Brief Description; Technical Data - Camille Bauer SINEAX VC 603 Mode D'emploi

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(7)
(3)
0%
100%
(8)
0%
100%
S1
1
2
ON ON
( (
(15) (14)
Fig. 2
(3) Front plate
(4) Type label (operating data)
(7) Programming connector
(8) Transparent cover
(9) Type label (device ratings)
(10) Fixing bracket
(11) Opening for withdrawing clip (for opening the housing)
(12) Top-hat rail 35 × 15 mm or 35 × 7.5 mm (EN 50 022)
(13) Terminals 1, 2, 6, 7, 11, 12 for measuring input M
(14) Terminals 4, 9 for measuring output A1
3, 8 for measuring output A2
5, 10 for power supply H
23, 24, 25, 28, 29, 30 for output contact K1
18, 19, 20 for output contact K2
13, 14, 15 for output contact K3
(15) Space for notes
S1 Calibration button for automatically compensating the
leads for used in conjunction with a two-wire resistance
thermometer circuits
1
Potentiometer for trip point GW1
2
Potentiometer for trip point GW2
●
ON
Green LED for signalling operating statuses
●
1
Yellow LED for trip point GW1
●
2
Yellow LED for trip point GW2
●
Red LED for indicating operation of open-circuit
or
●
( )
for trip point GW3 (when open-circuit supervision
( )
relay used to monitor a limit)

4. Brief description

Resistance thermometers, thermo-couples, resistance sen-
sors, potentiometers or DC current or voltage sources are
connected to the programmable combined transmitter /
alarm unit SINEAX VC 603 which then converts the
corresponding input signals into impressed current or voltage
output signals. It is also equipped with 2 limit contacts for
monitoring the input variable.
The device fulfils all the important requirements and regula-
tions concerning electromagnetic compatibility EMC and
Safe Isolation (IEC 1010). It was developed and is
24
(10)
(9)
(11)
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1
Cami lle Baue
1 2
CH-5 610 Wo
Switz erla
2
1
2
( (
ON
S1
(4)
manufactured and tested in strict accordance with the
quality assurance standard ISO 9001 / EN 29 001.
An explosion-proof "Intrinsically safe" [EEx ia] IIC version
rounds off this series of transmitters.
Measured variables and measuring ranges are programmed
with the aid of a PC, a programming cable and the pro-
gramming software. Specific measured variable data such
as output signal, transmission characteristics, active direc-
tion and open-circuit sensor supervision and various func-
tions in combination with the limit contact device can also be
programmed.
Devices supplied ex stock are programmed as follows:
– Measuring input
– Output
– Settling time
– Initial value after
switching on
– Break monitoring
– Mains ripple suppression
– Limit functions

5. Technical data

Measuring input
Measured variable M
The measured variable M and the measuring range can be
programmed
Table 1: Measured variables and measuring ranges
Measured variables
DC voltages
direct input
via voltage divider
DC currents
low current range
high current range
Temperature monitored
by two, three or four-wire 850 °C
resistance thermometers
low resistance range
high resistance range
Temperature monitored
by thermo-couples
Variation of resistance
of remote sensors/
potentiometers
low resistance range
high resistance range
1 Note permissible value of the ratio "full-scale value/span ≤ 20".
0...5 V DC
0...20 mA linear
0.7 s
0 % during 5 s
Inactive
50 Hz
Inactive
Measuring ranges
Limits Min. Max.
span span
± 300 mV 1 2 mV 300 mV
± 40 V 1 300 mV 40 V
± 12 mA 1 0.08 mA 12 mA
– 50 to 0.75 mA 100 mA
1
+ 100 mA
– 200 to
0...740 Ω 1 8 Ω 740 Ω
0...5000 Ω 1 40 Ω 5000 Ω
– 270 to 2 mV 300 mV
1820 °C
1
0...740 Ω 8 Ω 740 Ω
1
0...5000 Ω 40 Ω 5000 Ω