RDG + 0.05°C
0.007% RDG + 0.05°C
T -250 to -200°C
-200 to -100°C
-100 to +80°C
+80 to +400°C		 0.1°C
0. 01°C
0.01°C
0.01°C		 0.50°C
0.05% RDG + 0.06°C
0.015% RDG + 0.07°C
0.06°C		 -250 to -100°C
-100 to +0°C
+0 to +400°C		 0.01°C
0.01°C
0.01°C		 0.1% RDG + 0.05°C
0.02% RDG + 0.06°C
0.055°C
J -210 to -120°C
-120 to +60°C
+60 to +1200°C		 0.01°C
0.01°C
0.01°C		 0.15°C
0.005% RDG + 0.07°C
0.0025% RDG + 0.06°C		 -210 to +0°C
+0 to +50°C
+50 to +1200°C		 0.01°C
0.01°C
0.01°C		 0.03% RDG + 0.08°C
0.05% RDG + 0.07°C
0.005% RDG + 0.04°C
R -50 to +150°C
+150 to +550°C
+550 to 1768°C		 0.20°C
0.10°C
0.01°C		 +0.60°C
+0.30°C
+0.30°C		 -50 to +0°C
+0 to +350°C
+350 to +1768°C		 0.01°C
0.01°C
0.01°C		 0.35% RDG + 0.4°C
+0.4°C
+0.25°C
S -50 to +150°C
+150 to +550°C
+550 to +1450°C
+1450 to +1768°C		 0.20°C
0.10°C
0.05°C
0.05°C		 0.80°C
0.30°C
0.30°C
0.35°C		 -50 to +0°C
+0 to +350°C
+350 to +1768°C		 0.01°C
0.01°C
0.01°C		 0.25% RDG + 0.4°C
0.30°C
0.25°C
B +400 to +900°C
+900 to +1820°C		 0.10°C
0.05°C		 0.005% RDG + 0.4°C
0.005% RDG + 0.2°C		 +400 to +900°C
+900 to +1820°C		 0.01°C
0.01°C		 0.005% RDG + 0.4°C
0.005% RDG + 0.2°C
U -200 to -100°C
-100 to +660°C		 0.01°C
0.01°C		 +0.13°C
+0.09°C		 -200 to +400°C
+400 to +600°C		 0.05°C
0.05°C		 +0.09°C
+0.11°C
N -240 to -190°C
-190 to -110°C
-110 to +0°C
+0 to +400°C
+400 to +1300°C		 0.10°C
0.05°C
0.01°C
0.01°C
0.01°C		 0.25% RDG
0.10% RDG
0.04% RDG + 0.06°C
0.08°C
0.005% RDG + 0.06°C		 -240 to -200°C
-200 to +10°C
+10 to +250°C
+250 to +1300°C		 0.01°C
0.01°C
0.01°C
0.01°C		 0.15% RDG
+0.10°C
+0.08°C
0.008% RDG + 0.05°C

Thermocouples: PlatineL, Mo, NiMo/NiCo, G, D, L, C: For specifications, refer to the instruction manual (Available on request)
Accuracy is given for reference @ 0°C.
When using the internal reference junction (except couple B) add an additional uncertainty of 0.2 °C at 0 °C.
It is possible (thermocouple B excepted) to choose by programming the cold junction localization: External at 0°C, internal (temperature compensation of instrument’s terminals) or manually entered.
Temperature coefficient: <10% of accuracy /°C
Display unit: °C and F.

CALYS 150_Mesure de thermistances_FR

Thermistors: Measurement

With 50 Kohms range and Steinhart – Hart equation integrated, thermistors can be entered into THERMYS 150 and tested.
Steinhart-hart equation is as follows:

 1  = A + B (ln(R)) + C(ln(R))3
T

Where: A, B and C are usually calculated according to temperature at 0°C, 25°C and 70°C

Thermistors: Simulation

Simulation of thermistors up to 3600 ohms using Steinhart-hart equation

Further features

Scaling in measurement and simulation modes Scaling allows process signals to be displayed in % of FS or in all other units. This function also allows sensors to be corrected after a calibration.
Relative measurement The features allows the following :

  • Programming a reference value different from the one of the instrument (NUL function).
  • Subtracting of constant value by measuring or programming it from a measured value (TARE function).
Simulation menu Simulation value is set by entering value on keypad or by changing the specific digit with the cursor.
Square root In current measurement and simulation, this function allows taking into account a quadratic signal coming from transmitter of type ΔP.
Statistical functions Continuous display of average, minimum and maximum value of the signal under monitoring, as well as number of measurements.
Transmitters tests Transmitters can be verified using user procedures. 20 procedures can be stored as well as test results. Deviation curves are displayed.
Edition of comprehensive test reports.
Switch test In temperature mode, THERMYS 150 can control electronic thermostat and pressostat trigger levels.
Ramps generation Starting, ending and length time values of simple or cyclic ramps can be set to do simulation.
Number of ramps can also be adjusted in case of cyclic ramps for any signals.
Steps simulation 2 modes are available:

  • Program mode: Starting value, number of steps and the length time have to be set
  • Manual mode: User has about a hundred preset values

In current simulation, user will have some additional preset values in function of range and according to 0%, 25%, 50%, 75% and 100% from selected gauge. Choice is done between gauges:
0-20 mA: linear or quadratic
4-20 mA: linear or quadratic
Synthesizer With 100 values manually set, THERMYS 150 enables users to draw a generation curve.

General specifications

Size 210 x 110 x 50 mm
Weight 900 g
Display 240 x 320 pixel liquid crystal graphical display with backlite and contrast control
Display of result as table of values or trend curve
Power supply 230 V ± 10 %, 50/60 Hz
Battery Type:
Temps de charge:  h
Endurance : 5,000 mesures à 10 A
Communication ports USB
Storage capacity Up to 10 full configurations (Input / output type, range…)
10,000 data into one or several measurement campaigns, i.e. more than one week work with configurations, measurements, calibration procedures and reports

Environmental specifications

Reference range 23°C ± 5°C (RH: 45 to 75 % w/o condensing)
Operating reference range -10 to 50°C (RH: 20 to 80 % w/o condensing)
Limit operating range -15°C to +55°C (RH: 10 to 80 % w/o condensing) (70% at 55°C)
Storage temperature limits -30°C to +60°C
Maximum height 0 to 2000 m
IP protection IP54 according to EN60529

Safety specifications

Protections
  • Electronic protection up to 250 V for ‘voltage’ wires
  • Fuse protection for ‘current’ wires
  • Protection against ‘current’ circuit breaking during inductive resistance measurements
Class In accordance with EN 61010-1
Category II, pollution 2
Rated voltage 60 V
Chocks and vibrations EN 61010-1
EMC conformity Immunity:

  • EN 61000-4-2
  • EN 61000-4-3
  • EN 61000-4-5
  • EN 61000-4-6
  • EN 61000-4-11

EN 61000-4-4
Conducted and radiated emissions:

  • EN 55022, class B
  • EN 61000-3-2
  • EN 61000-3-3

Instrument:

THERMYS150        On-site high accurate documenting temperature calibrator / thermometer

Delivered in standard with:

  • User manual
  • Battery charger
  • Set of 4 testing leads
  • Carrying strap
  • Factory test report

Accessories:

AN6050                 Transport case for CALYS series

ACL9311                Set of 6 measuring cables with removable crocodile clips

ACL600                 Cable to drive temperature dry blocks and baths for CALYS 150

Please ask before for compliance with your bath/dry block

Software:

DATACAL              Calibration software for CALYS 75 / 100 / 150

Supplied with USB cable

Certification:

QMA11EN              COFRAC certificate of calibration

With all relevant data points where the device has been tested

AMS 2750              Compliance certificate to NADCAP AMS 2750 standard

Packing information:

Size                       210 mm x 110 mm x 50 mm

Weight without packing   900 g

Product Description Release Type
DATACAL

Data management software

 2.10 exe
DATACAL

Instruction manual in English

 2.7 pdf
DATACAL

Manuale d’istruzione

 2.7 pdf
THERMYS 150

Firmware

 B.09 exe
THERMYS150 FR/EN

Instruction manual

 A03