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4200 Transmitters
September 2022
Figure 5. Transmitter Printed Wiring Board Assembly
TOP COMPONENT SIDE (VIEWED FROM TOP SIDE)
5. Apply power to the instrument.
6. While the device is in mid‐stroke position, insert a screwdriver blade into the slot in the end of the potentiometer
shaft (see figure 15), or turn the coupler (key 52, figure 19 or key 100E, figures 22 and 23) to turn the
potentiometer shaft until the DVM reads 1.25 ±0.05 volts DC. This establishes the electrical center of the
potentiometer.
7. Tighten the appropriate set screw. Check that the DVM reading has remained at 1.25 ±0.05 volts DC.
Note
For sliding‐stem applications, tighten the set screw (key 26, figure 15) in the operating arm (key 30) to a torque of 3.39 to
3.95 NSm (30 to 35 lbfSin).
8. Remove the power from the transmitter power supply.
9. Remove the DVM leads from TP3 and TP4 (transmitter signal) or TP5 and TP6 (position switch signal).
10. Refer to the direct or reverse action procedures.
Direct or Reverse Action
Direct action means, when looking at the slotted end of the potentiometer shaft, a clockwise rotation of the shaft
produces an increasing output signal from the transmitter.
Reverse action means, when looking at the slotted end of the potentiometer shaft, a clockwise rotation of the shaft
produces a decreasing output signal from the transmitter.
The transmitter produces a direct or reverse action output signal depending on the location of the potentiometer
wires inserted in terminal block number 1 (TB1) mounted on the transmitter printed wiring board. Refer to figure 6 for
the location of the wires and the wire color sequence for direct action.
14
Instruction Manual
IDENTIFICATION LABEL
D200354X012
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