Brocade FastIron 1600 (FI-SX-1600) 384 port Gigabit Ethernet Switch -120 are PoE

Brocade FastIron 1600 (FI-SX-1600) 384 port Gigabit Ethernet Switch -120 are PoE
Brocade FastIron 1600 (FI-SX-1600) 384 port Gigabit Ethernet Switch -120 are PoE
Brocade FastIron 1600 (FI-SX-1600) 384 port Gigabit Ethernet Switch -120 are PoE
Brocade FastIron 1600 (FI-SX-1600) 384 port Gigabit Ethernet Switch -120 are PoE
Brocade FastIron 1600 (FI-SX-1600) 384 port Gigabit Ethernet Switch -120 are PoE
Brocade FastIron 1600 (FI-SX-1600) 384 port Gigabit Ethernet Switch -120 are PoE

Brocade FastIron 1600 (FI-SX-1600) 384 port Gigabit Ethernet Switch -120 are PoE

EvoSoft - Call 0800 411 8038. Brocade FastIron 1600 (FI-SX-1600) 384 port Gigabit Ethernet Switch -120 are PoE. Managing data network and power over ethernet (POE) devices including voip phones.

The Brocade FastIron SX Series of switches provides an industry-leading price/performance campus aggregation and core solution that offers a scalable, secure, low-latency, and fault-tolerant IP services infrastructure for 1 and 10 Gigabit Ethernet (GbE) enterprise deployments. Organizations can leverage a high-performance, non-blocking architecture and an end-to-end high-availability design with redundant management modules, fans, load-sharing switch fabrics, and power supplies. High-Performance, Non-Stop Networking for Mission-Critical Enterprise Applications and Services. Organizations strive to remain competitive and demand network infrastructures that are resilient, secure, and able to do more with less.

The Brocade FastIron SX Series of Layer 2/Layer 3 switches provides a superior scalable foundation for increased operational efficiency and faster response to business opportunities today and tomorrow. The FastIron SX Series extends control from the network edge to the core with intelligent network services, including superior Quality of Service (QoS), predictable performance, advanced security, comprehensive management, and integrated resiliency. Additionally, the FastIron SX Series offers compatibility in a common operating system, and a shared interface and power supply modules reduce the cost of ownership by minimizing operational expenses and improving Return on Investment (ROI). The FastIron SX Series has an extensive feature set, making it well suited for real-time collaborative applications, IP telephony, IP video, e-learning, Wireless LANs (WLANs), and raising the organization's productivity. The FastIron SX Series delivers wire-speed performance and ultra-low latency, which are ideal for converged network applications such as VoIP and video conferencing. These platforms present the industry's most scalable and resilient PoE design, with a robust feature set to secure and simplify the deployment of an edge-to-core converged network. In addition, the FastIron SX Series supports high-density 10 Gigabit Ethernet (GbE) for enterprise backbone deployments. Industry-leading price-performance value for campus aggregation and core switching, providing a scalable, secure, low-latency, and fault-tolerant infrastructure for 1 GbE and 10 GbE enterprise deployments. High-performance architecture with up to 128 10 GbE and 384 1 GbE ports in a single chassis supporting IPv4/IPv6-capable Layer2/3 switching and routing. High-availability design with Multi-Chassis Trunking, redundant and hot-pluggable management modules (with hitless failover), switch fabrics, power supplies, fans, stateful OSPF redundancy, graceful BGP and OSFP restarts, and hitless In-Service Software Upgrades (ISSU). Embedded sFlow per port to support scalable hardware-based traffic monitoring across all ports without compromising performance. Future-Proofing the Network with IPv6.

Migration to IPv6 is inevitable, but by starting with the deployment of IPv6-capable hardware, organizations can make the transition more controlled and less disruptive to the network. Japan and Europe are aggressively deploying IPv6, and deployment in North America is on the rise. Therefore, it is important that enterprises and service providers plan to deploy IPv6-capable devices to capitalize on this inevitable change.

Combined with the Brocade FCX Series, the Brocade ICX 6610 Switch, and the Brocade MLX® Router solutions, the IPv6-capable FastIron SX Series provides the industry's most complete end-to-end IPv6 solution. Organizations can deploy the switches knowing they are IPv6-capable whether deploying IPv6 today or in the future. The new IPv6-capable FastIron SX Series enables organizations to future-proof the network to support IPv6. These high-performance, IPv6-ready platforms deliver security, convergence, and complete IPv4/IPv6 visibility using embedded sFlow for a robust edge-to-core IPv6 solution.

The FastIron SX Series of switches is optimized for flexibility with upgradability for PoE/PoE+, redundant management, switch fabric and power, and 10 GbE. Available in two chassis models, the scalable FastIron SX Series helps enterprises and service providers reduce costs and gain the operational benefits of a common operating system, a shared interface, and common power supply modules. Up to 128 10 GbE ports. Up to 384 FE/GbE SFP ports. Up to 384 Class 3 PoE or PoE+ (802.3at-compliant) ports.

Up to N+3 system power redundancy. Up to N+3 PoE power redundancy. Maximum Port Density per Unit.

IEEE 802.3af Class 3 10/100/1000 Mbps. IEEE 802.3af Class 3 10/100/1000 Mbps with N+1 PoE Power Redundancy. IEEE 802.3at 10/100/1000 Mbps. IEEE 802.3at 10/100/1000 Mbps with N+1 PoE Power Redundancy. ETSI ETS 300 119-4, Engineering Requirements for Sub-racks in misc.

ANSI/EIA-310-D, Cabinets, Racks, Panels, and Associated Equipment. (H) x 17.45 in.

(W) x 19.5 in. (D) 26.6 cm (H) x 44.3 cm (W) x 49.5 cm (D). (W) x 22.55 in. (D) 62.1cm (H) x 44.3 cm (W) x 57.3 cm (D). 97 lb (43.9 kg). 196 lb (88.6 kg). 0°C to 40°C (32°F to 104°F). 5 to 90%, at 40°C (104°F, non condensing). 25°C to 70°C (-13°F to 158°F).

95% maximum relative humidity, non-condensing. 15,000 ft (4500 m) maximum.

SX 800 Chassis, Fan Tray, 1 P/S: 142,786 hrs SX 800 Chassis, Fan Tray, 2 P/S: 230,584 hrs. SX1600 Chassis, Fan Tray, 2 P/S: 99,908 hrs SX1600 Chassis, Fan Tray, 4 P/S: 213,865 hrs. IPv4/IPv6 Management Module, no ports: 534,522 hrs. IPv4 Management Module, 2x10 GbE ports: 269,436 hrs.

IPv6 Management Module, 2x10 GbE, no optics: 304,109 hrs15,000 ft (4500 m) maximum. Interface modules (IPv4, IPv6-capable versions, and third generation). 48-port 10/100/1000 Mbps Copper Module: 340,000 hrs. 24-port 10/100/1000 Copper Module: 352,103 hrs.

24-port SFP Module: 348,204 hrs. 2-port 10 GbE Module: 464,938 hrs.

System Power Supply (SX-ACPWR, SX-DCPWR). 40 to -60 VDC Consumption (Amps): 36 A 100 to 120 VAC Consumption (Amps): 14.3 A 200 to 240 VAC Consumption (Amps): 7.2 A AC Frequency: 50 to 60 Hz Max BTU: 4874 BTU/Hr Max Watts (Output): 1200 W Max Watts (Input): 1428 W. 100 to 120 VAC Consumption (Amps): 14 A 200 to 240 VAC Consumption (Amps): 7 A AC Frequency: 50 to 60 Hz Max BTU: 4736 BTU/Hr Max Watts (Output): 1250 W Max Watts (Input): 1388 W.

2500W PoE Power Supply (SX-ACPWR-2500-POE). 200 to 240 VAC Consumption (Amps): 14 A AC Frequency: 50 to 60 Hz Max BTU: 9471 BTU/Hr Max Watts (Output): 2500 W Max Watts (Input): 2775 W. Regulatory Compliance and Safety Approvals. UL 60950-1, Second Edition Information Technology EquipmentSafetyPart 1: General Requirement. EN 60950-1: 2006, Information Technology EquipmentSafetyPart 1: General Requirement.

IEC 60950-1, Second Edition Information Technology EquipmentSafetyPart 1: General Requirement. EN 60825-1, Safety of Laser Products.

Equipment Classification, Requirements and User Guide. EN 60825-2, Safety of Laser Products, Safety of Optical Fibre Communications Systems. RoHS Compliant (5 of 6). EN 55022/CISPR 22 Class A.

EN 61000-3-2, Power Line Harmonics. EN 61000-3-3, Voltage Fluctuation and Flicker. AS/NZS CISPR 22, Electromagnetic Compatibility.

EN 61000-6-1, Electromagnetic Compatibility, Generic Standard. EN 55024, Immunity Characteristics Supersedes. EN 61000-4-3, Radiated, Radio Frequency, Electromagnetic Field. EN 61000-4-4, Electrical Fast Transient. EN 61000-4-6, Conducted Disturbances Induced by Radio.

EN 61000-4-8, Power Frequency Magnetic Field. EN 61000-4-11, Power Frequency Magnetic Field.

Universal EIA (Telco) Rack or Tabletop. IEEE 802.3ae 10-Gigabit Ethernet. IEEE 802.3af Power over Ethernet. IEEE 802.3at Power over Ethernet Plus.

IEEE 802.3x Flow Control. IEEE 802.3ad Link Aggregation. IEEE 802.1d Ethernet Bridging. IEEE 802.1D MAC Bridges. IEEE 802.1p/q VLAN Tagging. IEEE 802.1w Rapid Spanning Tree. IEEE 802.1s Multiple Spanning Tree. IEEE 802.1X Port-based Network Access Control.

IEEE 802.1Q Generic VLAN Registration Protocol (GVRP). IEEE 802.3 MAU MIB (RFC 2239).

802.1AE - MACsec (hardware-capable). 802.3az-2010 - EEE (hardware-capable). RFC Compliance - Protocol Support. IPv4 Unicast and IPv4 Multicast over GRE.

RFC 2439 Route Flap Dampening. RFC 2842 BGP4 Capabilities Advertisement. RFC 2918 Route Refresh Capability. Draft-ietf-idr-restart-10 Graceful Restart Mechanism for BGP.

RFC 1583 and 2328 OSPF v2. RFC 1587 OSPF NSSA Option. RFC 1765 OSPF Database Overflow. RFC 1850 OSPF v2 MIB.

RFC 2154 OSPF w/Digital Signatures (Password, MD-5). RFC 2370 OSPF Opaque LSA Option. RFC 3623 Graceful OSPF Restart. RFC Compliance - IP Multicast.

RFC 1256 ICMP Router Discovery Protocol. RFC Compliance - General Routing Protocols.

RFC 894 IP over Ethernet. RFC 1541 and 2131 DHCP. RFC 1212 Concise MIB definitions.

RFC 2579 Textual Conventions for SMIv2. RFC 2580 Conformance Statements for SMIv2. RFC 2453 RIP Version 2. MAC Address Mapping to Priority Queue. ACL Mapping to Priority Queue.

ACL Mapping and Marking of ToS/DSCP. QoS Queue Management Using Weighted Round Robin (WRR), Strict Priority (SP), and a combination of WRR and SP. RFC 1886 DNS Extensions to support IPv6.

RFC 1887 IPV6 Unicast Address Allocation Architecture. RFC 1981 IPv6 Path MTU Discovery.

RFC 2373 IPv6 Addressing Architecture. RFC 2374 IPv6 Aggregatable Global Unicast Address Format.

RFC 2461 IPv6 Neighbor Discovery. RFC 2462 IPv6 Stateless Address Auto-configuration.

RFC 2464 Transmission of IPv6 over Ethernet Networks. RFC 3513 IPv6 Addressing Architecture. RFC 3587 IPv6 Global Unicast Address Format. RFC 2080 RIPng for IPv6. RFC 2740 OSPFv3 for IPv6.

RFC 2893 Transition Mechanisms for IPv6 Hosts and Routers. RFC 3056 Connection of IPv6 Domains via IPv4 Clouds.

RFC 1191 Path MTU Discovery. RFC 1215 SNMP Generic Traps. RFC 1354 IP Forwarding MIB. RFC 1573 SNMP MIB II.

RFC 1757 RMON Groups 1, 2, 3, 9. RFC 2571 Architecture Describing SNMP Framework.

RFC 2570 SNMPv3 Intro to Framework. RFC 2574 SNMPv3 User-based Security Model (USM). RFC 2575 SNMP View-based Access Control Model SNMP (VACM).

RFC 1643 Ethernet-like Interface MIB. RFC 1354 IP Forwarding Table MIB. RFC 2572 SNMP Message Processing and Dispatching.

Dynamic Filters and VLAN assignment. RFC 1901 Introduction to Community-based SNMPv2. RFC 3410 Applicability Statements for SNMP.

RFC 1350 The TFTP Protocol (Revision 2). Industry Standard Command Line Interface (CLI). RMON HP OpenView for Sun Solaris.

HP-UX, IBM's AIX, and Windows NT. Authentication, Authorization, and Accounting (AAA). Bi-level Access Mode (Standard and EXEC Level). Protection for Denial of Service attacks, such as TCP SYN or Smurf Attacks. 1 The two switch fabric modules in the FastIron SX 800 and FastIron SX 1600 operate in a load-sharing fashion. Upon failure of one of the switch modules, some system capacity will be lost. In this event, some traffic flows may experience reduced capacity through the remaining operational switch fabric during periods of high traffic loading. 2 FastIron SX-FI424C and SX-FI624C 1000BaseT modules are field-upgradable to PoE with a PoE daughter card. 3 Computation is based on the 2500 W, 220 VAC PoE power supply. 1 Foundry (Brocade) FastIron SX 1600 Chassis. 1 SX-FI2XGMR4 2-port Management MODULE. 5 SX-FI424C 24-port Gig Copper + PoE. 11 SX-FI424C 24-port Gig Copper. Compiled on Oct 03 2012 at 08:36:55 labeled as SXS07400b. BootROM: Version 07.2.00T3e5 (FEv2).

HW: Chassis FastIron SX 1600. SL 1: SX-FI424C 24-port Gig Copper. P-ASIC 0: type 00D1, rev D2 subrev 00. P-ASIC 1: type 00D1, rev D2 subrev 00. SL 2: SX-FI424C 24-port Gig Copper + PoE.

P-ASIC 2: type 00D1, rev D2 subrev 00. P-ASIC 3: type 00D1, rev D2 subrev 00. SL 3: SX-FI424C 24-port Gig Copper. P-ASIC 4: type 00D1, rev D2 subrev 00. P-ASIC 5: type 00D1, rev D2 subrev 00.

SL 4: SX-FI424C 24-port Gig Copper + PoE. P-ASIC 6: type 00D1, rev D2 subrev 00. P-ASIC 7: type 00D1, rev D2 subrev 00. SL 5: SX-FI424C 24-port Gig Copper. P-ASIC 8: type 00D1, rev D2 subrev 00.

P-ASIC 9: type 00D1, rev D2 subrev 00. SL 6: SX-FI424C 24-port Gig Copper + PoE.

P-ASIC 10: type 00D1, rev D2 subrev 00. P-ASIC 11: type 00D1, rev D2 subrev 00. SL 7: SX-FI424C 24-port Gig Copper. P-ASIC 12: type 00D1, rev D2 subrev 00. P-ASIC 13: type 00D1, rev D2 subrev 00. SL 8: SX-FI424C 24-port Gig Copper + PoE. P-ASIC 14: type 00D1, rev D2 subrev 00.

P-ASIC 15: type 00D1, rev D2 subrev 00. SL 9: SX-FI2XGMR4 2-port Management.

P-ASIC 16: type 01D1, rev 00 subrev 00. P-ASIC 17: type 01D1, rev 00 subrev 00.

SL 11: SX-FI424C 24-port Gig Copper + PoE. P-ASIC 20: type 00D1, rev D2 subrev 00. P-ASIC 21: type 00D1, rev D2 subrev 00. SL 12: SX-FI424C 24-port Gig Copper. P-ASIC 22: type 00D1, rev D2 subrev 00.

P-ASIC 23: type 00D1, rev D2 subrev 00. SL 13: SX-FI424C 24-port Gig Copper. P-ASIC 24: type 00D1, rev D2 subrev 00. P-ASIC 25: type 00D1, rev D2 subrev 00. SL 14: SX-FI424C 24-port Gig Copper.

P-ASIC 26: type 00D1, rev D2 subrev 00. P-ASIC 27: type 00D1, rev D2 subrev 00. SL 15: SX-FI424C 24-port Gig Copper. P-ASIC 28: type 00D1, rev D2 subrev 00.

P-ASIC 29: type 00D1, rev D2 subrev 00. SL 16: SX-FI424C 24-port Gig Copper. P-ASIC 30: type 00D1, rev D2 subrev 00. P-ASIC 31: type 00D1, rev D2 subrev 00.

SL 17: SX-FI424C 24-port Gig Copper. P-ASIC 32: type 00D1, rev D2 subrev 00. P-ASIC 33: type 00D1, rev D2 subrev 00. SL 18: SX-FI424C 24-port Gig Copper. P-ASIC 34: type 00D1, rev D2 subrev 00.

P-ASIC 35: type 00D1, rev D2 subrev 00. 660 MHz Power PC processor 8541 (version 0020/0020) 66 MHz bus. 512 KB boot flash memory. 16384 KB code flash memory. The system uptime is 2 minutes 28 seconds.

FastIron SX 1600 Switch#sh Chassis. Chassis Type: FastIron SX 1600. PoE+ Max Operating Voltage: 54 V.

Power supply 1 (32005000 - AC - Regular) present, status ok. Power supply 2 (32005000 - AC - Regular) present, status ok. Power supply 3 present, status failed, reason NO INPUT POWER (AC or DC).

Power supply 4 not present. Power supply 5 (32007000 - AC - PoE) present, status ok. Power supply 6 (32007000 - AC - PoE) present, status ok. Power supply 7 not present. Power supply 8 not present.

Fan 1 ok, speed (auto): 1<->2<->3<->[4]<->5. Fan 2 ok, speed (auto): 1<->2<->3<->[4]<->5. Rule 1/3 (MGMT CARDS THERMAL PLANE): 36.0 deg-C. Rule 2/3 (LINE CARDS THERMAL PLANE): 48.0 deg-C.

Rule 3/3 (SWITCH FABRIC CARDS THERMAL PLANE): 62.0 deg-C. If you require further information or require any general assistance, please do not hesitate to get in touch! Mauris varius felis ac metus molestie id viverra sem venenatis.

Duis lobortis, mi vel cursus aliquam, nibh nisi vestibulum lectus, vitae varius libero est eu eros. We also accept payments by cheque or Postal Order. Orders placed over the weekend may only be processed on Monday. Collection of goods is also available. Return Authorisation numbers will not be extended or reissued.

Only for certain products, see listing for details. The item "Brocade FastIron 1600 (FI-SX-1600) 384 port Gigabit Ethernet Switch -120 are PoE" is in sale since Sunday, February 28, 2016. This item is in the category "Computers/Tablets & Networking\Enterprise Networking, Servers\Switches & Hubs\Network Switches".

The seller is "winsonsdirect" and is located in manchester, Lancashire. This item can be shipped worldwide.
Brocade FastIron 1600 (FI-SX-1600) 384 port Gigabit Ethernet Switch -120 are PoE


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