The Uv Light Path; Uv Source Lamp; Figure 10-2. Uv Light Path - Teledyne T101 Operation Manual

Teledyne ML - T101 Operation Manual

10.2. THE UV LIGHT PATH

10.2.1. UV SOURCE LAMP

The optical design of the Model T101's sample chamber optimizes the fluorescent
reaction between SO
2
resulting from the decay of SO
detector.
UV radiation is generated by a lamp specifically designed to produce a maximum
amount of light of the wavelength needed to excite SO
special reference detector circuit constantly measures lamp intensity (see Equation 10-
2). A Photo Multiplier Tube (PMT) detects the UV given off by the SO
nm) and outputs an analog signal. Several focusing lenses and optical filters make sure
that both detectors are exposed to an optimum amount of only the right wavelengths of
UV. To further assure that the PMT only detects light given off by decaying SO
pathway of the excitation UV and field of view of the PMT are perpendicular to each
other and the inside surfaces of the sample chamber are coated with a layer of black
Teflon® that absorbs stray light.

Figure 10-2. UV Light Path

The source of excitation UV light for the Model T101 is a low pressure zinc-vapor lamp.
An AC voltage heats up and vaporizes zinc contained in the lamp element creating a
light-producing plasma arc. Zinc-vapor lamps are preferred over the more common
mercury-vapor lamps for this application because they produce very strong emission
levels at the wavelength required to convert SO
and UV Light (Figure 10-2) and assures that only UV light
* into is sensed by the instrument's fluorescence
2 SO2
2
Principles Of Operation
into SO * (330 nm) and a
2 2
to SO *, 214.3 nm (see Figure 10-4).
2
* decay (214
2
* the
2
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