IntelliCenter with multiple ETI Heaters

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dw886

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Sep 19, 2016
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So I was reading the installation manual on the ETI 400 heater, and it states that you can install multiple heaters in parallel:1692629025834.png

The question that I have is about control via the IntelliCenter. It doesn't look like the ETI 400 heater has an RS485 connection, so it would have to be the fireman's switch.

Assuming a single temperature sensor connected to the Intellicenter and heaters are hooked up in Parallel as outlined above heating a single body of water, and that for control the desired outcome is that both heaters turn on together until the setpoint is reached, is it "ok" to connect both heater fireman switch connections to the Gas Heater (J2) port?

Later on in the ETI 400 manual, it has this cryptic statement (highlighted), and I'm trying to understand what it means:
1692629593540.png

I'm assuming that one side of the fireman's switch has voltage, so polarity would matter in this sitution, otherwise the power from one heater may be completing the fireman's switch circuit for the other heater...
 
They are saying to wire up two external relays that are closed by the IntelliCenter heater connector and each relay closes the "Fireman's Switch" on one heater.
 
ajw22 said:
They are saying to wire up two external relays that are closed by the IntelliCenter heater connector and each relay closes the "Fireman's Switch" on one heater.
Click to expand...
So are they saying to route this wire into the high voltage area of the box, and use those relays to activate it, or is there a better way to do this?

I was also thinking that since one of the sides of the fireman's switch is effectively going to have voltage (aka, be "hot"), only one connection from a single heater would be needed to the J2 relay, and the non-voltage side of both heaters would need to be connected to the other J2 terminal. Thinking this would do the same thing as well?
 
dw886 said:
So are they saying to route this wire into the high voltage area of the box, and use those relays to activate it, or is there a better way to do this?
Click to expand...

No. You use two external relays and a transformer to power the coils connected to the J2 terminal.

Each heater connects to a relay.
dw886 said:
I was also thinking that since one of the sides of the fireman's switch is effectively going to have voltage (aka, be "hot"), only one connection from a single heater would be needed to the J2 relay, and the non-voltage side of both heaters would need to be connected to the other J2 terminal. Thinking this would do the same thing as well?
Click to expand...
That is not how it works.

Each heater had its 24V that needs to be kept separate.
 
ajw22 said:
No. You use two external relays and a transformer to power the coils connected to the J2 terminal.

Each heater connects to a relay.

That is not how it works.

Each heater had its 24V that needs to be kept separate.
Click to expand...
OK, so in other words, add something like a RIB double throw relay, the J2 will tell the external relay to close, and the external relay will switch both fireman switches independently at the same time.

I'm guessing that depending on the relay, a person could use the 24v coming off of the intellicenter fused output that is provided for the valves? Maybe something like this: RIBM2402D - Functional Devices, Inc.
 
dw886 said:
OK, so in other words, add something like a RIB double throw relay, the J2 will tell the external relay to close, and the external relay will switch both fireman switches independently at the same time.
Click to expand...

Correct.

dw886 said:
I'm guessing that depending on the relay, a person could use the 24v coming off of the intellicenter fused output that is provided for the valves? Maybe something like this: RIBM2402D - Functional Devices, Inc.
Click to expand...

My only concern with using the 24V from the actuators is that the relay specs do not indicate the current draw when the relay coil is energized.

There is the 24V DC 160ma connector used by the wireless antenna.

An actuator runs on 24V AC at .75 amps.
 
ajw22 said:
Correct.



My only concern with using the 24V from the actuators is that the relay specs do not indicate the current draw when the relay coil is energized.

There is the 24V DC 160ma connector used by the wireless antenna.

An actuator runs on 24V AC at .75 amps.
Click to expand...
This is listed on the datasheet for that relay - would I be incorrect to assume that these specs are for when the coil is energized?

1692650929577.png
 
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