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THERMYS 150 advanced on-site reference thermometer/temperature calibrator
THERMYS 150 is a high-precision on-site reference thermometer suitable for thermocouples (14 types), resistance probes (12 types), and thermistors, wi
Product details
THERMYS 150
Advanced on-site reference thermometer/TEMPERATURE CALIBRATOR
THERMYS 150 is a high-precision on-site reference thermometer suitable for thermocouples (14 types), resistance probes (12 types), and thermistors, with an accuracy of up to 0.005% RDG.
Thermocouple: RDG up to 0.005%
RTD: up to 0.006% RDG
Thermistor: up to 0.006% RDG
It is designed for advanced temperature maintenance on-site and in laboratories, and for use on test benches in all industries.
Simultaneously measure and discharge temperature (IN/OUT)
Compare and calibrate by measuring simultaneously through two channels (IN/IN)
The second channel can be used for temperature generation or measurement. When used as a dual input thermometer, THERMYS 150 is an ideal 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, and handheld thermometers.
A user-friendly instrument that enables rapid execution of calibration tasks throughout the entire process chain. Bring the 900 gram calibrator to the site throughout the week and store 10 calibration programs in the equipment. Connect the probe to the instrument (Easy Connect System) ®) Afterwards, run the program to perform simple and quick calibration on site and save the results. After returning to the office, you can upload data on your computer and use the dedicated calibration software DATACAL to publish customized calibration certificates.
THERMYS 150 complies with 21 CFR Part 11 and NADCAP heat treatment standards, providing extended functionality (temperature simulation, calibration, steps, synthesizers, statistical functions...) and audit tracking, making advanced data utilization and comprehensive data traceability easier.
IP 54, Fully protected by a rubber anticho case, THERMYS 150 integrates "EasyConnect" terminals and a wide window glass display, making it easy to use in any harsh or dark environment.
Easy connection system
Simply press the top of the terminal, insert a wire with a maximum diameter of 3 mm or 10 AWG, and connect the compensated thermocouple connector to connect the probe.
The wire is kept tightly between two brass plates to ensure thermal stability and provide excellent cold end compensation for the thermocouple.
The system can also be connected to a 4mm banana plug and a safety connector on the terminal.
Temperature specifications and performance @ 23 ° C ± 5 ° C
Uncertainty given in% reading (displayed on THERMYS 150)+fixed value
Resistance probe: measurement and simulation
| sensor | Scope (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 |
2, 3 or 4-wire resistance probe measurement: automatically identifies the number of wires and displays it on the screen
Accurate measurement of 4-wire installation probe
Considering the specific errors and implementation conditions of temperature sensors
Allowable measurement current: 0.01 mA to 1 mA
In simulation mode, provide a measurement current of 1 mA (Pt50/100, Ni100/120, Cu10/50) or 0.1 mA (Pt200/500/1000, Ni1000)
Establishment time:< 1ms for simulation (simulating on a fast transmitter)
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 |
Thermocouple: PlatineL,Mo,NiMo / NiCo,G,D,L,C: For specifications, please refer to the instruction manual (available upon request)
The accuracy is provided for reference at 0 ° C.
When using an internal reference terminal (excluding Group B), an additional uncertainty of 0.2 ° C is added at 0 ° C.
It can be selected through programming cold end positioning (except for thermocouple B): external 0 ° C, internal (temperature compensation of instrument terminals), or manual input.
Temperature coefficient:<10% of accuracy/° C
Display units: ° C and F
Thermistor: Measurement
The integration of a 50K Ω range and the Steinhardt Hartmann equation allows the thermistor to be input into THERMYS 150 and tested.
The Steinhardt Hart equation is as follows:
1 = A + B (ln(R)) + C(ln(R))3
T
Among them, A, B, and C are usually calculated at temperatures of 0 ° C, 25 ° C, and 70 ° C
Thermistor: Analog
Steinhardt Hart equation simulates thermistors up to 3600 ohms
Other functions
| Calibration in measurement and simulation modes | Calibration allows process signals to be displayed in FS% or all other units. This function can also enable the sensor to be calibrated after calibration. |
| relative measurement | Allow the following features: Programming different reference values from the NUL function in the instrument. Subtract a constant value by measuring or programming from the measured value (TARE function). |
| Simulation menu | Set analog values by entering numerical values on the keyboard or by changing specific numbers with the cursor. |
| square root | In current measurement and simulation, this function allows for secondary signals from Δ P transmitters. |
| STATISTICS | Continuously display the average, minimum, and maximum values of the monitoring signal, as well as the number of measurements taken. |
| Transmitter testing | The transmitter can be validated using a user program It can store 20 programs and test results Display deviation curve. Comprehensive test report version. |
| Switch test | In temperature mode, THERMOYS150 can control the triggering levels of electronic thermostats and constant voltage regulators. |
| Slope occurrence | You can set the start, end, and duration values of simple or cyclic slopes for simulation. The number of slopes can also be adjusted in any signal loop slope situation. |
| Process simulation | There are two modes to choose from: Program mode: The starting value, number of steps, and duration must be set Manual mode: Users have approximately 100 preset values In the current simulation, users will have some additional preset values within the range of functions, and will adjust them according to the selected instrument's 0%, 25%, 50%, 75%, and 100% The selection is made between the instruments: 0-20 mA: linear or quadratic 4-20 mA: linear or quadratic |
| synthesis | Manually setting 100 values, THERMYS 150 allows users to draw and generate curves. |
General specifications
| size | 210 x 110 x 50 mm |
| weight | 900 g |
| display | 240 × 320 pixel LCD graphic display backlight and contrast control The results are displayed as numerical tables or trend curves |
| power supply | 230 V ± 10 %, 50/60 Hz |
| battery | Type: Charging time: h Durability: 5000 measurements at 10A |
| communication port | USB |
| storage capacity | Up to 10 complete configurations (input/output types, ranges...) Divide 10000 data into one or more measurement activities, i.e. over a week with configuration workload, measurement, calibration procedures, and reports |
Environmental Indicators
| Reference range | 23 ° C ± 5 ° C (RH: 45 to 75% w/o conditioning) |
| Operational reference range | -10 to 50 ° C (RH: 20 to 80% w/o conditioning) |
| Extreme working range | -15 ° C to+55 ° C (RH: 10 to 80% w/o conditioning) (70% at 55 ° C) |
| Storage Temperature Range | -30 ° C to+60 ° C |
| maximum height | 0 to 2000 meters |
| ip protection | Compliant with EN60529 IP54 |
Safety regulations
| protect | Voltage protection can reach up to 250 V Fuse protection for "current" wires Prevent "current" disconnection during inductance and resistance measurement |
| Class | Compliant with EN 61010-1 Type II, pollution 2 |
| rated voltage | 60 V |
| shock and vibration | EN 61010-1 |
| EMC compliance | Anti disturbance: EN 61000-4-2 EN 61000-4-3 EN 61000-4-5 EN 61000-4-6 EN 61000-4-11 EN 61000-4-4 EN 55022, class B EN 61000-3-2 EN 61000-3-3 |
host:
THERMYS150 : On site high-precision recording temperature calibrator/thermometer
Standard delivery:
User manual
• Charger
A set of 4 testing lines
• Straps
Factory test report
enclosure:
AN6050: CALYS series transport box
ACL9311: A set of 6 detachable crocodile clip measuring cables
ACL600: ALYS 150 connects temperature dry furnace and liquid tank cable(
software:
DATACAL: CALYS 75/100/150 calibration software
Comes with USB cable
authentication:
QMA11EN: COFRAC Calibration Certificate
All relevant data points and equipment have been tested
AMS 2750: The certificate of conformity complies with NADCAP AMS 2750 standard
Packaging:
Size: 210 mm x 110 mm x 50 mm
Weight without packaging: 900 g
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