3 disassembly and assembly, Disassembly and assembly -2, Caution – Yokogawa YTA320 User Manual

<6. Maintenance>

6-2

IM 01C50B01-01E

3. For thermocouple input

Since this instrument is equipped with a

reference junction compensating function, use

a reference junction compensating function

in universal calibrator in order to compensate

for this function upon calibration. According to

the reference milivolt table for thermocouple,

obtain milivolt corresponding to 0, 25, 50, 75,

or 100% of the span, and use that power as the

input value, then deliver it from the universal

calibrator to the temperature transmitter.

Measure the resulting output signal with the

voltage meter (digital multimeter) and check the

output value relative to the input value.

4. Thermometer resistor (RTD)

Using a thermometer resistor as input,

calibration of the temperature transmitter is

carried out via a 4- core wire connection.

As defined the reference resistor value table

of the thermometer resistor (RTD), obtain

resistance values corresponding to 0, 25, 50,

75 or 100% of the span, and use the obtained

resistance as the input value, then deliver it

to the temperature transmitter by means of a

variable resistor. Measure the resulting output

signal with the voltmeter (digital multimeter)

and check the output value relative to the input

value.

5. In Steps 2 through 4, if the output signal

deviates from the given range of accuracy

when a given input signal is delivered, adjust

the output using the handheld terminal. For

details of how to adjust the output, refer to

the additional references, “BRAIN Protocol”

IM 01C50T03-01E or “HART Protocol” IM

01C50T01-01E and the instruction manual for

each terminal.

6.3 Disassembly and Assembly

This section details the procedure for part

replacement or disassembly and assembly of

each component depending on the maintenance

process.
Before starting disassembly and assembly work,

turn off the power, and use a tool suited to the

associated work.
Table 6.2 lists the tools required for disassembly

and assembly of the instrument.

Table 6.2

Tools for Disassembly and Assembly

Tool name

Quantity

Remark

Phillips screwdriver

Standard screwdriver

Hexagonal wrench

Crescent wrench

Torque wrench

Box wrench

Box screwdriver

Forceps

1

1

1

1

1

1

1

1

For M10 screw

CAUTION

Precautions for ATEX, IECEx and TIIS

Flameproof Type Transmitters

• For a withstand flameproof type transmitter,

as a rule, move the transmitter to a non-

hazardous location, then proceed with

maintenance and restore the instrument to

the original condition.

• For a withstand ATEX, IECEx and TIIS

flameproof type transmitter, turn the lock

bolt (hexagon socket bolt) clockwise with

a wrench for hexagon head, unlock and

remove the cover. When installing the

cover, it is the must to turn the lock bolt

counterclockwise and lock the cover (locked

to a torque of 0.7 Nm).

• For a withstand flameproof type transmitter,

in no case should the user be allowed to

modify the transmitter. Therefore, no user

is allowed to add a built-in indicator, or use

the transmitter with the indicator removed.

Contact us for any modification.

F0602.ai

Terminal cover

Lock bolt

CPU assembly

Stud bolt

Mounting screw

Amp. Cover

LCD board

(with indicator)

Figure 6.3

Mounting and Removal of Built-in

Indicator and CPU Assembly