Det-Tronics 505 Combustible Gas Detector Transmitter with Combustible Gas Sensor CGS User Manual

10

95-8472

3.1

5. Calibrate the Model 505 Transmitter using the

Calibration Procedure described below.

CAUTION

Calibration of the Model 505 Transmitter requires
removal of the junction box cover with power
applied. Therefore, the hazardous area must be
de-classified.

6. After calibration is completed, restore the system

output loads to ready condition.

CALIBRATION

The transmitter must be calibrated upon startup and

periodically thereafter to ensure proper performance

and gas measurement accuracy. Various factors affect

the time interval between periodic calibrations (typically

30, 60, or 90 day intervals, depending on the ambient

conditions). Since each application is different, the

length of time between regularly scheduled calibrations

can vary from one installation to the next. In general,

the more frequently a system is checked, the greater the

reliability. The transmitter must be calibrated:

–

Before a new system is initially put into service

–

If the sensor is replaced

–

If the Model 505 transmitter circuit board is

replaced.

For maximum calibration accuracy, allow a new sensor to

operate under power for several hours to ensure a stable

output before performing calibration. For the highest

degree of accuracy, perform a second calibration after

24 hours.

For a new system startup, or when gas hazard conditions

change within an existing protected area, calibration

should be checked frequently, approximately twice in

the first month. The calibration data can then be used

to determine the optimum interval between periodic

calibrations.

Before performing calibration, the operator should ensure

that the sensor opening is pointing down, and examine

the sintered metal cover of the sensor to be sure that

it is not missing or damaged. If the cover is defective

or missing, the sensor must not be operated, since the

exposed sensing element can act as an ignition source.

A dirty sintered sensor cover can significantly reduce the

sensitivity of the sensor. Dust covers, splash guards, or

other sensor accessories may be desirable if ambient

conditions result in sensor inlet fouling or blockage.

CALIBRATION PROCEDURE
See Table 2. Refer to Figure 8 to locate the

potentiometers and test points on the transmitter circuit

board. Always calibrate at startup, and after replacing

either the sensor or transmitter circuit board.

A digital voltmeter with probes, a screwdriver for adjusting

potentiometers, and calibration gas are required for

performing a standard calibration.

It is important to maintain a log book for all system

calibrations performed, and to record the zero, span,

adjustment, and sensor sensitivity data before and after

each calibration is performed.

NOTE

If sensor response to 50% LFL methane is less
than 15 millivolts, the sensor should be replaced.
Refer to Table 2, “Calibration Procedure” for
information regarding calibration and sensor
sensitivity.

CALIBRATION USING K-FACTORS
The Span (gain) control adjusts the Model 505 signal

output (% LFL reading) to match the LFL percentage of

the applied calibration gas. The span setting will vary

for different combustible gases. Therefore, calibration

should always be performed using the same gas as

the one expected to be detected. If the gas or vapor

to be detected is not available from Det-Tronics in a

compressed calibration gas kit, then a “K-factor”

must be used to ensure proper sensitivity to the gas

hazard. Refer to Det-Tronics Technical Note 76-1017

for information and guidance in using K-factors.

To calibrate the Model 505 in an application that requires

the use of K-factors:

1. Determine the calibration span output level using the

formula:

C x K = S
C — Concentration of calibration gas in % LFL
K — K-factor from Table 1 in 76-1017
S — span output level

2. Multiply the span output level (S) by 0.0067, then

add 0.17 to obtain the new calibration span output

level (S1).

(S x 0.0067) + 0.17 = S1

3. Calibrate the Model 505 using the new calibration

span output level (S1) when adjusting the span

potentiometer.

Example:

Calibration gas being used — 50% LFL Methane

Gas to be detected — Acetone