Det-Tronics PIR9400 PointWatch Infrared Hydrocarbon Gas Detector User Manual

5

95-8440

9.3

DESCRIPTION

DETECTION METhOD
The PointWatch Model PIR

9400

operates on the infrared

absorption principle. A beam of modulated light is

projected from an internal infrared source to a reflector,

which sends it back to a pair of infrared sensors. One of

the sensors is designated reference and the other active,

with different optical filters in front of the two sensors to

make them selective to different infrared wavelengths.

The reference wavelength is unaffected by combustible

gases, while the active wavelength is absorbed by

combustible gases. The ratio of the active to the reference

wavelength is computed within the detector to determine

the concentration of gas present. This value is then
converted into a

4–20

mA current output for connection

to external display and control systems.

CURRENT LOOP OUTPUT
During normal operation, the Model PIR

9400

Detector

has a current output from

4–20

mA that is proportional to

gas concentrations from

0

to

100%

LFL. A current output

other than

4–20

mA indicates either negative gas level, a

fault or over-range condition, or that the detector is in the
calibrate mode as indicated in Table

1

.

OPERaTING MODES
Warmup
When power is applied to the detector, it enters a

Warmup mode (for approximately one minute) in which

it performs diagnostic checks and allows the sensors

to stabilize before beginning normal operation. The
current output during this period is

0

mA. At the end of

the warmup period with no faults present, the detector

automatically enters the Normal operating mode. If a

fault is present after the warmup, the detector current

output will indicate a fault.

Normal
In the normal operating mode, the

4–20

mA signal

level corresponds to the detected gas concentration.

The detector continuously checks for system faults or

initiation of calibration, and automatically changes to the

appropriate mode.

Fault
Faults detected during warmup, normal operation, or

calibration are indicated by the current loop output as
shown in Table

1

.

Calibration
All PointWatch Detectors are calibrated at the factory with

50%

LFL methane at

2.5%

by volume, and are shipped

with the internal gas selection switch set for methane

gas detection. For additional information on calibration

for other gases, refer to the “Linearized Output Options”

section of this manual.

Whenever calibration of the PointWatch Detector is

required, a momentary connection of the calibration

lead wire to DC negative (common) of the power supply

initiates the zero and span calibration sequence.

NOTE

It is not recommended to physically connect or
touch the calibration lead wire to DC common
in the field to begin calibration. This practice
is often less than precise, and may result in a
spark or other undesirable result. For optimum
ease of installation and calibration, always use
a PIRTB (furnished with magnetic reed switch,
indicating LEDs, and terminal strip), available from
Det-Tronics.

The factory default setting for the output current during
calibration is an inhibited state. See Table

1

for specific

information. Note that a live current output during

calibration can also be programmed, although this is not

usually recommended. Refer to the “Calibration” section

of this manual for details.

The calibration sequence for a particular Model PIR

9400

Detector installation is typically determined by the type of

termination box installed with the detector:

• For non-intrusive one-person calibration, select the

PIRTB with Tall Cover. This termination box includes

a magnetic reed calibration switch and calibration

LED (visible through a viewing window on the cover).

By activating the magnetic reed switch with a

calibration magnet and then viewing the LED through

the window, a one person, non-intrusive calibration
can be performed. See Figure

6

.

• For intrusive or two-person calibration, select

the PIRTB with Short Cover. This termination box

typically requires removal of the termination box

cover to view the calibration LED, or it requires

two people to accomplish a remotely initiated

non-intrusive calibration. The short cover termination

box includes a magnetic reed calibration switch,

calibration LED and a solid cover (no viewing

window). This termination box can also be used for
sensor separation. See Figure

7

.