MODEL 54eA SECTION 15.0
TROUBLESHOOTING
15.12 SIMULATING INPUTS - OTHER AMPEROMETRIC MEASUREMENTSTo check the performance of the controller, use a decade box and a battery to simulate the current from the sen-
sor. The battery, which opposes the polarizing voltage, is necessary to ensure that the sensor current has the cor-
rect sign.
A. Disconnect the anode and cathode leads from terminals 1 and 2 on TB3 and connect a decade box and bat-
tery as shown in Figure 15-2. It is not necessary to disconnect the RTD leads.
B. Set the decade box to the resistance shown in the table.
C. Note the sensor current. It should be close to the value
in the table. The actual value depends of the voltage of
the battery. To view the sensor current from the main
display, press any key to enter the main menu. Move
the cursor to "Diagnostics" and press Enter (F4). The
sensor current is the second line in the display. Note
the units: μA is microamps, nAis nanoamps.
D. Change the decade box resistance and verify that the
correct current is shown. Calculate current from the
equation:
current (μA) =
The voltage of a fresh 1.5 volt battery is about 1.6 volt
(1600 mV).
Sensor Polarizing Voltage Resistance Expected current
499ACL-01 (free chlorine) 200 mV 28 MΩ500 nA
499ACL-02 (total chlorine) 250 mV 675 kΩ2000 nA
499ACL-03 (monochloramine) 400 mV 3 MΩ400 nA
499AOZ 250 mV 2.7 MΩ500 nA
Vbattery - Vpolarizing (mV)
resistance (kΩ)
FIGURE 15-2. Simulate Chlorine and Ozone
101