LumaSense Technologies IS 5/F Benutzerhandbuch
Seite 26
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26
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Measuring value (read)
(S=one-channel temp.,
Q=quotient temperature,
F=flame temperature)
AAms
AAek
AAef
Answer: FFFFF
(88880=Overflow)
Answer: SSSSSQQQQQ
Answer: SSSSSQQQQQFFFFF
each 5 decimal digit (in °C, last digit is 1/10 °C)
one-channel temperature with emissivity
quotient temperature with ratio correction
ττ
(read)
AAtr
Answer: DDDD
4 decimal digit 0000..1500
Minimum intensity
(minimal allowed
ττ
)
AAawXX
AAar
XX=02..50
(0.020..0.500)
Answer: DD
2 decimal digit 02..05
Basic range (read)
Partial range (read)
AAmb
AAme
Answer: XXXXYYYY
2x4 hex-digit for lower and upper range limit (°C)
Partial range (set)
1.
2.
AAm1XXXXYYYY
AAm2
XXXXYYYY=2x4 hex-digit for lower and
upper range limit (°C)
AAm2 confirms the change
(autoreset)
internal temperature
(read)
AAgt
AAtm
Answer: DD
2 decimal digits (00..98 °C)
gt=current temp.
tm=maximum temp. (memory)
Baud rate (set)
AAbrX
X=0..5 0=1200 Bd ... 5=38.4 kBd
(autoreset)
Device address (set)
AAgaXX
XX=00...97
(autoreset)
Read parameters
AApa
Answer: 15 decimal digits
DD............. : Emissivity
(see em)
..D............ : Response time
(see ez)
...D........... : Clear peak memory
(see lz)
....D.......... : Analog output
(see as)
.....DD........ : Internal temperature (see gt)
.......DD...... : Device address
(see ga)
.........4..... : Baud rate
(see br )
..........0.... : always 0
...........DDDD : Ratio correction
(see vr)
Device type /
software version
AAve
Answer: VVMMJJ VV=57
MM=Month
JJ=Year of software version
soot factor
AAruXXX
AArr
XXX=050...250
(n=0,50...2,50)
Answer: DDD
3 decimal digits 050...250
optical thickness
AAod
Answer: DDDDD
5 decimal digits 00000...12000
(00,000...12,000)
data record
AAfX
X=1..5
number of values
Answer:
FFFFDDDDSSSSQQQQGG (with X=5)
FFFF
flame temperature*10 as hex-digit
DDDD
optical thickness*1000 as hex-digit
SSSS
one-channel temperature*10 as hex-digit
QQQQ
quotient temptemperature*10 as hex-digit
GG
current device temperature as decimal digits