Sun StorEdge 3000 Family Installation, Operation, and Service Manual Table Of ContentsPrevious ChapterNext ChapterBook Index


A P P E N D I X  A
Sun StorEdge 3510 FC Array Specifications

This appendix provides the specifications for the Sun StorEdge 3510 FC array. The topics covered are:

A.1 Physical Specifications

TABLE A-1 Sun StorEdge 3510 FC Array Physical Specifications

Description

Desktop

Rackmount

Height

3.64 in. / 9.25 cm

2U (3.45 in. / 8.76 cm)

Width

19 in. / 48.26 cm

17.56 in. / 44.60 cm (body)

Depth

Main chassis 18 in./ 45.72 cm

 

To back of power supply:

20 in. / 50.8 cm

 

To back of power supply handle: 21 in. / 53.34 cm

Main chassis 18 in./ 45.72 cm

 

To back of power supply:

20 in. / 50.8 cm

 

To back of power supply handle: 21 in. / 53.34 cm

Weight (fully loaded)

69.3 lb / 31.4 kg with 73-GB drives

63.3 lb / 28.7 kg with 73-GB drives

Weight (fully loaded expansion unit)

62.9 lb / 28.6 kg with 73-GB drives

56.9 lb / 25.8 kg with 73-GB drives



Note - Add 10.6 lb (4.8 kg) for packaging if you want to know the shipping weight of an array or expansion unit.


A.2 Sun StorEdge 3510 FC Array Highlights

Feature

Description

General

  • Up to 12 hot-pluggable drives in a 2U (3.45 in. / 8.76 cm high) chassis
  • Autosensing AC or DC power supplies
  • Dual-host access in certain configurations

Density

  • Up to 876 GB in a RAID array (with 73 GB drives)
  • 21 in. chassis depth
  • RAID supports up to two expansion units

Reliability

  • Redundant hot-swappable FRUs
  • Single or redundant active/active hot-swappable RAID controllers
  • N+1 hot-swappable power and cooling
  • NEBS Level 3 and HALT test certified; designed to meet 99.999% reliability

RAID System
Storage Resource Management

  • Web-based 10/100BASE-T Ethernet support
  • Serial port out-of-band support with modem control
  • RAID Levels 0, 1, 1+0, 3, 3+0, 5, and 5+0
  • Up to 1024 LUNs
  • SNMP traps and MIB in firmware
  • 1-GB cache memory standard
  • Four channels are user-configurable as drive or host channels; two channels are dedicated drive channels
  • Support for Sun StorEdge Configuration Service and Diagnostic Reporter management software

The following topics briefly describe specific hardware and firmware features.

A.2.1 Hardware Loop ID

Each device communicating on an arbitrated loop requires an AL_PA, the Arbitrated Loop Physical Address. The host Fibre Channel supports a single hard loop ID in the range from 0 to 125. The drive channel allows up to 125 devices to be connected to a single loop.

The controller supports automatic loop ID assignment on the drive channel. A hard loop address ID is assigned to the disk drives by setting the radial switch.

A.2.2 Firmware Host-Side Connection Mode

The controller default is "Loop Only" in "View and Edit Host-side Parameters."

A.2.3 Firmware LUN Filtering (RAID-Based Mapping)

LUN filtering is a method used for separating and controlling access to data from the RAID controller. One major benefit of Fibre Channel is the capability to share a common storage pool with multiple servers or workstations. However, allocation becomes an issue when every server in this network can access the data in a disk array. LUN filtering provides a means for controlling data access if data is not allowed for every server.

When you map a logical drive to a host LUN through the firmware application, you can create a mapping according to the WWPN port names that are specific to each host adapter. A LUN mask can then be created as an access filter for including or excluding host adapters from addressing specific storage unit. It is composed of an ID range that is configured to include one or more IDs. A host adapter can be identified by its ID (device-specific port names) as included or excluded from range. The LUN mask is also defined with a filter type as "read only," "read/write," or "exclude."

A.2.4 Firmware Redundant Loops

The selection of "drive-side dual-loop" is fixed. Since two channels are used to connect a group of physical drives, the two channels automatically assume the same ID address and operate in duplex mode.

A.2.5 Firmware Dynamic Load Balancing

The controller provides a mechanism to equally distribute I/O loads between channels in a redundant loop configuration.

A.3 Agency Approvals and Standards

Product Safety

Standard

Country

 

U.S.

UL Listed to UL60950:2000, 3rd Edition

Canada

CSA Standard CAN/CSA-C22.2 No. 60950-00 3rd Edition

Germany

TÜV

European Union

EN 60950:2000

Japan

Part of World-wide CB Scheme

Australia

Part of World-wide CB Scheme

Argentina

Resolution 92-98 (S-Mark)

Germany

GS mark (ergonomics) (Rheinland)

Russia

Part of World-wide CB Scheme (GOST-R mark)

Russia

Hygienic Mark (ergonomics)

 

 

Electromagnetic Compatibility

Standard

Country

 

U.S.

FCC #47, Part 15, Subpart B, Class B

Canada

ICES-003

Japan

VCCI Class B

European Union

EN 55022:1998 Class B

Australia/New Zealand

AS/NZS 3548:1996

Taiwan

BSMI CNS 13438 Class B

Russia

GOST-R mark

Germany

Same as European Union

Argentina

S mark

Electromagnetic Interference

Test

Standard

Harmonics Emissions

EN 61000-3-2:2000 (No Limits)

Voltage Flicker

EN 61000-3-3:1995/A1:2001 (No Limits)

ESD

EN 55024 (8kV Contact, 15kV Air)

RF Field

EN 55024 (10V/m)

Electrical Fast Transient Burst

EN 55024 (1kV I/O, 2kV Power)

Surge

EN 55024 (1kV I/O, 1kV Power L-L, 2kV Power L-G)

RF Conducted

EN 55024 (3V I/O and Power)

Power Frequency Magnetic Field

EN 55024 (N/A monitors only)

Voltage Dip and Interruption

EN 55024 (0V/0.5cycle, 70%V/0.5sec, 0V/5sec)


 

 

 



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