5 Transmitters
Manual ERZ 2000-NG · EN07 · 2019, May 13th
177
A 4..20 mA operating mode could also be selected for the chosen transmitter, then
additional settings are necessary (definition of the measuring range, correction of
characteristic curve, etc.).
Other adjustment options can be selected for other transmitters with different trans-
fers. For testing purpose Random provides a stoichiometric signal, Sine a sinusoidal
shape and Jump a jump of the measurement.
Clicking on the underlined parameters provides further, in-depth information about
the parameter, e.g. "
Menu
":
Figure 122: "Menu" terminology explanation
There are additional parameters back in menu
AB Absolute pressure
(
Figure 119:
Menu AB Absolute pressure
).
If the operating mode is set to "Off", no measurement takes place and the input is
switched off. With Default, no measurement takes place, but a fixed value is used for
additional calculations.
Resistance measurements on PT100, PT500 and PT1000 can be also be conducted
for the gas temperature measurement (next chapter). The characteristic curve of
these resistance measurements as a function of the temperature is not exactly linear,
and can be described by a polynomial with 4 coefficients (0, 1, 2, 3). Then the corre-
sponding coefficients can be entered.
If the operating mode "0/4-20 mA limit value" is selected, the limit ranges automati-
cally define the alarm limits. This does not apply with the setting "4-20 mA coeff." for
the operating mode. With the 4-20 mA coefficient setting, it is not the calibrated range
that defines the alarm limits, rather the value of "Coefficient 0" is set for the 0/4 mA
value and the value of "Coefficient 1" is set for the 20 mA value. Then, the alarm lim-
its are freely adjustable and have no effect on the representation of the current input.
The DZU protocol is also frequently selected for digital transfer for pressure and tem-
perature.
The unit for pressure can be selected as bar, kp/cm
2
, psi, MPa, atm, kPa, torr, bara,
Pa and hPa.
The default value is used when the measurement runs beyond of the alarm limits.
Содержание ERZ2000-NG
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Страница 43: ...2 Introduction Manual ERZ 2000 NG EN07 2019 May 13th 33 Figure 17 Display of the ERZ2000 NG in the browser...
Страница 68: ...2 Introduction Manual ERZ 2000 NG EN07 2019 May 13th 58 Figure 44 Menu LA Overview...
Страница 69: ...2 Introduction Manual ERZ 2000 NG EN07 2019 May 13th 59 Figure 45 Menu LB Totalizer BM1...
Страница 77: ...2 Introduction Manual ERZ 2000 NG EN07 2019 May 13th 67 Figure 51 Overview System sub menu...
Страница 109: ...3 Electrical connections Manual ERZ 2000 NG EN07 2019 May 13th 99 Figure 81 Menu EH Module assembly...
Страница 111: ...3 Electrical connections Manual ERZ 2000 NG EN07 2019 May 13th 101 Figure 83 Menu EI Configuration...
Страница 241: ...6 Flow meters Manual ERZ 2000 NG EN07 2019 May 13th 231 Figure 167 Interface module C34...
Страница 261: ...6 Flow meters Manual ERZ 2000 NG EN07 2019 May 13th 251 6 5 2 AP diff pressure Figure 184 Menu AP differential pressure...
Страница 340: ...8 Overview Coordinates Manual ERZ 2000 NG EN07 2019 May 13th 330 8 5 6 TSV export...
Страница 345: ...9 Faults Manual ERZ 2000 NG EN07 2019 May 13th 335 9 1 2 JB Message register Figure 249 Menu JB Message register...
Страница 347: ...9 Faults Manual ERZ 2000 NG EN07 2019 May 13th 337 9 1 4 JD Debugging Figure 251 Menu JD Debugging...
Страница 448: ...Appendix Manual ERZ 2000 NG EN07 2019 May 13th 438 K 18 T Trend TA Trend block See chapter 2 5 8 Trend...
Страница 453: ...Certificates Manual ERZ 2000 NG EN07 2019 May 13th 443...