Huawei AR530 Series
Manuals and User Guides for Huawei AR530 Series. We found 2 manuals for free downloads User manual
Huawei AR530 Series, AR550 Series Configuration Manual
Brand: Huawei Category: Networking Size: 7 MB Pages: 408
Languages: English
Table of contents
- 15 1 MAC Address Table Configuration
- 16 1.1 Introduction to the MAC Address
- 16 1.2 Principles
- 16 1.2.1 MAC Address Table
- 18 1.2.2 Disabling MAC Address Learning and Limiting the Number of MAC Addresses
- 19 1.2.3 Port Security
- 19 1.2.4 MAC Address Flapping
- 21 1.3 Application Environment
- 21 1.4 Configuration Task Summary
- 23 1.5 Default Configuration
- 23 1.6 Configuring the MAC Address Table
- 23 1.6.1 Configuring the MAC Address Table
- 24 1.6.1.1 Configuring a Static MAC Address Entry
- 24 1.6.1.2 Configuring a Blackhole MAC Address Entry
- 25 1.6.1.3 Setting the Aging Time of Dynamic MAC Address Entries
- 25 1.6.1.4 Disabling MAC Address Learning
- 26 1.6.1.5 Limiting the Number of Learned MAC Addresses
- 27 1.6.1.6 Checking the Configuration
- 28 1.6.2 Configuring Port Security
- 28 1.6.2.1 Configuring the Secure MAC Function on an Interface
- 30 1.6.2.2 Configuring the Sticky MAC Function on an Interface
- 31 1.6.2.3 Checking the Configuration
- 31 1.6.3 Configuring MAC Address Flapping Detection
- 32 1.6.4 Configuring the Router to Discard Packets with an All-0 MAC Address
- 33 1.7 Configuration Examples
- 33 1.7.1 Example for Configuring the MAC Address Table
- 35 1.7.2 Example for Configuring Port Security
- 37 1.7.3 Example for Configuring MAC Address Limiting Rules on Interfaces
- 38 1.7.4 Example for Configuring a MAC Address Learning Rule in a VLAN
- 40 1.8 Common Configuration Errors
- 40 1.8.1 Correct MAC Address Entry Cannot Be Learned on the Device
- 43 1.9 Reference
- 44 2 Link Aggregation Configuration
- 45 2.1 Introduction to Link Aggregation
- 45 2.2 Principles
- 45 2.2.1 Concepts
- 47 2.2.2 Forwarding Principle
- 47 2.2.3 Link Aggregation in Manual Load Balancing Mode
- 47 2.2.4 Link Aggregation in LACP Mode
- 53 2.2.5 Load Balancing Using Link Aggregation
- 53 2.3 Application Environment
- 53 2.3.1 Application of Eth-Trunk
- 54 2.4 Configuration Task Summary
- 55 2.5 Default Settings
- 56 2.6 Configuring Ethernet Link Aggregation
- 56 2.6.1 Configuring Link Aggregation in Manual Load Balancing Mode
- 56 2.6.1.1 Creating an Eth-Trunk
- 57 2.6.1.2 Setting the Manual Load Balancing Mode
- 58 2.6.1.3 Adding Member Interfaces to an Eth-Trunk
- 59 2.6.1.4 (Optional) Setting the Lower Threshold for the Number of Active Interfaces
- 60 2.6.1.5 (Optional) Configuring a Load Balancing Mode
- 61 2.6.1.6 Checking the Configuration
- 61 2.6.2 Configuring Link Aggregation in LACP Mode
- 61 2.6.2.1 Creating an Eth-Trunk
- 62 2.6.2.2 Setting the LACP Mode
- 63 2.6.2.3 Adding Member Interfaces to an Eth-Trunk
- 65 2.6.2.4 (Optional) Setting the Upper and Lower Thresholds for the Number of Active Interfaces
- 66 2.6.2.5 (Optional) Configuring a Load Balancing Mode
- 66 2.6.2.6 (Optional) Setting the LACP System Priority
- 67 2.6.2.7 (Optional) Setting the LACP Interface Priority
- 68 2.6.2.8 (Optional) Configuring LACP Preemption
- 69 2.6.2.9 (Optional) Setting the Timeout Interval for Receiving LACPDUs
- 70 2.6.2.10 Checking the Configuration
- 70 2.6.3 Creating an Eth-Trunk Sub-interface
- 71 2.7 Maintaining Link Aggregation
- 71 2.7.1 Clearing LACP Packet Statistics
- 71 2.7.2 Monitoring the LAG Operating
- 72 2.7.3 Using Ping to Monitor the Reachability of Layer 3 Eth-Trunk Member Interfaces
- 74 2.8 Configuration Examples
- 74 2.8.1 Example for Configuring Link Aggregation in Manual Load Balancing Mode
- 76 2.8.2 Example for Configuring Link Aggregation in LACP Mode
- 80 2.8.3 Example for Configuring Layer 3 Link Aggregation
- 82 2.9 Common Configuration Errors
- 82 Incorrect
- 82 2.10 References
- 84 3 VLAN Configuration
- 85 3.1 Introduction to VLAN
- 86 3.2 Principles
- 86 3.2.1 Basic Concepts of VLAN
- 90 3.2.2 VLAN Assignment
- 90 3.2.3 Principle of VLAN Communication
- 95 3.2.4 VLAN Aggregation
- 102 3.2.5 VLAN Damping
- 102 3.2.6 VLAN Management
- 102 3.3 Application Environment
- 103 3.3.1 VLAN Assignment
- 104 3.3.2 Inter-VLAN Communication
- 105 3.3.3 VLAN Aggregation
- 106 3.4 Configuration Task Summary
- 107 3.5 Default Configuration
- 107 3.6 Configuring VLAN
- 107 3.6.1 Assigning a LAN to VLANs
- 109 3.6.2 Configuring Inter-VLAN Communication
- 110 3.6.2.1 Configuring VLANIF Interfaces for Inter-VLAN Communication
- 111 3.6.2.2 Configuring Sub-Interfaces for Inter-VLAN Communication
- 112 3.6.2.3 Checking the Configuration
- 112 3.6.3 Configuring VLAN Aggregation to Save IP Addresses
- 112 3.6.3.1 Creating a Sub-VLAN
- 113 3.6.3.2 Creating a Super-VLAN
- 114 3.6.3.3 Assigning an IP Address to the VLANIF Interface of a Super-VLAN
- 115 3.6.3.4 (Optional) Configuring an IP Address Pool for a Sub-VLAN
- 115 3.6.3.5 (Optional) Enabling Proxy ARP on the VLANIF Interface of a Super-VLAN
- 116 3.6.3.6 Checking the Configuration
- 116 3.6.4 Configuring an mVLAN to Implement Integrated Management
- 118 3.7 Configuration Examples
- 118 3.7.1 Example for Configuring Interface-based VLAN Assignment
- 120 3.7.2 Example for Configuring Communication Between VLANs Using VLANIF Interfaces
- 122 3.7.3 Example for Configuring VLAN Damping
- 124 3.7.4 Example for Configuring VLAN Aggregation
- 127 3.7.5 Example for Configuring Communication Across a Layer 3 Network Using VLANIF Interfaces
- 130 3.8 Common Configuration Errors
- 131 3.8.1 User Terminals in the Same VLAN Cannot Ping Each Other
- 133 3.8.2 VLANIF Interface Goes Down
- 133 3.9 References
- 135 4 QinQ Configuration
- 136 4.1 Introduction to QinQ
- 136 4.2 QinQ Principles
- 136 4.2.1 QinQ Fundamentals
- 138 4.2.2 Basic QinQ
- 139 4.2.3 Selective QinQ
- 140 4.2.4 TPID
- 141 4.3 Application Environment
- 143 4.4 Configuration Task Summary
- 143 4.5 Configuration Notes
- 144 4.6 Configuring QinQ
- 144 4.6.1 Configuring QinQ Tunneling
- 144 4.6.1.1 Configuring Basic QinQ
- 145 4.6.1.2 Configuring Selective QinQ
- 147 4.6.2 Configuring the TPID Value in an Outer VLAN Tag
- 148 4.7 Configuration Examples
- 148 4.7.1 Example for Configuring Basic QinQ
- 151 4.7.2 Example for Configuring Selective QinQ
- 155 4.8 References
- 156 5 GVRP Configuration
- 157 5.1 Introduction to GVRP
- 158 5.2 Principles
- 158 5.2.1 Basic Concepts
- 161 5.2.2 Packet Structure
- 162 5.2.3 Working Procedure
- 166 5.3 Applications
- 166 5.4 Default Configuration
- 167 5.5 Configuring GVRP
- 167 5.5.1 Enabling GVRP
- 168 5.5.2 (Optional) Setting the Registration Mode for a GVRP Interface
- 169 5.5.3 (Optional) Setting the GARP Timers
- 170 5.5.4 Checking the Configuration
- 170 5.6 Maintaining GVRP
- 170 5.6.1 Clearing GVRP Statistics
- 171 5.7 Configuration Examples
- 171 5.7.1 Example for Configuring GVRP
- 174 5.8 References
- 175 6 STP/RSTP Configuration
- 176 6.1 Introduction to STP/RSTP
- 177 6.2 Principles
- 177 6.2.1 Background
- 178 6.2.2 Basic Concepts
- 185 6.2.3 BPDU Format
- 187 6.2.4 STP Topology Calculation
- 194 6.2.5 Improvements in RSTP
- 199 6.2.6 RSTP Technology Details
- 201 6.3 Application
- 202 6.4 Configuration Task Summary
- 203 6.5 Default Configuration
- 204 6.6 Configuring STP/RSTP
- 204 6.6.1 Configuring Basic STP/RSTP Functions
- 204 6.6.1.1 Configuring the STP/RSTP Mode
- 204 6.6.1.2 (Optional) Configuring the Root Bridge and Secondary Root Bridge
- 205 6.6.1.3 (Optional) Setting a Priority for a Switching Device
- 206 6.6.1.4 (Optional) Setting a Path Cost for a Port
- 207 6.6.1.5 (Optional) Setting a Priority for a Port
- 208 6.6.1.6 Enabling STP/RSTP
- 209 6.6.1.7 Checking the Configuration
- 209 6.6.2 Setting STP Parameters that Affect STP Convergence
- 209 6.6.2.1 Setting the STP Network Diameter
- 210 6.6.2.2 Setting the STP Timeout Interval
- 210 6.6.2.3 Setting the STP Timers
- 212 6.6.2.4 Setting the Maximum Number of Connections in an Eth-Trunk that Affects Spanning Tree Calculation
- 213 6.6.2.5 Checking the Configuration
- 213 6.6.3 Setting RSTP Parameters that Affect RSTP Convergence
- 213 6.6.3.1 Setting the RSTP Network Diameter
- 214 6.6.3.2 Setting the RSTP Timeout Interval
- 215 6.6.3.3 Setting RSTP Timers
- 216 6.6.3.4 Setting the Maximum Number of Connections in an Eth-Trunk that Affects Spanning Tree Calculation
- 217 6.6.3.5 Setting the Link Type for a Port
- 218 6.6.3.6 Setting the Maximum Transmission Rate of an Interface
- 218 6.6.3.7 Switching to the RSTP Mode
- 219 6.6.3.8 Configuring Edge Ports and BPDU Filter Ports
- 221 6.6.3.9 Checking the Configuration
- 221 6.6.4 Configuring RSTP Protection Functions
- 221 6.6.4.1 Configuring BPDU Protection on a Switching Device
- 222 6.6.4.2 Configuring TC Protection on a Switching Device
- 222 6.6.4.3 Configuring Root Protection on a Port
- 222 6.6.4.4 Configuring Loop Protection on a Port
- 223 6.6.4.5 Checking the Configuration
- 223 6.6.5 Setting Parameters for Interoperation Between Huawei and Non-Huawei Devices
- 225 6.7 Maintaining STP/RSTP
- 225 6.7.1 Clearing STP/RSTP Statistics
- 225 6.7.2 Monitoring STP/RSTP Topology Change Statistics
- 225 6.8 Configuration Examples
- 226 6.8.1 Example for Configuring Basic STP Functions
- 230 6.8.2 Example for Configuring Basic RSTP Functions
- 234 6.9 References
- 236 7 MSTP Configuration
- 237 7.1 Introduction to MSTP
- 238 7.2 MSTP Principles
- 238 7.2.1 MSTP Background
- 240 7.2.2 Basic MSTP Concepts
- 247 7.2.3 MST BPDUs
- 251 7.2.4 MSTP Topology Calculation
- 253 7.2.5 MSTP Fast Convergence
- 254 7.3 Application Environment
- 255 7.4 Configuration Task Summary
- 256 7.5 Default Configuration
- 257 7.6 Configuring MSTP
- 257 7.6.1 Configuring Basic MSTP Functions
- 258 7.6.1.1 Configuring the MSTP Mode
- 258 7.6.1.2 Configuring and Activating an MST Region
- 260 7.6.1.3 (Optional) Configuring the Root Bridge and Secondary Root Bridge
- 261 7.6.1.4 (Optional) Configuring a Priority for a Switching Device in an MSTI
- 262 7.6.1.5 (Optional) Configuring a Path Cost of a Port in an MSTI
- 263 7.6.1.6 (Optional) Configuring a Port Priority in an MSTI
- 263 7.6.1.7 Enabling MSTP
- 264 7.6.1.8 Checking the Configuration
- 265 7.6.2 Configuring MSTP Parameters on an Interface
- 265 7.6.2.1 Setting the MSTP Network Diameter
- 266 7.6.2.2 Setting the MSTP Timeout Interval
- 266 7.6.2.3 Setting the Values of MSTP Timers
- 267 7.6.2.4 Setting the Maximum Number of Connections in an Eth-Trunk that Affects Spanning Tree Calculation
- 269 7.6.2.5 Setting the Link Type of a Port
- 269 7.6.2.6 Setting the Maximum Transmission Rate of an Interface
- 270 7.6.2.7 Switching to the MSTP Mode
- 271 7.6.2.8 Configuring a Port as an Edge Port and BPDU Filter Port
- 272 7.6.2.9 Setting the Maximum Number of Hops in an MST Region
- 273 7.6.2.10 Checking the Configuration
- 273 7.6.3 Configuring MSTP Protection Functions
- 273 7.6.3.1 Configuring BPDU Protection on a Switching Device
- 274 7.6.3.2 Configuring TC Protection on a Switching Device
- 275 7.6.3.3 Configuring Root Protection on an Interface
- 275 7.6.3.4 Configuring Loop Protection on an Interface
- 276 7.6.3.5 Checking the Configuration
- 276 7.6.4 Configuring MSTP Interoperability Between Huawei Devices and Non-Huawei Devices
- 276 7.6.4.1 Configuring a Proposal/Agreement Mechanism
- 277 7.6.4.2 Configuring the MSTP Protocol Packet Format on an Interface
- 278 7.6.4.3 Enabling the Digest Snooping Function
- 279 7.6.4.4 Checking the Configuration
- 279 7.7 Maintaining MSTP
- 279 7.7.1 Clearing MSTP Statistics
- 279 7.7.2 Monitoring the Statistics on MSTP Topology Changes
- 279 7.8 Configuration Examples
- 280 7.8.1 Example for Configuring Basic MSTP Functions
- 287 7.9 References
- 288 8 SEP Configuration
- 289 8.1 Introduction to SEP
- 289 8.2 Principles
- 289 8.2.1 Principles of SEP
- 292 8.2.2 Basic Concepts of SEP
- 296 8.2.3 SEP Implementation Mechanisms
- 308 8.3 Applications
- 308 8.3.1 Open-Ring Networking
- 309 8.3.2 Closed-Ring Networking
- 310 8.3.3 Multi-Ring Networking
- 311 8.3.4 Hybrid SEP+MSTP Ring Networking
- 312 8.3.5 SEP Multi-Instance
- 313 8.4 Configuration Task Summary
- 314 8.5 Configuring SEP
- 314 8.5.1 Configuring Basic SEP Functions
- 315 8.5.1.1 Configuring a SEP Segment
- 315 8.5.1.2 Configuring a Control VLAN
- 316 8.5.1.3 Creating a Protected Instance
- 317 8.5.1.4 Adding a Layer 2 Interface to a SEP Segment and Configuring a Role for the Interface
- 320 8.5.1.5 Checking the Configuration
- 320 8.5.2 Specifying an Interface to Block
- 320 8.5.2.1 Setting an Interface Blocking Mode
- 321 8.5.2.2 Configuring the Preemption Mode
- 323 8.5.2.3 Checking the Configuration
- 323 8.5.3 Configuring SEP Multi-Instance
- 325 8.5.4 Configuring the Topology Change Notification Function
- 325 8.5.4.1 Reporting Topology Changes in a Lower-Layer Network - SEP Topology Change Notification
- 327 8.5.4.2 Checking the Configuration
- 327 8.6 Maintaining SEP
- 327 8.6.1 Clearing SEP Statistics
- 327 8.7 Configuration Examples
- 327 8.7.1 Example for Configuring SEP on a Closed Ring Network
- 333 8.7.2 Example for Configuring SEP on a Multi-Ring Network
- 344 8.7.3 Example for Configuring a Hybrid SEP+MSTP Ring Network
- 352 8.7.4 Example for Configuring SEP Multi-Instance
- 360 9 Transparent Bridging Configuration
- 361 9.1 Introduction to Transparent Bridge
- 361 9.2 Principles
- 361 9.2.1 Basic Principles of Transparent Bridging
- 364 9.2.2 Local Bridging
- 365 9.2.3 Remote Bridging
- 366 9.2.4 Integrated Bridging and Routing
- 367 9.2.5 VLAN ID Transparent Transmission
- 368 9.3 Applications
- 373 9.4 Configuration Task Summary
- 373 9.5 Default Configuration
- 373 9.6 Configuring Transparent Bridging
- 374 9.6.1 Configuring Local Bridging
- 374 9.6.1.1 Creating a Bridge Group
- 374 9.6.1.2 Adding Local Interfaces to a Bridge Group
- 375 9.6.1.3 (Optional) Disabling a Bridge Group from Bridging Specified Protocol Packets
- 376 9.6.1.4 (Optional) Configuring a MAC Address Table for a Bridge Group
- 377 9.6.1.5 Checking the Configuration
- 377 9.6.2 Configuring Local Bridging Integrated with IP Routing
- 377 9.6.2.1 Creating a Bridge Group
- 378 9.6.2.2 Adding Local Interfaces to a Bridge Group
- 379 9.6.2.3 Enabling IP Routing for a Bridge Group
- 380 9.6.2.4 (Optional) Disabling a Bridge Group from Bridging Specified Protocol Packets
- 380 9.6.2.5 (Optional) Configuring a MAC Address Table for a Bridge Group
- 381 9.6.2.6 Checking the Configuration
- 382 9.6.3 Configuring Remote Bridging
- 382 9.6.3.1 Creating a Bridge Group
- 382 9.6.3.2 Adding a LAN-side Interface to a Bridge Group
- 384 9.6.3.3 Adding a WAN-side Interface to a Bridge Group
- 384 9.6.3.4 (Optional) Disabling a Bridge Group from Bridging Specified Protocol Packets
- 385 9.6.3.5 (Optional) Configuring VLAN ID Transparent Transmission
- 386 9.6.3.6 (Optional) Configuring a MAC Address Table for a Bridge Group
- 387 9.6.3.7 Checking the Configuration
- 387 9.6.4 Configuring Remote Bridging Integrated with IP Routing
- 387 9.6.4.1 Creating a Bridge Group
- 387 9.6.4.2 Adding a LAN-side Interface to a Bridge Group
- 389 9.6.4.3 Adding a WAN-side Interface to a Bridge Group
- 390 9.6.4.4 Enabling IP Routing for a Bridge Group
- 391 9.6.4.5 (Optional) Disabling a Bridge Group from Bridging Specified Protocol Packets
- 391 9.6.4.6 (Optional) Configuring a MAC Address Table for a Bridge Group
- 392 9.6.4.7 Checking the Configuration
- 392 9.7 Maintaining Transparent Bridging
- 393 9.7.1 Monitoring the Operation of Bridge Groups
- 393 9.7.2 Clearing the Traffic Statistics of a Bridge Group
- 394 9.7.3 Clearing the Traffic Statistics on the Bridge-if Interface of a Bridge Group
- 394 9.8 Configuration Example
- 394 9.8.1 Example for Configuring Local Bridging
- 397 9.8.2 Example for Configuring Local Bridging with IP Routing
- 399 9.8.3 Example for Configuring Remote Bridging
- 401 9.8.4 Example for Configuring Remote Bridging with IP Routing
- 405 9.8.5 Example for Configuring Remote Bridging with VLAN ID Transparent Transmission
Huawei AR2500, AR500, AR510, AR550 Series Product Description
Brand: Huawei Size: 3 MB Pages: 141
Languages: English
Table of contents
- 9 1 Product Positioning and Characteristics
- 10 1.1 Product Positioning
- 10 1.2 Product Characteristics
- 10 1.2.1 Industrial Environment Adaptability
- 10 1.2.2 Industry-Class Reliability
- 11 1.2.3 Service Integration Capability
- 11 1.2.4 Hardware Extensibility
- 11 1.2.5 Remote Maintenance Capability
- 11 1.2.6 Strong Access Capability
- 12 2 Applications
- 13 2.1 AR530 as a Industrial Router
- 13 2.2 AR500 or AR530 as the Industrial Switch
- 14 2.3 AR2500 Used as the Industrial Switch
- 16 2.4 AR500&AR530 Used as Industrial Gateways
- 18 3 Product Characteristics
- 19 3.1 Feature List
- 42 3.2 Key Features
- 42 3.2.1 SEP
- 42 3.2.2 VPN
- 43 3.2.3 Security
- 45 3.2.4 QoS
- 46 3.2.5 IPv
- 47 3.2.6 WLAN
- 49 4 Appearance
- 50 4.1 AR500 Series
- 50 4.1.1 AR502EG-L
- 51 4.1.2 AR502EGW-L
- 53 4.1.3 AR502CG-L
- 55 4.1.4 AR503GW-LM
- 56 4.1.5 AR503GW-LcM
- 57 4.1.6 AR503EDGW-Lc
- 59 4.1.7 AR509G-L-D-H
- 60 4.1.8 AR509G-Lc
- 62 4.1.9 AR509CG-Lc
- 64 4.1.10 AR509CG-Lt
- 66 4.1.11 AR503EQGW-L
- 67 4.1.12 AR503EW
- 68 4.2 AR510 Series
- 68 4.2.1 AR511GW-LAV2M
- 70 4.2.2 AR511CGW-LAV2M
- 71 4.2.3 AR511GW-LM
- 73 4.2.4 AR511GW-L-B
- 74 4.2.5 AR513W-V3M
- 76 4.2.6 AR515GW-LM9-D
- 77 4.3 AR530 Series
- 77 4.3.1 AR531-2C-H
- 78 4.3.2 AR531-F2C-H
- 80 4.3.3 AR531GPe-U-H
- 81 4.3.4 AR531G-U-D-H
- 83 4.4 AR550 Series
- 83 4.4.1 AR550C-4GE
- 84 4.4.2 AR550C-2C6GE
- 86 4.5 AR2500 Series
- 86 4.5.1 AR2504-H
- 87 4.5.2 AR2504E-H
- 87 4.5.3 AR2504-D-H
- 89 5 Maintenance and Management
- 90 5.1 Various Maintenance Methods
- 90 5.1.1 Remote Deployment and Maintenance Using USB
- 90 5.1.2 SNMP-based Maintenance
- 90 5.1.3 CLI-based Maintenance
- 90 5.2 Fault Location
- 90 5.2.1 Device Fault Location
- 91 5.2.2 Routing Service Fault Location
- 92 6 Industry Standards
- 93 7 Technical Specifications
- 94 7.1 AR500 Series
- 94 7.1.1 AR502EG-L
- 95 7.1.2 AR502EGW-L
- 96 7.1.3 AR502CG-L
- 97 7.1.4 AR503GW-LM
- 99 7.1.5 AR503GW-LcM
- 101 7.1.6 AR503EDGW-Lc
- 102 7.1.7 AR509G-L-D-H
- 104 7.1.8 AR509G-Lc
- 106 7.1.9 AR509CG-Lc
- 107 7.1.10 AR509CG-Lt
- 108 7.1.11 AR503EQGW-L
- 110 7.1.12 AR503EW
- 112 7.2 AR510 series
- 112 7.2.1 AR511GW-LAV2M
- 113 7.2.2 AR511CGW-LAV2M
- 115 7.2.3 AR511GW-LM
- 117 7.2.4 AR511GW-L-B
- 119 7.2.5 AR513W-V3M
- 121 7.2.6 AR515GW-LM9-D
- 122 7.3 AR530 Series
- 122 7.3.1 AR531-2C-H
- 124 7.3.2 AR531-F2C-H
- 125 7.3.3 AR531GPe-U-H
- 126 7.3.4 AR531G-U-D-H
- 128 7.4 AR550 Series
- 128 7.4.1 AR550C-4GE
- 129 7.4.2 AR550C-2C6GE
- 130 7.5 AR2500 Series
- 130 7.5.1 AR2504-H
- 132 7.5.2 AR2504E-H
- 133 7.5.3 AR2504-D-H
- 136 8 Component Selection Guide
- 137 8.1 Router Purchase List
- 140 8.2 Card Category