Ansul AUTOPULSE IQ-396X, Programming Manual

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32 AUTOPULSE IQ-396X Programming
Doc. 50402 : B 07/22/96
Appendix C: Nominal Detector Sensitivity Settings
Each IQ-396X detector provides a host of selectable intelligent options. You can
program Pre-Alarm and Alarm detector sensitivity levels in the widest allowed
ranges (0.03 to 4% per foot obscuration). The IQ-396X provides nine levels of
Pre-Alarm (PA:1–PA:9) and Alarm (AL:1–AL:9) in % per foot obscuration:
• PA:1 a self-optimizing setting where the control panel selects a suitable Pre-
Alarm level for a detector.
• PA:2–PA:9 selects the detector Pre-Alarm sensitivity level—with “PA:2” the
most sensitive and “PA:9” the least sensitive. ( PA:0 = no Pre-Alarm)
• AL:1–AL:9 selects the detector Alarm sensitivity level—with “AL:1” the most
sensitive and “AL:9” the least sensitive.
The following table lists detector Pre-Alarm and Alarm sensitivity settings for
Release 1 and Release 2 software.
Pre-Alarm an indication
from the control panel that a
detector is reaching an alarm
level.
Alarm an indication from the
control panel that detectors
sense enough smoke (or heat
with thermal detectors) to
activate an alarm.
Selecting Pre-Alarm
and Alarm Sensitivity
Detector Sensitivity in Percent (%) per Foot Obscuration
e r a w t f o S 1 e s a e l e R e r a w t f o S 2 e s a e l e R
r o t c e t e D
e p y T
m r a l A m r a l A - e r P m r a l A m r a l A - e r P
c i r t c e l E o t o h P
) O T O H P (
% 0 0 . 1 = 1 : L A
% 5 1 . 1 = 2 : L A
% 5 3 . 1 = 3 : L A
% 0 5 . 1 = 4 : L A
% 5 6 . 1 = 5 : L A
% 5 8 . 1 = 6 : L A
% 0 0 . 2 = 7 : L A
% 0 2 . 2 = 8 : L A
% 5 3 . 2 = 9 : L A
o t u A = 1 : A P
% 0 1 . 0 = 2 : A P
% 3 2 . 0 = 3 : A P
% 6 3 . 0 = 4 : A P
% 9 4 . 0 = 5 : A P
% 2 6 . 0 = 6 : A P
% 5 7 . 0 = 7 : A P
% 8 8 . 0 = 8 : A P
% 0 0 . 1 = 9 : A P
% 0 2 . 0 = 1 : L A
*
% 0 5 . 0 = 2 : L A
% 5 7 . 0 = 3 : L A
% 0 0 . 1 = 4 : L A
% 5 2 . 1 = 5 : L A
% 0 5 . 1 = 6 : L A
% 5 7 . 1 = 7 : L A
% 0 0 . 2 = 8 : L A
% 5 3 . 2 = 9 : L A
o t u A = 1 : A P
% 5 1 . 0 = 2 : A P
% 0 2 . 0 = 3 : A P
% 0 3 . 0 = 4 : A P
% 0 5 . 0 = 5 : A P
% 5 7 . 0 = 6 : A P
% 0 0 . 1 = 7 : A P
% 5 2 . 1 = 8 : A P
% 0 5 . 1 = 9 : A P
e k o m S n o I
) N O I (
% 0 5 . 0 = 1 : L A
% 5 7 . 0 = 2 : L A
% 0 0 . 1 = 3 : L A
% 5 2 . 1 = 4 : L A
% 0 5 . 1 = 5 : L A
% 5 7 . 1 = 6 : L A
% 0 0 . 2 = 7 : L A
% 5 2 . 2 = 8 : L A
% 0 5 . 2 = 9 : L A
o t u A = 1 : A P
% 0 4 . 0 = 2 : A P
% 5 5 . 0 = 3 : A P
% 5 7 . 0 = 4 : A P
% 0 0 . 1 = 5 : A P
% 5 2 . 1 = 6 : A P
% 0 5 . 1 = 7 : A P
% 5 7 . 1 = 8 : A P
% 0 0 . 2 = 9 : A P
% 0 5 . 0 = 1 : L A
% 5 7 . 0 = 2 : L A
% 0 0 . 1 = 3 : L A
% 5 2 . 1 = 4 : L A
% 0 5 . 1 = 5 : L A
% 5 7 . 1 = 6 : L A
% 0 0 . 2 = 7 : L A
% 5 2 . 2 = 8 : L A
% 0 5 . 2 = 9 : L A
o t u A = 1 : A P
% 0 4 . 0 = 2 : A P
% 5 5 . 0 = 3 : A P
% 5 7 . 0 = 4 : A P
% 0 0 . 1 = 5 : A P
% 5 2 . 1 = 6 : A P
% 0 5 . 1 = 7 : A P
% 5 7 . 1 = 8 : A P
% 0 0 . 2 = 9 : A P
E K O M S r e s a L
) R E S A L (
e l b a li a v A t o N
% 3 0 . 0 = 1 : L A *
% 5 0 . 0 = 2 : L A *
% 0 1 . 0 = 3 : L A *
% 0 2 . 0 = 4 : L A *
% 0 3 . 0 = 5 : L A *
A % 0 4 . 0 = 6 : L *
% 0 5 . 0 = 7 : L A
% 5 7 . 0 = 8 : L A
% 0 0 . 1 = 9 : L A
o t u A = 1 : A P
% 2 0 . 0 = 2 : A P
% 3 0 . 0 = 3 : A P
% 5 0 . 0 = 4 : A P
% 0 1 . 0 = 5 : A P
% 0 2 . 0 = 6 : A P
% 5 3 . 0 = 7 : A P
% 0 4 . 0 = 8 : A P
% 0 5 . 0 = 9 : A P
r o s n e S it l u M
- S N E S I L T U M
R O
e l b a li a v A t o N % 5 7 . 0 = 1 : L A
% 5 7 . 0 = 2 : L A
% 0 0 . 1 = 3 : L A
% 0 0 . 1 = 4 : L A
% 0 0 . 2 = 5 : L A
% 0 0 . 3 = 6 : L A
% 0 0 . 3 = 7 : L A
% 0 0 . 4 = 8 : L A
% 0 0 . 4 = 9 : L A
o t u A = 1 : A P
% 0 5 . 0 = 2 : A P
% 0 5 . 0 = 3 : A P
% 0 0 . 1 = 4 : A P
% 0 0 . 1 = 5 : A P
% 0 0 . 2 = 6 : A P
% 0 0 . 2 = 7 : A P
% 0 0 . 3 = 8 : A P
% 0 0 . 3 = 9 : A P
* . n o i t c e s s i h t n i  r o t c e t e D a g n i t s e T  o t r e f e R ( g n i t s e T s e r i u q e r r o t c e t e D