Perle Systems IOLINK-520 Pinout Information, Module Identification, Link Clocking Information

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Section 3 — Link Interfaces Reference

Pinout Information

Each link interface available is described with detailed information on pin designation. Standard interface cables will provide correct connections to modems, datasets, or DSU/CSUs.

When connecting two bridge/routers back-to-back without modems, a null-modem cable is required to crossover the pins on the links. Crossing over the pins allows two bridge/routers both configured as DTE interfaces to be connected together. With this configuration, both bridge/routers will provide clocking for the links, and each bridge/router must have a link speed defined.

V.35 Module Identification:

V.35 links are provided as DB25 connectors on the back of the bridge/router, so an interface converter is needed to convert to the standard V.35 connectors.

Link Clocking Information

All of the link interfaces on the IOLINK router act as DTE devices, this means that they may be directly connected to DCE devices (modems, etc.) with the DCE devices providing the clocking for the link. The link speed is controlled by the DCE device. Setting the link speed on the IOLINK router will not result in a speed change on the link.

Some DCE devices allow the DTE devices connected to them to supply a clock signal which is then routed back to the transmit clock pins on the DCE interface. This clock is then received by the IOLINK link interface. By using this method, the IOLINK router may be in control of the link speed. The link speed may also be controlled by the IOLINK router when a null-modem cable is used to connect two IOLINK routers in a back-to-back configuration.

Changing the link speed within the menu system of the IOLINK router changes the clock output speed that is generated on the DTE Terminal Timing pins on the link interfaces.

IOLINK-PRO & 520 Reference Manual — 3.1

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Contents Reference Manual IOLINK-PRO & 520 Routers IP Routing and the IOLINK-PRO & 520 RoutersARP-Address Resolution Protocol Proxy ARPComplete IP Connection IOLINK-PRO & 520 Reference Manua Time to live IP Header DetailsProtocol Header ChecksumUnreachable Icmp MessagesOptions RedirectPing Time and Mask serverUpdate Mechanism RIP-Routing Information ProtocolRoute Tables Network Layer Addressing vs. MAC Addressing IPX Routing and The IOLINK-PRO & 520 RoutersIPX Addressing IPX Address FormatOther IPX Header Information IPX HeaderService Advertisement Protocol Establishing an IPX ConnectionSAP Broadcasts SAP Requests Server TypesRouting Information Protocol RIP/X OperationBridging and the IOLINK-PRO & 520 Routers RIP/X RequestsRIP/X Metrics Initial Bridging Process Station Address LearningAging Timer Address PurgingFilled Address Table Aging ExceptionIolink Router Feature Definitions TelnetLink Compression Introduction Point-to-Point WAN TopologiesBandwidth On Demand MultipointTime of Day Connect Application Disaster Recovery Backup Link Operating Software UpgradesIsdn Single Active Link & Dual Active Link Iolink PRO & 520 Isdn Connection Management Wide Area Network Topologies SupportedCall Establishment Methods Isdn Connection Management Auto-Call Time-of-Day ConnectionsAddress Connect Manual CallConnection Process CombinationSuspension Process Idle TimerProtocol Awareness Interesting TrafficSession Keepalive Messages Termination ProcessSuspension of TCP/IP Sessions IP SpecificsIP Address Connect RIP-Routing Information ProtocolSuspension of IPX Sessions IPX SpecificsRIP/IPX and SAP/IPX IPX Serialization FramesPinout Information Module IdentificationLink Clocking Information ATL CSU/DSU Link Module Information Link Interfaces ReferenceConsole Pinouts CSU/DSU Module T1/E1 Module24 & RS232C Link Pinouts RS232 Link Pinouts11 & X.21 Link Pinouts DB15 Female DTE Direction Contact Circuits From NumberRS442 & RS530 Link Pinouts DB25 Female DTE Direction Contact Circuit From Number NameLink Pinouts DB25Number Name RS232 Null-Modem Cable Configuration 11 RS232 Null-Modem CableNull-Modem Cable Configuration 12 V.35 Null-Modem CableRS530 Null-Modem Cable Configuration 13 RS530 Null-Modem CableRS530 To RS449 Conversion Cable 14 RS530 to RS449 Conversion Cable11/X.21 Null-Modem Cable Configuration 15 V.11/X.21 Null-Modem CableWAN Link Control-Signal Operation Appendix a Event Logs Event logsEvent Logs IOLINK-PRO & 520 Reference Manual A.3 Event Logs IOLINK-PRO & 520 Reference Manual A.5 Event Logs IOLINK-PRO & 520 Reference Manual A.7 Event Logs Alarm Logs Event Logs IOLINK-PRO & 520 Reference Manual A.11 Event Logs IOLINK-PRO & 520 Reference Manual A.13 Event Logs IOLINK-PRO & 520 Reference Manual A.15 Event Logs IOLINK-PRO & 520 Reference Manual A.17 Event Logs IOLINK-PRO & 520 Reference Manual A.19 PPP Security Logs MAC Address Filtering SecurityProgrammable Filtering Security-Filter if DestinationSecurity-Filter if Source Security-Forward if Destination Security-Forward if Source Programmable Filtering Pattern Filter Operators Bridge Pattern FilteringProtocol Discrimination Filter all IP Packets Protocol Type FieldInternet Protocol IP IP, and no moreFilter all IP without TCP traffic Transport Control Protocol / Internet Protocol TCP/IPFilter only TCP/IP Filter all except TCP/IPEthernet Broadcasting Bandwidth ConservationFilter all DEC Ethernet MulticastingGeneral Restrictions Internet AddressesEthernet Station Addresses Mask Combinations Mask would be 6-010203040506&12-0800&23-06 ExampleIP Router Pattern Filtering IPX Router Pattern FilteringPage Appendix C Frame Formats Octet Locations on an IP Routed TCP/IP Frame IOLINK-PRO & 520 Reference Manual C.3