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DGS-3000-10TC
8-Port 10/100/1000 Base-T + 2 Combo 10/100/1000BASE-T/SFP ports, L2 Management Switch
DGS-3000-26TC
20-Port 10/100/1000 Base-T + 4 Combo 10/100/1000BASE-T/SFP ports + 2-Port 10G SFP+, L2 Management Switch
External Specification
Version 1.00
By: Kaling Yao
Switch & Security Products Div.
2013/1/2
Revision History
Version | Revised Date | Author | Content Revised |
1.00 | 2013/1/2 | Kaling Yao | First Release |
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Content
1. Product Description.. 4
2. Product Specifications. 4
2.1. Hardware Specifications. 4
2.2. Model Description.. 7
2.3. Software Features. 8
3. Mechanism & ID Design: 28
3.1. DGS-3000-10TC/26TC.. 28
3.2. LED indicators. 28
4. Physical & Environment 30
4.1. AC input 30
4.2. Temperature. 30
4.3. Humidity. 30
4.4. Acoustic. 30
5. Environment Requirement 30
5.1. Surge/Lightening Protection.. 30
6. Certifications/Test Reports. 30
6.1. Emissions & Safety. 30
6.2. Safety Certificates and Test Reports. 31
6.3. RoHS Requirement 31
1. Product Description
DGS-3000 series is the latest member of D-Link entry level; non-stacking Layer 2 managed switch product line. This product line has two models: DGS-3000-10TC and DGS3000-26TC. The DGS-3000-10TC provides 8 10/100/1000 Base-T port and 2 SFP port. The DGS-3000-26TC provides 20 10/100/1000 Base-T port, 4 Combo Copper/SFP port and 2 10G SFP+ port.
2. Product Specifications
2.1. Hardware Specifications
Chassis | ||
Dimension | 9-inch 1U Rack-mount size DGS-3000-10TC: 228.5mm x 195mm x 44mm 19-inch, 1U Rack-mount size DGS-3000-26TC: 441mm x 209.9mm x 44mm | |
Weight | DGS-3000-10TC: 1.11 Kg DGS-3000-26TC: 2.01 Kg | |
Console port | For out-of-band management RJ-45 interface type (Cisco compatible) Support baud rate 115200 The position of console port is in the front of switch. | |
Alarm Port | DGS-3000-10TC: No Alarm Port
DGS-3000-26TC: 1. An alarm connector in the front panel that provides 2 input circuit for external event detection and 1 output circuit for alarm action 2. Switch will send out traps, logs and trigger the output alarm when two pins are shorted among the input pair 3. Output alarm circuit support 42 Vac, 50 Hz, 1A max 60 Vdc, 1A max 4. Support configurable logs and traps for external alarms, up to 128 characters user defined warning message can be inserted | |
Acoustic | DGS-3000-10TC Fan turn on: 33.8 dB
DGS-3000-26TC Fan at high speed: 47.8 dB Fan at low speed: 36.4 dB | |
FAN | DGS-3000-10TC: 1. Smart fan with sensor IC that provides auto turn on/off. Turn on: > 26ўJ Turn off: < 20ўJ 2. Alert alarm if fan running at abnormal speed.
DGS-3000-26TC: With fan design 1. Smart fan with sensor IC that provides different fan speed Based on different temperature 2. Fan Speed: The fan speed is low by default High Speed: > 40ўJ Low Speed: < 35ўJ 3. Fans are capable to automatically adjust speed based on system temperature. 4. Alert alarm if fan running at abnormal speed. | |
Real Time Clock (RTC) | Can maintain the timing setting when the device power is off | |
Power | ||
Internal Power Supply | 1. AC Input: 100 - 240 VAC, 50-60 Hz, 1.0A Max 2. Power efficiency: 78% | |
External RPS Support | 1. Provide one connector in rear panel to install optional external RPS to enhance the reliability. 2. RPS Support: DPS-200 3. RPS cable support: DPS-CB150-2PS, this cable provides 1 DC input connector for DPS-200 and 2 DC output connectors for DGS-3000-10TC/26TC. | |
Key Components | ||
CPU | 400 MHz | |
SDRAM | 128MB | |
Flash Memory | 32 MB | |
Performance | ||
Switching Capacity | DGS-3000-10TC: 20Gbps DGS-3000-26TC: 88Gbps | |
64 Byte System Packet Forwarding Rate | DGS-3000-10TC: 14.88Mpps DGS-3000-26TC: 65.48Mpps | |
Packet Buffer | Max 1.5 MB | |
Forwarding Mode | Store and forward | |
Port Functions | ||
10/100/1000Base-T Ports | 20 x 10/100/1000Base-T ports for DGS-3000-26TC 8 x 10/100/1000Base-T ports for DGS-3000-10TC Compliant to following standards: - Auto-negotiation - Auto MDI/MDIX - IEEE 802.3 compliance - IEEE 802.3u compliance - IEEE 802.3ab compliance - IEEE 802.3az compliance - Support Half/Full-Duplex operations - IEEE 802.3x Flow Control support for Full-Duplex mode, Back Pressure when Half-Duplex mode, and Head-of-line blocking prevention | |
Combo ports | 2 x combo 1000BASE-T/SFP ports for DGS-3000-10TC 4 x combo 1000BASE-T/SFP ports for DGS-3000-26TC
1000Base-T ports compliant to following standards: - IEEE 802.3 compliance - IEEE 802.3u compliance - IEEE 802.3ab compliance - Support Full-Duplex operations - IEEE 802.3x Flow Control support for Full-Duplex mode, Back Pressure when Half-Duplex mode, and Head-of-line blocking prevention
SFP Transceivers Supported: - DEM-310GT (1000Base-LX, Single-mode, 10km) - DEM-311GT (1000ase-SX, Mutli-mode, 550m) - DEM-312GT2 (1000Base-SX, Multi-mode, 2km) - DEM-314GT (1000BASE-LHX, Single-mode, 50km) - DEM-315GT (1000BASE-ZX, Single-mode, 80km) - DEM-330T/R (WDM transceiver, Single-Mode 10km) - DEM-331T/R (WDM transceiver, Single-Mode 40km) - DGS-712 (1G Copper, 1000Base-T, 100m) - DEM-210 (100Base-FX, Single-Mode 15km) - DEM-211 (100Base-FX, Multi-mode, 2km) - DEM-220T/R (100Base-BX, Single-Mode, 20km)
Compliant to following standards: - IEEE 802.3z compliance - IEEE 802.3x Flow Control support for Full-Duplex mode. - Support Auto-negotiation for Full-Duplex/ flow control operations | |
SFP+ Ports | 2 x SFP+ ports for DGS-3000-26TC SFP+ ports comply with following standards: - IEEE 802.3ae compliance - IEEE 802.3aq compliance
Supported SFP+ Transceivers: - DEM-431XT: 10GBASE-SR SFP+ Transceiver (w/o DDM), 80m: OM1 & OM2 MMF,300m: OM3 MMF - DEM-431XT-DD: 10GBASE-SR SFP+ Transceiver (with DDM), 80m: OM1 & OM2 MMF, 300m: OM3 MMF - DEM-432XT: 10GBASE-LR SFP+ Transceiver (w/o DDM), 10km - DEM-432XT-DD: 10GBASE-LR SFP+ Transceiver (with DDM), 10km - DEM-433XT: 10GBASE-ER SFP+ Transceiver (w/o DDM), 40km - DEM-433XT-DD: 10GBASE-ER SFP+ Transceiver (with DDM), 40km - DEM-435XT: 10GBASE-LRM SFP+ Transceiver (w/o DDM), 220m: OM1 & OM2 MMF, 300m: OM3 MMF - DEM-435XT-DD: 10GBASE-LRM SFP+ Transceiver (with DDM), 220m: OM1 & OM2 MMF, 300m: OM3 MMF - DEM-436XT-BXU: 10GBASE-LR BiDi SFP+ Transceiver (w/o DDM) 20km, TX: 1270nm, RX: 1330nm - DEM-436XT-BXD: 10GBASE-LR BiDi SFP+ Transceiver (w/o DDM) 20km, TX: 1330nm, RX: 1270nm - DEM-310GT (1000Base-LX, Single-mode, 10km) - DEM-311GT (1000ase-SX, Multi-mode, 500m) - DEM-312GT2 (1000Base-SX, Multi-mode, 2km) - DEM-314GT (1000BASE-LH, Single-mode, 50km) - DEM-315GT (1000BASE-ZX, Single-mode, 80km) - DEM-330T/R (WDM transceiver, Single-Mode 10km) - DEM-331T/R (WDM transceiver, Single-Mode 40km)
Supported SFP+ Direct Attached Cables: Direct Attached Cable is a cable with built-in SFP+ transceivers at both ends - DEM-CB100S: 10-GbE SFP+ 1m Direct Attach Cable - DEM-CB300S: 10-GbE SFP+ 3m Direct Attach Cable - DEM-CB700S: 10-GbE SFP+ 7m Direct Attach Cable | |
2.2. Model Description
Model Name | Detailed Description | Firmware Version |
DGS-3000-10TC | 8-Port 10/100/1000 Base-T + 2 Combo 10/100/1000BASE-T/SFP ports, L2 Management Switch | R1.00 and above |
DGS-3000-26TC | 20-Port 10/100/1000 Base-T + 4 Combo 10/100/1000BASE-T/SFP ports + 2-Port 10G SFP+, L2 Management Switch | R1.00 and above |
2.3. Software Features
Feature | Detailed Description | Standard | Release |
Stackability | |||
Virtual Stacking / Clustering | 1. Support D-Link Single IP Management v1.61 2. Use a single IP to manage the virtual stack with up to 32 D-Link xStack devices 3. Support IPv4 address |
| R1.00 |
L2 Features | |||
MAC Address | 1. Support 16K MAC Address Table; 2. Support 512 static MAC addresses 3. Support black hole MAC address 4. Support max 256 static L2 multicast addresses which share 1024 addresses with both IGMP snooping groups and MLD snooping groups |
| R1.00 |
Flow Control | 1. 802.3x when full duplex 2. Back Pressure when half duplex 3. Head-of-line blocking prevention |
| R1.00 |
Jumbo Frame | 1. Up to 12 KB |
| R1.00 |
Spanning Tree | 1. Support 802.1D STP 2004 Edition 2. Support 802.1w RSTP (IEEE802.1D-2004) 3. Support 802.1s MSTP (IEEE802.1Q-2005) 4. Support max. 8 MSTP Instances 5. Support per port/device BPDU filtering 6. Support Root Restriction (defined in 802.1Q-2005) | IEEE802.1D-2004 IEEE802.1Q-2005 | R1.00 |
Ethernet Ring Protection Switching (ERPS) | 1. Best case supports 50ms recovery time. 2. Support Single Ring. | ITU G.8032 | R1.00 |
Loopback Detection (LBD) | 1. D-Link Loopback Detection 4.04 2. STP independent 3. Support per port/per VLAN shutdown |
| R1.00 |
802.3ad Link Aggregation | 1. Compliant with 802.1AX and 802.3ad 2. Support max group per device as following: DGS-3000-10TC: 5 groups DGS-3000-26TC: 13 groups 3. Support 8 ports per group 4. High availability LACP to prevent single or multiple ports failure in an aggregation channel. 5. Support following load sharing mechanisms - Source MAC - Destination MAC - Source MAC + Destination MAC - Source IP - Destination IP - Source IP + Destination IP |
| R1.00 |
Mirroring | 1. Port Mirroring - Support 1 mirroring group - One-to-one port mirroring - Many-to-one port mirroring - Port mirroring for Tx/Rx/Both 2. Flow-Based (ACL) mirroring |
| R1.00 |
3. RSPAN |
| Future | |
L2 Protocol Tunneling (L2TP) | 1. Support tunnels for the following protocols across the service provider's networks - GVRP - STP - Protocol MAC Type: 01000CCCCCCC, 01000CCCCCCD |
| R1.00 |
Multicasting | |||
L2 Multicast Filtering | 1. Support L2 multicast filtering modes as below - Forward all groups - Forward all unregistered groups - Filter all unregistered groups |
| R1.00 |
IGMP snooping | 1. Support IGMP v1,v2 snooping and v3 awareness 2. Up to 1024 IGMP snooping groups (shared with MLD Snooping Group and static L2 multicast address) 3. Be able to forward the multicast traffic from the multicast-enabled router 4. Be able to forbid multicast traffic on specific ports 5. Per VLAN IGMP Snooping 6. Support port/host based IGMP fast leave 7. Support Data Driven Learning so the switch will build up the entry in its multicast table when sniffing the multicast traffic from the media server. Typically used in an environment where the multicast server is connected to the switch directly. 8. Support Report Suppression. When IGMP report suppression is enabled, the switch sends the first IGMP report from all hosts for a group to all the multicast routers. The switch does NOT send remaining IGMP reports for the group to the multicast routers. This feature prevents duplicate reports from being sent to the multicast devices 9. Support the configuration of maximum allowed multicast groups 10. Support static IGMP snooping groups | RFC1112, 2236, 3376, 4541 | R1.00 |
IGMP Authentication | 1. Check the validity of client's MAC address, Switch IP, Port, and Multicast group IP 2. Only the authenticated port can join IGMP group |
| R1.00 |
Limited IP Multicast (IGMP Filtering) | 1. Filter IGMP join packets 2. Support 24 profiles per system 3. Support port/VLAN based filtering. Each port/VLAN can bind up to 24 profiles independently. 4. Support up to 128 IP multicast group ranges per profile 5. Support IPv4/v6 6. Support replace or drop action while exceed the max multicast group |
| R1.00 |
Proxy Reporting | 1. Proxy-reporting for multicast VLAN 2. Support IGMP/MLD proxy reporting |
| R1.00 |
MLD snooping | 1. Support MLD snooping v1, v2 2. Support MLD v2 awareness (source filter not supported) 3. Up to 1024 MLD snooping groups 4. Support 128 static multicast addresses 5. Be able to forward the multicast traffic from the multicast-enabled router only 6. Be able to forbid multicast traffic on specific ports 7. Per VLAN MLD snooping 8. Can config unregistered group filtering 9. Support host-based MLD fast leave |
| R1.00 |
VLAN | |||
802.1Q | 1. Support 802.1Q 2005 edition |
| R1.00 |
VLAN Group | 1. Total 4094 VLAN groups; 2. Max. 4094 static / 255 dynamic VLAN groups 3. Configurable VID from 1~4094 4. TPID: 0x8100 |
| R1.00 |
Port-based VLAN | 1. Support VLAN tagging Based on PVID 2. Support VLAN classification Based on default port priority |
| R1.00 |
GVRP | 1. Support 255 dynamic groups 2. GVRP advertisement on both dynamic and static VLAN 3. GVRP can be enabled/disabled by per port/VLAN/system basis |
| R1.00 |
802.1v | 1. Support up to 16 protocol-Based VLAN 2. Support 16 protocol-Based VLAN per physical port 3. Be able to configure 802.1Q and 802.1v untagged port on same physical port 4. Support multiple VLANs for each protocol 5. Support VLAN classification Based on ether type | RFC4363 | R1.00 |
Q in Q | 1. Support Port-based Q-in-Q 2. Add SVLAN tag to either untagged or single tagged packets and generate double tagged packets 3. Support Selective Q-in-Q. Add SVLAN based on - MAC address - PVID (for untagged packets only) - CVLAN tag - 802.1p priority - IP Address - Ether type - IPv4/IPv6 Address - TCP/UDP port number 4. Support untagged / single tagged / double tagged at same physical port UNI Port: - For packets ingress from UNI port, the packet can be untagged, or CVLAN tagged - Based on user configuration, SVLAN tag can be added to the packet, or CVLAN tag be replaced with SVLAN tag - The learning and forwarding is based on SVLAN. NNI Port: - For packets ingress from NNI, it can be untag, or single SVLAN tag, or double tags. The switch's learning and forwarding is based on SVLAN.(CVLAN tag is identified by CVALN TPID. SVLAN tag is identified by SVLAN TPID.) 5. Insert CVLAN tag if the packet is recognized as without CVLAN tag. 6. Per port configurable SVLAN TPID 7. Per port configurable CVLAN TPID 8. Support 4 SVLAN TPID |
| R1.00 |
VLAN Translation | 1. Single tag a. Replace VLAN tag based on - Physical port - ACL - Original VLAN tag 2. Double tag a. Support CVLAN translation based on - Physical port - ACL b. Support SVLAN translation based on - Physical port - ACL - CVLAN tag 3. Support up to 1024 entries/rules |
| R1.00 |
Voice VLAN | Support D-Link Voice VLAN v2.02 |
| R1.00 |
MAC-based VLAN | Support at least 1024 entries |
| R1.00 |
ISM-VLAN | 1. Support up to 5 dedicated ISM VLANs 2. Support up to 512 multicast address ranges per ISM VLAN 3. Be able to filter unknown multicast packets per ISM VLAN 4. Support tagged and untagged members while the port still belongs to: - Port-Based VLAN - 802.1Q VLAN whose VID is different from ISM VLAN 5. The IGMP snooping function in ISM VLAN is independent from global IGMP snooping 6. Support IGMP v1/v2/v3 7. Support up to 80 ISM profiles per system; each ISM VLAN can bind up to 16 profiles 8. Each ISM profile can support up to 32 address ranges 9. Source ports can be untagged 10. Support the modification of ISM VLAN's priority level for better traffic control 11. Support the configuration of two ISM VLAN source ports on the switch. When working with STP, it will allow the forwarding of multicast stream using backup link in case the primary link goes down |
| R1.00 |
12. Support MLD v1/v2 |
| Future | |
Private VLAN |
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| R1.00 |
VLAN Trunking | 1. Allow a physical network interface to carry and pass multiple tagged VLAN traffic so different VLAN information can be exchanged between switches |
| R1.00 |
Super VLAN |
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| Future |
L3 Features | |||
ARP | 1. Max 1024 ARP entries 2. Support 255 static ARP entries 3. Support Gratuitous ARP 4. Support IPv4 |
| R1.00 |
Default Route | 1. Support IPv4/v6 address |
| R1.00 |
2. Support IPv4/v6 secondary route |
| Future | |
IPv6 Neighbor Discovery (ND) | 1. Max 512 ND entries 2. Support up to 128 static ND entries |
| R1.00 |
QoS (Quality Of Service) | |||
Priority Queue Mapping | 1. Be able to prioritize packets according to: - 802.1p Priority - Differentiated Services Code Point (DSCP) | RFC2475 | R1.00 |
Number of Queues | 1. Support 8 queues per port |
| R1.00 |
Queue handling | 1. Support following mode - Strict - Weighted Round Robin - Strict + WRR - Deficit Round Robin (DRR) |
| R1.00 |
Class of Service | 1. Be able to classify packets according to following contents: - VID - 802.1p priority - MAC address - Ether type - DSCP - Protocol type - TCP/UDP port number - User defined packet content - IPv4/v6 address - IPv6 Traffic Class - IPv6 flow label | RFC2475, 2598 | R1.00 |
QoS Flow Actions | 1. Support following actions for flows - Remark 802.1p priority tag - Remark TOS/DSCP tag - Bandwidth Control | RFC2597, 2598 | R1.00 |
Three Color Marker | 1. Support Two Rate Three Color Marker (trTCM) - CIR/PIR minimum granularity: 8 kbps - Support CBS/PBS 2. Support single rate three color marker (srTCM) - CIR minimum granularity: 8 kbps - Support CBS/EBS | RFC2697, RFC2698 | R1.00 |
Congestion Control | 1. Support following congestion control mechanism: - Simple Random Early Detection (SRED) |
| Future |
Bandwidth Control | 1. Port-Based bandwidth control - Minimum granularity: 64Kb/s - Ingress / Egress bandwidth control 2. Flow-Based bandwidth control - Minimum granularity: 64Kb/s - Ingress / Egress bandwidth control 3. Per queue bandwidth control - Minimum granularity: 64Kb/s - Per egress queue bandwidth control - Per egress queue bandwidth guarantee |
| R1.00 |
Time-Based QoS |
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| R1.00 |
ACL (Access Control List) | |||
Maximum ACL Entries | 1. Max 4 ingress ACL profiles 2. 1024 ingress ACL rules shared with all profiles. 3. Each rule can be associated to a single port, multiple ports or a VLAN interface. |
| R1.00 |
ACL Policy | 1. Support following ACL policy packet contents - Switch port - 802.1p priority - VID - MAC address - Ether type - IPv4/v6 address - DSCP - Protocol type - TCP/UDP port number - IPv6 Traffic Class/Flow Label/IP address - User defined packet content |
| R1.00 |
ACL Statistics | 1. Support max. 512 counters per system for ACL/QoS statistics 2. Support 29 bit counter |
| R1.00 |
Time-Based ACL |
|
| R1.00 |
CPU interface filtering | 1. Support 5 Profiles / 100 Rules |
| R1.00 |
Security | |||
SSH | 1. Support SSHv1, v2 2. Support IPv4/v6 protocols 3. Allows configuration of SSH port to any desired port number 4. Support 8 management session simultaneously |
| R1.00 |
SSL | 1. Support v1/v2/v3 2. Support IPv4/v6 protocols | RFC2246 | R1.00 |
Port Security | 1. Support max. 64 MACs per port 2. Send trap if violated |
| R1.00 |
Broadcast/Multicast/ | 1. Be able to set up a storm threshold. When broadcast / multicast / DLF unicast or multicast traffic hit the defined threshold, the switch will start blocking or discarding packets which would otherwise 'flood' the network. The blocked port will be activated again only when the broadcast/ multicast traffic falls below the defined threshold. 2. Min granularity: 1 pps 3. Allows the configuration 0~65535 seconds of recovery timer for shutdown ports |
| R1.00 |
Traffic Segmentation |
|
| R1.00 |
IP-MAC-Port Binding (IMPB) | 1. Support D-Link IMPB v.3.93 2. ARP Inspection - Support 510 IPv4 address binding entries - Support 255 IPv6 address binding entries 3. IP Inspection (IPv4/v6) 4. Support IPv4/v6 DHCP Snooping 5. Support IPv6 ND Snooping |
| R1.00 |
D-Link Safeguard Engine | 1. System will send out trap and log when CPU utilization hit the definable threshold 2. Protect CPU from Broadcast / Multicast / Unicast flooding 3. Protect CPU from protocol control packet attacks 4. Support Strict/Fuzzy mode 5. ARP storm (metering) |
| R1.00 |
NetBIOS/NetBEUI filter | 1. Support IP & non-IP (802.3) modes (Default: IP mode) |
| R1.00 |
DHCP Server Screening | 1. Support max. 127 Permit DHCP Server/Client entry 2. Support IPv4 address |
| R1.00 |
3. Support IPv6 address |
| Future | |
ARP Spoofing Prevention | 1. Support 256 entries 2. Support IPv4 address |
| R1.00 |
3. Support IPv6 address |
| Future | |
BPDU Attack Protection | 1. Switch has 3 options when a port receives BPDU packet: - Drop BPDU packets - Drop all packets - Shutdown port |
| R1.00 |
DoS Attack Prevention |
|
| R1.00 |
L3 Control Packet Filtering |
|
| R1.00 |
AAA | |||
802.1X | 1. Support local/RADIUS database - Maximum 448 MACs per port in local database - Maximum 448 MACs per device in local database - Maximum 448 MACs per port in RADIUS database - Maximum 448 MACs per device in RADIUS database - Maximum 128 entries can be added into local database 2. Support Port-based Access Control 3. Support Host-based Access Control - Per port limitation = per system limitation 4. Be able to configure 802.1X packet transparency / filtering when 802.1X is disabled 5. Support EAP, OTP, TLS, TTLS and PEAP 6. Support MD5 authentication 7. Be able to force the 802.1X client to be off-line 8. Support 802.1X session timeout attribute 9. Identity driven policy assignment: - Can assign VLAN, ingress/egress bandwidth control, ACL and 802.1p default priority to the port based on the attributes dispatched from the RADIUS server. - Support 802.1x extension: "Assign user priority based on MACЎЁ 10. Support "RFC3580 tag1/2 formatЎЁ (compatible with Cisco ACS server) 11. Can relay Radius reply message to the client 12. Support IPv6 Radius | RFC2716, 3748 | R1.00 |
13. Support Per-VLAN authentication in order to support client roaming |
| Future | |
Web-Based Access Control (WAC) | 1. Support local/RADIUS database - Maximum TBD MACs per port in local database - Maximum TBD MACs per device in local database - Maximum TBD MACs per port in RADIUS database - Maximum TBD MACs per device in RADIUS database 2. Support logout and logout timer functions 3. Support Port-Based authentication 4. Support Host-Based authentication 5. Identity driven policy assignment: Can assign VLAN, ingress/egress bandwidth control, ACL and 802.1p default priority to the port according to the attributes dispatched from RADIUS server. 6. Support HTTPS 7. Detailed port auth_state description 8. Support default redirect Web page. 9. Support per-VLAN authentication in order to support client roaming. 10. Support IPv4/v6 address |
| Future |
MAC-Based Access Control (MAC) | 1. Support local/RADIUS database - Maximum 128 MACs per port in local database - Maximum 128 MACs per device in local database - Maximum 1,000 MACs per port in RADIUS database - Maximum 1,000 MACs per device in RADIUS database - Maximum 128 entries can be added into local database 2. Support Port-Based authentication 3. Support Host-Based authentication 4. Identity driven policy assignment which can base on the attributes dispatched from the RADIUS server: - Assign ingress/egress bandwidth control, ACL and 802.1p default priority to the port - Assign VLAN to the port or user |
| R1.00 |
Japan Web-Based Access Control | 1. Support IPv4 address 2. Support port-based JWAC. 3. Support host-based JWAC. |
| R1.00 |
4. Support IPv6 address |
| Future | |
Compound Authentication | 1. OR: enable any of the authentication (802.1X/MAC/JWAC/WAC) on a port, client only needs to pass any authentication to gain access 2. AND: Support following authentication criteria - dot1X_IMPB: must pass 802.1X(first) & IMPB - IMPB_JWAC: must pass IMPB(first) & JWAC - IMPB_WAC: must pass IMPB(first) & WAC - MAC_IMPB: must pass MAC(first) & IMPB |
| Future |
Guest VLAN | 1. Support following authentication methods: - 802.1X - MAC-Based Access Control |
| R1.00 |
Microsoft® NAP | 1. Support IPv4/v6 2. Support 802.1X NAP 3. Support DHCP NAP |
| R1.00 |
Authentication for Mgmt. Access | 1. Support following authentication methods: - Local database - RADIUS - TACACS - XTACAS - TACACS+ | RFC 2865, 2618 | R1.00 |
RADIUS | 1. Support IPv4/v6 RADIUS Server |
| R1.00 |
TACACS |
|
| R1.00 |
XTACACS |
|
| R1.00 |
TACACS+ |
|
| R1.00 |
RADIUS Accounting | 1. Support Network accounting (for 802.1x user) 2. Support EXEC accounting (for Mgm Access) 3. Support System accounting (for Mgm Access) | RFC2866 | R1.00 |
TACACS+ Accounting |
|
| R1.00 |
User Account Privilege for Mgmt Access | 1. Support 4 level user account - User: allowed to execute ЎҐshowЎ¦ and some troubleshooting commands (like ping) - Power user: allowed to execute all commands except the ones related to account management and service (telnet/SSH/Web/SNMP/RMON/sFlow etc.) enablement/disablement. - Operator: allowed to execute all commands except the ones related to account management - Administrator: can execute all switch commands. |
| R1.00 |
Authentication Database failover | 1. Allows to configure the switch to check local database or bypass authentication when configured RADIUS server fails - Support 802.1X and MAC, |
| R1.00 |
- Support Compound authentication |
| Future | |
Trusted Host | 1. Support up to 10 trusted host IPv4/v6 ranges 2. Be able to enable trusted host by application - Telnet - SNMP - HTTP - HTTPS - SSH - Ping |
| R1.00 |
OAM | |||
Non-volatile configuration | The updated configuration will be automatically reloaded after system cold/warm restart |
| R1.00 |
Factory Reset | Support factory reset function; reset the system to its default configuration |
| R1.00 |
Loopback Diagnostics | Support loopback detection/diagnostics on the link and physical layers of each switch network interface |
| R1.00 |
Cable Diagnostics | Support cable diagnostic function to check the status of connected RJ-45 cables. |
| R1.00 |
802.3ah Ethernet Link OAM | 1. Support 802.3ah link layer remote loopback and discovery 2. 802.3ah D-Link extension: D-link Unidirectional Link Detection (DULD) 3. Support following dying gasp PDUs and traps: - Power failure - Device reboot - Fan failure | IEEE 802.3ah | R1.00 |
Connectivity Fault Management (CFM) | 1. Support 802.1ag 2. Support up to 8 maintenance domain levels. 3. Support up to 64 MIPs and 64 MEPs at the same time 4. Support per port and per VLAN MIP/MEP configuration 5. Support LinkTrace Message (LTM), Loopback Message (LBM) and Continuity Check Message (CCM) function for MEP - Configurable 802.1p priority of LTM, LBM and CCM - Configurable length and payload of LBM, up to 1,500bytes - Support minimum 10ms CCM packet transmission interval 6. Support LinkTrace Reply (LTR), Loopback Reply (LBR) function for MIP and MEP - Be able to disable LTR function for MIP 7. Support show function for - MIP CCM detail information - Packet statistics counters - Sender ID TLV in all PDUs - Port status TLV & interface status TLV CCM PDUs | IEEE 802.1ag | R1.00 |
Y.1731 Ethernet OAM | 1. Support following Y.1731 functions - Continuity Check Message (CCM) - Unicast/Multicast Loopback Message (LBM), Loopback Reply (LBR) - Link Trace Message (LTM), LinkTrace Reply (LTR) - Alarm Indication Signal (AIS) - Locked (LCK) - Test - Loss measurement (LM) - Delay measurement (DM) - Maintenance Communication Channel (MCC) - Experimental OAM (EXP) - Vendor Specific OAM (VSP) | ITU Y.1731 | Future |
Optical Transceiver Digital Diagnostic Monitoring (DDM) | 1. Comply with SFF-8472 real time access to optical transceiver operating parameters 2. Support configurable warning and auto shut down threshold for following events - Internally measured transceiver temperature - Internally measured transceiver supply voltage - Measured TX bias current in uA - Measured TX output power in mW - Measured RX received optical power in mW 3. Support trap/log for both thresholds | SFF-8472 | R1.00 |
Port Status Monitoring | 1. Support the following port status display functions - Administration and operation status - Source MAC address information, - Display Tx/Rx traffic counter - The link state, full duplex or half duplex communication mode, and automatic negotiation function enabled or disabled |
| R1.00 |
Device Status Monitoring | 1. Support the following equipment status display functions - Plug-in module status - System loading display (CPU, Memory, Fan, powerЎK), CPU utilization ratio and memory usage ratio - System Resource display (Scheduling, Queue, Policy....) |
| R1.00 |
Traffic Monitoring | 1. Support the following traffic information display functions on a per-VLAN basis. - Packet count - Byte count - Byte distribution of ingress subscriber interfaces - Broadcast, multicast and unicast count - Transmission rate of ingress subscriber interface |
| R1.00 |
IGMP Statistics | 1. Support IGMP statistics, including: - IGMP join, IGMP leave, and current number of active multicast groups per port and per ISM VLAN - Current number of active join ports per multicast group |
| R1.00 |
Switch Performance Monitoring | 1. Support following performance monitoring: - Error/Unknown packets - Discarded packets - Unicast/Multicast/ Broadcast packets - CPU utilization ratio and memory usage ratio |
| R1.00 |
2. The monitoring interval of performance counters can be set between 15 minutes to 24 hours. The monitoring counters can be used to provide the performance information of network interfaces. 3. Support minimum granularity 30secs for 15-minutes, 30-mins for 24-hour counter 4. Use local database to store the historical performance data 5. Be able to configure the warning threshold so as to trigger the performance event traps |
| Future | |
Green | |||
Intuitive Power Saving | 1. Support power saving function on all Gigabit RJ-45 ports 2. Support 2 power saving modes - Power Saving Link status - Power Saving Cable length |
| R1.00 |
Power Saving by Link status | 1. Automatically detect link status and reduce power usage of ports that are link-down |
| R1.00 |
Power Saving by Cable length | 1. Analyze the length of Ethernet cables connected to the switch for adjustment of power usage accordingly. |
| R1.00 |
Power Saving by LED Shut-Off | 1. Powered LEDs can be turned on/off by per system based through schedule or admin control (enable/disable forever). |
| R1.00 |
Power Saving by Port Shut-Off | 1. Each port on the system can be turned on/off by schedule or admin control (enable/disable forever) |
| R1.00 |
Power Saving by Port Standby | 1. Each port on the system enters sleep mode by schedule via GUI or command. The port can be turned on via either GUI, command, or any packet sent from link partner. |
| R1.00 |
Power Saving by System Hibernation | 1. System enters hibernation by schedule via GUI or command. In this mode, switches get most power-saving figures since main chipsets (both MAC and PHY) are disabled for all ports. The port can be turned on via command console or pull-out/pull-in power cord |
| R1.00 |
EEE (Energy Efficient Ethernet) |
| IEEE 802.3az | R1.00 |
Management | |||
Web-Based GUI | 1. Compatible with following Web Browsers: - IE5.5 or later versions - Firefox - Safari - Chrome 2. Support IPv4/v6 3. Support HTTPS Management | RFC2068, 2616 | R1.00 |
CLI | 1. Configurable CLI Terminal length |
| R1.00 |
Telnet Server | 1. Support IPv4/v6 | RFC854 | R1.00 |
Telnet Client | 1. Support IPv4/v6 | RFC854 | R1.00 |
TFTP Client | 1. Support IPv4/v6 2. Pre-config TFTP Setting | RFC783, 1350 | R1.00 |
FTP Client | 1. Support IPv4 |
| R1.00 |
2. Support IPv6 |
| Future | |
Remote Copy Protocol (RCP) |
|
| Future |
ZModem |
|
| R1.00 |
SNMP | 1. SNMP v1/v2c/v3 2. SNMP over IPv6 | RFC1157, 1901, 1908, 2570, 2574, 2575 | R1.00 |
SNMP Trap | 1. SNMP supports following trap events: - New MAC Notification - Power and fan errors/recovery - Cold / Warm start-up - Link state change - STP state change - SNMP authentication failure - Mgmt access violation - IP-MAC-Port Binding access violation - Port Security violation - Loopback occurring and recovery - DHCP Server Screening - Gratuitous ARP - While the firmware upgrade via SNMP finishes |
| R1.00 |
System Log | 1. Support IPv4/v6 log server 2. Support MAC log information 3. Support the log for storm control block mode | RFC3164 | R1.00 |
Trap/ Alarm/ Log Severity Control | 1. Allow to divide the severity of logs into 8 levels, and configure to trigger logging only for certain level of logs |
| R1.00 |
Command Logging | 1. Command logging with account message |
| R1.00 |
SMTP | 1. Transmitting critical events to a e-mail address 2. Support IPv4 address 3. Support following events - System start(reboot) - Port link up or link down - SNMP Authentication Failure - Config or log saving by user - Config reset by user - TFTP update fw status | RFC2821 | R1.00 |
4. Support IPv6 address |
| Future | |
RMON v1 | 1. Support 4 RMON Groups 1, 2, 3 & 9 (statistics, history, alarm, and event) 2. Support IPv4/v6 Address | RFC2819 | R1.00 |
RMON v2 | 1. Support Probe config group 2. Support IPv4/v6 Address |
| R1.00 |
LLDP | 1. Support 802.1AB 2. Support LLDP-MED(Media Endpoint Discovery) | IEEE 802.1AB | R1.00 |
BootP/DHCP client | 1. Support IPv4 Address 2. Support DHCP client option 12 | RFC951, 1542, 2131, 3046 | R1.00 |
3. Support IPv6 Address |
| Future | |
DHCP Auto-configuration |
|
| R1.00 |
DHCP relay | 1. Support DHCP relay option 60, 61 2. Support IPv4 DHCP relay option 82 3. Support DHCP local relay function that can insert option 82 information into DHCP broadcast packets from clients 4. Support IPv4 DHCP relay |
| R1.00 |
5. Support DHCP relay option 125 6. Support IPv6 DHCP relay |
| Future | |
DHCP Server | 1. Assign different IPv4/v6 domains based on option 60, 61, 82, 125 2. Support TBD pools, TBD entries 3. Support max. TBD static client binding entries per pool 4. Support configurable DHCP option |
| Future |
PPPoE Circuit-ID Tag Insertion | Insert/delete Circuit ID tag to/from PPPoE packet |
| R1.00 |
Flash File System |
|
| R1.00 |
Multiple Images |
|
| R1.00 |
Multiple Configurations |
|
| R1.00 |
Port Description |
|
| R1.00 |
Editable Login Banner |
|
| R1.00 |
Editable System Prompt |
|
| R1.00 |
CPU Monitoring | 1. Be able to monitor the utilization of CPU via Web/ CLI/ SNMP |
| R1.00 |
Memory Monitoring | 1. Be able to monitor the utilization of Memory via Web/ CLI/ SNMP |
| R1.00 |
DNS Client | 1. ping/tracert /tftp/telnet applications support fully qualify domain name. 2. Support IPv4/v6 address |
| R1.00 |
Debug Command | 1. Support Ў§Show tech supportЎЁ command |
| R1.00 |
Time Setting | 1. NTP/SNTP 2. Support IPv4 address | RFC1769 | R1.00 |
3. Support IPv6 address |
| Future | |
Password Recovery | 1. Can delete a specific account or a specific accountЎ¦s password |
| R1.00 |
Password Encryption |
|
| R1.00 |
ICMPv6 |
|
| R1.00 |
MTU Setting | 1. Allow the ability to modify MTU settings | RFC1191 | R1.00 |
Microsoft® NLB (Network Load Balancing) Support | 1. Used to support Microsoft server load balancing application where multiple servers can share the same IP and MAC address. The request from clients will be forwarded to all servers, but will only be processed by one of them. 2. Support IPv4 NLB 3. Support unicast/multicast NLB |
| R1.00 |
4. Support IPv6 NLB |
| Future | |
Ping | 1. Support IPv4/v6 ping |
| R1.00 |
Traceroute | 1. Support IPv4/v6 |
| R1.00 |
MIB | |||
MIB Structure |
| RFC1065, 1066, 1155, 1156, 2578 | R1.00 |
Concise MIB Definitions |
| RFC1212 | R1.00 |
MIBII |
| RFC1213 | R1.00 |
MIB Traps Convention |
| RFC1215 | R1.00 |
Bridge MIB |
| RFC1493,4188 | R1.00 |
SNMP MIB |
| RFC1157, 2571-2576 | R1.00 |
SNMPv2 MIB |
| RFC 1901-1908, 3418, 3636, 1442, 2578 | R1.00 |
RMON MIB |
| RFC271, 1757, 2819 | R1.00 |
RMONv2 MIB |
| RFC2021 | R1.00 |
Ether-like MIB |
| RFC1398, 1643, 1650, 2358, 2665, 3635 | R1.00 |
802.3 MAU MIB |
| RFC2668 | R1.00 |
802.1p MIB |
| RFC2674,4363 | R1.00 |
Interface Group MIB |
| RFC2233, 2863 | R1.00 |
RADIUS Authentication Client MIB |
| RFC2618 | R1.00 |
MIB for TCP |
| RFC4022 | R1.00 |
MIB for UDP |
| RFC4113 | R1.00 |
MIB for Diffserv. |
| RFC3298 | R1.00 |
RADIUS Accounting Client MIB |
| RFC2620 | R1.00 |
Ping & Traceroute MIB | Can configure the frequency of ping | RFC2925 | R1.00 |
Running configuration writes and backup |
|
| R1.00 |
TFTP uploads and downloads |
|
| R1.00 |
Trap MIB |
|
| R1.00 |
IPv6 MIB |
| RFC2465 | R1.00 |
ICMPv6 MIB |
| RFC2466 | R1.00 |
Entity MIB |
| RFC2737 | R1.00 |
IPv6 SNMP Mgmt Interface MIB |
| RFC4293 | R1.00 |
DDM MIB |
|
| R1.00 |
DIFFSERV MIB |
| RFC3289 | R1.00 |
D-Link Private MIB |
|
| R1.00 |
ZoneDefense MIB |
|
| R1.00 |
Standard compliance | |||
UDP |
| RFC768 | R1.00 |
IP |
| RFC791 | R1.00 |
ICMP | ICMPv4 | RFC792 | R1.00 |
ICMPv6 | RFC2463, 4443 | R1.00 | |
Extended ICMP to Support Multi-Part Messages | RFC4884 | R1.00 | |
TCP |
| RFC793 | R1.00 |
ARP |
| RFC826 | R1.00 |
CIDR |
| RFC1338,1519 | R1.00 |
Definition of the DS Field in the IPv4 and IPv6 Headers |
| RFC2474, 3168, 3260 | R1.00 |
Extensible Authentication Protocol (EAP) |
| RFC 1321, 2284, 2865, 2716, 1759, 3580, 3748 | R1.00 |
SNMP | SNMP Framework | RFC2571 | R1.00 |
SNMP Message Processing and Dispatching | RFC2572 | R1.00 | |
SNMP Applications | RFC2573 | R1.00 | |
User-based Security Model for SNMPv3 |
| R1.00 | |
IPv6 | DNS extension support for IPv6 | RFC 3596 | R1.00 |
Path MTU Discovery for IPv6 | RFC1981 | R1.00 | |
IPv6 | RFC2460 | R1.00 | |
Neighbor Discovery (ND) for IPv6 | RFC2461, 4861 | R1.00 | |
IPv6 Stateless Address Auto-configuration | RFC2462, 4862 | R1.00 | |
IPv6 over Ethernet and definition |
|
| |
Dual Stack Hosts using the Ў§Bump-In-the-StackЎЁ Technology | RFC2464 | R1.00 | |
IPv6 Addressing Architecture | RFC3513, 4291 | R1.00 | |
IPv4/IPv6 dual stack function | RFC2893, 4213 | R1.00 | |
IPv6 Ready Logo | IPv6 Ready Logo phase 2 |
| R1.00 |
3. Mechanism & ID Design:
3.1. DGS-3000-10TC/26TC
Front Panel
DGS-3000-10TC ЎV For reference only
DGS-3000-26TC ЎV For reference only
Rear Panel
DGS-3000-10TC ЎV For reference only
DGS-3000-26TC ЎV For reference only
3.2. LED indicators
Location | LED Indicative | Color | Status | Description | ||||
Per Device | Power | Green | Solid Light | Power On | ||||
Light off | Power Off | |||||||
Console | Green | Solid Light | Console on | |||||
Light off | Console off | |||||||
RPS | Green | Solid Light | RPS power on | |||||
Light off | RPS power off | |||||||
Fan Err | Red | Blinking | When any of the fans has failed | |||||
Light off | When all fans work normally | |||||||
LED Per 10/100/1000 Mbps Port | Link/Act/Speed Mode | Green | Solid Light | When there is a secure connection (or link) to 1000Mbps Ethernet device at any of the ports. | ||||
Blinking | When there is reception or transmission of data occurring at 1000Mbps. | |||||||
Orange | Solid Light | When there is a secure connection (or link) to 10/100Mbps Ethernet device at any of the ports. | ||||||
Blinking | When there is reception or transmission of data occurring at 10/100Mbps. | |||||||
Off | Light off | No link | ||||||
LED Per SFP Port | Link/Act | Green | Solid Light | When there is a secure connection (or link) to 1000Mbps Ethernet device at any of the ports. | ||||
Blinking | When there is reception or transmission of data occurring at 1000Mbps. | |||||||
Orange | Solid Light | When there is a secure connection (or link) to 100Mbps Ethernet device at any of the ports. | ||||||
Blinking | When there is reception or transmission of data occurring at 100Mbps. | |||||||
Off | Light off | No link Дата добавления: 2015-11-05; просмотров: 38 | Нарушение авторских прав
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