Lumasense-technologies ISR 12-LO/GS Manual de usuario descargar pdf (Pagina 26)

IMPAC pyrometers ISR 12-LO/GS

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

°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

: 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

1 2 ... 21 22 23 24 25 26 27 28 29 30 31 ... 59 60

Comentarios a estos manuales

Sin comentarios

Lumasense-technologies ISR 12-LO/GS Manual de usuario Pagina 26

Comentarios a estos manuales

Relacionado con productos y manuales para Herramientas Lumasense-technologies ISR 12-LO/GS