CALYS 1000 is a transportable multifunction calibrator with 0.02% accuracy and insulated channels. CALYS 1000 is the ideal solution to simultaneously simulate and measure: voltage, current, resistance, temperature (thermocouple or RTD), frequency and pulse.
Its large graphical dual display with backlight enables INPUT and OUTPUT values to be simultaneously displayed and leads to keyboard simplification. On-line help messages are available at any time in case additional information on displayed options is needed.
Extended functionalities: data processing, customized signal linearization, transmitter function, ramp and step function, relative measurements…
Offered into a compact benchtop housing, the instrument is designed to meet the requirements of instrumentation engineers and quality managers, both in laboratory and in field work. It is widely used in metrological departments, quality-control departments, research and development laboratories and also by maintenance and approval companies.
Advanced flexibility and high performance has been achieved using a 32 bit microprocessor and a fast A/D conversion technology.
Applications:
Due to its outstanding performances and quality, CALYS 1000 meets the requirements of a wide range of applications:
- Accurate measurement for calibration of signal generators such as sensors, voltage and current sources, resistance, and for the verification of general process control instruments
- Temperature simulation, voltage and current sourcing, resistance simulation for calibration of measuring equipment such as chart recorders, logical controllers, PLC analogue inputs…
- Test of signal conditioners or transmitters, using CALYS 1000 simultaneous sensor simulation and output signal measurement capability.
Specifications and performances in temperature @23°C ±5°C
Uncertainty is given in % of reading (CALYS 1000 display) + fixed value.
Resistive probes: Measurement and simulation
Sensor | Range (Input and Output) | Resolution | Accuracy / 1 year |
Pt100 (= 3926) | -200°C to +850°C | 0.01°C | 0.02% RDG + 0.05°C |
Pt100 (= 3902) | -200°C to +650°C | 0.01°C | 0.02% RDG + 0.05°C |
Pt100 (= JIS SAMA) | -200°C to +600°C | 0.01°C | 0.02% RDG + 0.05°C |
Pt200 (= 3851) | -200°C to +850°C | 0.1°C | 0.02% RDG + 0.15°C |
Pt500 (= 3851) | -200°C to +850°C | 0.1°C | 0.02% RDG + 0.1°C |
Pt1000 (= 3851) | -200°C to +850°C | 0.01°C | 0.02% RDG + 0.1°C |
Cu10 (= 427) | -70°C to +150°C | 0.1°C | 0.02% RDG + 0.4°C |
Cu100 (= 428) | -180°C to +150°C | 0.1°C | 0.02% RDG + 0.05°C |
Ni100 (= 618) | -60°C to +180°C | 0.1°C | 0.02% RDG + 0.05°C |
Ni120 (= 672) | 0°C to +150°C | 0.1°C | 0.02% RDG + 0.05°C |
Connections: 2, 3 and 4 wires
Rtd simulation excitation current: from 0.01 to 5 mA without incremental error
Rtd measurement excitation current: 0.4 mA @ 400 Ω and 0.04 mA @ 4000 Ω
Rtd cable compensation: up to 100 Ω (for each wire)
Rtd cable compensation error (Pt100): ±0.005°C/ of total wire
Maximum load resistance: 1000 Ω @ 20 mA
Measurement sampling time: 250 ms
Thermocouples: Measurement and simulation
Type | Range | Résolution | Accuracy / 1 an |
J | -210 to +1200°C | 0.01°C | 0.02% RDG + 0.1°C |
K | -270 to +1370°C | 0.01°C | 0.02% RDG + 0.1°C |
T | -270 to +400°C | 0.01°C | 0.02% RDG + 0.1°C |
R | -50 to 1760°C | 0.1°C | 0.02% RDG + 0.2°C |
S | -50 to 1760°C | 0.1°C | 0.02% RDG + 0.2°C |
B | +50 à +1820°C | 0.1°C | 0.02% RDG + 0.3°C |
C | 0 to 2300°C | 0.1°C | 0.02% RDG + 0.2°C |
G | 0 to 2300°C | 0.1°C | 0.02% RDG + 0.3°C |
D | 0 to 2300°C | 0.1°C | 0.01% RDG + 0.3°C |
U | -200 to +400°C | 0.01°C | 0.02% RDG + 0.1°C |
L | -200 to +760°C | 0.01°C | 0.02% RDG + 0.1°C |
N | -270 to +1300°C | 0.01°C | 0.02% RDG + 0.1°C |
E | -270 to +1000°C | 0.1°C | 0.02% RDG + 0.1°C |
F | 0 to +1400°C | 0.1°C | 0.02% RDG + 0.1°C |
Display units: °C, °F and K
Reference junction compensation:
– Internal automatic: from -10°C to +55°C
– External: from -50°C to 100°C
– Remote with external Pt100: from -10°C to 100°C
Rj compensation drift: ±0.015°C/°C from -10 °C to +55°C
RJ compensation error:
– Internal: ±0.15°C
– Remote: ±0.3°C
Input impedance: > 10 MΩ
Measurement sampling time: 250 ms
Specifications and performances in process @23°C ±5°C
DC voltage: Measurement and simulation
Range | Resolution | Accuracy / 1 an |
-20 mV to +200 mV | 1 µV | 0.02% RDG + 2 µV |
-0.2 V to +2 V | 10 µV | 0.02% RDG + 10 µV |
-2 V to +20 V | 100 µV | 0.02% RDG + 0.08 mV |
Input impedance: > 10 MΩ
Output impedance (emf output): < 0.5 Ω with a maximum current of 0.5 mA
Output noise (at 300 Hz):
< 2 μV pp for ranges up to 200 mV
< 10 μV pp for ranges up to 2 V
< 80 μV pp for ranges up to 20 V
Measurement sampling time: 250 ms
DC current: Measurement and simulation
With or without loop supply
Type | Range | Resolution | Accuracy / 1 an |
Measurement | -5 mA to 50 mA | 0.1 µA | 0.02% RDG + 0.4 µA |
Emission | 0 mA to 50 mA | 0.1 µA | 0.02% RDG + 0.4 µA |
Input impedance: < 140 Ω at 1 mA
Maximum load resistance: 1000 Ω at 20 mA
Loop supply: 24 V
Measurement sampling time: 250 ms
Resistance: Measurement and simulation
Type | Range | Resolution | Accuracy / 1 an |
Measurement | 0 to 500 Ω | 1 mΩ | 0.02% RDG + 12 mΩ |
0 to 5000 Ω | 10 mΩ | 0.02% RDG + 120 mΩ | |
Simulation | 0 to 500 Ω | 1 mΩ | 0.02% RDG + 20 mΩ |
0 to 5000 Ω | 10 mΩ | 0.02% RDG + 200 mΩ |
Connections: 2, 3 and 4 wires
Source resistance effects: ±1 μV error for 1000 Ω source resistance
Simulation excitation current: from 0.01 to 5 mA without incremental error
Measurement excitation current: 0.4 mA @ 400 Ω and 0.04 mA @ 4000 Ω
Maximum load resistance: 1000 Ω @ 20 mA
Measurement sampling time: 250 ms
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