Echelon i.LON 100 e2 Internet Server User Manual

Table 28 Alarm Generator Hysteresis Levels

Offset Limit Causing

Alarm

Alarm Cleared When...

<UCPThighLimit1Offset>

Input Value<=Comp Value+ UCPThighLimit1Offset – SCPThysHigh1

<UCPThighLimit2Offset>

Input Value<=Comp Value+ UCPThighLimit2Offset – SCPThysHigh2

<UCPTlowLimit1Offset>

Input Value>= Compare Value – UCPTlowLimit1Offset + SCPThysLow1

<UCPTlowLimit2Offset>

Input Value>= Compare Value – UCPTlowLimit2Offset + SCPThysLow2

When an alarm is cleared, the data point is updated to the next lowest alarm level. For

example, when an AL_LOW_LMT_ALM_2 alarm is cleared, the data point is updated to
AL_LOW_LMT_ALM_1. When that condition clears, the data point is updated to

AL_NO_CONDITION.
Table 29 describes this process in more detail.

Table 29 Alarm Statuses

Event

Input Data Point Status

Comments

Value of input data point is normal. AL_NO_CONDITION

No alarm condition.

Value of input data point goes above

first level (UCPThighLimit1Offset).

AL_HIGH_LMT_ALM1

Updated to the first alarm condition.

Value of input data point goes above

second level

(UCPThighLimit2Offset).

AL_HIGH_LMT_ALM2 Updated

to

the second, and more severe,

alarm condition.

Value of input data point goes below

hysteresis level for the second alarm
condition.

AL_HIGH_LMT_ALM1

Updated back to the first alarm condition,

as the data point has not yet reached the
hysteresis level for that condition.

Value of input data point goes below
hysterisis level for the first alarm

condition.

AL_NO_CONDITION

Updated back to normal status.

i.

LON 100 Internet Server Program

7-14

mer’s Reference