Campbell Scientific AP200 CO2/H2O Atmospheric Profile System User Manual

Appendix B. AP200 Diagnostics

Zero/Span Inlets

The sample flow for zero/span inlets is set by restriction in the small, stainless

steel tubes that connect the bulkhead fittings to the valve manifold. See Section

4.2.2, Valve Manifold, for details.

If the flow goes too high at a valve switch, but comes into the normal range in

a few seconds, this is normal. It is caused by the pressure regulator on the

cylinder. See notes on pressure regulators in Section 7.5, Zero/Span Flow. As

long as the sample flow is within the normal range by the time the data are

included in the average, this is acceptable.

If the flow for a zero or CO

2

span inlet stabilizes at a flow that is too high or

too low, this is most likely caused by the pressure setting on the regulator.

Adjust the pressure regulator to give the desired sample flow with the

corresponding inlet selected.

Bit 6:

Cell temperature is outside its operating range

If bit 6 of

diag_AP200 is set, this indicates the IRGA sample cell temperature

is outside the normal range. To confirm this error, check the value of

cell_tmpr, which is measured by the IRGA. The normal range for the sample

cell temperature is 48°C to 52°C.

The IRGA heats the sample cell to maintain its temperature at a nominal 50°C.

It may take several minutes to stabilize at this temperature when the system is

powered up (as much as 20 or 30 min if starting from –20°C). If the system

has been powered for at least 30 min and the cell temperature is still below

48°C, contact LI-COR

®

.

The IRGA does not actively cool the sample cell when the ambient temperature

is too high. If the sample cell temperature is above 52°C, make sure the

ambient temperature is no higher than 45°C and contact LI-COR

®

if the

problem persists.

Bit 7:

Cell pressure is not at the setpoint

If bit 7 of

diag_AP200 is set, this indicates the IRGA sample cell pressure is

not at the setpoint. Compare the value of

cell_press to PUMP_P_SETPT.

Diagnostic bit 7 indicates they differ by more than 2.0 kPa.

The AP200 will control the speed of the sample pump to maintain

pump_press

(measured at the inlet of the pump) at the setpoint pressure

PUMP_P_SETPT.

If there is a problem with the pump, this will normally result in both bits 4 and

7 being set (see the notes above on bit 4). Having two independent diagnostics

allows some insurance that both of the pressure sensors are working properly.

Compare

cell_press (pressure measured by the IRGA) to pump_press

(pressure measured at the pump inlet). These two points are physically

connected by a tube with relatively low flow, such that they should be at

similar pressures. The pressure values should agree within the combined

uncertainty of the respective pressure sensors. If they disagree by more than 4

kPa, turn the pump off (set

pump_ON = False) and allow the system to

stabilize at ambient pressure. Compare each pressure sensor to the pressure

expected for the given elevation. This test may help to diagnose a problem

with the pump’s pressure sensor or the IRGA’s pressure sensor.

B-6