LAARS Pennant PNCP - Install and Operating Manual User Manual

Pennant Pool Heater

Page 13

A concentration of chlorine in the heater can be

very destructive; therefore the following rules about

the installation and operation of such devices must be

followed:

1. The chlorinator should be installed so it

introduces the gas or solution downstream of the

heater.

2. The chlorinator should be wired so it cannot

operate unless the filter pump is operating.

3. The chlorinator should be provided with an anti-

siphon device so that the draining of the piping

after the pump shuts off will not siphon chlorine

solution into the heater.

4. When the operation of a chlorinator is such

that it must be installed in the pump suction, or

some other place where the chlorine solution

flows through the heater, corrosion of the

heater can occur. Excessive concentrations of

chlorine resulting from improper adjustment or

chlorinator equipment failure are responsible

for this corrosion. The heater warranty does not

cover the resulting damage to the heat exchanger.

4.3 Sensor Locations

Two sensors must be installed in the pool loop, as

shown in Figure 6. The inlet sensor for the temperature

control must be installed in the pool loop within 12”

(30 cm) of the inlet to the heater. This sensor is not

installed in a well. For sensitivity, it must be installed

in direct contact with the pool water flow. The second

sensor, the high limit sensor, must be installed in the

pool loop within 12” (30 cm) downstream of the heater

outlet. This sensor is a capillary and bulb. It shall be

used with the immersion well that is provided.

SECTION 5.

Electrical Connections

WARNING

The appliance must be electrically grounded in

accordance with the requirements of the authority

having jurisdiction or, in the absence of such

requirements, with the latest edition of the National

Electrical Code, ANSI/NFPA 70, in the U.S. and

with latest edition of CSA C22.1 Canadian Electrical

Code, Part 1, in Canada. Do not rely on the gas

or water piping to ground the metal parts of the

boiler. Plastic pipe or dielectric unions may isolate

the boiler electrically. Service and maintenance

personnel, who work on or around the boiler, may

be standing on wet floors and could be electrocuted

by an ungrounded boiler.

Single pole switches, including those of safety

controls and protective devices must not be wired in a

grounded line.

All electrical connections are made in the field

wiring terminal strip, which is located at the right side

of the appliance.

NOTE: All internal electrical components have been

prewired. No attempt should be made to connect

electrical wires to any other location except the field

wiring strip.

5.1 Main Power

5.1.1 Sizes 500-1500

Pennant pool heater sizes 500-1500 use a single

120-volt fused supply. The installer can change the

single service heaters to use a separate circuit for the

pump, if desired. Instructions to make this change are

found in Section 5.1.3.

Pennant 500-1500 main power (L1, N1 &

Ground) shall be connected to the three wires (10

AWG) supplied. Over-current protection ratings can be

found in Table 8.

5.1.2 Sizes 1750-2000

Pennant Sizes 1750-2000 require two 120-volt

fused supplies.

Heater circuit can be identified with 10AWG

wires to include black, white and green (all solid

colors). Pump circuit can be identified with three

12AWG wires to include a black wire with a white

tracer (stripe), a white and green wire.

5.1.3 Separate Pump Circuit

Conversion to separate pump circuit will

necessitate removing the three jumpers within

the internal wiring of the 120-volt portion of the

heater (see Figure 7). Only do this with the power

disconnected to the unit!

To rewire the pump circuit, bring in another

120-volt fused supply (L2, N2 & Ground). Connect

incoming power (L2) to the main power switch using