TREND LonMark IQL13+ Series, Руководство по установке

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IQL13+/xxx Installation Instructions - Sheet 3
IQL13+/xxx Installation Instructions TG200383 Issue 3/B 19/08/04 3 - 2
3. Installation - Configuration
(continued)
Set up Strategy Parameters
15
if required
Use IqlTool2 (see section 2.2 step 5 ) and text
communications
For standard strategies use table below, else refer to
non-standard strategy installation instructions
If required the strategy type may be changed (e.g. /AR2 to /WR2) :
IQL13+/xxx data
sheet TA200284
Note that any changes to the strategy parameters should immediately be followed by a write to the address
module, [text comms command, R(z=0), recommended], to commit changes to flash memory.
* Default depends on strategy
If used with RD-IQL (see section 1.3 step 8), the following must be configured: Local Space Temp Type
S9(Y=6) , Local SP Adjust Type S10(Y=6) , Local Fan Speed Type S11(Y=6), O=Pb I=PIR W6(S=O)
default , Remote Fan Spd K7(V=4) default, followed by R(z=1) to write changes to flash and reset.
Configuration for RD-IQL is facilitated by IqlTool2.
If the sensor on IN1 is to be used, leave local Space Temp type at default, S9(Y=1). If the fan speed switch
on IN3 is to be used, leave Local Fan Speed type at default, S11(Y=3).
Check Operation - Fan Speed Select
14
1 3 +
L
L A N
N I D
S t r a t e g y
: : : : :
O / S
S e r i a l N o
A u t o
O f f
IN3
OUT1, 2, 3
If Occupied and Remote Fan Speed (K7) Auto
Fan Speed Switch can be provided by TB/TS/KEF or
RD-IQL/KOSF (see section 1.3 step 8)
r e t e m a r a P l e b a L n o i t c n u F t l u a f e D
) V ( 1 K t n i o p t e S e t o m e R y l e t o m e r d e t s u j d a e b n a c t n i o p t e s e s a B C ° 0 2
) V ( 2 K p m e T e c a p S e t o m e R d e t c e n n o c s i d r o s n e s l a c o l f i r o , r o s n e s n o L o t d n u o b f i d e s U C ° 0 2
) V ( 3 K d n b d a e D C C O c c O g n i r u d t n i o p t e s d n u o r a d n a b d a e D C ° 1
) V ( 4 K d n b d a e D y b d n a t S y b d n a t S g n i r u d t n i o p t e s d n u o r a d n a b d a e D C ° 2
) V ( 5 K d n b d a e D C C O N c c o N g n i r u d t n i o p t e s d n u o r a d n a b d a e D C ° 2 1
) V ( 6 K c c O e t o m e R y b d n a t S = 3 , s s a p y B = 2 , c c o N = 1 , c c O = 0 e t a t s s t e S d e i p u c c O = 0
) V ( 7 K d p S n a F e t o m e R o t u A = 4 , h g i H = 3 , d e M = 2 , w o L = 1 , f f o = 0 d e e p s s t e S o t u A = 4
) V ( 8 K t e s f f O P S e t o m e R d e t c e n n o c s i d s i t s u j d a l a c o l f i r o r o s n e S n o L a o t d n u o b f i d e s U C ° 0
) V ( 5 1 K e g n a r t e s f f O . t o p t s u j d a P S l a c o L f o e g n a r s e n i f e D C ° 2
) S ( 1 W e p i P 2 = I e p i P 4 = O ) 2 T W , 2 R W ( I = 1 W ) 2 R A , 4 T W , 4 R W ( O = 1 W e g n a h c y g e t a r t S *
) S ( 2 W e d o M r e m m u S ) 2 T W / , 2 R W / r o f d e s u y l n o ( ) y l n o l o o c ( r e m m u S r o ) y l n o t a e h ( r e t n i W r e t n i W = O
) S ( 3 W e l b a s i D c e l E I o t t e s f i r e t a e H c i r t c e l E e l b a s i D c e l E e l b a n e = O
) S ( 4 W r i A = I r e t a W = O ) R A ( I = 4 W ) T W , R W ( O = 4 W e g n a h c y g e t a r t S *
) S ( 5 W e d o m w o d n i W O o t t e s f i t c a t n o c m r a l a , I o t t e s f i t c a t n o c w o d n i W t c a t n o c m r a l a = O
) S ( 6 W R I P = I b P = O O o t t e s f i n o t t u b h s u P , I o t t e s f i R I P n o t t u b h s u p = O
) S ( 7 W n o i t i d n o C t s o r F d e i p u c c o n u f i ) 2 R A / t o n ( % 8 9 o t g n i t a e h s e d i r r e v O t s o r f o n = O
) S ( 8 W n w o d t u h S e t o m e R o r e z o t l o o c / t a e h s t e s d n a , n a f f f o s t u h S n w o d t u h s o n = O
) G ( 1 L n i a G p o o L t a e H 0 4
) I ( 1 L l a r g e t n I p o o L t a e H s n i m 0
) G ( 2 L n i a G p o o L l o o C 0 4 -
) I ( 2 L l a r g e t n I p o o L l o o C s n i m 0