Transformer & wire sizing, Component & system wiring 16 – WattMaster VAV User Manual

Component & System Wiring

16

FILENAME

DATE:

B. CREWS

DESCRIPTION:

PAGE

DRAWN BY:

Wire & Transformer Sizing

JOB NAME

VAV-WIRSIZ1.CDR

WattMaster VAV

Component Power Requirements

GPC Controller .........................8VA

VAV/CAV Controller ..................8VA

VAVBOX Controller...................6VA

GPC-17 Controller ....................10VA

Lighting Panel Controller ..........10VA

MiniLink Polling Device............. 6VA

Optimal Start Scheduler............10VA

1 of 1

05/12/04

24VAC Power - Transformer & Wire Sizing Considerations For VAVBOX Controllers

120 / 24VAC

120 / 24VAC

Distance A to B cannot exceed 61.73 Ft.

Distance from A to B cannot exceed 123.46 Ft.
Distance from A to C cannot exceed 123.46 Ft.

Distance from A to B cannot exceed 230.40 Ft.
Distance from A to C cannot exceed 308.64 Ft.
Distance from A to D cannot exceed 308.64 Ft.
Distance from A to E cannot exceed 308.64 Ft.
Distance from A to F cannot exceed 308.64 Ft.

120 / 24VAC

Some installers like to use one large 24VAC transformer to power several devices. This is allowable as long as polarity is maintained to each device on
the transformer circuit.

Using

separate transformers also allows redundancy in case of a transformer failure. Instead of having 8 controllers inoperative because of a malfunctioning
transformer you have only 1 controller off line. If the installer does decide to use a large transformer to supply power to several devices, the following
transformer and wire sizing information is presented to help the installer correctly supply 24VAC power to the devices.

Following is a typical example to help the installer to correctly evaluate transformer and wiring designs.

Each VAVBOX Controller requires 6 VA @ 24VAC power. In the examples below we have a total of 10 VAV Controllers.

10 VAVBOX Controllers @ 6VA each................ 10 x 6VA =60VA.

The above calculation determines that our transformer will need to be sized for a minimum of 60VA if we are to use one transformer to power all the
controllers. We will use a 75 VA transformer, as this is a readily available size that meets our VA load requirements.

Next we must determine the maximum length of run allowable for the wire gauge we wish to use in the installation. Each wire gauge below has a
voltage drop per foot value we use to calculate total voltage drop.

18ga wire.................................0.00054 = voltage drop per 1’ length of wire
16ga wire.................................0.00034 = voltage drop per 1’ length of wire
14ga wire.................................0.00021 = voltage drop per 1’ length of wire

For our example we will use 18 gauge wire. WattMaster recommends 18 gauge as a minimum wire size for all power wiring.

Next use the voltage drop per foot value for 18 gauge wire from the list above and multiply by the total VA load of the 10 controllers to be installed.

0.00054 (Voltage drop per foot for 18 gauge wire) x 60VA controller load =

Volts/Ft.

WattMaster VAVBOX controllers will operate efficiently with a voltage drop no greater than 2 Volts. Divide the total allowable voltage drop of 2 Volts by
the number you arrived at above and you have the maximum number of feet you can run the 18 gauge wire with an 75 VA transformer with no more
than a 2 Volt drop at the farthest controller from the transformer..

2 (Volts total allowable voltage drop)

=

61.73

0.0324 (Voltage drop per 1 ft. @ 60VA load)

Parallel circuiting of the wiring instead of wiring all 10 controllers in series allows for longer wire runs to be used with the same size wire (as shown in
our examples below).

Warning:

If polarity is not maintained, severe damage to the devices may result. WattMaster Controls recommends

using a separate transformer for each device in order to eliminate the potential for damaging controllers due to incorrect polarity.

0.0324

feet

It is often necessary for the installer to calculate and weigh the cost and installation advantages and disadvantages of wire size,

transformer size, multiple transformers, circuiting, etc., when laying out an installation. No matter what layout scheme is decided upon, it is mandatory
that the farthest controller on the circuit is supplied with a minimum of 22 Volts and that the polarity is maintained to all controllers connected to the
transformer.

A

A

A

B

C

D

E

F

B

B

C

Transformer & Wire Sizing