ADC Switch Circuit Breaker Panel With Reset Switch User Manual

ADCP-80-570  
Issue 2  
March 2006  
PowerWorx® Power Distribution Products  
Circuit Breaker Panel With Reset Switch  
User Manual  
20629-A  
1361499 Rev A  
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ADCP-80-570 • Issue 2 • March 2006 • Preface  
TABLE OF CONTENTS  
Content  
Page  
Page iii  
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ADCP-80-570 • Issue 2 • March 2006 • Preface  
TABLE OF CONTENTS  
Content  
Page  
Page iv  
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ADCP-80-570 • Issue 2 • March 2006 • Preface  
ABOUT THIS MANUAL  
This manual describes the PowerWorx Circuit Breaker Panel With Reset Switch, and provides  
all information required to install, test, and operate this product.  
STANDARD CERTIFICATION  
The panel conforms to the applicable requirements of the following: UL/CSA/EN 60950, FCC  
Part 15, CISPR 22, and CISPR 24.  
ADMONISHMENTS  
Important safety admonishments are used throughout this manual to warn of possible hazards to  
persons or equipment. An admonishment identifies a possible hazard and then explains what  
may happen if the hazard is not avoided. The admonishments — in the form of Dangers,  
Warnings, and Cautions — must be followed at all times. These warnings are flagged by use of  
the triangular alert icon (seen below), and are listed in descending order of severity of injury or  
damage and likelihood of occurrence.  
Danger: Danger is used to indicate the presence of a hazard that will cause severe personal  
injury, death, or substantial property damage if the hazard is not avoided.  
Warning: Warning is used to indicate the presence of a hazard that can cause severe personal  
injury, death, or substantial property damage if the hazard is not avoided.  
Caution: Caution is used to indicate the presence of a hazard that will or can cause minor  
personal injury or property damage if the hazard is not avoided.  
GENERAL SAFETY PRECAUTIONS  
-
Warning: The circuit breaker panel uses electrical voltage and current levels that may be  
considered an energy hazard. Only qualified personnel should be allowed to install, operate,  
maintain, or otherwise come into contact with this equipment when energized. Only insulated  
tools should be used on energized elements of the panel.  
Warning: Disconnect or turn off the power before connecting the input or output wires on the  
circuit breaker panel. This may require turning off the system office battery input at the battery  
distribution fuse bay or turning off the circuit breakers at the panel.  
Warning: Wet conditions increase the potential for receiving an electrical shock when  
installing or using electrically-powered equipment. To prevent electrical shock, never install or  
use electrical equipment in a wet location or during a lightning storm.  
Page v  
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ADCP-80-570 • Issue 2 • March 2006 • Preface  
Warning: To prevent the system from overheating, do not operate it in an area that  
exceeds the maximum recommended ambient temperature of 55º C.  
Warning: Stability hazard. The rack stabilizing mechanism must be in place, or the  
rack must be bolted to the floor before you slide the unit out for servicing. Failure to  
stabilize the rack can cause the rack to tip over.  
Warning: Suitable for mounting on concrete or other non-combustible surface only.  
Warning: Take care when connecting units to the supply circuit so that wiring is not  
overloaded.  
LIST OF ACRONYMS  
LED -- Light-Emitting Diode  
Page vi  
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ADCP-80-570 • Issue 2 • March 2006  
1 PRODUCT DESCRIPTION  
This section describes the PowerWorx Circuit Breaker Panel With Reset Switch. Topics include  
product functions and features, panel components, packaged hardware, power buses, input  
voltage, input connectors, output voltage, output connectors, chassis ground connections, circuit  
breakers, power on indicators, breaker alarm indicators, alarm operation, alarm connections,  
reset switch, circuit breaker designation card and holder, voltage designation label, material and  
finish, cooling, protective covers, mounting, specifications, and dimensions.  
1.1 Product Functions and Features  
The Circuit Breaker Panel With Reset Switch supplies low-voltage, protected dc power to –24  
Vdc or –48 Vdc powered equipment installed in a central office, multimedia headend, remote  
site, or other restricted access location. The panel provides the following functions and features:  
• Two side-by-side power buses, designated A and B, each with seven power outputs.  
• Fourteen circuit breakers (seven per bus). Each bus has two 10 Amp circuit breakers and  
five 5 Amp circuit breakers.  
• Maximum input rating of 45 Amps per bus. This corresponds to a maximum input rating  
of 90 Amps for the total panel.  
• One Power On LED (green) and one Breaker Alarm LED (red) for each bus.  
• One Reset switch for the total panel. The Reset switch allows the operator to reset the  
panel to a non-alarming state if a breaker has been turned off or tripped due to an  
overcurrent condition.  
• Alarm contacts (screw-down barrier terminal strips) for remote reporting of an alarm  
condition. The alarm contacts can be used to open or close a loop connected to an external  
alarm system.  
• Mounting brackets providing the ability to mount the panel in a 19-inch (482.6 mm) or 23-  
inch (584.2 mm) WECO or EIA equipment rack. The panel occupies one rack space (1.75  
inches, 44.4 mm).  
Note: The panel requires one open rack space above the chassis and one open rack space  
below the chassis for heat dissipation.  
• Two-hole compression-lug style terminals for input power connections.  
• Screw-down barrier terminal strips for output power connections.  
• Two chassis ground studs.  
• Easy to remove rear protective covers. These covers mount over the input and output  
power connections to prevent inadvertent contact.  
1.2 Panel Components  
Figure 1 shows the components of the circuit breaker panel.  
Page 1  
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ADCP-80-570 • Issue 2 • March 2006  
BUS A  
RESET  
SWITCH  
1 TO 7 CIRCUIT BREAKERS  
BUS B  
POWER-ON  
INDICATOR  
(GREEN LED)  
BUS A  
POWER-ON  
INDICATOR  
(GREEN LED)  
BUS A ALARM  
INDICATOR (RED LED)  
BUS B  
1 TO 7 CIRCUIT BREAKERS  
BUS B ALARM  
FRONT VIEW  
INDICATOR (RED LED)  
DESIGNATION CARD  
AND CARD HOLDER  
BUS B INPUT  
POWER TERMINALS  
ALARM  
TERMINALS  
BUS A OUTPUT  
POWER TERMINALS  
BUS B OUTPUT  
POWER TERMINALS  
CHASSIS  
GROUNDING  
STUDS  
BUS A INPUT  
POWER TERMINALS  
COVER FOR  
INPUT POWER  
TERMINALS  
COVER FOR  
OUTPUT POWER  
TERMINALS  
COVER FOR  
INPUT POWER  
TERMINALS  
REAR VIEW  
20631-A  
Figure 1. Circuit Breaker Panel Components  
Page 2  
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ADCP-80-570 • Issue 2 • March 2006  
1.3 Packaged Hardware  
The shipped product includes hardware components that are packaged separately and shipped in  
the carton with the basic panel. Figure 2 shows the shipped items:  
• 5/16-inch long, Phillips drive, 8-32 flat-head screws (8)—Used to secure the mounting  
brackets to the panel.  
• 3/8-inch long, combination drive, 12-24 pan-head screws (4) and #12 flat washers (4)—  
Used to secure the panel mounting brackets to the equipment rack.  
• #10 ring terminals (2) for #12–#10 AWG wireCan be used to connect the grounding  
cables to the grounding studs.  
• 2-Hole Lugs for #6 AWG wire (4)Used to connect input power cable to input power  
terminal blocks.  
REAR COVERS FOR INPUT  
REAR COVER FOR OUTPUT  
POWER TERMINAL BLOCK  
POWER/ALARM TERMINAL BLOCK  
2-HOLE LUGS FOR  
6 AWG WIRE  
#10 RING TERMINALS FOR  
12-10 AWG WIRE  
5/16-INCH (7.936 MM) 8-32  
FLAT-HEAD SCREWS  
VOLTAGE  
LABEL  
ORIENTATION FOR  
19-INCH RACK INSTALLATION  
3/8-INCH (9.525 MM) 12-24  
SCREWS AND #12 WASHERS  
ORIENTATION FOR  
23-INCH RACK INSTALLATION  
DESIGNATION CARD  
AND CARD HOLDER  
UNIVERSAL MOUNTING BRACKETS  
AND SCREWS  
20633-A  
Figure 2. Packaged Hardware  
Page 3  
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ADCP-80-570 • Issue 2 • March 2006  
• Rear protective input terminal covers (2) and output/alarm terminal cover (1)Used to  
prevent accidental contact with the alarm and power terminals.  
• #6-32 Screws (4)Used to fasten output/alarm terminal cover to rear of panel chassis.  
• Designation card and card holder (1)Used to record information about the protected  
equipment. Cards and clear cover insert into the card holder.  
Voltage label (1)Used to indicate whether the input voltage is –48 or –24 Vdc.  
1.4 Power Buses  
Each circuit breaker panel has two isolated power buses. Each bus distributes the input power to  
the output power circuits. In each bus circuit, current flows from the input power bus, through  
the circuit breaker, to the output power circuit. The current capacity of each bus is 45 Amps  
maximum. Figure 3 is a block diagram of the power buses.  
–24V/–48V  
BATTERY RETURN  
BATTERY A  
RETURN A  
1
2
3
4
5
6
7
BUS A  
C
NO  
FA  
NC  
SYSTEM ALARM  
CONNECTIONS  
POWER A LED  
RETURN A  
BREAKER  
ALARM A LED  
C
NO  
NC  
BUS B  
FB  
POWER B LED  
RETURN B  
BREAKER ALARM B LED  
ALARM RESET PUSHBUTTON  
–24V/–48V  
BATTERY RETURN  
BATTERY B  
1
2
3
4
5
6
7
RETURN B  
20691-A  
Figure 3. Circuit Breaker Panel Block Diagram  
Page 4  
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ADCP-80-570 • Issue 2 • March 2006  
Each of the power buses supports seven circuit breaker positions including two 10 Amp circuit  
breaker positions and five 5 Amp circuit breaker positions giving a total capacity per bus of 45  
Amps.  
When a circuit breaker trips, the input power bus is disconnected from the corresponding output  
circuit.  
1.5 Input Voltage  
The dual bus circuit breaker panel can accommodate either –24 Vdc on both buses or –48 Vdc on  
both buses.  
Warning: Use of one bus only on a dual bus panel will result in false alarms for the unused bus.  
Power is required on both buses on a dual bus panel for normal operation.  
The voltage level is sensed by the circuit breaker panel circuitry. The input voltages used with  
the circuit breaker panel can fall within the following ranges:  
• –24 Vdc nominal, within range of –21 Vdc to –30 Vdc  
• –48 Vdc nominal, within range of –42 Vdc to –56 Vdc  
1.6 Input Connectors  
Each power bus has two input connectors on the rear of the circuit breaker panel through which  
input power is provided. The two input power connectors are labeled “BATT” (battery) and “RTN”  
(return). Each input connector consists of a pair of 0.25-inch (0.635 cm) studs (with nuts) mounted  
on a plastic terminal block. Each pair of studs can accept different size 2-hole compression lugs used  
with a range of wire sizes up to #6 AWG copper wire. Two 2-hole lugs per bus for use with #6 AWG  
wire (four total) are provided with the circuit breaker panel. Additional lugs are available as  
accessory items. Maximum lug width is 0.62 inches (1.6 cm). In selecting the copper wire size to be  
used for power input, consider the allowable ampacity as defined by local practice and the National  
Electrical Code (refer to Appendix A).  
1.7 Output Voltage  
The output voltage will be the same as the applied input voltage.  
1.8 Output Connectors  
Each bus has two screw-down terminal strips with seven 8-32 screws each on the back of the  
panel. The upper terminal strip contains the BATT (power feed) connectors. The lower terminal  
strip contains the RTN (return) connectors. When a piece of equipment is connected to the  
circuit breaker panel, it is connected to one BATT connector and one RTN connector located  
vertically above and below one another.  
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ADCP-80-570 • Issue 2 • March 2006  
The individual terminals are on 0.375 inch (9.525 mm) centers with a distance between barriers  
of 0.32 inch (81.3 mm). The terminals can accept a variety of wire sizes up to #12 AWG with  
crimp-on spade lug connectors or wires in sizes from #12 AWG to #22 AWG with the insulation  
stripped back. The connectors or wires are inserted under the screws in the terminal strip, and  
the screws are tightened down.  
In selecting the copper wire size to be used for power output, consider the allowable ampacity as  
defined by local practice and the National Electrical Code (refer to Appendix A).  
1.9 Chassis Ground Connections  
Two #10 studs (with nuts) are provided for grounding the circuit breaker panel chassis. The  
studs are mounted on 0.625 inch (15.875 mm) centers, and can accommodate a 2-hole  
compression lug. Two crimp ring lug terminals for use with two #10 AWG wires are provided  
with the circuit breaker panel.  
1.10 Circuit Breakers  
The circuit breakers are magnetic actuation, manual reset, single pole, replaceable, 60 Vdc rated  
circuit breakers, with finger guard and amperage markings. Each power bus has two 10 Amp  
breakers and five 5 Amp breakers. The maximum capacity per bus is 45 Amps.  
The circuit breakers are of the type called “short delay.” The trip times of short delay circuit  
breakers are a function of the percent of rated current, as indicated in Table 1. The circuit  
breaker will trip (open) and the switch will move to the off position (bottom pushed in) when  
the circuit current exceeds the capacity of the circuit breaker. To reset a circuit breaker, push the  
switch to the on position (top pushed in).  
Circuit breakers are field-replaceable. Please contact ADC Technical Support if replacement is  
Table 1. Short Delay Trip Times in Seconds  
PERCENT OF RATED CURRENT  
100%  
135%  
150%  
200%  
400%  
600%  
800% 1000% 1200%  
NO  
TRIP  
.300-  
7.00  
.200-  
5.00  
.100-  
2.00  
.030-  
.500  
.008-  
.300  
.006-  
.150  
.005-  
.100  
.005-  
.100  
1.11 Power-on Indicators  
A green LED Power On indicator for each power bus is mounted on the front panel of the circuit  
breaker panel. If the LED indicator is on, power is being applied to the bus input connectors. If  
the green LED indicator is off, power is not being applied to the bus input connectors.  
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ADCP-80-570 • Issue 2 • March 2006  
1.12 Breaker Alarm Indicators  
For each bus, the circuit breaker panel has one visual Breaker Alarm indicator (red LED)  
mounted on the front of the panel. The breaker alarm indicator lights if any circuit breaker on  
the corresponding bus trips off. Loss of power to either bus will cause the circuit breaker alarm  
indicator for the corresponding bus to be off.  
1.13 Alarm Operation  
Warning: Use of one bus only on a dual bus panel will result in false alarms for the unused bus.  
Power is required on both buses on a dual bus panel for normal operation.  
Each bus contains circuitry that operates a set of Form C alarm relay contacts when any circuit  
breaker on the bus trips off or when input power to the bus is lost. The alarm contacts may be  
used to open or close a loop connected to an external alarm system.  
Alarm connections are provided though a screw-down barrier terminal strip located on the rear  
side of the panel. During normal operation, the normally open (NO) contacts remain open and  
the normally closed (NC) contacts remain closed. When a circuit breaker trips or power is lost,  
the NO contacts close creating a connection from NO to common (C), and the NC contacts open  
creating an open circuit between the NC and C contacts. When the Reset button is tripped, these  
contacts return to a normal operational state.  
The maximum current rating for each set of alarm relay contacts is 1.0 Amp.  
1.14 Alarm Connections  
The panel has a screw-down barrier terminal strip for the alarm relay contact connections. The  
screw-down terminal strip consists of two single row terminal blocks, each with three 3-48  
screw terminals. The screw terminals are mounted on 0.250 inch (6.350 mm) centers with a  
maximum distance between barriers (maximum connecting terminal width) of 0.200 inch  
(5.080 mm). The three terminals in each row are labeled NO, C, and NC. The terminals will  
accept #16 to #30 AWG copper wire with insulation stripped back.  
1.15 Reset Switch  
The Reset switch, when tripped, stops the reporting of any current alarms due to circuit breakers  
being in the off position. In this state, only new alarms are reported.  
1.16 Circuit Breaker Designation Card and Holder  
A circuit breaker designation card as shown in Figure 4 and a card holder are provided with the  
circuit breaker panel. The card holder is intended to be attached either to one of the panel  
mounting brackets, to a part of the rack in which the panel is installed, at a location close to the  
panel, or to the underside of the panel, as desired.  
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ADCP-80-570 • Issue 2 • March 2006  
The card should be filled out with circuit information for each of the circuit breakers installed in  
the panel and inserted in the card holder. The card holder has a pressure sensitive adhesive  
backing for attachment.  
1.60 IN.  
(4.06 CM)  
2.36 IN.  
(5.99 CM)  
16753-A  
10 POSITION A AND B CARD  
Figure 4. Circuit Breaker Designation Card  
1.17 Voltage Designation Label  
A voltage designation label such as shown in Figure 5 is provided with the circuit breaker panel.  
The label is intended to be filled out with the actual voltage present on the buses and placed on  
the panel. The voltage designation label has a pressure sensitive adhesive backing for  
attachment.  
0.38 IN.  
(0.96 CM)  
14228-A  
1.00 IN.  
(2.54 CM)  
Figure 5. Voltage Designation Label  
1.18 Material and Finish  
The panel chassis and brackets are made of 16-gauge cold rolled steel. The panel and brackets  
are finished with a putty-color powder coat.  
1.19 Cooling  
The circuit breaker panel is ventilated to allow efficient convection cooling of all components  
without the use of fans or blowers. Holes are provided in the top and bottom of the panel to allow  
heated air to escape from the panel and cool air to enter.  
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ADCP-80-570 • Issue 2 • March 2006  
Note: The panel requires one open rack space above the chassis and one open rack space  
below the chassis for heat dissipation.  
1.20 Protective Covers  
The panel has three protective covers mounted on the rear side of the panel. Two of these are  
snap-on covers that mount over the input power connectors. A third, larger cover mounts over  
the output power connectors and the external alarm connections. This cover is secured with four  
6-32 screws provided with the panel. Access to these connectors and terminals is obtained by  
removing the appropriate cover. The covers over the input power terminals are removed by  
unsnapping them from their position. The larger cover is removed by loosening (but not  
removing) the four screws. The holes in the large cover are keyed to allow it to be pulled to the  
side and lifted clear of the screws.  
1.21 Mounting  
The circuit breaker panel can be mounted in a 19- or 23-inch rack (48.26 or 58.42 cm) using the  
mounting brackets shown in Figure 2 on page 3. The panel can be flush mounted or recessed 1,  
2, 3, or 4 inches (25.4, 50.8, 76.2, or 101.6 mm) from the front of the rack. The mounting holes  
are slotted to permit installation in racks with WECO 1.00-inch (2.54 cm) hole spacing or EIA  
1.25-inch (3.18 cm) hole spacing.  
The following mounting brackets and screws are enclosed with the circuit breaker panel:  
• Two brackets for 19-inch rack installations;  
• Two brackets for 23-inch rack installations;  
• Eight 5/16-inch (7.936 mm) long, 8-32 chromate finish, thread-forming, flathead screws  
for attaching the brackets to the circuit breaker panel;  
• Four 3/8-inch (9.525 mm) long, 12-24 thread-forming screws and washers for attaching  
the brackets to the rack.  
Caution: Use only the 5/16-inch (7.936 mm) long, chromate finish, flathead, thread forming  
screws for attaching the mounting brackets to the circuit breaker panel. Use of any other  
hardware could cause contact with internal parts of the panel. If parts are missing, please  
contact ADC.  
The slotted mounting hole pattern in the mounting brackets compensates for vertical rack  
differences and allows mounting the circuit breaker panel in either 1.75- or 2-inch (4.45 or 5.08 cm)  
rack spaces.  
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ADCP-80-570 • Issue 2 • March 2006  
1.22 Specifications  
Table 2 lists specifications for the circuit breaker panel.  
Table 2. Circuit Breaker Panel Specifications  
SPECIFICATION REMARKS  
PARAMETER  
Physical  
Weight  
12 pounds (5.45 kilograms)  
Dimensions (HxWxD)  
1.75 x 17.13 x 11.0 inches  
(44 x 435 x 280 mm)  
See Figure 6.  
Color  
Putty white  
Rack mounting  
19- or 23-inch (EIA or  
WECO hole spacing)  
Flush or with a recess of 1, 2,  
3, or 4 inches (25.4, 50.8,  
76.2, or 101.6 mm)  
Electrical  
Operating voltages  
–24 Vdc nominal  
–48 Vdc nominal  
45 Amps max. per bus  
5 or 10 Amps  
Input range: –21 to –30 Vdc  
Input range: –42 to –56 Vdc  
90 Amps max. per panel  
Positions are labeled  
14 per panel  
Input current  
Circuit breaker rating  
Circuit breaker positions  
Max. circuit breaker size  
Input terminal type  
7 per bus  
10 Amps rating  
2-hole compression lug  
45 Amps per bus  
Stud type accepting up to #6  
AWG wire  
Output terminal type  
7-position screw-down barrier Accepting a variety of wire  
terminal strip  
up to 12 AWG wire  
Alarm contact current  
Grounding connection  
1 Amp max.  
Two #10 studs and nuts on  
0.625 centers  
Environmental  
Operating temperature  
Storage temperature  
Humidity range  
–5º C to +55º C  
–45º C to +85º C  
0% to 95% humidity  
No condensation  
Altitude range  
–197 feet (0.06 km) to 13,000  
feet (3.96 km) above sea level  
Acoustic noise  
0 dBA above ambient  
1 Watt per bus  
Heat dissipation (no load)  
Heat dissipation (fully loaded)  
30 Watts max. at 25º C ambient  
temperature, full load  
Page 10  
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ADCP-80-570 • Issue 2 • March 2006  
Table 2. Circuit Breaker Panel Specifications, continued  
SPECIFICATION REMARKS  
PARAMETER  
Torque  
Mounting bracket chassis screws 15 pound-force inches  
1.7 Newton meters  
Mounting bracket rack screws  
Alarm contacts  
27 pound-force inches  
3.1 Newton meters  
9 pound-force-inches  
1 Newton meter  
Input power terminal nuts  
Output power terminal screws  
Grounding stud nuts  
32 pound-force inches max.  
12 pound-force inches max.  
20 pound-force inches max.  
3.5 Newton meters max.  
1.3 Newton meters max.  
2.2 Newton meters max.  
1.23 Dimensions  
Dimensions  
11.10 IN.  
(28.2 CM)  
10.00 IN.  
(25.4CM)  
23.00 IN.  
(58.4 CM)  
22.31 IN.  
(56.7 CM)  
17.13 IN.  
(43.5 CM)  
20634-A  
1.12 IN.  
(2.9 CM)  
1.75 IN.  
(4.4 CM)  
Figure 6. Panel Dimensions  
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ADCP-80-570 • Issue 2 • March 2006  
2 ACCESSORIES  
The following accessories for the PowerWorx circuit breaker panel are available:  
• Cable management bar with mounting screws. Provides cable tie points. Installed at rear  
of circuit breaker panel by fastening ends of bar to both sides of the panel;  
Various sizes of two-hole compression lugs for input power connection.  
• Lug terminals to connect #10 AWG wire to earth ground.  
• Circuit breaker designation card kit.  
3 UNPACKING AND INSPECTION  
Unpack and inspect the various components as follows:  
1. Inspect the exterior of the shipping container for evidence of handling that may have  
damaged the components in the container.  
2. Unpack each container while carefully checking the contents for damage and verify with  
the packing slip.  
3. File a claim with the commercial carrier and notify ADC Customer Service if damage is  
detected or if parts are missing. Save damaged cartons for inspection by the carrier.  
4. Refer to Section 8, Customer Information and Assistance at the back of this manual, for  
repair, replacement, and warranty information.  
Save all shipping containers for use if the equipment requires return shipment at a future date.  
4 INSTALLATION  
The circuit breaker panel must be installed in a central office, equipment room, or restricted  
access location.  
The following guidelines should be used when mounting the circuit breaker panel in a rack:  
• Mount the circuit breaker panel in the uppermost area of the rack to reduce exposure of the  
power wiring.  
• Provide a minimum of 1.75 inches (4.45 cm) of air space (one rack space) between the top  
of the circuit breaker panel and the next item in the rack for cooling.  
Caution: This equipment employs electrical voltage and amperage levels which may be  
considered an electrical hazard. Care should be exercised to assure that only qualified  
personnel are allowed to install, operate, maintain, or otherwise come in contact with this  
equipment when the circuit breaker panel is energized.  
Warning: Never install power equipment in a wet location or during a lightning storm. When  
installing or modifying power lines, disconnect lines at the source before working with  
uninsulated lines or terminals to prevent electrical shock.  
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ADCP-80-570 • Issue 2 • March 2006  
4.1 Installation Tools Required  
The following tools are required to install the circuit breaker panel:  
• Screwdrivers (both Phillips and flatblade)  
• Torque screwdriver calibrated in pound-force inches or Newton meters  
• 3/8-inch and 7/16-inch bits (for torque screwdriver)  
• Wire cutter  
• Wire stripper  
• Compression lug crimper  
• Multimeter  
• Heat gun  
4.2 Materials Required  
The following materials are required to install the circuit breaker panel:  
• Insulated copper wire for input and output power wires (see Appendix A)  
• Heat-shrink tubing  
• Multimeter  
4.3 Pre-Installation Testing  
Each circuit breaker panel is thoroughly tested at the ADC factory before being shipped.  
However, before the panel is installed, continuity tests should be performed to verify that no  
internal damage has occurred during shipping and handling.  
Using a multimeter that is set to perform a continuity check, perform the following tests.  
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ADCP-80-570 • Issue 2 • March 2006  
Test 1: Input Battery to Input Return—Use the following procedure:  
1. Connect one test probe to the A bus BATT input power terminal and the other test probe to  
the A bus RTN input power terminal (Figure 7).  
TEST 1- POWER BUS B:  
VERIFY NO CONTINUITY  
EXISTS BETWEEN BATT  
AND RTN TERMINALS  
TEST 1- POWER BUS A:  
VERIFY NO CONTINUITY  
EXISTS BETWEEN BATT  
AND RTN TERMINALS  
20635-A  
Figure 7. Test 1: Input Battery to Input Return  
2. Verify that no continuity exists between the BATT input and RTN input terminals.  
3. Repeat the test procedure for the B bus.  
Test 2: Input Battery to Output Battery—Use the following procedure (Figure 8):  
1. Starting on the A bus, at the output terminal for circuit 1, connect the negative test probe to  
the bus A input BATT power terminal and the positive test probe to bus A output BATT  
power terminal for the circuit being tested.  
TEST 2- POWER BUS B:  
VERIFY CONTINUITY EXISTS  
BETWEEN INPUT AND  
TEST 2- POWER BUS A:  
VERIFY CONTINUITY EXISTS  
BETWEEN INPUT AND  
OUTPUT BATT TERMINALS  
OUTPUT BATT TERMINALS  
20636-A  
Figure 8. Test 2: Input Battery to Output Battery  
2. Turn on circuit breaker A1.  
3. Verify that continuity exists between the specified terminals.  
4. Repeat the test procedure for each remaining circuit (A 2-7, B 1-7).  
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ADCP-80-570 • Issue 2 • March 2006  
Test 3: Input Return to Output Return—Use the following procedure:  
1. Starting at bus A, connect the negative test probe to the RTN input power terminal and the  
positive test probe to the RTN output power terminal for circuit 1 (Figure 9).  
TEST 3- POWER BUS B:  
VERIFY CONTINUITY EXISTS  
BETWEEN INPUT AND  
TEST 3- POWER BUS A:  
VERIFY CONTINUITY EXISTS  
BETWEEN INPUT AND  
OUTPUT RTN TERMINALS  
OUTPUT RTN TERMINALS  
20637-A  
Figure 9. Test 3: Input Return to Output Return  
2. Verify that continuity exists between the specified terminals.  
3. Repeat the test procedure for each remaining circuit (A 2-7, B 1-7).  
Test 4: Alarm Terminals—Use the following procedure:  
Note: This procedure tests the alarm indicator contacts as they should be with no  
power being supplied to the panel. In this state, the normally open (NO) contacts  
should be closed and the Normally Closed (NC) contacts should be open.  
1. Starting at the top set of alarm terminals on the right rear side of the panel, verify that no  
continuity exists between the C and NC terminals(Figure 10).  
CHECK THAT CONTINUITY  
EXISTS BETWEEN THE  
CHECK THAT NO CONTINUITY  
EXISTS BETWEEN THE  
“NO” AND “C” TERMINALS  
“C” AND “NC” TERMINALS  
20702-A  
Figure 10. Test 4: Alarm Contacts  
2. Connect the test probes between the C and NO terminals on the first set of alarm  
terminals. Verify that continuity exists between the C and NO terminals.  
3. Repeat the test procedure for the other set of alarm terminals.  
Page 15  
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ADCP-80-570 • Issue 2 • March 2006  
4.4 Cable Management Bar (Optional Accessory)  
Before installing the circuit breaker panel in the rack, determine if the optional cable management  
bar was ordered for this panel. If so, install the bar before mounting the panel on the rack.  
Use the following procedure:  
1. Position the cable management bar at the rear of the panel as shown in Figure 11.  
2. Secure the bar to the panel using the 0.25-inch (6.35 mm) long 4-40 screws supplied with  
the cable management bar.  
Note: The cable management bar can be recess-mounted by using the mounting holes closest  
to the front of the panel.  
Caution: When attaching the cable management bar to the circuit breaker panel, use only the  
hardware supplied with the cable management bar. Use of any other hardware could cause  
contact with internal parts of the circuit breaker panel. If parts are missing, please contact ADC.  
Note: A circuit breaker panel with the cable management bar attached may exceed the  
12-inch (3.05 mm) overall depth objective described in GR-63 CORE, 02-14.  
MOUNTING BRACKET  
INSTALLED FOR  
23-IN. (58.42 CM)  
RACK MOUNTING  
ATTACH TO  
EITHER SET  
OF 3 HOLES  
CABLE  
MANAGEMENT  
BAR  
20645-A  
Figure 11. Cable Management Bar Installation  
4.5 Mounting Panel on Rack  
The circuit breaker panel can be mounted in either a 19- or 23-inch (48.26 or 58.42 cm) wide  
rack using the 1.75-inch high (4.45 cm), 19- or 23-inch rack mounting brackets. The brackets,  
mounting screws, and washers are provided with the panel.  
Page 16  
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ADCP-80-570 • Issue 2 • March 2006  
Caution: When attaching the mounting brackets to the circuit breaker panel, use only the  
5/16-inch (7.935 mm) long, chromate finish, flathead, thread forming screws supplied with the  
panel. Use of any other hardware could cause contact with internal parts of the circuit breaker  
panel. If parts are missing, please contact ADC.  
Use the following procedure to install the circuit breaker panel in the rack:  
1. Select either the 19-inch or 23-inch brackets.  
2. Attach the mounting brackets to the sides of the chassis using the eight 5/16-inch (7.94  
mm) 8-32 flathead thread-forming screws provided. Tighten the screws to 15 pound-force  
inches (1.7 Newton meters) of torque to insure grounding. Refer to Figure 12.  
ORIENTATION FOR  
19-INCH RACK  
NSTALLATION  
TIGHTEN MOUNTING SCREWS  
TO 15 POUND-FORCE INCHES  
(1.7 NEWTON METERS) OF TORQUE  
5/16-INCH (7.94 MM)  
8-32 FLAT-HEAD  
THREAD-FORMING  
SCREWS  
ORIENTATION FOR  
23-INCH RACK  
INSTALLATION  
20638-A  
Figure 12. Repositioning the Mounting Brackets (Optional)  
3. Place the circuit breaker panel in the specified mounting space within the rack as shown in  
Note: Provide one rack unit of space above and below the circuit breaker panel for air  
circulation.  
4. Secure the panel to the rack using the four 3/8-inch (9.525 mm) long, 12-24 pan-head  
screws and #12 flat washers provided (use star washers when required by local practice).  
Tighten the screws to 27 pound-force inches (3.1 Newton meters) of torque.  
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ADCP-80-570 • Issue 2 • March 2006  
TIGHTEN MOUNTING SCREWS  
TO 27 POUND-FORCE INCHES  
(3.1 NEWTON METERS) OF TORQUE  
USE #12 STAR WASHERS INSTEAD OF FLAT  
WASHERS IF REQUIRED BY LOCAL PRACTICE  
20639-A  
Figure 13. Mounting Panel on Rack  
4.6 Installing Designation Cards  
Attach the designation card holder either to the underside of the circuit breaker panel, to one of  
the panel mounting brackets, to part of the rack, or at a location close to the panel. Remove the  
backing from the back of the card holder and press the card holder against the mounting surface.  
Fill out one of the cards (see Figure 4 on page 8) with circuit information as desired and insert it  
in the card holder.  
4.7 Installing Voltage Designation Label  
Write the voltage used in the circuit breaker panel on the voltage designation label (see Figure 5  
on page 8) and attach the label to the panel.  
4.8 Installing Ground Wires  
Connect chassis ground (labeled “C. GND”) to the equipment rack ground (Figure 14) using the  
following chassis grounding recommendations:  
• Chassis grounding conductor connection point: #10 screws and nuts on 0.625 inch  
(15.875 mm) centers. Two #10 crimp ring terminals, for use with #10 AWG wires, are  
provided.  
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ADCP-80-570 • Issue 2 • March 2006  
• Chassis ground conductor: Use two #10 AWG wires if using both chassis ground  
connectors or one #6 AWG wire if using one chassis ground connector from connector(s)  
to equipment rack.  
Torque the nuts to 20 pound-force inches (2.2 Newton meters) maximum. Route the free end of  
the chassis grounding wire to an approved office ground source. Terminate the wire at the  
ground source.  
DETAIL DRAWING  
OF GROUNDING  
WIRE CONNECTION  
20640-A  
TIGHTEN STUD NUT TO  
20 POUND-FORCE INCHES  
(2.2 NEWTON METERS)  
OF TORQUE MAXIMUM  
Figure 14. Installing Ground Wires  
4.9 Connecting Alarms  
Normally open (NO) and normally closed (NC) alarm contacts are provided for connecting the  
circuit breaker panel to an external alarm system. Alarm connections are provided through two  
single row terminal strips, each with three screws, located on the rear side of the panel. The  
terminal strips can accept #16 to #30 AWG solid copper, either with crimp-on spade lugs or ring  
connectors, or without lugs with insulation stripped back. Use the following procedure to  
connect an external alarm system to the alarm terminals on the circuit breaker panel chassis.  
Caution: All Vdc input wiring shall be routed away from any sharp edges and properly  
secured in place to prevent chaffing and to provide strain relief. This may be achieved by  
tie-wrapping the wires to the rack frame, or by equivalent means.  
1. Obtain #16 to #30 AWG wire.  
2. Run four lengths of wire from the circuit breaker panel to the external alarm system.  
3. Strip back the insulation approximately 0.38 inches (9.5 mm) on the ends of the wires by  
the circuit breaker.  
4. If using spade lug or ring connectors, crimp the connectors onto the wires and then install  
the connectors on the alarm contacts (Figure 15).  
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ADCP-80-570 • Issue 2 • March 2006  
5. If connecting bare wire, wrap the bare wire around the contact in a clockwise direction.  
6. Tighten the screws to approximately 9 pound-force inches (1 Newton meter) of torque.  
7. Terminate the other ends of the wires at the appropriate terminals in the external alarm  
system.  
20641-A  
SCREW-DOWN TERMINAL  
CONNECTIONS FOR  
REMOTE ALARMS  
SCREW-DOWN TERMINAL  
ALARM CONNECTIONS  
Figure 15. Alarm Terminals  
4.10 Connecting Output  
Output power is supplied to the protected equipment through the output power screw-down  
terminal strips located on the rear of the panel. Wire leads should be equipped with crimp-on  
spade lugs or ring connectors that have a minimum width of 0.32 inches (81.3 mm). The  
terminals also accommodate copper wire without lugs (insulation stripped back). The terminals  
can accept a variety of wire sizes up to #12 AWG with crimp-on spade lug or ring connectors or  
wires in sizes from #12 AWG to #22 AWG with insulation stripped back. Follow local code. In  
selecting wire size, refer to Appendix A.  
.
Caution: Connecting the equipment to the wrong circuit may cause damage to the  
equipment or the circuit breaker panel.  
1. Obtain the required lengths of wire for use as the output power cables.  
2. Equip wire leads with spade or ring-type compression lugs (maximum width 0.32 inches)  
or prepare a bare wire contact.  
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ADCP-80-570 • Issue 2 • March 2006  
3. Terminate the wires at the screw-down barrier strip as follows (Figure 16):  
Negative wires (Battery –): Connect to the BATT output power terminals.  
Positive wires (Return +): Connect to RTN output power terminals.  
POWER  
FEED  
TERMINALS  
DETAIL DRAWING OF OUTPUT  
TERMINAL BLOCK CONNECTIONS  
TIGHTEN TERMINAL SCREWS  
TO 12 POUND-FORCE INCHES  
POWER  
(1.3 NEWTON METERS)  
RETURN  
OF TORQUE MAXIMUM  
TERMINALS  
20642-A  
POWER BUS B  
OUTPUT TERMINALS  
POWER BUS A  
OUTPUT TERMINALS  
Figure 16. Connecting Power Output  
4. Tighten the output power terminal block nuts to 12 pound-force inches (1.3 Newton-  
meters) maximum of torque.  
5. Route the free end of each output power cable to the equipment for connection.  
4.11 Connecting Input  
Input power is supplied to the circuit breaker panel through the A and B input power terminal  
blocks located on the rear side of the panel. Each block consists of two pairs of 0.25-inch studs  
that are used for connecting the negative (BATT) and positive (RTN) input power cables. The  
stud pairs are mounted on 0.625 inch centers and accept 2-hole compression lugs. The  
maximum lug width is 0.62 inches. Nuts with captive washers are provided to secure the  
compression lugs to the terminal block. In selecting wire size, follow local code. Refer to  
Appendix A for ampacity guideline.  
Warning: Use of one bus only on a dual bus panel will result in false alarms for the unused bus.  
Power is required on both buses on a dual bus panel for normal operation.  
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ADCP-80-570 • Issue 2 • March 2006  
Caution: Connect only the input voltage wire (labeled BATTERY, BATT, NEGATIVE, NEG,  
or – and/or the voltage value) to the connector on the circuit breaker panel labeled BATT  
(battery). Connect only the input return wire (labeled RTN, RETURN, POSITIVE, POS, +, or  
BATTERY GROUND) to the connector on the circuit breaker panel labeled RTN (return).  
Caution: Caution should be taken to not reverse input wires to the circuit breaker panel. In the  
circuit breaker panel, the internal battery (negative voltage) wiring is protected and the internal  
return wiring is not protected by circuit breakers.  
Use the following procedure to connect input power wires (Figure 17):  
1. Obtain four lengths of copper wire for use as the input power cables.  
2. Strip back 7/8 inches of insulation from one end of each wire.  
3. Slide a 2-inch length of heat shrink insulation over the end of each wire.  
4. Terminate one end of each wire with 2-hole lug terminals (provided; requires crimper).  
5. Slide the heat shrink insulation down to the lug terminal so the barrel end of the terminal is  
covered.  
20643-A  
TIGHTEN INPUT TERMINAL  
NUTS TO 32 POUND-FORCE INCHES  
(3.6 NEWTON METERS) OF TORQUE  
MAXIMUM  
DETAIL DRAWING OF  
INPUT POWER  
CABLE CONNECTIONS  
Figure 17. Installing Input Power  
Note: Replace the protective cover on the circuit breaker panel after all the wiring  
connections are made and before power is applied to the panel (refer to Section 4.12,  
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ADCP-80-570 • Issue 2 • March 2006  
6. Use a heat gun to apply heat to the heat shrink insulation until it tightens around the wire  
and barrel end of the terminal.  
7. Use the nuts (with captive washers) provided to secure the input power wires to the  
specified terminals.  
8. Connect the negative inputs to the negative (BATT) terminals on the A and B input power  
terminal blocks.  
9. Connect the positive inputs to the positive (RTN) terminals on the A and B input power  
terminal blocks.  
10. Use a torque wrench (with a 7/16-inch socket) to tighten the input power terminal block  
nuts to 32 pound-force inches (3.6 Newton meters) maximum of torque.  
11. Route the free ends of the input power cables to the office battery source.  
12. Connect the input power cables to the office battery power source in accordance with  
applicable local electrical codes and/or National Electrical Codes. Refer to Appendix A.  
Do not apply power to the circuit breaker panel until instructed to do so for testing (see  
4.12 Installing Protective Covers  
1. Snap the two small protective covers on the input and output terminals (Figure 18).  
2. Fasten the large cover to the four corners of the output power terminal blocks using the  
four #6-32 screws provided.  
20644-A  
COVER FOR  
INPUT POWER  
TERMINALS  
COVER FOR  
OUTPUT POWER  
TERMINALS  
COVER FOR  
INPUT POWER  
TERMINALS  
Figure 18. Installing Protective Covers  
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ADCP-80-570 • Issue 2 • March 2006  
5 TESTING  
This section describes how to test the circuit breaker panel after installation.  
5.1 Testing Power Indicators and Connection Polarity  
Use the following procedure to check that the power input wires are connected for correct  
polarity,  
1. Verify that the input power cables are connected to the correct terminals.  
2. Verify that the circuit breakers for all circuits are on.  
3. Using a multimeter set to measure DC voltage, measure the voltage between each input  
power (RTN) terminal and chassis ground. The voltage level should be less than 2.0 Vdc.  
4. If the voltage is much higher, and reads out in the –30 to –60 Vdc range, the input leads are  
probably reversed. If this appears to be true, power down the panel. Disconnect the  
negative (BATT) and positive (RTN) input lugs and switch them around. Power up the  
panel and check again to verify that the higher voltage is on the negative (BATT) lug.  
5. If the problem is such that you can’t figure it out with these instructions, consult with ADC  
Technical Assistance Center (TAC).  
5.2 Testing Alarm Contacts Normal State  
Use the following procedure to test the alarm connections for correct functioning of NO and NC  
terminals.  
1. Verify that the alarm contacts remain in the normal state when power is applied and all  
circuit breakers in the “on” position.  
2. Using a multimeter that is set to test for continuity, connect the probes alternately between  
the C and NC terminals and the C and NO terminals for all sets of alarm terminals.  
3. Verify that continuity exists between the C and NC terminals and that no continuity exists  
between the C and NO terminals.  
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ADCP-80-570 • Issue 2 • March 2006  
6 OPERATION  
This section describes how to operate the circuit breaker panel. Operation includes connecting  
new equipment and using the Reset Switch.  
6.1 Connecting New Equipment  
New equipment may be connected to unused output power circuits following installation and  
testing of the circuit breaker panel. Use the following procedure for connecting the output  
power wires for new equipment to a previously installed panel:  
Warning: The circuit breaker panel uses electrical voltage and current levels that may be  
considered an energy hazard. Only qualified personnel should be allowed to install, operate,  
maintain, or otherwise come into contact with this equipment when energized. Only insulated  
tools should be used on energized elements of the panel.  
1. Remove the large protective cover from the rear side of the panel.  
2. Turn off the circuit breaker for the circuit to which equipment will be added.  
3. Connect the output power wiring to the power output terminals. Wire leads should be  
equipped with crimp-on spade lugs or ring connectors that have a minimum width of 0.32  
inches (81.3 mm). The terminals also accommodate copper wire without lugs (insulation  
stripped back). The terminals can accept a variety of wire sizes up to #12 AWG with  
crimp-on spade lug or ring connectors or wires in sizes from #12 AWG to #22 AWG with  
insulation stripped back. In selecting wire size, follow local code referring to the ampacity  
guidelines provided in Appendix A.  
Caution: Use care to avoid shorting out adjacent terminals when connecting new output power  
wiring to a powered circuit breaker panel. Shorting can cause injury and damage the panel or  
the connected equipment.  
4. Re-install the protective cover over the output power terminal blocks.  
5. Switch the circuit breaker to the on position and verify that the breaker alarm indicator  
turns off.  
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ADCP-80-570 • Issue 2 • March 2006  
6.2 Using the Reset Switch  
The purpose of the Reset switch is to allow you to clear an alarm when you turn off a circuit  
breaker. When you press the Reset switch, any alarms currently existing are cleared but any new  
alarm will be reported.  
Use the following procedure:  
1. If for some reason you need to turn off power to a particular circuit, switch the circuit  
breaker to an off position and then immediately press the Reset Switch.  
2. When ready, turn the circuit back on.  
Note: Switching the circuit breaker back on returns the circuit to the normal alarm  
reporting mode. If any other circuit has an active alarm that was cleared by the Reset  
switch, that alarm will continue to be cleared until the circuit breaker for that circuit is  
turned back on.  
7 MAINTENANCE  
Maintenance includes performing a routine inspection and replacing a circuit breaker.  
7.1 Performing a Routine Inspection  
Caution: Take care to avoid damaging the circuit breakers or wiring.  
1. Inspect the panel for damage to the circuit breakers and for damaged or broken wires at the  
power and external alarm connections.  
2. If excessive dirt is found during the inspection, brush or wipe dust and dirt from the panel  
with a soft bristle brush or soft cloth.  
3. If any circuit breaker is broken or damaged, replace the circuit breaker.  
7.2 Replacing a Circuit Breaker  
Any existing circuit breaker may be field-replaced with an identical circuit breaker or with a  
breaker that has the same rating. Use the following procedure to replace an existing circuit  
breaker with a new breaker:  
1. Turn-off or disconnect the power from the power bus (either A or B) that supplies current  
to the circuit breaker to be replaced.  
2. Press the Reset switch to suppress alarms for the “off” circuits.  
Danger: During normal operation, the terminal connections on the circuit breakers are  
electrically energized. Failure to disconnect the power from the power bus that supplies current  
to the circuit breaker being replaced may cause severe personal injury to the installer and/or  
equipment damage.  
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ADCP-80-570 • Issue 2 • March 2006  
3. Insert a flat-bladed screwdriver into the slot above the circuit breaker as shown in  
4. Push down and forward on the upper circuit breaker lock tab until the top of the circuit  
breaker is released from the panel.  
5. Hold the top edge of the circuit breaker to keep the circuit breaker from snapping back into  
the panel when the screwdriver is withdrawn from the slot.  
6. Insert a flat-bladed screwdriver into the slot below the circuit breaker.  
7. Push down and forward on the lower circuit breaker lock tab until the bottom of the circuit  
breaker is released from the panel.  
8. Pull the circuit breaker forward and out of the panel to expose the wiring connections on  
the rear side of the circuit breaker.  
1. INSERT SCREWDRIVER  
INTO SLOT AND DEPRESS  
TO RELEASE LOCKING TAB.  
2. TILT FUSE FORWARD.  
20646-A  
Figure 19. Releasing the Circuit Breaker Lock Tab  
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ADCP-80-570 • Issue 2 • March 2006  
9. Disconnect the power and load wires (#14 AWG white and black wires) and the alarm  
wires (#24 AWG black wires) from the terminals on the rear side of the circuit breaker as  
shown in.  
10. Connect the power and load wires to the specified terminals on the rear side of the  
replacement circuit breaker (see Figure 20). Note that with the circuit breaker oriented as  
shown, the black load wire connects to the top terminal and the white power wire connects  
to the bottom (LINE) terminal.  
11. Connect the two alarm wires to the specified terminals on the rear side of the replacement  
circuit breaker (see Figure 20).  
Note: Do not connect any wires to the center terminal on the circuit breaker.  
12. Insert the replacement circuit breaker into the opening in the panel and push inward until it  
locks into place.  
13. Reconnect the power to the power bus.  
LOCKING  
TAB  
LOAD  
(BLACK)  
BREAKER ALARM  
CONNECTIONS  
NOT USED  
POWER  
(WHITE)  
20647-C  
LOCKING  
TAB  
FRONT VIEW  
SIDE VIEW  
Figure 20. Circuit Breaker  
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ADCP-80-570 • Issue 2 • March 2006  
8 CUSTOMER INFORMATION AND ASSISTANCE  
PHONE:  
U.S.A. OR CANADA  
Sales: 1-800-366-3891 Extension 73000  
Technical Assistance: 1-800-366-3891  
Connectivity Extension 73475  
Wireless Extension 73476  
EUROPE  
Sales Administration: +32-2-712-65 00  
Technical Assistance: +32-2-712-65 42  
EUROPEAN TOLL FREE NUMBERS  
Germany:  
UK:  
Spain:  
France:  
Italy:  
0180 2232923  
0800 960236  
900 983291  
0800 914032  
0800 782374  
ASIA/PACIFIC  
Sales Administration: +65-6294-9948  
Technical Assistance: +65-6393-0739  
ELSEWHERE  
Sales Administration: +1-952-938-8080  
Technical Assistance: +1-952-917-3475  
WRITE:  
ADC TELECOMMUNICATIONS, INC  
PO BOX 1101,  
MINNEAPOLIS, MN 55440-1101, USA  
ADC TELECOMMUNICATIONS (S'PORE) PTE. LTD.  
100 BEACH ROAD, #18-01, SHAW TOWERS.  
SINGAPORE 189702.  
ADC EUROPEAN CUSTOMER SERVICE, INC  
BELGICASTRAAT 2,  
1930 ZAVENTEM, BELGIUM  
PRODUCT INFORMATION AND TECHNICAL ASSISTANCE:  
13944-M  
Contents herein are current as of the date of publication. ADC reserves the right to change the contents without prior notice.  
In no event shall ADC be liable for any damages resulting from loss of data, loss of use, or loss of profits and ADC further  
disclaims any and all liability for indirect, incidental, special, consequential or other similar damages. This disclaimer of  
liability applies to all products, publications and services during and after the warranty period. This publication may be  
verified at any time by contacting ADC's Technical Assistance Center.  
© 2006, ADC Telecommunications, Inc.  
All Rights Reserved  
Printed in U.S.A.  
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ADCP-80-570 • Issue 2 • March 2006  
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ADCP-80-570 • Issue 2 • March 2006  
APPENDIX A: ALLOWABLE AMPACITIES OF INSULATED CONDUCTORS  
This appendix provides guidelines for selecting AWG wire size based on the temperature rating  
of the conductor and the anticipated load. The information contained is from Table 310-16 of  
the National Electrical Code document, ANSI/NPFA 70 (1978).  
Note: Information for aluminum conductors has been omitted from the table here  
because copper conductors only are recommended for use with the ADC panel.  
Table 310-16 (NEC): Allowable Ampacities of Insulated Conductors, Rated O Through 2000 Volts, 60° to  
90°C (140° to 194°F), Not More Than Three Current-Carrying Conductors in Raceway or Cable or Earth  
(Directly Buried), Based on Ambient Temperature of 30°C (86°F)  
SIZE  
TEMPERATURE RATING OF CONDUCTOR  
AWG  
KCMIL  
60°C  
60°C  
60°C  
(114°F)  
(114°F)  
(114°F)  
TYPES  
TBS, SA,  
SIS, FEP*,  
FEPB*, MI,  
RHH*, RHW-2,  
THHN*,  
THHW*, THW-2*,  
THWN-2*,  
TYPES  
FEPW*,  
RH*, RHW*,  
THHW*,  
THW*,  
USE-2,  
XHH,  
THWN*,  
XHHW*,  
USE*, ZW*  
XHHW*  
XHHW-2  
ZW-2  
TYPES  
TW*,  
UF*  
18  
16  
14  
12  
10  
8
....  
....  
....  
14  
....  
18  
20*  
25*  
30  
20*  
25*  
35*  
50  
25*  
30*  
40*  
55  
40  
6
55  
65  
75  
4
70  
85  
95  
3
85  
100  
115  
130  
150  
175  
200  
230  
255  
285  
310  
335  
110  
130  
150  
170  
195  
225  
260  
290  
320  
350  
380  
2
95  
1
110  
125  
145  
165  
195  
215  
240  
260  
280  
1/0  
2/0  
3/0  
4/0  
250  
300  
350  
400  
Page 31  
© 2006, ADC Telecommunications, Inc.  
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ADCP-80-570 • Issue 2 • March 2006  
Table 310-16 (NEC): Allowable Ampacities of Insulated Conductors, Rated O Through 2000 Volts, 60° to  
90°C (140° to 194°F), Not More Than Three Current-Carrying Conductors in Raceway or Cable or Earth  
(Directly Buried), Based on Ambient Temperature of 30°C (86°F)  
SIZE  
TEMPERATURE RATING OF CONDUCTOR  
AWG  
KCMIL  
60°C  
60°C  
60°C  
(114°F)  
(114°F)  
(114°F)  
TYPES  
TBS, SA,  
SIS, FEP*,  
FEPB*, MI,  
RHH*, RHW-2,  
THHN*,  
THHW*, THW-2*,  
THWN-2*,  
TYPES  
FEPW*,  
RH*, RHW*,  
THHW*,  
THW*,  
USE-2,  
XHH,  
THWN*,  
XHHW*,  
USE*, ZW*  
XHHW*  
XHHW-2  
ZW-2  
TYPES  
TW*,  
UF*  
500  
600  
320  
355  
385  
400  
410  
435  
455  
495  
520  
545  
560  
380  
420  
460  
335  
490  
520  
545  
590  
625  
650  
665  
430  
475  
520  
380  
555  
585  
615  
665  
705  
735  
750  
700  
750  
800  
900  
1000  
1250  
1500  
1750  
2000  
CORRECTION FACTORS  
For ambient temperatures other than 30C (86F), multiply  
the allowable ampacities shown by the appropriate factor shown below.  
21-25  
26-30  
31-35  
36-40  
41-45  
46-50  
51-55  
56-60  
61-70  
71-80  
1.08  
1.00  
.91  
.82  
.71  
.58  
.41  
....  
1.05  
1.00  
.94  
.88  
.82  
.75  
.67  
.58  
.33  
....  
1.04  
1.00  
.96  
.91  
.87  
.82  
.76  
.71  
.58  
.41  
....  
....  
* Unless otherwise specifically permitted in the code, as defined in the NEC document cited  
(ANSI/NEC 70), the overcurrent protection for conductor types marked with an asterisk (*)  
shall not exceed 15 amperes for No. 14, 20 amperes for No. 12, and 30 amperes for No. 10  
copper, after any correction factors for ambient temperature and number of conductors have  
been applied.  
Page 32  
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