Bradford White 6A, 12A, 20A, 30A, 40A User Manual

COMMERCIAL ELECTRIC ENERGY SAVER

WATER HEATER

ASME SERIES IMMERSION THERMOSTAT

WITH CONTACTORS

SERVICE

MANUAL

Troubleshooting Guide

and Instructions for Service

(To be performed ONLY by

qualified service providers)

Models Covered

by This Manual:

6A, 12A, 20A, 30A, 40A, 50A, 80A, 120A

Manual 2

38-47202-00A REV 08/18

Save this manual for future reference

Table of Contents

Page Service Procedure

Introduction ………………………………………………………………………. 2 - - -

Tools……………………………………………………………………………… 2 - - -

General Information ……………………………………………………………… 3 - - -

Sequence of Operation …………………………………………………………… 10 - - -

Troubleshooting ………………………………………………………………….. 13 - - -

Heating Element Testing ……………..................................................................... 15 ACE-I

Line Voltage Testing………………...…………………………………………… 16 ACE-II

Fuse Testing…......................................................................................................... 17 ACE-III

High Limit (ECO) Testing……………………………………………………..…. 18 ACE-IV

Immersion Thermostat Operation Testing………................................................... 19 ACE-V

Contactor Operation Testing……………………………………………………… 20 ACE-VI

Immersion Thermostat Removal and Replacement…………….………………… 21 ACE-VII

High Limit (ECO) Removal and Replacement……………..…………………….. 22 ACE-VIII

Heating Element Removal and Replacement …………………………………….. 23 ACE-IX

Anode Inspection and Replacement ……………………………………………… 24 ACE-X

Generic Parts List ………………………………………………………………… 25 - - -

Glossary of Terms…………………………………………………………………. 26 - - -

Page 2

This service manual is designed to aid service and maintenance professionals on the function, proper diagnosis and repair of
Bradford White Commercial Electric Water Heaters.

The text and illustrations in this manual provide step by step instructions to facilitate proper operation and troubleshooting
procedures. Contact the Bradford White Technical Support Group immediately if diagnosis can not be made using the
methods described in this service manual.

Introduction

ASME Series

Commercial Electric Water Heaters

Tools

- Multi Meter. - Phillips Head Screw Driver.

- 2-1/8" Deep Well Socket. - Common Screw driver.

- 1-1/16" Deep Well Socket. - Thermometer.

- ¼"

Nut Driver. -Drain Hose.

- Other Hand Tools: Pipe Wrench, Channel Locks, Pliers (common & needle nose), Wire cutters, Wire Strippers,
Allen Wrench Set, Flash Light.

2

GENERAL INFORMATION

120A - 24 - 3 - 108B - BBG

Pressure Gage Option.

Control Circuit Option Code.

Any combination of the following optional controls:

- Heating Element Time Delay Sequencing.

- L

ow Water Power Interrupt.

- Pan

el Door Interlock

-High Pressure Power Interrupt

- L

ow Pressure Power Interrupt

- Al

arm Horn

Power Circuit Code.

-Voltage

-

k

W Rating

-

P

hase

-Amp Rating

Warranty

Tank

BRADF ORD WHITE CORPORATION
200 LAFAYETTE ST. MIDDLEVILLE MI 49333
Model No: 120A-24-3-108B-BBG
Serial No: ZB25 64812
Cap. 120(gal.)/454.2(liters)
Press: Test 300(psi), Working 150(psi)

Volts 240 Max Temp 180°
Phase Single Amps 100
kW Each 6 Total kW 24 4 Elements
Wattage Rating Based Upon 60 Hz

Page 3

Typical Rating Plate

Located On Front Of Water Heater

Model Number

Electrical Characteristics

Model Number Breakdown

kW Rating

In the Field, this inform ation
is obtained from the heaters

rating plate

NOTE: Code “AA”

denotes no optional

controls used.

3

Page 4

GENERAL INFORMATION

General Controls Layout

P

ressure

G

age

(optional)

Control Circuit

T

ransformer

Thermostat

Control

Heating Element

Time Delay

Sequen cers

(optional)

Terminal strip

High Limit

(

ECO)

P

ower Circuit

F

use Blocks

T

erminal

Block

Control Circuit

Fuse Block

Contactors

High Limit

Immersion Bulb

T

hermostat

I

mmersion

Bulb

Heating
Element

Alarm

Horn

(optional)

A

larm

Horn Relay

(optional)

Low Water

L

evel Control

(optional)

Low Pressure

L

imit Switch
(optional)

H

igh Pressure

L

imit Switch
(

optional)

Contactor

Terminal connections to the

fuse block and/or terminal block

Terminal connections to the

heating elements

Terminal connections of
contactor operating coil.

Contactor operation is achieved by energizing a 120 volt operating coil located within the contactor in response to a call
for heat from the immersion thermostat. Upon a call for heat, one or more contactors will energize all heating elements
simultaneously. Optionally, time delay sequencers may be used to stage contactor activation thereby reducing the
inrush of current to the water heater.

Standard Controls

4

GENERAL INFORMATION

Page 5

Immersion Style Thermostat Control

Immersion Thermostat Control

Standard Controls (continued)

D

irect

I

mmersion

b

ulb

T

he thermostat will complete control circuit
voltage upon a call for heat. Likewise, the control
will interrupt control circuit voltage when the water
t

emperature is sufficient to satisfy the adjustable

temperature limit of control.

The high limit (ECO) control will interrupt control circuit voltage
causing the heater to shut down when the high temperature limit of
the control is reached (196°F±4°F). Once the cause for over
heated water has been determined, The control must be manually
reset to restore normal operation.

Immersion Style High Limit (ECO) Control for
Contactor Models

Direct

Immersion

bulb

Manual Reset

Buttons

5

Page 6

GENERAL INFORMATION

Optional Controls

High and Low Water Pressure Controls-

These controls interrupt the electrical current to the contactor coil when the pressure settings are exceeded. The
operation and setting of these controls are described in the manual provided by the control manufacturer. This manual is
included with the water heater Installation and Operating Instruction manual provided with the water heater.

The pressure settings for these controls are adjustable. These controls are specified for use when the installation has
unique pressure requirements that must be safeguarded. Therefore, before adjusting the pressure values, it is
recommended that you consult the person responsible for the facility that the water heater is servicing.

The electrical connections are referenced in the Control Circuit Wiring Diagram and in the pressure control manual
provided by the control manufacturer. Refer to these instructions when servicing the controls.

2-1/8 Hex
Screw-in Flange

T

erminal Block

Screw

T

erminal Block

Z

inc Plated Copper or

I

ncoloy Sheath

E

lement Rating Ink Stamped

on face of Te rminal Block.

Direct Immersion “Screw-in” Type Heating Element

Standard Controls (continued)

Certain control components are available as “Optional“. When these optional components are installed with the water
heater, the control circuit wiring diagram accordingly will include these components. The optional equipment available
from the manufacturer includes the following:

-High Water Pressure Switch -Heating Element Time Delay Sequencers

-Low Water Pressure Switch -Electrical Door Lock

-Low Water Level Switch -Alarm Horn

6

GENERAL INFORMATION

Optional Controls (continued)

T

his control will interrupt the electrical current to the contactor coil when a low water level condition is sensed inside the
water heater tank. When the low water level condition is corrected the control will automatically sense the new situation
a

nd electrical current will again energize the contactor coil. Normal water heater operation will be resumed.

T

o remove the low water level control from the tank you must first loosen the control by un-threading it from the tank
fitting and then rotating the control until the arrow printed on the side of the hex fitting is pointing downward. This will
enable the float orientation to align itself with the opening in the tank-fitting.

Low Water Level Control-

When installed, refer to the direction of the arrow on the hex and insure that it is pointing upwards. If it is not pointing
upward, the control switch will not activate when the tank is refilled with water. Refer to illustration below for clarification.

Heating Element Time Delay Sequencers-

Heating element sequencers are available in order to stage the activation of the heating elements thereby, reducing the
inrush of electrical current to the water heater. The sequencers will control one or more contactor coils depending upon
the water heater voltage, phase, and KW.

One contactor will be energized immediately when there is heating demand, the second contactor, controlled with a
sequencer, will be activated approximately 20 seconds later, and the third contactor will be activated in another 20
seconds thereby, staging the three contactors over the 40 second time period. The staging occurs in a similar manner
for applications having more than three contactors.

Refer to the Control Circuit Wiring Diagram for the specific application being serviced.

Note: On the occasion of servicing the water heater where frequent restarts in a short time interval are encountered (i.e.
on, off, on, etc.), the timing sequences will not begin until the sequencers have experienced a time interval to reset.

Page 7

7

GENERAL INFORMATION

Optional Controls (continued)

Electrical Door lock-

An electrical door lock is offered in order to secure the access to the water heater control cabinet. This device will lock
the control cabinet door when the 120VAC control circuit voltage is applied to it.

Note: Once the door is opened, the water heater can be re-energized, if necessary, for service diagnosis.

Alarm Horn-

The Alarm Horn is an option specified when the installation desires an audible signal to immediately sound an alert
when the water heater operation is interrupted for certain faults. Referring to the control circuit wiring diagram, the alarm
will activate when any one of the following events occur:

The Hi-Limit control has been tripped

The High Water Pressure Control senses excessive pressure

The Low Water Pressure Control senses insufficient pressure

The Low Water Level Control senses an insufficient quantity of water

The alarm will sound only for the options specified (i.e. if a low water level control is not specified then the alarm will not
recognize a low water level condition).

Horn Relay

Horn Relay

Internal Wiring

Page 8

Combination Temperature and Pressure Gage-

A non-electrical device to visually reference water temperature and internal tank pressure.

8

GENERAL INFORMATION

Watts

Volts x 1.732

Watts = Amps x Volts

Volts

Watts

2

Commonly Used Formulas

240V 1Ph

Ungrounded

Ungrounded

Grounding

BLACK

R

ED

G

REEN

240

120

Common Service Wire
Configurations

Page 9

120

(balanced 3 phase)

Amps =

Watts

Volts

(

Single phase)

Amps =

O

hms =

120

ABCNeutral

RED BLACK RED

120

120

208

208 208

208 3Ph

120

ABCNeutral

RED BLACK RED

120

120

240

240 240

240 3Ph

277

ABCNeutral

RED BLACK RED

277

277

480

480 480

480 3Ph/277 1Ph

Full Load Current Amps

208 Volt

1 Ph 3 Ph

6

kW

9

12

13.5

15

18

24

27

30

36

45

54

28.8 16.6

43.2

25.0

57.6 33.3

64.9

37.5

72.1 41.6

86.5

50.0

115.4

66.7

129.8

75.0

144.2 83.3

173.0 100.0

216.3 125.0

259.6 150.0

240 Volt 277 Volt 380 Volt 415 Volt 480 Volt

25.0 14.4

37.2 21.6

50.0 28.9

56.2 32.5

62.5 36.1

75.0 43.4

100.0 57.8

112.5

65.0

125.0 72.2

150.0 86.7

187.5 108.3

225.0 130.0

12.5 7.2

18.7 10.8

25.0 14.4

28.1 16.2

31.2 18.0

37.5 21.6

50.0 28.9

56.2 32.5

62.5 36.1

75.0 43.3

93.7 54.1

112.5 65.0

1 Ph

21.6

32.4

43.3

48.7

54.1

64.9

86.6

97.4

108.3

129.9

162.4

194.9

3 Ph

8.3

12.5

16.7

18.8

20.9

25.0

33.4

37.5

41.7

50.1

62.6

75.1

3 Ph

9.1

13.6

18.2

20.5

22.7

27.3

36.4

41.0

45.6

54.7

68.4

82.0

1 Ph 3 Ph 1 Ph 3 Ph

3 14.4 - 12.5 - 6.3 -10.8 --

81 389.4 224.8 337.5 194.8 168.7 97.4292.4 112.6123.1

600 Volt

3 Ph

5.7

8.66

11.5

13.0

14.4

17.3

23.1

26.0

28.8

34.6

43.3

52.0

-

78.0

9

SEQUENCE OF OPERATION

This water heater has two distinct electrical systems. One system, referred to as the “Control Circuit”, controls the
w

ater heater operation, while the other system referred to as the “Power Circuit”, connects the electrical power to the
heating elements, The electrical contactors interconnect these two systems. In order to clearly illustrate the electrical
circuits, two wiring diagrams are provided. These diagrams are labeled as the “Control Circuit Wiring Diagram” and the
“

Power Circuit Wiring Diagram” and they are attached to the surface of the panels inside the water heater control

cabinet.

The control circuit operates with 120VAC electrical service. This voltage is provide by the multi-tap transformer which
has the primary coil connected to the field wiring that is serving the water heater. The Transformer, Thermostat, Hi-Limit
c

ontrol, and the Contactor Coil are always included in the Control Circuit.

Control Circuit Description-

Certain other control components are available as “Optional“. When these optional components are installed with the
w

ater heater, the control circuit wiring diagram accordingly will include these components. The optional equipment
available from the manufacturer includes the following:

High Water Pressure Switch

Low Water Pressure Switch

Low Water Level Switch

Alarm Horn

Heating Element Sequencers

Electrical Door Lock

Control Circuit Wire Diagram

4

When the thermostat calls for heat, contacts close
inside the thermostat completing the circuit and
energizing the contactor coil.

The energized contactor coil causes the contactor to
close energizing the heating elements.

5

When the temperature setting of the thermostat is
reached, the contacts in the thermostat open. This
interrupts current flow through the control circuit de­energizing the contactor coil.

6

The de-energized contactor coil causes the contactor
to open, interrupting current flow through the Heating
elements.

7

Page 10

NOTE: To help understand the concept of the operating sequence,
the control circuit shown is without any optional controls. See page

11 For control circuit showing all available optional controls

Control Circuit Sequence of Operation-

Line voltage from

power circuit

1

Line voltage is applied to control circuit fuse block.

2

Line voltage continues to transformer with one leg of
voltage connecting to the common terminal and the
other leg connecting to the appropriate line voltage
multi-tap terminal. Transformer output (always 120
volts) continues to high limit (ECO) control.

3

Hi limit (ECO) control is closed so one leg of 120 volts
continues to one side of the contactor coil. The other
leg is connected to the thermostat.

Appropriate line

voltage multi-tap

terminal

10

SEQUENCE OF OPERATION

Page 11

C

ertain other control components are available as “Optional“. These controls are specified when the installation has
unique requirements that must be safeguarded. When these optional components are installed the control circuit wiring
diagram accordingly will include these components. The optional equipment available from the manufacturer includes
the following:

High Water Pressure Switch

Low Water Pressure Switch

Low Water Level Switch

Alarm Horn

Heating Element Sequencers

Electrical Door Lock

-Heating Element Sequencers are wired in series with
contactor coils staging contactor activation at
intervals of approximately 20 seconds.

Control Circuit Sequence (Continued)-

-Hi and Low Pressure Switch and Low Water Level Switch
when specified are always wired in series ahead of the
Hi-limit control.

Control Circuit Sequence of Operation
with Optional Controls-

Control Circuit Wire Diagram

Showing Optional Controls

L

ine voltage from

power circuit

Same as explained on page 10 with the following exceptions:

-Alarm Horn is wired in series ahead of the thermostat.
It monitors only the Hi and Low pressure switch, Low
water level Switch and the hi-limit (ECO). If either of
these switches open, power to the horn relay is
interrupted causing the relay to close sounding the
alarm horn.

-Electrical Door Lock is wired in parallel to secure the
access to the water heater control cabinet. This
device will lock the control cabinet door when the
120VAC control circuit voltage is applied. Once the
door is opened, the water heater can be re-energized,
if necessary, for service diagnosis.

A

ppropriate line

v

oltage multi-tap

terminal

11

SEQUENCE OF OPERATION

The Power Circuit Wiring Diagram illustrates the electrical connections from the incoming power supply through the
contactors to the heating elements. The power circuits are available with internal circuit fusing and without internal
circuit fusing.

As it would be impractical to show all wired configurations in this service manual, a reference wiring diagram is
illustrated below to aid in the understanding of the power circuit operating sequence. Service providers must refer to the
water heaters power circuit wiring diagram attached to the inside panel of the control cabinet for the specific connections
of the water heater being serviced.

The power circuit components and supporting information that appear on the wiring diagram include the following:

Field wiring connection via terminal block or other connection point

Fuse block with amperage ratings displayed (when provided)

Contactors with amperage ratings displayed

Electrical elements with voltage and wattage ratings displayed

Water heaters total amperage draw is displayed

Power Circuit Description-

Line voltage is applied across terminals of fuse block
or a terminal block. Line voltage continues down and
connects to terminals L1, L2 & L3 of one or more
contactors.

A)

C

ontactor is open (no call for heat), so there is no

v

oltage across terminal T1, T2 & T3

o

f contactor.

B)

The

contactor is controlled by the control circuit

a

s explained on pages 10 & 11.

1

2

The control circuit senses a call for heat and
energizes the operating coil within the contactor.

The energized contactor coil causes the contactor to
close energizing the elements from terminals T1, T2
& T3 of the contactor.

3

When the temperature setting of the thermostat is
reached, the contacts in the thermostat open. This
interrupts current flow through the control circuit de­energizing the contactor coil.

4

The de-energized contactor coil causes the contactor
to open, interrupting current flow through the
elements.

5

Power Circuit Sequence-

Line voltage from

service panel

Line voltage to
control circuit

Page 12

12

TROUBLESHOOTING

Most common cause for improper electric water heater operation can be linked to heating element
failure.

W

hen troubleshooting an electric water heater with the incidence of “No Hot Water” or “Insufficient Amount of Hot

Water” It is always a good idea to check the heating elements first following the procedure on page 15.

C

ommon Heating Element Failures Are:

1

. Dry Firing. Elements may be partially submerged in water or most likely, completely exposed with no water

in the tank at all. In open air, an energized element (Dry Fired) will become completely inoperable within
seconds. In some cases sediment or lime build up around an element can eventually cause an air pocket,
resulting in a dry fired element. When element replacement is required, be sure tank is full of water prior to
energizing the water heater.

2. Grounded Element. In most cases, an element with a short circuit to ground will cause the circuit breaker in
the service panel to open or shut off. In some cases there may not be enough current draw for the circuit
breaker to open. This will allow the heating element to be in continuous operation resulting in over heated
water, limited only by the hi-limit (ECO) located in the control circuit. Repeated actuation of the
hi-limit usually is the result of a grounded heating element.

3. Sediment build up. Slow hot water recovery can usually be traced back to sediment or lime build up around
heating element. Sediment build up can also over time cause a dry fired element.

If an heating element is found to be inoperative, it must be replaced. Follow service procedure ACE-IX on page 23.

The illustration below shows a common “Screw-In” type heating element identifying certain features commonly referred
to throughout this manual.

Typical Direct Immersion “Screw-In”

Type Heating Element

Page 13

2-1/8 Hex
Screw-in Flange

Terminal Block
Screw

Terminal Block

Zinc Plated Copper or
Incoloy Sheath

Element Rating Ink Stamp ed
on face of Te rminal Block.

13

SYMPTOM PROBABLE CAUSE CORRECTIVE ACTION

No Hot Water

1. No power to h eater.
2

. Blown water heater fuses.

3. Loose wire connections.
4

. Inoperative heating element(s).

5. Inoperative thermosta t.

6. Open ECO.

7. Inoperative contactor(s).

1. Inoperative heatin g element(s).

2. Thermostat set to low.

3. Inoperative thermosta t.

4. Inoperative contactor(s).

5. Loose wire connection.

6. High demand period.

7. Undersized heater.

8. Very cold inlet water to heater.

9. Plumbing connections reversed.

Not Enough Hot

Water

Slow Hot Water

Recovery

1. Sediment or lime build up on element(s).

2. Loose wire connections.

3. Inoperative contactor(s).

4. Derated heating element installed.

Over Heated

Water

1. Grounded heating element(s).

2. Thermostat set to high.

3. Inoperative thermosta t.

4. Inoperative ECO.

1

. Check circuit breakers at service panel.

2. Check water heater fuses.
3

. Check all wire connectio ns.

4. Check heating element(s).

5. Check thermosta t operation.

6. Reset (check) ECO.

7. Check contactor operation.

1. Check heating element(s).

2. Increase thermostat setting.

3. Check the rmosta t.

4. Check contactor operation.

5. Check all wire connectio n.

6. Reduce demand.

7. Replace with large r heater.

8. Temper water to hea ter.

9. Correct plumbing connections.

1. Clean or re place hea ting elements.

2. Check all wire connectio ns.

3. Check contactor operation.

4. Verify element voltage and wattage rating.

1. Check heating element(s).

2. Adjust thermostat to desired setting.

3. Check the rmosta t.

4. Check ECO.

SERVICE

PROCEDURE

2. ACE-III, Page 17

4. ACE-I, Page 15.
5

. ACE-V, Page 19.

6. ACE-IV, Page 18

7. ACE-VI, Page 20

1. ACE-I, Page 15.

3. ACE-V, Page 19.

4. ACE-VI, Page 20 .

1. ACE-IX, Page 23 .

3. ACE-VI, Page 20 .

4. See page 6.

1. ACE-I, Page 15.

3. ACE-V, Page 19.

4. ACE-IV, Page 18.

Page 14

Noisy (singing or

hissing) Elements

1. Lime formation on elements.

2. High or low line voltage.

1. Clean or re place hea ting elements.

2. Verify line voltage to heater.

1. ACE-IX, Page 23 .

2. ACE-II, Page 16 .

TROUBLESHOOTING

WARNING
High voltage exposure. Use caution when
making voltage checks to avoid hazard to

life or property.

Noisy Contactor

1. Low line voltage.

2. Debris between contactor plates.

3. Incorrect or defective operating coil.

4. Loose wire connections.

1. Verify line voltage to heater

2. Replace contactor.

3. Replace contactor.

4. Check wire connections.

1. ACE-II, Page 16

Quick Step Plan to Hot Water

1. STOP, DANGER! Turn power “OFF” to water heater.

2. Check all wire connections to insure they are snug
and corrosion free.

3. Reset high limit (ECO) (page 18).

4. Check for inoperative heating element (page 15).

5

. Check line voltage (pg 16), and internal fuses (page 17).

6. Refer to table below if items 1 through 5 above do not correct problem.

14

SERVICE PROCEDURE ACE-I

Heating Element Testing

1

. STOP, DANGER! Turn power “OFF” to water heater.

2

. Open control panel access door.

3. Disconnect wires from heating element.

4

. Set multi-meter to “ohms” setting.

5. Touch probes of multi-meter to screw
terminals of heating element
(see illustration 1).

6

. Reading should be 12.8 ohms (±6%) for a 240
volt, 4500 watt element, see table below for other elements.

A reading outside the range using the formula
above (±6%), indicates a bad element and the
element must be replaced.

Test for Open or Burned Out Element.

DANGER

High voltage exposure. To avoid hazard to

Life or property, be sure power is turned

OFF to water heater while performing this

procedure.

Test For Grounded Heating Element
(damaged heating element with short circuit to ground).

1. STOP, DANGER! Turn power “OFF” to water heater.

2. Open control panel access door.

3. Disconnect wires from heating element.

4. Set multi-meter to “ohms” setting.

5. Touch one probe of multi-meter to either screw
terminal of heating element and the other on
the element flange (see illustration 2). There
should be no reading on the ohm meter. Any
reading indicates a grounded element and the
element must be replaced. Repeat this step for
the other screw terminal.

Ohms = Volts

2

Watts

E

lement Screw Terminals

Element

Screw Te rminal

Element Flange

Illustration 1

Illustration 2

Page 15

NOTE

Disconnect

element

Wires

NOTE

Disconnect

element

Wires

Ohms of electrical Resistance

For commonly Used Elements

Voltage Rating of Element
Element
Wattage 208 240 480 600

2000 21.6 28.8 115.2 180
3000 14.4 19.2 76.8 120
4000 10.8 14.4 57.6 90
4500 9.6 12.8 51.2 80
5000 8.7 11.5 46.1 72
6000 7.2 9.6 38.4 60
9000 4.8 6.4 25.6 40

15

SERVICE PROCEDURE ACE-II

Line Voltage Testing

L

ine Voltage Testing

Illustration 3

Page 16

1

. STOP, DANGER! Turn power “OFF” to water heater.

2. Open control panel door.

3. Determine connection point for line voltage
from service panel, terminal block or

fuse block

4. Set multi-meter to volts AC. Be sure to scale
meter for appropriate voltage.

5. Use caution and turn power “ON” to water heater.

6. Use caution and check voltage across top terminals
where service voltage connects to water heater.
(see illustration 3).

A) Rated voltage IS present, power to

the water heater is okay.

B) Rated voltage NOT present, Check

service panel.

Line voltage (single phase or three phase) will
connect to a terminal block or directly to a fuse block
l

ocated inside control panel.

Determine heaters voltage and phase by referring to the rating plate located on the front of the heater. Apply the
a

ppropriate phase procedure below to determine if proper line voltage is present.

Single Phase Line Voltage Testing

Line voltage from

service panel

connected to Terminal bloc k

of heater

Line voltage from

service panel

connected to Fu se block

of heater

OR

Check voltage across

top terminals.

1. STOP, DANGER! Turn power “OFF” to water heater.

2. Open control panel door.

3. Determine connection point for line voltage
from service panel, terminal block or

fuse block

4. Set multi-meter to volts AC. Be sure to scale
meter for appropriate voltage.

5. Use caution and turn power “ON” to water heater.

6. Use caution and check voltage across top terminals
where service voltage connects to water heater.
(see illustration 4).

A) Rated voltage IS present, power to

the water heater is okay.

B) Rated voltage NOT present, Check

service panel.

Three Phase Line Voltage Testing

Line voltage from

service panel

connected to Terminal block

of heater

Line voltage from

service panel

connected to Fu se block

of heater

OR

Check voltage across

top terminals.

Illustration 4

DANGER

High voltage exposure. To avoid hazard to

life or property use extreme caution when

making voltage checks .

16

SERVICE PROCEDURE ACE-III

Fuse Testing

F

use Testing

1. STOP, DANGER! Turn power “OFF” to water heater.

2. Open control panel door to allow access
to fuse block.

3. Locate fuse block and remove fuses.

4. Set multi-meter to the “Ohms” setting.

5. Check continuity across fuse
(see illustration 5).

A) Continuity IS present, fuse is okay.

B) Continuity NOT present, Replace with new fuse

Illustration 5

Page 17

DANGER

High voltage exposure. To avoid hazard to Life

or property, be sure power is turned OFF to

water heater while performing this procedure.

17

SERVICE PROCEDURE ACE-IV

High Limit Control Testing

H

igh Limit Control (ECO) Operation

1. Determine if Hi-Limit has actuated. This can be done by simply
depressing the reset buttons. If you hear and/or feel
a small click, the switch has actuated.

2. Use caution and turn power on to water heater and observe
heating cycle following the Hi-Limit Heating Cycle flow chart.

S

witch Contacts:

Normally closed.
Open on rise @ 196°F ±4°F
Manual Reset.

Page 18

DANGER

High voltage exposure. To avoid

hazard to Life or property, be sure

power is turned OFF to water heater

while performing this procedure.

N

I

s water temp

o

ver 196°F

N

O

bserve heating cycle.

D

oes switch open?

S

witch OK

I

s water temp

o

ver 196°F

Replace switch

N

Y

Y

1. STOP, DANGER! Turn power “OFF” to water heater.

2. Water temperature must be below 196°F ±4°F

3. Remove Hi-Limit switch from control panel. It is not necessary
to remove immersion bulb from tank at this time. See
general controls layout on page 4 for location.

4. Disconnect wire leads to Hi-Limit Control.

5. Depress reset buttons to insure switch contacts are closed.

6. Set multi-meter to Ohms setting, Check continuity Thru circuit A & B as shown in the illustrations below.

- Continuity IS present, Switch is okay.

- Continuity NOT present, Replace switch.

High Limit Control Continuity Testing

High Limit Heating Cycle Flow Chart

NOTE

Disconnect

Wire Leads to Control

Circuit “A” Continuity Testing Circuit “B” Continuity Testing

Y

18

SERVICE PROCEDURE ACE-V

Immersion Thermostat Testing

I

mmersion Thermostat Operation Testing

Thermostat Control Continuity Testing.

1. This procedure assumes line voltage, ECO and contactor(s) are in working order.

2. STOP, DANGER! Turn power “OFF” to water heater.

3. Open control panel door.

4. Locate thermostat control (see general controls layout on page 4) and remove wire leads to control screw terminals.

5. Water temperature in tank must be within operating range of thermostat for this test. If above or below, it will be
necessary to drain tank and remove thermostat immersion bulb from tank to warm or cool the bulb to be
within operating range of thermostat.

6. Set multi-meter to the “Ohms” setting.

7. Rotate thermostat dial to highest setting.

8. Check across screw terminals of control
(see illustration 7).

A) Continuity IS present, okay,

Go to step 9.

B) Continuity NOT present,

replace thermostat.

9. Rotate thermostat dial to lowest setting.

10. Check across screw terminals of control
(see illustration 7).

A) Continuity NOT present, thermostat is okay,

B) Continuity IS present, replace thermostat.

P

roviding the water temperature in tank is within the operating range of the
thermostat, checking thermostat operation can be as simple as rotating the
thermostat dial and listening to the contactor(s) to see if they respond to a call
for heat.

Use caution and turn Power “ON” and rotate the thermostat dial to call for heat.
With water temperature below the thermostat setting, the contactor(s) close.
With the contacts closed, use caution and check for rated voltage across lower
terminals of contactor(s) (see illustration 10), If rated voltage is present, the
thermostat is calling for heat.

Rotate thermostat dial to the minimum setting. With water temperature above
the thermostat setting the contactor(s) will open. With the contacts open,
voltage should not be present at lower terminals of contactor(s).

Follow the procedure below If preliminary testing above does not verify
thermostat operation.

T

hermostat Specification:

Calibration: 184°F/176°F
Max Differential: 6°F
Operating Range 80 to 180°F

Page 19

DANGER

High voltage exposure. To avoid hazard to

life or property use extreme caution when

making voltage checks .

T1 T2 T3

L1 L2 L3

C

heck voltage across

l

ower term inals of contactor(s)

NOTE: Disconnect

Wire Leads to Control

Screw Terminals

Thermostat

Dial

Thermostat Immersion Bulb

Illustration 6

Illustration 7

19

SERVICE PROCEDURE ACE-VI

Contactor Testing

Contactor Operation Testing

Noisy or chattering contactor operation in most cases is due to voltage variations being supplied to the water heater.
E

xtended periods of voltage variations will cause damage to the operating coil of the contactor causing noisy operation.
Determine that service voltage to the unit meets the electrical requirements per the rating plate located on the front of
the water heater, see page 16

In addition, debris between the contact plates will cause noisy operation.

Noisy Contactor

This procedure assumes control circuit is operating correctly.

Providing the water temperature in tank is within the operating range of the thermostat, checking contactor operation
can be as simple as rotating the thermostat dial and listening to the contactor(s) to see if they respond to a call for heat.

1. Turn Power “ON” and rotate thermostat dial to the maximum setting, with water temperature in tank below the

thermostat setting, the contactor(s) will close. With the contacts closed, check for 120 volts across operating coil
terminals (see illustration 8).

A) 120 volts IS present, okay, go to step 2.

B) 120 volts NOT present, verify control circuit

operation.

2. Check for rated voltage across lower terminals of

contactor(s) (see illustration 9).

A) Rated voltage IS present, okay,

go to step 3.

B) Rated voltage NOT present, replace

contactor.

3. Rotate thermostat dial to the minimum setting.

With water temperature in tank above thermostat
setting, the contactor(s) will open. With the contacts
open, voltage should not be present at lower terminals
of contactor(s).

4. Check for 120 volts across operating coil

terminals (see illustration 8).

A) 120 volts IS present, verify control circuit operation.

B) 120 volts NOT present, okay go to step 5.

5. Check for rated voltage across lower terminals

of contactor(s) (see illustration 9).

A) Rated voltage IS present, replace contactor.

B) Rated voltage NOT present, contactor is okay.

Page 20

DANGER
High voltage exposure. To avoid hazard to
life or property, use extreme caution when

making voltage checks .

Illustration 8

Contactor operation is achieved by energizing an
operating coil located within the contactor. The contactor
coil is considered part of the control circuit operating at
120 volts as described on page 10.

Contactor Operating Coil

T1 T2 T3

L1 L2 L3

Check voltage across

lower terminals of contactor(s)

Illustration 9

20

I

mmersion Thermostat Removal

1

. STOP, DANGER! Turn power “OFF” to water heater.

2. Open control box door.

3. Turn off cold water supply to heater. Connect hose to drain
spigot of water heater and route to an open drain. Open

a nearby hot water faucet to vent heater for draining. Open
drain spigot of water heater and allow heater to drain
to a point below the Immersion bulb location
(see illustration 10 for location ).

4

. Close drain spigot and remove hose.

5. Locate thermostat control inside lower control box

mounted to the right inside surface of the control box.
(see illustration 10).

6. Follow copper capillary tube from thermostat control to

the immersion bulb location and remove immersion bulb
from tank, 11/16" wrench.

7. Remove (pull) thermostat dial from stem of

thermostat control.

8. Remove the two control mounting screws and remove

thermostat control from control panel.

9. Disconnect wire leads to the thermostat control.

NOTE: It may be necessary to identify wires for proper
reconnection to new thermostat.

Immersion Thermostat Replacement

10. Refer to control circuit wire diagram and properly

reconnect wire leads to new thermostat control and
install new control inside control box using screws
from step 8.

11. Replace control dial to stem of thermostat.

12. Loosen ferrule nut of immersion bulb.

(see illustration 11)

SERVICE PROCEDURE ACE-VII

Thermostat Removal and Replacement

Immersion

bulb

Ferrule

nut

Copper

capillary

tube

Tank

nut

13. Position tank nut at end of immersion bulb as shown in illustration 11. Insert immersion bulb into tank and tighten

tank nut.

14. Gently pull copper capillary tube to insure the immersion bulb is in a horizontal position as shown in illustration 11

and tighten ferrule nut.

15. Resume water supply, fill tank and check for leaks.

16. Be sure tank is full or water and resume power supply to water heater. Verify proper thermostat operation.

Page 21

DANGER

High voltage exposure. To avoid hazard to

Life or property, be sure power is turned

OFF to water heater while performing this

procedure.

Illustration 10

Illustration 11

Thermostat

Control

Thermostat

Immersion

Bulb

Copper

capillary

21

SERVICE PROCEDURE ACE-VIII

High Limit (ECO) Control Removal

and Replacement

Page 22

High Limit Control (ECO) Removal

1

. STOP, DANGER! Turn power “OFF” to water heater.

2. Open control box door.

3. Turn off cold water supply to heater. Connect hose to drain

spigot of water heater and route to an open drain. Open
a nearby hot water faucet to vent heater for draining. Open
drain spigot of water heater and allow heater to drain
to a point below the Immersion bulb location

(see illustration 12).

4. Close drain spigot and remove hose.

5. Locate hi-limit control inside lower control box mounted

to the right inside surface of control box
(see illustration 12).

6. Follow copper capillary tube from control to the

immersion bulb location and remove immersion bulb
from tank, 11/16" wrench.

7. Remove the two control mounting screws

located outside the control box.

8. Disconnect wire leads to the control.

NOTE: It may be necessary to identify wires for proper
reconnection to new control.

High Limit Control (ECO) Replacement

9. Refer to control circuit wiring diagram located on the

inside of the control box and properly reconnect wire
leads to new control and install new control inside
control box using screws from step 7.

10. Loosen ferrule nut of immersion bulb.

(see illustration 13)

Immersion

bulb

Ferrule

nut

Copper

capillary

tube

Tank

nut

11. Position tank nut at end of immersion bulb as shown in illustration 13. Insert immersion bulb into tank and tighten

tank nut.

12. Gently pull copper capillary tube to insure the immersion bulb is in a horizontal position as shown in illustration 13

and tighten ferrule nut.

13. Resume water supply, fill tank and check for leaks.

14. Be sure tank is full of water and resume power supply to water heater. Verify proper high limit operation.

DANGER

High voltage exposure. To avoid hazard to

Life or property, be sure power is turned

OFF to water heater while performing this

procedure.

Illustration 12

Illustration 13

ECO

control

Copper

c

apillary

ECO

immersion

bulb

22

SERVICE PROCEDURE ACE-IX

Heating Element Removal

and Replacement

Heating Element Removal

1. STOP, DANGER! Turn power “OFF” to water heater.

2

. Open control box door.

3. Turn off cold water supply to heater. Connect hose to drain

spigot of water heater and route to an open drain. Open
a nearby hot water faucet to vent heater for draining. Open

drain spigot of water heater and allow heater to drain
to a point below the heating element(s).

4. Close drain spigot and remove hose.

5. Disconnect wires from heating element terminals.

6. Remove heating element from tank using 2-1/8"

deep well socket or appropriate wrench. Unscrew
element counter-clockwise to remove from tank.

7. Be sure to remove old element gasket from the tank. It is not recommended to be re-used.

Heating Element Replacement

1. Check new heating element terminal block for proper electrical rating. NOTE: Some heating elements have dual

ratings, be sure to check all surfaces of the heating element terminal block (see illustration 14).

2. Apply new gasket to the new heating element. Be sure gasket is seated flat against heating element flange without

rolls or gaps (see illustration 14).

3. Clean any debris from tank fitting where heating element is to be installed. Lubricate heating element threads as

needed with thread lubricant.

4. Thread new heating element clockwise into tank fitting. Tighten heating element using 2-1/8" deep well socket or

appropriate wrench. Do not over tighten, over tightening may damage gasket.

5. Reconnect wires to heating element, be sure connections are snug and corrosion free. Do not over tighten, doing so

may damage terminal block.

6. Resume water supply to heater, be sure tank is full of water and check for leaks.

7. To resume operation, BE SURE TANK IS FULL OF WATER and restore power to water heater. Verify proper heater

operation.

WARNING

Heater components and stored water may be

HOT when performing the following steps in

this procedure. Take necessary precaution to

prevent personal injury.

Page 23

DANGER

High voltage exposure. To avoid hazard to

Life or property, be sure power is turned OFF

to water heater while performing this

procedure.

2-1/8" Hex
Screw-in Flange

Terminal Block
Screw

Terminal Block

Zinc Plated Copp er or
Incoloy Sheath

Element Rating Ink Stamp ed
on face of Te rminal Block.

Element Ga sket Seate d Flat Again st
Element Flange Without Rolls or Gaps

Illustration 14

23

Page 24

WARNING

Heater components and stored water may be HOT when performing the following steps in

this procedure. Take necessary precaution to prevent personal injury.

SERVICE PROCEDURE ACE-X

Anode Inspection and Replacement

Anode Inspection and Replacement

1. STOP, DANGER! Turn power “OFF” to water heater.

2. Turn off cold water supply to heater. Connect hose to drain spigot of water heater and route to an open drain.

Open a nearby hot water faucet to vent heater for draining. Open drain spigot of water heater and allow

heater to drain to a point below the anode locations at the top of the tank.

3. Close drain spigot and remove hose.

4. Remove the plastic anode access plugs at the anode locations.

5. Remove anode from the water heater (1-1/16" socket).

6. Visually Inspect anode. Anode should show signs of depletion, this is normal.

If depletion is ½ of the original anode diameter (original diameter approximately ¾”), replacement is
recommended. If any of the steel core of the anode is exposed, replacement is recommended.

7. Upon completion of inspection or subsequent replacement, reinstall anode into heater. resume water supply, refill

heater with water and check for leaks.

8. To resume operation, BE SURE HEATER IS FULL OF WATER and turn power “ON” to water heater.

DANGER

High voltage exposure. To avoid hazard to Life

or property, be sure power is turned OFF to

water heater while performing this procedure.

Anode Ro d Location

for all models

Second anode location
For models having two

anodes (5 0A,80A,120A).

24

Page 25

Generic Parts List

25

Generic Parts List

Item Description

1 T&P Relief Valve.
2 Nipple Plastisert.
3 Hot Water Outlet Nipple.
4 Magnesium Anode.
5

Nipple Galvanized.

6

Pipe Tee Galvanized.
7 Combination T&P Gage (optional).
8 High Pressure Switch (optional).
9 Low Pressure Switch (optional).
10 Screw.
11 Immersion Thermostat.
12 Thermostat Dial.
13 Hex Nut.
14 Lock Washer.
15 Screw.
16 High Limit Spacer.
17 High Limit Switch.
18 Cleanout Access Cover.
19 Cleanout Cover Screw.
20 Cleanout Cover.
21 Cleanout Gasket.
22 Brass Drain Valve.
23 Finish Flange.
24 Extender.
25 Alarm Horn Relay (optional).
26 Alarm Horn (optional).
27 Heating Element Gasket.
28 Heating Element.
29 Heating Element Plug.
30 Low Water Switch (optional).

Item Description

31 Low Water Switch (optional).
3

2 Electrical Door Lock (optional).
33 Control Box Door.
34 Control Box.
3

5 Knockout Plate.
36 Louver Plate.
37 Contactor 2 Pole.
38 Contactor 3 Pole.
39 Contactor 4 Pole.
40 Screw.
41 Terminal Block “A”.
42 Terminal Block End “A”.
43 Terminal Block 2 Pole.
44 Terminal Block 3 Pole.
45 Screw.
46 Fuse Block 2 Pole Class G.
47 Fuse Block 3 Pole Class G.
48 Fuse Block 2 Pole Class T.
49 Fuse Block 3 Pole Class T.
51 Terminal Strip 2 post.
52 Fuse Class G.
53 Fuse Class T.
54 Ground Lug Large.
55 Ground Lug Small.
56 Screw.
57 Control Circuit Transformer.
58 Control Circuit Transformer (600 Volt).
59 Time Delay Sequencer.

Page 26

Glossary of Terms

Term Definition Unit of measure
Voltage - Electrical potential Volts
Current- Rate of voltage flow Amperes (amp)
Resistance- Ability of a device to dissipate Ohms

power irreversibly
Energy- Ability to do work kW/hr, Joule
Power- Energy per unit of time Watts, kW, VA

One kilowatt (1kW) = 1,000 Watts. = 3,412 BTU BTUH = British thermal units per hour
DC = Direct Current PSI = Pounds per square inch
AC = Alternating Current GPM = Gallons per minute
Hz = Hertz GPH = Gallons per hour

ECO = Energy cut off
°F = Degrees Fahrenheit NPT = National pipe thread
°C = Degree Centigrade ASME = American Society of Mechanical Engineers

26

NOTES

Page 34

27

Email

parts@bradfordwhite.com

techserv@bradfordwhite.com

www.bradfordwhite.com