A5.18 alarms, A5.18.1 block alarm (block_alm), A5.18.2 process alarms – Yokogawa EJX930A User Manual

<Appendix 5. PID Block>

A5-9

IM 01C25T02-01E

NOTE: If a control block is connected as a cascade primary

block of the PID block in question, a mode transition of

the PID block to Cas occurs in the following sequence

due to initialization of the cascade connection: RCas or

ROut → Auto → Cas.

A5.18 Alarms

There are two kinds of alarms generated by a PID

block: block and process alarms.

A5.18.1 Block Alarm (BLOCK_ALM)

The block alarm BLOCK_ALM is generated upon

occurrence of either of the following errors (values

set in BLOCK_ERR) and notifies the content of

BLOCK_ERR.

Value of

BLOCK_ERR

Condition

Local Override

MODE_BLK actual of PID block is LO.

Input Failure

The status of PV is Bad. (The status

of IN is Bad, or the status of IN is

Uncertain and “Use Uncertain as Good”

is false in STATUS_OPTS.)

Out of Service

MODE_BLK.target of the PID block is

O/S.

A5.18.2 Process Alarms

There are six types of process alarms. Only one

process alarm can be generated at the same time,

and the process alarm having the highest priority

level from among those occurring at the same

time is generated. The priority level is set for each

process alarm type.

Process

Alarm

Cause of Occurrence

Parameter

Containing

Priority Level

Setting

HI_HI_ALM Occurs when the PV

increases above the

HI_HI_LIM value.

HI_HI_PRI

HI_ALM

Occurs when the PV

increases above HI_LIM

value.

HI_PRI

LO_ALM

Occurs when the PV

decreases below the

LO_LIM value.

LO_PRI

LO_LO_

ALM

Occurs when the PV

decreases below the

LO_LO_LIM value.

LO_LO_LIM

DV_HI_ALM Occurs when the value of

[PV - SP] increases above

the DV_HI_LIM value.

DV_HI_PRI

DV_LO_

ALM

Occurs when the value

of [PV - SP] decreases

below the DV_LO_LIM

value.

DV_LO_PRI

A5.19 Example of Block

Connections

PID

BKCAL_IN

OUT

IN

AO

BKCAL_OUT

CAS_IN

AI

OUT

FA0506.ai

When configuring a simple PID control loop by

combining an EJX transmitter with a fieldbus

valve positioner that contains an AO block, follow

the procedure below to make the settings of the

corresponding fieldbus function blocks:

1. Connect the AI block and PID block of the EJX,

and the AO block of the valve positioner as

shown above.

2. Set MODE_BLK.target of the PID block to

O/S, and then set GAIN, RESET, and RATE to

appropriate values.

3. Check that the value of MODE_BLK.actual of

the AI block is Auto.

4. Set MODE_BLK.target of the AO block to

CAS|AUTO (meaning "Cas and Auto").

5. Check that the value of BKCAL_IN.status of the

PID block is not Bad.

6. Check that the value of IN.status of the PID

block is not Bad.

7. Check that Auto is set in MODE_BLK.permitted

of the PID block.

8. Set MODE_BLK.target of the PID block to Auto.

When finishing all steps in order, the PID block and

AO block exchange the respective information and

initialize the cascade connection. Consequently,

the value of MODE_BLK.actual of the PID block

changes to Auto and automatic PID control starts.