5 functions relating to external temperature, 6 simulation function, Functions relating to external temperature -5 – Yokogawa EJX930A User Manual

<6. Explanation of Basic Items>

6-5

IM 01C25R03-01E

Atmospheric pressure automatic setting:

When “Set” is set to the CURRENT_ATM_PRESS_

ENABLE parameter, the present L-side static

pressure can be automatically assigned as the

atmospheric pressure (ATM_PRESS). To make

this assignment, the SENSOR transducer block

must be set to the O/S mode. After the L-side static

pressure has been assigned to ATM_PRESS,

the value of CURRENT_ATM_PRESS_ENABLE

automatically returns to “off.”

6.3.5 Functions Relating to External

Temperature

Reference to external temperature value:

The contact temperature and status of the RTD

connected at EXT_TEMP_VAL can be referenced.

The update period of this value is about 800

mseconds. The external temperature unit is the unit

selected at XD_SCALE.Unit in the AI block where

EXT_TEMP_VAL is selected. Usually, the status

indicates Good-Non Specific; however, it changes

to Bad or Uncertain during a sensor malfunction or

when the measuring range is exceeded. For actual

details, see Table 8.9 Parameter Operations at

Error Occurrence.
Assignment of the damping time constant of the

external temperature signal:

The EXT_TEMP_VALUE_FTIME parameter is

for setting the damping parameter of the external

temperature signal. The setting unit for this

parameter is [seconds].
Judgment of range limit of the external

temperature signal:

When the external temperature signal has deviated

from the measuring range (-200 to 850°C) by 10°C

or more, it is outside the external temperature

specification range, and the status of the external

temperature signal (EXT_TEM_VAL) is set to

Uncertain-Sensor Conversion not Accurate.
Adjustment of external temperature signal:

A zero/span adjustment function is available for the

external temperature signal just like for the pressure

(differential pressure) signal.
Automatic adjustment

The temperature value is assigned to parameters

(CAL_EXT_TEMP_LO and CAL_EXT_TEMP_HI)

with the external temperature sensor immersed

in the temperature to be adjusted. After this

assignment is made, the adjustment amount is

calculated internally by the transmitter and the

adjustment amount is automatically updated. The

procedure for adjusting the external temperature

signal is the same as that of the differential pressure

signal.
Manual adjustment

From the assigned temperature and the output

of the transmitter, calculate the amount of

zero/span adjustment manually and assign the

calculated value to parameters (CAL_EXT_

TEMP_DEVIATION_LO and CAL_EXT_TEMP_

DEVIATION_HI).
Diagnosis of adjustment:

When the adjustment amount exceeds the

following adjustment ranges, “AL52: Out of external

temperature span adjustment amount range/AL52:

Out of external temperature zero adjustment

amount range” generate an alarm. The zero/span

adjustment ranges are as follows:

(1) The ramp for the input/output of two

adjustment points must be within 10% of the

ramp set before shipment from the factory.

(2) The zero point adjustment amount must be

within ±85°C of the temperature set before

shipment from the factory.

(3) The zero point/span adjustment point must

be in the range -210°C to 860°C.

Fixed external temperature mode:

The value obtained from the external temperature

sensor or a user-specified fixed value can be

selected for the external temperature signal. At

the EXT_TEMP_OPTS parameter, select one of

Selection 0 (No): External temperature sensor, 1

(Yes): External temperature fixed value mode, and

2 (Fall Back): Fixed mode at broken wire.
When the external temperature fixed mode or fixed

mode at broken wire is selected, set the fixed value

at FIXED_EXT_TEMP_VALUE.

6.3.6 Simulation Function

There are two simulation functions in EJX

multivariable transmitter; one is the function

commonly offered in F

OUNDATION

Fieldbus products

to simulate input of each function block for loop

check, and the other is the flow simulation function

to simulate measured inputs for checking the result

of flow calculation.
The simulation function described in this section is

flow simulation function. For the other simulation

function, see ‘7.3 Simulation Function.’