Det-Tronics PM-5MPX Dual Spectrum IR User Manual

5

95-8562

4.1

INTRINSICAlly SAFE CIRCUITS
Intrinsically safe installations require the use of suitable

and approved barriers, an approved fire alarm control

panel that is compatible with the barriers, and wiring

methods consistent with ANSI/ISA-RP12.6 and other

code. Appendix C calls out the type and quantity of

barriers required for installation in hazardous (classified)

locations and shows the electrical interconnection to an

NFPA compliant fire alarm control panel. Wiring that

passes from the non-hazardous location to the hazardous

location should pass through a seal appropriate for the

type of hazard. All control room instrumentation must

operate at less than 250 VRMS.

The barriers may be located in the main control panel or

in a separate enclosure, but adequate separation between

intrinsically safe and non-intrinsically safe wiring must be

observed as defined by ANSI/ISA-RP12.6. Barrier

grounds should be connected separately to the same

grounding location.

All initiating device wiring should be run in its own

separate raceway. Table 2 gives the maximum one way

wiring distances based on wire and barrier resistance. It

is also important not to exceed the maximum inductance

and capacitance listed on the intrinsic safety barriers.

This may restrict the maximum cable length to less than

the values listed in Table 2. Consult Appendix C for

further instructions.

AWg

(Solid)

maximum One Way

Wiring Distance in Feet

(Excluding Integral Cable)

14-18

20
22

1000

600
400

NON-INCENDIvE CIRCUITS
In Class I, Division 2, Group A, B, C, & D locations, the

detector may be installed in non-incendive circuits. It is

also suitable for installation in Class II/III, Division 2,

Group F & G hazardous locations. Installations require

the use of an approved fire alarm control panel that is

compatible with the Class B, Style B and/or Class A,

Style D initiating device circuits. See Appendix D and E.

NOTE

ANSI/NFPA 70 (NEC) Article 501-4(b) requires the
use of enclosed gasketed wireways.

SySTEm TEST
After the fire protection system is installed, it should be

tested for correct operation. The detectors may be tested

with live fires or by using the hand-held model PSS-MP

Test Set P/N 420116. The details of this sequence will

vary with particular installations, but the procedure must

include the following steps. See Appendix F.

pSS-mp Test procedure

WARNING

A full system test results in an alarm output. This
will result in the automatic suppression system
being activated if it is not disabled prior to testing.

1. Suppression System. Disable the suppression

system if its activation is not desired during this test.

WARNING

Do not use the PSS-MP Test Lamp unless the area
is known to be non-hazardous.

2. Fire Response Test. Turn on the PSS-MP and wait

at least 15 seconds. Direct the beam into the front of

the detector to cause an alarm output. Hold the

PSS-MP so that the infrared filter is less than 1 inch

from the front of the flame detector to be tested as

shown in Figure 3. The control panel should indicate

an alarm condition at the detector under test. See

Appendix F for additional information.

table 2—maximum Wiring Distances

figure 3—testing a pm-5mpX with the pss-mp test lamp