TST ESR 316, ESR 420, ESR 524 Storage Chassis Installation Instruction
Below you will find brief information for Storage Chassis ESR 316, Storage Chassis ESR 420, Storage Chassis ESR 524. These storage chassis models are designed to accommodate a variety of hard drives, floppy drives, and CD-ROM drives in a rack-mountable enclosure. The chassis feature hot-swappable components for easy maintenance and upgrades. The ESR 316 chassis is designed for up to 4 hard drives, while the ESR 420 and ESR 524 support up to 8 and 12 hard drives, respectively.
Advertisement
Advertisement
ESR 316/420/524 Storage Chassis Installation Instruction
Revision History
Rev Date Modifications
1.0
04/27/2005 First Draft
Pre lim ina ry
Update By
Sio Fu
ii
User Manual ESR 316, ESR 420, ESR 524
Safety Instruction
Use the following safety guidelines to ensure your own personal safety and to help protect your server, storage system, or appliance from potential damage.
Throughout this guide, blocks of text may be accompanied by an icon and printed in bold type.
These blocks are notes, cautions, and warnings, and they are used as follows:
WARNING: A WARNING indicates a potentially hazardous situation which, if not avoided, could result in death or serious bodily injury.
CAUTION: A CAUTION indicates a potentially hazardous situation which, if not avoided, may result in minor or moderate injury.
NOTE: A NOTE indicates important information that helps you make better use of your system.
Read the installation instructions before connecting the system to the power source
This unit is intended for installation in restricted access areas. A restricted access area can be accessed only through the use of a special tool, lock and key, or other means of security.
Only trained and qualified personnel should be allowed to install, replace, or service this equipment
Do not work on the system or connect or disconnect cables during periods of lightning activity
This equipment must be grounded. Never defeat the ground conductor or operate the equipment in the absence of a suitably installed ground conductor.
Contact the appropriate electrical inspection authority or an electrician if you are uncertain that suitable grounding is available.
Use only approved power cable(s). If you have not been provided with a power cable for your server, storage system, or appliance, or for any AC-powered option intended for your system, purchase a power cable that is approved for use in your country. The power cable must be rated for the product and for the voltage and current marked on the product’s electrical ratings label. The voltage and current rating of the cable should be greater than the ratings marked on the product.
Do not spill food or liquids on your system components, and never operate the product in a wet environment.
iii
User Manual ESR 316, ESR 420, ESR 524
Safety Instruction
If any of the following conditions occur, unplug the product from the electrical outlet and replace the part or contact your authorized service provider:
The system cable, extension cable, or plug is damaged.
An object has fallen into the product.
The product has been exposed to water.
The product has been dropped or damaged.
Do not push any objects into the openings of your system components. Doing so can cause fire or electric shock by shorting out interior components.
Keep your system components away from radiators and heat sources. Also, do not block cooling vents.
Do not overload the AC supply branch circuit that provides power to the rack.
The total rack load should not exceed 80 percent of the branch circuit rating.
To prevent bodily injury when mounting or servicing this unit in a rack, you must take special precautions to ensure that the system remains stable. The following guidelines are provided to ensure your safety:
When mounting this unit in a partially filled rack, load the rack from the bottom to the top with the heaviest component at the bottom of the rack
If the rack is provided with stabilizing devices, install the stabilizers before mounting or servicing the unit in the rack.
This unit should be mounted at the bottom of the rack if it is the only unit in the rack.
Cleaning: Unplug your system from wall outlet before cleaning. Do not use liquid or aerosol cleaners. Use a damp (not wet) cloth for cleaning.
Use caution when pressing the component rail release latches and sliding a component into or out of a rack; the slide rails can pinch your fingers.
Allow the product to cool before removing covers or touching internal components.
Position system cables and power cables carefully; route system cables and the power cable and plug so that they cannot be stepped on or tripped over.
Be sure that nothing rests on your system components’ cables or power cable.
iv v
iv
User Manual ESR 316, ESR 420, ESR 524
Safety Instruction
There is a danger of a new battery exploding if it is incorrectly installed.
Replace the battery only with the same or equivalent type recommended by the manufacturer. Do not dispose of the battery along with household waste.
Contact your local waste disposal agency for the address of the nearest battery deposit site.
Ground yourself by touching an unpainted metal surface on the chassis, such as the metal around the card-slot openings at the back of the computer, before touching anything inside your computer.
While you work, periodically touch an unpainted metal surface on the computer chassis to dissipate any static electricity that might harm internal components.
When unpacking a static-sensitive component from its shipping carton, do not remove the component from the antistatic packing material until you are ready to install the component in your computer. Just before unwrapping the antistatic packaging, be sure to discharge static electricity from your body.
When transporting a sensitive component, first place it in an antistatic container or packaging.
Handle components and cards with care. Do not touch the components or contacts on a card. Hold a card by its edges or by its metal mounting bracket. Hold a component such as a microprocessor chip by its edges, not by its pins.
To help avoid possible damage to the system board, wait 5 seconds after turning off the computer before disconnecting a device from the computer.
When you disconnect a cable, pull on its connector or on its strain-relief loop, not on the cable itself. Some cables have a connector with locking tabs; if you are disconnecting this type of cable, press in on the locking tabs before disconnecting the cable. As you pull connectors apart, keep them evenly aligned to avoid bending any connector pins. Also, before you connect a cable, ensure that both connectors are correctly oriented and aligned.
To help protect your system/components from sudden, transient increases and decreases in electrical power, use a surge suppressor, line conditioner, or uninterruptible power supply (UPS).
v
User Manual ESR 316, ESR 420, ESR 524
Table Of Content
1. Product Overview ...................................................................................1
1.1
1.2
1.3
1.4
1.5
1.6
Chassis Description ..............................................................................................1
Chassis Front Views ...............................................................................................3
Chassis Front Panel Features ...............................................................................4
Chassis Back Views ..................................................................................................6
Chassis Dimensions .................................................................................................7
System Components ..................................................................................................8
2. System Board and Cable Features ....>.................................................9
2.5
2.6
2.7
2.8
2.1
2.2
2.3
2.4
2.9
2.10
2.11
2.12
2.13
Front Panel Board ...................................................................................................9
System Power Board .............................................................................................11
Serial ATA Backplane Board .................................................................................19
Serial ATA Multilane Backplane Board ..................................................................24
SCSI Backplane Board ...........................................................................................29
Serial Attached SCSI Backplane Board .................................................................xx
Serial Attached SCSI Edge Expander Daughter Board ..........................................xx
Slim Power Board .................................................................................................35
Slim Floppy Disk Board .........................................................................................37
Slim CD/DVD-Rom Board ......................................................................................39
Front Panel DB 9 serial cable ..............................................................................43
Slim 2.5” to 3.5” hard drive adapter ...................................................................44
Fan Card Edge Board .............................................................................................46
3. Integration Steps ..................................................................................48
3.5
3.6
3.7
3.8
3.1
3.2
3.3
3.4
3.9
3.10
3.11
3.12
Removing and Replacing the top cover ..................................................................48
Install System Board ...............................................................................................49
Install the Expansion-cards ................................................................................50
Install and Remove a Hard Disk Drive .......................................................................51
Install the Slim Hard Disk Drive .........................................................................54
Install the slim Floppy Disk Drive ...........................................................................57
Install the slim CD-Rom Drive ...........................................................................59
Install the Rear Fans .............................................................................................61
Replacing the Hot-Swap System Fans .................................................................62
Replacing the Hot-Swap Power Supply Modular .....................................................63
Replacing the Backplane Board ...........................................................................69
Replacing the System Battrey .............................................................................72
4. Install the system into the rack ...........................................................73
4.1
4.2
4.3
Safety Instruction ...................................................................................................73
Rack Mounting hardware ....................................................................................75
Install the chassis in a rack ..............................................................................76
User Manual ESR 316, ESR 420, ESR 524
5. Spare Part Order Information ..............................................................29
5.9
5.10
5.11
5.12
5.13
5.14
5.15
5.16
5.5
5.6
5.7
5.8
5.1
5.2
5.3
5.4
5.17
5.18
5.19
5.20
5.21
5.22
5.23
5.24
5.25
5.26
Accessories Box .....................................................................................................84
System Fan, 120mm x120mm x38mm ..............................................................85
Hard Disk Drive Carrier .........................................................................................85
Slim 2.5” IDE hard drive kit for drive 1.................................................................86
Slim 2.5” IDE hard drive kit for drive 2.................................................................87
Slim 2.5” IDE hard drive kit for drive 3.................................................................88
Slim Floppy Disk Drive Kit ...................................................................................89
Slim CD-Rom Drive Kit ...................................................................................89
2 Drive IDE 40-pin cable ....................................................................................90
4-pin power cable, 20-inches ..................................................................................90
650W redundant power supply modular ............................................................91
950W redundant power supply modular ..............................................................91
1350W redundant power supply modular ............................................................92
AC Power Cord ......................................................................................................92
28 inch bracket extender ...................................................................................94
30 inches bracket extender ...................................................................................94
36 inches bracket extender ...................................................................................94
SCSI backplane .....................................................................................................95
SCSI backplane (Daisy Chain 8 drives) ................................................................95
SCSI backplane (Daisy Chain 12 drives) ................................................................96
Serial ATA backplane ............................................................................................96
Serial ATA Point-to-Point Cable ............................................................................97
Serial ATA hard disk status signal cable ............................................................98
Serial ATA Multilane backplane ............................................................................98
Serial Attached SCSI backplane ............................................................................xx
Serial Attached SCSI daughter board .....................................................................xx
6. System Fan Information .......................................................................99
8.1
8.2
120mm x 120mm x 38mm DC Fan .......................................................................99
60mm x 60mm x 38mm DC Fan .....................................................................xx
7. Power Supply Information .................................................................100
8.1
8.2
8.3
650W 2+1 Power Supply for ESR 316 ....................................................................100
930W 2+1 Power Supply for ESR 420, ESR 524 ...................................................101
1350W 3+1 Power Supply for ESR 524 ....................................................................102
8. Equipment logs ...................................................................................103
9. Power Budget Calculation .................................................................105
10.BTU usage Calculation ......................................................................107
User Manual ESR 316, ESR 420, ESR 524
List Of Figure
Figure 17
Figure 18
Figure 19
Figure 20
Figure 21
Figure 22
Figure 23
Figure 24
Figure 25
Figure 26
Figure 27
Figure 28
Figure 29
Figure 30
Figure 31
Figure 32
Figure 1
Figure 2
Figure 3
Figure 4
Figure 5
Figure 6
Figure 7
Figure 8
Figure 9
Figure 10
Figure 11
Figure 12
Figure 13
Figure 14
Figure 15
Figure 16
Figure 33
Figure 34
Figure 35
Figure 36
Figure 37
Figure 38
Figure 49
Figure 40
Figure 41
Figure 42
Figure 43
Figure 44
Front View of the ESR 316 Chassis .......................................................................3
Front View of the ESR 420 Chassis........................................................................3
Front View of the ESR 524 Chassis........................................................................3
Front Panel indicator ..............................................................................................4
Front Panel Serial DB 9 connector .......................................................................5
Back View of the ESR 316 Chassis ...................................................................6
Back View of the ESR 420 Chassis....................................................................6
Back View of the ESR 524 Chassis....................................................................6
Chassis Dimension .................................................................................................7
Front Opened view .................................................................................................8
Rear Opened view ..............................................................................................8
Front Panel Board ................................................................................................9
16-pin Front Panel Cable ......................................................................................10
10-pin USB Cable ..............................................................................................10
System Power Board .......................................................................................11
24-pin system board header ..............................................................................11
16-pin front panel header .......................................................................................12
Front panel I/O cable .............................................................................................12
PWM fan signal cable .........................................................................................13
3-pin fan header ....................................................................................................14
4-pin power header ...............................................................................................14
4-pin power cable .............................................................................................15
16-pin system board to front panel I/O header ......................................................15
10-pin system power board to backplane power header ........................................16
10-pin power cable ...............................................................................................17
Thermocouple threshod jumper header ................................................................18
Thermocouple header .............................................................................................18
2-pin Thermocouple with cable ...............................................................................18
Serial ATA backplane board ...............................................................................19
22-pin Serial ATA connector header .......................................................................19
7-pin Serial ATA connector ...................................................................................20
7-pin Serial ATA point-to-point cable ....................................................................21
8-pin Serial ATA hard drive status LED header ........................................... 22
4-pin Serial ATA hard drive status cable ........................................................22
12-pin Serial ATA hard drive status signal jumper ....................................................23
Multilane backplane board ....................................................................................24
22-pin Serial ATA connector header .......................................................................24
Serial ATA Multilane connector header .................................................................25
Multilane cable .......................................................................................................26
8-pin Serial ATA hard drive status LED header ........................................... 27
4-pin Serial ATA hard drive status cable ........................................................27
12-pin Serial ATA hard drive status signal jumper ....................................................28
SCSI backplane board ....................................................................................29
80-pin SCSI SCA connector ................................................................................29
User Manual ESR 316, ESR 420, ESR 524
User Manual ESR 316, ESR 420, ESR 524 User Manual ESR 316, ESR 420, ESR 524
Figure 61
Figure 62
Figure 63
Figure 64
Figure 65
Figure 66
Figure 67
Figure 68
Figure 69
Figure 70
Figure 71
Figure 72
Figure 73
Figure 74
Figure 75
Figure 76
Figure 45
Figure 46
Figure 47
Figure 48
Figure 49
Figure 50
Figure 51
Figure 52
Figure 53
Figure 54
Figure 55
Figure 56
Figure 57
Figure 58
Figure 59
Figure 60
Figure 77
Figure 78
Figure 79
Figure 80
Figure 81
Figure 82
Figure 83
Figure 84
Figure 85
Figure 86
Figure 87
Figure 88
Figure 89
Figure 90
68-pin SCSI HD68 connector .................................................................................31
HD68 SCSI cable ...................................................................................................32
LVD320/SE Terminator ...........................................................................................32
SCSI ID switch .........................................................................................................33
Daisy Chain SCSI Backplane ..............................................................................34
SCSI cable used for daisy chain ...................................................................34
Slim-line power board ..........................................................................................35
Mini 4-pin DC power cable .....................................................................................36
4-pin-to-2pin DC power cable ...................................................................................36
Slim-line Floppy Disk Board .......................................................................................37
34-pin FDD cable ...................................................................................................38
26-pin slim-line FDD flat cable ............................................................................38
SlimCD/DVD-Rom Board .................................................................................39
Single drive IDE cable ...........................................................................................40
Two drive IDE cable ..............................................................................................40
DB9 Serial Cable .....................................................................................................43
2.5” to 3.5’ IDE adapter .......................................................................................44
JP1 connecter layout 2.5” to 3.5” IDE adapter ......................................................44
JP2 connecter layout 2.5” to 3.5” IDE adapter .....................................................45
System Fan Edge adapter board ......................................................................46
Loosen the back cover thumbscrews ..................................................................48
Remove the back top cover..................................................................................48
Remove the front top cover ...............................................................................48
Install the I/O Gasket .............................................................................................49
Install the bolt standoffs .........................................................................................49
Install the system board ..........................................................................................49
Removing the expansion-card shielding plate ................................................50
Install the expansion-card into the system .....................................................50
Secure the expansion-card ....................................................................................50
Hot Swap Hard Disk Drive tray ..............................................................................51
Push the Hard Drive tray button ......................................................................52
Remove the HDD tray from the chassis ..........................................................52
Remove the drive dummy blank ........................................................................... 53
Install the hard disk drive into the carrier .................................................................53
Install the hard disk drive tray to the system ..........................................................53
2.5” slim-line hard disk drive location ....................................................................54
Remove the slim-line hard disk drive mountng bracket .......................................54
Mounting the slim HDD into the drive mounting bracket ......................................55
Install the 2.5” to 3.5” IDE adapter.......................................................................55
Example jumper setting for 2.5” IDE hard disk drive ..................................... 55
Remove the FDD cover plate and mounting bracket .......................................57
Connect the 28-pin cable into the slim FDD adapter board ................................57
Mount the slim FDD adapter board into the chassis ......................................57
Assembly the slim-line FDD into the mounting bracket ..................................58
Install the slimline Floppy Disk Drive into the chassis ................................58
IConnect the 26-pin high density flat cable into the slim-line FDD ..........................58
User Manual ESR 316, ESR 420, ESR 524
Figure 107
Figure 108
Figure 109
Figure 110
Figure 111
Figure 112
Figure 113
Figure 114
Figure 115
Figure 116
Figure 117
Figure 118
Figure 119
Figure 120
Figure 121
Figure 122
Figure 91
Figure 92
Figure 93
Figure 94
Figure 95
Figure 96
Figure 97
Figure 98
Figure 99
Figure 100
Figure 101
Figure 102
Figure 103
Figure 104
Figure 105
Figure 106
Figure 123
Figure 124
Figure 125
Figure 126
Figure 127
Figure 128
Figure 129
Figure 130
Figure 131
Figure 132
Figure 133
Figure 134
Figure 135
Figure 136
Remove the CD-rom covering plate and mounting bracket ............................59
Install the slim-line CD-Rom and adapter board into the mounting bracket ............59
Install the slim CD-Rom into the chassis ...........................................................60
Location of the rear exhaust fans ......................................................................61 install the rear fan into the chassis ...................................................................61
Pull out the hot-swap system fan .........................................................................62
Install the fan into the fan edge board .................................................................62
Identify the defected power supply modular of the 650W PSU ........................63
Remove the screws that secure the 650W power supply .............................64
Remove the displacement bar of the 650W power supply .............................64
Pull out the 650W PSU modular from its housing ...............................................64
Identify the defected power supply modular of the 950W PSU...........................65
Remove the 950W PSU modular from its housing ..............................................66
Identify the defected power supply modular of the 1350W PSU .....................67
Unscrew and push the latch of the defected PSU modular ..............................67
Pull out the modular from the housing ....................................................................67
Remove the slide rail security screws .............................................................69
Fully extend the slide rail .......................................................................................70
Remove the system fan mounting bracket .......................................................70
Remove the backplane bracket mounting screws .................................................70
Pull out the backplane mounting bracket from the chassis .......................................71
Remove the mounting screws from the backplane mounting bracket ..................71
Replace the battery ..............................................................................................72
Rack mounting hardware ................................................................................75
Four post cabient rack .........................................................................................76
Four post open rack ................................................................................................76
Rack’s mounting hole types .................................................................................76
Marking on the rack ..............................................................................................77
Removing the rack slide security screws ...........................................................78
Releasing the outer slide rail ...........................................................................78
Bracket extender ...................................................................................................79
Assembly the outer slide rail and bracket extender .............................................79
Position the outer slide rail into the rack ......................................................... 80
Install the outer slide rail into the rack .................................................................81
Slide in the chassis into the rack ..........................................................................82
Check the mounting holes are aligh to the rack ................................................82
Secure the system by enclosure keys ................................................................83
Kit accessories box .............................................................................................84
Kit system fan, 120x120x38mm .............................................................................85
Kit hard disk drive carrier ..................................................................................... 85
Kit slim IDE 2.5” to 3.5: hard disk drive (drive 1 location) ............................86
Kit slim IDE 2.5” to 3.5: hard disk drive (drive 2 location)...............................87
Kit slim IDE 2.5” to 3.5: hard disk drive (drive 3 location)...............................88
Kit slim-line floppy disk drive ...............................................................................89
Kit slim-line CD/DVD-Rom ....................................................................................89
Cable Kit: Two drive IDE cable ..............................................................................90
User Manual ESR 316, ESR 420, ESR 524
User Manual ESR 316, ESR 420, ESR 524 User Manual ESR 316, ESR 420, ESR 524
Figure 137
Figure 138
Figure 139
Figure 140
Figure 141
Figure 142
Figure 143
Figure 144
Figure 145
Figure 146
Figure 147
Figure 148
Figure 149
Figure 150
Figure 151
Figure 152
Figure 153
Figure 154
Figure 155
Cable kit: 4-pin DC power cable for add-in-card .....................................................90
Cable kit: 2 pin Thermocouple cable ......................................................................90
Kit Power Supply Modular for 650W ......................................................................91
Kit Power Supply Modular for 950W ......................................................................91
Kit Power Supply Modular for 1350W ......................................................................92
Cable kit: AC power cord, North America ..............................................................92
Kit, 28 inches cabient bracket extender .............................................................94
Kit, 30 inches cabient bracket extender .............................................................94
Kit, SCSI Backplane, 4 drives ................................................................................95
Kit, SCSI Backplane, 8 drives ................................................................................95
Kit, SCSI Backplane, 12 drives ................................................................................96
Kit, Serial ATA Point-to-Point backplane ...........................................................96
Cable Kit: Serial ATA Point-to-Point cable ..............................................................97
Cable Kit: Serial ATA HDD status signal cable .......................................................98
Kit, Serial ATA multilane backplane .........................................................................98
System fan specification and P-V curve ..................................................................99
650W 2+1 Redundant Power Supply ....................................................................100
950W 2+1 Redundant Power Supply ....................................................................101
1350W 3+1 Redundant Power Supply ...................................................................102
User Manual ESR 316, ESR 420, ESR 524
List Of Table
Table 17
Table 18
Table 19
Table 20
Table 21
Table 22
Table 23
Table 24
Table 25
Table 26
Table 27
Table 28
Table 29
Table 30
Table 31
Table 32
Table 1
Table 2
Table 3
Table 4
Table 5
Table 6
Table 7
Table 8
Table 9
Table 10
Table 11
Table 12
Table 13
Table 14
Table 15
Table 16
Table 33
Table 34
Table 35
Table 36
Table 37
Table 38
Table 39
Table 40
Table 41
Table 42
Table 43
Table 44
Front Panel USB connector pin assignment ...................................................5
Front Panel Serial DB9 connector pin assignment ............................................5
Chassis Dimension .................................................................................................7
16-pin front panel I/O header pin assignment (Front Panel Board) ....................9
Front Panel USB header pin assignment ............................................................10
Front Panel USB cable pin assignment ...........................................................10
24-pin Perpheral power pin assignment ..............................................................11
16-pin front panel I/O header pin assignment (System Board) .......................12
Front Panel I/O cable pin assignment ..............................................................13
PWM fan feedback signal cable pin assignment .................................................13
3-pin fan header pin assignment ........................................................................14
4-pin power header pin assignment ......................................................................14
4-pin power cable list ...........................................................................................15
16-pin front panel I/O header pin assignment (System Power Board) ...........16
10-pin system power header pin assignment .....................................................16
10-pin power cable list .....................................................................................17
System power board warning signal list .................................................................17
22-pin Serial ATA data segment pin assignment ...............................................19
22-pin Serial ATA power segment pin assignment ................................................20
7-pin Serial ATA data header pin assignment ......................................................20
Serial ATA Point-to-Point cable list ........................................................................21
Serial ATA Hard Disk Drive status signal cable list .............................................22
22-pin Serial ATA data segment pin assignment ................................................24
22-pin Serial ATA power segment pin assignment ...............................................25
28-pin Serial ATA multilane header pin assignment .............................................26
Serial ATA Hard Disk Drive status signal cable list .............................................27
80-pin SCSI SCA Connector pin assignment .......................................................30
68-pin SCSI HD68 Connector pin assignment ...................................................31
SCSI drive failed signal header pin assignment ...................................................32
SCSI ID settings ....................................................................................................33
Peripheral Power (JP1) pin assignment, slim power board ..................................35
Mini 4-pin power (Jp2-Jp4) pin assignment, slim power board ..................................35
4-pin to 2-pin power cable list ................................. .................................................36
Mini 4-pin power (JP1) pin assignment, slim-CD/DVD-Rom board ......................37
34-pin Floppy Drive connector pin assignment .....................................................37
26-pin slim-line Floppy Drive connector pin assignment .......................................38
40-pin IDE connector pin assignment ....................................................................39
40-pin single drive IDE cable list ........................................................................40
Mini 4-pin power header pin assignment (slim-line CD-Rom board) ...................41
2.54mm pitch Audio header pin assignment ......................................................41
2.0 mm pitch Audio header pin assignment ......................................................41
50-pin slim-line CD/DVD-Rom header pin assignment ........................................42
DB9 pin assignment for DB9 cable: 17-1001-01A .............................................43
DB9 pin assignment for DB9 cable: 17-1001-02A .............................................43
User Manual ESR 316, ESR 420, ESR 524
User Manual ESR 316, ESR 420, ESR 524 User Manual ESR 316, ESR 420, ESR 524
Table 45
Table 46
Table 47
Table 48
Table 49
Table 50
Table 51
Table 52
Table 53
Table 54
Table 55
Table 56
Table 57
Table 58
Table 59
Table 60
Table 61
Table 62
Table 63
Table 64
Table 65
44-pin 2.5 inch IDE connector pin assignment ....................................................44
40+2-pin 2.5 inch IDE connector pin assignment .....................................................45
Fan edge board header pin assignment ............................................................46
System fan specification ......................................................................................99
650W power supply DC output characteristics .................................................100
650W power supply specification ...........................................................................100
950W power supply DC output characteristics ...................................................101
950W power supply specification ......................................................................101
1350W power supply DC output characteristics ..................................................102
1350W power supply specification .....................................................................102
Equipment log ...................................................................................................104
ESR-316 power budget calculation (650W) .........................................................105
ESR-316 total combined wattage calculation (650W) .......................................105
ESR-420, ESR-524 power budget calculation (950W) ..................................106
ESR-420, ESR-524 total combined wattage calculation (950W)......................106
ESR-524 power budget calculation(1350W)....................................................107
ESR-524 total combined wattage calculation (1350W) .................................107
BTU calculation, ESR-316, 650W ........................................................................108
BTU calculation, ESR-420, ESR-524, 950W .......................................................108
BTU calculation, ESR-524, 1350W ......................................................................108
Mean Time to Repair .........................................................................................109
User Manual ESR 316, ESR 420, ESR 524
Chapter 1. Product Overview
1.1 Chassis Description
Enlight Corp USA ESR Series Chassis are designed to support for high density Storage and
Server Board. The chassises are shipped with container designed to provide protection and prevent damage during shipment. These chassis were carefully inspected before and during the packing procedure at the factory. Evidence of any damage to these chassises should be reported to the shipper immediately.
If the wrong ESR-Series model has been received, please call your reseller or Enlight Corp USA at 562-781-9898 to arrange for a Return Material Authorization (RMA). Enlight Corp USA cannot accept returns which do not display an RMA number on the outside of the package. Return the unit with all the original packing materials.
To complete the system, you must purchase some items seperately ( see below )
Ground yourself by touching an unpainted metal surface on the chassis, such as the metal around the card-slot openings at the back of the computer, before touching anything inside your computer.
While you work, periodically touch an unpainted metal surface on the computer chassis to dissipate any static electricity that might harm internal components.
The following compinents are included with the ESR series chassises i ii iii iv v vi vii viii
Rack mount chassis with slide rail
16 Hard Drive Trays for ESR316; 20 Hard Drive Trays for ESR420; 24 Hard Drive Trays for ES
4 x Serial ATA or Serial ATA multilane or SCSI or Serial Attached SCSI Backplane for ESR 316
5 x Serial ATA or Serial ATA multilane or SCSI or Serial Attached SCSI Backplane for ESR 420
6 x Serial ATA or Serial ATA multilane or SCSI or Serial Attached SCSI Backplane for ESR 524
650W 2+1 Redundant Power Suppy with 3 modulars for ESR 316
930W 2+1 Redundant Power Supply with 3 modulars for ESR 420 and ESR 524 or
1250W 3+1 Redundant Power Supply with 4 modulars for ESR 524
Two Hot Swap 12cm fans.
Serial DB 9 cable
Dual port USB cable
Accessories Box
The following compinents must be purchased seperately v vi vii viii ix iii iv i ii
One Server Board
Minimum of one processor that is supported by the server board installed
Minimum of one memory modular that is supported by the server board installed
3.5” Hard Disk Drive ( Serial ATA, SCSI or Serial Attached SCSI )
2.5” SFF Hard Disk Drive ( ATA )
Slim Floppy Disk Drive
Slim CD/DVD Rom Drive
PCI add-in-cards
Other Peripheral devices
1
User Manual ESR 316, ESR 420, ESR 524
2
User Manual ESR 316, ESR 420, ESR 524 User Manual ESR 316, ESR 420, ESR 524
The following compinents are included in the accessories box
Bracket extender for 30-inch rack
06-0138-01A left
06-0138-02A right
M5 Cage Nuts, 16 pcs
(order #09-1053-01A)
M5 x 1” Enclosure Key Pan Head
Screws, 4pcs (order#09-1019-01A)
M5 x 3/4” Pan Head Screws,
24 pcs (order#09-1052-01A)
#6-32 RH screws 30 pcs
(order #09-1003-01A)
Cable Tie x 4
1
#6-32 bolt standoffs 25 pcs
(order #09-1007-01A)
AC Cord North America 3pcs
(order # 17-1012-01A)
Depend on your country, the accessories box may not have the AC cord and you have to order the AC cord seperately.
Use only approved power cable(s). If you have not been provided with a power cable for your server, storage system, or appliance, or for any AC-powered option intended for your system, purchase a power cable that is approved for use in your country. The power cable must be rated for the product and for the voltage and current marked on the product’s electrical ratings label. The voltage and current rating of the cable should be greater than the ratings marked on the product.
2
User Manual ESR 316, ESR 420, ESR 524
1.2 Chassis Front View
ESR 316
1 2 3 4
5
ESR 420
Figure 1 ESR 316 Front View
1 2 3 4
5
ESR 524
Figure 2 ESR 420 Front View
1 2 3 4
5
Figure 3 ESR 524 Front View
1
Slim FDD Bay
3
Front Panel Indicator
5
HDD Trays
2
Serial DB 9 connector
4
Slim CD/DVD Bay
3
User Manual ESR 316, ESR 420, ESR 524
User Manual ESR 316, ESR 420, ESR 524 User Manual ESR 316, ESR 420, ESR 524
1.3 Chassis Front Panel Features
1
2
3
1 2 3
Figure 4 Front Panel Indicator
4 5 6 7 8
Front Panel Button and LED functions
4
Power ON/OFF switch
Reset switch
Alarm Reset switch
System ON LED
9
10
Toggles the system ON/OFF
Reboots and initalizes the system
Reset the system alarm for Fan failed, Over-Temperature and Power Supply failed
Continuous blue light indicates the system is ON
No light indicates the system is OFF
5 Hard Disk Activity LED Blinking blue light indicates the hard disk drive that is directly connected to the motherboard has activity
6
FAN Failed LED Blinking red light indicates either the Fan(s) and/or Power Supply Modular(s) and/or System Over Temperature. A short beep form the system alarm indicates System Fan failure, A long beep indicates chassis inside temperature exceed the preset value and a continuous beep indicates Power Supply failure
7
8
NIC 1 LED
NIC 2LED
Continuous green light indicates the system is connected to the network
Blinking green light indicates activity the system and the network to which it is connected
9
10
USB connector 2
USB connector 1
USB connector that is used to connect external USB device. Refer Table
NOTE: Refer section 2.2.5.1 for Front Panel I/O cable pin assignment
4
User Manual ESR 316, ESR 420, ESR 524
Section 1.3.1Front Panel USB Connectors Pin Assignment
2
3
Pin
1
4
Signal Name
Gound
USB Positive Signal
USB Negative Signal
USB Port Power
Table 1 Front Panel USB Connector Pin Assignment
NOTE: Refer section 2.11 for DB9 cable pin assignment
Section 1.3.2 Front Panel Serial DB 9 Connector Pin Assignment
User Manual ESR 316, ESR 420, ESR 524
1.4 Chassis Back View
ESR 316
2 3 4
1
Figure 6 ESR 316 Rear View
ESR 420
2 3 4
Figure 5 Serial DB 9 connector
The DB-9 (9-pin) serial port allows administrators access the system and.or controll external device through a serial console session using UNIX commands such as hyper terminal. The pin assignment is tablied below. The DB serial connector can be changed to VGA Analog 15 pin connector if your system support. Contact your reseller for order information.
6
7
4
5
8
9
2
3
Pin
1
Signal Name
DCD (Data Carrier Detect)
RXD (Receive Data)
TXD (Transmit Data)
DTR (Data Terminal Ready)
GND (Ground)
DSR (Data Set Ready)
RTS (Request to Send)
CTS (Clear to Send)
RI (Ring Indicator)
Table 2 Front Panel DB 9 Connector Pin Assignment
NOTE: Refer section 2.11 for DB9 cable pin assignment
5
ESR 524
1
Figure 7 ESR 420 Rear View
2 3 4
1
Figure 8 ESR 524 Rear View
1
Power Supply Modular
3
Rear I/O Shield
2
Optional Rear Fan (2X)
4
PCI Slot Cutout (7X)
6
User Manual ESR 316, ESR 420, ESR 524
Section 1.3.1Front Panel USB Connectors Pin Assignment
2
3
Pin
1
4
Signal Name
Gound
USB Positive Signal
USB Negative Signal
USB Port Power
Table 1 Front Panel USB Connector Pin Assignment
NOTE: Refer section 2.11 for DB9 cable pin assignment
Section 1.3.2 Front Panel Serial DB 9 Connector Pin Assignment
User Manual ESR 316, ESR 420, ESR 524
1.4 Chassis Back View
ESR 316
2 3 4
1
Figure 6 ESR 316 Rear View
ESR 420
2 3 4
Figure 5 Serial DB 9 connector
The DB-9 (9-pin) serial port allows administrators access the system and.or controll external device through a serial console session using UNIX commands such as hyper terminal. The pin assignment is tablied below. The DB serial connector can be changed to VGA Analog 15 pin connector if your system support. Contact your reseller for order information.
6
7
4
5
8
9
2
3
Pin
1
Signal Name
DCD (Data Carrier Detect)
RXD (Receive Data)
TXD (Transmit Data)
DTR (Data Terminal Ready)
GND (Ground)
DSR (Data Set Ready)
RTS (Request to Send)
CTS (Clear to Send)
RI (Ring Indicator)
Table 2 Front Panel DB 9 Connector Pin Assignment
NOTE: Refer section 2.11 for DB9 cable pin assignment
5
ESR 524
1
Figure 7 ESR 420 Rear View
2 3 4
1
Figure 8 ESR 524 Rear View
1
Power Supply Modular
3
Rear I/O Shield
2
Optional Rear Fan (2X)
4
PCI Slot Cutout (7X)
6
User Manual ESR 316, ESR 420, ESR 524
1.5 Chassis Dimensions
Deep
Height
Width
Height
Width
Deep
ESR-316
5.20” (3U)
19.0”
28.0”
Table 3 Chassis Dimensions
ESR-420
6.95” (4U)
19.0”
28.0”
Figure 9 Chassis Dimension
ESR-524
8.70” (5U)
19.0”
28.0”
User Manual ESR 316, ESR 420, ESR 524
1.5 System Components
1 2 3 4
1
Slim Floppy Disk Drive
2
2.5” Hard Disk Drive
3
Hot Swap Fan Modular
4
Optional Rear Fan
5
Hard Disk Drive Tray
6
Slim CD/DVD-Rom
7
Rack Mount Slide Rail
5
Figure 10 Front Opened View
6 7
8 9
8
Power Supply Modular
9
Server Board
10
Rear I/O Shield
11
Add-in-cards
7
Figure 11 Rear Opened View
10 11
8
User Manual ESR 316, ESR 420, ESR 524
1.5 Chassis Dimensions
Deep
Height
Width
Height
Width
Deep
ESR-316
5.20” (3U)
19.0”
28.0”
Table 3 Chassis Dimensions
ESR-420
6.95” (4U)
19.0”
28.0”
Figure 9 Chassis Dimension
ESR-524
8.70” (5U)
19.0”
28.0”
User Manual ESR 316, ESR 420, ESR 524
1.5 System Components
1 2 3 4
1
Slim Floppy Disk Drive
2
2.5” Hard Disk Drive
3
Hot Swap Fan Modular
4
Optional Rear Fan
5
Hard Disk Drive Tray
6
Slim CD/DVD-Rom
7
Rack Mount Slide Rail
5
Figure 10 Front Opened View
6 7
8 9
8
Power Supply Modular
9
Server Board
10
Rear I/O Shield
11
Add-in-cards
7
Figure 11 Rear Opened View
10 11
8
User Manual ESR 316, ESR 420, ESR 524
Chapter 2. System Board and CableFeatures
2.1 Front Panel Board (order #16-0102-01A)
The Front Panel Board supports several push buttons and status LEDs, along with USB ports to centralize system control, monitoring, and accessibility to within a common compact design. Refer Section 1..3 for buttons and LEDs function. The following diagram overviews the board layout and pin assignments for connectivity.
User Manual ESR 316, ESR 420, ESR 524
JP2
Pin1
Pin1
Figure 12 Front Panel Board
JP1
2.1.1 JP1 16-pin Front Panel Connector Header
The Front Panel connector header communicate between the System Power Board to provide signal command to the Front Panel Board through Front Panel Cable (order #
17-1002-01A) The pin assignment of the Front Panel Header (JP1) is presented in the table below.
13
14
15
16
9
10
11
12
7
8
5
6
2
3
Pin
1
4
Signal Name
Power Switch 1
Power Switch 2
System Reset Switch 1
System Reset Switch 2
Alarm Reset
Fail LED Negative (-)
Access LED Positive (+)
Access LED Negative (-)
LAN1 LED Negative (-)
LAN 1 LED Positive (+)
LAN 2 LED Negative (-)
LAN 2 LED Positive (+)
Ground
Ground
+5V
+5V
Table 4 16-pin Front Panel Header Pin assignment
9 10
User Manual ESR 316, ESR 420, ESR 524 User Manual ESR 316, ESR 420, ESR 524
2.1.1.1 16 pin Front Panel cable (order # 17-1002-01A)
9
Figure 13 16-pin Front Panel cable
2.1.2 JP2 10-pin Front Panel USB Header
The Front Panel connector header communicate between the System Power Board to provide signal command to the Front Panel Board through Front Panel Cable (order #
17-1002-01A) The pin assignment of the Front Panel Header (JP1) is presented in the table below.
Name
USB Port 2 Power
Port 2 Negative Signal
Port 2 Positive Signal
Gound
Key N/C
Pin
1
3
5
7
9
Pin
2
4
6
8
10
Table 5 Front Panel USB cable Pin assignment
Name
USB Port 1 Power
Port 1 Negative Signal
Port 1 Negative Signal
Gound
Overcurrent Signal N/C
2.1.2.1 10 pin Front Panel USB cable ( order # 17-1006-01A)
J1
1
10
J2
Figure 14 10-pin USB cable
Name
USB Port 2 Power
Port 2 Negative Signal
Port 2 Positive Signal
Gound
Empty
Pin
1
3
5
7
9
Pin
2
4
6
8
10
Table 6 Front panel USB cable pin assignment
Name
USB Port 1 Power
Port 1 Negative Signal
Port 1 Negative Signal
Gound
Empty
NOTE: There is no KEY on pin 9 of the USB cable because some server board USB headers were KEY on pin 10.
10
User Manual ESR 316, ESR 420, ESR 524
2.2 System Power Board (order # 16-0101-01A)
The power system of the ESR-series chassis consists of an intergrated power share board which consolidate all power cable to support backplane and hot-swappable system fans. The System
Power Board embedded with system management senors such as fan failed signal, power failed signal and over temperature signal. Failed signal react with beeper warning and LED blinking on the front panel board. Failed signal can feedback to Server board IPMI server management through I2C connection. All data cable is consolidated on the one side of the chasis while or power cable are located on the other side to avoid interference to the data performance.
JP2 JP1
JP3
JP6
JP5
JP4
JP19
Figure 15 System Power Board
JP18
JP17
2.2.1 JP1 24-pin Power Supply to System Board Header
PIN 12
Beeper
JP16 JP15
JP12
JP13
JP14
JP9
JP10
JP11
JP7
JP8
PIN 1
Pin 24
Figure 24-pin system board header
Name
+5V
+5V
GND
+12V
+12V
SDA
+5V
+5V
GND
GND
+12V
SCL
Pin
1
3
5
7
9
11
13
15
17
19
21
23
Pin
2
4
6
8
10
12
14
16
18
20
22
24
Table 7 24-pin Peripheral Power (JP7 and JP19) Pin assignment
Name
+5V
+5V
GND
+12V
GND
Reset
+5V
+5V
GND
+12V
GND
TTL
Pin 13
11
User Manual ESR 316, ESR 420, ESR 524
12
User Manual ESR 316, ESR 420, ESR 524
11
User Manual ESR 316, ESR 420, ESR 524
2.2.2 JP2 16-pin Front Panel to Server Board and System Fan Feedback Header
The Front Panel connector header communicate between the System Power Board and the server board to provide signal command through Front Panel I/O Cable (order # 17-
1014-01A)
The system fan feedback header supports for several management features that can be ulilized by the server board management system if available throough the PWN fan signal cable (order #17- 1015-01A)
PIN 1 PIN 15
Figure 17 16-pin front panel connector
Name
Fan 1 PWN-OUT
Fan 2 PWN-OUT
Power SW 1
Reset SW 1
HDD LED +
LAN 1 LED +
LAN 2 LED +
SDA
Pin
1
3
5
7
9
11
13
15
Pin
2
4
6
8
10
12
14
16
Table 8 16-pin front panel I/O pin assignment (system board)
Name
Fan 1 TACH-OUT
Fan 2 TACH-OUT
Power SW 2
Reset SW 2
HDD LED -
LAN 1 LED -
LAN 2 LED -
SCL
2.2.2.1 Front Panel I/O Cable (order # 17-1014-01A)
J2 to J7 connect to the server board front panel head with PIN 1 of J1 to PIN 5 of JP2 on the
16 pin of section 2.2.2 Refer to your server board manual to connection instruction
J2
J3
J4
J5
J6
J7
2
1
2
1
2
1
2
1
Power SW
Reset SW
HDD LED
LAN 1
2
1
2
1
LAN 2
SMB
Figure 18 Front Panel I/O cable (order # 17-1014-01A)
J1
12
User Manual ESR 316, ESR 420, ESR 524
Pin
J2-1
J2-2
J3-1
J3-2
J4-1
J4-2
J5-1
J5-2
J6-1
J6-2
J7-1
J7-2
Color
Black
Orange
Black
Violet
Black
Red
Black
Gray
Black
Yellow
Black
Green
Signal Name
Power Switch 1
Power Switch 2
Reset Switch 1
Reset Switch 2
HDD LED Positive (+)
HDD LED Negative (-)
LAN 1 LED Positive (+)
LAN 1 LED Negative (-)
LAN 2 LED Positive (+)
LAN 1 LED Negative (-)
SDA
SCL
Table 9 Front Panel I/O cable Pin assignment
2.2.2.2 PWN Fan signal cable (order # 17-1015-01A)
J2 to J3 connect to the server board 4 pin PWM fan header or 3 pin regular fan header. PIN 1 of J1 connect to PIN 1 of the JP2 16-pin Front Panel to Server Board and System Fan Feedback Header on section 2.2.2
J2
J1
J3
Figure 10 PWM fan signal cable
2
3
Pin
1
4
Signal Name
Not Use
Not Use
Fan Tach out Signal
Fan PWM out Signal
Table 10 PWN Fan signal cable Pin assignment
13
User Manual ESR 316, ESR 420, ESR 524
14
User Manual ESR 316, ESR 420, ESR 524
13
User Manual ESR 316, ESR 420, ESR 524
2.2.3 JP3 3-pin Fan Header
The System Power board provide an additional SSI compliant 3-pin fan connector.
PIN 1
Figure 20 3-pin fan header
2
3
Pin
1
Name
Fan Tach
12V
Ground
Table 11 3-pin fan header pin assignment
2.2.4 JP4 -JP6 12-pin Hot-Swap Fan Header
JP4-JP6 connect to the hot-swap system fans
2.2.5 JP7 and JP19 4-pin Power Header
JP7 4-pin Power Header is connected to the Slim Power Board (Section 2.8)
JP19 4-pin Power Header is used to connected to high power add-in-card (such as graphic card require additional power
PIN 1
Figure 21 4-pin power header
2
3
Pin
1
4
Signal Name
+ 12V
Ground (COM)
Ground (COM)
+ 5V
Table 12 4-oin power header pin assignment
14
User Manual ESR 316, ESR 420, ESR 524
2.2.5.1 4pin power cable (order #17-1007-XXX)
The 4-pin power cable (order #17-1007-01A) is connected from the system power bioard to the slim power board (section 2.8) Power cable (order #17-1007-02A) is connected from the system power board to the high power add-in-card. Refer the table below for cable length and order imformation.
User Manual ESR 316, ESR 420, ESR 524
Figure 22 4-pin power cable
Cable Order # cable length
17-1007-00A 8 inches
17-1007-01A 20 inches
Table 13 4-pin power cable list
Instruction
Connect to slim power board (section 2.8)
Connect to high power add-in-card
2.2.6 &JP8 16-pin Front Panel Board connector header
The Front Panel connector header communicate between the System Power Board to provide signal command to the Front Panel Board through Front Panel Cable, refer to section 2.1 ,(order # 17-1002-01A) The pin assignment of the Front Panel Header (JP1) is presented in the table below.
PIN 1
Figure 23 16-pin system board to front panel I/O header
15 16
User Manual ESR 316, ESR 420, ESR 524
15
User Manual ESR 316, ESR 420, ESR 524
11
12
13
7
8
9
10
14
15
16
5
6
3
4
Pin
1
2
Signal Name
Power Switch 1
Power Switch 2
System Reset Switch 1
System Reset Switch 2
Alarm Reset
Fail LED Negative (-)
Access LED Positive (+)
Access LED Negative (-)
LAN1 LED Negative (-)
LAN 1 LED Positive (+)
LAN 2 LED Negative (-)
LAN 2 LED Positive (+)
Ground
Ground
+5V
+5V
Table 14 16-pin Front Panel Header pin assignment (system power board)
2.2.7 JP9-JP16 10-pin power out headers
The 10-pin power out headers are connected to the backplane board to provide power to hard disk drives. The pin assignment of the 10-pin power header is presented in the table below.
PIN 5
PIN 1
Pin 10
Pin 6
Figure 24 10-pin system power board to backplane header
Name
+ 5V
Fan 2 PWN-OUT
Power SW 1
Reset SW 1
HDD LED +
Pin
1
3
5
7
9
Table 15 10-pin power connector header pin assignment
4
6
Pin
2
8
10
Name
Fan 1 TACH-OUT
Fan 2 TACH-OUT
Power SW 2
Reset SW 2
HDD LED -
16
User Manual ESR 316, ESR 420, ESR 524
2.2.7.1 10-pin power cable (order#17-1010-XXX)
Connect JP9-JP16 to backplane board 10-pin header to provide DC power to the backplane board. The following table defines the cable length and order number
User Manual ESR 316, ESR 420, ESR 524
Figure 25 10-pin power cable
Cable Order # cable length
17-1010-01A 2.5 inches
17-1010-02A 3.5 inches
17-1010-03A 4.75 inches
17-1010-04A 6 inches
Table 16 10-pin power cable list
Instruction
ESR 316 to ESR 524 reqire 1
ESR 316 require 1, ESR420 - ESR 524 require 2
ESR-316 to ESR 420 require 1, ESR 524 requires 2
ESR 316 t0 ESR 524 require 1
2.2.8 Beeper
The beeper provides warning signals and is itemalized in the following table
Beep
Short
Long
Continue
Reason
Fan failed
Reaction
Replace the system fan (section 3.9)
Over Temperature check computer room ambient temperature
Power Supply failed Replace power supply modular
Table 17 System power board warning signal list
Do not exceed the operation ambient temperature of the ESR-series chassis, which is 95degrees F (35 degrees C)
17 18
User Manual ESR 316, ESR 420, ESR 524
17
User Manual ESR 316, ESR 420, ESR 524
2.2.9 Two 4-pinThermocouple Threshold Jumper Headers
These jumpers define the thermocouple threshold setting, if the temperature feedback from the thermocouple exceed the threshold setting, the beeper will alarm and the fan failed LED on the front panel will turn on.
113 degrees F
(45 degrees C)
Thermocouple 1 Thermocouple 2
Figure 26 thermocouple threshod jumper header
131 degrees F
(55 degrees C)
149 degrees F
(65 degrees C)
2.2.10 Thermocouple Header
There is one Thermocouple embedded on the system power board (Thermocouple 1) to monitor the system temperature, The system allow one extra K-Type thermocouple to monitor the system hot point
Thermocouple 1
(on board)
Thermocouple 1 Threshold
Thermocouple 2
(header)
Thermocouple 2 Threshold
Figure 27 Thermocouple header
2.2.10.1 K-TypeThermocouple (order# 17-1020-01A)
Connect the 2 Pin cable thermocouple to the thermocouple 2 header. PIN 1 is labled with a triangle mark
Figure 28 2-pin thermocouple with cable
18
User Manual ESR 316, ESR 420, ESR 524
2.3 Serial ATAI Backplane Board (order # 16-0107-01A)
Serial ATA blackplane board supports four hot-swap Serial ATA hard disk drive. The following diagram overviews the board layout and pin assignments for connectivity.
JP 4
JP 3
JP 12 JP 2
JP 3
JP 11
JP 10
JP 9
Figure 29 Serial ATA backplane board
JP 5-JP 8
2.3.1 JP1 to JP4 22-pin Serial ATA Connector Header
JP1 to JP4 connect the backplane to the Serial ATA hard disk drive, the pin assignment is shown on the table below
Signal segment Power segment
Pin 1
Pin 7
Pin 1
Figure 30 22 pin Serial ATA connector header
Pin 15
6
7
4
5
Pin
1
2
3
Signal Name
Ground
DRV RX Positive
DRV RX Negative
Ground
DRV TX Positive
DRV TX Negative
Ground
Table 18 22-pin SATA signal segment pin assignment
19
User Manual ESR 316, ESR 420, ESR 524
20
User Manual ESR 316, ESR 420, ESR 524
19
User Manual ESR 316, ESR 420, ESR 524
9
10
11
12
13
6
7
8
14
15
4
5
2
3
Pin
1
Signal Name
+ 3.3V
+ 3.3V
+ 3.3V
Ground
Ground
Ground
+ 5V
+ 5V
+ 5V
Ground
See Note Below
Ground
+12V
+12V
+12V
Table 19 22 pin SATA power segment pin assignment
NOTE: Pin 11 on the 22 pin connector power segment will receive drive activity signal directly from the hard disk drive. Refer section 2.3.4 for jumper setting to enable or disable Pin 11 function. The default setting is disable
NOTE: Hard drive that support Pin 11 activity signal inlcude all Western Digital model, Maxtor DiamondMAX 10 , MaXLine III and MaXLine III+
2.3.2 JP5 to JP8 7-pin Serial ATA Connector Header
JP5 to JP7 connect the backplane to the Serial ATA controller, the pin assignment is shown on the table below
Pin 7
Pin 1
Figure 31 7-pin Serial ATA connector
6
7
4
5
Pin
1
2
3
Signal Name
Ground
DRV RX Positive
DRV RX Negative
Ground
DRV TX Positive
DRV TX Negative
Ground
Table 20 7 pin Serial ATA data header pin assignment
20
PIN 1
User Manual ESR 316, ESR 420, ESR 524
2.3.2.1 7-pin Serial ATA cable (17-1011-XXX)
The 7 pin Serial ATA cable is used to connect the Serial ATA backplane to the Serial ATA controller. The length of the cable is 19.5 inch. Each cable has a drive number marked on for easier cable management. Refer the cable part number for markings.
PIN 7
PIN 1
Figure 32 7-pin serial ATA point-to-point cable
Latch
Cable Order # Markings
17-1011-01A HDD “0”
17-1011-02A HDD “1”
17-1011-03A HDD “2”
17-1011-04A HDD “3”
17-1011-05A HDD “4”
17-1011-06A HDD “5”
17-1011-07A HDD “6”
17-1011-08A HDD “7”
17-1011-09A HDD “8”
17-1011-10A HDD “9”
17-1011-11A HDD “10”
17-1011-12A HDD “11”
17-1011-13A HDD “12”
17-1011-14A HDD “13”
17-1011-15A HDD “14”
17-1011-16A HDD “15”
17-1011-17A HDD “16”
17-1011-18A HDD “17”
17-1011-19A HDD “18”
17-1011-20A HDD “19”
17-1011-21A HDD “20”
17-1011-22A HDD “21”
17-1011-23A HDD “22”
17-1011-24A HDD “23”
Table 21 Serial AtA point-to-point cable list
Instruction
Connect to Drive 0 on the backplane
Connect to Drive 1 on the backplane
Connect to Drive 2 on the backplane
Connect to Drive 3 on the backplane
Connect to Drive 4 on the backplane
Connect to Drive 5 on the backplane
Connect to Drive 6 on the backplane
Connect to Drive 7 on the backplane
Connect to Drive 8 on the backplane
Connect to Drive 9 on the backplane
Connect to Drive 10 on the backplane
Connect to Drive 11 on the backplane
Connect to Drive 12 on the backplane
Connect to Drive 13 on the backplane
Connect to Drive 14 on the backplane
Connect to Drive 15 on the backplane
Connect to Drive 16 on the backplane
Connect to Drive 17 on the backplane
Connect to Drive 18 on the backplane
Connect to Drive 19 on the backplane
Connect to Drive 20 on the backplane
Connect to Drive 21 on the backplane
Connect to Drive 22 on the backplane
Connect to Drive 23 on the backplane
21
User Manual ESR 316, ESR 420, ESR 524
22
User Manual ESR 316, ESR 420, ESR 524
21
User Manual ESR 316, ESR 420, ESR 524
2.3.3 JP9 8-pin Serial ATA Activity and Failed signal header
Connect the upper 4 pin to the Serial ATA controller activity signal header and connect the lower 4 pin to Serial ATA controller failed signal header.
Drive 4
Drive 2
Activity Signal
Failed Signal
Drive 3 Drive 1
Figure 33 8-pin Serial ATA Hard drive status LED header
2.3.3.1 4-pin HDD status Cable (17-1013-XXX)
The 4 pin HDD status activity cable that is connected from the 8-pin Serial ATA Activity and Failed signal header to the Serial ATA controller status LED header. Refer to your
SATA controller docunmentation, Each cable has a drive number marked on for easier cable management. Refer the cable part number for markings.
3
4
1
2
Marking
Figure 34 4-pin serial ATA hard drive status cable
Cable Order # Markings
17-1013-01A HDD “0-3”
17-1013-02A HDD “4-7”
17-1013-03A HDD “8-11-”
17-1013-04A HDD “12-15”
17-1013-05A HDD “16-19”
17-1013-06A HDD “20-23”
Table 22 Serial ATA HDD status signal cable list
Instruction
Connect to Drive 0-3 on the backplane
Connect to Drive 4-7 on the backplane
Connect to Drive 8-11 on the backplane
Connect to Drive 12-15 on the backplane
Connect to Drive 12-15 on the backplane
Connect to Drive 12-15 on the backplane
NOTE: Hard drive that support Pin 11 activity signal inlcude all Western Digital model, Maxtor DiamondMAX 10 , MaXLine III and MaXLine III+
22
User Manual ESR 316, ESR 420, ESR 524
2.3.4 JP10 12-pin Hard Disk Status signal Jumper
The jumper set the hard disk drive status LED signal either from the Hard Disk Drive pin 11 or from the Serial ATA controller. Following the table below for jumper setting information.
The default setting has jumper on 1-2 for signal from the Serial ATA controller.
Drive 4
Drive 2
3
2
1
3
2
1
Signal from SATA controller
3
2
1
Signal from Hard Disk Pin 11
Drive 2
Drive 1
Figure 35 12-pin HDD status signal jumper
NOTE: Hard drive that support Pin 11 activity signal inlcude all Western Digital model, Maxtor DiamondMAX 10 , MaXLine III and MaXLine III+
2.4.5 JP11 MOSFET setup header
JP11 is for MOSFET setup, no use for end-user.
2.4.6 JP12 10 pin power connector header
JP12 10-pin power connector is connected to the system power board to provide power to the Serial ATA backplane and hard disk drives.
User Manual ESR 316, ESR 420, ESR 524
23 24
User Manual ESR 316, ESR 420, ESR 524
23
User Manual ESR 316, ESR 420, ESR 524
2.4 Serial ATA Multilane Backplane Board (order # 16-0109-01A)
Serial ATA blackplane board supports four hot-swap Serial ATA hard disk drive. The following diagram overviews the board layout and pin assignments for connectivity.
JP 4
JP 3
JP 9 JP 2
JP 3
JP 8
Figure 36 Multilane Backplane board
JP 7
JP 6
JP 5
2.4.1 JP1 to JP4 22-pin Serial ATA Connector Header
JP1 to JP4 connect the backplane to the Serial ATA hard disk drive, the pin assignment is shown on the table below
Signal segment Power segment
Pin 1
Pin 7
Pin 1
Figure 37 22 pin Serial ATA connector header
Pin 15
4
5
2
3
6
7
Pin
1
Signal Name
Ground
DRV RX Positive
DRV RX Negative
Ground
DRV TX Positive
DRV TX Negative
Ground
Table 23 22 pin SATA signal segment pin assignment
24
User Manual ESR 316, ESR 420, ESR 524
11
12
13
14
15
8
9
6
7
10
3
4
5
Pin
1
2
Signal Name
+ 3.3V
+ 3.3V
+ 3.3V
Ground
Ground
Ground
+ 5V
+ 5V
+ 5V
Ground
See Note Below
Ground
+12V
+12V
+12V
Table 24 22 pin SATA power segment pin assignment
NOTE: Pin 11 on the 22 pin connector power segment will receive drive activity signal directly from the hard disk drive. Refer section 2.3.4 for jumper setting to enable or disable Pin 11 function. The default setting is disable
NOTE: Hard drive that support Pin 11 activity signal inlcude all Western Digital model, Maxtor DiamondMAX 10 , MaXLine III and MaXLine III+
2.4.2 JP5 Multilane Serial ATA Connector Header
JP5 connects the backplane to the Serial ATA controller, the pin assignment is shown on the table below
Pin 3
User Manual ESR 316, ESR 420, ESR 524
14
15
16
10
11
12
13
7
8
5
6
9
2
3
Pin
1
4
22
23
24
25
17
18
19
20
21
Signal Name
GND
DRV1 RX Postive
DRV 1 RX Negative
GND
DRV 2 RX Postive
DRV 2 RX Negative
GND
DRV 3 RX Postive
DRV 3 RX Negative
GND
DRV 4 RX Postive
DRV 4 RX Negative
GND
DRV 4 TX Positive
DRV 4 TX Negative
GND
DRV 3 TX Positive
DRV 3 TX Negative
GND
DRV 2 TX Positive
DRV 2 TX Negative
GND
DRV 1 TX Positive
DRV 1 TX Negative
GND
Table 25 28-pin Serial ATA multilane header pin assignment
2.4.2.1 28-pin Serial ATA cable (17-1005-01A)
The 28 pin Multi-lane cable is used to connect the Serial ATA backplane to the Serial ATA controller. The length of the cable is 15.5 inch.
Pin 2 Pin 1
Figure 38 Multilane Serial ATA connector header
25
Figure 39 Multilane cable
26
User Manual ESR 316, ESR 420, ESR 524
11
12
13
14
15
8
9
6
7
10
3
4
5
Pin
1
2
Signal Name
+ 3.3V
+ 3.3V
+ 3.3V
Ground
Ground
Ground
+ 5V
+ 5V
+ 5V
Ground
See Note Below
Ground
+12V
+12V
+12V
Table 24 22 pin SATA power segment pin assignment
NOTE: Pin 11 on the 22 pin connector power segment will receive drive activity signal directly from the hard disk drive. Refer section 2.3.4 for jumper setting to enable or disable Pin 11 function. The default setting is disable
NOTE: Hard drive that support Pin 11 activity signal inlcude all Western Digital model, Maxtor DiamondMAX 10 , MaXLine III and MaXLine III+
2.4.2 JP5 Multilane Serial ATA Connector Header
JP5 connects the backplane to the Serial ATA controller, the pin assignment is shown on the table below
User Manual ESR 316, ESR 420, ESR 524
14
15
16
10
11
12
13
7
8
5
6
9
2
3
Pin
1
4
22
23
24
25
17
18
19
20
21
Signal Name
GND
DRV1 RX Postive
DRV 1 RX Negative
GND
DRV 2 RX Postive
DRV 2 RX Negative
GND
DRV 3 RX Postive
DRV 3 RX Negative
GND
DRV 4 RX Postive
DRV 4 RX Negative
GND
DRV 4 TX Positive
DRV 4 TX Negative
GND
DRV 3 TX Positive
DRV 3 TX Negative
GND
DRV 2 TX Positive
DRV 2 TX Negative
GND
DRV 1 TX Positive
DRV 1 TX Negative
GND
Table 25 28-pin Serial ATA multilane header pin assignment
2.4.2.1 28-pin Serial ATA cable (17-1005-01A)
The 28 pin Multi-lane cable is used to connect the Serial ATA backplane to the Serial ATA controller. The length of the cable is 15.5 inch.
25
Figure 39 Multilane cable
26
User Manual ESR 316, ESR 420, ESR 524
2.4.3 JP6 8-pin Serial ATA Activity and Failed signal header
Connect the upper 4 pin to the Serial ATA controller activity signal header and connect the lower 4 pin to Serial ATA controller failed signal header.
Drive 4
Drive 2
Activity Signal
Failed Signal
Drive 3 Drive 1
Figure 40 8-pin Serial ATA Hard drive status LED header
2.4.3.1 4-pin HDD status Cable (17-1013-XXX)
The 4 pin HDD status activity cable that is connected from the 8-pin Serial ATA Activity and Failed signal header to the Serial ATA controller status LED header. Refer to your
SATA controller docunmentation, Each cable has a drive number marked on for easier cable management. Refer the cable part number for markings.
3
4
1
2
Marking
Figure 41 4-pin serial ATA hard drive status cable
Cable Order # Markings
17-1013-01A HDD “0-3”
17-1013-02A HDD “4-7”
17-1013-03A HDD “8-11-”
17-1013-04A HDD “12-15”
17-1013-05A HDD “16-19”
17-1013-06A HDD “20-23”
Table 26 Serial ATA HDD status signal cable list
Instruction
Connect to Drive 0-3 on the backplane
Connect to Drive 4-7 on the backplane
Connect to Drive 8-11 on the backplane
Connect to Drive 12-15 on the backplane
Connect to Drive 12-15 on the backplane
Connect to Drive 12-15 on the backplane
NOTE: Hard drive that support Pin 11 activity signal inlcude all Western Digital model, Maxtor DiamondMAX 10 , MaXLine III and MaXLine III+
27
User Manual ESR 316, ESR 420, ESR 524
28
User Manual ESR 316, ESR 420, ESR 524
27
User Manual ESR 316, ESR 420, ESR 524
2.4.4 JP7 12-pin Hard Disk Status signal Jumper
The jumper set the hard disk drive status LED signal either from the Hard Disk Drive pin 11 or from the Serial ATA controller. Following the table below for jumper setting information.
The default setting has jumper on 1-2 for signal from the Serial ATA controller.
Drive 4
Drive 2
3
2
1
3
2
1
3
2
1
Signal from SATA controller
Signal from Hard Disk Pin 11
Drive 2
Drive 1
Figure 42 12-pin HDD status signal jumper
NOTE: Hard drive that support Pin 11 activity signal inlcude all Western Digital model, Maxtor DiamondMAX 10 , MaXLine III and MaXLine III+
2.4.5 JP8 MOSFET setup header
JP11 is for MOSFET setup, no use for end-user.
2.4.6 JP9 10 pin power connector header
JP12 10-pin power connector is connected to the system power board to provide power to the Serial ATA backplane and hard disk drives.
28
User Manual ESR 316, ESR 420, ESR 524
2.5 SCSI Backplane Board (order # 16-0108-01A)
SCSI blackplane board supports four hot-swap SCA SCSI hard disk drive. The following diagram overviews the board layout and pin assignments for connectivity.
JP 4
JP 3
JP 13
JP 12
JP 2
JP 11
JP 1
Figure 43 SCSI Backplane board
JP 10
JP 9
JP 8
JP 7
JP 6
JP 5
2.5.1 JP1 to JP4 80-pin SCA Connector Header
JP1 to JP4 connect the backplane to the SCSI hard disk drive, the pin assignment is shown on the table below
Pin 41
Pin 80
Pin 40
Pin 1
Figure 44 80-pin SCSI SCA connector
Name
P12V
P12V
NC 3V 1
BP SCSI D11N
BP SCSI D9N
BP SCSI ION
BP SCSI CDN
BP SCSI MSGN
BP SCSI ACKN
BP SCSI ATNN
BP SCSI D7N
BP SCSI D5N
BP SCSI D3N
BP SCSI D1N
BP SCSI DP1N
Pin
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
24
26
28
30
14
16
18
20
22
8
10
12
4
6
Pin
2
Name
P12V
P12V
NC 3V 2
BP SCSI D10N
BP SCSI D8N
BP SCSI REQN
BP SCSI SELN
BP SCSI RSTN
BP SCSI BSYN
BP SCSI DP0N
BP SCSI D6N
BP SCSI D4N
BP SCSI D2N
BP SCSI D0N
BP SCSI DP15N
29
User Manual ESR 316, ESR 420, ESR 524
30
User Manual ESR 316, ESR 420, ESR 524 User Manual ESR 316, ESR 420, ESR 524
Name
BP SCSI D14N
BP SCSI D12N
P5V
Unsed
Unsed
GND
GND
NC 3V CHG
BP SCSI D11P
BP SCSI D9P
BP SCSI IOP
BP SCSI CDP
BP SCSI MSGP
BP SCSI ACKP
BP SCSI ATNP
BP SCSI D7P
BP SCSI D5P
BP SCSI D3P
BP SCSI D1P
BP SCSI DP1P
BP SCSI D14P
BP SCSI D12P
GND
HD ACT LED L
Unused
Table 27 80-pin SCSI SCA connector pin assignment
65
67
69
59
61
63
71
73
75
77
79
53
55
57
45
47
49
51
35
37
39
41
43
Pin
31
33
66
68
70
60
62
64
72
74
76
78
80
54
56
58
46
48
50
52
36
38
40
42
44
Pin
32
34
Name
BP SCSI D13N
P5V
P5V
GND
Unsed
GND
SCSI MATED
BP SCSI DIFSNS
BP SCSI D10P
BP SCSI D8P
BP SCSI REQP
BP SCSI SELP
BP SCSI RSTP
BP SCSI BSYP
BP SCSI DP0P
BP SCSI D6P
BP SCSI D4P
BP SCSI D2P
BP SCSI D0P
BP SCSI D15P
BP SCSI D13P
SCSI MATED
GND
Unused
Unused
29 30
User Manual ESR 316, ESR 420, ESR 524
2.5.2 JP5 and JP12 HD68 Connector Header
JP5 or JP12 is 68 pin SCSI connector. Either one of the connector is used to interface the
SCSI backplane with either on-board SCSI channel of the system board or and add-in SCSI controller. The other connector is used to for termination or daisy chain with another SCSI backplane board
Pin 34
Pin 1
Pin 68
Figure 45 68-pin SCSI HD68 connector
Name
BP SCSI D12P
BP SCSI D13P
BP SCSI D14P
BP SCSI D15P
BP SCSI DP1P
BP SCSI D0P
BP SCSI D1P
BP SCSI D2P
BP SCSI D3P
BP SCSI D4P
BP SCSI D5P
BP SCSI D6P
BP SCSI D7P
BP SCSI DP0P
GND
BP SCSI DIFSNS
TERMI PWR
TERMI PWR
Unused
GND
BP SCSI ATNP
GND
BP SCSI BSYP
BP SCSI ACYP
BP SCSI RSTP
BP SCSI MSGP
BP SCSI SELP
BP SCSI CDP
BP SCSI REQP
BP SCSI IOP
BP SCSI D8P
BP SCSI D9P
BP SCSI D10P
BP SCSI D11P
Table 28 68-pin SCSI HD68 connector pin assignment
51
53
55
57
41
43
45
47
49
35
37
39
29
31
33
59
61
63
65
67
23
25
27
15
17
19
21
5
7
9
11
13
Pin
1
3
52
54
56
58
42
44
46
48
50
36
38
40
30
32
34
60
62
64
66
68
24
26
28
16
18
20
22
6
8
10
12
14
Pin
2
4
Name
BP SCSI D12N
BP SCSI D13N
BP SCSI D14N
BP SCSI D15N
BP SCSI DP1N
BP SCSI D0N
BP SCSI D1N
BP SCSI D2N
BP SCSI D3N
BP SCSI D4N
BP SCSI D5N
BP SCSI D6N
BP SCSI D7N
BP SCSI DP0N
GND
GND
TERMI PWR
TERMI PWR
Unused
GND
BP SCSI ATNN
GND
BP SCSI BSYN
BP SCSI ACKN
BP SCSI BSTN
BP SCSI MSGN
BP SCSI SELN
BP SCSI CDN
BP SCSI REQN
BP SCSI ION
BP SCSI D8N
BP SCSI D9N
BP SCSI D10N
BP SCSI D11N
Pin 35
31
User Manual ESR 316, ESR 420, ESR 524
32
User Manual ESR 316, ESR 420, ESR 524 User Manual ESR 316, ESR 420, ESR 524
2.5.2.1 HD-68 SCSI Cable from backplane to host (order# 17-1016-01A)
The HD-68 pin cable is used to connect the SCSI backplane to the SCSI controller. The length of the HD-68 pin cable is 21.5 inch
Figure 46 HD68 SCSI cable
NOTE: Use the cable provide by Enlight USA only, the cable length is designed to rprevent reflection resonance
2.5.2.2 HD-68 SCSI LVD320/SE Terminator (order# 16-0117-01A)
The LVD320/SE terminator is connected to the HD68 connector header of the SCSI backplane, it is used to avoid reflections from the ends of the SCSI bus. If the SCSI bus is not terminated, the signal pulses will reflect off these the open end and travel back along the bus in the other direction, which results in adding and cancelling of signal amplitudes that will distort and corrupt the SCSI singal.
31
Figure 47 LVD320/SE Terminator
NOTE: Make sure the SCSI ID number are not duplicate in the SCSI channel
2.5.3 JP6 Drive failed LED Header
JP6 connect to the SCSI controller through a 4 pin cable to report SCSI hard disk drvie failed. It is connnected with LED signal cable same as the cable listed in Table 26
Name
Drive 1 failed signal
Drive 3 failed signal
Pin
1
3
Table 29 SCSI drive failed signal pin assignment
Pin
2
4
Name
Drive 2 failed signal
Drive 4 failed signal
32
User Manual ESR 316, ESR 420, ESR 524
2.5.4 JP7 - JP10 Drive failed LED Header
JP7 to JP10 are piano switch to select the Drive SCSI ID, refer the following table to set the SCSI ID of the SCSI backplane
JP10
JP9
JP8
JP7
Drive 4
Figure 48 SCSI ID switch
Drive 3 Drive 2 Drive 1
9
10
11
12
13
6
7
4
5
8
SCSI ID
2
3
0
1
Piano Switch 1
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
14
15
OFF
ON
Table 30 SCSI ID settings
OFF
ON
ON
OFF
OFF
OFF
OFF
ON
ON
OFF
ON
ON
Piano Switch 2
OFF
OFF
ON
ON
OFF
OFF
OFF
ON
ON
ON
ON
ON
ON
OFF
ON
ON
Piano Switch 3
OFF
OFF
OFF
OFF
ON
ON
ON
ON
ON
OFF
OFF
OFF
OFF
ON
ON
ON
Piano Switch 4
OFF
OFF
OFF
OFF
NOTE: Avoid setting SCSI ID 7 for SCSI Hard Disk Drive because most of the HBA default ID is set to ID 7
NOTE: Make sure the SCSI ID number are not duplicate in the SCSI channel
2.5.5 JP11 MOSFET setup header
JP11 is for MOSFET setup, no use for end-user.
2.5.6 JP12 10 pin power connector header
JP12 10-pin power connector is connected to the system power board to provide power to the SCSI backplane and hard disk drives.
33
User Manual ESR 316, ESR 420, ESR 524
34
User Manual ESR 316, ESR 420, ESR 524 User Manual ESR 316, ESR 420, ESR 524
2.5.7 Daisy Chain the SCSI backplanes
You can daisy chain the SCSI backplanes by connecting the 68-pin connector as shown with the SCSI daisy chain cable (order# 17-1016-02A)
SCSI Cable
(17-1016-02A)
SCSI Cable to the SCSI controller (17-1016-01A)
33
Terminator
16-0117-0A)
Figure 49 Daisy Chain SCSI backplanes
SCSI Cable
17-1016-02A)
NOTE: Make sure the SCSI ID number are not duplicate in the SCSI channel
2.5.2.1 HD-68 SCSI Cable Daisy (order# 17-1016-02A)
Figure 50 SCSI cable used for daisy chain
NOTE: Use the cable provide by Enlight USA only, the cable length is designed to rprevent reflection resonance
34
User Manual ESR 316, ESR 420, ESR 524
2.8 Slim Power Board (16-0103-01A)
The ESR series chassis provides a Slim Power Board to enable easy cable management. The Slim
Power Board provides power to slim-line device such as slim FDD, slim CD-Rom and 2.5” IDE hard disk drive. The Slim Power Board has preinstall in the chassis.
JP1
1
1
JP2
1
JP3
1
JP5 JP4
1
Figure 51 Slim-line Power Board (order # 16-0103-01A)
2.8.1 JP1 4 pin Peripheral Power Connector header
Jumper 1 (JP1) connector has 4 pins and is cabled to the System Power Board JPX to provide power to the Slim Power Board through DC power cable (order # 17-1007-01A)
Refer section 2.1.X for the cable pin assignment.
2
3
Pin
1
4
Signal Name
+ 12V
Ground (COM)
Ground (COM)
+ 5V
Table 31 Peripheral Power (JP1) Pin assignment
2.8.2 JP2-JP4 4 pin mini Power Connector header
JP2 to JP4 provides DC power to slim-line device through mini 4pin DC power cable (order
# 17-1018-01A) and 4pin-to-2pin DC power cable (order # 17-1008-XX)
2
3
Pin
1
4
Signal Name
+ 12V
Ground (COM)
Ground (COM)
+ 5V
Table 32 Mini Power (JP2-JP4) Pin assignment
NOTE: The power cable used to connect the slim CD/DVD-Rom and the slim power board is included in the slim power board in JP2
35
User Manual ESR 316, ESR 420, ESR 524
36
User Manual ESR 316, ESR 420, ESR 524
35
User Manual ESR 316, ESR 420, ESR 524
2.8.3 Mini 4 pin DC power cable (17-1018-01A)
J1 and J2 of Mini 4 pin DC power cable has the same pin assignment and polarity, therefore, connect either J1 or J2 to the slim Floppy Disk PCB and connect the other end of the cable to the Slim Power Board. Refer section 3.7 for instruction.
J1 pin 2: GND pin 1: +5V.
Figure 52 Mini 4 pin DC Power cable (order # 17-1018-01A) pin 1: +5V pin 2: GND.
J2
2.8.4 4 pin-to-2 pin DC power cable (17-1008-XX)
Connect J1 to the 2.5” IDE hard disk device PCB and connect J2 to the Slim Power Board.
Refer section 3.6 for instruction. XX refer as extension number for cable length which is shown on the table below
J1 pin 1: +5V pin 2: GND.
Figure 53 4 pin-to-2 pin DC Power cable (order # 17-1008-XX) pin 1: +5V pin 2: GND.
J2
Cable Order # Cable length (inch)
17-1008-01A 4.7”
17-1008-02A 7.0”
17-1008-03A 11.5”
Table 33 4pin-to-2pin power cable list
Instruction
Connect to Drive 1. Refer to section 3.10
Connect to Drive 2. Refer to section 3.10
Connect to Drive 3. Refer to section 3.10
36
User Manual ESR 316, ESR 420, ESR 524
2.9 Slim Floppy Disk Board (Order #16-0104-01)
The ESR series chassis provides a Slim Floppy Disk Board bay that can be configured for a slim-line floppy disk drive. The floppy disk drive is mounted on a tool-less tray which allow for easy installation and removal form the chassis. Refer section 3.7 for instruction. The Slim Power Board has preinstall in the chassis.
JP1 JP2 JP3
Figure 54 Slim-line Floppy Disk Board (order # 16-0104-01A)
2.9.1 JP1 4 pin Peripheral Power Connector header
2
3
Pin
1
4
Signal Name
+ 12V
Ground (COM)
Ground (COM)
+ 5V
Table 34 Mini 4-pin Power header (JP1) Pin assignment
2.9.2 JP2 34 pin Floppy Disk Connector header
Name
GND
GND
GND
GND
GND
GND
GND
GND
Unused
GND
GND
GND
GND
Unused
GND_FDD
GND
MSEN0
Pin
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
Table 35 34-pin floppy connector pin assignment
26
28
30
32
34
18
20
22
24
8
10
12
14
16
Pin
2
4
6
Name
FD DENSEL0
2M MEDIA
FD DRATE0 L
FD INDEX L
FD MTR0 L
FD DS1 L
FD DS0 L
FD MTR1 L
FD DIR L
FD STEP L
FD WDATA L
FD WGATE L
FD TRK0 L
FD WP L
FD RDATA L
FD HDSEL L
FD DSKCHG L
37
User Manual ESR 316, ESR 420, ESR 524
38
User Manual ESR 316, ESR 420, ESR 524 User Manual ESR 316, ESR 420, ESR 524
2.9.2.1 34pin Floppy Disk Drive cable (07-1004-01A)
37
Figure55 34pin FDD cable (order # 17-1004-01A)
2.9.3 JP3 26 pin Slim-line Floppy Drive Connector Header
Name
+ 5V
+ 5V
+ 5V
N.C.
HD (HIGH: HD)
N.C.
MODE SELECT
GND
GND
GND
GND
GND
GND
Pin
1
3
5
7
9
11
13
15
17
19
21
23
25
Pin
2
4
6
8
10
12
14
16
18
20
22
24
26
Name
INDEX
DRIVE SELECT 0
DISK CHANGE
READY
MOTOR ON
DIRECTION SELECT
STEP
IDE SDD <14>
IDE SDD <15>
TRACK 00
WRITE PROTECT
READ DATA
SIDE ONE SELECT
Table 36 26-pin slim-line floppy drive connector pin assignment
2.9.3.1 26 pin Slim-line Floppy Drive flat cable (17-1019-01A)
Figure 56 26-pin Slim-line FDD flat cable (order # 17-1019-01A)
38
User Manual ESR 316, ESR 420, ESR 524
2.10 Slim CD/DVD-Rom Board (16-0105-01)
The ESR series chassis provides a slim-line CD/DVD-Rom bay that can be configured for either
CDROM or DVD. The peripheral drive is mounted on a tool-less tray which allow for easy installation and removal form the chassis. Refer section 3.8 for instruction. The following table defines the connector pin assignments on the slim CD/DVD-Rom Board. This board is located in the accessories box.
JP1
JP2
JP3
JP4
JP5
Figure xx Slim CD/DVD-Rom Board (order # 16-0105-01A)
2.10.1 JP1 40pin IDE head pin assignment
Jumper 1 (JP1) connector has 40 pins and is cabled to the IDE cable. The PCB support cable select only so Master/Slave is determined by the IDE cable.
Name
RST IDE S L
IDE SDD <7>
IDE SDD <6>
IDE SDD <5>
IDE SDD <4>
IDE SDD <3>
IDE SDD <2>
IDE SDD <1>
IDE SDD <0>
GND
IDE SDDREQ
IDE SDIOW L
IDE SDLOR L
IDE SIORDY
IDE SDDACK L
IDE IDE S
IDE SDA<1>
IDE SDA<0>
IDE SDCS0 L
IDE SEC HD ACT L
Table 37. 40 pin IDE connector pinout (JP1)
21
23
25
27
15
17
19
29
31
33
35
37
39
7
9
11
13
Pin
1
3
5
22
24
26
28
16
18
20
30
32
34
36
38
40
8
10
12
14
Pin
2
4
6
Name
GND
IDE SDD <8>
IDE SDD <9>
IDE SDD <10>
IDE SDD <11>
IDE SDD <12>
IDE SDD <13>
IDE SDD <14>
IDE SDD <15>
Unused
GND
GND
GND
IDEP ALE H
GND
NC IDEIO16 L
NC CBL DET S
IDE SDA<2>
IDE SDCS1 L
GND
39
User Manual ESR 316, ESR 420, ESR 524
40
User Manual ESR 316, ESR 420, ESR 524
39
User Manual ESR 316, ESR 420, ESR 524
2.10.2 One-to-One IDE cable (order # 17-1003-XX)
Connect (J1) connector to the server board and J2 to the slim CD/DVD-Rom Board. XX refer as extension number for cable length which is shown on the table below
J1
1
1
J2
Cable Order # Cable length (inch)
17-1003-01A 33.5”
17-1003-02A 27.5”
17-1003-03A 25.5”
17-1003-04A 21.5”
Table 38 40-pin single drvie IDE cable list
Instruction
Connect to the Slim CD/DVD-Rom Board
Connect to Drive 1. Refer to section 3.10
Connect to Drive 2. Refer to section 3.10
Connect to Drive 3. Refer to section 3.10
2.10.3 Two Drives IDE cable (order # 17-1017-01A)
The 33 inch long Two Drive IDE cable is used for IDE channel that require both the Master and Slave Drive, it is compliant with ATA 5.0 Standard for cable select setting. Connect (J1) connector to the server board and J2 to the Slave Drive and J3 to the Master Drive. The length between J2 and J3 is 10 inch
1
BLUE
Figure 58 Single drive IDE cable
J2
1
BLACK
J3
1
J1
BLUE
Figure 59 Two drive IDE cable (order # 17-1017-01A)
GREY
NOTE: All IDE cable used in the ESR-Series are high density and high quality
80-conductor Ultra DMA cables
BLACK
40
User Manual ESR 316, ESR 420, ESR 524
2.10.2 JP2 Power Input header pin assignment
Require to connect to the power source to power up the Slim CD/DVD Rom. Refer section
3.6 for instruction.
2
3
4
Pin
1
Name
+12V
GND
GND
+5V
Table 39. Mini-4 pin drive power connector header pinout (JP2)
NOTE: The power cable used to connect the slim CD/DVD-Rom and the slim power board is included in the slim power board. Refer to section 2.8.2
2.10.3 JP3 2.54mm pitch Audio output header
The Slim CD/DVD-Rom Board provides with analogue audio output connector that can be connected to an audio amplifier or a sound card’s internal audio input connector using a sound cable terminated with a standard MPC-3 type, 4 pin connector.
2
3
4
Pin
1
Name
Left Signal
GND
GND
Right Signal
Table 40. 2.54mm pitch Audio Output connector header pinout
NOTE: The audio output cable is not included with the ESR series chassis
2.10.4 JP4 2.0mm pitch Audio output header
3
4
Pin
1
2
Name
Left Signal
GND
GND
Right Signal
Table 41.2.0mm pitch Audio Output connector header pinout (JP2)
NOTE: The audio output cable is not included with the ESR series chassis
41
User Manual ESR 316, ESR 420, ESR 524
2.10.5 JP5 50 pin Direct Plug Connector
JP5 is the 50pin Direct Plug slim CD/DVD-Rom connector that provides interconnect between the drive, power supply and server board. The 50 pin direct plug connector pinout is listed in the table below. Refer Section 3.8 for installation instruction.
Name
RSV LCM
RSV GND
RST IDE S L
IDE SDD <7>
IDE SDD <6>
IDE SDD <5>
IDE SDD <4>
IDE SDD <3>
IDE SDD <2>
IDE SDD <1>
IDE SDD <0>
GND
IDE SDLOW L
IDE SIORDY
IRQ IDE S
IDE SDA<1>
IDE SDA<0>
IDE SDCS0 L
IDE SEC HD ACT L
+5V
+5V
GND
GND
IDEP ALE H
23
25
27
15
17
19
21
5
7
9
11
13
Pin
1
3
39
41
43
45
29
31
33
35
37
47
49
Pin
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
Table 43 50-pin slim-line CD-Rom drive connector pinout (JP5)
Name
RSV RCM
GND
IDE SDD <8>
IDE SDD <9>
IDE SDD <10>
IDE SDD <11>
IDE SDD <12>
IDE SDD <13>
IDE SDD <14>
IDE SDD <15>
IDE SDDREQ
IDE SDIOR L
GND
IDE SDDACK L
NC IDEIO16 L
NC CBL DET S
IDE SDA<2>
IDE SDCS1 L
+5V
+5V
+5V
GND
GND
GND
42
User Manual ESR 316, ESR 420, ESR 524
2.10.2 JP2 Power Input header pin assignment
Require to connect to the power source to power up the Slim CD/DVD Rom. Refer section
3.6 for instruction.
2
3
4
Pin
1
Name
+12V
GND
GND
+5V
Table 39. Mini-4 pin drive power connector header pinout (JP2)
NOTE: The power cable used to connect the slim CD/DVD-Rom and the slim power board is included in the slim power board. Refer to section 2.8.2
2.10.3 JP3 2.54mm pitch Audio output header
The Slim CD/DVD-Rom Board provides with analogue audio output connector that can be connected to an audio amplifier or a sound card’s internal audio input connector using a sound cable terminated with a standard MPC-3 type, 4 pin connector.
2
3
4
Pin
1
Name
Left Signal
GND
GND
Right Signal
Table 40. 2.54mm pitch Audio Output connector header pinout
NOTE: The audio output cable is not included with the ESR series chassis
2.10.4 JP4 2.0mm pitch Audio output header
3
4
Pin
1
2
Name
Left Signal
GND
GND
Right Signal
Table 41.2.0mm pitch Audio Output connector header pinout (JP2)
NOTE: The audio output cable is not included with the ESR series chassis
41
User Manual ESR 316, ESR 420, ESR 524
2.10.5 JP5 50 pin Direct Plug Connector
JP5 is the 50pin Direct Plug slim CD/DVD-Rom connector that provides interconnect between the drive, power supply and server board. The 50 pin direct plug connector pinout is listed in the table below. Refer Section 3.8 for installation instruction.
Name
RSV LCM
RSV GND
RST IDE S L
IDE SDD <7>
IDE SDD <6>
IDE SDD <5>
IDE SDD <4>
IDE SDD <3>
IDE SDD <2>
IDE SDD <1>
IDE SDD <0>
GND
IDE SDLOW L
IDE SIORDY
IRQ IDE S
IDE SDA<1>
IDE SDA<0>
IDE SDCS0 L
IDE SEC HD ACT L
+5V
+5V
GND
GND
IDEP ALE H
23
25
27
15
17
19
21
5
7
9
11
13
Pin
1
3
39
41
43
45
29
31
33
35
37
47
49
Pin
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
Table 43 50-pin slim-line CD-Rom drive connector pinout (JP5)
Name
RSV RCM
GND
IDE SDD <8>
IDE SDD <9>
IDE SDD <10>
IDE SDD <11>
IDE SDD <12>
IDE SDD <13>
IDE SDD <14>
IDE SDD <15>
IDE SDDREQ
IDE SDIOR L
GND
IDE SDDACK L
NC IDEIO16 L
NC CBL DET S
IDE SDA<2>
IDE SDCS1 L
+5V
+5V
+5V
GND
GND
GND
42
User Manual ESR 316, ESR 420, ESR 524
2.11 DB 9 Cable Pin Assignment (order # 17-1001-XX)
The ESR-Series chassis provide with DB9 Serial ports which allows administrators access the system and.or controll external device through a serial console session using UNIX commands such as hyper terminal. The pin assignment of J1 is tabled on section 1.3.2. However, there are at least two types of pin assignment on J2, which are describe on the tables below.
10
J1
J2
1
Figure 60 DB9 Serial Cable (order # 17-1001-XXX)
2.11.1 DB 9 Cable Pin Assignment for standard DB9 specification (order # 17-1001-01A)
The ESR-Series chassis provide with the standard serial port DB9 specification cable. The pin assignment of J2 is shwon on the table below.
Name
DCD (Data Carrier Detect)
RXD (Receive Data)
TXD (Transmit Data)
DTR (Data Terminal Ready)
GND
Pin
1
3
5
7
9
Table 43.DB9 cable pin out for 17-1001-01A (JP2)
Pin
2
4
6
8
10
Name
DSR (Data Set Ready)
RTS (Request To Send)
CTS (Clear To Send)
RI (Ring Indicator)
Key
2.11.2 DB 9 Cable Pin Assignment for inter S875WP1-E board (order # 17-1001-02A)
The intel S875WP-E server board has its unique DB9 pin assignment header that is different than the regular DB 9 serial specification. If you are using the intel S875WDP-E, you need to order this DB9 cable . The cable pin assignment of 17-1001-02A is shown below.
Name
DCD (Data Carrier Detect)
TXD (Transmit Data)
GND
RTS (Request To Send)
RI (Ring Indicator)
Pin
1
3
5
7
9
Table 44.DB9 cable pin out for 17-1001-02A (JP2)
6
8
10
Pin
2
4
Name
RXD (Receive Data)
DTR (Data Terminal Ready)
DSR (Data Set Ready)
CTS (Clear To Send)
Key
NOTE: If you see another DB-9 pin assignment which is different than the above two pinout. Please email this information to the author at [email protected]
43
User Manual ESR 316, ESR 420, ESR 524
44
User Manual ESR 316, ESR 420, ESR 524
43
User Manual ESR 316, ESR 420, ESR 524
2.12 Slim-line 2.5” to 3.5” IDE Drive Adapter (order # 16-0118-01A)
The ESR-Series chassis provide with Slim-line 2.5” to 3.5” IDE drive Adapter. PIN 1 location of the adapter is shown on the figure below. See section 3.5 for instruction on installing a slim-line
IDE Hard Disk Drive
PIN 1
PIN 1
JP2
JP1
Figure 61 2.5” to 3.5” IDE adapter (order # 18-0007-01A)
2.12.1 JP1 44pin 2.5” IDE head pin assignment
1
Figure 62 JP1 connector layout, 2.5” to 3.5” IDE adapter
Name
RST IDE S L
IDE SDD <7>
IDE SDD <6>
IDE SDD <5>
IDE SDD <4>
IDE SDD <3>
IDE SDD <2>
IDE SDD <1>
IDE SDD <0>
GND
IDE SDDREQ
IDE SDIOW L
IDE SDLOR L
IDE SIORDY
IDE SDDACK L
IDE IDE S
IDE SDA<1>
IDE SDA<0>
IDE SDCS0 L
IDE SEC HD ACT L
+5V (LOGIC)
GND
Pin
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
Pin
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
Table 45. 44-pin 2.5 inch adapter IDE connector pinout (JP1)
Name
GND
IDE SDD <8>
IDE SDD <9>
IDE SDD <10>
IDE SDD <11>
IDE SDD <12>
IDE SDD <13>
IDE SDD <14>
IDE SDD <15>
Unused
GND
GND
GND
IDEP ALE H
GND
NC IDEIO16 L
NC CBL DET S
IDE SDA<2>
IDE SDCS1 L
GND
+5V (MOTOR)
RESERVED
43
GND
+5V
44
User Manual ESR 316, ESR 420, ESR 524
2.12.2 JP2 2+40pin IDE head pin assignment
JP2 will match regular 40pin IDE cable as shown on Section 2.10.2 and Section 2.10.3.
Install cable shown on section 2.8.4, with Gound signal on A and +5V on B,
A 1
39
B
Figure 63 JP2 connector layout
Name
GND
RST IDE S L
IDE SDD <7>
IDE SDD <6>
IDE SDD <5>
IDE SDD <4>
IDE SDD <3>
IDE SDD <2>
IDE SDD <1>
IDE SDD <0>
GND
IDE SDDREQ
IDE SDIOW L
IDE SDLOR L
IDE SIORDY
IDE SDDACK L
IDE IDE S
IDE SDA<1>
IDE SDA<0>
IDE SDCS0 L
IDE SEC HD ACT L
Table 46. 40+2 pin IDE connector pinout (JP2)
15
17
19
21
23
9
11
13
5
7
1
3
Pin
A
33
35
37
39
25
27
29
31
16
18
20
22
24
10
12
14
6
8
2
4
Pin
B
34
36
38
40
26
28
30
32
Name
+5V
GND
IDE SDD <8>
IDE SDD <9>
IDE SDD <10>
IDE SDD <11>
IDE SDD <12>
IDE SDD <13>
IDE SDD <14>
IDE SDD <15>
Unused
GND
GND
GND
IDEP ALE H
GND
NC IDEIO16 L
NC CBL DET S
IDE SDA<2>
IDE SDCS1 L
GND
Connecting the adapter to the drive incorrectly can serverly damage or destroy your hard disk drive. The location of PIN 1 on the hard drive depends on the model of hard drive you are using, If you are unsure of the location of PIN 1 on your hard drive, contact the hard disk drive manufacturer before attempting to connect the drive.
45
User Manual ESR 316, ESR 420, ESR 524
46
User Manual ESR 316, ESR 420, ESR 524 User Manual ESR 316, ESR 420, ESR 524
2.13 System Fan Edge Adapter Board (order # 16-0106-01A)
The ESR series support two hot-swap system fans and the interconnect between the fan and the system monitor board is through the Fan Edge Adapter Board. The fan is connected the edge board through the 3 pin connector (4 pin connector if it is PWM fan)
PIN 1
Edge board gold finger
Figure 64 System Fan Edge Adapter Board
2
3
Pin
1
4
Signal Name
Gound
+12V
Fan Tach out Signal
Fan PWM out Signal
Table 47 Fan edge board connector pin assignment
PIN 4
45 46
User Manual ESR 316, ESR 420, ESR 524
Chapter 3. Integration Steps
This section provides procedures for installing, removing and replacing components and assemblies in your ESR seires storage system:
Unless otherwise noted, each procedure assumes the following conditions:
You have read the safety instructions of this user manual. Always follow the instructions closely. While working on the system, do not attempt to service the system except as explained in this guide and elsewhere in Enlight Corp USA documentation.
You can install, replace or reinstall a part by performing the removal procedure in reverse order, unless additional information is provided.
Recommended Tools
Phillips-head screwdriver
5mm nut driver
Wrist grounding strap
Standard flat-blade screwdriver
The Power Button on the front panel DOES NOT turn off the AC power, you
MUST unplug the AC power cords
To maintain and ensure regulation compliance, the fully integrated system should be tested, certified and/or documented to illustrate compliance to the regional regulations and laws for where the product will be sold. The peripherals such as hard disk drive,
CD-Rom and add-in-cards choosen for integration should have individual regulatory approvals.
User Manual ESR 316, ESR 420, ESR 524
3.1 Removing and Replacing the top cover
WARNING: DO NOT USE TOP THUMB SCREW TO LIFT CHASSIS! These thumb screws are used only to install and remove the top cover only!
2
3.1.1 Removing the top cover
1
Ensure that the work surface is flat and clean to prevent scratching the computer cover
3
2
Loosen the two thumbscrews that secure the back cover to the chassis. If the thumbscrew is too tight, use the Philip-head screw drivers to untighten it as shwon in figure xxx
3
Slide the back cover backward and grasp the cover at both ends.
Figure 65 Loosen the back cover thumbscrews
4
Remove the back cover and put it aside and away from the immediate working area as shwon on figure xxx
4
5
Untigthen six flat head #6-32 6mm screws of the front cover as shown on the figure.
6
Pull the front cover up and put it aside and away from the immediate working area
Figure66 Removing the back top cover
5
7
Pull the front cover up and put it aside and away from the immediate working area
#6-32 FH screws (order #09-1002-01A)
6
3.1.2 Replacing the top cover
1
2
Ensure that no tools or parts are left inside the system and that any cables are routed so that they will not be damaged by the cover.
Reserve steps of section 3.1.1
47
Figure 67 Removing the front top cover
48
User Manual ESR 316, ESR 420, ESR 524
Chapter 3. Integration Steps
This section provides procedures for installing, removing and replacing components and assemblies in your ESR seires storage system:
Unless otherwise noted, each procedure assumes the following conditions:
You have read the safety instructions of this user manual. Always follow the instructions closely. While working on the system, do not attempt to service the system except as explained in this guide and elsewhere in Enlight Corp USA documentation.
You can install, replace or reinstall a part by performing the removal procedure in reverse order, unless additional information is provided.
Recommended Tools
Phillips-head screwdriver
5mm nut driver
Wrist grounding strap
Standard flat-blade screwdriver
The Power Button on the front panel DOES NOT turn off the AC power, you
MUST unplug the AC power cords
To maintain and ensure regulation compliance, the fully integrated system should be tested, certified and/or documented to illustrate compliance to the regional regulations and laws for where the product will be sold. The peripherals such as hard disk drive,
CD-Rom and add-in-cards choosen for integration should have individual regulatory approvals.
User Manual ESR 316, ESR 420, ESR 524
3.1 Removing and Replacing the top cover
WARNING: DO NOT USE TOP THUMB SCREW TO LIFT CHASSIS! These thumb screws are used only to install and remove the top cover only!
2
3.1.1 Removing the top cover
1
Ensure that the work surface is flat and clean to prevent scratching the computer cover
3
2
Loosen the two thumbscrews that secure the back cover to the chassis. If the thumbscrew is too tight, use the Philip-head screw drivers to untighten it as shwon in figure xxx
3
Slide the back cover backward and grasp the cover at both ends.
Figure 65 Loosen the back cover thumbscrews
4
Remove the back cover and put it aside and away from the immediate working area as shwon on figure xxx
4
5
Untigthen six flat head #6-32 6mm screws of the front cover as shown on the figure.
6
Pull the front cover up and put it aside and away from the immediate working area
Figure66 Removing the back top cover
5
7
Pull the front cover up and put it aside and away from the immediate working area
#6-32 FH screws (order #09-1002-01A)
6
3.1.2 Replacing the top cover
1
2
Ensure that no tools or parts are left inside the system and that any cables are routed so that they will not be damaged by the cover.
Reserve steps of section 3.1.1
47
Figure 67 Removing the front top cover
48
User Manual ESR 316, ESR 420, ESR 524
3.2 Installing the System Board
Before you perform this procedure, read the safety instructions of this manuel
See safety instructions in your System Board Information document.
Make sure the bolt standoffs install on the right position. Failure to do so may damage the system board installed
1
Remove the top cover (see section 3.1.1)
2
Install the I/O gasket (I/O shield) comes with the server board, position one edge so the groove is outside the backpanel wall and push it to the I/O opening until it is seated. Make sure it snaps into place all the way round (Refer to your System
Board information document for futher instruction)
Figure 68 Installing the I/O Gasket
#6-32 bolt standoffs (order #09-1007-01A)
3
Check with your server board mounting holes’ location. Install the #6-32 bolt standoffs according to your system board mounting location. The #6-
32 bolt standoffs are located in accessories box.
4
With the standoffs installed into the correct locations, carefully place the system board into the chassis and ensure the board I/O insert into the
I/O gasket cutout
Figure 69 Installing the bolt standoffs
#6-32 RH screws (order #09-1003-01A)
5
Tigthen and secure the system board with the round head #6-32 screw from the accessories box.
6
7
Install the Front Panel cable, Power Supply cable, and other device connectors to the system board.
(Refer to your System Board information document for futher instruction)
Close the top cover (see section 3.1.2)
49
Figure 70 Installing the system board
User Manual ESR 316, ESR 420, ESR 524
3.3 Installing Expandsion Cards
Before you perform this procedure, read the safety instructions of this manuel
See safety instructions in your Add-in-Cards Information document.
3
Figure 71 Removing the expansion-card shielding plate
Figure72 Installing the expansion-card into the system
#6-32 RH screws (order #09-1003-01A)
1
Upack the expansion card and prepare it for installation. For instructions, see the documentation accomplying the card.
2
Remove the top cover (see section 3.1.1) Disconnect cables of the system if necessary
3
Remove the expansion-card shielding plate by pushing it toward the chassis. Put it into the accessories box for future use.
4
Position the expansion-card so that the card-edge connector from the system board aligns with the expansion-card connector
Insert the card-edge connector firmly into the expansion-card connector until the card is fully seated.
5
Tigthen and secure the expansion-card with the round head #6-32 screw from the accessories box or from the package of the expansion-card
6
Reconnect the expansion-card cables, including those for the new card
7
Close the top cover (see section 3.1.2)
Figure 73 Secure the expansion-card
50
User Manual ESR 316, ESR 420, ESR 524
3.2 Installing the System Board
Before you perform this procedure, read the safety instructions of this manuel
See safety instructions in your System Board Information document.
Make sure the bolt standoffs install on the right position. Failure to do so may damage the system board installed
1
Remove the top cover (see section 3.1.1)
2
Install the I/O gasket (I/O shield) comes with the server board, position one edge so the groove is outside the backpanel wall and push it to the I/O opening until it is seated. Make sure it snaps into place all the way round (Refer to your System
Board information document for futher instruction)
Figure 68 Installing the I/O Gasket
#6-32 bolt standoffs (order #09-1007-01A)
3
Check with your server board mounting holes’ location. Install the #6-32 bolt standoffs according to your system board mounting location. The #6-
32 bolt standoffs are located in accessories box.
4
With the standoffs installed into the correct locations, carefully place the system board into the chassis and ensure the board I/O insert into the
I/O gasket cutout
Figure 69 Installing the bolt standoffs
#6-32 RH screws (order #09-1003-01A)
5
Tigthen and secure the system board with the round head #6-32 screw from the accessories box.
6
7
Install the Front Panel cable, Power Supply cable, and other device connectors to the system board.
(Refer to your System Board information document for futher instruction)
Close the top cover (see section 3.1.2)
49
Figure 70 Installing the system board
User Manual ESR 316, ESR 420, ESR 524
3.3 Installing Expandsion Cards
Before you perform this procedure, read the safety instructions of this manuel
See safety instructions in your Add-in-Cards Information document.
3
Figure 71 Removing the expansion-card shielding plate
Figure72 Installing the expansion-card into the system
#6-32 RH screws (order #09-1003-01A)
1
Upack the expansion card and prepare it for installation. For instructions, see the documentation accomplying the card.
2
Remove the top cover (see section 3.1.1) Disconnect cables of the system if necessary
3
Remove the expansion-card shielding plate by pushing it toward the chassis. Put it into the accessories box for future use.
4
Position the expansion-card so that the card-edge connector from the system board aligns with the expansion-card connector
Insert the card-edge connector firmly into the expansion-card connector until the card is fully seated.
5
Tigthen and secure the expansion-card with the round head #6-32 screw from the accessories box or from the package of the expansion-card
6
Reconnect the expansion-card cables, including those for the new card
7
Close the top cover (see section 3.1.2)
Figure 73 Secure the expansion-card
50
User Manual ESR 316, ESR 420, ESR 524
3.4 Install and Remove a Hard Disk Drive
Before you perform this procedure, read the safety instructions of this manuel
NOTICE: Extra care must be taken when handling and storing the hard drives. The carriers provide some protection, but the hard drives can be damaged by rough handling. When removing the hard drives from the storage system, place them on a padded surface. Never drop the hard drives.
NOTICE: To avoid damage, never leave a drive carrier partially removed from the ESR storage system. Rotating a carrier handle next to an unseated drive carrier will result in serious damage to the unseated drive carrier.
NOTICE: To avoid data loss when removing a hard drive from an active RAID array, you must first use the array management software to prepare the drive for removal. See your array management software documentation for more information.
NOTICE: Always wear a wrist grounding strap when handling equipment with static-sensitive components.
NOTICE: Hard drive bays must be populated in order to maintain system thermals. Hard drive trays must either have a hard drive or drive dummy blank installed in them.
3.4.1 Hot Swap Hard Disk Drive Trays (order # 03-1007-01A)
All the system configured with the ESR series storage chassis configure with hot swap backplane, each hard drive must be mounted to a hot swap drive tray, making insertion and extraction of the drive from the chassis very simple. Each drive tray has its own dual purpose latching mechanism made of high quality aluminum alloy which is used to both insert/extract drives from the chassis and lock the tray in place. Each drive tray supports a pair of light pipe providing drive status/activity and drive failed indicator, located on the backplane, to be viewable from the front of the chassis
1
5
NOTICE: Depending on the controller used, SATA hard disk drives may not report errors using the drive’s status indicator. Visit www.enlightusa.com for compatibile SATA controller list that support drive’s status indicator.
2
3
1
High quality aluminum alloy latching handle
4
2
Push in release mechanism
3
Blue color light pipe
4
Red Color light pipe
5
EMI fingers
Figure 74 Hot Swap Hard Disk Drive Trays
51
User Manual ESR 316, ESR 420, ESR 524
Front Panel Button and LED functions
1
2
3
Aluminum Handle
Release Button
Blue Color Light Pipe
4
5
Red Color Light Pipe
EMI fingers
To insert/extract drives from the chassis and lock the tray in place
To release the aluminum handle from the locking position
No light indicates no hard drive in that tray
Solid blue light indicates the hard drive is present
Blinking blue light indicates the hard disk drive has activity
Solid red light indicates the hard drive failed in that tray
To reduce EMI/EMC emission from the chassis
3.4.2 Before You Begin
Before attempting to remove or install a drive while the system is running, see the documentation for the RAID controller card ensure that the system is configured correctly to support hot-pluggable drive removal and insertion.
3.4.3 Removing a Hard Disk Drive
3
1
Use your array management software to prepare the drive for removal.
2
3
Wait until the LED indicators on the drive carrier stop flashing.
Push the button in the front of the hard-drive carrier as shown
Figure 75 Push the Hard Dirve tray button
4
Open the hard-drive carrier handle.
5
Gently but firmly pull the hard-drive carrier from its slot.
4 5
Figure 76 Remove the HDD tray from the chassis
52
User Manual ESR 316, ESR 420, ESR 524
3.4 Install and Remove a Hard Disk Drive
Before you perform this procedure, read the safety instructions of this manuel
NOTICE: Extra care must be taken when handling and storing the hard drives. The carriers provide some protection, but the hard drives can be damaged by rough handling. When removing the hard drives from the storage system, place them on a padded surface. Never drop the hard drives.
NOTICE: To avoid damage, never leave a drive carrier partially removed from the ESR storage system. Rotating a carrier handle next to an unseated drive carrier will result in serious damage to the unseated drive carrier.
NOTICE: To avoid data loss when removing a hard drive from an active RAID array, you must first use the array management software to prepare the drive for removal. See your array management software documentation for more information.
NOTICE: Always wear a wrist grounding strap when handling equipment with static-sensitive components.
NOTICE: Hard drive bays must be populated in order to maintain system thermals. Hard drive trays must either have a hard drive or drive dummy blank installed in them.
3.4.1 Hot Swap Hard Disk Drive Trays (order # 03-1007-01A)
All the system configured with the ESR series storage chassis configure with hot swap backplane, each hard drive must be mounted to a hot swap drive tray, making insertion and extraction of the drive from the chassis very simple. Each drive tray has its own dual purpose latching mechanism made of high quality aluminum alloy which is used to both insert/extract drives from the chassis and lock the tray in place. Each drive tray supports a pair of light pipe providing drive status/activity and drive failed indicator, located on the backplane, to be viewable from the front of the chassis
1
5
NOTICE: Depending on the controller used, SATA hard disk drives may not report errors using the drive’s status indicator. Visit www.enlightusa.com for compatibile SATA controller list that support drive’s status indicator.
2
3
1
High quality aluminum alloy latching handle
4
2
Push in release mechanism
3
Blue color light pipe
4
Red Color light pipe
5
EMI fingers
Figure 74 Hot Swap Hard Disk Drive Trays
51
User Manual ESR 316, ESR 420, ESR 524
Front Panel Button and LED functions
1
2
3
Aluminum Handle
Release Button
Blue Color Light Pipe
4
5
Red Color Light Pipe
EMI fingers
To insert/extract drives from the chassis and lock the tray in place
To release the aluminum handle from the locking position
No light indicates no hard drive in that tray
Solid blue light indicates the hard drive is present
Blinking blue light indicates the hard disk drive has activity
Solid red light indicates the hard drive failed in that tray
To reduce EMI/EMC emission from the chassis
3.4.2 Before You Begin
Before attempting to remove or install a drive while the system is running, see the documentation for the RAID controller card ensure that the system is configured correctly to support hot-pluggable drive removal and insertion.
3.4.3 Removing a Hard Disk Drive
3
1
Use your array management software to prepare the drive for removal.
2
3
Wait until the LED indicators on the drive carrier stop flashing.
Push the button in the front of the hard-drive carrier as shown
Figure 75 Push the Hard Dirve tray button
4
Open the hard-drive carrier handle.
5
Gently but firmly pull the hard-drive carrier from its slot.
4 5
Figure 76 Remove the HDD tray from the chassis
52
User Manual ESR 316, ESR 420, ESR 524
3.4.4 Installing or removing a Hard Disk Drive from its Carrier
NOTICE: To avoid damage, never leave a drive carrier partially removed from the ESR storage system. Rotating a carrier handle next to an unseated drive carrier will result in serious damage to the unseated drive carrier.
Figure 77 Remove the drive dummy blank
1
Remove the hard drvie tray from the system (see section 3.4.3)
2
Remove the hard drive dummy blank from the carrier by remove the four Pan Head screws
(order #09-1009-01A) that secure the drive dummy blank
#6-32 PH screws (order #09-1009-01A)
3
Remove the drive dummy blank from the carrier and put it aside for future use
4
Insert the replacement hard disk drive into the carrier
5
Insert the four Pan Head screws and secure the hard disk drive to the carrier
6
Gentlly insert the hard disk tray into the drive bay
Figure 78 Install the Hard Disk Drive into the carrier
7
Close the alunimum handle to lock it in place
User Manual ESR 316, ESR 420, ESR 524
6
Figure 79 Insert the hard disk drive tray to the system
53 54
User Manual ESR 316, ESR 420, ESR 524 User Manual ESR 316, ESR 420, ESR 524
3.5 Installing or removing a Slim IDE Hard Disk Drive
All the system configured with the ESR series storage chassis can support up to 3 slim-line 2.5”
IDE hard drive. Refer section 2.8.4, section 2.10.2 and section 2.10.3 for cable selection guide.
The location refer to the drive number is shown on the figure below.
Before you perform this procedure, read the safety instructions of this manuel
NOTICE: Extra care must be taken when handling and storing the hard drives. Hard drives can be damaged by rough handling. When removing the hard drives from the storage system, place them on a padded surface. Never drop the hard drives.
Connecting the adapter to the drive incorrectly can serverly damage or destroy your hard disk drive. The location of PIN 1 on the hard drive depends on the model of hard drive you are using, If you are unsure of the location of PIN 1 on your hard drive, contact the hard disk drive manufacturer before attempting to connect the drive.
Drive 1 Drive 2 Drive 3
53
Figure 80 2.5” slimline hard disk drive location
#6-32 FH screws (order #09-1002-01A)
Figure 81 Remove the slim-line HDD mounting bracket
1
Unpack the 2.5” slim-line hard disk drive and prepare it for installation. For instructions, see the documentation accomplying the hard drive
2
3
Remove the top cover (see section 3.1.1) Disconnect cables of the system if necessary
Remove the slim-line hard drvie tray (order #06-
0115-01A) from the system by removing the
#6-32 FH screws (order # 09-1002-01A).
NOTICE: If you need to install the HDD on Drive
3 location, you need to remove the FDD adapter board first, refer section 3.6 for instruction
54
User Manual ESR 316, ESR 420, ESR 524
4
Place and aligh the slim-line hard drive to its tray and mount it with four M3 screws as shown
(order # 09-1013-01A)
Figure 82 Mount the slim HDD to the HDD tray
Pin1
M3 FH screws (order #09-1013-01A)
Pin1
Ground
6
5
Install the 2.5” to 3.5” Slim IDE adapter into the system (order #16-
0118-01A). Make sure the PIN 1 of the adapter match PIN 1 of the slim-line hard drive
Reserve step to install the hard disk drive back to the chassis.
+5V
7
Connect the 40pin IDE cable and 2 pin power cable. Refer section 2.8 and section 2.10
8
Make sure no tools or parts are left in the chassis and close the top cover (section 3.1.2)
Figure 83 Install the 2.5” to 3.5” IDE adapter
3.5.1 Configure 2.5” Slim Hard Disk Drive Master and Slave Drive
NOTICE: See your 2.5” slim hard drive documentation for Master and Slave configuration.
The sample jumper setting shown below is for your reference only.
43
1
C A
D B
KEY
Jumpers
Figure 84 Example jumper setting for 2.5” IDE hard disk drive
Master configuration is obtained by setting jumpers B, C & D open (no jumper). Slave configuration is obtained by setting jumpers C-D.
55 56
User Manual ESR 316, ESR 420, ESR 524
BLANK
55 56
User Manual ESR 316, ESR 420, ESR 524
3.6 Installing a Slim Floppy Disk Drive
Before you perform this procedure, read the safety instructions of this manuel
3.6.1 Installing a Slim Floppy Disk Drive
All the system configured with the ESR series storage chassis can support slim-line Floppy Disk
Drive. Refer section 2.9 for adapter and cable information. The slim FDD adapter and 34 pin FDD cable may have already been preinstalled in the system
#6-32 FH screws (order #09-1002-01A)
4
3
1
Unpack the slim-line floppy disk drive and prepare it for installation. For instructions, see the documentation accomplying the floppy drive
2
Remove the top cover (see section 3.1.1) Disconnect cables of the system if necessary
3
Figure 85 Remove the FDD cover plate and mounting bracket
Remove the FDD cover plate (order # 06-0110-
01A)by unscrew the two #6-32 FH screws (order #
09-1002-01A) as shown
4
Remove the slim FDD mounting rail by untighten the two #6-32 FH screws (order # 09-1002-01A) as shwon
5
6
Figure 86 Connect 26-pin cable into the FDD adapter board
M3 RH screw
7
6
Put the slim FDD cover plate and the screws in the accessories box
Connect the high density 26 pin flat cable into the slim-line FDD adapter board with the orientation as shown.
7
Install the slim-line FDD adapter board into the chassis as shown with the two M3 Round Head screws (order #09-1012-01A that come with the
Figure 87 Mount the slim FDD adapter board into the chassis
57
User Manual ESR 316, ESR 420, ESR 524
8
8
Snap in the slim FDD mounting rail latch fingers into the slim FDD mounting holes as shown
9
Carefully put the assemblied slim FDD with rail back into the chassis and secure it with the two FH screws
Figure 88 Assembly the FDD into the mounting bracket
9
10
Connect the high density 26 pin flat cable into the slim FDD drive and push in the placement latch to secure the drive
A
Open the connector on the rear of the FDD by pulling up on the connector cover
B
Insert one end of the 26 pin flat cable end into the connector
C
Push down on the connector cover to lock the cable down into place.
10
Figure 89 Install the slimline FDD into the chassis
11
Install the 34 pin FDD cable (order #17-1004-01A) from the slim FDD adapter board and the mini 4 pin cable
(order # 17-1018-01A)
12
Make sure no tools or parts are left in the chassis and close the top cover (section 3.1.2)
A
Figure 90 Connect the 26-pin high density cable into the slimline FDD
B
C
58
User Manual ESR 316, ESR 420, ESR 524
3.6 Installing a Slim Floppy Disk Drive
Before you perform this procedure, read the safety instructions of this manuel
3.6.1 Installing a Slim Floppy Disk Drive
All the system configured with the ESR series storage chassis can support slim-line Floppy Disk
Drive. Refer section 2.9 for adapter and cable information. The slim FDD adapter and 34 pin FDD cable may have already been preinstalled in the system
#6-32 FH screws (order #09-1002-01A)
4
3
1
Unpack the slim-line floppy disk drive and prepare it for installation. For instructions, see the documentation accomplying the floppy drive
2
Remove the top cover (see section 3.1.1) Disconnect cables of the system if necessary
3
Figure 85 Remove the FDD cover plate and mounting bracket
Remove the FDD cover plate (order # 06-0110-
01A)by unscrew the two #6-32 FH screws (order #
09-1002-01A) as shown
4
Remove the slim FDD mounting rail by untighten the two #6-32 FH screws (order # 09-1002-01A) as shwon
5
6
Figure 86 Connect 26-pin cable into the FDD adapter board
M3 RH screw
7
6
Put the slim FDD cover plate and the screws in the accessories box
Connect the high density 26 pin flat cable into the slim-line FDD adapter board with the orientation as shown.
7
Install the slim-line FDD adapter board into the chassis as shown with the two M3 Round Head screws (order #09-1012-01A that come with the
Figure 87 Mount the slim FDD adapter board into the chassis
57
User Manual ESR 316, ESR 420, ESR 524
8
8
Snap in the slim FDD mounting rail latch fingers into the slim FDD mounting holes as shown
9
Carefully put the assemblied slim FDD with rail back into the chassis and secure it with the two FH screws
Figure 88 Assembly the FDD into the mounting bracket
9
10
Connect the high density 26 pin flat cable into the slim FDD drive and push in the placement latch to secure the drive
A
Open the connector on the rear of the FDD by pulling up on the connector cover
B
Insert one end of the 26 pin flat cable end into the connector
C
Push down on the connector cover to lock the cable down into place.
10
Figure 89 Install the slimline FDD into the chassis
11
Install the 34 pin FDD cable (order #17-1004-01A) from the slim FDD adapter board and the mini 4 pin cable
(order # 17-1018-01A)
12
Make sure no tools or parts are left in the chassis and close the top cover (section 3.1.2)
A
Figure 90 Connect the 26-pin high density cable into the slimline FDD
B
C
58
User Manual ESR 316, ESR 420, ESR 524
3.7 Installing a Slim CD/DVD-Rom Drive
Before you perform this procedure, read the safety instructions of this manuel
All the system configured with the ESR series storage chassis can support slim-line CD/DVD-
Rom Drive. Refer section 2.10 for adapter and cable information.
#6-32 FH screws (order #09-1002-01A)
1
Upack the slim CD/DVD-Rom drive and prepare it for installation. For instructions, see the documentation accomplying the floppy drive
5
3
2
Remove the top cover (see section 3.1.1) Disconnect cables of the system if necessary
3
Remove the CD/DVD-Rom cover plate (order #
06-0112-01A)by unscrew the two #6-32 FH screws
(order # 09-1002-01A) as shown
Figure 91 Remove the CD-Rom covering plate and mounting bracket
4
Put the slim CD/DVD-Rom cover plate and the screws in the accessories box
8
5
Remove the slim CD/DVD-Rom mounting bracket by untighten the two #6-32 FH screws (order # 09-
1002-01A) as shwon
7
Figure 92 Install the slim-line CD-Rom into the mounting bracket and adapter board
6
Take out the slim CD/DVD-Rom adapter board (order
# 16-0105-01A) from the accessories box. Connect the adapter board to the slim CD/DVD-Rom drive.
7
Secure the adapter board to the slim CD/DVD-Rom drive by the two screws provided.
8
Insert the slim CD/DVD-Rom drive into the mounting bracket and snap in the fingers into the slim CD/DVD-
Rom mounting holes
59
User Manual ESR 316, ESR 420, ESR 524
9
Figure 93 Install the slim CD-Rom into the chassis
9
Carefully put the assemblied slim CD/DVD-Rom drive back into the chassis and secure it with the two FH screws
10
Connect the 40pin IDE cable (order # 17-1003-
01A) to the adapter board and connect the slim power board mini 4 pin connector to the adater board
11
Make sure no tools or parts are left in the chassis and close the top cover (section 3.1.2)
60
User Manual ESR 316, ESR 420, ESR 524
3.7 Installing a Slim CD/DVD-Rom Drive
Before you perform this procedure, read the safety instructions of this manuel
All the system configured with the ESR series storage chassis can support slim-line CD/DVD-
Rom Drive. Refer section 2.10 for adapter and cable information.
#6-32 FH screws (order #09-1002-01A)
1
Upack the slim CD/DVD-Rom drive and prepare it for installation. For instructions, see the documentation accomplying the floppy drive
5
3
2
Remove the top cover (see section 3.1.1) Disconnect cables of the system if necessary
3
Remove the CD/DVD-Rom cover plate (order #
06-0112-01A)by unscrew the two #6-32 FH screws
(order # 09-1002-01A) as shown
Figure 91 Remove the CD-Rom covering plate and mounting bracket
4
Put the slim CD/DVD-Rom cover plate and the screws in the accessories box
8
5
Remove the slim CD/DVD-Rom mounting bracket by untighten the two #6-32 FH screws (order # 09-
1002-01A) as shwon
7
Figure 92 Install the slim-line CD-Rom into the mounting bracket and adapter board
6
Take out the slim CD/DVD-Rom adapter board (order
# 16-0105-01A) from the accessories box. Connect the adapter board to the slim CD/DVD-Rom drive.
7
Secure the adapter board to the slim CD/DVD-Rom drive by the two screws provided.
8
Insert the slim CD/DVD-Rom drive into the mounting bracket and snap in the fingers into the slim CD/DVD-
Rom mounting holes
59
User Manual ESR 316, ESR 420, ESR 524
9
Figure 93 Install the slim CD-Rom into the chassis
9
Carefully put the assemblied slim CD/DVD-Rom drive back into the chassis and secure it with the two FH screws
10
Connect the 40pin IDE cable (order # 17-1003-
01A) to the adapter board and connect the slim power board mini 4 pin connector to the adater board
11
Make sure no tools or parts are left in the chassis and close the top cover (section 3.1.2)
60
User Manual ESR 316, ESR 420, ESR 524
3.8 Installing the Rear Panel Fan
Before you perform this procedure, read the safety instructions of this manuel
All the system configured with the ESR series storage chassis can put in two additional rear fan.
The size of the rear fans is 60mm (WxH) x 38mm (D) (order # 18-1004-01A)
Fan Guide must be installed in the fan. The fan blade will cut your fingers if it is not installed.
3
Two rear panel fan can be installed here
1
Upen the rear fan from its package.
2
Remove the top cover (see section 3.1.1)
3
Put the fan into the rear panel fan mounting area as shwon
Figure 94 Location of the rear exhaust fans
FH self-tapping screws
(order #09-1016-01A)
4
5
Install the fan into the rear panel by four flat head self-tapping screws (order # 09-1016-01A) as shown
If the fan guide has not installed in your rear panel fan, use four flat head self-tapping screws (order #
09-1016-01A) to secure it into the fan as shown.
4
5
Figure 95 Install the rear fan into the chassis
6
Connect the 3pin fan cable to the system fan header. See the documentation of the system board.
7
Make sure no tools or parts are left in the chassis and close the top cover (section 3.1.2)
61
User Manual ESR 316, ESR 420, ESR 524
62
User Manual ESR 316, ESR 420, ESR 524
61
User Manual ESR 316, ESR 420, ESR 524
3.9 Replacing the Hot-Swap System Fan
Before you perform this procedure, read the safety instructions of this manuel
All the system configured with the ESR series storage chassis can provide with two 120mm long life high quality ball-bearing fan. If the fan failed, the monitor of the System Board will detect the failed signal that will trigger the alarm and fan failed LED on the front panel. The fan failed siganl be feedback to the system board through the front panel I/O cable (order #17-1014-01A) SMB header or through the PWM fan signal cable (order # 17-1015-01A) See section 2.2.5
1
Upen the rear fan from its package.
2
Remove the top cover (see section 3.1.1)
3
Identify the failed fan from the system and pull out the defected fan as shwon.
Figure 96 Pulling out the hot-swap system fan
4
Remove the 3 pin fan connector (4 pin for PWM fan) from the fan edge board (order #16-0106-01A) See section 2.13
#6-32 FH screws
5
Figure 97 Install the fan into the fan edge board
6
7
Remove the fan edge board assembly by taking the two mounting screws (order #09-1002-01A) as shown
Install the new fan into the edge board assembly and reserve the step above to install it back to the system
Make sure no tools or parts are left in the chassis and close the top cover (section 3.1.2)
NOTICE: After installing a new fan, allow several seconds for the system to recognize the fan and determine whether it is working properly. The fan failed indicator and alarm will turn off to signify that the fan is functioning properly. Refer section 1.3 for indicator functions.
62
User Manual ESR 316, ESR 420, ESR 524
3.10 Replacing the Hot-Swap Power Supply Modular
Before you perform this procedure, read the safety instructions of this manuel
The only way to disconnect power completely is to unplug the power cord
When connecting or disconnecting a cable, always hold the cable by its connector, the plug, not the cord
Never force a connector into a port. If the connector and port do not join with reasonable ease, they probably don’t match.
Never open the power supply modular for any reason.
NOTICE: The power supplies are hot-pluggable. The system requires two (three for the
1350W model) power supply modulars to be installed for the system to operate normally.
The system is in the redundant mode when all power supplies are installed. Remove and replace only one power supply at a time in a system that is powered on.
3.10.1 Replacing the 650W 2+1 Hot-Swap Power Supply Modular (order # )
The ESR-316 chassis uses 650W 2+1 redundant power supply, follow the instruction below for procedures to replacing the power supply modular.
LED off indicates a failed Power
Supply Modular
1
Remove the packaging from the new power supply modular and set it near the back of the system
2
Locate the power supply modular need to be replaced, by examining the individual LED on the back of the power supply modular as shown, if LED without light, it indicates this modular is defective and need to be replaced.
Figure 98 Identify the defected power supply modular
3
Unplug the AC power cord from the power supply modular you want to replace
Please perform the above step carefully, replacing a non-defective power supply modular may casue shut down the whole system.
63
5
User Manual ESR 316, ESR 420, ESR 524
#6-32 Round Head
Screw
Figure 99 Remove the screw that secure the 650W PSU
4
Unscrew the #6-32 round head screw on the displacement bar that secure the power supply modular as shown
5
Remove the displacement bar from the power supply and put it aside.
Figure 100 Remove the displacement bar of the 650W PSU
6
Squeeze the latch at the right side of the power-supply handle as shown to release the latch locking mechanism
7
Pull the power supply modular straight out to clear the chassis
7
6
Figure 101 Pull out the PSU modular from its housing
The temperatue on the surface of the power supply modular maybe around 120F to 140F depends on your environmental temperature, wear glove to protect you from burning.
DO NOT reach inside the system when removing a power supply or when the unit is out of the system
64
User Manual ESR 316, ESR 420, ESR 524
3.10 Replacing the Hot-Swap Power Supply Modular
Before you perform this procedure, read the safety instructions of this manuel
The only way to disconnect power completely is to unplug the power cord
When connecting or disconnecting a cable, always hold the cable by its connector, the plug, not the cord
Never force a connector into a port. If the connector and port do not join with reasonable ease, they probably don’t match.
Never open the power supply modular for any reason.
NOTICE: The power supplies are hot-pluggable. The system requires two (three for the
1350W model) power supply modulars to be installed for the system to operate normally.
The system is in the redundant mode when all power supplies are installed. Remove and replace only one power supply at a time in a system that is powered on.
3.10.1 Replacing the 650W 2+1 Hot-Swap Power Supply Modular (order # )
The ESR-316 chassis uses 650W 2+1 redundant power supply, follow the instruction below for procedures to replacing the power supply modular.
LED off indicates a failed Power
Supply Modular
1
Remove the packaging from the new power supply modular and set it near the back of the system
2
Locate the power supply modular need to be replaced, by examining the individual LED on the back of the power supply modular as shown, if LED without light, it indicates this modular is defective and need to be replaced.
Figure 98 Identify the defected power supply modular
3
Unplug the AC power cord from the power supply modular you want to replace
Please perform the above step carefully, replacing a non-defective power supply modular may casue shut down the whole system.
63
5
User Manual ESR 316, ESR 420, ESR 524
#6-32 Round Head
Screw
Figure 99 Remove the screw that secure the 650W PSU
4
Unscrew the #6-32 round head screw on the displacement bar that secure the power supply modular as shown
5
Remove the displacement bar from the power supply and put it aside.
Figure 100 Remove the displacement bar of the 650W PSU
6
Squeeze the latch at the right side of the power-supply handle as shown to release the latch locking mechanism
7
Pull the power supply modular straight out to clear the chassis
7
6
Figure 101 Pull out the PSU modular from its housing
The temperatue on the surface of the power supply modular maybe around 120F to 140F depends on your environmental temperature, wear glove to protect you from burning.
DO NOT reach inside the system when removing a power supply or when the unit is out of the system
64
User Manual ESR 316, ESR 420, ESR 524
8
Hold the new power supply modular by two hands and carefully slide it into the system until it clicks into the place.
9
Reserve STEP 5 and STEP 4 to secure the power supply modular into the system .
10
Attach the power cord to the back of the new power supply and to the power source.
11
Check the LED which indicates the new power supply modular and it should lit green
NOTICE: After installing a new power supply, allow several seconds for the system to recognize the power supply and determine whether it is working properly. The power- on indicator will turn green to signify that the power supply is functioning properly Refer
section 1.3 for indicator functions.
3.10.2 Replacing the 930W 2+1 Hot-Swap Power Supply Modular (order # )
The ESR-420 and ESR-524 chassis uses 930W 2+1 redundant power supply, follow the instruction below for procedures to replacing the power supply modular.
LED off indicates a failed Power
Supply Modular
Figure 102 Identify the defected PSU unit
1
Remove the packaging from the new power supply modular and set it near the back of the system
2
Locate the power supply modular need to be replaced, by examining the individual LED on the back of the power supply modular as shown, if LED without light, it indicates this modular is defective and need to be replaced.
3
Unplug the AC power cord from the power supply modular you want to replace
65
4
User Manual ESR 316, ESR 420, ESR 524
4
Unscrew the thumb screw of the defected power supply modular
5
Rotate the power-supply handle up and pull the power supply modular straight out from the chassis
5
Figure 102 Install the 2.5” to 3.5” IDE adapter
The temperatue on the surface of the power supply modular maybe around 120F to 140F depends on your environmental temperature, wear glove to protect you from burning.
DO NOT reach inside the system when removing a power supply or when the unit is out of the system
6
Hold the new power supply modular by two hands and carefully slide it into the system until it clicks into the place.
7
Reserve STEP 5 and STEP 4 to secure the power supply modular into the system .
8
Attach the power cord to the back of the new power supply and to the power source.
9
Check the LED which indicates the new power supply modular and it should lit green
NOTICE: After installing a new power supply, allow several seconds for the system to recognize the power supply and determine whether it is working properly. The power- on indicator will turn green to signify that the power supply is functioning properly Refer
section 1.3 for indicator functions.
66
User Manual ESR 316, ESR 420, ESR 524
8
Hold the new power supply modular by two hands and carefully slide it into the system until it clicks into the place.
9
Reserve STEP 5 and STEP 4 to secure the power supply modular into the system .
10
Attach the power cord to the back of the new power supply and to the power source.
11
Check the LED which indicates the new power supply modular and it should lit green
NOTICE: After installing a new power supply, allow several seconds for the system to recognize the power supply and determine whether it is working properly. The power- on indicator will turn green to signify that the power supply is functioning properly Refer
section 1.3 for indicator functions.
3.10.2 Replacing the 930W 2+1 Hot-Swap Power Supply Modular (order # )
The ESR-420 and ESR-524 chassis uses 930W 2+1 redundant power supply, follow the instruction below for procedures to replacing the power supply modular.
LED off indicates a failed Power
Supply Modular
Figure 102 Identify the defected PSU unit
1
Remove the packaging from the new power supply modular and set it near the back of the system
2
Locate the power supply modular need to be replaced, by examining the individual LED on the back of the power supply modular as shown, if LED without light, it indicates this modular is defective and need to be replaced.
3
Unplug the AC power cord from the power supply modular you want to replace
65
4
User Manual ESR 316, ESR 420, ESR 524
4
Unscrew the thumb screw of the defected power supply modular
5
Rotate the power-supply handle up and pull the power supply modular straight out from the chassis
5
Figure 102 Install the 2.5” to 3.5” IDE adapter
The temperatue on the surface of the power supply modular maybe around 120F to 140F depends on your environmental temperature, wear glove to protect you from burning.
DO NOT reach inside the system when removing a power supply or when the unit is out of the system
6
Hold the new power supply modular by two hands and carefully slide it into the system until it clicks into the place.
7
Reserve STEP 5 and STEP 4 to secure the power supply modular into the system .
8
Attach the power cord to the back of the new power supply and to the power source.
9
Check the LED which indicates the new power supply modular and it should lit green
NOTICE: After installing a new power supply, allow several seconds for the system to recognize the power supply and determine whether it is working properly. The power- on indicator will turn green to signify that the power supply is functioning properly Refer
section 1.3 for indicator functions.
66
User Manual ESR 316, ESR 420, ESR 524
3.10.3 Replacing the 1350W 3+1 Hot-Swap Power Supply Modular (order # )
The ESR-524 chassis uses 1350W 3+1 redundant power supply, follow the instruction below for procedures to replacing the power supply modular.
LED off indicates a failed
Power Supply Modular
Figure 104 Identify the failed PSU modular
1
Remove the packaging from the new power supply modular and set it near the back of the system
2
Locate the power supply modular need to be replaced, by examining the individual LED on the back of the power supply modular as shown, if LED without light, it indicates this modular is defective and need to be replaced.
3
Unplug the AC power cord from the power supply modular you want to replace
5
4
Unscrew the thumb screw of the defected power supply modular
Figure 105 Unscrew the thumb screw and release the latch
5
Push in the latch locate next to the thumb scew to release the latch locking mechanism
6
While holding the latch, rotate the power supply handle up until the power supply modular is released from the chassis
User Manual ESR 316, ESR 420, ESR 524
The temperatue on the surface of the power supply modular maybe around 120F to 140F depends on your environmental temperature, wear glove to protect you from burning.
DO NOT reach inside the system when removing a power supply or when the unit is out of the system
7
Hold the new power supply modular by two hands and carefully slide it into the system until it clicks into the place.
8
Reserve STEP 5 and STEP 4 to secure the power supply modular into the system .
9
Attach the power cord to the back of the new power supply and to the power source.
10
Check the LED which indicates the new power supply modular and it should lit green
NOTICE: After installing a new power supply, allow several seconds for the system to recognize the power supply and determine whether it is working properly. The power- on indicator will turn green to signify that the power supply is functioning properly Refer
section 1.3 for indicator functions.
6
5
Figure 106 Pull out the modular form the housing
67 68
User Manual ESR 316, ESR 420, ESR 524
3.10.3 Replacing the 1350W 3+1 Hot-Swap Power Supply Modular (order # )
The ESR-524 chassis uses 1350W 3+1 redundant power supply, follow the instruction below for procedures to replacing the power supply modular.
LED off indicates a failed
Power Supply Modular
Figure 104 Identify the failed PSU modular
1
Remove the packaging from the new power supply modular and set it near the back of the system
2
Locate the power supply modular need to be replaced, by examining the individual LED on the back of the power supply modular as shown, if LED without light, it indicates this modular is defective and need to be replaced.
3
Unplug the AC power cord from the power supply modular you want to replace
5
4
Unscrew the thumb screw of the defected power supply modular
Figure 105 Unscrew the thumb screw and release the latch
5
Push in the latch locate next to the thumb scew to release the latch locking mechanism
6
While holding the latch, rotate the power supply handle up until the power supply modular is released from the chassis
User Manual ESR 316, ESR 420, ESR 524
The temperatue on the surface of the power supply modular maybe around 120F to 140F depends on your environmental temperature, wear glove to protect you from burning.
DO NOT reach inside the system when removing a power supply or when the unit is out of the system
7
Hold the new power supply modular by two hands and carefully slide it into the system until it clicks into the place.
8
Reserve STEP 5 and STEP 4 to secure the power supply modular into the system .
9
Attach the power cord to the back of the new power supply and to the power source.
10
Check the LED which indicates the new power supply modular and it should lit green
NOTICE: After installing a new power supply, allow several seconds for the system to recognize the power supply and determine whether it is working properly. The power- on indicator will turn green to signify that the power supply is functioning properly Refer
section 1.3 for indicator functions.
6
5
Figure 106 Pull out the modular form the housing
67 68
User Manual ESR 316, ESR 420, ESR 524
3.11 Replacing the Backplane Board
Before you perform this procedure, read the safety instructions of this manuel
When connecting or disconnecting a cable, always hold the cable by its connector, the plug, not the cord
Never force a connector into a port. If the connector and port do not join with reasonable ease, they probably don’t match.
The ESR-series storage chassis support many different types of backplane boards, please refer section 2.3 to section 2.5 for backplane options. The ESR-series chassis offer easy installation and removal of the backplane boards The following section will show the instructions for replacing the backplane board.
NOTICE: Extra care must be taken when handling and storing the backplane boards.
The backplane board components can be damaged by rough handling. When removing the backplane boards from the storage system, place them on a padded surface. Never drop the backplane boards
NOTICE: Always wear a wrist grounding strap when handling equipment with static-sensitive components.
1
Turn off the system and unplug of the power cables,
2
Remove the top cover (see section 3.1.1)
FH metric M4 screw
(order #09-1004-01A)
4
Figure 107 Remove the slide rail security screws
3
Unplug the AC power cord from the power supply modular you want to replace
4
Remove the flat head M4 screws (order #
09-1004-01A) from both side of the chassis security the slide rail set as shown.
69
User Manual ESR 316, ESR 420, ESR 524
Figure 108 Fully extend the slide rail
5
Figure 109 Remove the system fan mounting bracket
Figure 110 Remove the backplane bracket mounting screws
5
Fully extend the slide rail set as shown, you will see mounting screws on the two sides of the chassis that support the backplane mounting bracket.
6
Unplug all the cables attached to the backplane boards.
#6-32 FH screws (order #09-1002-01A)
7
Remove the system fan mounting bracket by unscrewing the two FP #6-32 screws on both sides of the chassis as shown. Carefully life up the system fan mounting bracket
8
Remove the two FP #6-32 screws on both sides of the chassis on the backplane mounting brackets you want to replace as shown.
#6-32 FH screws (order #09-1002-01A)
70
User Manual ESR 316, ESR 420, ESR 524
3.11 Replacing the Backplane Board
Before you perform this procedure, read the safety instructions of this manuel
When connecting or disconnecting a cable, always hold the cable by its connector, the plug, not the cord
Never force a connector into a port. If the connector and port do not join with reasonable ease, they probably don’t match.
The ESR-series storage chassis support many different types of backplane boards, please refer section 2.3 to section 2.5 for backplane options. The ESR-series chassis offer easy installation and removal of the backplane boards The following section will show the instructions for replacing the backplane board.
NOTICE: Extra care must be taken when handling and storing the backplane boards.
The backplane board components can be damaged by rough handling. When removing the backplane boards from the storage system, place them on a padded surface. Never drop the backplane boards
NOTICE: Always wear a wrist grounding strap when handling equipment with static-sensitive components.
1
Turn off the system and unplug of the power cables,
2
Remove the top cover (see section 3.1.1)
FH metric M4 screw
(order #09-1004-01A)
4
Figure 107 Remove the slide rail security screws
3
Unplug the AC power cord from the power supply modular you want to replace
4
Remove the flat head M4 screws (order #
09-1004-01A) from both side of the chassis security the slide rail set as shown.
69
User Manual ESR 316, ESR 420, ESR 524
Figure 108 Fully extend the slide rail
5
Figure 109 Remove the system fan mounting bracket
Figure 110 Remove the backplane bracket mounting screws
5
Fully extend the slide rail set as shown, you will see mounting screws on the two sides of the chassis that support the backplane mounting bracket.
6
Unplug all the cables attached to the backplane boards.
#6-32 FH screws (order #09-1002-01A)
7
Remove the system fan mounting bracket by unscrewing the two FP #6-32 screws on both sides of the chassis as shown. Carefully life up the system fan mounting bracket
8
Remove the two FP #6-32 screws on both sides of the chassis on the backplane mounting brackets you want to replace as shown.
#6-32 FH screws (order #09-1002-01A)
70
8
User Manual ESR 316, ESR 420, ESR 524
9
After the mounting screws removed, carefully slide out the backplane mounting backet, which has been highlighted in red as shown in the figure.
Figure 111 Install the 2.5” to 3.5” IDE adapter
#6-32 RH screws (order #09-1003-01A)
10
Remove the ten RH #6-32 mounting screws on the backplane board and remove the backplane board away from the backplane mounting bracket.
Figure 112 Install the 2.5” to 3.5” IDE adapter
11
Install the new backplane board by reserve all the step above.
71
User Manual ESR 316, ESR 420, ESR 524
3.12 Replacing the system battery
Before you perform this procedure, read the safety instructions of this manuel
The purpose of this section is for system integrator to sumbit for product safety conformity that may required paper trail instruction on replacing system battery. The system battery maybe in your server board, the storage RAID controller or other device. Consult with the manufacturer docunmentation for futher information.
If your system require special instruction on your operator, installation and service manual that is needed by your product safety testing laboratory, please contact the author by email to [email protected]
CAUTION: There is a danger of a new battery exploding if it is incorrectly installed.
Replace the battery only with the same or equivalent type recommended by the manufacturer. Discard used batteries according to the manufacturer’s instructions.
NOTICE: If you pry the battery out of its socket with a blunt object, be careful not to touch the system board with the object. Ensure that the object is inserted between the battery and the socket before you attempt to pry out the battery. Otherwise, you may damage the system board by prying off the socket or by breaking circuit traces on the system board.
Open the computer cover
Locate the battery socket from the server board
Remove the battery by carefully prying it out of its socket with your fingers or with a blunt, nonconducting object such as a plastic screwdriver.
Figure 113 Replace the battery
Insert the new battery into the socket according to the orientation of the server board user manual, and snap the battery into place.
Battery Disposal
Do not dispose of the battery along with household waste. Contact your local waste disposal agency for the address of the nearest battery deposit site.
72
8
User Manual ESR 316, ESR 420, ESR 524
9
After the mounting screws removed, carefully slide out the backplane mounting backet, which has been highlighted in red as shown in the figure.
Figure 111 Install the 2.5” to 3.5” IDE adapter
#6-32 RH screws (order #09-1003-01A)
10
Remove the ten RH #6-32 mounting screws on the backplane board and remove the backplane board away from the backplane mounting bracket.
Figure 112 Install the 2.5” to 3.5” IDE adapter
11
Install the new backplane board by reserve all the step above.
71
User Manual ESR 316, ESR 420, ESR 524
3.12 Replacing the system battery
Before you perform this procedure, read the safety instructions of this manuel
The purpose of this section is for system integrator to sumbit for product safety conformity that may required paper trail instruction on replacing system battery. The system battery maybe in your server board, the storage RAID controller or other device. Consult with the manufacturer docunmentation for futher information.
If your system require special instruction on your operator, installation and service manual that is needed by your product safety testing laboratory, please contact the author by email to [email protected]
CAUTION: There is a danger of a new battery exploding if it is incorrectly installed.
Replace the battery only with the same or equivalent type recommended by the manufacturer. Discard used batteries according to the manufacturer’s instructions.
NOTICE: If you pry the battery out of its socket with a blunt object, be careful not to touch the system board with the object. Ensure that the object is inserted between the battery and the socket before you attempt to pry out the battery. Otherwise, you may damage the system board by prying off the socket or by breaking circuit traces on the system board.
Open the computer cover
Locate the battery socket from the server board
Remove the battery by carefully prying it out of its socket with your fingers or with a blunt, nonconducting object such as a plastic screwdriver.
Figure 113 Replace the battery
Insert the new battery into the socket according to the orientation of the server board user manual, and snap the battery into place.
Battery Disposal
Do not dispose of the battery along with household waste. Contact your local waste disposal agency for the address of the nearest battery deposit site.
72
User Manual ESR 316, ESR 420, ESR 524
4. Install the system into the rack
4.1 Rack Safety Instruction
4.1.1 Precautions for Handling the system
When configured with a full set of drives, power supply and server board, the system weighs will be over 100 pounds. Take the following precautions to avoid problems or potential injury as you handle the ESR-series storage chassis
Do not unpack, life or carry the system by yourself. Always have another person available to help you move or lift the system
Prepare a flat, sturdy surface before taking out the chassis, the working surface that will hold the chassis should be as close as possible to the package
Both people should follow these steps to life or move the chassis
Stand with your legs shoulder-width apart to maintain balance
Bend on your hips and knees, not at your waist
Use your leg muscles to life
Life with a smooth motion
Kepp the chassis close to your boday and at waist level to lessen the load on your back
To turn while holding the chassis, use your feet, do not twist your back
4.1.2 Precautions for installing the chassis into the Rack Cabient
Ensure proper floor support and ensure the floor loading specification are adhered to. Failure to do so may result fatal injury to you or damage to the equipment and the facility
DO not exceed the weight limit recommended for your rack
DO not install the ESR-series chassis in a two port, or telco-styple rack. These chassis cannot be mounted safety in a two-post rack.
Care should be taken to ensure a hazardous condition is not created due to uneven mechanical loading. Ensure that the entire rack assembly is properly secured. Tipping hazards may cause personal injury and death. The following guidelines are provided to ensure your safety:
When mounting this unit in a partially filled rack, load the rack from the bottom to the top with the heaviest component at the bottom of the rack
If the rack is provided with stabilizing devices, install the stabilizers before
mounting or servicing the unit in the rack.
73
User Manual ESR 316, ESR 420, ESR 524
74
User Manual ESR 316, ESR 420, ESR 524
73
User Manual ESR 316, ESR 420, ESR 524
This unit should be mounted at the bottom of the rack if it is the only unit in the rack.
Use caution when pressing the component rail release latches and sliding a component into or out of a rack; the slide rails can pinch your fingers.
4.1.3 Electrical Safety
An electrical outlet that is not correctly wired could place hazardous voltage on metal parts of the system. It is the responsibility of the customer to ensure that the outlet is correctly wired and grounded to prevent an electrical shock.
Use one hand, when possible, to connect or disconnect signal cables to prevent a possible shock from touching two surfaces with different electrical potentials
Do not overload the AC supply branch circuit that provides power to the rack.
The total rack load should not exceed 80 percent of the branch circuit rating.
Use only approved power cable(s). If you have not been provided with a power cable for your server, storage system, or appliance, or for any AC-powered option intended for your system, purchase a power cable that is approved for use in your country. The power cable must be rated for the product and for the voltage and current marked on the product’s electrical ratings label. The voltage and current rating of the cable should be greater than the ratings marked on the product.
Cleaning: Unplug your system from wall outlet before cleaning. Do not use liquid or aerosol cleaners. Use a damp (not wet) cloth for cleaning.
4.1.4 Thermal Dissipation Requirement
DO not install the chassis in a rack where the internal ambient temperature will exceed 95degrees F (35 degrees C)
DO not install this unit in a rack where the air flow is compromised. Any side, front, or back of the unit used for air flow through the unit must not be direct contact with the rack
NOTICE: If multiple components are installed in the rack, consider additional cooling to assure efficient operation of the system and other equipment
74
User Manual ESR 316, ESR 420, ESR 524
4.2 Rack Mounting Hardware
The ESR-series chassis include with the slide rail on the system. The mounting hardware are located in the accessories box. Below are the mounting hardware overview. The inner slide rail has been assemblied into the stroage chassis.
Top
Top Top
User Manual ESR 316, ESR 420, ESR 524
Outer slide bracket
Latch
Inner slide rail
Bracket extender for 28-inch rack order#
06-0126-01A left
06-0126-02A right
Top
Top
Bracket extender for 30-inch rack order#
06-0138-01A left
06-0138-02A right
M5 x 3/4” Pan Head Screws,
24 pcs (order#09-1052-01A)
Figure 114 Rack mounting hardware
M5 Cage Nuts, 16 pcs
(order #09-1053-01A)
M5 x 1” Enclosure Key Pan Head
Screws, 4pcs (order#09-1019-01A)
NOTICE: The slide rail has been approved by SGS Taiwan to rehold a loading of
300lbs. SGS report number: HL20082/2005
75 76
User Manual ESR 316, ESR 420, ESR 524 User Manual ESR 316, ESR 420, ESR 524
4.3 Install the chassis in a Rack
The ESR-series chassisis specifically designed for rack mounting. It is not designed for use as a desktop system. You can install the system in a four-post cabinet or open rack that is 19 inches wide and between 26”, 28”, 30” and 36” deep.
Figure 115 Four post cabinet rack
Figure 116 Four post open rack
The brackets and screws necessary to attach the system to a four-post rack with threaded holes or unthreaded round holes are included with your system
M5 Cage Nuts
(order #09-1053-01A)
Some racks have pre-threaded holes
75
Figure 117 Rack’s mounting hole types
NOTICE: Any rack used for ESR-chassis should meet the specifications of the
American National Standards Institute(ANSI)/Electronic Industries Alliance(EIA) standard ANSI/EIA310-D. See your rack documentation for the rack to determine whether it is compatible with these standards
76
User Manual ESR 316, ESR 420, ESR 524
4.3.1 Marking the rack
You must allow 1U (44mm or 1.75 inches) of vertical space for each system you install in the rack.
Rack cabients that meet EIA-310D standards have a pattern of three holes per rack unit with center-to-center holes spacing (beginning at the top holes of a 1U space) of 0.625” ,0.625”, and
0.5inch ( in metric: 15.9mm, 15.9,, and 12.7mm ) for the front and rear vertical rails. Rack cabient usually have round or square holes.
NOTICE: Some vertical rails may be marked by horizontal lines and numbers in 1U increments. You can make a note of the number marking on the rack’s vertical rail.
Following these steps to mark the rack
Mark on the narrow area between two holes spacing
1U (1.75 inch)
0.5 inch
0.625 inch
0.625 inch
0.5 inch
0.5 inch
0.625 inch
0.625 inch
0.5 inch
1U (1.75 inch)
1
Figure 118 Marking on the rack
Place a mark on the rack’s front vertical rails where you want to locate the bottom of the system you are installing in the rack cabient
2
Place a mark 1.75inch above the original mark you made ( or count up three holes in a rack that meets EIA-310D standards)
User Manual ESR 316, ESR 420, ESR 524
4.3.2 Installing the System
To install the system in the rack, you
1
Assemble the brackets
2
3
Attach the brackets to the rack
Rest the system on the brackets and secure it on the rack
4.3.2.1 Assemble the brackets
1
Turn off the system and unplug of the power cables,
2
Remove the FH metric M4 screw that secure the rail bracket on both sides of the chassis as shown
FH metric M4 screw
(order #09-1004-01A)
2
Figure 119 Removing the rack slide security screws
3
4
3
Carefully extend the outer slide bracket to the back until it reach the latch locking mechanism.
Push the latch toward the chassis to release the outer slide bracket and carefully pull out the outer slide bracket..
77
4
Figure 120 Releasing the outer slide bracket
Use caution when pressing the component rail release latches and sliding a component into or out of a rack; the slide rails can pinch your fingers.
78
User Manual ESR 316, ESR 420, ESR 524
4.3.1 Marking the rack
You must allow 1U (44mm or 1.75 inches) of vertical space for each system you install in the rack.
Rack cabients that meet EIA-310D standards have a pattern of three holes per rack unit with center-to-center holes spacing (beginning at the top holes of a 1U space) of 0.625” ,0.625”, and
0.5inch ( in metric: 15.9mm, 15.9,, and 12.7mm ) for the front and rear vertical rails. Rack cabient usually have round or square holes.
NOTICE: Some vertical rails may be marked by horizontal lines and numbers in 1U increments. You can make a note of the number marking on the rack’s vertical rail.
Following these steps to mark the rack
Mark on the narrow area between two holes spacing
1U (1.75 inch)
0.5 inch
0.625 inch
0.625 inch
0.5 inch
0.5 inch
0.625 inch
0.625 inch
0.5 inch
1U (1.75 inch)
1
Figure 118 Marking on the rack
Place a mark on the rack’s front vertical rails where you want to locate the bottom of the system you are installing in the rack cabient
2
Place a mark 1.75inch above the original mark you made ( or count up three holes in a rack that meets EIA-310D standards)
User Manual ESR 316, ESR 420, ESR 524
4.3.2 Installing the System
To install the system in the rack, you
1
Assemble the brackets
2
3
Attach the brackets to the rack
Rest the system on the brackets and secure it on the rack
4.3.2.1 Assemble the brackets
1
Turn off the system and unplug of the power cables,
2
Remove the FH metric M4 screw that secure the rail bracket on both sides of the chassis as shown
FH metric M4 screw
(order #09-1004-01A)
2
Figure 119 Removing the rack slide security screws
3
4
3
Carefully extend the outer slide bracket to the back until it reach the latch locking mechanism.
Push the latch toward the chassis to release the outer slide bracket and carefully pull out the outer slide bracket..
77
4
Figure 120 Releasing the outer slide bracket
Use caution when pressing the component rail release latches and sliding a component into or out of a rack; the slide rails can pinch your fingers.
78
User Manual ESR 316, ESR 420, ESR 524
Top
Figure 121 Bracket extenders
Slot
Top
0.5 inch
5
5
Depends on the deep of your rack, use the correspondence bracket extenders. Make sure you are install the bracket extenders in the right orientation, the two holes with a space of 0.5 inch apart is the top side of the bracket extenders.
M5 Pan Head Screws, 2 pcs
(order#09-1052-01A)
6
Place the bracket extender on the rear part of the outer bracket and align the slot of the bracket extender with the mounting holes of the outer rail bracket.
7
7
8
Use the M5 Pan Head Screws (order # 09-
1052-01A)Fasten but not tigthen the bracket extender on to the outer slide bracket as shown
Repeat step 5 to step 7 for the other side of the outer slide bracket.
Figure 122 Assembly the outer slide rail and bracket extender
NOTICE: Please read the next page carefully which will help you to locate the correct location on the rack
User Manual ESR 316, ESR 420, ESR 524
79 80
User Manual ESR 316, ESR 420, ESR 524
79
User Manual ESR 316, ESR 420, ESR 524
4.3.2.2 Assemble the brackets
Enclosure Key
D
1U (1.75 inch)
1
At the front of the rack cabient, position the outer slide bracket so that is mounting bracket slots fit between the mark.There four slots on the bracket should aligh with the four holes between the marks on the front vertical rail, with the two slot. Look carefully, you will find the two center slot on the bracket has a spacing of 0.5 inch, which match on the mark of the cabient mark that is also 0.5” apart between the two mounting holes.
1U (1.75 inch)
1U (1.75 inch)
2
If you rack has unthreaded square holes, install the M5 Cage Nut on location
A
4U
5U
3
Install the M5 Cage Nut if it is
ESR-316 on B
ESR-420 on
C
ESR-524 on
D
The Enclosure key will be installed in these locations
B
C
0.625 inch
3U
A
0.625 inch
A
0.5 inch
A
0.625 inch
A
0.5 inch
0.625 inch
0.625 inch
A
Figure 123 Position the outer slide rail into the rack
80
User Manual ESR 316, ESR 420, ESR 524
5
User Manual ESR 316, ESR 420, ESR 524
6
M5 x 3/4” Pan Head Screws,
(order#09-1052-01A)
Reserve angle view
4
M5 x 3/4” Pan Head Screws,
(order#09-1052-01A)
Figure 124 Install the outer slide rail into the rack
5
6
7
4
Keep the forth slot empty for
Enclosure Key screw
Hold the outer slide bracket against one of the front vertical rail of the cabient at the position you marked, then, fasten and tigthen three M5 x3/4” screws (order #09-1052-
01A) as shown. Leave the forth slot empty for Enclosure Key
At the back of the cabient, pull back on the bracket extender until the mounting slot align with their respective holes on the back vertical rail.
Install three M5 x3/4” screws (order #09-1052-01A) in the back mounting holes to secure the outer slide bracket to the back vertical rail
Repeat step 4 to step 7 for the outer slide bracket on the other side of the rack
8
Ensure that both of the slide bracket are mounted at the same position on the vertical rails on each side of the rack
81 82
User Manual ESR 316, ESR 420, ESR 524 User Manual ESR 316, ESR 420, ESR 524
4.3.2.3 Reset the system on the bracket and secure it on the rack
When the brackets are secured to the rack, you can put the storage system in the rack. Follow these steps to mount the ESR-series storage system in the rack.
2
3
1
With one person on each side of the system, lift the system so that the inner rail aligh with the outer slide bracket.
Engage the inner rail to the outer slide bracket slot
Push and slide the system into the rack
Figure 125 Slide in the chassis into the rack
NOTICE: After the ESR-series storage system is in the rack, check the front panel of the system and make sure that the four mounting slots are aligh to the rack vertical rail mounting hole. If you find the mounting holes are offset, then, the chassis is not installed in the right position. Reinstall the outer slide bracket again to the right location
Aligh hole
Aligh hole
Aligh hole
Aligh hole
Aligh hole
Aligh hole
81
Aligh hole
Figure 126 Check the mounting holes are align to the rack
Aligh hole
82
User Manual ESR 316, ESR 420, ESR 524
M5 x 1” Enclosure Key Pan Head
Screws, 4pcs (order#09-1019-01A)
4
Secure the system by tighten the four
M5 x 1” Enclosure key Pan Head screws as shown.
User Manual ESR 316, ESR 420, ESR 524
Figure 127 Secure the system by enclosure keys
83 84
User Manual ESR 316, ESR 420, ESR 524
M5 x 1” Enclosure Key Pan Head
Screws, 4pcs (order#09-1019-01A)
4
Secure the system by tighten the four
M5 x 1” Enclosure key Pan Head screws as shown.
User Manual ESR 316, ESR 420, ESR 524
5. Space part order information
5.1 Kit Accessories Box order # 05-1001-01A
Bracket extender for 30-inch rack
06-0138-01A left
06-0138-02A right
Cable Tie x 4
M5 x 3/4” Pan Head Screws,
24 pcs (order#09-1052-01A)
M5 Cage Nuts, 16 pcs
(order #09-1053-01A)
M5 x 1” Enclosure Key Pan Head
Screws, 4pcs (order#09-1019-01A)
#6-32 bolt standoffs 25 pcs
(order #09-1007-01A)
83
#6-32 RH screws 30 pcs
(order #09-1003-01A)
Figure 128 Kit accessories box
AC Cord North America 3pcs
(order # 17-1012-01A)
84
User Manual ESR 316, ESR 420, ESR 524
5.2 Kit System Fan, 120mm x 120mm x 38mm order # 05-1002-01A
User Manual ESR 316, ESR 420, ESR 524
Figure 129 Kit system fan, 120x120x38mm
5.3 Kit Hard Disk Drive Carrier order #05-1003-01A
Figure 130 Kit hard disk drive carrier
HDD Carrier (03-1007-01A)
85 86
User Manual ESR 316, ESR 420, ESR 524 User Manual ESR 316, ESR 420, ESR 524
5.4 Kit Slim IDE Drive Kit for Drive 1 order # 05-1004-01A
Drive 1
This kit contain the necessary parts to install a
2.5” slim-line IDE hard disk drive on Drive 1 of the ESR-seires storage system. Refer section
3.5 on the user manual for installation instruction.
1
1 x #6-32 Flat Head Screw
(09-1002-01A)
2
3
4
5
6
4 x M3 Flat Head Screw
(9-1013-01A)
1 x 4 pin-to-2pin DC power cable, 4.7”
(17-1008-01A)
1 x 40pin IDE data cable, 27.5”
(17-1003-02A)
1 x 2.5” to 3.5” IDE Adapter
(16-0118-01A)
1 x slim-line HDD mounting bracket
(06-0115-01A)
#6-32 FH screw
M3 FH screw x 4
2.5” to 3.5” IDE Adapter
85
40pin IDE cable, 27.5” long
Slim-line HDD mounting bracket
Figure 131 Kit slim IDE 2.5” to 3.5” hard disk drive (drive 1 location)
4 pin-to-2 pin DC Power cable, 4.7” Long
86
User Manual ESR 316, ESR 420, ESR 524
5.5 Kit Slim IDE Drive Kit for Drive 2 order # 05-1005-01A
Drive 2
This kit contain the necessary parts to install a
2.5” slim-line IDE hard disk drive on Drive 2 of the ESR-seires storage system. Refer section
3.5 on the user manual for installation instruction.
1
1 x #6-32 Flat Head Screw
(09-1002-01A)
2
3
4
5
6
4 x M3 Flat Head Screw
(09-1013-01A)
1 x 4 pin-to-2pin DC power cable, 7”
(17-1008-02A)
1 x 40pin IDE data cable, 25.5”
(17-1003-03A)
1 x 2.5” to 3.5” IDE Adapter
16-0118-01A)
1 x slim-line HDD mounting bracket
(06-0115-01A)
#6-32 FH screw
M3 FH screw x 4
2.5” to 3.5” IDE Adapter
User Manual ESR 316, ESR 420, ESR 524
40pin IDE cable, 25.5” long
Slim-line HDD mounting bracket
Figure 132 Kit slim IDE 2.5” to 3.5” hard disk drive (drive 2 location)
4 pin-to-2 pin DC Power cable, 7” Long
87 88
User Manual ESR 316, ESR 420, ESR 524 User Manual ESR 316, ESR 420, ESR 524
5.6 Kit Slim IDE Drive Kit for Drive 3 order # 05-1006-01A
Drive 3
This kit contain the necessary parts to install a
2.5” slim-line IDE hard disk drive on Drive 3 of the ESR-seires storage system. Refer section
3.5 on the user manual for installation instruction.
1
1 x #6-32 Flat Head Screw
(09-1002-01A)
2
3
4
5
6
4 x M3 Flat Head Screw
09-1013-01A)
1 x 4 pin-to-2pin DC power cable, 11.5”
(17-1008-03A)
1 x 40pin IDE data cable, 21.5”
(17-1003-04A)
1 x 2.5” to 3.5” IDE Adapter
(16-0118-01A)
1 x slim-line HDD mounting bracket
(06-0115-01A)
#6-32 FH screw
M3 FH screw x 4
2.5” to 3.5” IDE Adapter
87
40pin IDE cable, 21.5” long
Slim-line HDD mounting bracket
Figure 133 Kit slim IDE 2.5” to 3.5” hard disk drive (drive 3 location)
4 pin-to-2 pin DC Power cable, 11.5” Long
88
User Manual ESR 316, ESR 420, ESR 524
5.7 Kit Slim-line Floppy Drive Disk order # 05-1007-01A
M3 RH screw
(09-1012-01A)
Mini 4 pin DC Power cable
(17-1018-01A) slim-line FDD adapter
(16-0104-01A)
26pin Slim-line FDD flat cable
(17-1019-01A)
34pin FDD cable ( 17-1004-01A)
Figure 134 Kit slim-line floppy disk drive
5.8 Kit Slim-line CD/DVD-Rom order # 05-1008-01A
M2 RH screw
User Manual ESR 316, ESR 420, ESR 524
40pin IDE cable, 33.5” long
(17-1003-01A)
Figure 135 Kit slim-line CD/DVD-Rom slim-line CD-Rom adapter
(16-0105-01A)
89 90
User Manual ESR 316, ESR 420, ESR 524 User Manual ESR 316, ESR 420, ESR 524
5.9 Kit Two device IDE 40pin cable order # 17-1017-01A
1
J2
1
J3
1
J1
BLACK
BLUE
GREY
Two Drives IDE cable (order # 17-1017-01A)
Figure 136 Cable kit: Two-drive IDE cable
5.10 Kit, 4-pin power cable for add-in-card, 20 inches order # 17-1007-02A
89
4pin power cable (order #17-1007-02A)
Figure 137 Cable Kt; 4-pin DC power cable for add-in-card
5.11 Kit, K-TypeThermocouple order # 07-1020-01A
4pin power cable (order #17-1020-01A)
Figure 138 Cable kit: 2-pin thermocouple with cable
90
User Manual ESR 316, ESR 420, ESR 524
5.12 Kit Power Supply Modular, ESR-316; 650W order # 05-1009-01A
User Manual ESR 316, ESR 420, ESR 524
Figure 139 Kit power supply modular for 650W
5.13 Kit Power Supply Modular, ESR-420, ESR-524 ; 950W order # 05-1010-01A
Figure 140 Kit power supply modular for 950W
91 92
User Manual ESR 316, ESR 420, ESR 524 User Manual ESR 316, ESR 420, ESR 524
5.14 Kit Power Supply Modular, ESR-524 ; 1350W order # 05-1011-01A
Figure 141 Kit power supply modular for 650W
5.15 Kit AC Power inlet Cable order # 17-1018-01A
Figure 142 Cable Kit: AC Cord North America (order # 17-1018-01A)
Figure xx AC Cord Australia and New Zealand (order # 17-1018-XXX)
91
Figure xx AC Cord Danish (order # 17-1018-XXX)
92
User Manual ESR 316, ESR 420, ESR 524
Figure xx AC Cord Europe (order # 17-1018-XXX)
Figure xx AC Cord Isreali (order # 17-1018-XXX)
Figure xx AC Cord Italy (order # 17-1018-XXX)
Figure xx AC Cord Swiss (order # 17-1018-XXX)
User Manual ESR 316, ESR 420, ESR 524
Figure xx AC Cord U.K. (order # 17-1018-XXX)
93 94
User Manual ESR 316, ESR 420, ESR 524 User Manual ESR 316, ESR 420, ESR 524
5.16 Kit 28 inches bracket extender order # 05-1012-01A
Figure 143 Kit:28 inches cabient bracket extender
5.17 Kit 30 inches bracket extender order # 05-101301A
Bracket extender for 28-inch rack
06-0126-01A left
06-0126-02A right
Figure 144 Kit:30 inches cabient bracket extender
5.18 Kit 36 inches bracket extender order # 05-1014-01A
Bracket extender for 30-inch rack
06-0138-01A left
06-0138-02A right
93
Figure xx Kit:36 inches cabient bracket extender
94
User Manual ESR 316, ESR 420, ESR 524
5.19 Kit SCSI Backplane order # 05-1015-01A
SCSI Backplane
16-0108-0A)
SCSI Cable
(17-1016-01A)
Figure 145 Kit: SCSI backplane, 4 drives
5.20 Kit SCSI Backplanes ( Daisy Chain 8 drives ) order # 05-1016-01A
Terminator
16-0117-0A)
SCSI Backplane
16-0108-0A)
SCSI Cable
(17-1016-01A)
Figure 146 Kit: SCSI backplane, 8 drives
SCSI Cable
17-1016-02A)
Terminator
16-0117-0A)
95
User Manual ESR 316, ESR 420, ESR 524
96
User Manual ESR 316, ESR 420, ESR 524 User Manual ESR 316, ESR 420, ESR 524
5.21 Kit SCSI Backplanes ( Daisy Chain 12 drives ) order # 05-1017-01A
SCSI Backplane
16-0108-0A)
SCSI Cable
(17-1016-01A)
Figure 147 Kit: SCSI backplane, 12 drives
5.22 Kit Serial ATA Backplane order # 05-1018-01A
SCSI Cable
17-1016-02A)
Terminator
16-0117-0A)
95
SATA Backplane
16-0107-0A)
Figure 148 Kit: Serial ATA Point-to-Point backplane
96
User Manual ESR 316, ESR 420, ESR 524
5.23 Kit Point-to-Point Serial ATA cable, 19.5 inches long with latch
Cable Order # Markings
17-1011-01A HDD “0”
17-1011-02A HDD “1”
17-1011-03A HDD “2”
17-1011-04A HDD “3”
17-1011-05A HDD “4”
17-1011-06A HDD “5”
17-1011-07A HDD “6”
17-1011-08A HDD “7”
17-1011-09A HDD “8”
17-1011-10A HDD “9”
17-1011-11A HDD “10”
17-1011-12A HDD “11”
17-1011-13A HDD “12”
17-1011-14A HDD “13”
17-1011-15A HDD “14”
17-1011-16A HDD “15”
17-1011-17A HDD “16”
17-1011-18A HDD “17”
17-1011-19A HDD “18”
17-1011-20A HDD “19”
17-1011-21A HDD “20”
17-1011-22A HDD “21”
17-1011-23A HDD “22”
17-1011-24A HDD “23”
Figure 149 Cable Kit: Sere ial ATA Point-to-Point cable
Instruction
Connect to Drive 0 on the backplane
Connect to Drive 1 on the backplane
Connect to Drive 2 on the backplane
Connect to Drive 3 on the backplane
Connect to Drive 4 on the backplane
Connect to Drive 5 on the backplane
Connect to Drive 6 on the backplane
Connect to Drive 7 on the backplane
Connect to Drive 8 on the backplane
Connect to Drive 9 on the backplane
Connect to Drive 10 on the backplane
Connect to Drive 11 on the backplane
Connect to Drive 12 on the backplane
Connect to Drive 13 on the backplane
Connect to Drive 14 on the backplane
Connect to Drive 15 on the backplane
Connect to Drive 16 on the backplane
Connect to Drive 17 on the backplane
Connect to Drive 18 on the backplane
Connect to Drive 19 on the backplane
Connect to Drive 20 on the backplane
Connect to Drive 21 on the backplane
Connect to Drive 22 on the backplane
Connect to Drive 23 on the backplane
97
User Manual ESR 316, ESR 420, ESR 524
98
User Manual ESR 316, ESR 420, ESR 524 User Manual ESR 316, ESR 420, ESR 524
5.24 Kit Serial ATA hard disk status signal cable
3
4
1
2
Cable Order # Markings
17-1013-01A HDD “0-3”
17-1013-02A HDD “4-7”
17-1013-03A HDD “8-11-”
17-1013-04A HDD “12-15”
17-1013-05A HDD “16-19”
17-1013-06A HDD “20-23”
Figure 150 Cable Kit: Serial ATA HDD status signal cable
Marking
Instruction
Connect to Drive 0-3 on the backplane
Connect to Drive 4-7 on the backplane
Connect to Drive 8-11 on the backplane
Connect to Drive 12-15 on the backplane
Connect to Drive 12-15 on the backplane
Connect to Drive 12-15 on the backplane
5.25 Kit Multi-lane Serial ATA Backplane order # 05-1019-01A
Multilane Cable
(17-1005-01A)
97
SATA Backplane
16-0109-0A)
Figure 151 Kit: Serial ATA Multilane backplane
98
User Manual ESR 316, ESR 420, ESR 524
6. System Fan Specification 120mm x 120mm x 38mm
P-V curve
User Manual ESR 316, ESR 420, ESR 524
Figure 152 System fan specification and P-V curve
Specification
ITEM
Model Number
Rated Voltage
Input Voltage
Input Current
Speed
Max Air Flow
Max Air Pressure
Acoustical Noise
Insulation Type
Over current shut down
Starting protection
Life expectance
Operating temperature
Operating humidity
Material
Ball Bearing system
Dimension
Table 48 System fan specification
DESCRIPTION
Delta FFB1212EHE-5N60
12V DC
7.0-13.2V DC
2.0 (Max 3.0)A
4000 R.P.M.
190CFM (5.38 M
3
/min) at zero static pressure
0.697 inchH
2
59dB-A
0 (17.7mmH
2
0)
UL: Class A
Yes, shut down when locking rotor
Yes, start at low speed, after 10 sec, full speed
(70,000 hours) 8 years, continuous at 40 degree C
-10 to 50 degree C
5 to 90 % RH
Plastic UL 94V-0
Two Ball Bearing
120mm x 120mm x 38mm
99
User Manual ESR 316, ESR 420, ESR 524 User Manual ESR 316, ESR 420, ESR 524
7. Power Supply Specification
7.1 650W 2+1 Redundant Power Supply
DC Output Characteristics
Output
Voltage
5V
12V
-5V
-12V
3.3V
+5VSB
Output Current
MIN(A)
3.0
2
0.05
0.05
1.0
0.1
MAX(A)
60
40
1
1
40
2.5
Table 49 650W PSU DC Output Characteristics
Remarks: Total current of +5V and +3.3V not exceed 70A
Total +5V and +3.3V and +12V power not exceed
630W
Figure 153 650W 2+1 Redundant Power Supply
Specification
ITEM
Model Number
Input Voltage/Ferquency
Input Current
Inrush current
Connector Type*
Active Power Factor Correction built
EMI Noise Filter
Safety:
Smart I
2
C interface design
MTBF
Operating temperature
Efficiency
Dimension
Table 50 650W power supply specification
DESCRIPTION
EMAC R3G-6650P
90-264 V AC/47~63Hz
9.0/5.0 A for 115/230 VAC
80A/100A Max for 115/230 VAC per modular
EPS 12V*
Yes, meet IEC-1000-3-2 Class D
FCC Class B, CISR22 CLass B
UL 1950, CSA 22.2 No/950 TUV IEC 950
Yes
67792 continuous at 40 degree C
0 to 40 degree C
63 % Typical, at full load
82mm(H) x 127mm(W) x 300mm(D)
Connector type for ATX2.03, ATX12V(Pentium 4), WTX or AMD-GES are available, but for special only. Contact your sale representative for more information
100
User Manual ESR 316, ESR 420, ESR 524
7.2 950W 2+1 Redundant Power Supply
Figure 154 950W 2+1 Redundant Power Supply
DC Output Characteristics
Output
Voltage
5V
12V1
12V2
-5V
-12V
3.3V
+5VSB
Output Current
MIN(A) MAX(A)
3.0
2
2
0.2
0.2
2.0
0.4
44
30
50
1.2
1.2
44
3.5
Remarks: Total current of +5V and +3.3V not exceed 80A
Total +12V1 and +12V2 max output not exceed
72A
Total +5V and +3.3V and +12V power not exceed
890W
Table 51 950W PSU DC Output Characteristics
Specification
ITEM
Model Number
Input Voltage/Ferquency
Input Current
Inrush current
Connector Type*
Active Power Factor Correction built
EMI Noise Filter
Safety:
Smart I
2
C interface design
MTBF
Operating temperature
Operating humidity
Efficiency
Dimension
Table 52 950W power supply specification
DESCRIPTION
EMAC M1G3-6930P
90-264 VAC/47~63Hz
9.0/5.0 A for 115/230 VAC
65A/120A Max for 115/230 VAC per modular
EPS 12V*
Yes, meet IEC-1000-3-2 Class D
FCC Class B, CISR22 CLass B
UL 1950, CSA 22.2 No/950 TUV IEC 950
Yes
8 years, continuous at 40 degree C
0 to 40 degree C
20-95% RH
67 % Typical, at full load
42mm(H) x 335mm(D) x 369mm(W)
Connector type for ATX2.03, ATX12V(Pentium 4), WTX or AMD-GES are available, but for special only. Contact your sale representative for more information
101
User Manual ESR 316, ESR 420, ESR 524
102
User Manual ESR 316, ESR 420, ESR 524
101
User Manual ESR 316, ESR 420, ESR 524
7.3 1350W 3+1 Redundant Power Supply
DC Output Characteristics
Output
Voltage
5V
12V
-5V
-12V
3.3V
+5VSB
Output Current
MIN(A) MAX(A)
6
2
0.2
0.3
3.5
0.4
84.5
90
1.2
1.3
67.5
3.5
Table 53 1350W PSU DC Output Characteristics
Figure 155 1350W 3+1 Redundant Power Supply
Specification
ITEM
Model Number
Input Voltage/Ferquency
Input Current
Inrush current
Connector Type*
Active Power Factor Correction built
EMI Noise Filter
Safety:
Smart I
2
C interface design
MTBF
Operating temperature
Operating humidity
Efficiency
Dimension
Table 54 1350W power supply specification
DESCRIPTION
EMAC M1W4-6D50P
90-264 VAC/47~63Hz
9.0/5.0 A for 115/230 VAC
65A/120A Max for 115/230 VAC per modular
EPS 12V*
Yes, meet IEC-1000-3-2 Class D
FCC Class B, CISR22 CLass B
UL 1950, CSA 22.2 No/950 TUV IEC 950
Yes
62276 hours
0 to 40 degree C
20-95% RH
67 % Typical, at full load
42mm(H) x 340mm(D) x 426mm(W)
Connector type for ATX2.03, ATX12V(Pentium 4), WTX or AMD-GES are available, but for special only. Contact your sale representative for more information
102
User Manual ESR 316, ESR 420, ESR 524
8. Equipment Log
Use the following worksheet provided below to record information about your system
Item
Chassis
Server Board
Processor 1
Processor 2
Memory 1
Memory 2
Memory 3
Memory 4
Memory 5
Memory 6
Memory 7
Memory 8
Memory 9
Memory 10
Memory 11
Memory 12
Add-in-card 1
Add-in-card 2
Add-in-card 3
Add-in-card 4
Add-in-card 5
Add-in-card 6
Add-in-card 7
PSU modular 1
PSU modular 2
PSU modular 3
PSU modular 4
Slim-line HDD 1
Slim-line HDD 2
Slim-line HDD 3
Slim-line FDD
Slim-CD/DVD
Slim-line HDD 1
System Fan 1
System Fan 2
Manufacturer Name and Model Number Serial Number Date Installed
103
User Manual ESR 316, ESR 420, ESR 524
104
User Manual ESR 316, ESR 420, ESR 524 User Manual ESR 316, ESR 420, ESR 524
Date Installed Item
Hard Disk 1
Hard Disk 2
Hard Disk 3
Hard Disk 4
Hard Disk 5
Hard Disk 6
Hard Disk 7
Hard Disk 8
Hard Disk 9
Hard Disk 10
Hard Disk 11
Hard Disk 12
Hard Disk 13
Hard Disk 14
Hard Disk 15
Hard Disk 16
Hard Disk 17
Hard Disk 18
Hard Disk 19
Hard Disk 20
Hard Disk 21
Hard Disk 22
Hard Disk 23
Hard Disk 24
Table 55 Equipment log
Manufacturer Name and Model Number Serial Number
103 104
User Manual ESR 316, ESR 420, ESR 524
9. Power Budget Calculation
Use these worksheet below to calculate the total power used by your configuration. List all current into the appropriate voltage level for each device and calculate the total current on each voltage level
DO NOT OVERLOAD: Do not exceed power limit for any DC outputs
9. ESR-316 with 650W Power Supply
Device
System Board
Processor(s) + Cooler(s)
Total Memory
Front Panel LEDs/USB
SCSI/SATA/SAS backplanes
SAS daughter board(s)
Slim-line Floppy Disk Drive
Slim-line CD/DVD-Rom
Total Hard Disk Drives
Total Add-in-Cards
2 x System Fans
Optional Rear Fan(s)
+5Vsb
Current ( Maximum ) at voltage level:
+3.3V
+5V
0.3
3.2
+12V
4.0
-5V -12V
Total Current
Maximum ratings (650W) 2.5
40 60 40 1 1
Table 56 ESR 316 power budget calculation
From the worksheet above, enter the total current for each colume, multiply the voltage by the total current to get the total wattage for each voltage level. Add all the Wattage up and find the total power usage.
Voltage Level and Current
Ohm’s Law (Volts x Amperes=Power)
(+5Vsb) x ( )A
(+5.3V) x ( )A
(+ 5 V ) x ( )A
(+ 12V) x ( )A
(- 5V ) x ( )A
(- 12V) x ( )A
Total Combined Wattage
Table 57 ESR-316 total combined wattage calculation
Power (Watts) on each Voltage Level
105
User Manual ESR 316, ESR 420, ESR 524
106
User Manual ESR 316, ESR 420, ESR 524
105
User Manual ESR 316, ESR 420, ESR 524
9. ESR-420/ESR 524 with 950W Power Supply
Device
System Board
Processor(s) + Cooler(s)
Total Memory
Front Panel LEDs/USB
SCSI/SATA/SAS backplanes
SAS daughter board(s)
Slim-line Floppy Disk Drive
Slim-line CD/DVD-Rom
Total Hard Disk Drives
Total Add-in-Cards
2 x System Fans
Optional Rear Fan(s)
+5Vsb
Total Current
Maximum ratings (950W)
Table 58 ESR-420, ESR-524 power budget calculation
3.5
Current ( Maximum ) at voltage level:
+3.3V
44
+5V
0.3
4.0
56
+12V
4.0
60
-5V
1.2
-12V
1.2
From the worksheet above, enter the total current for each colume, multiply the voltage by the total current to get the total wattage for each voltage level. Add all the Wattage up and find the total power usage.
Voltage Level and Current
Ohm’s Law (Volts x Amperes=Power)
(+5Vsb) x ( )A
(+5.3V) x ( )A
(+ 5 V ) x ( )A
(+ 12V) x ( )A
(- 5V ) x ( )A
(- 12V) x ( )A
Total Combined Wattage
Table 59 ESR-420, ESR-524 total combined wattage calculation
Power (Watts) on each Voltage Level
106
User Manual ESR 316, ESR 420, ESR 524
9. ESR-524 with 1350W Power Supply
Current ( Maximum ) at voltage level:
+3.3V
+5V +12V -5V Device
System Board
Processor(s) + Cooler(s)
Total Memory
Front Panel LEDs/USB
SCSI/SATA/SAS backplanes
SAS daughter board(s)
Slim-line Floppy Disk Drive
Slim-line CD/DVD-Rom
Total Hard Disk Drives
Total Add-in-Cards
2 x System Fans
Optional Rear Fan(s)
+5Vsb
Total Current
Maximum ratings (1350W)
Table 60 ESR-420, ESR-524 power budget calculation
3.5
67.5
0.3
4.8
84.5
4.0
90 1.2
-12V
1.2
From the worksheet above, enter the total current for each colume, multiply the voltage by the total current to get the total wattage for each voltage level. Add all the Wattage up and find the total power usage.
Voltage Level and Current
Ohm’s Law (Volts x Amperes=Power)
(+5Vsb) x ( )A
(+5.3V) x ( )A
(+ 5 V ) x ( )A
(+ 12V) x ( )A
(- 5V ) x ( )A
(- 12V) x ( )A
Total Combined Wattage
Table 61 ESR-420, ESR-524 total combined wattage calculation
Power (Watts) on each Voltage Level
107
User Manual ESR 316, ESR 420, ESR 524
108
User Manual ESR 316, ESR 420, ESR 524
107
User Manual ESR 316, ESR 420, ESR 524
10. BTU usage calculation
Use these worksheet below to calculate the BTU(British Thermal Unit) usage of your ESR system configuration of 50% loading, 75% loading and 100% loading.
9. ESR-316 with 650W Power Supply
Loading Equation to calculate system power comsumption to BTU
50%
BTU hr =
Total Combine Wattage X 2.34
75%
BTU hr =
Total Combine Wattage X 3.59
100%
BTU hr =
Total Combine Wattage X 4.68
Table 62 BTU usage calculation, ESR-316, 650W
Result
9. ESR-420/ESR 524 with 950W Power Supply
Loading Equation to calculate system power comsumption to BTU
50%
BTU hr =
Total Combine Wattage X 2.27
75%
BTU hr =
Total Combine Wattage X 3.40
100%
BTU hr =
Total Combine Wattage X 4.54
Table 63 BTU usage calculation, ESR-420, ESR-524, 950W
9. ESR-524 with 1350W Power Supply
Loading Equation to calculate system power comsumption to BTU
50%
BTU hr =
Total Combine Wattage X 2.27
75%
BTU hr =
Total Combine Wattage X 3.40
100%
BTU hr =
Total Combine Wattage X 4.54
Table 64 BTU usage calculation, ESR-524, 1350W
Result
Result
108
User Manual ESR 316, ESR 420, ESR 524
The system is designed to be serviced by qualified technical personnel.
The desired Mean Time To Repair (MTTR) of the system is 30 minutes including diagnosis of the system problem. To meet this goal, the system enclosure and hardware have been designed to minimize the MTTR. Following table lists are the maximum times that a trained technical personnel should take to perform the maintenance and replace procedure, after diagnosis of the system and having identified the failed component.
Activity
Remove cover
Remove and replace hard disk drive
Remove and replace power supply module
Remove and replace system fan
Remove and replace backplane board
Install slim-line IDE hard disk drive
Install slim-line CD-Rom drive
Install slim-line Floppy Disk Drive
Table 65 Mean Time to Repair
Estimate Time
1 minute
2 minutes
30 seconds
30 seconds
5 minutes
3 minutes
3 minutes
3 minutes
User Manual ESR 316, ESR 420, ESR 524
109 108
User Manual ESR 316, ESR 420, ESR 524 User Manual ESR 316, ESR 420, ESR 524
NOTE
109 108

Public link updated
The public link to your chat has been updated.
Advertisement
Key features
- Hot-swappable components
- Rack-mountable design
- Supports a variety of drives
- Redundant power supply option
- Easy to install and maintain