Temperature-Sensor-Simulation Thermoelectromotive-Force And Resistance Sourcing - YOKOGAWA 2560A User Manual

2.3 Temperature-Sensor-Simulation
Thermoelectromotive-Force and Resistance
Sourcing
For the specified temperature, the 2560A sources thermoelectromotive force and resistance that
simulate those of a thermocouple and RTD.
Thermocouple
The 2560A outputs from its low voltage-current output terminals (OUTPUT 1) the thermoelectromotive
force (voltage) that corresponds to the specified temperature according to the selected thermocouple
type. The available thermocouple types are R through A as defined by IEC and JIS standards and are
listed in the following table. It is also possible to user-define the relationship between temperature and
thermoelectromotive force and output thermoelectromotive force according to the definition.
* Since a voltage divider is used to set the different thermocouple ranges, the output resistance is
approximately 1 Ω. It is not suitable for connecting to a low-impedance load that requires current to flow
through. The output voltage will drop if such a load is connected. Connect a high-impedance load, a
load that is sufficiently larger than the output resistance. When using thermocouple ranges, do not apply
external voltage or current. Doing so may damage the voltage divider.
Type
TC USER
(user-defined)
RJC Mode
The RJC mode can be set to auto, internal, or manual input. The 2560A corrects the sourced
thermoelectromotive force (RJC) according to the selected mode. It is also possible to source
thermoelectromotive force without correction.
• Auto
• When the 2560A detects that an RJ sensor is connected to the external RJ sensor input
terminal on the rear panel, the 2560A sources thermoelectromotive force that is corrected using
the temperature measured by the external RJ sensor. The 2560A can measure the terminal
temperature of the device to be calibrated that is connected to the 2560A using an RJ sensor
and source thermoelectromotive force that is corrected using the measured temperature.
• If an RJ sensor is not connected to the 2560A or is not detected, the 2560A applies its internal
RJC.
• RJ sensors 257875 are sold separately as accessories. An RTD Pt100 can also be used as an
RJ sensor.
• Internal
The 2560A sources thermoelectromotive force that is corrected using the temperature of its low
voltage-current output terminals (OUTPUT 1).
2-4
Source Range
R -50°C to +1768°C
S -50°C to +1768°C
B 0°C to +1820°C
J -210°C to +1200°C
T -270°C to +400°C
E -270°C to +1000°C
K -270°C to +1300°C
N -270°C to +1300°C
C 0°C to +2315°C
A 0°C to +2500°C
-9999.9°C to +9999.9°C
But, a range corresponding to the
voltage source range (–120.000 mV to
+120.000 mV)
IM 2560A-01EN