13 data format upp( (universal pyrometer protocol), Data format upp, Universal pyrometer protocol) – LumaSense Technologies ISR 12-LO/GS Benutzerhandbuch

IMPAC pyrometers ISR 12-LO/GS

26

13 Data format UPP

®

(Universal Pyrometer Protocol)

Via interface and a suitable communication software or via “Test” function of the InfraWin (see 9.7 Basic
settings

Test

) commands can be exchanged directly with the pyrometer.

The data exchange occurs in ASCII format with the following transmission parameters:
The data format is: 8 data bits, 1 stop bit, even parity (8,1,e)
The device responds to the entry of a command with: output (e.g. the measuring value) + CR (Carriage Re-
turn, ASCII 13), to pure entry commands with “ok” + CR.
Every command starts with the 2-digit device address AA (e.g. “00”).

This is followed by 2 small command

letters (e.g. “em” for level of emissivity

ε

), finished with CR

This is followed, if necessary for that command, by the ASCII parameter “X”. If this parameter “X” is omitted,
then the device resets with the current parameter.
A “?” after the small command letters answers with the respective settings (only at setting commands, not at
enquiry commands).
Example

: Entry:

“00ev“

+

<CR>

The emissivity slope setting (K) of the device with the address 00 is returned

Answer: “1000“ +

<CR> means Emissivity slope = 1.000

Description

Command

Parameters

Reading temperature
value:

AAms

Output: XXXXX (dec., in

1

/

10

°C or °F)

in the selected measuring mode

77770 = warm-up period of sensor or sensor

heating failed

88880 = temperature overflow
80000 = targeting light on

Reading temperature
value repeated:

AAmsXXX

XXX = 000 ... 999 (XXX = number of measuring values)

Reading measuring
values:

AAek

Output: XXXXXYYYYY (dec., in 1/10 °C or °F)
XXXXX = mono temperature
YYYYY = ratio temperature

77770 = warm-up period of sensor or sensor

heating failed

88880 = temperature overflow

80000 = laser targeting light on

Reading emissivity:

AAem

Output: XXXX (dec. 0010 ... 1000 in ‰)

Emissivity:

AAemXXXX

XXXX = (0010 ... 1000‰) (decimal)

Emissivity slope:

AAevXXXX

XXXX = 0800 ... 1200 (equivalent to 0.8 ... 1.2)

Ratio part in metal mode: AAmvXX *

)

XX = 01 ... 99%

Exposure time t

90

:

AAezX

X = 0 ... 6 (decimal) 0 = intrinsic time constant of the device
1 = 0.01 s

3 = 0.25 s

5 = 3.00 s

2 = 0.05 s

4 = 1.00 s

6 = 10.00 s

External deletion:

AAlx

Simulation of an external deletion contact

Clear times of the
maximum value storage:

AAlzX

X = 0 ... 9 (decimal) 0 = maximum value storage off
1 = 0.01 s

4 = 1.00 s

7 = external deletion

2 = 0.05 s

5 = 5.00 s

8 = automatically deletion

3 = 0.25 s

6 = 25.00 s

9 = Extern hold

Operation mode:

AAkaX

X = 0

metal mode from channel 1 and 2

X = 1

mono mode (1 channel)

X = 2 ratio temperature (2 channel)

Switch-of limit:

AAawXX

XX = 02 ... 50%

Analog output:

AAasX

X = 0 or 1 0 = 0 to 20 mA, 1 = 4 to 20 mA

Reading basic
temperature range:

AAmb

Output: XXXXYYYY (hex 8-digit, °C or °F)

XXXX = beginning of temperature range

YYYY = end of temperature range

Reading temperature
sub range:

AAme

same as mb

Setting of temperature
sub range:

AAm1XXXXYYYY XXXX (hex 4-digit) beginning of temp. range (°C or °F)

YYYY (hex 4-digit) end of temp. range (°C or °F)

Address:

AAgaXX

XX = (00 ... 97)
00 ... 97 = regular device addresses
99 = global address with response