6 module 6 - s, Etpoint, Larm – Red Lion LDSG User Manual

13

13

6-SPt

ACt-n

Setpoint

Select

SPSEL

Setpoint

Value

SP-n

Setpoint

Assignment

Src-1

Output

Logic

out-n

HYS-n

Setpoint

Hysteresis

tON-n

On Time

Delay

Off Time

Delay

tOF-n

Standby

Operation

Stb-n

Reset

Action

rSt-n

PAR

Pro

Setpoint

Action

LIt-n

Setpoint

Annunciators

6.6 Module 6 - s

etpoInt

(a

larM

) p

araMeters

(



)

PARAMETER MENU

Enter the setpoint (alarm output) to be programmed. The



in the following

parameters will reflect the chosen setpoint number. After the chosen setpoint is

completely programmed, the display will return to

 

. Repeat step for

each setpoint to be programmed. The



chosen at



will return to

 

.

The number of setpoints available is setpoint output card dependent.















SETPOINT SELECT



=

Setpoint always off, (returns to SPSEL NO)



=

Absolute high, with balanced hysteresis



=

Absolute low, with balanced hysteresis



=

Absolute high, with unbalanced hysteresis



=

Absolute low, with unbalanced hysteresis



=

Deviation high, with unbalanced hysteresis *



=

Deviation low, with unbalanced hysteresis *



=

Outside band, with unbalanced hysteresis *



=

Lower Totalizer absolute high, unbalance hysteresis**



=

Upper Totalizer absolute high, unbalance hysteresis**

* Deviation and band action setpoints are relative to the value of setpoint 1.

It is not possible to configure setpoint 1 as deviation or band actions. It is

possible to use setpoint 1 for an absolute action, while its value is being used

for deviation or band.

** The lower Totalizer action



allows setpoints to function off of the

lower 5 digits of the Totalizer. The upper Totalizer action



allows

setpoints to function off of the upper 4 digits of the Totalizer. To obtain

absolute low alarms for the Totalizer, program the



or



output

logic as reverse.

Enter the action for the selected setpoint (alarm output). See Setpoint Alarm

Figures for a visual detail of each action.

SETPOINT ACTION





























Setpoint Alarm Figures

With reverse output logic



, the below alarm states are opposite.

ALARM

STATE

OFF

ON

Hys

SP + Hys

SP

OFF

TRIGGER POINTS

ALARM

STATE

ON

OFF

Hys

SP1 + (-SPn)

SP1

ON

TRIGGER POINTS

Absolute Low Acting (Unbalanced Hys) =



Deviation High Acting (SP

< 0) =



ALARM

STATE

OFF

ON

Hys

SP + ½Hys

SP

SP - ½Hys

OFF

TRIGGER POINTS

ALARM

STATE

OFF

ON

Hys

SP1 + SPn

SP1

OFF

TRIGGER POINTS

ALARM

STATE

ON

OFF

Hys

SP1 - (-SPn)

SP1

ON

TRIGGER POINTS

Absolute Low Acting (Balanced Hys) =



Deviation High Acting (SP

> 0) =



Deviation Low Acting (SP

< 0)=



ALARM

STATE

OFF

ON

Hys

SP

SP - Hys

OFF

TRIGGER POINTS

ALARM

STATE

OFF

ON

Hys

SP1 - SPn

SP1

OFF

TRIGGER POINTS

ALARM

STATE

OFF

ON

Hys

SP1 - SPn

SP1

OFF

SP1 + SPn

ON

OFF

Hys

TRIGGER POINTS

Absolute High Acting (Unbalanced Hys) =



This is also for Totalizer alarms:



, 

Deviation Low Acting (SP > 0) =



Band Outside Acting =



ALARM

STATE

OFF

ON

Hys

SP + ½Hys

SP

SP - ½Hys

OFF

TRIGGER POINTS

Absolute High Acting (Balanced Hys) =



For maximum input frequency, unused Setpoints should be configured for



action. The setpoint assignment and the setpoint action determine certain

setpoint feature availability.