► Table documented multifunction calibrator
► CALYS 1000 is a documenting laboratory multifunction calibrator within
CALYS range.
► It is the perfect tool for advanced process maintenance and use
on test bench in all industries.
► Suitable for all field and lab measurements, it can simultaneously
measure, generate and record over two isolated channels various
signals of temperature, pressure, resistance, process and frequency
in one single instrument.
CALYS 1000 is a field documenting multifunction calibrator within CALYS range. It is the perfect tool for advanced process maintenance and use on test bench in all industries.
Suitable for all field and lab measurements, it can simultaneously measure, generate and record over two isolated channels various signals of temperature, pressure, resistance, process and frequency in one single instrument.
Providing extended functionalities (temperature simulation, scaling, steps, synthesizer, statistical functions, user-programmable configurations…), CALYS 1000 makes advanced data exploitation and full data traceability easier, as well as quick access to functions by menus.
The instrument simultaneously measures and simulates:
Temperature: Up to 0,014% RDG
Resistance: Up to 0,012% RDG, 4 kΩ range
Current: Up to 0,0175% RDG, 50 mA range + 24 V loop supply
Voltage: Up to 0,013% RDG, 50 V range
Frequency: Up to 0,005% RDG, 20 kHz range (10 kHz in simulation)
Pressure: with an external pressure module (ref. ACL433) (comparison calibration with a pressure pump).
Calibration procedures and DATACAL software
Using this user-friendly instrument, calibration tasks can be quickly carried out over the whole process chain. Take the 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 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.
Innovative and ergonomic design
Metal housing for enhanced robustness
Capacitive touch panel
USB communication
Carrying handle
Battery and main powered
Graphic screen and display resolution
CALYS 1000 allows the digit number after the dot to be selected: This function is justified by the needs of users who want or not to display the best resolution for calibration or on the contrary limit it for simple verifications.
CALYS 1000 dual display indicates permanently the measurement value, and also the emitted value, the gauge and the used functions.
On the top date, time and also external temperature are also indicated.
During measuring average, maximum, minimum and the number of measurements are displayed on the left. While for emission this part of screen displays all details of ramps, steps and constant value emission functions.
Drop-down menus are used with the navigator, and an on-line help is available to make easier connections of probes and wires.
Performances & technical specifications in temperature @23°C ±5°C
Uncertainty is given in % of reading + fixed value.
Resistive probes: Measurement and simulation
| Probe type | Range | Measurement | Emission | ||
| Resolution | Accuracy / 1 year | Resolution | Accuracy / 1 year | ||
| Pt50 (a = 3851) | -220°C to +850°C | 0.01°C | 0.012 % R + 0.06°C | 0.03°C | 0.014 % R + 0.18°C |
| Pt100 (a = 3851) | -220°C to +850°C | 0.01°C | 0.012 % R + 0.05°C | 0.02°C | 0.014 % R + 0.12°C |
| Pt100 (a = 3916) | -200°C to +510°C | 0.01°C | 0.012 % R + 0.05°C | 0.02°C | 0.014 % R + 0.12°C |
| Pt100 (a = 3926) | -210°C to +850°C | 0.01°C | 0.012 % R + 0.05°C | 0.02°C | 0.014 % R + 0.12°C |
| Pt200 (a = 3851) | -220°C to +850°C | 0.01°C | 0.012 % R + 0.12°C | 0.10°C | 0.014 % R + 0.33°C |
| Pt500 (a = 3851) | -220°C to +850°C | 0.01°C | 0.012 % R + 0.07°C | 0.03°C | 0.014 % R + 0.18°C |
| Pt1000 (a = 3851) | -220°C to +850°C | 0.01°C | 0.012 % R + 0.05°C | 0.02°C | 0.014 % R + 0.08°C |
| Ni100 (a = 618) | -60°C to +180°C | 0.01°C | 0.012 % R + 0.03°C | 0.01°C | 0.014 % R + 0.08°C |
| Ni120 (a = 672) | -40°C to +205°C | 0.01°C | 0.012 % R + 0.03°C | 0.01°C | 0.014 % R + 0.08°C |
| Ni1000 (a = 618) | -60°C to +180°C | 0.01°C | 0.012 % R + 0.03°C | 0.01°C | 0.014 % R + 0.08°C |
| Cu10 (a = 427) | -70°C to +150°C | 0.10°C | 0.012 % R + 0.18°C | 0.01°C | 0.014 % R + 0.10°C |
| Cu50 (a = 428) | -50°C to +150°C | 0.01°C | 0.012 % R + 0.06°C | 0.03°C | 0.014 % R + 0.15°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.
Temperature coefficient: < 10% of accuracy /°C
Measuring current: 0.25 mA (Measurement) or from 0.1 to 1 mA (Emission)
Settling time: < 1 ms (Simulation on quick transmitters)
Thermocouples: Measurement and simulation
| Type | Measurement | Simulation | ||||
| Range | Res | Accuracy / 1 year | Range | Res | Accuracy / 1 year | |
| K | -250 to -200°C
-200 to -120°C -120 to -0°C +0 to +1372°C |
0.2°C
0.1°C 0.05°C 0.05°C |
0.80°C
0.25°C 0.1°C 0.013 % R + 0.08°C |
-240 to -50°C
-50 to -0°C +0 to +1372°C |
0.2°C
0.1°C 0.05°C |
0.60°C
0.10°C 0.013 % R + 0.08°C |
| T | -250 to -200°C
-200 to -120°C -120 to -50°C -50 to +400°C |
0.2°C
0.05°C 0.05°C 0.05°C |
0.70°C
0.25°C 0.10°C 0.013 % R + 0.08°C |
-240 to -100°C
-100 to -0°C +0 to +400°C |
0.2°C
0.05°C 0.05°C |
0.40°C
0.10°C 0.013 % R + 0.08°C |
| J | -210 to -120°C
-120 to -0°C +0 to +1200°C |
0.05°C
0.05°C 0.05°C |
0.25°C
0.09°C 0.013 % R + 0.07°C |
-210 to -0°C
+0 to +1200°C |
0.05°C
0.05°C |
0.20°C
0.013 % R + 0.07°C |
| E | -250 to -200°C
-200 to -100°C -100 to -0°C +0 to +1000°C |
0.1°C
0.05°C 0.05°C 0.05°C |
0.45°C
0.15°C 0.07°C 0.013 % R + 0.05°C |
-240 to -100°C
-100 to +40°C +40 to +1000°C |
0.1°C
0.1°C 0.05°C |
0.25°C
0.10°C 0.013 % R + 0.05°C |
| R | -50 to +150°C
+150 to +550°C +550 to +1768°C |
0.5°C
0.2°C 0.1°C |
0.8°C
0.013 % R + 0.35°C 0.013 % R + 0.2°C |
-50 to +350°C
+350 to +900°C +900 to +1768°C |
0.5°C
0.2°C 0.1°C |
0.5°C
0.013 % R + 0.35°C 0.013 % R + 0.2°C |
| S | -50 to +150°C
+150 to +550°C +550 to +1768°C |
0.5°C
0.2°C 0.1°C |
0.80°C
0.013 % R + 0.35°C 0.013 % R + 0.25°C |
-50 to +120°C
+120 to +450°C +450 to +1768°C |
0.5°C
0.2°C 0.1°C |
0.8°C
0.013 % R + 0.35°C 0.013 % R + 0.25°C |
| B | +400 to +900°C
+900 to +1820°C |
0.2°C
0.1°C |
0.013 % R + 0.4°C
0.013 % R + 0.2°C |
+400 to +850°C
+850 to +1820°C |
0.2°C
0.1°C |
0.013 % R + 0.4°C
0.013 % R + 0.2°C |
| U | -200 to + 60°C | 0.05°C | 0.15°C | -200 to +600°C | 0.05°C | 0.15°C |
| L | -200 to +00°C | 0.05°C | 0.2°C | -200 to +900°C | 0.05°C | 0.20°C |
| C | -20 to + 900°C
+900 to +2310°C |
0.1°C
0.1°C |
0.25°C
0.013 % R + 0.15°C |
-20 to +900°C
+900 to +2310°C |
0.1°C
0.1°C |
0.25°C
0.013 % R + 0.15°C |
| N | -240 to -190°C
-190 to -110°C -110 to -0°C +0 to +1300°C |
0.2°C
0.1°C 0.05°C 0.05°C |
0.5°C
0.15°C 0.08°C 0.013 % R + 0.06°C |
-240 to -190°C
-190 to -110°C -110 to -0°C +0 to +1300°C |
0.2°C
0.1°C 0.05°C 0.05°C |
0.3°C
0.15°C 0.08°C 0.013 % R + 0.06°C |
| Pt | -100 to +1400°C | 0.05°C | 0.3°C | -100 to +1400°C | 0.05°C | 0.3°C |
| Mo | +0 to +1375°C | 0.05°C | 0.013 % R + 0.06°C | +0 to +1375°C | 0.05°C | 0.013 % R + 0.06°C |
| NiMo/NiCo | -50 to +1410°C | 0.05°C | 0.013 % R + 0.30°C | -50 to +1410°C | 0.05°C | 0.013 % R + 0.30°C |
Accuracy is given for reference @ 0°C.
When using the internal reference junction (except for couple B) add an additional uncertainty of 0.2 °C at 0 °C.
It is possible (except for thermocouple B) 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
Thermocouples G, D: Spécifications on instruction manual available on request
Specifications and performances in pressure @23°C ±5°C>
Pressure: Measurement by external digital sensor
| Ranges | 0-1 bar | 0-3 bar | 0-10 bar | 0-30 bar | 0-100 bar | 0-300 bar | 0-1000 bar |
| Absolute | X | X | X | X | X | X | X |
| Relative | X | X | X | X |
Available in relative, absolute and differential pressure.
Connector: ¼ gas
Resolution: 0.02% FS
Accuracy:
- 0.05% FS from 10 to 40°C
- 0.1% FS from -10 to +10°C and from 40 to 80°C
This digital pressure module ACL433 is connected to CALYS 1000 through RS485 serial cable to the digital input connector. All data are digital. Measurements are compensated in temperature by a polynomial correction implemented into the firmware at factory.
Performances & technical spécifications in process @23°C ±5°C
DC current: Measurement
| Range | Resolution | Accuracy / 1 year | Notes |
| 0-20 mA | 1 µA | 0.0175% RDG + 2 µA | Rin: < 25 Ω
With or without loop supply (24 V) |
| 4-20 mA | 1 µA | 0.0175% RDG + 2 µA | |
| ±50 mA | 1 µA | 0.0175% RDG + 2 µA |
For measurements of transmitter outputs, special ranges give a dual display using mA and % of full scale..
Temperature coefficient: < 10 ppm/°C beyond reference domain
Loop supply: 24 V ±10%
HART® compatibility: Input impedance Rin = 280 Ω
CALYS 1000 also allows linear or quadratic signals to be linearized.
DC current: Emission
| Range | Resolution | Accuracy / 1 year | Note |
| 24 mA | 1 µA | 0.0175% RDG + 2 µA | With or without loop supply (24 V) |
| 4-20 mA | 1 µA | 0.0175% RDG + 2 µA | |
| 0-20 mA | 1 µA | 0.0175% RDG + 2 µA |
Temperature Coefficient < 10 ppm/°C beyond reference domain
Settling time: < 5 ms
Specifications given for CALYS configurations in:
- Active mode (+24V ON) 1 Meter in passive mode (+24 V OFF)
- Passive mode (+24 V OFF) 1 Meter in active mode (+24 V ON)
Pre-programmed steps
0% 25% 50% 75% 100%
4-20 mA linear 4 8 12 16 20
0-20 mA linear 0 5 10 15 20
4-20 mA quad 4 5 8 13 20
0-20 mA quad 0 1.25 5 11,25 20
4-20 mA valves 3.8-4-4.2 12 19, 20, 21
Direct voltage: Measurement
| Range | Resolution | Accuracy / 1 year | Notes |
| ±100 mV | 1 µV | 0.013% RDG + 3 µV | Rin: > 10 MΩ |
| ±1 V (1) | 10 µV | 0.013% RDG + 20 µV | Rin: > 10 MΩ (1): -0.8 V to +1 V |
| ±10 V | 100 µV | 0.015% RDG + 200 µV | Rin: > 1 MΩ |
| ±50 V | 1 mV | 0.015% RDG + 2 mV | Rin: > 1 MΩ |
Rin: input resistancetransmitter
Temperature coefficient: < 7 ppm/°C beyond reference domain
Direct voltage: Emission
| Range | Resolution | Accuracy / 1 year | Min Load | Notes |
| 100 mV | 1 µV | 0.013% RDG + 3 µV | 1 kΩ | Iout max: 5 mA |
| 2 V | 10 µV | 0.013% RDG + 20 µV | 2 kΩ | Iout max: 5 mA |
| 20 V | 100 µV | 0.015% RDG + 200 µV | 4 kΩ | Iout max: 25 mA |
| 50 V | 1 mV | 0.015% RDG + 2 mV | 4 kΩ |
Iout: output current from transmitter
Temperature coefficient: < 7 ppm/°C beyond reference domain
Settling time: < 5 ms
Resistance: Measurement
| Range | Resolution | Accuracy / 1 year | Notes |
| 400 Ω | 1 mΩ | 0,012% RDG + 10 mΩ | Meas current: 0.25 mA |
| 4000 Ω | 10 mΩ | 0,012% RDG+ 100 mΩ | Meas current: 0.25 mA |
2, 3 or 4 wires resistance measurement: automatic recognition of number of connected wires, with indication on screen
Accuracies are given for 4-wire mounted probes
Temperature coefficient: < 7 ppm/°C beyond reference domain
Open circuit terminal voltage: < 10 V
Continuity test: Open circuit for R > 1000 Ω and closed circuit for R < 1000 Ω
Resistance: Emission
| Range | Resolution | Accuracy / 1 year | Notes |
| 40 Ω | 1 mΩ | 0.014% RDG + 3 mΩ
0.014% RDG + 10 mΩ |
Iext: 10 mA
Iext: 1 mA |
| 400 Ω | 10 mΩ | 0.014% RDG + 20 mΩ
0.014% RDG + 30 mΩ |
Iext: 1 / 10 mA
Iext: 0.1 / 1 mA |
| 4000 Ω | 100 mΩ | 0.014% RDG + 300 mΩ | Iext: 0.1 / 1 mA |
Temperature coefficient: < 7 ppm/°C beyond reference domain
Current settling time: < 1 ms
Iext : Current received by the calibrator
Frequency and counting: Measurement
| Range | Resolution | Accuracy / 1 year |
| 20 kHz | < 0.01 Hz | 0.005% RDG |
Temperature coefficient: < 5 ppm/°C beyond reference domain
Scale unit: Pulse / min and Hz
Trigger level: 1 V
Measurement on frequency signals or dry contacts
Counting will be performed on defined time or infinite time
Frequency and pulses: Emission
| Range | Resolution | Accuracy / 1 year |
| 1000 Hz | 0.01 Hz | 0.005% RDG |
| 10 kHz | 10 Hz | 0.005% RDG |
Temperature coefficient: < 5 ppm/°C beyond reference domain
Scale unit: Pulse / min and Hz
Pulse emission and dry contact simulation
Max amplitude: 20 V selectable by user
Further functionalities
| File Menu | Users can save up to 10 full configurations of the instruments and recall them. Configurations include all programming done on instrument. |
| 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 :
|
| 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 or pressure mode, CALYS 1000 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:
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:
|
| Synthesizer | With 100 values manually set, CALYS 1000 enables users to draw a generation curve. |
| Transmitter function | CALYS 1000 is able to be used as a transmitter. Measurement input is copied on the output with scaling. |
| Memory 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 |
General specifications
| Size | 340 x 320 x 160 mm (L x W x h) |
| Weight | 4.6 Kg |
| Display | 240 x 320 pixel liquid crystal graphical display with backlite & contrast control Display of result as table of values or trend curve |
| Power supply | 230 V ±10 %, 50/60 Hz |
| Battery | Type: Lithium-Ion Charging time: 3 hours Lifetime: 8 hours |
| Communication ports | USB |
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 EN 60529 |
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 |
| Rated voltage | 60 V |
| Chocks and vibrations | EN 61010-1 |
| EMC conformity | EN 61326-1, CEM 2004/108/CE |
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