19047-01 BENTLY
describe
19047-01 indicates the DC voltage corresponding to the zero position indication on the transmitter
The instrument scale of the channel is a positive proportional value.a large number of
The allowable adjustment depends on the direct full-scale range and
Transducer OK limits.For the maximum amount of zero adjustment,the gap
The sensor is as close as possible to the 19047-01 ideal zero position voltage based on
Full scale range,transducer scale factor,and high gear direction.Is a
The ideal gap of zero on the middle scale is the center of the range.
Adjustment button
19047-01 Adjust the zero position voltage.When you click this button,the utility will launch
Helps you set the direct zero voltage.Because this utility provides proactive
19047-01 The following sensor types are available for differential expansion
Channel:
25mm Extended Range Proximitor
35mm Extended Range Proximitor
50mm Extended Range Proximitor
Non-standard
custom button
Used to adjust the scale factor of the transducer. If you select non-standard as
The transducer type can also be adjusted to the OK limit. Non standard
The scale factor of the sensor must be between 8.5 and 23 mV/mil. In addition, 19047-01 must have
There should be at least 2 volts between the upper and lower OK limits.
Return the position of the sensor jumper on the Proximitor/Seismic/0
modular. For this function, see Section 4.1 (Setting//0 Jumpers)
19047-01 until it is reset using one of the following methods:
-Reset switch on the front of the Rack Interface Module
-Contacts on the Rack Interface 1/O Module
-Reset button in the operator display software
-Reset command via communication gateway module
-Reset command via display interface module
-Reset commands in the rack configuration software
19047-01 is installed facing or away from the probe. This field defines whether the rotor is
The movement towards or away from differential expansion corresponds to
More positive differential expansion (such as upscale on a bar chart). If this
The field is set to “Forward Probe” and then moves as the rotor moves towards the differential
The positive differential expansion ratio of the expansion probe will increase
