Commissioning; Technical Data - Camille Bauer SINEAX DME 440 Betriebsanleitung

7. Commissioning

Prior to starting, check that the connection
data of the transducer agrees with the system
data (see type label).
The power supply to the transducer can then be switched
on and the signals applied to the measuring inputs.

7.1 Technical data

Symbols
Symbols Meaning
X Measured variable
X0 Lower limit of the measured variable
X1 Break point of the measured variable
X2 Upper limit of the measured variable
Y Output variable
Y0 Lower limit of the output variable
Y1 Break point of the output variable
Y2 Upper limit of the output variable
U Input voltage
Ur Rated value of the input voltage
U 12 Phase-to-phase voltage L1 – L2
U 23 Phase-to-phase voltage L2 – L3
U 31 Phase-to-phase voltage L3 – L1
U1N Phase-to-neutral voltage L1 – N
U2N Phase-to-neutral voltage L2 – N
U3N Phase-to-neutral voltage L3 – N
UM Average value of the voltages
(U1N + U2N + U3N) / 3
I Input current
I1 AC current L1
I2 AC current L2
I3 AC current L3
Ir Rated value of the input current
IM Average value of the currents (I1 + I2+ I3)/3
IMS Average value of the currents and sign of the
active power (P)
IB RMS value of the current with wire setting
range (bimetal measuring function)
IBT Response time for IB
34
SINEAX DME 440
Ord: 440/440440/440/2
Terminals
Input quantities
IL1 1
and power supply
IL2 4
IL3 7
100V 2.5A (16.8 kV/100V 2500A/2.5A) 50Hz
 0.25* c 
15+ 16–
A
P1 –85MW –20mA
85MW 20mA
 0.25* c  19+ 20–
C
I3 0A 0mA
3000A 20mA
1: P R
Programmed
2: P
G
000
internal energy
3: Q L
meters
4: Q C
Measuring input
Input voltage, input current,
the figures in brackets are the
ratios of the main v.t's and c.t's,
nominal frequency, system
Power supply
Fig. 9. Declaration to type label.
Symbols Meaning
BS Slave pointer function for the measurement
of the RMS value IB
BST Response time for BS
ϕ
Phase-shift between current and voltage
F Frequency of the input variable
Fn Rated frequency
P Active power of the system
P = P1 + P2 + P3
P1 Active power phase 1
(phase-to-neutral L1 – N)
P2 Active power phase 2
(phase-to-neutral L2 – N)
P3 Active power phase 3
(phase-to-neutral L3 – N)
Q Reactive power of the system
Q = Q1 + Q2 + Q3
Q1 Reactive power phase 1
(phase-to-neutral L1 – N)
Q2 Reactive power phase 2
(phase-to-neutral L2 – N)
Q3 Reactive power phase 3
(phase-to-neutral L3 – N)
S Apparent power of the system
S = √ I
1
S1 Apparent power phase 1
(phase-to-neutral L1 – N)
S2 Apparent power phase 2
(phase-to-neutral L2 – N)
S3 Apparent power phase 3
(phase-to-neutral L3 – N)
Sr Rated value of the apparent power of the
system
Camille Bauer AG Manufacturer
CH - 5610 Wohlen
Switzerland
Works No.
AC/DC 85–230 V
13
50/60 Hz 10 VA
14
Test mark
3 UL1 2 N 11
6 UL2 5
9 UL3 8
 0.25* c 
17+ 18–
B
U12 0kV 0mA
Terminals
18.5kV 20mA
Output quantities
0.15+0.03*c 21+ 22–
D
F 49Hz –20mA
51Hz 20mA
RS485
Terminals MODBUS
23 25
Tx+/Rx+ GND
24 26
MODBUS Tx–/Rx– XXX = Space for the
XXX
device address
9600 Baud
Baud rate
· √ U
+ I + I + U + U
2 2 2 2 2
2 3 1 2
2
3