Brief Description; Technical Data - Camille Bauer SINEAX V 604 Mode D'emploi

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(7)
(3)
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Cam ille Bau e
CH- 561 0 Wo
S1
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)
Top-hat rail 35 ×15 mm or 35×7.5 mm (EN 50 022)
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(13) Terminals 1, 2, 6, 7, 11, 12 measuring input M
(14) Terminals 4, 9 measuring output A1
3, 8 measuring output A2
5, 10 power supply H
13, 14, 15 output contact K
(15) Space for notes
S1 Calibration button for automatically compensating the leads
of two-wire resistance thermometer circuits
ON Green LED for signalling operating statuses
Red LED for open-circuit sensor supervision
or
as relay status signal (open-circuit sensor supervision not in
operation)

4. Brief description

Resistance thermometers, thermo-couples, resistance sen-
sors, potentiometers or DC current or voltage sources are
connected to the programmable universal transmitter SINEAX
V 604 which then converts the corresponding input signals
into impressed current or voltage output signals.
Explosion-proof "intrinsically safe" [EEx ia] IIC versions
approved for processing measured variables in explosion
hazard zones rounds off this series of transmitters.
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Swi tzer la
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The transmitter fulfi ls the protection requirements according
to the EMC guideline (89/336/EWG). The device bears the
CE symbol for EMC.
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Measured variables and measuring ranges are program-
med with the aid of a PC, a programming cable and the
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programming software. Specifi c measured variable data
such as output signal, transmission characteristics, active
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direction and open-circuit sensor supervision data can also
be programmed.
Transmitters supplied ex stock are confi gured as follows:
– Measuring input
– Measuring output
ON
– Settling time
– Break monitoring
– Mains ripple suppression
( (
– Limit function
S1

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 resistance thermo-
meters
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".
2 Max. 30 V for Ex version with I.S. measuring input.
0...5 V DC
0...20 mA linear
Fixed value 0%
during 5 s after
switching on
0.7 s
Inactive
50 Hz
Inactive
Measuring ranges
Min.
Limits
span
1
± 300 mV 2 mV
2 ± 40 V 1 300 mV
± 12 mA 1 0.08 mA 12 mA
– 50 to 0.75 mA 100 mA
1
+ 100 mA
– 200 to
+ 850 °C
0...740 Ω 1 8 Ω
1
0...5000 Ω 40 Ω
– 270 to 2 mV
+ 1820 °C
1
0...740 Ω 8 Ω
0...5000 Ω 1 40 Ω
Max.
span
300 mV
40 V
740 Ω
5000 Ω
300 mV
740 Ω
5000 Ω
21