Cosa XPDM, Руководство пользователя

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If the current loop is not being used, it is safe to connect the DB9 connector directly to a PC; pins
1&9 will not be damaged or cause damage. The RS-232 levels are generated by the instrument only
when an RS-232 level is detected at the DB9 input. Therefore, when operating from a battery to
conserve its power, disconnect the RS-232 cable unless necessary for the operation.
6.2 Current Loop Output
The current loop signal is provided on the 9 pin sub ‘D’ female connector located at the
rear of the instrument. The current loop output functions only when the instrument is
operated from an external power supply. Pin 1 is the positive current loop output while pin
5 is the ground. This output is isolated from the sensor and case, however as a safety
precaution, there is a 1M
Ω shunt to prevent electrostatic buildup and discharge.
Note that this connector is shared with the RS-232C interface, see section 6.1 for full pin
assignments. Pin 9 controls the range of the current loop, when grounded the output is 4-
20mA, when left open the output is 0-24mA. The current loop is capable of driving loads
from 0
Ω to 500 Ω . The output is linearly proportional to the selected engineering units. The
output may be scaled such that it spans only a portion of the full range of the sensor, this
feature may be useful in cases where a higher resolution output is required over a narrow
dewpoint range, or vise versa. To verify or change the current loop scaling follow the
instructions in the set-up mode section 5.3.
The current output is computed by the microprocessor as follows:
If pin 9 is grounded for a 4-20mA range:
(
R
_
L)
O = ------------- × 16 + 4
( H
_
L )
Where:
O
=output current in mA.
R
= value of Reading shown on display in selected engineering units.
L
= value of Low Limit of Output Scaling converted to selected engineering units.
H
= value of High Limit of Output Scaling converted to selected engineering units.
See section 5.3 to select values for L & H. Their factory defaults are the upper and lower
range of the sensor i.e. for XTR-100 L= -100°C and H= +20°C. The values for L & H are
set up always in °C, however the microprocessor converts them to the currently selected
units. Note that because R, L and H are all in the same engineering units the output cur-
rent is proportional to the selected engineering units. The current is linearly proportional to
dewpoint, if the selected units are °C or °F, however if the selected units are Lbs, ppm
or G/M
3
then the current is approximately logarithmically proportional to dewpoint see
Appendix C. After hooking up the current loop output, it can be forced to its low, mid and
high points by following the instructions in section 5.3. This procedure may be helpful in
testing the connection and setting-up the termination equipment.