Emerson Liebert XDR User Manual

Precision Cooling  
For Business-Critical Continuity™  
Liebert® XDR™  
User Manual  
TABLE OF CONTENTS  
6.5  
Venting the Holding Charge for Hard-Piped or Removable Liebert XD Flex Pipe  
Couplings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15  
i
Module. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22  
ii  
FIGURES  
Figure 1  
TABLES  
Table 2  
Liebert XD Flex Pipe. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21  
Table 3  
removable couplings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22  
iii  
iv  
Component Locations and Model Number Nomenclature  
1.0 COMPONENT LOCATIONS AND MODEL NUMBER NOMENCLATURE  
Figure 1  
Liebert XDR component locations  
3
2
1
7
4
6
5
1. Supply Line  
2. Door Safety Catch  
3. Return Line  
4. Evaporator Coils  
5. Locking Door Latch  
6. Removable Installation Handles  
7. Frame  
Figure 2  
Liebert XDR model number nomenclature  
Example: XDR20B1R — *  
XD  
R
20  
B
1
R
*
Liebert  
X-treme  
heat  
20 = Model Size  
1 = Standard  
- = Domestic Packaging  
E = Export Packaging  
density  
system  
Rear Cooling Module  
B = Basic Module  
- = Hard-Piping  
P = Pre-Charged One-Shot  
Revision  
level  
Coupling  
R = Removable Coupling  
1
     
Introduction  
2.0 INTRODUCTION  
2.1  
References  
This document must be used together with site specific documentation and documentation for other  
parts of the system.  
2.2  
Pre-Installation Checks  
• Check the received materials to be sure all required assemblies and parts have been received. If  
you discover any external damage, report it to the shipping company and your local Emerson rep-  
resentative.  
2.3  
2.4  
Packing List  
• User manual (this document)  
• Liebert XDR module  
Installation Considerations  
The Liebert XDR is designed for attachment to the rear of computer cabinets in the data center. See  
2.4.1 Room Preparation  
The room should be well-insulated and must have a sealed vapor barrier. The vapor barrier in the  
ceiling and walls can be a polyethylene film. Paint on concrete walls and floors should contain either  
rubber or plastic.  
NOTE  
The vapor barrier is the single most important requirement for maintaining environmental  
control in the conditioned space.  
Outside or fresh air should be kept to a minimum when temperature and humidity must be tightly  
controlled. Outside air adds to the cooling, heating, dehumidifying and humidifying loads of the site.  
Doors should be properly sealed to minimize leaks and should not contain ventilation grilles.  
2
           
General Product Information  
3.0 GENERAL PRODUCT INFORMATION  
3.1 Product/System Description  
The Liebert XDR is a cooling system for high-density heat loads that mounts on the rear of a  
24" x 42U rack (for other sizes consult the factory) and maintains access to the back of the server  
rack. Room air is drawn in through the front of the rack and picks up heat from the servers. The coil  
captures that heat, cooling the air, which is expelled through the rear of the rack.  
The Liebert XDR relies on the rack equipment’s fans to move air across the micro-channel coil. Cap-  
tured heat is carried away through pumped R-134a refrigerant supplied by either a Liebert XDP or  
Liebert XDC .  
The complete cooling system may include other Liebert XD cooling modules, such as the Liebert  
XDO , Liebert XDV , Liebert XDH , Liebert XDA or Liebert XDCF (see Figure 3) and Liebert  
XD Flex Piping.  
The Liebert XDR is not expected to produce any condensation because of its location, usually in the  
data center. A condensate pan is provided as a precaution. It does not have a drain fitting or other  
means of being emptied.  
Four handles to ease carrying the Liebert XDR are attached at the factory. These should be removed  
after the module is attached to the rear of the enclosure. Leaving the handles attached would require  
space between the racks. The handles should be retained for use if the Liebert XDR is removed from  
the enclosure.  
Figure 3  
Generic piping layout  
LiebertXDC  
or  
Liebert XDP  
Liebert  
XD Cooling Module  
Supply Lines  
Return Lines  
*
Pumped  
Refrigerant  
R134a  
Liebert  
XD Cooling Module  
*
* Liebert XDCF; Liebert XDH  
Liebert XDO; Liebert XDR  
Liebert XDV  
3.2  
Checking and Unpacking  
Upon arrival of the module and before unpacking it, verify that the labeled equipment matches the  
bill of lading.  
Inspect all items for either visible or concealed damage. Damage should be immediately reported to  
the carrier and a damage claim filed with a copy sent to Emerson or to your sales representative. If  
you later find any concealed damage, report it to both the shipping company and your local Emerson  
representative.  
Check to be sure all required assemblies and parts have been received.  
The Liebert XDR is shipped in protective packaging and secured to a pallet (see Figure 5). Do not  
remove these protective items from the Liebert XDR before it is at the installation location. When  
unpacking and handling the Liebert XDR, exercise extra care to prevent damage.  
3
       
General Product Information  
3.2.1 Recyclable Packaging  
R
All material used to package this module is recyclable. Please save for future use  
or dispose of the material appropriately.  
CAUTION  
!
Risk of sharp edges, splinters and exposed fasteners. Can cause personal injury.  
Only properly trained personnel wearing appropriate safety headgear, gloves, shoes and  
glasses should attempt to move, lift, remove packaging from, or prepare module for  
installation.  
NOTICE  
Risk of improper storage. Can cause module damage.  
Keep the module indoors and protected from dampness, freezing temperatures and contact  
damage.  
NOTICE  
Risk of damage from forklift. Can cause exterior and/or underside damage.  
Keep tines of the forklift level and at a height suitable to fit below the skid.  
Figure 4  
Recommended module handling equipment  
Pallet Jack  
Forklift  
3.2.2 Module Handling  
WARNING  
!
Risk of 130-pound (59 kg) module falling. Can cause equipment damage, personal injury or  
death.  
Do not leave a Liebert XDR standing unattended on its side or its end without adequate  
support to prevent it from falling over. The Liebert XDR must be supported at all times or laid  
flat on protective material until it is installed.  
Two properly trained and qualified people are required to move the module.  
When unpacking and handling the module, exercise extra care to prevent damage.  
Use a forklift or pallet jack to move the Liebert XDR. If multiple Liebert XDR modules are delivered,  
they will be shipped on a pallet with up to four modules. A pallet jack will be required to move these  
modules to the installation location.  
• If using a forklift or pallet jack, ensure that the fork tine length is suitable to safely move the  
packaged module.  
• Keep the module in the protective packaging until it has been moved to the installation site.  
• When handling and unpacking the module, exercise great care to prevent damage.  
• Do not lift the module any higher than 6" (152mm) while moving it. If it must be lifted higher  
than 6" (152mm), exercise great care and keep all personnel who are not helping move the module  
at least 20 feet (5m) away from the module.  
• Do not use module piping to lift or move the Liebert XDR.  
4
     
General Product Information  
3.2.3 Unpacking the Module  
WARNING  
!
Risk of 130-pound (59 kg) module falling. Can cause equipment damage, personal injury or  
death.  
Do not leave a Liebert XDR standing unattended on its side or its end without adequate  
support to prevent it from falling over. The Liebert XDR must be supported at all times or laid  
flat on protective material until it is installed.  
Two properly trained and qualified people are required to move the module.  
Do not unpack the Liebert XDR before moving it to the installation location. Once at the installation  
point:  
1. Cut the banding and place all packaged modules on the floor for unpacking.  
2. Unbend all metal tabs as shown in Figure 5.  
Use any of these tools to unbend the tabs: flat-blade screwdriver, claw hammer, pliers or crowbar.  
3. Remove the top cover from the package.  
4. Remove the center top brace.  
5. Remove and set aside the hardware and key package.  
6. Remove side panels from package.  
7. Remove top protective foam from the package.  
5
               
General Product Information  
Figure 5  
Removing packaging  
Cut  
Bands  
Unbend Tabs  
Hardware  
and Keys  
Remove the  
Top Cover  
Center Top Brace  
Remove Foam  
Protecting Top  
of Module  
Remove  
Side  
Panels  
6
 
General Product Information  
Figure 6  
Remove Liebert XDR from pallet  
Two people are required  
to remove the module from the pallet  
and remove the bag  
WARNING  
!
Risk of 130-pound (59 kg) module falling. Can cause equipment damage, personal injury or  
death.  
Do not leave a Liebert XDR standing unattended on its side or its end without adequate  
support to prevent it from falling over. The Liebert XDR must be supported at all times or laid  
flat on protective material until it is installed.  
Two properly trained and qualified people are required to move the module.  
3.2.4 Removing the Liebert XDR from the Pallet  
1. Unfold the module bag to expose the Liebert XDR.  
2. Compare the serial tag information on the Liebert XDR to the bill of lading information. If the  
information does not match the product specified, contact your local sales representative.  
3. At least two properly trained and qualified personnel may lift the Liebert XDR off the pallet using  
the four handles and stand it upright, supporting the module to keep it from falling.  
4. If the Liebert XDR will not be installed immediately, lay a piece of protective material the length  
of the module on a flat surface and lay the Liebert XDR on it.  
7
   
Mechanical Considerations  
4.0 MECHANICAL CONSIDERATIONS  
4.1 Liebert XDR Dimensions  
The Liebert XDR is engineered to fit on the rear of a rack enclosure measuring approximately  
24" x 42U. Consult the factory for other sizes. Figures 7, 8 and 9 illustrate the module’s dimensions  
and the location of pipes. Figure 11 shows the attachment positions of each module.  
Figure 7  
Overall dimensions with hard-piped connections  
Piping is not load-bearing and  
should never be used to lift or  
move the Liebert XDR.  
4"  
(102mm)  
1-1/8"  
(29mm)  
1-5/16"  
(33mm)  
2-1/8"  
(54mm)  
1-1/2"  
(38mm)  
82-3/8"  
(2092mm)  
25-5/8"  
(651mm)  
78-3/8"  
(1991mm)  
20-1/2"  
(520mm)  
110deg  
5-7/8"  
(149mm)  
6-12"  
(165mm)  
27-3/8"  
(695mm)  
23-1/2" (597mm)  
27-3/8" (695mm)  
8
     
Mechanical Considerations  
Figure 8  
Overall dimensions with one-shot coupling (pre-charged)  
Piping is not load-bearing and  
should never be used to lift or  
move the Liebert XDR.  
5-1/8"  
(130mm)  
1-5/16"  
(34mm)  
1-1/8"  
(29mm)  
2-1/8"  
(54mm)  
1-1/2"  
(38mm)  
25-5/8"  
(651mm)  
78-3/8"  
(1991mm)  
20-1/2"  
(520mm)  
83-1/2"  
(2121mm)  
110deg  
6-1/2"  
(165mm)  
5-7/8"  
(149mm)  
27-3/8" (695mm)  
23-1/2" (597mm)  
27-3/8" (695mm)  
9
 
Mechanical Considerations  
Figure 9  
Overall dimensions with removable coupling  
Piping is not load-bearing and  
1-1/2"  
(38mm)  
should never be used to lift or  
move the Liebert XDR.  
1-5/16"  
(33mm)  
7/8"  
(22mm)  
2-1/8"  
(54mm)  
1-1/2"  
(38mm)  
25-5/8"  
(651mm)  
80"  
(2032mm)  
78-3/8"  
(1991mm)  
20-1/2"  
(520mm)  
110deg  
5-7/8"  
(149mm)  
6-1/2"  
(165mm)  
27-3/8" (695mm)  
23-1/2" (597mm)  
27-3/8" (695mm)  
4.2  
Determining Placement in the Conditioned Space  
Refer to site-specific drawings for exact placement. Efficient cooling of the rack equipment depends on  
proper placement of equipment, proper use of blanking plates in any voids in the rack, and good cable  
management.  
The Liebert XDR is engineered to fit the rear of computer enclosure cabinets. Figures 7, 8 and 9  
illustrate the module's dimensions and the location of pipes.  
Ensure that there is 25.6" (649mm) clearance in the rear to allow the door to open fully.  
10  
   
Mechanical Considerations  
4.3  
Airflow  
The server fans draw air into the equipment enclosure. After heated the air, the server fans force the  
air across the Liebert XDR’s two coils. The Liebert XDR has a low air-side pressure drop (similar to a  
rack with perforated doors). The server fans within the rack create sufficient airflow to move the air.  
Figure 10 Generic airflow diagram  
Enclosure/Rack  
Shown from Side  
Refrigerant  
Connections  
Liebert XDR  
Critical  
Equipment  
Front  
Rear  
of  
of  
Rack  
Rack  
NOTE  
Air bypass and recirculation can severely reduce the cooling effectiveness of the Liebert XDR.  
Blanking plates must be installed in any voids in the rack to prevent air bypass and air  
recirculation. Contact the factory for further information. Refer to the user manual supplied  
with the rack the Liebert XDR is mounted on.  
Efficient cooling of rack equipment depends on proper use of blanking plates in any voids in the rack  
and good cable management. Keep the Liebert XDR’s coils clear of any obstructions that may block  
the airflow.  
Each of the Liebert XDR’s coils removes approximately half the load. For even cooling in partially  
filled racks, servers should be evenly spaced and blanking plates should be installed on unused rack  
spaces to prevent recirculation of heated air.  
11  
   
Installation  
5.0 INSTALLATION  
5.1  
Installing the Rack-Mounting Kit onto the Rack  
The Liebert XDR module mounts on the rear of the rack using a mounting kit. The mounting kit  
secures the Liebert XDR's frame to the rack. Two rails are attached to the rear of the rack with  
M6 x 12 bolts. The number of bolts can vary depending on the rack.  
Before beginning to attach the rack-mounting brackets to the rack, remove the rear door from the  
rack. Refer to the rack’s installation manual for details.  
1. Insert and screw in the M6 x 12mm bolts that shipped with the Rack Connecting Bracket.  
2. Tighten the bolts with a 10mm wrench.  
5.2  
Mounting the Liebert XDR on the Rack-Mounting Kit  
WARNING  
damage, personal injury or death.  
!
Risk of 130-pound (59 kg) module falling or causing cabinet to tip over. Can cause equipment  
• Read all instructions before beginning.  
• Use caution when installing the Liebert XDR on an equipment cabinet, particularly a cabi-  
net with little equipment installed. Lack of weight in the cabinet could cause it to tip while  
the Liebert XDR is being installed.  
• Two properly trained and qualified people are required to handle the Liebert XDR.  
• Do not move a cabinet with a Liebert XDR installed on it.  
The rack-mounting brackets must be mounted on the rack before the Liebert XDR can be installed.  
1. Thread one of the provided M6x12 bolts into the top threaded hole of each rail attached to the  
rack.  
2. Use fingers or a 10mm wrench to tighten the bolts, leaving a 1/8" (3-4mm) gap between the bolt  
heads and the rail. This gap is necessary to allow the door to fit over the bolts and hang safely on  
the rack.  
3. With another person, lift the Liebert XDR by the handles on the sides, match the two keyhole  
slots near the top of the Liebert XDR frame to the bolts and hang the Liebert XDR on the rack.  
4. Thread the remaining bolts through the holes in the frame and into the mounting rails.  
5. Tighten all of the bolts snugly with a 10mm wrench.  
Figure 11 Liebert XDR mounting locations  
Keyhole Slot  
(One on Each Side)  
Keyhole Slot  
(One on Each Side)  
Piping is not load-bearing  
and should never be used to  
lift or move the Liebert XDR.  
Bolt Holes  
(3 on Each Side)  
Bolt Holes  
(3 on Each Side)  
12  
       
Installation  
5.3  
Door Safety Catch  
The door safety catch prevents the door from opening beyond 110°. When the door is fully open, the  
safety catch will hold door in place. To release the door, push up on the door catch and close the door.  
13  
 
Piping  
6.0 PIPING  
Refer to site-specific drawings for general locations of the piping connections. The drawings should  
specify where the piping connects to the Liebert XDR.  
6.1  
European Union Fluorinated Greenhouse Gas Requirements  
Stationary air conditioning, refrigeration, heat pump equipment and stationary fire protection sys-  
tems in the European Community market and operating with fluorinated greenhouse gases (f-gas),  
such as R407C, R-134a, R410A, must comply with the F-Gas Regulation: (EC) No. 842/2006 (F-gas).  
The regulation prohibits, among other actions, venting fluorinated greenhouse gases to the atmo-  
sphere.  
The F-Gas Regulation requires operators to use all measures that are technically feasible and do not  
entail disproportionate cost to prevent leakage of these gases, to test for leakage regularly and to  
recover f-gas before disposing of equipment, as well as during service and maintenance.  
Refer to the full regulation for additional details.  
6.2  
System Connection Configuration  
If possible, connect the Liebert XDR modules to Liebert XDPs or Liebert XDCs in an interlaced  
configuration (see Figure 12). In an interlaced configuration, half the cooling modules in an aisle are  
connected to one Liebert XDP or Liebert XDC and the other half in that aisle are connected to another  
Liebert XDP or Liebert XDC. Interlacing the connection piping will keep half the Liebert XDR  
modules operating and maintain cooling in the conditioned space should one of the Liebert XDP or  
Liebert XDC units fail.  
However, if this is not possible, connect the Liebert XDR modules in a non-interlaced configuration  
(see Figure 13).  
Figure 12 Typical Liebert XDR piping—interlaced connections  
TOP VIEW  
DRAWING IS  
NOT TO SCALE  
Liebert  
XDR A  
Liebert  
XDR B  
Liebert  
XDR A  
Liebert  
XDR B  
Liebert XDP/  
Liebert XDC A  
Supply  
Return  
Return  
Supply  
Liebert XDP/  
Liebert XDC B  
Liebert  
XDR B  
Liebert  
XDR A  
Liebert  
XDR B  
Liebert  
XDR A  
NOTE: Line size does NOT  
indicate pipe size difference .  
14  
       
Piping  
Figure 13 Typical Liebert XDR piping—non-interlaced connection  
DRAWING IS  
NOT TO SCALE  
TOP VIEW  
Return  
Supply  
Liebert XDP/  
Liebert XDC A  
Liebert XDR A Liebert XDR A  
Liebert XDR A  
Liebert XDR A  
6.3  
Connection Methods and Points  
Refer to site specific drawings for general locations of the piping connections. For Liebert XDR con-  
nection locations, refer also to Figures 14, 17 and 21.  
The assembly and connection means used for piping in the Liebert XD system are the same as those  
used in conventional refrigeration systems. Observe all standard practices during installation and  
startup to prevent damage and contamination. All piping must be ASTM Type ACR copper.  
The Liebert XDR has supply and return piping access on the top of each module. Supply piping con-  
nection is 1/2" OD copper pipe, and return piping connection is 7/8" OD copper. The hard-piped Lie-  
bert XDR has a low-pressure nitrogen holding charge.  
Both supply and return couplings may be supplied with optional one-shot couplings. These couplings  
contain pressurized R-134a refrigerant inside the Liebert XDR.  
For Liebert XDRs with removable couplings, the supply piping connection is 1/2" OD and the return  
piping connection is 7/8" OD. Both the Liebert XDR and the Liebert XD Flex Pipe with removable cou-  
plings have a low-pressure nitrogen holding charge.  
6.4  
6.5  
Insulation  
To minimize the possibility of condensation, insulate all piping between the Liebert XDR and the Lie-  
bert XDP or Liebert XDC.  
Venting the Holding Charge for Hard-Piped or Removable Liebert XD Flex Pipe  
Couplings  
The Liebert XDR in either hard-piped configuration or with removable couplings is shipped with a  
low-pressure holding charge (about 30 psi) of nitrogen to prevent oxidation and moisture. This must be  
vented from the refrigeration circuit before removing the copper cap.  
NOTE  
This procedure is for modules with hard-piped or removable couplings ONLY. Do not vent a  
pre-charged Liebert XDR or pre-charged Liebert XD Flex Piping.  
To vent the holding charge:  
1. Find the Schrader valve that retains the nitrogen holding charge in the Liebert XDR. The valve is  
inside the rear door, on the supply line (see Figure 14 for hard-piped connections and Figure 22  
for removable couplings).  
2. Vent the holding charge in the circuit by depressing the pin in the Schrader valve on the supply  
line.  
3. Replace and secure the cap on the Schrader valve that was opened.  
15  
       
Piping  
6.5.1 Brazing Preparations  
The assembly and connection means used for piping in the Liebert XD system are similar to those  
used for conventional refrigeration systems. All piping should be installed with high-temperature  
brazed joints. Soft soldering is not recommended.  
After the holding charge has been vented and before brazing, wrap a wet rag around the copper con-  
nections before removing the caps to prevent internal component damage. A torch can be used to  
remove the caps over the ends of the supply and return lines.  
During brazing, the lines must be filled with flowing dry nitrogen to prevent excessive oxidation and scale  
formation inside the piping. Prevailing good refrigeration practices must be employed for piping supports,  
leak testing, dehydration and charging. Failure to use good system practices may result in damage to the  
system. Refer to the ASHRAE refrigeration handbook for general good-practice refrigeration.  
6.5.2 Recommended Piping Size  
Connect the main pipes between the Liebert XDR branch piping and the Liebert XDP or Liebert XDC  
according to Table 1. Elbows and restrictions must be minimized to ensure good fluid flow.  
See Table 1 below for recommended pipe sizes and Figure 3 for piping segment locations.  
Table 1  
Branch piping sizes for pumped refrigerant loop  
Pipe Function  
Size / Equivalent Pipe Length  
1/2" OD (0.430" ID) for lengths up to 10 feet (3m)  
From Liebert XDR supply to supply line of  
Liebert XDP/Liebert XDC  
7/8" OD (0.545" ID) for lengths over 10 feet but less than 25 feet (3-7.6m)  
7/8" OD (0.545" ID) for lengths up to 10 feet (3m)  
From Liebert XDR return to return line of  
Liebert XDP/Liebert XDC  
1-1/8" OD (1.025" ID) for lengths over 10 but less than 25 feet (3-7.6m)  
NOTE  
To minimize the amount of pumped refrigerant required, do NOT oversize the piping.  
See Figure 14 for piping recommendations for hard-piping between the Liebert XDR and the header  
system.  
6.6  
Hard-Piped Connection Sizes  
The supply piping for the refrigeration circuit is 1/2" OD copper pipe. The return piping for the circuit  
is 7/8" OD copper.  
The Liebert XDR modules that are intended for hard-piping connections will have copper caps sol-  
dered in place and a holding charge of nitrogen.  
Figure 14 Piping location and connection sizes—modules with hard-piped connections  
TOP VIEW  
(Rear of Cabinet)  
1-1/8"  
(29mm)  
1-5/16"  
(33mm)  
Refrigerant  
Supply Line  
Refrigerant  
Return Line  
Schrader Valve  
1-1/2"  
(38mm)  
2-1/8"  
(54mm)  
5-7/8"  
(149mm)  
6-1/2"  
(165mm)  
23-1/2" (597mm)  
16  
         
Piping  
Figure 15 Hard pipe connection diagram  
Return Main  
(seen from end)  
2-1/8" O.D.  
Recommended Arc  
or 2-5/8" O.D.  
Acceptable  
Arc  
Supply Main  
(seen from end)  
1-1/8" O.D.  
or 1-3/8" O.D.  
7/8” Refrigerant -Grade  
Full-Port Ball Valve  
Field-Supplied and  
Field-Installed  
1/2” Refrigerant -Grade  
Full-Port Ball Valve  
Field-Supplied and  
Field- Installed  
Refer to Table 1 for details.  
Copper Tubing  
Total length of each line  
from Liebert XDR to  
Main not to exceed 72"  
(1829mm)  
Top of  
Liebert XDR  
and  
Return from  
Cooling Module  
Supply  
to Cooling  
Module  
Equipment  
Rack  
Rear of  
Equipment Rack  
6.6.1 Leak-Checking and Evacuation  
Refer to the Liebert XDC or Liebert XDP user manual for procedures for evacuation, leak check,  
charging and startup.  
6.6.2 Header System  
The Liebert XDR module system with optional flexible piping requires use of the Liebert XD prefabri-  
cated piping assembly. The prefabricated piping is compatible with the Liebert XD Flex Pipe required  
to attach to the Liebert XDR modules. For the details on piping connection locations, see Figure 14.  
For additional information, refer to the Liebert X-treme Density System Design Manual, SL-16655,  
available at the Liebert Web site: www.liebert.com  
17  
     
Piping  
6.7  
Field Installation of Liebert XD Flex Pipe Kit on Liebert XDR  
If you are not performing a service installation or a field-retrofit, skip this section and proceed with  
Pipe.  
Liebert XD Flex Pipe kits are available in lengths of 4, 6, 8 and 10 feet (1.2, 1.8, 2.4 and 3 meters).  
Connection style to the module end may be straight or 90 degrees with one-shot or removable cou-  
plings. Connection to the prefab piping assembly is a threaded coupling. For data on acquiring the  
correct kit for your installation, see Table 8.  
The Liebert XD Flex Pipe should be connected to the Liebert XD module then to the header system to  
ease installation and prevent twisting the flex pipe.  
Figure 16 Liebert XD Flex Pipe dimensions—straight and 90-degree connections  
Connection  
to Prefabricated  
Piping assembly  
Connection  
to Prefabricated  
Piping assembly  
90-Degree  
Connection  
Length  
4, 6, 8 or 10 feet  
(1.2, 1.8, 2.4 or 3 meters)  
Length  
4, 6, 8 or 10 feet  
(1.2, 1.8, 2.4 or 3 meters)  
Straight Connection  
90° Connection to Liebert XD  
Cooling Module  
Connection to Liebert XD Cooling Module  
DPN000780  
18  
   
Piping  
6.7.1 Connecting Methods—One-Shot Couplings for Pre-Charged Refrigerant Option  
CAUTION  
!
Risk of sudden refrigerant discharge. Can cause loss of charge and minor injury.  
If the optional pre-charged option is chosen, the Liebert XDR is shipped with a full charge of  
R-134a refrigerant under pressure. Do not remove the pipe caps or plugs before the module is  
ready for connection to Liebert XD Piping.  
Supply and return fittings on the pre-charged Liebert XDR modules are one-shot couplings.  
Do not disconnect one-shot couplings after they have been connected. Disconnection will  
release pressurized R-134a refrigerant from the Liebert XDR.  
Liebert XDRs with the pre-charged option are equipped with one-shot couplings on the supply and  
return fittings. These contain a charge of R-134a refrigerant under pressure within the module. This  
charge must not be vented.  
Do not remove the pipe caps or plugs before the module is ready for connection to Liebert XD Piping.  
Do not disconnect one-shot Liebert XD Flex Pipes after they have been connected.  
The assembly and connection means used for piping in the Liebert XD system are the same as those  
used in conventional refrigeration systems. Observe all standard practices during installation and  
startup to prevent damage and contamination.  
Both supply and return fittings may be supplied with optional, one-shot couplings. These fittings con-  
tain pressurized R-134a refrigerant inside the Liebert XDR.  
If the module includes the optional, factory-installed, one-shot style couplings, proceed with 6.7.2 -  
If the module does not include Liebert Flex Pipes, refer to 6.5 - Venting the Holding Charge for  
Figure 17 Piping location and connection sizes—modules with pre-charged modules  
TOP VIEW  
(Rear of Cabinet)  
1-1/8"  
(29mm)  
1-5/16"  
(33mm)  
Refrigerant  
Supply Line  
Refrigerant  
Return Line  
Schrader Valve  
(Do Not Vent)  
1-1/2"  
(38mm)  
2-1/8"  
(54mm)  
5-7/8"  
(149mm)  
6-1/2"  
(165mm)  
23-1/2" (597mm)  
19  
   
Piping  
6.7.2 Connect a Liebert XDR with One-Shot Couplings to Liebert XD Flex Pipe  
NOTICE  
Risk of improper reuse of Liebert XD Flex Pipes with one-shot couplings. Can cause  
refrigerant leaks.  
Liebert XD Flex Pipes with one-shot couplings must not be removed from the Liebert XDR  
unless they are being replaced with Liebert XD Flex Pipes with one-shot couplings. Do not  
reuse Liebert XD Flex Pipes with one-shot couplings. Reuse may result in refrigerant leaks.  
Tools Required  
• Two adjustable wrenches with a maximum adjustment size of 2 inches  
• One torque wrench, half-inch drive (see Table 2 for sizes)  
• Refrigerant oil  
1. Check the Liebert XD Flex Pipe for proper length.  
2. Remove the protector cap and plug from the connections and carefully wipe the couplings and  
threaded surfaces clean.  
3. Use a small applicator brush saturated with refrigerant oil to lubricate the entire surface of the  
diaphragm and the O-ring. Refer to Figure 18.  
Figure 18 Male coupling on Liebert XD cooling module  
Oil Rubber Seal  
and Face of Diaphragm  
If refrigerant oil is not used, an alternate lubricant for this application is a refrigerant-compatible  
silicone grease product, such as Dow Corning DC200/60,000 cst.  
4. Thread the coupling halves together by hand to ensure that the threads mate properly. Ensure  
that the Schrader valve is oriented so that it is accessible for service.  
Figure 19 Female one-shot coupling Liebert Flex Pipe: Schrader valve location  
Coupling Size  
Marking on Lip  
of Coupling  
Schrader  
Valve  
20  
     
Piping  
Figure 20 Hex body, union nut on one-shot coupling  
Union Nut  
Hex Body  
NOTICE  
Risk of improper tightening. Can cause equipment damage.  
It is imperative that the brass body on the Liebert XD Flex Pipe coupling does not rotate while  
the union nut is being tightened. If the brass body rotates, it may damage the Liebert XD Flex  
Pipe.  
5. Hold the brass body of the Liebert XD Flex Pipe with a wrench so that it does not rotate and use  
the torque wrench to tighten the union nut to the proper value shown in Table 2.  
Table 2  
Torque and wrench size for connecting Liebert XDR with one-shot couplings to  
Liebert XD Flex Pipe  
Wrench Sizes,  
Coupling  
Torque, Union Nut  
Only, ft-lb (Nm)  
in. (mm)  
Union Nut  
1-5/16 (34)  
1-3/8 (35)  
Size  
#10 (Supply)  
#12 (Return)  
35-45 (13.5-6.2)  
50-60 (67.8-88.1)  
If a torque wrench is not available, continue with the steps below.  
6. Tighten the union nut on the Liebert XD Flex Pipe to the coupling on the module with the proper-  
sized wrench until a definite resistance is felt, metal-to-metal contact.  
7. Use a marker or pen to draw a line lengthwise across the module coupling to the Liebert XD Flex  
Pipe. The line should parallel the Liebert XD Flex Pipe.  
8. Tighten the nuts an additional one (1) wrench flat (60°), judging the amount by the mark drawn  
in Step 7.  
21  
     
Piping  
6.7.3 Connection Methods—Removable Couplings  
The assembly and connection means used for piping in the Liebert XD system are the same as those  
used in conventional refrigeration systems. Observe all standard practices during installation and  
startup to prevent damage and contamination.  
Both supply and return fittings may be supplied with optional, removable couplings.  
Figure 21 Piping location and connection sizes—modules with removable couplings  
TOP VIEW  
1-5/16"  
7/8"  
(22mm)  
(Rear of Cabinet)  
(33mm)  
Refrigerant  
Supply Line  
Refrigerant  
Return Line  
Schrader Valve  
1-1/2"  
(38mm)  
2-1/8"  
(54mm)  
5-7/8"  
(149mm)  
6-1/2"  
(165mm)  
23-1/2" (597mm)  
6.7.4 Connect Liebert XD Flex Pipe with Removable Coupling to a Liebert XD Cooling Module  
Tools Required  
• One adjustable wrench with a maximum adjustment size of 2 inches  
• One torque wrench, half-inch drive (see Table 3 for sizes)  
1. Check the Liebert XD Flex Pipe for proper length.  
2. Remove the protector plugs from the Liebert XD Flex Pipe.  
3. Remove the protector cap from the couplings on the module.  
4. Wipe the fittings and threaded surfaces clean of particles and other foreign substances.  
5. Verify the O-ring is in place on the module coupling.  
Should additional O-rings be required, refer to Table 4.  
6. Place the Liebert Flex Pipe assembly so that the flat face of the flange on the Liebert XD Flex Pipe  
coupling comes into contact with the O-ring on the module coupling.  
7. Thread the coupling halves together by hand to ensure that the threads mate properly.  
If a torque wrench is not available, continue with the steps below.  
Table 3  
Torque and wrench sizes for connecting Liebert Flex Pipe to the Liebert XDR with  
removable couplings  
Wrench Size, in.  
Coupling  
Size, in.  
Torque, Union Nut  
Only, ft-lb (Nm)  
(mm)  
Union Nut  
15/16 (24)  
1-5/8 (41)  
1/2 (Supply)  
1 (Return)  
40 (55)  
110 (150)  
8. Hold the Liebert XD Flex Pipe so that is does not rotate and use the torque wrench to tighten the  
union nut to the proper value shown in Table 3.  
9. Tighten the union nut on the Liebert XD Flex Pipe to the coupling on the module with the  
adjustable wrench until a definite resistance is felt.  
10. Use a marker or pen to draw a line lengthwise across the module coupling to the Liebert XD Flex  
Pipe. The line should parallel the Liebert XD Flex Pipe.  
11. Tighten the nuts an additional quarter-turn, judging the amount by the mark drawn in Step 10.  
22  
         
Piping  
Figure 22 Removable couplings  
Flange  
On the Liebert  
Flex Pipe  
On the Liebert  
XD Module  
Removable Female Coupling on  
the end of Liebert XD Flex Pipe  
O-Ring  
Table 4  
O-ring part number  
Liebert Part # Size, in.  
Fitting  
192917P1  
192917P2  
192917P3  
1/2  
5/8  
7/8  
FD57-1224-08-10  
FD57-1224-10-11  
FD57-1224-14-12  
6.7.5 Connect a Liebert XDR with Liebert XD Flex Pipe to a Liebert XD System  
NOTE  
Check the entire system for leaks before connecting the Liebert XDR with Liebert XD Flex Pipe  
to the prefabricated piping mains.  
Read all instructions before beginning installation.  
NOTICE  
Risk of refrigerant loss. Can cause environmental pollution and equipment malfunction.  
Before connecting the Liebert XDR with Liebert XD Flex Pipe to the prefabricated piping  
mains, check the whole system for leaks.  
Check the Liebert XDR to ensure that the module has no refrigerant leaks.  
Read all instructions before beginning installation.  
Tools Required  
• One adjustable wrench with a maximum adjustment size of 2 inches  
• One torque wrench, half-inch drive  
• Crowsfoot (supplied with Liebert XDP and Liebert XDC)  
• Liebert XDP or Liebert XDC user manual  
NOTE  
This operation requires two or more people.  
1. Determine the port location of the supply and return piping overhead.  
2. Make sure the service valve for each port is closed  
3. Remove caps from only the required ports. Do not remove caps from the unused ports.  
4. Remove the pipe plugs that are supplied on the Liebert XD Flex Pipe.  
5. Inspect both halves of the coupling and remove any foreign contamination from the sealing  
surfaces and threads before connecting the fittings.  
6. Determine the coupling size by locating the number scribed on the Liebert XD Flex Pipe coupling.  
See Figure 23.  
23  
     
Piping  
Figure 23 Coupling size indicator  
Coupling size  
indicator  
Figure 24 Liebert XD prefabricated piping assembly  
Return Main  
Service Valve, typical  
(all ports)  
Supply Main  
Headers, Capped  
Threaded Cap  
(Typical)  
Headers, Connected  
7. Use mineral oil or polyol ester oil to lubricate the face of the poppet valve and the seal around the  
poppet valve on the female connector (on the Liebert XD Flex Pipe) (see Figure 25).  
8. Apply mineral oil or polyol ester oil to the stainless steel delta ring on the male connector (header  
port connector) (see Figure 25).  
24  
   
Piping  
Figure 25 Oil rings on header and Liebert XD Flex Pipe connectors  
Poppet Valve Face  
Oil  
Applicator  
Spout  
Rubber Ring  
Around Poppet  
Valve Face  
Stainless Steel Delta Ring  
on Header Port Connector  
9. Thread the union nut of the Liebert XD Flex Pipe coupling onto the port coupling to ensure the  
threads mate properly.  
10. Using the wrench arrangement shown in Figure 26, torque the couplings to the values in  
NOTICE  
Risk of twisted or kinked piping. Can cause flow restriction or leaks.  
It is imperative that the brass body of the Liebert XD Flex Pipe coupling does not rotate while  
the couplings are being tightened. Failing to do so may damage the female coupling.  
Table 5  
Torque for connecting Liebert XD Flex Pipe to prefabricated piping  
Coupling  
Size  
Crowsfoot  
Size, in (mm)  
Torque,  
ft-lb (Nm)  
RF08  
RF12  
RF16  
1-3/16 (30)  
1-5/8 (41)  
25.8 (30-35)  
48.0 (60-65)  
62.7 (80-85)  
1-31/32 (50)  
Figure 26 Wrench arrangement for tightening couplings  
Crowsfoot  
Wrench holding brass body of  
female coupling stationary  
to prevent it from turning  
Torque Wrench  
25  
       
Piping  
Figure 27 Detail view of Liebert XD Flex Pipe and prefabricated piping port  
Service Valve  
Note: Make sure the valve  
is closed before attaching  
Tighten with  
torque wrench.  
DO NOT  
Liebert XD Flex Pipe to the system.  
OVERTIGHTEN!  
Hold threaded coupler  
here with a wrench to keep  
the brass body on  
the female connector  
from rotating while tightening  
collar with a torque wrench.  
Flex Pipe  
11. Repeat Steps 3 through 10 for the remaining Liebert XD Flex Pipe.  
12. For a Liebert XDR module with removable couplings, open the return and then supply service  
valves. If the Liebert XDR is pre-charged DO NOT open either of the service valves.  
13. Refer to the Liebert XDC or Liebert XDP user manual for procedures for evacuation,  
leak check, charging and startup.  
If adding a one-shot, pre-charged Liebert XD module with one-shot pre-charged Liebert  
XD Flex Pipes to an operational Liebert XD system, after connecting to the header system:  
1. Open the return service valve.  
2. Open the supply service valve.  
Figure 28 Liebert XD prefabricated piping assembly and Liebert XD Flex Pipe  
Return Service Valve  
Make sure valve is  
open after system  
leak check  
Supply Service Valve.  
Make sure valve is  
open after system  
leak check  
Return  
Main  
Supply Main  
Return Liebert  
XD Flex Pipe from  
Liebert XDR  
Supply Liebert XD Flex Pipe  
from Liebert XDR  
26  
   
Piping  
6.7.6 Disconnect a Liebert XD Flex Pipe from a Liebert XD System  
CAUTION  
!
Risk of sudden discharge of pressurized refrigerant. Can cause equipment damage or injury.  
Do not disconnect threaded refrigerant couplings at the module cabinet end without relieving  
system pressure. Reclaim any refrigerant during removal of module from system.  
Tools Required  
• Two adjustable wrenches with a maximum adjustment size of 2 inches  
1. Close the service valve in the supply line.  
2. Ensure there is airflow across the coil.  
3. Wait two minutes for the refrigerant to flow out of the module.  
4. Close the service valve in the return line.  
5. Loosen the Liebert XD Flex Pipe coupling from the header port coupling. This requires a wrench.  
Refer to Figure 27.  
The Liebert XD Flex Pipe coupling must be held stationary while the union nut on the coupling is  
being loosened.  
6. Disconnect the coupling.  
7. Place the protective dust cap on the port.  
8. Place the protective plug back on the Liebert XD Flex Pipe.  
9. Repeat Steps 5 through 7 for the remaining Liebert XD Flex Pipe.  
Figure 29 Piping mains without Liebert XD Flex Pipe  
Dust caps attach here  
27  
     
Piping  
6.7.7 Disconnecting the Liebert XD Flex Pipe from the Liebert XDR  
NOTICE  
Risk of improper reuse of Liebert XD Flex Pipes with one-shot connections. Can cause  
refrigerant leaks.  
Liebert XD Flex Pipes with one-shot connections must not be removed from the Liebert XDR  
unless they are being replaced with Liebert XD Flex Pipes with one-shot couplings. Do not  
reuse Liebert XD Flex Pipes with one-shot connections. Reuse may result in refrigerant leaks.  
Tools Required  
• Two adjustable wrenches with a maximum adjustment size of 2 inches  
1. Reclaim the refrigerant in the Liebert XD Flex Pipe and in the module by attaching a refrigerant  
reclaim device to the Schrader valve. For help finding the Schrader valve, see Figures 14, 17  
and 21.  
2. Hold the Liebert XD Flex Pipe so it does not rotate.  
For the Liebert XD Flex Pipe with one-shot couplings, additionally, hold the brass body of the cou-  
pling so it does not rotate while loosening the couplings. Failing to do so may cause damage.  
3. Loosen the Liebert XD Flex Pipe coupling from the module with a wrench.  
4. Replace the dust plug on the Liebert XD Flex Pipe.  
5. Replace the dust cap on the Liebert XD module.  
6. Lay the Liebert XD Flex Pipe with removable couplings aside where it will not be damaged.  
Discard or recycle the one-shot Liebert XD Flex Pipes.  
NOTICE  
Risk of permanent damage to the Liebert XD Flex Pipes. Do not fold or bend pipe tightly.  
6.7.8 Removing the Liebert XDR from a Cabinet  
WARNING  
death.  
!
Risk of 130-pound (59 kg) module falling. Can cause equipment damage, personal injury or  
Removing a Liebert XDR from above a cabinet will require two properly trained and qualified  
people. Read all instructions before beginning.  
1. Reinstall the four removable installation handles.  
2. Loosen the bolts holding the Liebert XDR on the cabinet.  
3. With the help of another person, lift the Liebert XDR from the cabinet or hanging bracket onto a  
stable surface.  
28  
   
Installation Checklist and System Fill for Startup  
7.0 INSTALLATION CHECKLIST AND SYSTEM FILL FOR STARTUP  
7.1 Checklist for Proper Installation  
___ 1. Liebert XDR modules are securely attached to the cabinet and aligned properly with the rack.  
___ 2. Check to ensure there are no obstructions that prevent the Liebert XDR from opening.  
___ 3. Piping from Liebert XDP or Liebert XDC, with isolation valves, is properly connected to each  
Liebert XDR module.  
___ 4. Liebert XD Flex Pipe couplings to prefabricated header assembly are secure and according to  
specifications.  
___ 5. System checked for leakage.  
___ 6. Check the R-134a refrigerant charge (see the user manual for either the Liebert XDP,  
SL-16671 or the Liebert XDC, SL-16644; each is available on the Liebert Web site,  
___ 7. Run system and verify that the Liebert XDP or Liebert XDC and the Liebert XDR modules  
operate properly.  
___ 8. Piping is insulated.  
7.2  
Charging with Refrigerant  
The Liebert XD system must be completely installed before it is charged with refrigerant. After  
installation is complete, refer to the Liebert XDP or Liebert XDC user manual for instructions on  
charging Liebert XD modules with refrigerant and the starting of the system. The complete Liebert  
XD system includes all Liebert XD cooling modules, a Liebert XDC or Liebert XDP and any other con-  
nected equipment.  
29  
     
Starting the Liebert XD System  
8.0 STARTING THE LIEBERT XD SYSTEM  
Refer to the user manual for the refrigerant supply unit, either a Liebert XDP or Liebert XDC, for  
details on starting the system. The Liebert XDP user manual is SL-16644 and the Liebert XDC user  
manual is SL-16671. The user manuals were supplied with the units and are available on the Liebert  
30  
 
Maintenance  
9.0 MAINTENANCE  
Minimal maintenance is required to keep the Liebert XDR operating at optimal levels. The module  
should be cleaned and checked for damage. Suggested maintenance includes:  
• Cooling fins—Clean any dust and debris from the cooling fins, taking care not to bend them.  
9.1  
Fluorinated Greenhouse Gas Requirements  
Stationary air conditioning, refrigeration, heat pump equipment and stationary fire protection sys-  
tems in the European Community market and operating with fluorinated greenhouse gases (f-gas),  
such as R407C, R134a, R410A, must comply with the F-Gas Regulation: (EC) No. 842/2006 (F-gas).  
The regulation prohibits, among other actions, venting fluorinated greenhouse gases to the atmo-  
sphere.  
The F-Gas Regulation requires operators to use all measures that are technically feasible and do not  
entail disproportionate cost to prevent leakage of these gases, to test for leakage regularly and to  
recover f-gas during equipment service and maintenance and before disposing of equipment.  
Refer to the full regulation for additional details.  
31  
   
Specifications  
10.0 SPECIFICATIONS  
Table 6  
Liebert XDR specifications  
XDR20B1P *  
(Pre-Charged R-134a)  
XDR20B1- *  
XDR20B1R *  
Models  
Cooling Capacity, Nominal,  
rated at 104ºF (40°C) EAT & 2400ft /m (68m /m)  
20.5 kW (5.8 tons)  
3
3
55°F (13°C) entering fluid temperature  
50°F (10°C) or lower dew point  
Conditions  
Dimensions, inches (mm)  
Height, Including Pipe Connections  
Width With Handles Attached  
Handles Removed  
Depth  
82-3/8 (2093)  
83-1/2 (2121)  
27-3/8 (695)  
23-1/2 (597)  
6-1/2 (165)  
90 (2286)  
80 (2032)  
Shipping Length  
Shipping Width  
30-1/2 (775)  
15-1/2 (394)  
62 (1575)  
Shipping Depth  
Max Shipping Depth (4 modules)  
Weight, lb (kg)  
Module Only  
130 (59)  
133 (60)  
130 (59)  
Shipping  
225 (103)  
228 (104)  
225 (103)  
Pipe Connections  
Refrigerant Supply  
Refrigerant Return  
Exterior Finish  
1/2" OD Type ACR  
7/8" OD Type ACR  
Black Matte, Heat-Fused Powder Coat  
CSA, CE Approved  
Safety  
*
Refer to Figure 2 for the complete part number.  
Table 7  
Rack  
Rack mounting kit  
Part #  
Knurr Miracel  
Dell PowerEdge 4210  
HP 10642  
198163G1  
199050G1  
199051G1  
199054G1  
APC AR3100  
Table 8  
Liebert XD Flex Pipe one-shot assemblies, supply and return  
Minimum Bend Radius  
in (mm)  
Liebert P/N  
Straight Connection  
Assembly  
Liebert P/N  
90-Degree  
Connection Assembly  
Length  
ft (m)  
Description  
Supply  
Return  
10 (3.0)  
8 (2.5)  
6 (1.8)  
4 (1.2)  
186566G2  
186566G3  
186566G1  
186566G4  
186565G2  
186565G3  
186565G1  
186565G4  
Liebert XD  
Flex Pipe Kit  
7 (178)  
9 (229)  
Table 9  
Liebert XD Flex Pipe removable assemblies, supply and return  
Minimum Bend Radius  
in (mm)  
Liebert P/N  
Straight Connection  
Assembly  
Liebert P/N  
90-Degree Connection  
Assembly  
Length  
ft (m)  
Description  
Supply  
Return  
10 (3.0)  
8 (2.5)  
6 (1.8)  
4 (1.2)  
187865G2  
187865G3  
187865G1  
187865G4  
187864G2  
187864G3  
187864G1  
187864G4  
Liebert XD  
Flex Pipe Kit  
7 (178)  
9 (229)  
32  
         
Ensuring The High Availability  
Of Mission-Critical Data And Applications.  
Emerson Network Power, the global leader in enabling business-critical  
continuity, ensures network resiliency and adaptability through  
a family of technologies—including Liebert power and cooling  
technologies—that protect and support business-critical systems.  
Liebert solutions employ an adaptive architecture that responds  
to changes in criticality, density and capacity. Enterprises benefit  
from greater IT system availability, operational flexibility and  
reduced capital equipment and operating costs.  
Technical Support / Service  
Web Site  
Monitoring  
800-222-5877  
Outside North America: +00800 1155 4499  
Single-Phase UPS & Server Cabinets  
800-222-5877  
Outside North America: +00800 1155 4499  
Three-Phase UPS & Power Systems  
800-543-2378  
Outside North America: 614-841-6598  
Environmental Systems  
800-543-2778  
Outside the United States: 614-888-0246  
Locations  
United States  
1050 Dearborn Drive  
P.O. Box 29186  
Columbus, OH 43229  
Europe  
Via Leonardo Da Vinci 8  
Zona Industriale Tognana  
35028 Piove Di Sacco (PD) Italy  
+39 049 9719 111  
While every precaution has been taken to ensure the accuracy  
and completeness of this literature, Liebert Corporation assumes no  
responsibility and disclaims all liability for damages resulting from use of  
this information or for any errors or omissions.  
© 2009 Liebert Corporation  
All rights reserved throughout the world. Specifications subject to change  
without notice.  
® Liebert is a registered trademark of Liebert Corporation.  
All names referred to are trademarks  
or registered trademarks of their respective owners.  
Fax: +39 049 5841 257  
Asia  
29/F, The Orient Square Building  
F. Ortigas Jr. Road, Ortigas Center  
Pasig City 1605  
Philippines  
+63 2 687 6615  
Fax: +63 2 730 9572  
SL-16935_REV02_06-10  
Emerson Network Power.  
The global leader in enabling Business-Critical Continuity™  
EmersonNetworkPower.com  
AC Power  
Embedded Computing  
Outside Plant  
Racks & Integrated Cabinets  
Connectivity  
DC Power  
Embedded Power  
Power Switching & Controls  
Services  
Infrastructure Management & Monitoring  
Precision Cooling  
Surge Protection  
Emerson, Business-Critical Continuity, Emerson Network Power and the Emerson Network Power logo are trademarks of Emerson Electric Co. or one of its affiliated companies.  
©2009 Emerson Electric Co.  

Amana REMOTE CONDENSING UNIT User Manual
Briggs Stratton 6 S User Manual
Brother Printer MFC 8840D User Manual
Carrier 38AKS User Manual
Carrier 38APS025 065 User Manual
Carrier 48TM025 User Manual
Gale Banks Engineering Diesel Performance Specialists Automobile Accessories F350 User Manual
GE Zoneline AZ38H12DAC User Manual
HP Hewlett Packard Hewlett Packard All in One Printer P2015 User Manual
HP Hewlett Packard HP PHOTOSMART 2700 User Manual