Siemens FEC920 User Manual page 82

Flow energy calculator

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Input filter

Note: Applying a filter to an input channel can affect the operation of any Rate-of-change alarms

configured to act on that channel.

CJC Type

Ext. CJ Temp

Sensor Break Type Defines whether the sensor break becomes active for circuit impedances greater than

Page 74

FEC920: USER GUIDE

For mA inputs this offset is removed automatically, without user intervention.

For mV inputs the offset depends on the value of the voltage source impedance and is

equal to 199.9 V/ . This offset can be compensated for either by using this Offset2

parameter, or by carrying out the 'Input Adjust' procedure (Section 6.1.9).

For Dual T/C inputs, it is recommended that the 'Input Adjust' procedure be used instead

of Offset2 as the use of Offset2 results in an offset which is non-linear over the

thermocouple range.

Damping can be used to filter out noise from slowly

changing signals so that the underlying trend can be

seen more clearly. Valid input values are between 0

and 60 seconds.

For thermocouple input types only, this allows the user to select 'None', 'Internal',

'External' or 'Remote 1' to 'Remote 4'. For Dual T/C inputs, both primary and secondary

inputs use the same cold junction.

None: No Cold junction compensation applied.

'Internal' uses the instrument's internal cold junction temperature measurement.

'External' means that the cold junction is to be maintained by the user, at a fixed, known

temperature. This temperature is entered in the 'External CJ Temp' field which appears

when 'External' is selected.

Remote 1 (2) (3) (4) means that the cold junction temperature is being measured by input

channel 1 (2) (3) (4) respectively. (This must be a different channel from that currently

being configured).

Appears only if CJC type is set to 'External', and allows the user to enter the temperature

at which the external cold junction is being maintained.

expected.

'Off' disables Sensor Break detection.

Break Low: Sensor break active if measured impedance is greater than the 'Break Low

impedance' value given in Figure 68.

Break High: Sensor break active if measured impedance is greater than the 'Break High

Impedance' value given in Figure 68.

For mA inputs, limits are applied, such that if the process value lies outside these limits, a

sensor break is assumed to have occurred. These limits are (Input lo - 4% Span) and

(Input high + 6% Span). For example, for a 4 to 20mA signal, an input below 3.36mA or

above 20.96mA will trigger a sensor break event.

Range

40mV

80mV

10V

Figure 68 Minimum impedances for sensor break detection

A5E45696052A Rev-AA

Break Low

Break High

impedance

Impedance

~5k

~20k

~5k

~20k

~12.5k

~70k

~12.5k

~120k

Input

Instrument

Response

Input filter

September 18

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Siemens FEC920 User Manual page 82

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