Honeywell W7750A Manual

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EXCEL 10 W7750A,B,C CONSTANT VOLUME AHU CONTROLLER

33 74-2958—1

Table 8. VA Ratings For Transformer Sizing.

For contactors and similar devices, the in-rush power ratin

g

s

should be used as the worst case values when performin

g

power bud

g

et calculations. Also, the application en

g

ineer

must consider the possible combinations of simultaneousl

y

ener

g

ized outputs and calculate the VA ratin

g

s accordin

g

l

y

.

The worst case, that uses the lar

g

est possible VA load, should

be determined when sizin

g

the transformer.

LINE LOSS

Excel 10 Controllers must receive a minimum suppl

y

volta

g

e

of 20 Vac. If lon

g

power or output wire runs are re

q

uired, a

volta

g

e drop due to Ohms Law

(

I x R

)

line loss must be

considered. This line loss can result in a si

g

nificant increase in

total power re

q

uired and thereb

y

affect transformer sizin

g

.

The followin

g

example is an I x R line-loss calculation for a

200 ft.

(

61m

)

run from the transformer to a W7750 Controller

drawin

g

37 VA usin

g

two 18 AWG

(

1.0 mm

2

)

wires.

The formula is:

Loss = [len

g

th of round-trip wire run

(

ft.

)

] X [resistance in

wire

(

ohms per ft.

)

] X [current in wire

(

amperes

)

]

From specification data:

18 AWG twisted pair wire has 6.52 ohms per 1000 feet.

Loss = [

(

400 ft.

)

X

(

6.52/1000 ohms per ft.

)

] X

[

(

37 VA

)

/

(

24V

)

] = 4.02 volts

This means that four volts are

g

oin

g

to be lost between the

transformer and the controller; therefore, to assure the

controller receives at least 20 volts, the transformer must

output more than 24 volts. Because all transformer output

volta

g

e levels depend on the size of the connected load, a

lar

g

er transformer outputs a hi

g

her volta

g

e than a smaller one

for a

g

iven load. Fi

g

. 21 shows this volta

g

e load dependence.

In the precedin

g

I x R loss example, even thou

g

h the

controller load is onl

y

37 VA, a standard 40 VA transformer is

not sufficient due to the line loss. From Fi

g

. 21, a 40 VA

transformer is

j

ust under 100 percent loaded

(

for the 37 VA

controller

)

and, therefore, has a secondar

y

volta

g

e of 22.9

volts.

(

Use the lower ed

g

e of the shaded zone in Fi

g

. 21 that

represents the worst case conditions.

)

When the I x R loss of

four volts is subtracted, onl

y

18.9 volts reaches the controller,

which is not enou

g

h volta

g

e for proper operation.

In this situation, the en

g

ineer basicall

y

has three alternatives:

1.

Use a lar

g

er transformer; for example, if an 80 VA

model is used, see Fi

g

. 21, an output of 24.4 volts

minus the four volt line loss supplies 20.4V to the

controller. Althou

g

h acceptable, the four-volt line-loss in

this example is hi

g

her than recommended. See the

followin

g

IMPORTANT

.

2.

Use heavier

g

au

g

e wire for the power run. 14 AWG

(

2.0

mm

2

)

wire has a resistance of 2.57 ohms per 1000 ft.

which, usin

g

the precedin

g

formula,

g

ives a line-loss of

onl

y

1.58 volts

(

compared with 4.02 volts

)

. This would

allow a 40 VA transformer to be used. 14 AWG

(

2.0

mm

2

)

wire is the recommended wire size for 24 Vac

wirin

g

.

3.

Locate the transformer closer to the controller, thereb

y

reducin

g

the len

g

th of the wire run, and the line loss.

The issue of line-loss is also important in the case of the

output wirin

g

connected to the Triac di

g

ital outputs. The

same formula and method are used. The rule to

remember is to keep all power and output wire runs as

short as practical. When necessar

y

, use heavier

g

au

g

e

wire, a bi

gg

er transformer, or install the transformer

closer to the controller.

IMPORTANT

No installation should be designed where the line

loss is greater than two volts to allow for nominal

operation if the primary voltage drops to 102 Vac

(120 Vac minus 15 percent).

To meet the National Electrical Manufacturers Association

(

NEMA

)

standards, a transformer must sta

y

within the NEMA

limits. The chart in Fi

g

. 21 shows the re

q

uired limits at various

loads.

With 100 percent load, the transformer secondar

y

must

suppl

y

between 23 and 25 volts to meet the NEMA standard.

When a purchased transformer meets the NEMA standard

DC20-1986, the transformer volta

g

e-re

g

ulatin

g

abilit

y

can be

considered reliable. Compliance with the NEMA standard is

voluntar

y

.

The followin

g

Hone

y

well transformers meet this NEMA

standard:

Transformer Type VA Rating

AT20A 20

AT40A 40

AT72D 40

AT87A 50

AK3310 Assembl

y

100

Device Description VA

W7750A Excel 10 W7750 Controller 6.0

W7750B,C Excel 10 W7750 Controllers 12.0

ML6161A/B Damper Actuator, 35 lb-in. 2.2

R8242A Contactor 21.0

M6410A Valve Actuator 0.7

MMC325 Pneumatic Transducer 5.0

ML684 Versadrive Valve Actuator 12.0

ML6464 Damper Actuator, 66 lb-in. 3.0

ML6474 Damper Actuator, 132 lb-in. 3.0

ML6185 Damper Actuator SR 50 lb-in. 12.0

ML7984B PWM Valve Actuator 6.0