Motherboard, Pressure/Flow Sensor Assembly

Troubleshooting

Model GFC7000TA Carbon Dioxide Analyzer

3.If the drive voltage is correct in step 2, then remove the source from the heat sink assembly (2 screws on top) and connect to its mating connector. Observe the light being emitted from the source. It should be centered at the bottom of the U-shaped element. If there is either no emission or a badly centered emission then the source is bad.

10.5.7.5. Pressure/Flow Sensor Assembly

The pressure/flow sensor PCA, located on the top of the absorption bench, can be checked with a Voltmeter using the following procedure which, assumes that the wiring is intact, and that the motherboard and the power supplies are operating properly:

1.For Pressure related problems:

∙Measure the voltage across C1 it should be 5 ± 0.25 VDC. If not then the board is bad.

∙Measure the voltage across TP4 and TP1. With the sample pump disabled it should be 4500 mV ±250 mV. With the pump energized it should be approximately 200 mV less. If not, then S1, the pressure transducer is bad, the board is bad, or there is a pneumatic failure preventing the pressure transducer from sensing the absorption cell pressure properly.

∙For flow related problems:

∙Measure the voltage across TP2 and TP1 it should be 10 ±0.25 VDC. If not then the board is bad.

∙Measure the voltage across TP3 and TP1. With proper flow (800 cc/min at the sample inlet) this should be approximately 4.5V (this voltage will vary with altitude). With flow stopped (sample inlet blocked) the voltage should be approximately 1V. If the voltage is incorrect, the flow sensor is bad, the board is bad or there is a leak upstream of the sensor.

10.5.8. Motherboard

10.5.8.1. A/D Functions

The simplest method to check the operation of the A-to-D converter on the motherboard is to use the Signal I/O function under the DIAG menu to check the two A/D reference voltages and input signals that can be easily measured with a voltmeter.

1.Use the Signal I/O function (See Section 10.1.3 and Appendix A) to view the value of

REF_4096_MV and REF_GND. If both are within 3 mV of nominal (4096 and 0), and are stable, ±0.5 mV then the basic A/D is functioning properly. If not then the motherboard is bad.

2.Choose a parameter in the Signal I/O function such as SAMPLE_PRESSURE, SAMPLE_FLOW, CO2_MEASURE or CO2_REFERENCE. Compare these voltages at their origin (see interconnect drawing 04215 and interconnect list 04216) with the voltage displayed through the signal I/O function. If the wiring is intact but there is a large difference between the measured and displayed voltage (±10 mV) then the motherboard is bad.

Teledyne Analytical Instruments

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gfc 7000ta specifications

The Teledyne GFC 7000TA is a cutting-edge, high-performance gas flow calibrator designed for both laboratory and field applications. This instrument is renowned for its accuracy, versatility, and reliability, making it an ideal choice for various industries, including aerospace, environmental monitoring, and manufacturing.

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In summary, the Teledyne GFC 7000TA is a high-performance gas flow calibrator characterized by its advanced thermal mass flow measurement technology, versatility in accommodating various gases, user-friendly interface, and robust design. With its modern connectivity features, this instrument stands out as a vital tool for professionals seeking precision and reliability in gas flow applications.

Teledyne gfc 7000ta Motherboard, Pressure/Flow Sensor Assembly, 10.5.8.1. A/D Functions

Models: gfc 7000ta