intelbras 3570 Series Campus Switches Instructions
- May 15, 2024
- intelbras
Table of Contents
- intelbras 3570 Series Campus Switches
- Product Information
- Product Usage Instructions
- Product Overview
- Features
- Comprehensive Security Control Policies
- Specifications
- Power Capacity and compatible power supply with PoE switches
- Standards And Protocols Compliance
- Read User Manual Online (PDF format)
- Download This Manual (PDF format)
intelbras 3570 Series Campus Switches
Product Information
Specifications
- Model: Intelbras SC 3570 Layer 3 Gigabit Access Switch Series
- Ports:
- 24x 10/100/1000BASE-T Ethernet ports, 4x 1G/10G BASE-X SFP+ ports
- 48x 10/100/1000BASE-T Ethernet ports, 6x 1G/10G BASE-X SFP+ ports
- Features: Telemetry technology, IPv4/IPv6 support, IRF 2 virtualization, comprehensive security control policies
Product Usage Instructions
Installation
- Ensure the switch is powered off before installation.
- Mount the switch in a well-ventilated area with sufficient clearance for heat dissipation.
- Connect the necessary Ethernet cables to the appropriate ports based on your network setup.
- If applicable, connect power over Ethernet (PoE) devices to the PoE+ ports.
- Power on the switch and verify the indicator lights for proper functionality.
Configuration
- Access the switch’s management interface through a web browser or terminal connection.
- Configure basic network settings such as IP address, subnet mask, and default gateway.
- Create VLANs, set up port configurations, and enable desired features like IRF 2 virtualization.
- Implement security control policies such as MAC address authentication and 802.1x authentication.
- Save configurations and test network connectivity to ensure proper operation.
Maintenance
- Regularly check for firmware updates on the Intelbras website and apply them as needed.
- Monitor network performance using the switch’s management tools and address any issues promptly.
- Keep the switch environment clean and free of dust to prevent overheating.
- Backup switch configurations periodically to avoid data loss in case of a failure.
FAQ
-
Q: How do I reset the switch to factory defaults?
A: To reset the switch to factory defaults, locate the reset button on the device, typically found near the Ethernet ports. Press and hold the reset button for about 10 seconds until the indicator lights flash, indicating a successful reset. -
Q: Can I stack multiple SC 3570 switches together?
A: Yes, you can stack multiple SC 3570 switches using the Intelbras Intelligent Resilient Framework 2 (IRF 2) technology. This allows you to create a virtual switch for easier management and improved redundancy.
Product Overview
Intelbras SC 3570 is a new generation of high-performance, high-port density, high-security and easy-to-install intelligent managed Gigabit Ethernet switches developed by Intelbras using industry-leading ASIC technology, supporting IPv4/IPv6 dual-stack management and forwarding, supports static routing protocols and routing protocols such as RIP, OSPF, IS-IS, BGP, etc., and supports rich management and security features. Intelbras SC 3570 products are mainly positioned at the access layer and aggregation layer of enterprises and campuses, meeting high-density Gigabit access, fixed 10 Gigabit uplink ports, supporting PoE+, and building high-performance end-to-end IP network solutions with other Intelbras products.
Intelbras SC 3570 series Ethernet switch includes the following models:
Features
Visualization Ability
Intelbras SC 3570 series switches support Telemetry technology, which can push
real-time resource information and alarm information of the switch to the
operation and maintenance platform through the gRPC protocol. Network quality
backtracking, risk warning, architecture optimization and other functions
accurately guarantee user experience.
High-performance IPv4/IPv6 Service Capabilities
Intelbras SC 3570 series switches implement a hardware-based IPv4/IPv6 dual-
stack platform, support a variety of tunnel technologies, rich IPv4 and IPv6
Layer 3 routing protocols, multicast technologies and policy routing
mechanisms, providing users with complete IPv4 /IPv6 solution.
Intelbras Intelligent Resilient Framework 2 (IRF2)
Intelbras Intelligent Resilient Framework 2 (IRF 2) virtualizes multiple SC
3570 switches into one virtual switch and provides the following benefits:
- Scalability: IRF 2 allows you to add devices to the IRF 2 system easily. It provides a single point of management, enables switch plug-and-play, and supports software auto-update for software synchronization from the master to the new member devices. It brings business agility with lower total cost of ownership by allowing new switches to be added to the fabric without network topology change as business grows.
- High availability: The Intelbras proprietary routing hot backup technology ensures redundancy and backup of all information on the control and data planes and non-stop Layer 3 data forwarding in an IRF 2 fabric. It also eliminates single point of failure and ensures service continuity.
- Redundancy and load balancing: The distributed link aggregation technology supports load sharing and mutual backup among multiple uplinks, which enhances the network redundancy and improves link resources usage.
- Flexibility and resiliency: The switch use standard GE ports instead of specialized ports for IRF links between IRF member devices. This allows customers to assign bandwidth as needed between uplink, downlink, and IRF system connections. In addition, an SC 3570 IRF fabric can span a rack, multiple racks, or multiple campuses.
Comprehensive Security Control Policies
Endpoint Admission Defense (EAD), in conjunction with the backend system, integrates endpoint security (including anti-virus and patching) and network security (including network access control and access right control) into an interactive security system. By checking, isolating, repairing, managing, and monitoring the endpoints, this system turns reactive single-point defense to proactive, all-round defense, and dispersed management to centralized policy management. This system enhances the overall network protection against numerous security threats and improves the responsiveness to new threats. The switch supports unified MAC address authentication, 802.1x authentication, and portal authentication; dynamic or static binding of user identifiers such as user account, IP address, MAC address, VLAN, and port number; and dynamic application of user profiles or policies (such as VLAN, QoS, and ACL) on users. Using the switch in conjunction with Intelbras On-premise centralized software, you can manage and monitor online users in real time and take prompt action on illegitimate behaviors. The switch offers a large number of inbound and outbound ACLs and VLAN-based ACL assignment. The switch supports Unicast Reverse Path Forwarding (uRPF), which protects a network against source spoofing attacks, preventing DoS and DDoS attacks and implement security mechanisms against DoS-type attacks, such as SYN flood, Naptha attack prevention ICMP flood and Smurf.
Multiple Reliability Protection
The SC 3570 series switches have multiple reliability protections at the
device level and link level. The SC 3570 series switches support the
reliability design of dual pluggable AC and DC power modules, and can flexibly
configure AC or DC power modules according to the needs of the actual
environment. In addition, the whole machine also supports power supply and fan
fault detection and alarms. These designs enable the equipment to have higher
reliability. In addition to device-level reliability, the product also
supports a wealth of link-level reliability technologies, including
LACP/STP/RSTP/MSTP/Smart Link/RRPP fast ring network protection mechanisms and
other protection protocols, and supports IRF2 intelligent elastic
architecture, supports 1: N redundancy backup, supports ring stacking, which
greatly improves network reliability. When the network carries multiple
services and large traffic, it does not affect the network convergence time,
ensuring the normal operation of services. It supports basic network
protection mechanism functions, and supports various types of protection, such
as ARP protection. When the ARP rate exceeds the attack threshold, users who
have attack behaviors are isolated.
Abundant QoS Features
The SC 3570 series switches offer abundant QoS features, including:
- Packet filtering based on packet header fields from Layer 2 through Layer 4, including source MAC, destination MAC, source IP, destination IP, TCP/UDP port number, protocol type, and VLAN.
- Flexible queuing and scheduling algorithms configured on a per-port or per-queue basis, including strict priority (SP), weighted round robin (WRR), and SP+WRR.
- Committed access rate (CAR) with the minimum granularity at 16 kbps.
- Port mirroring in both outbound and inbound directions for network monitoring and trouble shooting.
Outstanding Management Capacity
The SC 3570 series switches provide a variety of management features and is
easy to manage.
It offers the following device management features:
- Provides multiple management interfaces, including the console port, USB port.
- Supports configuration and management from CLI or a general-purpose Web-based manager, including Intelbras On-premise centralized software and Open View.
- Supports multiple access methods, including SNMPv1/v2c/v3, Telnet, and more secure SSH 2.0.
- To help customers gain visibility into network application traffic, the switch provides a variety of traffic monitoring and analytic tools, including local port mirroring and Layer 2 remote port mirroring. With these tools, customers can specify multiple monitor ports and collect network traffic data to evaluate network health status, create traffic analysis reports, perform traffic engineering, and optimize resource allocation.
Professional Surge Protection Function
Intelbras SC 3570 series switches use professional built-in surge protection
technology and support the industry-leading 10KV service port surge protection
capability, which greatly reduces the damage rate of surge strikes to
equipment even in harsh working environments.
Cloud Empowerment, Simplified Network
Intelbras SC 3570 series switches support Intelbras cloud solution. Cloud
empowers the network through unified operation and maintenance cloud, enabling
minimal network deployment, achieving minute-level deployment, zero on-site
operation and maintenance, and shortening the time for customer business to go
online; AI empowerment enables minimal network operation and maintenance,
intelligent network optimization, fault prediction, and provides customers
with an excellent user experience; Cloud can also empower business, and
provide customers with business innovation through strong data operation
capabilities. Improve the effectiveness of corporate operations.
Fast PoE, Perpetual PoE
- Fast PoE: Typically, PIs (power interface) does not deliver power to PDs (powered device) the moment the PSE (power sourcing equipment) is powered on but wait until the PSE completes startup. Fast PoE enables PIs to deliver power to PDs within few seconds after power is supplied to the PSE.
- Perpetual PoE: Perpetual PoE continuously monitors the PD states and ensures continued power supply to PDs even when the PSE device is hot rebooting.
Green Technology
Intelbras SC 3570 series switches use the latest energy-saving chips and
innovative architecture design solutions to achieve the lowest power
consumption of gigabit switches, bringing users green, environmentally
friendly and energy-saving new network access products and reducing user
maintenance costs. At the same time, Intelbras SC 3570 series switches adopt
various green energy-saving designs, including auto-power-down (port automatic
energy-saving). If the interface status is always down for a period, the
system will automatically stop power supply to the interface and automatically
enter the energy-saving mode. Support Energy Efficient Ethernet (EEE) energy-
saving function on an Ethernet interface on the RJ-45 ports and low power
operations for industry. If the port is idle for a period, the system will set
the port to the energy-saving mode, and when there is a packet to be sent and
received, it will wake up the port to resume services through the monitoring
code stream sent regularly to achieve the effect of energy saving. Meet the EU
RoHS standard for material environmental protection and safety.
Specifications
Hardware Specifications
Model| SC 3570-24G- 4X| SC 3570-48G- 6X| SC 3570-24GP- 4X| SC
3570-48GP- 6X| SC 3570-24S- 8G-4X| SC 3570-48S-6X
---|---|---|---|---|---|---
Port switch capacity(bps)| 128Gbps| 216Gbps| 128Gbps|
216Gbps| 144Gbps| 216Gbps
System Switching Capacity(bps)| 598Gbps| 598Gbps| 598Gbps|
598Gbps| 598Gbps| 598Gbps
Packet forwarding rate| 96Mpps| 161Mpps| 96Mpps|
161Mpps| 108Mpps| 161Mpps
Flash| 512M| 512M| 512M| 512M| 512M| 512M
Dual boot| Y| Y| Y| Y| Y| y
SDRAM| 1G| 1G| 1G| 1G| 1G| 1G
Buffer(byte)| 2M| 2M| 2M| 2M| 2M| 2M
CPU| 1GHz, 2Cores| 1GHz, 2Cores| 1GHz, 2Cores| 1GHz, 2Cores| 1GHz, 2Cores|
1GHz, 2Cores
Console port| 1 console port(RJ45)| 1 console port(RJ45)| 1
console port(RJ45)| 1 console port(RJ45)| 1 console port(RJ45)| 1
console port(RJ45)
Eth management| /| /| /| /| /| 1
USB Port| /| /| 1| 1| /| /
Service port description| 2410 /100/1000Base-T adaptive Ethernet
ports, 410G SFP+ ports| ****
4810 /100/1000Base-T adaptive Ethernet ports, 610G SFP+ ports
| ****
2410 /100/1000Base-T adaptive Ethernet ports, 410G SFP+ ports
| ****
4810 /100/1000Base-T adaptive Ethernet ports, 610G SFP+ ports
| 24100 /1000BASE-X SFP ports, 8 10 /100/1000Base-T ports, 410G SFP+
ports| 48100 /1000BASE-X SFP ports , 610G SFP+ ports
Auto MDI/MDIX| Y| Y| Y| Y| Y| Y
PoE+| /| /| Y| Y| /| /
LEDs Power, SYS, Link/Act, PoE and FAN| Y| Y| Y| Y|
Y| Y
Dimensions (W×D×H, unit: mm ) EIA 19”| 440× 360×43.6|
440× 360×43.6| 440×400×43.6| 440×400×43.6| 440×
360×43.6| 440× 360×43.6
weight| ≤5.6kg| ≤6.0kg| ≤7.5kg| ≤7.5kg| ≤4.5KG| ≤4.5KG
---|---|---|---|---|---|---
Input voltage (power supplies do not follow the product by default)|
AC
- Rated voltage range: 100V ~ 240V AC , 50/60Hz
- Maximum voltage range: 90V ~ 264V AC ,47 ~ 63Hz DC
- Rated voltage range: -48V~- 60V DC
- Maximum voltage range: – 36V~-72V DC
| AC
- Rated voltage range: 100V ~ 240V AC ,50/60Hz
- Maximum voltage range: 90V ~ 264V AC ,47 ~ 63Hz DC
- Rated voltage range: -48V~- 60V DC
- Maximum voltage range: – 36V~-72V DC
|
- Rated voltage range: 100V~ 240V AC, 50/60Hz
- Maximum voltage range: 90V~290V AC, 47~63Hz
|
- Rated voltage range: 100V~ 240V AC,50/60Hz
- Maximum voltage range: 90V~290V AC, 47~63Hz
| AC
- Rated voltage range: 100V ~ 240V AC , 50/60Hz
- Maximum voltage range: 90V ~ 264V AC , 47 ~ 63Hz DC
- Rated voltage range: -48V~- 60V DC
- Maximum voltage range: – 36V~-72V DC
| AC
- Rated voltage range: 100V ~ 240V AC , 50/60Hz
- Maximum voltage range: 90V ~ 264V AC , 47 ~ 63Hz DC
- Rated voltage range: -48V~- 60V DC
- Maximum voltage range: – 36V~-72V DC
Power consumption (static)| Single AC: 16W Single DC: 22W Dual AC: 18W Dual
DC: 27W| Single AC: 18W Single DC: 23W Dual AC: 23W Dual DC: 29W| Single: 42W
Dual: 50W| Single: 42W Dual: 50W| Single AC: 29W Single DC: 30W Dual AC: 35W
Dual DC: 35W| Single AC: 36W Single DC: 38W Dual AC: 43W Dual DC: 43W
Power consumption (at full load)| Single AC: 37W Single DC: 41W Dual AC: 39W
Dual DC: 45W| Single AC: 55W Single DC: 56W Dual AC: 57W
Dual DC: 61W| Single: 965W(PoE is 840W)
Dual: 960W(PoE is 840W)| Single: 1668W(PoE is 1530W)
Dual: 1935W(PoE is 1680W)| Single AC: 52W Single DC: 54W Dual AC: 58W
Dual DC: 60W
| Single AC: 77W Single DC: 77W Dual AC: 80W
Dual DC: 84W
Fan| 2| 2| 2| 2| 3| 3
MTBF(Year)| 96.94| 79.5| 55.25| 74.5| 67.03| 60.98
Working temperature| -5℃~45℃| -5℃~45℃| -5℃~45℃| -5℃~45℃| -5℃~45℃| -5℃~45℃
Relative humidity of working environment (non-
condensing)| 5%~95%| 5%~95%| 5%~95%| 5%~95%| 5%~95%| 5%~95%
Software Specifications
Feature | SC 3570 switch series |
---|---|
Port aggregation | GE/10GE port aggregation Dynamic aggregation Static |
aggregation Cross-device aggregation
Port Characteristics| Support IEEE 802.3x flow control (full duplex) Supports
storm suppression based on port rate percentage Supports PPS-based storm
suppression Support bps-based storm suppression
IRF2| Distributed device management, distributed link aggregation, and
distributed resilient routing Stacking through standard Ethernet interfaces
Local device stacking and remote device stacking
MAC address table| Static MAC address Blackhole MAC address
VLAN| Port-based VLAN MAC-based VLAN Protocol-based VLAN Guest-vlan Private-
vlan Voice VLAN mode auto (through OUI addresses and through LLDP) QinQ and
selective QinQ VLAN mapping GVRP Lldp, lldp-med (med-tlv network-policy)
DHCP Ipv4 & ipv6| DHCP Client DHCP Snooping
DHCP Snooping option82 DHCP Relay
DHCP Server
DHCP auto-config
IP routing
| IPv4/IPv6 routing table Static routing
RIPv1/v2 and RIPng OSPFv1/v2 and OSPFv3 BGP/BGP4+ for IPv6
IS-IS/IS-ISv6
Equal-cost multi-path routing (ECMP) and policy routing VRRP (255 groups)
Policy-Based Routing (PBR)
GRE/IPv4 tunnel GRE/IPv6 tunnel
IPv6| Ping, Traceroute, Telnet, SSH, SNMP, DNS, and switch management
---|---
Multicast| IGMP Snooping V2/V3
PIM-SM/PIM-SSM/PIM-DM MSDP
MLD Snooping
Multicast VLAN
Layer 2 ring network protocol| STP/RSTP/MSTP (up to 64 instances)/PVST/PVST+
Root Guard
BPDU Guard BPDU Filter Loop Guard TC Guard Flap Guard
Edged-port (When the link to a port comes up and 802.1W detects that the port
is an Edge port, that port instantly goes into a forwarding state)
Smart Link RRPP
G.8032 ERPS (Ethernet Ring Protection Switching)
ACL| Packet filtering at Layer 2 through layer 4 Traffic classification based
on source MAC addresses, destination MAC addresses, source IPv4/IPv6
addresses, Time range-based ACL VLAN-based ACL Bidirectional ACL
QoS| Port rate limit (receiving and transmitting) Generic Traffic Shaping
(GTS)
Traffic policing (traffic behavior) Packet redirection
Committed access rate (CAR) Eight output queues on each port
Flexible queue scheduling algorithms based on ports and queues, including SP,
WRR and SP+WRR 802.1p, DSCP, ip-precedence (classifier and remark)
Traffic statistic| Sflow
Forwarding| Wire-speed/Line-rate architecture
Mirroring| Port mirroring RSPAN
Security| Hierarchical user management and password protection Role-based
access control (RBAC)
AAA authentication support
RADIUS authentication (COA Support) HWTACACS
SSH2.0
| Secure Copy Port isolation
802.1X authentication, centralized MAC authentication 802.1X (Port Method –
MAC-based, Port-based) With the port-based method, after the first user of a
port passes authentication, all other users of the port can access the network
without authentication, and when the first user goes offline, all other users
also go offline at the same time. With the MAC-based method, each user on a
port must be authenticated separately, and when an authenticated user goes
offline, no other users are affected.
Port-based access control If an 802.1X Auth-Fail VLAN is available, the device
assigns the port to the Auth-Fail VLAN. All users on this port can access only
resources in the Auth-Fail VLAN.
MAC-based access control If an 802.1X Auth-Fail VLAN is available, the device
remaps the MAC address of the user to the Auth-Fail VLAN. The user can access
only resources in the Auth-Fail VLAN.
802.1x max-user max-number – default is 4294967295 Port security
IP Source Guard HTTPs
EAD
Support BPDU guard, Root guard
---|---
Management and maintenance
| Loading and upgrading through XModem/FTP/TFTP/SFTP Zero Touch Provisioning
Configuration through Web interface (http and https), CLI, SSH, Telnet, and
console port Max simultaneous sessions: http – 64 sessions https – 64
sessions telnet – 32 sessions ssh – 32 sessions SNMPv1/v2c/v3 and Web-based
NMS Restful Python
5 RMON groups: Statistics Group (Number of collisions, CRC alignment errors,
Number of packets below or above minimum size, Number of broadcasts, Number of
multicasts, Number of bytes received, Number of packets received);
History Group (Bandwidth Utilization, Number of Error Packets, Total Number of
Packets); Event Group (Log, Trap, Log-Trap); The event group controls the
generation and notifications of events triggered by the alarms defined in the
alarm group and the private alarm group. The following are the methods of
handling RMON alarm events: Alarm Group (The RMON alarm group monitors alarm
variables, such as the count of received packets (etherStatsPkts) on an
interface.); Private Alarm Group (The private alarm group allows you to
perform basic mathematical operations on various variables and compare the
calculation result with the rise and fall thresholds.) NQA (Network quality
analyzer): ICMP echo ,ICMP jitter ,DHCP ,DNS ,FTP ,HTTP ,UDP jitter ,SNMP ,TCP
,UDP echo ,UDP tracert ,voice ,DLSw ,path jitter. INC – Intelbras Network
Center INC Cloud – Intelbras Network Center Cloud System log, alarming based
on severities, and output of debugging information NTP Ping, Tracert Virtual
cable test (VCT)
| Device link detection protocol (DLDP) Loopback-detection
Port auto power down
Energy Efficient Ethernet
---|---
Performance Specification
Model| SC 3570-24G- 4X| SC 3570-48G- 6X| SC 3570-24GP- 4X| SC 3570-48GP- 6X|
SC 3570-24S- 8G-4X| SC 3570-28S- 6X
---|---|---|---|---|---|---
MAC address entries| 32768| 32768| 32768|
32768| 32768| 32768
VLAN table| 4094| 4094| 4094| 4094| 4094| 4094
VLAN interface| 1022| 1022| 1022| 1022| 1022| 1022
IPv4 routing entries| 12288| 12288| 12288|
12288| 12288| 12288
IPv4 ARP entries| 8192| 8192| 8192| 8192| 8192| 8192
IPv4 ACL entries| Ingress:1280 Egress:512| Ingress:1280 Egress:512|
Ingress:1280 Egress:512| Ingress:1280 Egress:512| Ingress:1280 Egress:512|
Ingress:1280 Egress:512
IPv4 multicast L2 entries| 4000| 4000| 4000| 4000|
4000| 4000
IPv4 multicast L3 entries| 4000| 4000| 4000| 4000|
4000| 4000
IPv6 unicast routing entries| 4096| 4096|
4096| 4096| 4096| 4096
QOS forward queues| 8| 8| 8| 8| 8|
8
IPv6 ACL entries| Ingress:1280 Egress:512| Ingress:1280 Egress:512|
Ingress:1280 Egress:512| Ingress:1280 Egress:512| Ingress:1280 Egress:512|
Ingress:1280 Egress:512
IPv6 ND entries| 4096| 4096| 4096| 4096| 4096| 4096
IPv6 multicast L2 entries| 2000| 2000| 2000| 2000|
2000| 2000
IPv6 multicast L3 entries| 2000| 2000| 2000| 2000|
2000| 2000
Jumbo frame length (Bytes)| 12288| 12288|
12288| 12288| 12288| 12288
Max Stacking Members| 9| 9| 9| 9|
9| 9
Max Stacking Bandwidth| 80Gbps| 80Gbps| 80Gbps| 80Gbps| 80Gbps| 80Gbps
---|---|---|---|---|---|---
MAX num in one link group| 8| 8| 8| 8| 8| 8
Link group num| 126| 126| 126| 126| 126| 126
Power Capacity and compatible power supply with PoE switches
**Power supply 1| ****Power supply 2| SC 3570-24GP-4X| SC
3570-48GP-6X
---|---|---|---
Total PoE power capacity| ****PoE Ports Quantity| Total
PoE power capacity| ****PoE Ports Quantity
| | | 15.4W (802.3af): 24| | 15.4W (802.3af): 34
PSR600-54A-B| /| 530W| 30W (802.3at): 17| 530W| 30W (802.3at): 17
| | | 35W: 15| | 35W: 15
| | | 15.4W (802.3af): 24| | 15.4W (802.3af): 48
PSR920-54A-B| /| 840W| 30W (802.3at): 24| 850W| 30W (802.3at): 28
| | | 35W: 24| | 35W: 25
PSR1600-54A-B| | | 15.4W (802.3af): 24| | 15.4W (802.3af): 48
(Input Voltage: 90V| /| 840W| 30W (802.3at): 24| 850W| 30W (802.3at): 28
AC~176V AC)| | | 35W: 24| | 35W: 25
PSR1600-54A-B (Input| | | ** 15.4W (802.3af): 24| | 15.4W (802.3af):
48
Voltage:176V| /| 840W| 30W (802.3at): 24| 1530W| 30W (802.3at): 48
AC~290V AC or 180V DC~320V DC)| | | 35W: 24| | 35W: 43
| | | 15.4W(802.3af): 24| | 15.4W (802.3af): 48
PSR600-54A-B| PSR600-54A-B| 840W| 30W (802.3at): 24| 1100W| 30W (802.3at): 36
| | | 35W: 24| | 35W: 31
| | | 15.4W (802.3af): 24| | 15.4W (802.3af): 48
PSR600-54A-B| PSR920-54A-B| 840W| 30W (802.3at): 24| 1100W| 30W (802.3at): 36
| | | 35W: 24| | 35W: 31
| | | 15.4W (802.3af): 24| | 15.4W (802.3af): 48
PSR920-54A-B| PSR920-54A-B| 840W| 30W (802.3at): 24| 1680W| 30W (802.3at): 48
| | | 35W: 24| | 35W: 48
PSR920-54A-B (Input Voltage: 90V AC~176V AC)| PSR1600-54A-B (Input Voltage:
90V AC~176V AC)| 840W| 15.4W (802.3af): 24 30W (802.3at): 24 35W: 24|
**** 1340W| 15.4W (802.3af): 48 30W (802.3at): 44 35W: 38
PSR920-54A-B (Input Voltage: 176V AC~290V AC or 180V DC~320V DC)| PSR920-54A-B
(Input Voltage: 176V AC~290V AC or 180V DC~320V DC)| 840W|
15.4W (802.3af): 24 30W (802.3at): 24
35W: 24
| 1680W| 15.4W (802.3af): 48
30W (802.3at): 48
35W: 48
---|---|---|---|---|---
| | | 15.4W (802.3af): 24| | 15.4W (802.3af): 48
PSR1600-54A-B| PSR1600-54A-B| 840W| 30W (802.3at): 24| 1680W| 30W (802.3at):
48
| | | 35W: 24| | 35W: 48
Note: power supplies do not follow the product by default
Standards And Protocols Compliance
Organization | Standards And Protocols |
---|---|
**** IEEE | 802.1x Port based network access control protocol |
802.1ab Link Layer Discovery Protocol
802.1ak MVRP and MRP
802.1ax Link Aggregation
802.1d Media Access Control Bridges
802.1p Priority
802.1q VLANs
802.1s Multiple Spanning Trees
802.1ag Connectivity Fault Management
802.1v VLAN classification by Protocol and Port
802.1w Rapid Reconfiguration of Spanning Tree
802.3ad Link Aggregation Control Protocol
802.3af Power over Ethernet
802.3at Power over Ethernet
802.3az Energy Efficient Ethernet
| 802.3ah Ethernet in the First Mile
---|---
802.3x Full Duplex and flow control
802.3u 100BASE-T
802.3ab 1000BASE-T
802.3z 1000BASE-X
802.3ae 10-Gigabit Ethernet
IETF| RFC 768 User Datagram Protocol (UDP)
RFC 791 Internet Protocol (IP)
RFC 792 Internet Control Message Protocol (ICMP)
RFC 793 Transmission Control Protocol (TCP)
RFC 813 Window and Acknowledgement Strategy in TCP
RFC 815 IP datagram reassembly algorithms
RFC 821 Path MTU Discovery for IP version 6
RFC 826 Address Resolution Protocol (ARP)
RFC 879 TCP maximum segment size and related topics
RFC 896 Congestion control in IP/TCP internetworks
RFC 917 Internet subnets
RFC 919 Broadcasting Internet Datagrams
RFC 922 Broadcasting Internet Datagrams in the Presence of Subnets (IP_BROAD)
RFC 951 BOOTP
RFC 1027 Proxy ARP
RFC 1213 MIB-2 Stands for Management Information Base
RFC 1757 Remote Network Monitoring Management Information Base
RFC 1122 Requirements for Internet Hosts – Communications Layers
RFC 1215 Convention for defining traps for use with the SNMP
| RFC 1256 ICMP Router Discovery Messages
---|---
RFC 1350 TFTP Protocol (revision 2)
RFC 1393 Traceroute Using an IP Option
RFC 1403 BGP OSPF Interaction
RFC 1519 Classless Inter-Domain Routing (CIDR)
RFC 1542 BOOTP Extensions
RFC 1583 OSPF Version 2
RFC 1591 Domain Name System Structure and Delegation
RFC 1657 Definitions of Managed Objects for BGP-4 using SMIv2
RFC 1772 Application of the Border Gateway Protocol in the Internet
RFC 1812 Requirements for IP Version 4 Router
RFC 1918 Address Allocation for Private Internet
RFC 1997 BGP Communities Attribute
RFC 1998 An Application of the BGP Community Attribute in Multi-home Routing
RFC 2131 Dynamic Host Configuration Protocol (DHCP)
RFC 2132 DHCP Options and BOOTP Vendor Extensions
RFC 2236 Internet Group Management Protocol, Version 2 (IGMPv2)
RFC 2273 SNMPv3 Applications
RFC 2328 OSPF Version 2
RFC 2375 IPv6 Multicast Address Assignments
RFC 2385 Protection of BGP Sessions via the TCP MD5 Signature Option
RFC 2401 Security Architecture for the Internet Protocol
RFC 2402 IP Authentication Header
RFC 2439 BGP Route Flap Damping
RFC 2460 Internet Protocol, Version 6 (IPv6) Specification
| RFC 2464 Transmission of IPv6 over Ethernet Networks
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RFC 2474. Definition of the Differentiated Services Field (DS Field) in the
IPv4 and IPv6 Headers
RFC 2545 Use of BGP-4 Multiprotocol Extensions for IPv6 Inter-Domain Routing
RFC 2576 (Coexistence between SNMP V1, V2, V3)
RFC 2579 Textual Conventions for SMIv2
RFC 2580 Conformance Statements for SMIv2
RFC 2710 Multicast Listener Discovery (MLD) for IPv6
RFC 2711 IPv6 Router Alert Option
RFC 2787 Definitions of Managed Objects for the Virtual Router Redundancy
Protocol
RFC 2918 Route Refresh Capability for BGP-4
RFC 2925 Definitions of Managed Objects for Remote Ping, Traceroute, and
Lookup Operations
RFC 2934 Protocol Independent Multicast MIB for IPv4
RFC 3101 OSPF Not-so-stubby-area option
RFC 3019 MLDv1 MIB
RFC 3046 DHCP Relay Agent Information Option
RFC 3056 Connection of IPv6 Domains via IPv4 Clouds
RFC 3065 Autonomous System Confederation for BGP
RFC 3137 OSPF Stub Router Advertisment sFlow
RFC 3376 IGMPv3
RFC 3416 (SNMP Protocol Operations v2)
RFC 3417 (SNMP Transport Mappings)
RFC 3418 Management Information Base (MIB) for the Simple Network Management
Protocol (SNMP)
RFC 3484 Default Address Selection for IPv6
RFC 3509 Alternative Implementations of OSPF Area Border Routers
RFC 3580 IEEE 802.1X Remote Authentication Dial In User Service (RADIUS) Usage
Guidelines
| RFC 3623 Graceful OSPF Restart
---|---
RFC 3768 Virtual Router Redundancy Protocol (VRRP)
RFC 3810 Multicast Listener Discovery Version 2 (MLDv2) for IPv6
RFC 3973 PIM Dense Mode
RFC 4022 MIB for TCP
RFC 4113 MIB for UDP
RFC 4213 Basic Transition Mechanisms for IPv6 Hosts and Routers
RFC 4251 The Secure Shell (SSH) Protocol
RFC 4252 SSHv6 Authentication
RFC 4253 SSHv6 Transport Layer
RFC 4254 SSHv6 Connection
RFC 4271 A Border Gateway Protocol 4 (BGP-4)
RFC 4273 Definitions of Managed Objects for BGP-4
RFC 4291 IP Version 6 Addressing Architecture
RFC 4292 IP Forwarding Table MIB
RFC 4293 Management Information Base for the Internet Protocol (IP)
RFC 4360 BGP Extended Communities Attribute
RFC 4419 Key Exchange for SSH
RFC 4443 ICMPv6
RFC 4456 BGP Route Reflection: An Alternative to Full Mesh Internal BGP (IBGP)
RFC 4486 Subcodes for BGP Cease Notification Message
RFC 4541 IGMP & MLD Snooping Switch
RFC 4552 Authentication/Confidentiality for OSPFv3
RFC 4601 PIM Sparse Mode
RFC 4607 Source-Specific Multicast for IP
| RFC 4724 Graceful Restart Mechanism for BGP
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RFC 4750 OSPFv2 MIB partial support no SetMIB
RFC 4760 Multiprotocol Extensions for BGP-4
RFC 4861 IPv6 Neighbor Discovery
RFC 4862 IPv6 Stateless Address Auto-configuration
RFC 4940 IANA Considerations for OSPF
RFC 5059 Bootstrap Router (BSR) Mechanism for PIM, PIM WG
RFC 5065 Autonomous System Confederation for BGP
RFC 5095 Deprecation of Type 0 Routing Headers in IPv6
RFC 5176 Dynamic Authorization Extensions to Remote Authentication Dial In
User Service (RADIUS)
RFC 5187 OSPFv3 Graceful Restart
RFC 5340 OSPFv3 for IPv6
RFC 5424 Syslog Protocol
RFC 5492 Capabilities Advertisement with BGP-4
RFC 5519 Multicast Group Membership Discovery MIB (MLDv2 only)
RFC 5798 VRRP (exclude Accept Mode and sub-sec timer)
RFC 5880 Bidirectional Forwarding Detection
RFC 5905 Network Time Protocol Version 4: Protocol and Algorithms
Specification
RFC 6620 FCFS SAVI
RFC 6987 OSPF Stub Router Advertisement
RFC5120 M-ISIS: Multi Topology (MT) Routing in Intermediate System to
Intermediate Systems (IS-ISs)
RFC5280 Internet X.509 Public Key Infrastructure Certificate and Certificate
Revocation List (CRL) Profile
RFC5308 Routing IPv6 with IS-IS
RFC5381 Experience of Implementing NETCONF over SOAP
ITU| ITU-T Y.1731
| ITU-T Rec G.8032/Y.1344 Mar. 2010
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