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INSTALLATION
The transmitter is intended for DIN rail mounting. Its drawing is presented in Fig. 04.
Fig. 04 – Transmitter dimensions
ELECTRICAL CONNECTIONS
Fig. 05 below shows the transmitter connections to the sensor and power supply.
Terminals 1, 2 e 3 are used for sensor input. For 2-wire Pt100, terminals 2 and 3 shall
be connected together.
Fig. 05 – Transmitter wiring – Pt100
Fig. 06 – Transmitter wiring (Thermocouple, mA, Vdc)
The LOAD represents voltage metering instrument (indicator, controller, register,
etc.).
Electrical Connections – 0-10 Vdc input
For 0-10 Vdc input, the transmitter requires an internal hardware configuration change.
Please open the instrument case and change the jumper shown in Fig. 07.
Position 1-2: 0-10 Vdc input
•
Position 2-3: al other input types (factory setting).
•
Fig. 07 – Jumper position for 0-10 Vdc input
OPERATION
All input types and the 0-10 Vdc output are factory calibrated.
However, a manual offset trim is implemented to provide fine adjustments to the
signal in the field. This is accomplished by the front keys ZERO+ and ZERO-. Using a
small tool, press and hold the desired key for at least 2 seconds to increase or
decrease the output. The offset adjustment is capable of varying the output current by
an amount equal to ± 5 % relative to the original calibration.
The offset correction can also be accomplished by the TxConfig software. See in
Fig.3 the Zero Correction field for this purpose. The serial adaptor can be connected
to the transmitter while it is operating in the process.
The input types are listed in Table 1, along with the maximum and minimum ranges
accepted by each one. The TxConfig software will allow only configurations that are
consistent with the data in this table.
Please note that the specified accuracy is referenced to the maximum span of each
input type. For instance, for the Pt100 input, the 0.2 % accuracy results in 1.7 ºC total
accuracy [(650 – (-200)) x 0.2].
Note: when using a Pt100 simulator, make sure the transmitter Pt100 excitation
current (0.18 mA) is compatible with the simulator specification.
M I C R O P R O C E S S O R
B A S E D T E M P E R A T U R E T R A N S M I T T E R
T x I s o R a i l 0 - 1 0 V d c
I N S T A L L A T I O N A N D O P E R A T I N G M A N U A L
WARRANTY
Warranty
conditions
are
available
www.novusautomation.com/warranty.
Man 5001522 V1.0x C
on
our
website
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Summary of Contents for Novus TxIsoRail 0-10 Vdc
- Page 1 INSTALLATION Electrical Connections – 0-10 Vdc input M I C R O P R O C E S S O R For 0-10 Vdc input, the transmitter requires an internal hardware configuration change. The transmitter is intended for DIN rail mounting. Its drawing is presented in Fig. 04. B A S E D T E M P E R A T U R E T R A N S M I T T E R Please open the instrument case and change the jumper shown in Fig.
- Page 2 SPECIFICATIONS Serial port configuration errors may occur when other devices are sharing the The fields in the screen mean: same port (ex.: Palm Hot Synch). Close all serial port applications prior to 1. Sensor Input: Choose the desired temperature sensor among the available Sensor input: User defined.
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