3 signature measurement functions, 1 signature measurement procedure, Signature measurement functions -2 19.3.1 – Yokogawa YVP110 User Manual

<19. Diagnostics>

19-2

IM 21B04C01-01E

Each integrated value is associated with a

parameter specifying a threshold. Setting the

desired value for a threshold will raise a block alarm

when that value is reached. The total travel is

useful for various purposes such as for anticipating

possible degradation of the valve and determining

appropriate timing for maintenance. To reset

these integrated values, write 0 to the respective

parameters. Use caution as the previous value

cannot be restored after being reset.

19.3 Signature Measurement

Functions

Acquisition of detailed data is essential to ensure

that changes in valve’s characteristics are captured

and on-target maintenance is performed. The

signature functions measure the input-to-position

characteristics of the valve, and the input-to-

position characteristics and step response of the

positioner while off-line. As for a valve’s input-to-

position characteristics, a function of performing in-

detail measurement is provided to enable miniscule

changes to be captured without fail.
Nevertheless, since a vast amount of measured

data cannot be stored in the limited memory of the

positioner and most of the data would be lost in the

event of a power failure, measured data should

be uploaded from a host as necessary. Further,

the data thus uploaded needs to be processed

for analyses. These requirements make it difficult

to use a general-purpose tool or application for

these tasks. ValveNavi (R2.20 or later) YVP

management software, a YVP-specific tool is

designed to perform these tasks with ease and

offers dedicated functions. ValveNavi facilitates

executions signature measurement, uploads of

measured data, display of measured data in a

graph, and comparisons of measured data with

previously measured data.
This User’s Manual outlines the contents of each

type of signature and explains the signature-

pertaining parameters in the transducer block. For

instructions on performing signature measurement,

see the User’s Manual for ValveNavi (IM

21B04C50-01E, second edition or later), which

explains its functions and operation procedures.

19.3.1 Signature Measurement Procedure

The fundamental procedure for measuring

signatures is as follows.

F1901.ai

After the measurement has finished, set

SIGN_UPLOAD_DATABASE to select the data you

want to upload, and upload the values of

SIGN_DATA_X and SIGN_DATA_Y.

SIGN_UPLOAD_DATABASE

1 Current: Standard Actuator Signature

2 Current: Extended/High Resolution Actuator

Signature

3 Current: Step Response Test

4 Current: Positioner Signature

5 Factory: Standard Actuator Signature

(result stored in non-volatile memory )

6 Record: Standard Actuator Signature

(result stored in non-volatile memory)

Set SIGN_MEAS_EXEC to select the signature(s)

to be measured and carry out the measurement. At

this time, the value of MODE_BLK target in both the

transducer and AO blocks needs to be O/S.

SIGN_MEAS_EXEC

1 Off

2 Measure All (executing 3, 4, 6, 7)

3 Measure Standard Actuator Signature

4 Measure Extended Actuator Signature

5 Measure High Resolution Actuator Signature

6 Measure Step Response Test

7 Measure Positioner Signature

255 Cancel Execution

Set the measurement conditions for the signature(s)

you want to measure in reference with Section

19.3.2.

If the number of the measured data is 20 or more,

specify in SIGN_UPLOAD_POINTER the leading

position of the data to be uploaded. For example,

setting “21” in SIGN_UPLOAD_POINTER will

upload the twenty-first through fortieth data. Refer

to the value of SIGN_MEAS_COUNTER, which

indicates the number of data actually measured.