Yokogawa Data Acquisition with PID Control CX2000 User Manual

7-3

IM 04L31A01-01E

Measurement Function Related Setup Operations

7

• First-CH/Last-CH

Select the range of channels for setting the burnout and RJC.

• Burnout set

Set the burnout action for the measurement inputs. Select [Off], [Up], or [Down] (initial
value is Off). This setting is valid only for thermocouple inputs.
Off:

Burnout action Off

Up:

When the thermocouple burns out, the measured result is set to positive
overflow “+*****.”

Down: When the thermocouple burns out, the measured result is set to negative

overflow “–*****.”

• RJC

This is the reference junction compensation setting for thermocouple inputs. Select
either [Internal] or [External] (initial value is Internal). This setting is valid only for
thermocouple inputs.
Internal: Uses the reference junction compensation function of the CX2000.
External: Uses the external reference junction compensation function.
If set to [External], a box for entering the reference junction compensation voltage that
is to be added to the input appears. Set the value in the range of [–20000] µ V to
[20000] µ V (initial value is 0 µ V).

Setting the Range

• First-CH/Last-CH

Select the range of measurement channels for setting the range. On models with 10
measurement inputs, select from [01] to [10]; on models with 20 measurement inputs,
select from [01] to [20].

• Range

First, select the input mode in the [Mode] entry box from [Volt], [TC], [RTD], [DI],
[Delta], [Sqrt], and [Scale]. Then, set other parameters such as [Range], [Span
Lower/Upper] according to the selected input mode as described below. Set [Skip] for
channels that are not to perform measurements or displays.
• When set to [Volt] input

Range

Selectable Measurement Span Range

20mV

–20.00 to 20.00 mV

60mV

–60.00 to 60.00 mV

200mV

–200.0 to 200.0 mV

2V

–2.000 to 2.000 V

6V

–6.000 to 6.000 V

20V

–20.00 to 20.00 V

50V

–50.00 to 50.00 V

Note

For current inputs, a shunt resistor is attached to the input terminal to convert the signal to

voltage input. The following table shows the available shunt resistors. For example, a 250-Ω
shunt resistor is used to convert the signal in the range of 1 to 5 V for 4-20 mA input.

Name

Model

Resistance

Shunt resistor

4159 20

250 Ω ± 0.1%

(for screw terminals)

4159 21

100 Ω ± 0.1%

4159 22

10 Ω ± 0.1%

7.1 Settings Related to Measurement Inputs