UM353-1
Network Communications
March 2003
6-3
6.2 LIL DATA MAPPING
LIL data is assigned to one of two data types. The first is global data which occupies parameter 1 of each channel
and is transmitted by the LIL interface every 0.5 seconds. The remaining data is non-global which occupies
parameters 2 through 256 and is transmitted in response to a LIL READ command or can be changed by a LIL
WRITE command.
Each parameter is a 16-bit word. An IEEE floating point number (Real) is assigned to 2 consecutive parameters
with the first containing the most significant and the second the least significant portion of the floating point
number. String data can occupy one or more consecutive parameters. The following tables provide an overview
listing of available data with descriptions located in Section 7. The acronym in the table identifies the data in
Section 7. Data can be accessed using the Model 320 Independent Computer Interface. Refer to AD320-10 Model
320 ICI User Manual and AD320-20 Guidelines for Writing Application Software Using the Model 320 ICI.
Guidelines:
All individual parameters (words) can be read using the random parameter data request (CMD 7). Parameters that
span multiple words, such as floating point, ASCII tags, etc., can also be read using the multiple-byte parameter
data request (CMD 23) but only one variable can be requested at a time. Writes are made using the parameter data
send (CMD 9). In some cases such as loop and alarm status words, the MASK ON/OFF type codes are used to
identify individual bits. Not all bit mapped words support this option. See Section 7 for specific information.
6.2.1 Station Data
Station data is fixed and occupies the first seven channels.
C\P
1
2
3
4
5
6
7
8
9
10`
11
12
1
GDS RAM CBT CBSR EBT EBSR RBT RBSR NBT NBSR OAT OASR
2
ST STAG
DRN
CFNR
3
SSW CWT SA CT RTS STY STM STD STH STMN
STSC
4
SE
SN
AASEL
5
NCL C1S C2S C3S C4S C5S C6S C7S C8S C9S C10S C11S
6
NSL S1S S2S S3S S4S S5S S6S S7S S8S S9S S10S S11S
7
LSLCP CFN
C\P
13
14
15
16
17
18
19
20
21
22
23
24
1
OBT OBSR OFT KSR CBDR
EBDR
RBDR
NBDR
OADR
OBDR KDR
2
SCR
NCR
3
4
5
C12S C13S C14S C15S C16S C17S C18S C19S C20S C21S C22S C23S
6
S12S S13S S14S S15S S16S S17S S18S S19S S20S S21S S22S S23S
7
L1Z L2Z L3Z L4Z L5Z L6Z L7Z L8Z L9Z L10Z L11Z L12Z
Ubus Address xx - Discrete I/O States & Forcing (N=Normal, M=Mode, F=Forced (see Section 7 for details)
C\P
25
26
27
28
29
30
31
32
33
34
35
36
1
UA01N UA02N UA03N UA04N UA05N UA06N
2
UA01M UA02M UA03M UA04M UA05M UA06M
3
UA01F UA02F UA03F UA04F UA05F UA06F
4
UA01MT
UA02MT
UA03MT UA04MT UA05MT UA06MT
5
C24S
C25S
6
S24S
S25S
L25Z
7
L13Z
L14Z
L15Z
L16Z
L17Z
L18Z
L19Z L20Z L21Z L22Z L23Z L24Z
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Содержание Moore 353
Страница 2: ...S t o c k C h e c k c o m ...
Страница 14: ...Contents UM353 1 xii March 2003 S t o c k C h e c k c o m ...
Страница 24: ...Introduction UM353 1 March 2003 1 10 S t o c k C h e c k c o m ...
Страница 152: ...LonWorks Communications UM353 1 March 2003 5 4 S t o c k C h e c k c o m ...
Страница 164: ...Network Communications UM353 1 6 12 March 2003 S t o c k C h e c k c o m ...
Страница 246: ...Operation UM353 1 March 2003 9 8 S t o c k C h e c k c o m ...
Страница 254: ...Controller and System Test UM353 1 March 2003 10 8 S t o c k C h e c k c o m ...
Страница 282: ...Circuit Description UM353 1 March 2003 13 4 S t o c k C h e c k c o m ...
Страница 298: ...Model Designation and Specifications UM353 1 March 2003 14 16 S t o c k C h e c k c o m ...
Страница 302: ...Abbreviations And Acronyms UM353 1 15 2 March 2003 S t o c k C h e c k c o m ...
Страница 304: ...Warranty UM353 1 W 2 March 2003 S t o c k C h e c k c o m ...