Oda - Operator Display For Analog Indication & Alarming (V2.2) - Siemens Moore 353 User Manual

Process automation controller

Table of Contents

UM353-1

3.2.64 ODA - Operator Display for Analog indication & alarming (V2.2)

ODA blocks are one of five operator displays that are used on a one

per loop basis to configure the local operator display functions and

network parameters. See the i|ware PC faceplate on the next page.

The block will display up to four process variables P1 to P4 in both

analog bargraph and digital form. Two alarms are associated with

each process variable. They can be configured as HI or LO alarms.

Each alarm function has associated block outputs that are high (1)

when the alarm is active. Output LE is high (1) when a loop event

is active. Output SE is high when a station error is active. LOOP #

parameters are used to index reads and writes to Modbus and LIL

network parameters. See Sections 6 and 7 for network parameters.

The VIEW OD parameter, when set to YES, enables the operator

display to be viewed and accessed locally. In cases where it is

desired to view display or operation parameters only from a network

workstation, the parameter should be set to NO.

Range pointers (i.e. R1 to R4) for all four process inputs must be

configured to define the range of each variable input (i.e. P1 to P4).

If these parameters are not configured, the bargraphs will be scaled

using the engineering range of 0.00 to 100.00. This information also

defines the scaling of the loop information provided to a remote

workstation over the network (i.e. Modbus or LIL).

Each process variable can be displayed on the local faceplate using

the D button. When first stepping into a loop using the Loop button,

the loop tag will be displayed (e.g. AnDisp1). However, if there is a

point within the loop that has an unacknowledged alarm, that point

will be displayed alternating between the point tag and the alarm

condition (e.g. PI693/3B LO). Press the D button to scroll through

the analog points displaying the point tag (e.g. TI712) in the

alphanumeric and the value of the point in the digital display (e.g.

348.47). Press the UNITS button to display the units of the point.

Press the Loop tag to return to displaying the loop tag.

Alarm Types

HI compares the process input with the limit setting and trips the

alarm status high (1) when the process is equal to or higher than the

limit setting. The alarm status will clear (0) when the process is less

than the limit setting minus the deadband.

LO compares the process input with the limit setting and trips the

alarm status high (1) when the process is equal to or less than the

limit setting. The alarm status will clear (0) when the process is

greater than the limit setting plus the deadband.

OR compares the process input with the range limits referenced by

the range pointer parameter. It will trip the alarm status high (1)

when the process is equal to or greater than the high limit, or equal

to or less than the low limit. The alarm status will clear (0) when the

process is less than the high limit minus the deadband or greater

than the low limit plus the deadband.

March 2003

Operator Display for Analog indication & alarming

ODA

Process Range 1

Process 1

Operator Display

Process Range 2

for

Analog Indication

Process 2

Alarming

Process Range 3

Process 3

Process Range 4

Process 4

P T R

Process 1 - RanGe PoinTeR

P T R

Process 2 - RanGe PoinTeR

P T R

Process 3 - RanGe PoinTeR

P T R

Process 4 - RanGe PoinTeR

T A G

Process 1 TAG

................................8 ASCII Char

(S)

T A G

Process 2 TAG

................................8 ASCII Char

(S)

T A G

Process 3 TAG

................................8 ASCII Char

(S)

T A G

Process 4 TAG

................................8 ASCII Char

(S)

1 A

L I M I T

Process 1 Alarm A LIMIT

(S)

1 B

L I M I T

Process 1 Alarm B LIMIT

(S)

2 A

L I M I T

Process 2 Alarm A LIMIT

(S)

2 B

L I M I T

Process 2 Alarm B LIMIT

(S)

3 A

L I M I T

Process 3 Alarm A LIMIT

(S)

3 B

L I M I T

Process 3 Alarm B LIMIT

(S)

4 A

L I M I T

Process 4 Alarm A LIMIT

(S)

4 B

L I M I T

Process 4 Alarm B LIMIT

(S)

1 A

D B A N D

Process 1 Alarm A DeadBAND

1 B

D B A N D

Process 1 Alarm B DeadBAND

2 A

D B A N D

Process 2 Alarm A DeadBAND

2 B

D B A N D

Process 2 Alarm B DeadBAND

3 A

D B A N D

Process 3 Alarm A DeadBAND

3 B

D B A N D

Process 3 Alarm B DeadBAND

4 A

D B A N D

Process 4 Alarm A DeadBAND

4 A

D B A N D

Process 4 Alarm B DeadBAND

1 A

P U

E N

Process 1 Alarm A Power Up ENabled

1 B

P U

E N

Process 1 Alarm B Power Up ENabled

2 A

P U

E N

Process 2 Alarm A Power Up ENabled

2 B

P U

E N

Process 2 Alarm B Power Up ENabled

3 A

P U

E N

Process 3 Alarm A Power Up ENabled

3 B

P U

E N

Process 3 Alarm B Power Up ENabled

4 A

P U

E N

Process 4 Alarm A Power Up ENabled

4 B

P U

E N

Process 4 Alarm B Power Up ENabled

1 A

P R

O R

Process 1 Alarm A PRIORity

1 B

P R

O R

Process 1 Alarm B PRIORity

2 A

P R

O R

Process 2 Alarm A PRIORity

2 B

P R

O R

Process 2 Alarm B PRIORity

3 A

P R

O R

Process 3 Alarm A PRIORity

3 B

P R

O R

Process 3 Alarm B PRIORity

4 A

P R

O R

Process 4 Alarm A PRIORity

4 B

P R

O R

Process 4 Alarm B PRIORity

1 A

P E

Process 1 Alarm A TYPE

(S)

1 B

P E

Process 1 Alarm B TYPE

(S)

2 A

P E

Process 2 Alarm A TYPE

(S)

2 B

P E

Process 2 Alarm B TYPE

(S)

3 A

P E

Process 3 Alarm A TYPE

(S)

3 B

P E

Process 3 Alarm B TYPE

(S)

4 A

P E

Process 4 Alarm A TYPE

(S)

4 B

P E

Process 4 Alarm B TYPE

(S)

1 A

I N

Proc 1 Alarm A DeLay IN

(S)

1 B

I N

Proc 1 Alarm B DeLay IN

(S)

2 A

I N

Proc 2 Alarm A DeLay IN

(S)

2 B

I N

Proc 2 Alarm B DeLay IN

(S)

3 A

I N

Proc 3 Alarm A DeLay IN

(S)

3 B

I N

Proc 3 Alarm B DeLay IN

(S)

4 A

I N

Proc 4 Alarm A DeLay IN

(S)

4 B

I N

Proc 4 Alarm B DeLay IN

(S)

1 A

Proc 1 Alarm A DeLay OUT

1 B

Proc 1 Alarm B DeLay OUT

2 A

Proc 2 Alarm A DeLay OUT

2 B

Proc 2 Alarm B DeLay OUT

3 A

Proc 3 Alarm A DeLay OUT

3 B

Proc 3 Alarm B DeLay OUT

4 A

Proc 4 Alarm A DeLay OUT

4 B

Proc 4 Alarm B DeLay OUT

1 A

Process 1 Alarm A RinG BaCK

1 B

Process 1 Alarm B RinG BaCK

2 A

Process 2 Alarm A RinG BaCK

2 B

Process 2 Alarm B RinG BaCK

3 A

Process 3 Alarm A RinG BaCK

3 B

Process 3 Alarm B RinG BaCK

4 A

Process 4 Alarm A RinG BaCK

4 B

Process 4 Alarm B RinG BaCK

O P

LOOP #

................................................ 01 to 25

(S)

C H A N

LIL starting CHANnel (n)

(H)

I E

O D

VIEW Operator Display

......................... NO/YES YES

(H)

I N P U T

INPUT P1

.......................

(H)

P 2

INPUT P2

........................

(H)

P 3

INPUT P3

.......................

(H)

P 4

INPUT P4

.......................

(H)

Function Blocks

Alarm A P1

Alarm B P1

Alarm A P2

Alarm B P2

Alarm A P3

Alarm B P3

Alarm A P4

Alarm B P4

Loop Event

Station Error

Watch Dog

.........

(S)

loop tag.block tag

(null)

.........

(S)

loop tag.block tag

(null)

.........

(S)

loop tag.block tag

(null)

.........

(S)

loop tag.block tag

(null)

(P1 TAG)

(P2 TAG)

(P3 TAG)

(P4 TAG)