Model 9110T NOx Analyzer

Troubleshooting & Service

EXAMPLE: If the measured pressure is 25 Hg-in-A, the expected voltage level between TP4 and TP1 would be between 3533 mVDC and 4318 mVDC.

If this voltage is out of range, then either pressure transducer S1 is bad, the board is bad or there is a pneumatic failure preventing the pressure transducer from sensing the absorption cell pressure properly. Replace the PCA.

12.7.7.3. Vacuum Pressure Sensor Check

Measure the pressure on the inlet side of S2 with an external pressure meter.

Measure the voltage across TP5 and TP1.

Evaluate the reading in the same manner as for the sample pressure sensor.

12.7.7.4. O3 Flow Sensor Check

Measure the voltage across TP3 and TP1.

With proper flow (80 cc3/min through the O3 generator), this should be approximately 2V ± 0.25 (this voltage will vary with altitude).

With flow stopped (photometer inlet disconnected or pump turned OFF) the voltage should be approximately 1V.

If the voltage is incorrect, the flow sensor S3 is bad, the board is bad (replace the PCA) or there is a leak upstream of the sensor.

12.7.8. CPU

There are two major types of CPU board failures, a complete failure and a failure associated with the Disk On Module (DOM). If either of these failures occurs, contact the factory.

For complete failures, assuming that the power supplies are operating properly and the wiring is intact, the CPU is faulty if on power-on, the watchdog LED on the motherboard is not flashing.

In some rare circumstances, this failure may be caused by a bad IC on the motherboard, specifically U57, the large, 44 pin device on the lower right hand side of the board. If this is true, removing U57 from its socket will allow the instrument to start up but the measurements will be invalid.

If the analyzer stops during initialization (the front panel display shows a fault or warning message), it is likely that the DOM, the firmware or the configuration and data files have been corrupted.

12.7.9. RS-232 COMMUNICATIONS

12.7.9.1. General RS-232 Troubleshooting

TAI's analyzers use the RS-232 communications protocol to allow the instrument to be connected to a variety of computer-based equipment. RS-232 has been used for many years and as equipment has become more advanced, connections between various types of hardware have become increasingly difficult. Generally, every manufacturer observes the signal and timing requirements of the protocol very carefully.

Problems with RS-232 connections usually center around 4 general areas:

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Teledyne 9110T instruction manual RS-232 Communications, Vacuum Pressure Sensor Check, 12.7.7.4. O3 Flow Sensor Check