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Teledyne analytical instruments 304 – Teledyne GFC-7001T - Trace CO Analyzer User Manual

Page 304

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Theory of Operation Teledyne API – Model T300/T300M CO Analyzer

Teledyne

Analytical

Instruments

304

The four sample and hold circuits are designated as follows:

Table 13-2:

Sync DEMOD Sample and Hold Circuits

Designation

Active When:

IR BEAM PASSING THROUGH

Segment Sensor Pulse is:

Measure Gate

MEASUREMENT cell of GFC Wheel

HIGH

Measure Dark Gate

MEASUREMENT Cell of GFC Wheel

LOW

Reference Gate

REFERENCE cell of GFC Wheel

HIGH

Reference Dark Gate

REFERENCE cell of GFC Wheel

LOW

Timing for activating the Sample and Hold Circuits is provided by a Phase Lock Loop
(PLL) circuit. Using the segment sensor output as a reference signal the PLL generates
clock signal at ten times that frequency. This faster clock signal is used by the PLD to
make the Sample and Hold Circuits capture the signal during the center portions of the
detected waveform, ignore the rising and falling edges of the detector signal.

Sample & Hold

Active

Detector

Output

Sample & Hold

Inactive

Figure 13-14: Sample & Hold Timing

13.4.3.2. SYNC/DEMOD STATUS LEDS

The following two status LEDs located on the sync/demod board provide additional
diagnostic tools for checking the GFC Wheel rotation.

Table 13-3:

Sync/Demod Status LED Activity

LED

Function

Status OK

Fault Status

D1

M/R Sensor Status

LED flashes approximately
2/second

LED is stuck
ON or OFF

D2

Segment Sensor Status

LED flashes approximately
6/second

LED is stuck
ON or OFF

See Section 12.1.4.2 for more information.

13.4.3.3. PHOTO-DETECTOR TEMPERATURE CONTROL

The sync/demod board also contains circuitry that controls the IR photo-detector’s
Thermal Electric Coolers (TEC). A drive voltage, PHT DRIVE, is supplied to the