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Sets the communication ID of the controller. Affects external communication only.
Make sure that this ID fits the setting in the communcation software (e.g. bentrup
WinControl). Each ID must be unique on the communication network
06: Slaves in Chain
(value range 0 to 15)
no explanation available
07: fctn.on pow.up
(value range 0 to 3)
Verhalten nach dem Einschalten: 0=Regler aus (IDLE), 1/2=automatischer
Programmstart wenn alle Bedingungen erfüllt sind (1=Zeit!Limit in Sekunden / 2=Zeit!
Limit in Minuten). 3=automatischer Programmstart
08: ..only if DOxx
(value range OFF, DO0.0 to DO2.3)
Programme is continued only if the selected output was ON before power breakdown.
When selecting and output controlled by a programme EVENT, this feature can be
used to enable programme continuation after a power breakdown for each segment
09: only if t<time
(value range OFF to 240)
Programme is continued only if the duration of the power failure was less than this
parameter. Depending on the selection of "fctn. on pow. up" this time limit is seconds
or minutes
10: dT input sel
(value range OFF, IN00 to IN19)
Selects the process value check for drop in temperature during a power breakdown
11: ..only if dT<x
(value range !9999 to 9999)
Programme is continued only if the selected process value did not drop more than a
the given value during power breakdown
12: p.time MIN:SEC
(options OFF, ON)
Set to 1 for fast programme cycles to enter segment time as minutes : seconds
(MIN:SEC) instead of hours : minutes
22
Table 2: analog input
Specifies the analog input signals for the controller. Analog inputs are used to connect
sensors like thermocouples, resistors, voltage/current signals to the controller. You
can exactly define signal type (voltage, resistance, current) as well as signal range,
signal conversion and correction, unit etc. The most common signal types are
predefined. Each column of the table defines one process value which are named
IN00, IN01 etc. The maximum number of analog input depends on the hardware.
.
(options END, T/C, LIN, ATMS, RES, FLOW,
00: input mode
FUN)
type of the analog input signal. Choose the appropriate kind of signal conversion from
the given options:
T/C: Thermocouple input type. Selection of thermocouple and compensation mode
see parameter below
LIN: Linear input type for generic use. This mode is used to convert any kind of linear
input signal (as defined in the corresponding parameters) into its process parameter.
An example for a typical application is to convert a 4!20mA signal from a pressure
transducer into 0 to 100 Pa process parameter
ATMS: Atmosphere signal conversion. Use this selection to convert the typical signal of
a circonoxyde probe into the kiln atmosphere reading. The controller uses the
equation of Nerntzsch to convert the probe signal into % of oxygen. The probe
temperature required for oxygen calculation is specified in the corresponding
parameters as well as the kind of gas required for the carbonmonoxyde calculation.
Note below on temperatures below 650°C no oxygen calculation is done (no reliable
probe signal)
RES: Resistance temperature sensor conversion. Converts the resistance characteristic
of most commonly used resistance sensors (like Pt100) into temperature reading
FLOW: Flow measuring device signal conversion. Use this selection of obtail the actual
flow of devices based on the method of acquring difference in pressure on an orifice
valve. The controller converts the signal using the common physical laws with the
optional compensation of media temperature and absolute media pressure
FUN: Non linear signal conversion. Use this selection to convert any signal which
operating instructions bentrup TC-S2 V1.1
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