HP Modular Cooling System User's manual

HP Modular Cooling System User's manual

HP Modular Cooling System

User Guide

Part Number 399325-002

February 2007 (Second Edition)

© Copyright 2006, 2007 Hewlett-Packard Development Company, L.P.

The information contained herein is subject to change without notice. The only warranties for HP products and services are set forth in the express warranty statements accompanying such products and services. Nothing herein should be construed as constituting an additional warranty. HP shall not be liable for technical or editorial errors or omissions contained herein.

Microsoft, Windows, and Windows NT are U.S. registered trademarks of Microsoft Corporation. Windows Server 2003 is a trademark of

Microsoft Corporation. Intel, Pentium, and Itanium are trademarks or registered trademarks of Intel Corporation or its subsidiaries in the United

States and other countries. UNIX is a registered trademark of The Open Group.

Audience assumptions

This document is for the person who installs racks and rack products. This procedure is performed only by trained personnel. HP assumes you are qualified in performing installations and trained in recognizing hazards in rack products.

Contents

Overview..................................................................................................................................... 5

Introduction .............................................................................................................................................. 5

Configuration factors..................................................................................................................... 7

Optimum environment and site requirements................................................................................................. 7

Site preparation ........................................................................................................................................ 7

Installation ................................................................................................................................... 8

MCS kit contents ....................................................................................................................................... 8

Rack hardware kit contents......................................................................................................................... 9

Required tools........................................................................................................................................... 9

Installing the MCS unit ............................................................................................................................. 10

Powering up and configuring the unit......................................................................................................... 16

Configuring the IP address through the web interface ......................................................................... 25

Management module .................................................................................................................. 30

Management module overview ................................................................................................................. 30

Management module components ............................................................................................................. 31

Accessing the management module through a terminal emulation program..................................................... 32

Logging in through the terminal emulation program............................................................................ 32

Accessing the management module through the web interface ...................................................................... 33

Web interface requirements............................................................................................................ 33

Logging in through the web interface ............................................................................................... 34

Connecting an external alarm relay ........................................................................................................... 35

Serial interface ........................................................................................................................... 37

HP Modular Cooling System Utility overview............................................................................................... 37

Main menu ................................................................................................................................... 38

Configuring HyperTerminal....................................................................................................................... 43

Configuring Minicom............................................................................................................................... 44

Operator display ........................................................................................................................ 45

Operator display overview ....................................................................................................................... 45

Operator display components ......................................................................................................... 45

Warning and alarm messages ........................................................................................................ 45

Adjusting the operator display .................................................................................................................. 55

Automatic Door Release Kit.......................................................................................................... 57

Automatic Door Release Kit Overview ........................................................................................................ 57

Frequently asked questions .......................................................................................................... 58

HP Modular Cooling System frequently asked questions ............................................................................... 58

Troubleshooting .......................................................................................................................... 60

HP Modular Cooling System troubleshooting............................................................................................... 60

Specifications............................................................................................................................. 61

MCS specifications.................................................................................................................................. 61

Thermal and air flow performance ................................................................................................... 62

Contents 3

Environmental specifications ........................................................................................................... 62

HP 10642 G2 Rack specifications............................................................................................................. 62

Replaceable parts and maintenance and service information ........................................................... 63

Replaceable parts ................................................................................................................................... 63

Maintenance and service ......................................................................................................................... 63

Air and water heat exchanger maintenance...................................................................................... 63

Water quality and leveling requirements, and condensation management......................................... 64

Water quality requirements and specifications ............................................................................................ 64

Cooling water composition guidelines.............................................................................................. 64

Acceptable water quality range....................................................................................................... 64

Monitoring the quality of cooling solutions ........................................................................................ 66

Frost damage................................................................................................................................ 66

Leveling requirements............................................................................................................................... 66

Condensation management ...................................................................................................................... 67

Technical support........................................................................................................................ 68

Before you contact HP.............................................................................................................................. 68

HP contact information............................................................................................................................. 68

Customer Self Repair ............................................................................................................................... 68

Regulatory compliance notices ..................................................................................................... 76

Regulatory compliance identification numbers ............................................................................................. 76

Federal Communications Commission notice............................................................................................... 76

Modifications.......................................................................................................................................... 76

Cables................................................................................................................................................... 77

Canadian notice ..................................................................................................................................... 77

European Union regulatory notice ............................................................................................................. 77

Disposal of waste equipment by users in private households in the European Union......................................... 78

Japanese class A notice ........................................................................................................................... 78

BSMI notice ............................................................................................................................................ 78

Korean class A notice .............................................................................................................................. 78

Laser compliance .................................................................................................................................... 78

Battery replacement notice........................................................................................................................ 79

Taiwan battery recycling notice................................................................................................................. 79

Power cord statement for Japan................................................................................................................. 80

Acronyms and abbreviations........................................................................................................ 81

Index......................................................................................................................................... 83

Contents 4

Overview

In this section

Introduction ............................................................................................................................................. 5

Introduction

The HP Modular Cooling System is an air and water heat exchanger that removes high levels of excess heat generated by equipment installed in HP 10642 G2 Racks. The installed equipment takes in cold air through the front of the closed MCS unit, uses the air for internal cooling, and then expels it through the rear vents after it has been warmed. The air is then recycled through the MCS unit.

Item Reference

2 Heat exchanger units

Overview 5

Item Reference

7

8

5

6

AC transfer switch

Water group controller

Condensation pump assembly

Magnetic solenoid valve

11 Power connectors and RJ-45 connector

Overview 6

Configuration factors

In this section

Optimum environment and site requirements ............................................................................................... 7

Site preparation ....................................................................................................................................... 7

Optimum environment and site requirements

CAUTION: Contaminated water may cause decreased cooling capacity or disruption in service. It is important that the water flowing into the MCS unit meets the guidelines stated in the

HP Modular Cooling System Site Preparation Guide

. Damage caused by contaminated water is not covered by the MCS unit warranty.

IMPORTANT: You must read the

HP Modular Cooling System Site Preparation Guide

before beginning the installation process.

Specific environmental requirements must be met to provide optimum performance with minimum maintenance for your unit.

To help you learn about these requirements and to plan your unit configuration more efficiently, HP provides the

HP Modular Cooling System Site Preparation Guide

.

Site preparation

The

HP Modular Cooling System Site Preparation Guide

provides specific information to help you plan your unit configuration efficiently and organize your site location prior to delivery of your MCS unit.

To locate the latest version of the

HP Modular Cooling System Site Preparation Guide

:

1.

Go to the HP website ( http://www.hp.com/go/rackandpower ).

2.

Select Rack and Rack Options.

3.

4.

5.

6.

Select Modular Cooling System.

Select Support and Documents.

Select Manuals.

Select and download the

HP Modular Cooling System Site Preparation Guide

.

Configuration factors 7

Installation

In this section

MCS kit contents ...................................................................................................................................... 8

Rack hardware kit contents........................................................................................................................ 9

Required tools.......................................................................................................................................... 9

Installing the MCS unit ............................................................................................................................ 10

Powering up and configuring the unit ....................................................................................................... 16

MCS kit contents

HP MCS unit installed to an HP 10000 G2 Series Rack (1)

Automatic Door Release kit (1)

Counter hold wrench (1)

Water hose fitting wrench (1)

Rear plate cover (1)

Condensation pump to facility hose (blue) (1)

NOTE: This item might come directly attached to the MCS unit rather than in the standard kit contents.

Condensation pan to facility hose (clear) (1)

Tubing clamp (2)

Adjustable clamp (1)

Power cord (3.6 m), L6-20 to C19 (2)

Power cord (3.6 m), IEC-309 to C19 (2)

CAT5e cable (25 ft) (1)

NOTE: This item might come directly attached to the MCS unit rather than in the standard kit contents.

Serial cable (1)

Installation 8

Rack hardware kit contents

1.

2.

3.

4.

5.

6.

7.

8.

9.

10.

11.

12.

M6 screws (50)

Cage nut insertion tool (1)

M5.5 x 10 self tapping screws (6)

M6 cage nuts (50)

T-25 Torx bit (1)

Cable management bracket (6)

Rack ID plate (1)

Leveling foot base (6)

Documentation CD (1)

Hook-and-loop cabling strap 12.7-cm (5 in) clip (1)

Hook-and-loop cabling strap 20.3-cm (8 in) clip (1)

Hook-and-loop cabling strap 30.5-cm (12 in) clip (1)

Required tools

The following tools are required for installation:

Flathead screwdriver

#2 Phillips screwdriver

Adjustable wrench

T-25 Torx driver

T-30 Torx driver

Water hose fitting wrench (included with your MCS kit contents)

Installation 9

Counter hold wrench (included with your MCS kit contents)

Bubble level

Installing the MCS unit

WARNING: The MCS unit and rack are shipped together on a heavy duty shock pallet weighing approximately 2000 lb. HP recommends hiring professional movers to move the heavy duty shock pallet, and then remove the MCS unit and rack from the pallet and into to the final location.

CAUTION: Contaminated water may cause decreased cooling capacity or disruption in service. It is important that the water flowing into the MCS unit meets the guidelines stated in the

HP Modular Cooling System Site Preparation Guide

. Damage caused by contaminated water is not covered by the MCS unit warranty.

IMPORTANT: You must read the

HP Modular Cooling System Site Preparation Guide

before beginning the installation process.

IMPORTANT: Be sure to install the HP Water Hook-up Option Kit before connecting the In and

Out water hoses to the water lines.

1.

2.

3.

4.

Read the unpacking instructions on the MCS packaging material.

With four or more people, carefully remove the MCS unit and rack from the pallet.

Roll the MCS unit and rack approximately 91 cm (3 ft) in front of the final location.

Loosen the jam nut, and raise the unit by lowering the two rear leveling feet on both the MCS unit and the rack until the rear caster plate can be removed.

Installation 10

5.

Remove the rear caster plate.

6.

Lower the unit by raising the two rear leveling feet on both the MCS unit and the rack so that the

MCS unit can move freely on the remaining casters.

Installation 11

7.

Roll the MCS unit and rack into the final location while guiding the In and Out water hoses through the raised floor opening.

8.

Using a bubble level, adjust the leveling feet to level the MCS unit and rack.

Installation 12

9.

Install and route the two drain hoses to the drain collection system catch basin. a.

Install the blue drain hose by inserting one end of the hose into the plastic collar quick connect on the condensation pump, and then route the other end into either the condensation return line or the gravity drain collection system catch basin.

Installation 13

b.

Install the clear drain hose by inserting one end of the hose into the condensation collection pan, and then route the other end into the gravity drain collection system catch basin.

NOTE: Position the gravity drain collection system below the condensation collection pan, allowing gravity to draw the water out of the condensation collection pan and into the gravity drain collection system catch basin.

10.

Plug the network cable into the RJ-45 connector located above the In and Out water hoses.

11.

Guide the other end of the network cable through the bottom of the MCS unit.

IMPORTANT: Do not connect the power cords into a power supply.

12.

Plug the primary power cord into the power connector on the left.

Installation 14

WARNING: To reduce the risk of electric shock or damage to the equipment:

Do not disable the power cord grounding plug. The grounding plug is an important safety feature.

• Plug the power cord into a grounded (earthed) electrical outlet that is easily accessible at all times.

Unplug the power cord from the power supply to disconnect power to the equipment.

• Do not route the power cord where it can be walked on or pinched by items placed against it. Pay particular attention to the plug, electrical outlet, and the point where the cord extends from the storage system.

13.

If a secondary power cord is being used, plug it into the power connector on the right.

14.

Guide the other end of the power cords through the bottom of the MCS unit.

IMPORTANT: Be sure to flush the prearranged facility water lines of debris prior to connecting them to the In and Out hoses.

15.

Connect the In and Out water hoses to the prearranged facility water lines.

Installation 15

16.

17.

Turn on the water to the prearranged facility water lines.

(Optional) Remove the two screws from the bottom brackets on the MCS frame.

18.

19.

(Optional) Align the access panel with the two holes from step 17.

(Optional) Secure the access panel to the MCS frame using the two screws you removed in step 17.

Powering up and configuring the unit

Installation 16

WARNING: To reduce the risk of electric shock or damage to the equipment:

Do not disable the power cord grounding plug. The grounding plug is an important safety feature.

• Plug the power cord into a grounded (earthed) electrical outlet that is easily accessible at all times.

Unplug the power cord from the power supply to disconnect power to the equipment.

• Do not route the power cord where it can be walked on or pinched by items placed against it. Pay particular attention to the plug, electrical outlet, and the point where the cord extends from the storage system.

The following steps outline the sequence for powering up and configuring the unit.

1.

Plug the power cord into an appropriate power source.

2.

Connect the network cable to your network infrastructure.

NOTE: If you have a DHCP server, you can change the IP address through the web interface instead of through the serial port. For more information, refer to "Configuring the IP address through the web interface."

3.

4.

5.

Connect a PC with a serial port or an asynchronous terminal to the serial communication port on the management module (using the serial cable provided).

Access the management module through a terminal emulation program, such as HyperTerminal

("

Configuring HyperTerminal " on page 43 ) or Minicom.

Log in to the HP Modular Cooling System Configuration Utility. a.

Enter the user name in the login field. The default user name is Admin.

Installation 17

b.

Enter the password in the password field. The default password is Admin. The Main Menu screen appears.

6.

Enter the product ID and serial number. The product ID and 10-digit serial number are located on a label inside the rear MCS unit door.

Installation 18

a.

From the Main Menu screen, enter

3 Factory Default

. The Default Product Identification screen appears.

7.

NOTE: MCS units with part number 405930-001 that have been upgraded from the

Management Controller version 1.0 may not have the product ID or serial number on the unit.

In such cases, use

AF098A as the product ID. b.

c.

Enter

2 Product ID MCS

to set the product ID.

Enter

3 Serial Number MCS

to set the serial number. d.

Press Esc to return to the Main Menu screen.

Access the HP Modular Cooling System Configuration Utility.

Installation 19

a.

From the Main Menu screen, enter

1 Network Configuration

. The Menu Network

Configuration screen appears.

Installation 20

b.

Enter

1 IP Configuration

. The IP Configuration screen appears.

8.

c.

d.

e.

f.

Enter

4 Enable/Disable DHCP

to disable DHCP.

Enter

1 IP Address,

and then enter the new IP address.

Enter

2 IP Subnet mask,

and then enter the IP subnet mask.

Enter

3 IP Def. Router,

and then enter the gateway.

NOTE: MCS units with part number 405930-001 that have been upgraded from the

Management Controller version 1.0 may not have the product ID or serial number on the unit.

In such cases, use

AF098A as the product ID.

Activate the values.

Installation 21

a.

Return to the Main Menu Network Configuration screen.

9.

10.

b.

Enter

4 Activate Actual Values

. c.

Enter y

at the prompt to reboot. You must reboot for the IP settings, product ID, and serial number values to be activated.

Access the Management module through the web interface. a.

b.

Launch a supported browser. The browser window appears.

In the Address field (Microsoft® Internet Explorer) or the Location field (Mozilla), enter http://ipaddress

(where ipaddress

is the IP address of the management module). The login screen appears.

Log in through the web interface. a.

Enter the user name in the User Name field. The default user name is

Admin

. b.

Enter the password in the Password field. The default password is

Admin

.

Installation 22

c.

Click Sign In.

11.

Verify that the water source is available and turned on by viewing the Water Flow status in the

Overview menu. Be sure that you do not have a water flow warning as shown in the following figure.

Installation 23

12.

Click Setup>Accounts, and then change the Web Admin and Web User passwords.

13.

14.

Click Save Settings.

(Optional, but recommended) Click Setup>Management>Remote Access, then select the SSL Enable radio button and optionally enter an SSL key.

15.

Click Save Settings.

Installation 24

16.

Click Setup>Management>Trap Receivers to set up your trap receivers.

17.

18.

Click Save Settings.

(Optional but recommended) Click Setup>Management>SNMP Managers to set up your SNMP managers.

19.

Click Save Settings.

Configuring the IP address through the web interface

1.

View the IP address received from DHCP on the operator display.

Installation 25

2.

3.

Access the Management module through the web interface. a.

Launch a supported browser. The browser window appears. b.

In the Address field (Internet Explorer) or the Location field (Mozilla), enter http://ipaddress

(where ipaddress

is the IP address of the management module). The login screen appears.

Log in through the web interface. a.

Enter the user name in the User Name field. The default user name is

Admin

. b.

c.

Enter the password in the Password field. The default password is

Admin

.

Click Sign In.

4.

Click Setup>Network.

a.

b.

Select to disable DHCP (enabled is the default setting) from the DHCP radio buttons.

Click Save Settings.

c.

d.

Change the IP address in the IP Address field of the management module.

Change the network mask of the management module. e.

f.

Change the default gateway of the management module.

Click Save Settings.

Installation 26

g.

Log in to the new IP address.

5.

Verify that the water source is available and turned on by viewing the Water Flow status in the

Overview menu. Be sure that you do not have a water flow warning as shown in the following figure.

Installation 27

6.

Click Setup>Accounts, and then change the Web Admin and Web User passwords.

7.

8.

Click Save Settings.

(Optional, but recommended) Click Setup>Management>Remote Access, then select the SSL Enable radio button and optionally enter an SSL key.

9.

Click Save Settings.

Installation 28

10.

Click Setup>Management>Trap Receivers to set up your trap receivers.

11.

12.

Click Save Settings.

(Optional, but recommended) Click Setup>Management>SNMP Managers to set up your SNMP managers.

13.

Click Save Settings.

Installation 29

Management module

In this section

Management module overview ................................................................................................................ 30

Management module components............................................................................................................ 31

Accessing the management module through a terminal emulation program................................................... 32

Accessing the management module through the web interface..................................................................... 33

Connecting an external alarm relay.......................................................................................................... 35

Management module overview

The HP Modular Cooling System has a management module which can be accessed remotely through the web interface, that analyzes, queries, and manages various measurements, and warning and alarm messages from the unit.

The management module analyzes measurements provided by each sensor or module, generates any necessary warning or alarm messages, and then sends them to the web interface. When a new warning or alarm occurs, the warning and alarm messages (on page 45 ) appear on the operator display, as well as on the web interface Alarms menu and Alarm History menu. An alarm relay is also activated (if installed on the unit and enabled in the appropriate web interface menu), and an alarm is signaled acoustically by the internal beeper (if enabled in the appropriate web interface menu).

The management module performs regulation operations, such as:

Retrieving all measurements from the fan units and the water units in cycles, about once per second

(temperature, fan speed, and chilled water flow rate)

Analyzing all measurements and generated alarm and warning messages

Calculating heat removed from the water flow rate and temperature of the water supply and return

Measuring water flow rate

Regulating the server air inlet temperature by controlling the water flow

Sending control settings for fan speeds back to the HP Modular Cooling System

Sending various system values to the web interface

The web interface displays various measurements and warning and alarm messages (on page

45 ) from

the management module. Also, various system values can be set through the web interface and sent to the management module. For more information about the web interface, see the

HP Modular Cooling System

Web Interface User Guide

.

The following values can be set through the web interface and sent to the management module:

Server Intake Temperature Set Point—Target value used by the management module for server intake regulation

Hysteresis Value—Value used by the management module for air temperature regulation

High Temperature Threshold—Temperature difference above Server Intake Temperature Set Point for temperature-critical alarm message

Management module 30

Warning Temperature Threshold—Temperature difference above Server Intake Temperature Set Point for temperature warning message

Low Temperature Threshold—Temperature difference below Server Intake Temperature Set Point for temperature warning message

The following values are displayed in the web interface for information only:

Fan Speed Target—Displays the percentage of the fan maximum speed

Water Valve—Displays the water valve state

Cooling Module 1 through 3—Displays the Server Intake and Server Exhaust Temperature and the

RPM of each cooling unit

Water Inlet Temperature—Displays the temperature of the water coming into the MCS unit to be used to cool the servers

Water Outlet Temperature—Displays the temperature of the water after removing the server heat

Water Flow—Displays the value of the water flow in liters/gallons per minute

Management module components

The management module is located on the inside of the MCS front door.

Item Reference

1 C key

Description

Used to confirm warnings, critical alarms, and configuration setting changes, as well as to turn off the audible alarm. Press and hold the C key for five seconds, or click the Clear Alarms button on the Web interface Setup tab>General menu, to confirm these situations.

Management module 31

Item Reference

2

Description

Power/alarm LED Used to indicate the internal status of the management module, and to signal warnings and critical alarms.

If the LED is green, there is power to the management module and conditions are normal

If the LED is green and blinking, communication is taking place

If the LED is yellow, a warning has been issued

If the LED is red, a critical alarm has been issued

If the LED is blinking green, yellow and red, a configuration setting change has been made. Press and hold the C key for five seconds to save the new configuration settings to the internal memory of the management module.

If the LED is off, there is no power to the management module

3 Traffic/link LED

4 Serial communication port

Used to display the network connection.

If the LED is green, there is a 10-MB connection.

If the LED is yellow, there is a 100-MB connection.

If the LED is green or yellow and blinking, data is being transferred.

If the LED is off, there is no connection.

Used to establish a serial connection (cable comes attached).

For more information, refer to "Serial interface (on page

37 )."

Accessing the management module through a terminal emulation program

1.

2.

3.

Verify that a serial cable is connected between the management module and a host computer.

Launch a terminal emulation program, such as HyperTerminal ("

Configuring HyperTerminal " on

page

43 ) or Minicom.

For information about configuring the management module, see the

HP Modular Cooling System

Web Interface User Guide.

Log in through the terminal emulation program (" Logging in through the terminal emulation program "

on page

32 ).

Logging in through the terminal emulation program

1.

Enter the user name in the login field. The default user name is

Admin.

Management module 32

2.

Enter the password in the password field. The default password is

Admin.

The Main Menu screen appears.

Accessing the management module through the web interface

1.

2.

3.

Launch a supported browser. The browser window appears.

In the Address field (Microsoft® Internet Explorer) or the Location field (Mozilla), enter one of the following: http://

hostname[:port number]

-orhttps://

hostname[:port number]

(if SSL is enabled) where

hostname

is the IP address of the management module and

port number

is the port number if using a port other than the default 80 for http and 443 for https. The login screen appears.

Log in through the web browser.

Web interface requirements

The following table lists the minimum requirements necessary to operate the web interface.

Management module 33

Software Browser

Web browser on a client

Monitor resolution

Microsoft® Internet Explorer 6.0 with Service

Pack 1 (32-bit only)

Red Hat Linux operating system (32-bit only)

Mozilla 1.4

SUSE LINUX operating system (32-bit only)

Mozilla 1.6

Minimum supported resolution of 1024 x 768, 16bit high color (maximize browser window for optimal display)

Desktop resolution SLES 9 Mozilla 1.6

1 Right-click the mouse, and select Configure

Desktop.

2 Select 1152 x 864.

3 Select 75 Hz.

Logging in through the web interface

1.

Enter the user name in the User Name field. The default user name is

Admin

.

NOTE: Passwords are case-sensitive.

2.

3.

Enter the password in the Password field. The default password is

Admin

.

Click Sign In.

The HP Modular Cooling System web interface appears.

-or-

Click Clear to clear the credentials.

Management module 34

For instructions on changing the password, see the "Accounts menu" section in the

HP Modular

Cooling System Web Interface User Guide.

Only one Admin session and one User session are supported at a time. Sessions can be terminated if a second session is initiated (after successful login), or if a console session timeout occurs. In both situations, the existing session is terminated and the login screen appears. Admin session logins, logouts, and terminations are recorded in the Event Log menu. The console session timeout length can be enabled, disabled, or modified in the Remote Access tab. The default is 30 minutes.

Connecting an external alarm relay

The external alarm relay must be ordered separately from the MCS unit, and can be purchased by visiting the Rittal website (http://www.Rittal.com), and searching for the part number DK7320.590.

To add an external alarm relay:

Management module 35

1.

Connect the external alarm relay module to the sensor jack 1 (see figure below) on the management module according to the instructions provided with the device. The management module LED status light will blink red, yellow, and then green.

2.

3.

4.

Press and hold the management module C key for five seconds to confirm the new settings. The management module LED status light turns green when the external alarm relay is ready.

Test the external alarm relay by setting the High Temperature Threshold lower than the normal settings from the web interface, and confirm that the alarm is generated.

Once the test is complete, return the High Temperature Threshold to its normal setting.

Management module 36

Serial interface

In this section

HP Modular Cooling System Utility overview ............................................................................................. 37

Configuring HyperTerminal ..................................................................................................................... 43

Configuring Minicom.............................................................................................................................. 44

HP Modular Cooling System Utility overview

The HP Modular Cooling System Configuration Utility is used for entering network settings, accessing controls, reviewing the details on the info page, and resetting to factory defaults.

First, log in to a terminal emulation program. (" Logging in through the terminal emulation program " on page 32 ) After you have successfully initiated a terminal emulation session, the HP Modular Cooling

System Configuration Utility appears.

Open a submenu by entering the corresponding option number at the prompt.

Enter or change configuration information by following the onscreen prompts.

Press Esc or enter

0

at the submenu prompt to go to the previous menu.

-or-

Press Esc or enter

0

at the main menu prompt to exit the utility.

The management module must be reset before configuration changes can take effect.

Serial interface 37

Main menu

2

3

Option number Submenu

1 Network Configuration

Info Page

Factory Default

Description

Enter or change network properties for the management module.

View parameters for the management module.

Change parameters back to default settings.

Serial interface 38

Menu Network Configuration submenu

2

3

4

Option number Submenu

1 IP Configuration

Change Passwords

HTTP/Console Timeout [min]

Activate Actual Values

Description

Enter or change the IP configuration for the management module.

Enter or change the passwords for the management module.

Enter or change the minimum HTTP/console timeout for the management module.

Select to accept changes and restart the unit.

Serial interface 39

IP Configuration submenu

2

3

4

Option number Submenu

1 IP Address

IP Subnet mask

IP Def. Router

Enable/Disable DHCP

Description

Enter or change the IP address for the management module.

Enter or change the subnet mask for the management module.

Enter or change the default router for the management module.

Select to enable or disable DHCP.

Serial interface 40

Change Passwords submenu

Option number Submenu

3

4

1

2

5

Console Password 'Admin'

FTP Password 'ftpuser'

FTP Password 'ftpadmin'

HTTP Password 'User'

HTTP Password 'Admin'

Description

Change the Admin password.

Change the FTP user password.

Change the FTP Admin password.

Change the HTTP user password.

Change the HTTP Admin password.

Serial interface 41

Info page

The Info page displays the following parameters:

IP Address

Subnetmask

Router/Gateway

MAC Address

SysName

SysContact

SysLocation

Software Version

Hardware Version

Firmware

Serial Number

Manufacture Date

CMC-Info

Serial interface 42

Factory Default submenu

2

3

Option number Submenu

1 Set to Factory Default

Product ID MCS

Serial Number MCS

Description

Set the management module to factory default.

Set the MCS unit product ID.

Set the MCS unit serial number.

Configuring HyperTerminal

1.

From the Microsoft® Windows® desktop menu, click Start>All

Programs>Accessories>Communication>HyperTerminal. The Connection Description window appears.

2.

3.

Enter a description and select an icon for the connection. The Connect To window appears.

Select the Com port through which to connect. The Com Properties window appears.

4.

Select the following parameter values.

Parameter Value

Transmission rate 9600 Bps

Data bits 8

Parity None

Stop bits 1

Flow control None

Serial interface 43

5.

When a connection is established, press Enter and then log in. The Main menu for the management module appears. Follow the onscreen options to configure the management module.

Configuring Minicom

NOTE: The following example uses Red Hat Linux 3.0. For more information, refer to your

Linux operating system Help or documentation.

IMPORTANT: Minicom is a utility that is loaded during the installation of Linux. However, if you do not select the option to install the Linux Utilities during the operating system installation, you cannot use Minicom without downloading the Minicom X.X.i386.rpm file from the Red Hat website. (Refer to the procedure for installing RPMs on the Red Hat website.)

1.

2.

3.

4.

5.

6.

7.

8.

9.

Log in to a Linux console, or open a terminal and enter minicom-s

at the command prompt. The

Configuration menu appears.

Select Serial Port Setup.

The Change which setting? menu appears.

Select Option A (Serial Device).

Manually change the device type from "dev/modem" to

"/dev/ttyS0" and press Enter .

Select Option E (Bps/Par/Bits).

The Comm Parameters menu appears.

Select E (Speed 9600 Bps), and press Enter . The designation 9600 8 N1 appears next to Option E.

Select Option F (Hardware Flow Control).

Be sure that the Change which setting? menu is configured as follows: o

A—Serial Device: /dev/ttyS0 o o

B—Lockfile Location: /var/lock

C—Callin Program: o o

D—Callout Program:

E—Bps/Par/Bits: 9600 8 N1 o o

F—Hardware Flow Control: No

G—Software Flow Control: No

Press Enter to return to the Configuration menu. Scroll down to the Save setup as default option, and press Enter . Scroll down the Configuration menu to the Exit from the Minicom option, and press

Enter .

From the command prompt, enter

Minicom.

As soon as a connection is established, press Enter and log in. The Main menu for the management module appears. Follow the onscreen options to configure the management module.

Serial interface 44

Operator display

In this section

Operator display overview...................................................................................................................... 45

Adjusting the operator display ................................................................................................................. 55

Operator display overview

The operator display provides information on the system operation, viewable on the outside of the MCS front door. When the management module issues an alarm or warning, the warning and alarm messages display ("

Warning and alarm messages " on page 45 ) on the operator display, as well as on the web

interface Alarms menu and Alarm History menu.

Operator display components

Item Reference

1 Operator display window

Warning and alarm messages

The following tables describe the possible warning and alarm messages that are sent to the management module from the MCS unit and appear on the operator display, and on the web interface Alarms menu and Alarm History menu.

Fan unit failed

Operator display 45

Indicators Meaning

Actual operator display alarm message

Actual web interface alarm message

Condition

Module

SNMP notification

Type of message

Solution:

1.

2.

Remove the fan unit.

Reinstall the same fan unit.

Top, Mid, or Bot Fan Mod. Failed

Top, Mid, or Bottom Fan Module Failed

Top, middle, or bottom fan module tach is less than its minimum rpm

Top, middle, or bottom fan module

Warning

Warning

If the warning message does not clear after the module is reseated, replace the fan unit with a CSR part.

For more information on CSR parts, see "Replaceable parts and maintenance and service information (on page

63 )."

Fan unit not installed

Indicators Meaning

Actual operator display alarm message

Actual web interface alarm message

Condition

Top, Mid, or Bot Fan Not installed

Top, Middle, or Bottom Fan Not installed

Modules

SNMP notification

Type of message

Failed connection to the fan unit sensors over the I²C bus (possible open circuit)

Top, middle, or bottom fan module

Warning

Warning

Solution:

1.

Remove the fan unit.

2.

Reinstall the same fan unit.

If the warning message does not clear after the module is reseated, replace the fan unit with a CSR part.

For more information on CSR parts, see "Replaceable parts and maintenance and service information (on page

63 )."

HEX (heat exchanger unit) temperature in failed (Server Intake Temperature failed)

Indicators Meaning

Actual operator display alarm message

Actual web interface alarm message

Condition

HEX1, HEX2, or HEX3 Temp. In Failed

Top Heat Exchanger Intake Air Temperature Sensor to Server Failed

Temperature reading is beyond limit (possible open circuit)

Operator display 46

Indicators Meaning

Sensors

SNMP notification

Type of message

Solution:

1.

Remove the fan unit.

2.

3.

4.

Remove the HEX unit.

Reinstall the same HEX unit.

Reinstall the same fan unit.

HEX1, HEX2, or HEX3 sensors (this is the water to air heat exchanger unit temperature of the intake to the servers)

Warning

Warning

If the warning message does not clear after the module is reseated, replace the HEX unit with a CSR part.

For more information on CSR parts, see "Replaceable parts and maintenance and service information (on page

63 )."

HEX temperature out failed (Server Exhaust Temperature failed)

Indicators Meaning

Actual operator display alarm message

Actual web interface alarm message

Condition

Sensors

SNMP notification

Type of message

Solution:

1.

Remove the fan unit.

2.

Reinstall the same fan unit.

FAN1, FAN2, or FAN3 Temp. Out Failed

Top Fan Exhaust Air Temperature Sensor from Server Failed

Temperature reading is beyond limit (possible open circuit)

FAN1, FAN2, or FAN3 sensors (this is the fan unit temperature of the exhaust from the servers)

Warning

Warning

If the warning message does not clear after the module is reseated, replace the fan unit with a CSR part.

For more information on CSR parts, see "Replaceable parts and maintenance and service information (on page 63 )."

Air temperature sensor failed

Indicators Meaning

Actual operator display alarm message

Actual web interface alarm message

Condition

Sensors

SNMP notification

Type of message

Air Temp. Sens Failed

Air Temperature Sensor Failed

Single air temperature sensor is significantly different from the others

Air temperature sensors

Warning

Warning

Operator display 47

Solution:

1.

2.

View the Overview menu to distinguish which temperature sensor is different from the other temperature sensors.

After discovering which temperature sensor is not working properly, remove that module and reinstall it. If the difference is in the Server Exhaust Temperature, replace the appropriate fan unit. If the difference is in the Server Intake Temperature, replace the appropriate HEX unit.

If the warning message does not clear after the module is reseated, replace the HEX unit with a CSR part.

For more information on CSR parts, see "Replaceable parts and maintenance and service information (on page

63 )."

Low water flow

Indicators Meaning

Actual operator display alarm message

Actual web interface alarm message

Condition

Water flow Low

Water flow Low

No or low water flow

SNMP notification

Type of message

Solution:

Warning

Warning

Verify the water supply.

Water temperature input is out of range

Indicators Meaning

Actual operator display alarm message

Actual web interface alarm message

Condition

Sensors

SNMP notification

Type of message

Water Temp. In Failed

Water Unit Temperature Input Out of Range

Water temperature sensor is not working properly (possible open circuit)

Water group sensor

Warning

Warning

Solution:

1.

2.

Verify the water supply.

Verify whether the water temperature is below or above the water temperature expected range.

3.

4.

Contact your building supervisor.

Contact HP, or see the HP website ( http://www.hp.com

).

Water temperature output is out of range

Operator display 48

Indicators Meaning

Actual operator display alarm message

Actual web interface alarm message

Condition

Sensors

SNMP notification

Type of message

Water Temp. Out Failed

Water Unit Temperature Output Out of Range

Water temperature sensor is not working properly (possible open circuit)

Water group sensor

Warning

Warning

Solution:

1.

2.

Verify the water supply.

Verify whether the water temperature is below or above the water temperature expected range.

3.

4.

Contact your building supervisor.

Contact HP, or see the HP website ( http://www.hp.com

).

Water flow sensor is not working properly

Indicators Meaning

Actual operator display alarm message

Actual web interface alarm message

Condition

Water flow Sensor ?

Water flow Sensor Value Out of Range

Water flow sensor is not working properly

SNMP notification

Type of message

Warning

Warning

Solution:

1.

Verify the water supply.

2.

Contact HP, or see the HP website ( http://www.hp.com

).

Water flow valve is closed

Indicators Meaning

Actual operator display alarm message

Actual web interface alarm message

Condition

Water Valve ?

Water Valve Failed

Water flow valve is closed and water flow is detected

SNMP notification

Type of message

Solution:

Warning

Warning

Operator display 49

1.

2.

Verify the water valve is closed.

Contact HP, or see the HP website ( http://www.hp.com

).

Leak detector sensor is not working properly

Indicators Meaning

Actual operator display alarm message

Actual web interface alarm message

Condition

Sensors

SNMP notification

Type of message

Solution:

Leak detector?

Leak detector Failed

Leak detector sensor is not working properly

Leak detector sensor

Warning

Warning

Contact HP, or see the HP website ( http://www.hp.com

).

Uneven heat load

Indicators Meaning

Actual operator display alarm message

Actual web interface alarm message

Condition

Sensors

SNMP notification

Type of message

Heat Load?

Heat Load Warning

Measured air temperature values dramatically different from top to bottom

Air temperature sensors

Warning

Warning

Solution:

1.

Verify that nothing is blocking the heat path.

2.

Verify that the server is loading.

3.

Adjust the Temperature Difference for Heat Load Warning in the Advanced tab.

Heat overload condition (High Temperature Threshold field)

Indicators Meaning

Actual operator display alarm message

Actual web interface alarm message

Condition

Modules or sensors

SNMP notification

Type of message

Temperature Warning

Temperature Warning

Heat overload condition

Average server air temperature is above the temperature assigned in the web interface Intake Temp tab High Temperature Threshold field

Critical

Alarm

Operator display 50

Solution:

1.

Verify the water inlet temperature.

2.

3.

Verify that the flow matches the specifications required for heat load.

Adjust the temperature assigned in the web interface Intake Temp tab High Temperature Threshold field.

Leakage detected

Indicators Meaning

Actual operator display alarm message

Actual web interface alarm message

Condition

Modules or sensors

SNMP notification

Type of message

Leakage Detected

Leakage Detected

Leak is detected

Leakage detector actuated

Critical

Alarm

Solution:

1.

Open the rack doors.

2.

3.

4.

Power down the rack-mounted components.

Turn off the water to the MCS unit.

Locate the leak and correct it.

Communication failure

Indicators Meaning

Actual operator display alarm message

Actual web interface alarm message

Condition

Modules or sensors

SNMP notification

Type of message

Solution:

Comm. Failure I²C

Comm. Failure I²C

Management module cannot communicate with the MCS unit sensors

Any module or sensor

Critical

Alarm

Power cycle the management module. If the alarm message continues to display, replace the management module with a CSR part. For more information on CSR parts, see "Replaceable parts and maintenance and service information (on page

63 )."

Temperature below threshold (Low Temperature Threshold field)

Indicators Meaning

Actual operator display alarm message

Temperature Too low

Operator display 51

Indicators Meaning

Actual web interface alarm message

Condition

Temperature too low

Sensors

SNMP notification

Type of message

Average server air temperature is lower than the temperature assigned in the web interface Intake Temp tab Low Temperature Threshold field

Air temperature sensor

Warning

Warning

Solution:

1.

2.

Verify water flow matches specifications required for heat load.

Verify whether the water temperature is below the expected range.

3.

4.

Adjust the temperature assigned in the web interface Intake Temp tab Low Temperature Threshold field.

Contact your building supervisor.

Temperature above threshold (Warning Temperature Threshold field)

Indicators Meaning

Actual operator display alarm message

Actual web interface alarm message

Condition

Temperature Too high

Temperature too high

Modules or sensors

SNMP notification

Type of message

Average server air temperature is above the temperature assigned in the web interface Intake Temp tab Warning Temperature Threshold field

Air temperature sensor

Warning

Warning

Solution:

1.

Verify water flow matches specifications required for heat load.

2.

3.

4.

Verify whether the water temperature is above the expected range.

Adjust the temperature assigned in the web interface Intake Temp tab Warning Temperature

Threshold field.

Contact your building supervisor.

Emergency Door Opening due to Water Flow Loss (0 l/min; 36/34/35°C) (0 gal/min; 97/93/95°F)

Indicators Meaning

Actual operator display alarm message

Actual web interface alarm message

Emergency Door, Flow

Emergency Door Opening due to Water Flow Loss (0 l/min;

36/34/35°C) (0 gal/min; 97/93/95°F)

Note: The interface alarm message displays the temperatures of the top, middle, and bottom fans so you can see which temperature has been exceeded and caused the alarm to trip.

Operator display 52

Indicators Meaning

Condition

Modules or sensors

SNMP notification

Type of message

The Water Flow Loss Emergency Door Opening Temperature Threshold has been exceeded or the water flow is less than 2 l/min (.5283 gal/min).

Server Intake Temperature, Water Flow Meter

Critical

Alarm

Solution:

1.

2.

Verify water supply and verify the MCS unit is receiving water.

Verify that the water flow is at least 2 l/min (.5283 gal/min) or greater.

3.

4.

Verify that the Water Flow Loss Emergency Door Opening Temperature Threshold is not less than

5°C (9°F) above or more than 20°C (36°F) above the Server Intake Temperature Set Point.

Adjust the temperature in the Server Intake Temperature Set Point or the Water Flow Loss Emergency

Door Opening Temperature Threshold fields to prevent false alarms.

IMPORTANT: Use caution when entering temperatures in the Emergency Door Opening fields.

Setting the temperature thresholds too low might cause the MCS unit to shut down.

Emergency Door Opening due to High Temperature (35/36/38°C) (95/97/100°F)

Indicators Meaning

Actual operator display alarm message

Actual web interface alarm message

Condition

Modules or sensors

SNMP notification

Type of message

Emergency Door, Heat

Emergency Door Opening due to High Temperature (35/36/38°C)

(95/97/100°F)

Note: The interface alarm message displays the temperatures of the top, middle, and bottom fans so you can see which temperature has been exceeded and had caused the alarm to trip.

The High Temperature Emergency Door Opening Threshold has been exceeded.

Server Intake Temperature

Critical

Alarm

Solution:

1.

Verify water supply and verify the MCS unit is receiving water.

2.

3.

Verify that the High Temperature Emergency Door Opening Threshold is not less than 5°C (9°F) above or more than 20°C (36°F) above the Server Intake Temperature Set Point, or that it is not below the Water Flow Loss Emergency Door Opening Temperature Threshold.

Adjust the temperature in the Server Intake Temperature Set Point or the Water Flow Loss Emergency

Door Opening Temperature Threshold fields to prevent false alarms.

IMPORTANT: Use caution when entering temperatures in the Emergency Door Opening fields.

Setting the temperature thresholds too low might cause the MCS unit to shut down.

The condensation pump has exceeded x cycles

Operator display 53

Indicators Meaning

Actual operator display alarm message

Actual web interface alarm message

Condition

Excessive Moisture

The condensation pump has exceeded x cycles

Modules or sensors

SNMP notification

Type of message

The water level has exceeded the permissible level of the condensation pump sensor

Condensation pump sensor

Warning

Warning

Solution:

1.

Look for leaks or determine if condensation is the cause.

2.

If no leaks are found, adjust the temperature in the Excessive Moisture: Condensation Pump Cycles

Warning Threshold field.

IMPORTANT: Use caution when entering temperatures in the Condensation Pump Threshold fields. Be sure to determine the proper default settings to prevent false alarms, without masking problems with the MCS.

Default settings will vary, depending on the humidity level of your data center and the heat load generated by the equipment in the MCS.

The condensation pump has run more than x seconds

Indicators Meaning

Actual operator display alarm message

Actual web interface alarm message

Excessive Moisture

The condensation pump has run more than x seconds

Condition

Modules or sensors

SNMP notification

Type of message

The water level has exceeded the permissible level of the condensation pump sensor.

Condensation pump sensor

Warning

Warning

Solution:

1.

Look for leaks or determine if condensation is the cause.

2.

If no leaks are found, adjust the temperature in the Excessive Moisture: Condensation Pump Running

Time Warning Threshold field.

IMPORTANT: Use caution when entering temperatures in the Condensation Pump Threshold fields. Be sure to determine the proper default settings to prevent false alarms, without masking problems with the MCS.

Default settings will vary, depending on the humidity level of your data center and the heat load generated by the equipment in the MCS.

Operator display 54

NOTE: A 24-hour clock starts when the condensation pump runs for the first time in more than

24 hours. A warning is issued if either the cycle threshold or pump running time is exceeded within the 24-hour window. The clock stops and the counters are reset to zero for warning purposes if the thresholds are not exceeded within 24 hours after the last time the condensation pump runs.

NOTE: To clear the condensation pump cycles warning, click Cooling System in the left navigation frame to access the Cooling System screen, and then click the Alarms/Warnings tab. Under the Warnings section, set Alarm Reset to Manual and click Save Settings . Then, return to the General menu and click Clear Alarms .

This step only clears the warning when the condensation pump is not running.

Adjusting the operator display

To optimize the operator display contrast:

1.

2.

Using an 8-mm wrench, remove the three nuts securing the operator display rear cover to the back of the MCS front door.

Remove the operator display rear cover.

3.

Using a small flathead screwdriver, rotate the dial counter-clockwise to increase the contrast or clockwise to decrease the contrast.

Operator display 55

4.

Using an 8-mm wrench, reattach the three nuts removed in step 1 to replace the operator display rear cover.

Operator display 56

Automatic Door Release Kit

In this section

Automatic Door Release Kit Overview....................................................................................................... 57

Automatic Door Release Kit Overview

The Automatic Door Release Kit is designed as a safety mechanism in the event that the MCS unit shuts off unexpectedly. If the MCS unit shuts off unexpectedly, the electromagnetic locks on the front door, the rear master door, and the rear slave door are immediately deactivated. This deactivation of the electromagnetic locks will cause the release springs on each door to spring the rack doors open, and allow air flow and cooling to the servers in the rack.

The Automatic Door Release Kit is included with your MCS unit. For specific installation instructions, see the

HP Modular Cooling System Automatic Door Release Kit Installation Instructions

included with the kit.

Automatic Door Release Kit 57

Frequently asked questions

In this section

HP Modular Cooling System frequently asked questions.............................................................................. 58

HP Modular Cooling System frequently asked questions

Question Answer

What cooling capacity ranges are available in the MCS unit?

Is special IT equipment required for use with the MCS unit?

Does the additional heat from the

MCS unit increase the room temperature?

Can the level of heat removal be regulated in proportion to the waste heat generated?

How is water connected to the MCS unit?

The cooling capacity of the heat exchanger units depends on the water supply temperature and the server inlet set point. The MCS unit is capable of cooling rack-mounted components consuming up to 35 kW of electrical power.

No, all IT equipment that uses the front-to-back cooling system (99% of IT equipment) can be used without restriction in conjunction with the MCS unit.

In some cases, up to 10% of the total power supplied to the rack may be lost to the room, depending on the server air setting and the room temperature.

Yes, the control system automatically adjusts the water flow and air flow to remove heat generated in the rack.

Can the MCS unit operate with the front or rear door open?

Does the MCS unit require maintenance?

Is a false floor necessary?

Does condensation form?

How does the MCS unit control humidity?

The water is connected to the unit using a 1 1/4 in flexible hose and quick-disconnect automatic shutoff hose fittings. For more information, see the

HP Modular Cooling System Site Preparation

Guide

on the HP website.

Yes, due to the air curtain effect, the air will function normally with little air lost. When the doors are open during operation, room air mixes with air supplied to the servers.

No, assuming that the water quality is maintained, the MCS unit is maintenance-free. For more information about water quality, see the

HP Modular Cooling System Site Preparation Guide

on the HP website.

No, a false floor is not necessary to operate the MCS unit. For more information, see the

HP Modular Cooling System Site Preparation

Guide

on the HP website.

During normal operation some condensation may form, but the MCS unit condensation control system ensures that the condensation does not reach any rack-mounted components or cause any damage. In most cases, the condensation evaporates prior to reaching the MCS unit condensation control system.

There is some room-air interchange, so the moisture content of the air inside the unit is the same as the room.

Frequently asked questions 58

Question Answer

Does the air flow within the MCS unit produce static electricity?

Why do I get an extra line feed sent from Windows when I access the serial interface using an HP serial console switch?

Very low humidity levels in the chilled air may produce static electricity. However, static electricity is not a problem if the MCS unit is operated at the specified settings located in the

HP Site

Preparation Guide

and the Environmental specifications listed in this document.

Enter these commands while logged in as Admin on the HP serial console switch console port (where port x is the port connected to the MCS management module): port x set out lf=strip port x set flow=Xonxof

Is water prevented from entering the

MCS unit if a pipe breaks?

Yes, the MCS unit is physically separate from the server enclosure.

Therefore, there is no situation in which water can come directly in contact with the servers. The base unit of each cooling module acts as a condensation tray for water. These trays are connected together, so that any water drains away at once through the condensation drain. Also, each heat exchanger module has a leak and condensation tray that transfers water to the bottom of the MCS unit where it flows to the building condensation return system. If a leak occurs, the integrated leak sensor detects it and an alarm would is issued so that action can be quickly taken.

What will happen if water stops flowing to the MCS unit?

Can I install an MCS unit to an existing rack in my data center?

If you have the Automatic Door Release Kit, an alarm will trigger the doors of the rack to open, allowing the servers to be cooled by the room ambient.

No, the MCS unit ships with an empty HP 10000 G2 rack.

However, Configure to Order (CTO) is available.

Frequently asked questions 59

Troubleshooting

In this section

HP Modular Cooling System troubleshooting ............................................................................................. 60

HP Modular Cooling System troubleshooting

Issue Resolution

The water flow is low or not flowing.

For more information, see the "Temperature Control settings" section in the

HP Modular Cooling System Web Interface User Guide

located on the Documentation CD included with this product.

The fan speed is too low.

The fan speed is too high.

The average server intake temperature (air going to the servers) is too high.

The average server intake temperature (air going to the servers) is too low.

The average exhaust temperature

(air coming out of the servers) is too high.

For more information, see the "Cooling performance parameters" section in the

HP Modular Cooling System Web Interface User

Guide

located on the Documentation CD included with this product.

For more information, see the "Cooling performance parameters" section in the

HP Modular Cooling System Web Interface User

Guide

located on the Documentation CD included with this product.

For more information, see the "Cooling performance parameters" section in the

Guide

HP Modular Cooling System Web Interface User

located on the Documentation CD included with this product.

For more information, see the "Cooling performance parameters" section in the

HP Modular Cooling System Web Interface User

Guide

located on the Documentation CD included with this product.

For more information, see the "Cooling performance parameters" section in the

HP Modular Cooling System Web Interface User

Guide

located on the Documentation CD included with this product.

The average exhaust temperature

(air coming out of the servers) is too low.

The settings that have been modified through the web interface are not accepted, and the management module LED is blinking red, yellow, or green.

For more information, see the "Cooling performance parameters" section in the

HP Modular Cooling System Web Interface User

Guide

located on the Documentation CD included with this product.

Press and hold the management module C key for five seconds to confirm these settings.

The measurement readings on the management module display or web interface seem to be incorrect, and the management module LED is blinking red, yellow, or green.

The heat exchanger unit stops operating correctly.

Press and hold the management module C key for five seconds to confirm these settings.

Remove the corresponding fan unit to keep the Automatic Door

Release Kit from holding the rack doors open.

Troubleshooting 60

Specifications

In this section

MCS specifications................................................................................................................................. 61

HP 10642 G2 Rack specifications ........................................................................................................... 62

MCS specifications

Item Specification

Voltage

Maximum Height

(including the rack)

Maximum Width

(including the rack)

Maximum Depth

(including the rack and rack handle)

Maximum Shipping

Height (on skid)

Maximum Shipping

Width (on skid)

208–240 VAC +/- 10%, 50–60 Hz

200 cm (78.7 in)

90.9 cm (35.8 in) maximum

127 cm (50 in)

224.8 cm (88.5 in)

122 cm (48 in)

Maximum Shipping

Depth (on skid)

Maximum Depth with

Rear Extension Kit installed

177.8 cm (70 in)

142.5 cm (56.1 in)

Net Weight (including the empty rack)

Shipping Weight (gross with packaging)

540 kg (1190 lb)

621.4 kg (1370 lb)

Effective cooling with

75 l/min (20 gal/min) water supply at 7 ° C, cold air at 25

°

C

35 kW

Rated current maximum 208 VAC–15 Amps

Cooling medium water

7ºC (45ºF) Minimum recommended water inlet temperature

Permissible operating pressure pmax

100 psi

Specifications 61

Thermal and air flow performance

Maximum thermal and air flow performance parameters

Air temperature—inlet to rack-mounted components

Specifications

25ºC (68ºF)

Chilled water temperature

Total rack-mounted component air flow

Chilled water flow rate

Chilled water pressure differential at flow needed to meet thermal specifications

Heat lost to room

7º–10 ° C (45º–50 ° F)

2,600 cfm or less at 0 or more pressure drop across the rack-mounted components

21 gal/min

2.0 bar delta pressure

Heat transferred to cooling fluid approximately 10% maximum depending on the MCS settings and room temperature

35 kW maximum

Environmental specifications

Features Specifications

Operating temperature 5ºC to 52ºC (41ºF to 95ºF)

Non-operating temperature 0ºC to 60ºC (32ºF to 140ºF)

Transit temperature

Storage temperature

-30ºC to 60ºC (-22ºF to 140ºF), up to 72 hours

-20ºC to 60ºC (-4ºF to 140ºF)

Operating humidity

Non-operating humidity

Operating altitude

Non-operating altitude

20 to 80% relative humidity (non-condensing)

5 to 95% relative humidity (non-condensing)

-76.2 to 3,048 m (-250 to 10,000 ft)

-76.2 to 9,144 m (-250 to 30,000 ft)

HP 10642 G2 Rack specifications

U height Width Depth Dynamic load (gross) Static load mm

(23.82 in)

1,000 mm

(39.37 in)

907.18 kg (2,000 lb) 907.18 kg (2,000 lb)

Specifications 62

Replaceable parts and maintenance and service information

In this section

Replaceable parts .................................................................................................................................. 63

Maintenance and service ........................................................................................................................ 63

Replaceable parts

The heat exchanger units and fan units are replaceable during real-time operation. Other unit parts are also replaceable. For more information on replaceable parts and CSR parts, refer to Technical support (on

page 68 ).

Maintenance and service

For information on maintenance and service, refer to the HP website ( http://www.hp.com

).

Air and water heat exchanger maintenance

The air and water heat exchanger requires no maintenance. If particulates are present in the cooling water, a filter must be fitted immediately upstream from the water inlet fittings. Check the functionality of the condensation drainage system regularly. Regularly perform visual inspections for leaks (annually).

Replaceable parts and maintenance and service information 63

Water quality and leveling requirements, and condensation management

In this section

Water quality requirements and specifications........................................................................................... 64

Leveling requirements ............................................................................................................................. 66

Condensation management..................................................................................................................... 67

Water quality requirements and specifications

Tap water might be sufficient for some closed-loop systems. Water quality in a closed-loop system encounters problems with scaling, blockage, leaks, and corrosion that are typically found in tap water containing many chemicals and minerals. Determining the acceptable water quality range is the most essential element of the system requirements. For more information, see the

HP Modular Cooling System

Site Preparation Guide

on the HP website ( http://www.hp.com

).

Cooling water composition guidelines

The closed-loop water must not contain any lime scale deposits or loose debris.

The water should have a low level of hardness, particularly a low level of carbon hardness.

However, the water should not be so soft that it attacks the materials with which it comes into contact.

A 1-micron filter should be used to remove free floating particulates and regularly maintained.

Salt content should be monitored because it rises over time as a result of evaporation in the systems, causing the water to become more corrosive. (Electrical conductivity increases as the concentration of dissolved substances rises.)

Periodically some of the enriched water should be removed and new fresh water should be added to avoid the formation of Gypsiferous water, which is unsuitable for cooling purposes. Gypsiferous water has a tendency to form boiler scale, which is particularly difficult to remove.

Cooling water should be free from iron and manganese because these minerals tend to settle in the pipes and cause blockage.

The presence of organic impurities with algaecides and other inhibitors should be minimized to reduce the creation of sludge deposits and microbiological contamination.

Acceptable water quality range

The following are water quality ranges required for continuous quality of performance for the MCS unit:

Hydrological data Acceptable range pH value

Carbonic acid

7–8.5

> 3 < 8 ºdH

Water quality and leveling requirements, and condensation management 64

Hydrological data

Free carbonic acid

Acceptable range

8–15 mg/dm 3

Accompanying carbonic acid

Corrosive carbonic acid

8–15 mg/dm

3

0 mg/dm

3

Sulphides Free

Oxygen < 10 mg/dm

3

Chloride ions

Sulphate ions

Nitrates and nitrites

< 50 mg/dm

< 10 mg/dm

3

< 250 mg/dm

3

3

CSB

Ammonia

< 7 mg/dm 3

< 5 mg/dm 3

Iron

Manganese

< 0, 2 mg/dm 3

< 0, 2 mg/dm 3

< 2200 µS/cm Conductivity

Residue on evaporation < 500 mg/dm 3

Potassium permanganate consumption < 25 mg/dm 3

Suspended matter < 3 mg/dm 3

Particular size range filtration recommendations

Closed-loop water specifications

> 3 < 15 mg/dm 3 part flow purification recommended

> 15 mg/dm

3

continuous purification recommended

Raw water Treated water system

Specific conductance at 25

°

C 10–1,000

µ mhos

"M" Alkalinity (CaCO

3)

20–300 ppm 100–1,000 ppm

Sulfur (SO

4)

Chloride (Cl)

0–150 ppm

0–150 ppm

0–150 ppm

0–150 ppm

Hardness (CaCO

3)

Calcium hardness (CaCO

3)

Magnesium hardness (CaCO

3)

Copper (Cu)

0–350 ppm

0–200 ppm

0–150 ppm

< 0.10 ppm

0–350 ppm

0–200 ppm

0–150 ppm

< 0.20 ppm

Iron (Fe)

Aluminum (Al)

Sodium (Na)

Silica (SiO

2

)

Zinc (Zn)

Manganese (Mn)

Phosphate Ortho- (PO

4

)

Nitrite (NO

2

)

< 3.0 ppm

0.5 ppm maximum

0–1,000 ppm

0–150 ppm

1.0 ppm maximum

0.1 ppm maximum

3 ppm

700–1,200 ppm

< 3.0 ppm

0.5 ppm maximum

0–1,000 ppm

0–150 ppm

1.0 ppm maximum

0.1 ppm maximum

3 ppm

700–1,200 ppm

Water quality and leveling requirements, and condensation management 65

Closed-loop water specifications

Molybdenum (Mo)

Tolytriazole

Suspended solid

Raw water Treated water system

50–300 ppm

15–20 ppm

50–300 ppm

15–20 ppm

< 1 µ µ m

Monitoring the quality of cooling solutions

Depending on the type of installation, it is advisable to put in place certain processes and procedures for monitoring the quality of the cooling solution and for performing preventative maintenance. The following table lists common types of contamination and techniques to eliminate them:

Type of impurity

Mechanical contamination

Procedure

Filter the water using 1-micron filter (3.9e-5 in), sieving filter, sand filter, cartridge filter, or pre-coated filter.

Hardness too high Soften the water through ion exchange.

Moderate content of mechanical impurities and hardness agents

Moderate content of chemical impurities

Add stabilizers, dispersing agents, or both to the water.

Use Azole treatment for copper corrosion.

Use Anodic inhibitors: Nitrite based treatment

Use Cathodic inhibitors: Molybdate based treatment

Inoculate the water with passivators, inhibitors, or both.

Inoculate the water with biocides. Biological impurities, microbacteria, and algae

To ensure ongoing safe reliable operation of the closed-loop cooling system, see "Acceptable water quality range (on page

64 )."

Frost damage

To avoid frost damage, the water temperature must not be allowed to fall below the minimum permissible temperature of +4 ºC (+39.2 ºF) at any point in the water cycle.

Before storage or transportation at sub-zero temperatures, the water cycle must be drained completely using compressed air. Avoid setting the target temperature lower than is necessary because the danger of falling below the dew point increases as water temperature decreases (condensation buildup). Ensure that the enclosure is sealed on all sides, and in particular at the cable inlet (condensation formation).

Leveling requirements

Adjust the MCS leveling feet so that the unit is level.

For more information about seismic area considerations, refer to the

HP Modular Cooling System Site

Preparation Guide

on the HP website ( http://www.hp.com

).

Water quality and leveling requirements, and condensation management 66

Condensation management

Any condensation that forms is collected in each individual cooling module and is taken through a discharge tube to a condensation tray integrated in the base assembly. Where multiple cooling modules are used, the condensate discharge tubes are connected to one another using quick connectors. Any condensation that occurs is then removed through this series of connections to the condensation tray.

When the specified condensation level in the condensation tray is reached, a sensor activates a pump that pumps the condensation into the return system. A further discharge tube runs out of the system from condensation tray to drain excess fluid if needed. This hose should be connected to a collection system or an external drain.

To ensure reliable drainage:

Ensure no kinks form in the drainage hose.

Do not reduce diameter of drainage hose.

Route the drainage hoses so that they always run downhill.

To avoid excessive buildup of condensate and to conserve energy, consider raising the cooling water temperature to the necessary cooling capacity.

Water quality and leveling requirements, and condensation management 67

Technical support

In this section

Before you contact HP............................................................................................................................. 68

HP contact information............................................................................................................................ 68

Customer Self Repair .............................................................................................................................. 68

Before you contact HP

Be sure to have the following information available before you call HP:

Technical support registration number (if applicable)

Product serial number

Product model name and number

Applicable error messages

Add-on boards or hardware

Third-party hardware or software

Operating system type and revision level

HP contact information

For the name of the nearest HP authorized reseller:

In the United States, see the HP US service locator webpage ( http://www.hp.com/service_locator ).

In other locations, see the Contact HP worldwide (in English) webpage

( http://welcome.hp.com/country/us/en/wwcontact.html

).

For HP technical support:

In the United States, for contact options see the Contact HP United States webpage

( http://welcome.hp.com/country/us/en/contact_us.html

). To contact HP by phone: o

Call 1-800-HP-INVENT (1-800-474-6836). This service is available 24 hours a day, 7 days a week. For continuous quality improvement, calls may be recorded or monitored. o

If you have purchased a Care Pack (service upgrade), call 1-800-633-3600. For more information about Care Packs, refer to the HP website ( http://www.hp.com

).

In other locations, see the Contact HP worldwide (in English) webpage

( http://welcome.hp.com/country/us/en/wwcontact.html

).

Customer Self Repair

HP products are designed with many Customer Self Repair (CSR) parts to minimize repair time and allow for greater flexibility in performing defective parts replacement. If during the diagnosis period HP (or HP

Technical support 68

service providers or service partners) identifies that the repair can be accomplished by the use of a CSR part, HP will ship that part directly to you for replacement. There are two categories of CSR parts:

Mandatory

—Parts for which customer self repair is mandatory. If you request HP to replace these parts, you will be charged for the travel and labor costs of this service.

Optional

—Parts for which customer self repair is optional. These parts are also designed for customer self repair. If, however, you require that HP replace them for you, there may or may not be additional charges, depending on the type of warranty service designated for your product.

NOTE:

Some HP parts are not designed for customer self repair. In order to satisfy the customer warranty, HP requires that an authorized service provider replace the part. These parts are identified as

"No" in the Illustrated Parts Catalog.

Based on availability and where geography permits, CSR parts will be shipped for next business day delivery. Same day or four-hour delivery may be offered at an additional charge where geography permits. If assistance is required, you can call the HP Technical Support Center and a technician will help you over the telephone. HP specifies in the materials shipped with a replacement CSR part whether a defective part must be returned to HP. In cases where it is required to return the defective part to HP, you must ship the defective part back to HP within a defined period of time, normally five (5) business days.

The defective part must be returned with the associated documentation in the provided shipping material.

Failure to return the defective part may result in HP billing you for the replacement. With a customer self repair, HP will pay all shipping and part return costs and determine the courier/carrier to be used.

For more information about HP's Customer Self Repair program, contact your local service provider. For the North American program, refer to the HP website ( http://www.hp.com/go/selfrepair ).

Réparation par le client (CSR)

Les produits HP comportent de nombreuses pièces CSR (Customer Self Repair = réparation par le client) afin de minimiser les délais de réparation et faciliter le remplacement des pièces défectueuses. Si pendant la période de diagnostic, HP (ou ses partenaires ou mainteneurs agréés) détermine que la réparation peut

être effectuée à l'aide d'une pièce CSR, HP vous l'envoie directement. Il existe deux catégories de pièces

CSR:

Obligatoire

- Pièces pour lesquelles la réparation par le client est obligatoire. Si vous demandez à

HP de remplacer ces pièces, les coûts de déplacement et main d'œuvre du service vous seront facturés.

Facultatif

- Pièces pour lesquelles la réparation par le client est facultative. Ces pièces sont

également conçues pour permettre au client d'effectuer lui-même la réparation. Toutefois, si vous demandez à HP de remplacer ces pièces, l'intervention peut ou non vous être facturée, selon le type de garantie applicable à votre produit.

REMARQUE:

Certaines pièces HP ne sont pas conçues pour permettre au client d'effectuer lui-même la réparation. Pour que la garantie puisse s'appliquer, HP exige que le remplacement de la pièce soit effectué par un Mainteneur Agréé. Ces pièces sont identifiées par la mention "Non" dans le Catalogue illustré.

Les pièces CSR sont livrées le jour ouvré suivant, dans la limite des stocks disponibles et selon votre situation géographique. Si votre situation géographique le permet et que vous demandez une livraison le jour même ou dans les 4 heures, celle-ci vous sera facturée. Pour bénéficier d'une assistance téléphonique, appelez le Centre d'assistance technique HP. Dans les documents envoyés avec la pièce de rechange CSR, HP précise s'il est nécessaire de lui retourner la pièce défectueuse. Si c'est le cas, vous devez le faire dans le délai indiqué, généralement cinq (5) jours ouvrés. La pièce et sa documentation

Technical support 69

doivent être retournées dans l'emballage fourni. Si vous ne retournez pas la pièce défectueuse, HP se réserve le droit de vous facturer les coûts de remplacement. Dans le cas d'une pièce CSR, HP supporte l'ensemble des frais d'expédition et de retour, et détermine la société de courses ou le transporteur à utiliser.

Pour plus d'informations sur le programme CSR de HP, contactez votre Mainteneur Agrée local. Pour plus d'informations sur ce programme en Amérique du Nord, consultez le site Web HP

( http://www.hp.com/go/selfrepair ).

Riparazione da parte del cliente

Per abbreviare i tempi di riparazione e garantire una maggiore flessibilità nella sostituzione di parti difettose, i prodotti HP sono realizzati con numerosi componenti che possono essere riparati direttamente dal cliente (CSR, Customer Self Repair). Se in fase di diagnostica HP (o un centro di servizi o di assistenza HP) identifica il guasto come riparabile mediante un ricambio CSR, HP lo spedirà direttamente al cliente per la sostituzione. Vi sono due categorie di parti CSR:

Obbligatorie

– Parti che devono essere necessariamente riparate dal cliente. Se il cliente ne affida la riparazione ad HP, deve sostenere le spese di spedizione e di manodopera per il servizio.

Opzionali

– Parti la cui riparazione da parte del cliente è facoltativa. Si tratta comunque di componenti progettati per questo scopo. Se tuttavia il cliente ne richiede la sostituzione ad HP, potrebbe dover sostenere spese addizionali a seconda del tipo di garanzia previsto per il prodotto.

NOTA:

alcuni componenti HP non sono progettati per la riparazione da parte del cliente. Per rispettare la garanzia, HP richiede che queste parti siano sostituite da un centro di assistenza autorizzato. Tali parti sono identificate da un "No" nel Catalogo illustrato dei componenti.

In base alla disponibilità e alla località geografica, le parti CSR vengono spedite con consegna entro il giorno lavorativo seguente. La consegna nel giorno stesso o entro quattro ore è offerta con un supplemento di costo solo in alcune zone. In caso di necessità si può richiedere l'assistenza telefonica di un addetto del centro di supporto tecnico HP. Nel materiale fornito con una parte di ricambio CSR, HP specifica se il cliente deve restituire dei componenti. Qualora sia richiesta la resa ad HP del componente difettoso, lo si deve spedire ad HP entro un determinato periodo di tempo, generalmente cinque (5) giorni lavorativi. Il componente difettoso deve essere restituito con la documentazione associata nell'imballo di spedizione fornito. La mancata restituzione del componente può comportare la fatturazione del ricambio da parte di HP. Nel caso di riparazione da parte del cliente, HP sostiene tutte le spese di spedizione e resa e sceglie il corriere/vettore da utilizzare.

Per ulteriori informazioni sul programma CSR di HP contattare il centro di assistenza di zona. Per il programma in Nord America fare riferimento al sito Web

HP

( http://www.hp.com/go/selfrepair ).

Customer Self Repair

HP Produkte enthalten viele CSR-Teile (Customer Self Repair), um Reparaturzeiten zu minimieren und höhere Flexibilität beim Austausch defekter Bauteile zu ermöglichen. Wenn HP (oder ein HP

Servicepartner) bei der Diagnose feststellt, dass das Produkt mithilfe eines CSR-Teils repariert werden kann, sendet Ihnen HP dieses Bauteil zum Austausch direkt zu. CSR-Teile werden in zwei Kategorien unterteilt:

Zwingend –

Teile, für die das Customer Self Repair-Verfahren zwingend vorgegeben ist. Wenn Sie den Austausch dieser Teile von HP vornehmen lassen, werden Ihnen die Anfahrt- und Arbeitskosten für diesen Service berechnet.

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Optional –

Teile, für die das Customer Self Repair-Verfahren optional ist. Diese Teile sind auch für

Customer Self Repair ausgelegt. Wenn Sie jedoch den Austausch dieser Teile von HP vornehmen lassen möchten, können bei diesem Service je nach den für Ihr Produkt vorgesehenen

Garantiebedingungen zusätzliche Kosten anfallen.

HINWEIS

: Einige Teile sind nicht für Customer Self Repair ausgelegt. Um den Garantieanspruch des

Kunden zu erfüllen, muss das Teil von einem HP Servicepartner ersetzt werden. Im illustrierten Teilekatalog sind diese Teile mit „No“ bzw. „Nein“ gekennzeichnet.

CSR-Teile werden abhängig von der Verfügbarkeit und vom Lieferziel am folgenden Geschäftstag geliefert. Für bestimmte Standorte ist eine Lieferung am selben Tag oder innerhalb von vier Stunden gegen einen Aufpreis verfügbar. Wenn Sie Hilfe benötigen, können Sie das HP technische Support Center anrufen und sich von einem Mitarbeiter per Telefon helfen lassen. Den Materialien, die mit einem CSR-

Ersatzteil geliefert werden, können Sie entnehmen, ob das defekte Teil an HP zurückgeschickt werden muss. Wenn es erforderlich ist, das defekte Teil an HP zurückzuschicken, müssen Sie dies innerhalb eines vorgegebenen Zeitraums tun, in der Regel innerhalb von fünf (5) Geschäftstagen. Das defekte Teil muss mit der zugehörigen Dokumentation in der Verpackung zurückgeschickt werden, die im Lieferumfang enthalten ist. Wenn Sie das defekte Teil nicht zurückschicken, kann HP Ihnen das Ersatzteil in Rechnung stellen. Im Falle von Customer Self Repair kommt HP für alle Kosten für die Lieferung und Rücksendung auf und bestimmt den Kurier-/Frachtdienst.

Weitere Informationen über das HP Customer Self Repair Programm erhalten Sie von Ihrem Servicepartner vor Ort. Informationen über das CSR-Programm in Nordamerika finden Sie auf der HP Website unter

( http://www.hp.com/go/selfrepair ).

Reparaciones del propio cliente

Los productos de HP incluyen muchos componentes que el propio usuario puede reemplazar (

Customer

Self Repair

, CSR) para minimizar el tiempo de reparación y ofrecer una mayor flexibilidad a la hora de realizar sustituciones de componentes defectuosos. Si, durante la fase de diagnóstico, HP (o los proveedores o socios de servicio de HP) identifica que una reparación puede llevarse a cabo mediante el uso de un componente CSR, HP le enviará dicho componente directamente para que realice su sustitución. Los componentes CSR se clasifican en dos categorías:

Obligatorio:

componentes para los que la reparación por parte del usuario es obligatoria. Si solicita a HP que realice la sustitución de estos componentes, tendrá que hacerse cargo de los gastos de desplazamiento y de mano de obra de dicho servicio.

Opcional:

componentes para los que la reparación por parte del usuario es opcional. Estos componentes también están diseñados para que puedan ser reparados por el usuario. Sin embargo, si precisa que HP realice su sustitución, puede o no conllevar costes adicionales, dependiendo del tipo de servicio de garantía correspondiente al producto.

NOTA:

Algunos componentes no están diseñados para que puedan ser reparados por el usuario. Para que el usuario haga valer su garantía, HP pone como condición que un proveedor de servicios autorizado realice la sustitución de estos componentes. Dichos componentes se identifican con la palabra

"No" en el catálogo ilustrado de componentes.

Según la disponibilidad y la situación geográfica, los componentes CSR se enviarán para que lleguen a su destino al siguiente día laborable. Si la situación geográfica lo permite, se puede solicitar la entrega en el mismo día o en cuatro horas con un coste adicional. Si precisa asistencia técnica, puede llamar al

Centro de asistencia técnica de HP y recibirá ayuda telefónica por parte de un técnico. Con el envío de materiales para la sustitución de componentes CSR, HP especificará si los componentes defectuosos deberán devolverse a HP. En aquellos casos en los que sea necesario devolver algún componente a HP,

Technical support 71

deberá hacerlo en el periodo de tiempo especificado, normalmente cinco días laborables. Los componentes defectuosos deberán devolverse con toda la documentación relacionada y con el embalaje de envío. Si no enviara el componente defectuoso requerido, HP podrá cobrarle por el de sustitución. En el caso de todas sustituciones que lleve a cabo el cliente, HP se hará cargo de todos los gastos de envío y devolución de componentes y escogerá la empresa de transporte que se utilice para dicho servicio.

Para obtener más información acerca del programa de Reparaciones del propio cliente de HP, póngase en contacto con su proveedor de servicios local. Si está interesado en el programa para Norteamérica, visite la página web de HP siguiente ( http://www.hp.com/go/selfrepair ).

Customer Self Repair

Veel onderdelen in HP producten zijn door de klant zelf te repareren, waardoor de reparatieduur tot een minimum beperkt kan blijven en de flexibiliteit in het vervangen van defecte onderdelen groter is. Deze onderdelen worden CSR-onderdelen (Customer Self Repair) genoemd. Als HP (of een HP Service Partner) bij de diagnose vaststelt dat de reparatie kan worden uitgevoerd met een CSR-onderdeel, verzendt HP dat onderdeel rechtstreeks naar u, zodat u het defecte onderdeel daarmee kunt vervangen. Er zijn twee categorieën CSR-onderdelen:

Verplicht:

Onderdelen waarvoor reparatie door de klant verplicht is. Als u HP verzoekt deze onderdelen voor u te vervangen, worden u voor deze service reiskosten en arbeidsloon in rekening gebracht.

Optioneel:

Onderdelen waarvoor reparatie door de klant optioneel is. Ook deze onderdelen zijn ontworpen voor reparatie door de klant. Als u echter HP verzoekt deze onderdelen voor u te vervangen, kunnen daarvoor extra kosten in rekening worden gebracht, afhankelijk van het type garantieservice voor het product.

OPMERKING:

Sommige HP onderdelen zijn niet ontwikkeld voor reparatie door de klant. In verband met de garantievoorwaarden moet het onderdeel door een geautoriseerde Service Partner worden vervangen. Deze onderdelen worden in de geïllustreerde onderdelencatalogus aangemerkt met "Nee".

Afhankelijk van de leverbaarheid en de locatie worden CSR-onderdelen verzonden voor levering op de eerstvolgende werkdag. Levering op dezelfde dag of binnen vier uur kan tegen meerkosten worden aangeboden, indien dit mogelijk is gezien de locatie. Indien assistentie gewenst is, belt u een HP Service

Partner om via de telefoon technische ondersteuning te ontvangen. HP vermeldt in de documentatie bij het vervangende CSR-onderdeel of het defecte onderdeel aan HP moet worden geretourneerd. Als het defecte onderdeel aan HP moet worden teruggezonden, moet u het defecte onderdeel binnen een bepaalde periode, gewoonlijk vijf (5) werkdagen, retourneren aan HP. Het defecte onderdeel moet met de bijbehorende documentatie worden geretourneerd in het meegeleverde verpakkingsmateriaal. Als u het defecte onderdeel niet terugzendt, kan HP u voor het vervangende onderdeel kosten in rekening brengen.

Bij reparatie door de klant betaalt HP alle verzendkosten voor het vervangende en geretourneerde onderdeel en kiest HP zelf welke koerier/transportonderneming hiervoor wordt gebruikt.

Neem contact op met een Service Partner voor meer informatie over het Customer Self Repair programma van HP. Informatie over Service Partners vindt u op de

HP website

( http://www.hp.nl/services/servicepartners ).

Reparo feito pelo cliente

Os produtos da HP são projetados com muitas peças para reparo feito pelo cliente (CSR) de modo a minimizar o tempo de reparo e permitir maior flexibilidade na substituição de peças com defeito. Se, durante o período de diagnóstico, a HP (ou fornecedores/parceiros de serviço da HP) concluir que o

Technical support 72

reparo pode ser efetuado pelo uso de uma peça CSR, a peça de reposição será enviada diretamente ao cliente. Existem duas categorias de peças CSR:

Obrigatória

– Peças cujo reparo feito pelo cliente é obrigatório. Se desejar que a HP substitua essas peças, serão cobradas as despesas de transporte e mão-de-obra do serviço.

Opcional

– Peças cujo reparo feito pelo cliente é opcional. Essas peças também são projetadas para o reparo feito pelo cliente. No entanto, se desejar que a HP as substitua, pode haver ou não a cobrança de taxa adicional, dependendo do tipo de serviço de garantia destinado ao produto.

OBSERVAÇÃO:

Algumas peças da HP não são projetadas para o reparo feito pelo cliente. A fim de cumprir a garantia do cliente, a HP exige que um técnico autorizado substitua a peça. Essas peças estão identificadas com a marca "No" (Não), no catálogo de peças ilustrado.

Conforme a disponibilidade e o local geográfico, as peças CSR serão enviadas no primeiro dia útil após o pedido. Onde as condições geográficas permitirem, a entrega no mesmo dia ou em quatro horas pode ser feita mediante uma taxa adicional. Se precisar de auxílio, entre em contato com o Centro de suporte técnico da HP para que um técnico o ajude por telefone. A HP especifica nos materiais fornecidos com a peça CSR de reposição se a peça com defeito deve ser devolvida à HP. Nos casos em que isso for necessário, é preciso enviar a peça com defeito à HP dentro do período determinado, normalmente cinco (5) dias úteis. A peça com defeito deve ser enviada com a documentação correspondente no material de transporte fornecido. Caso não o faça, a HP poderá cobrar a reposição. Para as peças de reparo feito pelo cliente, a HP paga todas as despesas de transporte e de devolução da peça e determina a transportadora/serviço postal a ser utilizado.

Para obter mais informações sobre o programa de reparo feito pelo cliente da HP, entre em contato com o fornecedor de serviços local. Para o programa norte-americano, visite o site da HP

( http://www.hp.com/go/selfrepair ).

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Regulatory compliance notices

In this section

Regulatory compliance identification numbers ........................................................................................... 76

Federal Communications Commission notice ............................................................................................. 76

Modifications......................................................................................................................................... 76

Cables .................................................................................................................................................. 77

Canadian notice .................................................................................................................................... 77

European Union regulatory notice ............................................................................................................ 77

Disposal of waste equipment by users in private households in the European Union....................................... 78

Japanese class A notice .......................................................................................................................... 78

BSMI notice ........................................................................................................................................... 78

Korean class A notice ............................................................................................................................. 78

Laser compliance ................................................................................................................................... 78

Battery replacement notice ...................................................................................................................... 79

Taiwan battery recycling notice ............................................................................................................... 79

Power cord statement for Japan ............................................................................................................... 80

Regulatory compliance identification numbers

For the purpose of regulatory compliance certifications and identification, this product has been assigned a unique regulatory model number. The regulatory model number can be found on the product nameplate label, along with all required approval markings and information. When requesting compliance information for this product, always refer to this regulatory model number. The regulatory model number is not the marketing name or model number of the product.

Federal Communications Commission notice

This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference, in which case the user will be required to correct the interference at personal expense.

Modifications

The FCC requires the user to be notified that any changes or modifications made to this device that are not expressly approved by Hewlett-Packard Company may void the user’s authority to operate the equipment.

Regulatory compliance notices 76

Cables

Connections to this device must be made with shielded cables with metallic RFI/EMI connector hoods in order to maintain compliance with FCC Rules and Regulations.

Canadian notice

This Class A digital apparatus meets all requirements of the Canadian Interference-Causing Equipment

Regulations.

Cet appareil numérique de la classe A respecte toutes les exigences du Règlement sur le matériel brouilleur du Canada.

European Union regulatory notice

This product complies with the following EU Directives:

Low Voltage Directive 2006/95/EC

EMC Directive 89/336/EEC

Machinery Directive 98/37/EEC

Compliance with these directives implies conformity to applicable harmonized European standards

(European Norms) which are listed on the EU Declaration of Conformity issued by Hewlett-Packard for this product or product family.

This compliance is indicated by the following conformity marking placed on the product:

This marking is valid for non-Telecom products and EU harmonized Telecom products (e.g. Bluetooth).

This marking is valid for EU non-harmonized Telecom products.

*Notified body number (used only if applicable—refer to the product label)

Hewlett-Packard GmbH, HQ-TRE, Herrenberger Strasse 140, 71034 Boeblingen, Germany

Regulatory compliance notices 77

Disposal of waste equipment by users in private households in the European Union

This symbol on the product or on its packaging indicates that this product must not be disposed of with your other household waste. Instead, it is your responsibility to dispose of your waste equipment by handing it over to a designated collection point for the recycling of waste electrical and electronic equipment. The separate collection and recycling of your waste equipment at the time of disposal will help to conserve natural resources and ensure that it is recycled in a manner that protects human health and the environment. For more information about where you can drop off your waste equipment for recycling, please contact your local city office, your household waste disposal service or the shop where you purchased the product.

Japanese class A notice

BSMI notice

Korean class A notice

Laser compliance

This product may be provided with an optical storage device (that is, CD or DVD drive) and/or fiber optic transceiver. Each of these devices contains a laser that is classified as a Class 1 Laser Product in

Regulatory compliance notices 78

accordance with US FDA regulations and the IEC 60825-1. The product does not emit hazardous laser radiation.

Each laser product complies with 21 CFR 1040.10 and 1040.11 except for deviations pursuant to Laser

Notice No. 50, dated May 27, 2001; and with IEC 60825-1:1993/A2:2001.

WARNING: Use of controls or adjustments or performance of procedures other than those specified herein or in the laser product's installation guide may result in hazardous radiation exposure. To reduce the risk of exposure to hazardous radiation:

Do not try to open the module enclosure. There are no user-serviceable components inside.

• Do not operate controls, make adjustments, or perform procedures to the laser device other than those specified herein.

Allow only HP Authorized Service technicians to repair the unit.

The Center for Devices and Radiological Health (CDRH) of the U.S. Food and Drug Administration implemented regulations for laser products on August 2, 1976. These regulations apply to laser products manufactured from August 1, 1976. Compliance is mandatory for products marketed in the United States.

Battery replacement notice

WARNING: The computer contains an internal lithium manganese dioxide, a vanadium pentoxide, or an alkaline battery pack. A risk of fire and burns exists if the battery pack is not properly handled. To reduce the risk of personal injury:

Do not attempt to recharge the battery.

• Do not expose the battery to temperatures higher than 60°C (140°F).

Do not disassemble, crush, puncture, short external contacts, or dispose of in fire or water.

Batteries, battery packs, and accumulators should not be disposed of together with the general household waste. To forward them to recycling or proper disposal, use the public collection system or return them to HP, an authorized HP Partner, or their agents.

For more information about battery replacement or proper disposal, contact an authorized reseller or an authorized service provider.

Taiwan battery recycling notice

The Taiwan EPA requires dry battery manufacturing or importing firms in accordance with Article 15 of the Waste Disposal Act to indicate the recovery marks on the batteries used in sales, giveaway or promotion. Contact a qualified Taiwanese recycler for proper battery disposal.

Regulatory compliance notices 79

Power cord statement for Japan

Regulatory compliance notices 80

Acronyms and abbreviations

CSB

chemical species balance

CSR

Customer Self Repair

DHCP

Dynamic Host Configuration Protocol

DST

daylight savings time

EEPROM

electrical erasable programmable read only memory

FTP

file transfer protocol

GMT

Greenwich mean time

HTTP

hypertext transfer protocol

HTTPS

hypertext transfer protocol secure sockets

IP

Internet Protocol

MCS

modular cooling system

NTP

network time protocol

Acronyms and abbreviations 81

PDU

power distribution unit

SIM

Systems Insight Manager

SMTP

Simple Mail Transfer Protocol

SNMP

Simple Network Management Protocol

SSH

Secure Shell

SSL

Secure Sockets Layer

TCP

Transmission Control Protocol

TFTP

Trivial File Transfer Protocol

Acronyms and abbreviations 82

Index

A

accessing the management module 32, 33

adjusting operator display 45, 55

Air temperature sensor failed 45

alarm relay 35

Alarms and warnings 45

authorized reseller 68

Automatic Door Release Kit 57

C

Communication failure 45

condensation management 67

configuration factors 7

configuration utilities 37

configuring HyperTerminal 43

configuring Minicom 44

customer self repair (CSR) 68

E

environmental specifications 62

F

factory default settings 43

Fan unit failed 45

Fan unit not installed 45

frequently asked questions 58

H

Heat overload condition (High Temperature Threshold

field) 45, 67

HEX temperature in failed (Server Intake Temperature

failed) 45

HEX temperature out failed (Server Exhaust

Temperature failed) 45

HyperTerminal, configuring 43

I

Info & Updates menu 42

installation instructions 8, 10

installation, management card 8

installing hardware 10

IP address, configuring 25

IP addresses, setting up 25, 40

K

kit contents 8, 9

L

Leak detector sensor is not working properly 45

Leakage detected 45

LEDs, troubleshooting 58, 60

leveling requirements 66

Low water flow 45

M

main menu functions 38

maintenance 63

management module 30, 32, 33

management module components 31

Minicom, configuring 44

N

networking, configuration 39

O

operator display 45

optimum environment 7

overview, product 5

P

passwords 41

powering up 16

product overview 5

R

replaceable spare parts 63

required tools 9

S

serial interface 37

Index 83

site requirements 7

specifications 61, 62

specifications, environmental 62

support 68

T

technical support 68 telephone numbers 68

Temperature above threshold (Warning Temperature

Threshold field) 45

Temperature below threshold (Low Temperature

Threshold field) 45

terminal emulator session 32

thermal air flow performance 62

troubleshooting 60

U

Uneven heat load 45

W

Water flow sensor is not working properly 45

Water flow valve is closed 45

water quality 64, 66

Water temperature input is out of range 45

Water temperature output is out of range 45

web interface requirements 33

web interface, logging in 34

Index 84

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