364
Monitoring of DC analog measurements
&KDSWHU
0RQLWRULQJ
All processing of the measured signal is performed on the module so that only the min-
imum amount of information is necessary to be transmitted to and from the MPM. The
measuring module receives information from the MPM on setting and the command pa-
rameters; it reports the measured values and additional information—according to
needs and values of different parameters.
Each measuring channel is calibrated very accurately during the production process.
The continuous internal zero offset and full-scale calibration during the normal opera-
tion is performed by the A/D converter. The calibration covers almost all analog parts
of the A/D conversion, but neglects the shunt resistance.
Each measuring channel has built in a zero-value supervision, which greatly rejects the
noise generated by the measuring transducers and other external equipment. The value
of the measured input current is reported equal to zero (0) if the measured primary quan-
tity does not /-0.5% of the maximum measuring range.
The complete measuring module is equipped with advanced self-supervision. Only the
outermost analog circuits cannot be monitored. The A/D converter, optocouplers, digi-
tal circuitry, and DC/DC converters, are all supervised on the module. Over the CAN
bus, the measuring module sends a message to the MPM for any detected errors on the
supervised circuitry.
&DOFXODWLRQV
The PST Parameter Setting Tool has to be used in order to set all the parameters that are
related to different DC analog quantities.
Users can set the 13 character name for each measuring channel.
All the monitoring operating values and the hysteresis can be set directly in the mA of
the measured input currents from the measuring transducers.
The measured quantities can be displayed locally and/or remotely according to the cor-
responding modules that are separately set for each measuring channel by the users
(five characters).
The relation between the measured quantity in the power system and the setting range
of the direct current measuring channel corresponds to this equation:
(Equation 79)
Valu e
ValueMin
I
IMin
–
(
)
ValueMax
ValueMin
–
IMax
IMin
–
--------------------------------------------------------------
⋅
+
=
Содержание REO 517
Страница 10: ... RQWHQWV ...
Страница 16: ...6 Introduction to the application manual KDSWHU QWURGXFWLRQ ...
Страница 64: ...54 Blocking of signals during test KDSWHU RPPRQ IXQFWLRQV ...
Страница 88: ...78 Scheme communication logic ZCOM KDSWHU LQH LPSHGDQFH ...
Страница 100: ...90 Time delayed phase and residual overcurrent protection TOC1 KDSWHU XUUHQW Equation 36 Iset IsSEC I1b 100 ...
Страница 146: ...136 Unbalance protection for capacitor banks TOCC KDSWHU XUUHQW ...
Страница 166: ...156 Dead line detection DLD KDSWHU 3RZHU V VWHP VXSHUYLVLRQ ...
Страница 171: ...161 About this chapter KDSWHU RQWURO KDSWHU RQWURO ERXW WKLV FKDSWHU This chapter describes the control functions ...
Страница 293: ...283 About this chapter KDSWHU RJLF KDSWHU RJLF ERXW WKLV FKDSWHU This chapter describes the logic functions ...
Страница 378: ...368 Monitoring of DC analog measurements KDSWHU 0RQLWRULQJ ...
Страница 379: ...369 About this chapter KDSWHU 0HWHULQJ KDSWHU 0HWHULQJ ERXW WKLV FKDSWHU This chapter describes the metering functions ...
Страница 384: ...374 Pulse counter logic PC KDSWHU 0HWHULQJ ...
Страница 412: ...402 Serial communication modules SCM KDSWHU DWD FRPPXQLFDWLRQ ...
Страница 440: ...430 LED indication module KDSWHU DUGZDUH PRGXOHV ...