Hirschmann PTN-1-10G-LW User Manual

User Manual

Installation
Dragon PTN
Interface Module PTN-1-10G-LW

Interface Module PTN-1-10G-LW Technical Support

Release 02 11/2018 https://hirschmann-support.belden.com

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Stuttgarter Str. 45-51
72654 Neckartenzlingen
Germany

2 Interface Module PTN-1-10G-LW
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Contents

1. INTRODUCTION ........................................................................................................... 5

1.1 General ................................................................................................. 5

1.2 Manual References ............................................................................... 5

2. MODULE DESCRIPTION ................................................................................................ 6

2.1 Front Panel ........................................................................................... 6

2.1.1 Insert/Remove Module into/from Node ................................................... 6

2.1.2 LEDs ............................................................................................................ 6

2.1.3 Connectors ................................................................................................. 8

2.2 Functional Operation ............................................................................ 8

2.2.1 Media Module for Ethernet: Interfacing to a LAN or WAN Network ........ 8

2.2.2 LAN/WAN PHY Setting ............................................................................... 9

2.2.3 Ethernet Service ...................................................................................... 10

2.2.4 Voice Service ............................................................................................ 11

2.2.5 I/O with the Central Switching Module (=CSM) ...................................... 11

2.2.6 Synchronization / Clock Distribution / Network Timing .......................... 11

2.2.7 EFM-F IEEE 802.3ah (=Ethernet in the First Mile – Fiber) (Future) ......... 11

2.2.8 MPLS-TP Compliancy ............................................................................... 12

2.2.9 Storm Control on Ethernet LAN Port ....................................................... 12

2.2.10 BPDU Guard on Ethernet LAN Port ......................................................... 12

2.2.11 MRP (=Media Redundancy Protocol) Support ........................................ 12

2.3 Onboard Interfaces ............................................................................. 13

2.3.1 Heat Sink .................................................................................................. 14

2.3.2 Straps ....................................................................................................... 14

2.3.3 Rotary DIP Switches ................................................................................. 14

3. MODULE SPECIFICATIONS .......................................................................................... 14

3.1 General Specifications ........................................................................ 14

3.2 Other Specificiations .......................................................................... 14

3.3 Ordering Information ......................................................................... 14

4. ABBREVIATIONS ........................................................................................................ 15

List of figures

Figure 1 Front Panel ...................................................................................................................... 6

Figure 2 XFP Module / Optical XFP Ethernet Port ......................................................................... 8

Figure 3 General Example: LAN/WAN ........................................................................................... 9

Figure 4 Detailed Example: 1-10G-LW Interfacing to a LAN/WAN Network ................................. 9

Figure 5 LAN/WAN PHY Cases ..................................................................................................... 10

Figure 6 MRP: General Example .................................................................................................. 13

Figure 7 1-10G-LW: Side View ..................................................................................................... 13

Figure 8 Hardware Edition ........................................................................................................... 14

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List of Tables

Table 1 Manual References ........................................................................................................... 5

Table 2 LED Indications In Boot Operation ................................................................................... 7

Table 3 LED Indications in Normal Operation ............................................................................... 7

Table 4 Synchronization / Clock Distribution / Network Timing Overview ................................. 11

Table 5 Other Specifications ........................................................................................................ 14

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1. INTRODUCTION

1.1 General

This document is valid as of Dragon PTN Release 4.0DR.

This document describes the 1-10G-LW interface module (=IFM) which supports 10 Gigabit
Ethernet according the IEEE 802.3ae-2002 standard. This standard specifies full duplex point­to-point links. This standard also provides two types of PHY: LAN PHY and WAN PHY. The
10G WAN PHY operates at a data rate compatible with SONET OC-192c.

This module provides one 10 Gbps optical LAN/WAN port on the front panel (LAN = Local
Area Network; WAN = Wide Area Network). 1-10G-LW refers to ‘1 port – 10 Gigabit – LAN
WAN’.

This port is configurable as LAN or WAN (=default) via HiProvision (=Dragon PTN
Management System).

Verify the 'Dragon PTN Bandwidth Overview' manual (Ref. [100] in Table 1) to see in which
node and IFM slot this IFM can be used.

Main supported features:

1 optical port supporting 10 Gbps Ethernet over fiber via XFPs, full duplex. Which LAN

and WAN XFP modules are supported can be found in Ref.[8] in Table 1.

LAN/WAN port function;
LAN/WAN PHY function;
Synchronization

SyncE;
PTP IEEE 1588v2 (=Precision Time Protocol).

E-Tree in an Ethernet Service;
MRP (=Media Redundancy Protocol) Support.

1.2 Manual References

Table 1 is an overview of the manuals referred to in this manual. ‘&’ refers to the language
code, ‘*’ refers to the manual issue. All these manuals can be found in the HiProvision
(=Dragon PTN Management System) Help function.

Table 1 Manual References

Ref.

Number

Title

[1]

DRA-DRM821-&-*

Dragon PTN and HiProvision Operation

[2]

DRA-DRM801-&-*

Dragon PTN Installation and Operation

[4]

DRB-DRM803-&-*

Dragon PTN Switching Module: PTN-CSM310-A

[5]

DRE-DRM807-&-*

Dragon PTN Interface Module: PTN-4-GC-LW/PTN-4-GCB-LW

[6]

DRE-DRM817-&-*

Dragon PTN Interface Module: PTN-4-GO-LW

[7]

DRE-DRM819-&-*

Dragon PTN Interface Module: PTN-8-FXS

[8]

DRF-DRM811-&-*

Dragon PTN TRMs (Transmit Receive Modules: SFP, XFP)

[9]

DRA-DRM810-&-*

Dragon PTN General Specifications

[100]

DRA-DRM828-&-*

Dragon PTN Bandwidth Overview

Interface Module PTN-1-10G-LW 5

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2. MODULE DESCRIPTION

2.1 Front Panel

Figure 1 Front Panel

2.1.1 Insert/Remove Module into/from Node

See ‘Dragon PTN Installation and Operation Manual’ Ref.[2].

2.1.2 LEDs

The meaning of the LEDs depends on the mode of operation (= boot or normal) in which the
1-10G-LW module currently is running. After plugging in the module or rebooting it, the
module turns into the boot operation, see Table 2. After the module has gone through all
the cycles in the table below (=rebooted successfully), the module turns into the normal
operation, see LEDs in Table 3.

LEDs

Handle

Fastening screw

1 Optical 10 Gbps

Interface

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Table 2 LED Indications In Boot Operation

Cycle

PI

PF

FLT

W

WPH

LOS

LA

Spare LED

1 x ---

Slow blinking

---

---

---

---

---

2 x ---

Fast blinking

---

---

---

---

---

3 x ---

---

---

---

---

---

---

4 x --- x x x x

---

x

x : LED is lit / --- : LED is not lit

The sub cycle times may vary.

The entire boot cycle time [1-->4] takes approximately 2 minutes.

Table 3 LED Indications in Normal Operation

LED

Color

Status

PI

(=Power Input)

Not lit, dark

+12V power input to the board not OK

Green

+12V power input to the board OK

PF

(=Power Failure)

Not lit, dark

power generation on the board itself is OK

Red

power generation on the board itself is erroneous

FLT

(=FauLT)

Not lit, dark

no other fault or error situation, different from PF, is active on the module

Red

a fault or error situation, different from PF, is active on the module

W

Not lit, dark

The 10G port is configured as LAN port

Green

The 10G port is configured as WAN port (=default)

WPH

(=WAN PHY)

Not lit, dark

The 10G PHY is configured as LAN PHY for 10GbE (=default)

Green

The 10G PHY is configured as WAN PHY Sonet OC-192c

LOS

(=Loss of Signal)

Not lit, dark

Optical signal OK on the 10G port

Red

Loss of optical signal on the 10G port

LA

(=Link Activity:
receive)

Not lit, dark

The link on the 10G port is down

Yellow lit

The link on the 10G port is up, no receive activity (transmit activity is not shown)

Yellow blinking

The link on the 10G port is up, with receive activity (transmit activity is not
shown)

Interface Module PTN-1-10G-LW 7

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2.1.3 Connectors

This module has following port:

Port1 = Optical Ethernet port, XFP connector: An XFP transceiver (10 Gigabit Small Form

Factor Pluggable) module must be plugged into this port, in order to interconnect the
optical fiber with the 1-10G-LW IFM. These XFPs are hot-pluggable and can be replaced
from the front, without removing the IFM from the node. The ejector clip (see figure
below) must be used to lock/unlock the XFP into/from the IFM. The XFPs that can be
used for this port can be found in Ref. [7] in Table 1.

Figure 2 XFP Module / Optical XFP Ethernet Port

2.2 Functional Operation

The 1-10G-LW performs following major tasks:

2.2.1 Media Module for Ethernet: Interfacing to a LAN or WAN Network

WAN ports interconnect nodes within the Dragon PTN network (MPLS-TP) whereas LAN
ports interconnect the nodes with their applications.

The front port can be configured individually as LAN or WAN port in HiProvision. By default,
each port is configured as WAN port. A LAN port talks Ethernet and a WAN port talks MPLS­TP. As a result, the node can serve as an edge node (or LER = Label Edge Router) where
traffic is received on a LAN port, mapped into pseudowire and forwarded to the correct label
switched path on a WAN port.

NOTE: The PHY can also be configured as LAN or WAN, see §2.2.2.

For a configured application service, the node can operate as a:

LER = Label Edge Router or access node: The node is located on the edge between the

LAN and WAN. The node converts Ethernet into MPLS-TP and vice versa.

LSR = Label Switching Router: The node is fully located in the WAN. The node has no end-

points for the configured application service, it only forwards MPLS-TP traffic via label
switched paths.

Ejector Clip

TX Fiber

RX Fiber

XFP Module

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Figure 3 General Example: LAN/WAN

Figure 4 Detailed Example: 1-10G-LW Interfacing to a LAN/WAN Network

2.2.2 LAN/WAN PHY Setting

The PHY can be configured as LAN (=default) or WAN via HiProvision. If you want to interface
with SONET or DWDM, configure the PHY as WAN, in all other cases configure the PHY as
LAN. The WAN PHY encapsulates Ethernet packets in SONET OC-192c frames and operates at
a slightly slower data-rate (9.95328 Gbps) than the local area network (LAN) PHY. When to
use LAN or WAN PHY can also be viewed in the figure below. Make sure that both sides of
the link are configured the same, both as LAN PHY or both as WAN PHY.

CAUTION: if you change the WAN PHY setting in HiProvision, and one of the two
sides (or nodes) of that link is only reachable via this link, make sure to change that
side first. As a result, that node will be unreachable after the change until the node
at the other side of the link has been changed as well.

LER LER

LAN WAN LAN

router

router

HiProvision PC

(=Dragon PTN Mana gement)

Dragon PTN MPLS-TP
Network

Drago n PTN Node

LSR

LSR

LSR

WAN: MPLS-TP (on fiber) between XTran nodes
1G LAN: Ethernet (on copper) external devices

LAN1

WAN (via 10G, XFP on fiber)

XTra n Node

CSM

CSM310-A

Switch
ETH
MPLS-TP

IFM5

1-10G-LW

IFM2

4-GC-LW

XTra n Node

CSM

CSM310-A

Switch
ETH
MPLS-TP

IFM8

4-GC-LW

IFM6

1-10G-LW

IFM6

1-10G-LW

IFM5

1-10G-LW

LAN2 LAN3 LAN4

10G LAN: Ethernet (on fiber) external devices

1-10G-LW

1-10G-LW

Interface Module PTN-1-10G-LW 9

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Figure 5 LAN/WAN PHY Cases

2.2.3 Ethernet Service
a. General

The 1-10G-LW IFM access or end-points communicate over the Dragon PTN network via an
Ethernet service. This service must be configured via HiProvision. This service can operate
port or VLAN based. An optional E-Tree can be configured as well on this Ethernet service.

b. Port Based / VLAN Based

Port based: Use this mode if all the traffic on a port must be transported transparently in

one and the same service;

VLAN based/VLAN ID: Use this mode if each VLAN (ID) on a port must have its own

service. Ethernet packets with the configured VLAN ID will be forwarded in this service,
other VLAN IDs and untagged packets will be dropped. This behavior can be overruled by
a more advanced VLAN processing in the ‘VLAN Tagging/Untagging’ feature in
HiProvision. This feature also supports VLAN translation which replaces VLAN ID ‘x’ into
VLAN ID ‘y’.

c. E-Tree

An E-Tree is a rooted (not routed) point-to-multipoint partial service within a programmed
Ethernet service. E-Tree can be used as a security precaution to separate different customers
(=leafs) using the same Ethernet service while accessing one or more ISPs (=roots).

When an E-Tree is used, each service endpoint is designated as either leaf or root. A leaf can
only communicate with a root. A root can communicate with all the roots and leafs.

MPLS-TP (WAN Port) Ethernet (LAN Port)

10G WAN Port

WAN PHY

SONET

DWDM

(ROADM)

WAN Port/
WAN PHY

10G LAN Port

in LAN PHY

10G LAN Port

in WAN PHY

Dragon PTN Node w ith

1-10G-LW

10G WAN Port

LAN P HY

Dragon

PTN

WAN Port/
LAN PHY

LAN Port/
LAN PHY

LAN Port/
WAN PHY

Ethernet (LAN Port)

10G LAN Port
in WAN PHY

SONET

SONET

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NOTE: The 1-10G-LW IFM has one port that can be used as a LAN or WAN port. For extra

LAN or WAN ports, additional IFMs must be installed.

2.2.4 Voice Service

The 1-10G-LW IFM port can be configured in the Ethernet part of the Voice service. See Ref.
[1] and Ref.[7] in Table 1 for more information on the Voice service.

2.2.5 I/O with the Central Switching Module (=CSM)

The 1-10G-LW module receives traffic (Ethernet or MPLS-TP) via its front panel port and
forwards this to the CSM via the backplane. The CSM does all the processing on this data
(synchronization, CRC checks, conversions, switching…). The resulting data will be
forwarded via the backplane to one of the IFMs in the node.

2.2.6 Synchronization / Clock Distribution / Network Timing

The Dragon PTN network provides a number of mechanisms to perform synchronization /
clock distribution / network timing. The CSM makes sure that all the included IFMs in the
node are synchronized. See the table below for an overview of the mechanisms that are
supported on the 1-10G-LW module.

It means that the front port of the 1-10G-LW module can be used to recover a clock from an
incoming data stream and redistribute this clock via an outgoing datastream.

Table 4 Synchronization / Clock Distribution / Network Timing Overview

Mechanism

Domain

What is

Synchronized?

Purpose

SyncE

Network wide

Clock Frequency

Distribute a synchronous clock, based on a PRC (=Primary

Reference Clock), network wide over all the nodes that need

it.

PTP IEEE 1588v2

Network wide

Timestamping

A protocol to synchronize real-time clocks (timestamping) in
Dragon PTN network elements and/or connected devices.

a. SyncE (=Synchronous Ethernet)

See the manuals in Ref.[1] and Ref.[4], [4b] for more detailed information;

b. PTP IEEE 1588v2 (=Precision Time Protocol)

See the HiProvision manual in Ref.[1] for more detailed information.

2.2.7 EFM-F IEEE 802.3ah (=Ethernet in the First Mile – Fiber) (Future)

Future planned.

Interface Module PTN-1-10G-LW 11

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2.2.8 MPLS-TP Compliancy

See the CSM manual in Ref.[4], [4b].

2.2.9 Storm Control on Ethernet LAN Port
NOTE: Storm Control is not relevant/supported on WAN Ports;

A traffic storm is the growing of excessive network traffic due to Ethernet packets flooding
the LAN. Such a storm can for example occur because of a data loop in the network due to
no or misconfiguration of MSTP. These storms degrade the network performance and must
be avoided whenever possible.

The storm control feature:

is an extra protection against these traffic storms;
can be configured on the IFM ports;
limits the amount of unlearned received data (Unicast, Broadcast, Multicast) on the LAN

port ingress or input side;

limits the amount of transmitted data (all data) on the LAN port egress or output side;
Data that exceeds the configured limitations will be dropped. As a result, a possible data

storm cannot overload the node processor or the node will limit outgoing data.

See Ref. [1] in Table 1 for more configuration information in HiProvision.

2.2.10 BPDU Guard on Ethernet LAN Port
NOTE: BPDU Guard is not relevant/supported on WAN Ports;

BPDU Guard (=Bridge Protocol Data Unit) is a LAN port property or feature that:

shuts down the LAN port when a BPDU packet enters this port;
sends out dummy BPDU packets.

As a result, this feature or IFM:

protects the network against possible loops created via this IFM, although this IFM does

not support MSTP;

protects a running MSTP protocol somewhere else in the Dragon PTN network from

external MSTP influences via this LAN port, e.g. root bridge protection etc...

See Ref. [1] in Table 1 for more configuration information in HiProvision.

2.2.11 MRP (=Media Redundancy Protocol) Support

The MRP is a protocol (IEC 62439-2) especially designed for industrial applications which
need a predictable fail-over time. This protocol can only be used in a ring-topology network
and makes sure that the ring network stays loop-free. MRP does in ring networks what
spanning tree does in meshed networks but with much faster convergence times. The ring

12 Interface Module PTN-1-10G-LW
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has one selected MR Manager (MRM) and a number of MR Clients (MRC). The two Dragon
PTN nodes act as MRC. See Ref. [1] in Table 1 for more configuration information in
HiProvision.

Figure 6 MRP: General Example

2.3 Onboard Interfaces

Figure 7 1-10G-LW: Side View

Dragon P TN

MPLS

-TP Ne twork

Drag on PTN

Node

MRP Access Ring

HiProvision

Access switches

running MRP

MRP Access Ring

MRC

MRC MRM MRC

MRM interrupting the loop

by blocki ng the port

MRC

MRC

Monitored Li nk

MRP

Entry Node +

Ring port

MRP

Entry Node +

Ring port

Dragon P TN

MPLS

-TP Ne twork

Hardware

Edition

Heat Sink

Interface Module PTN-1-10G-LW 13

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2.3.1 Heat Sink

A heat sink is required for the natural cooling of this 1-10G-LW module.

2.3.2 Straps

No user relevant straps.

2.3.3 Rotary DIP Switches
a. Hardware Edition

The Hardware Edition (labeled as CARD_ID) is set in decimal code using rotary switches S2 to
S3 (S3 = most significant). It can be read out as well via HiProvision. This edition has been
factory set and MUST NOT BE CHANGED!

Example: Setting S3=’0’ and S2=’5’ indicates Hardware Edition ‘5’ (dec).

Figure 8 Hardware Edition

3. MODULE SPECIFICATIONS

3.1 General Specifications

For general specifications like temperature, humidity, EMI ... see Ref.[9] in Table 1.

3.2 Other Specificiations
Table 5 Other Specifications

Description

Value

Weight

0.410 kg / 0.9 lb (with XFP)

0.370 kg / 0.8 lb (without XFP)

MTBF

117 years at 25°C/77°F

Power Consumption

12W (measured at 25°C/77°F, with XFPs data transport)

Module Size

width: 20.32 mm / 0.8 inches

height: 126 mm / 4.96 inches

depth: 195 mm / 7.68 inches

3.3 Ordering Information

PTN-1-10G-LW: 942 236-004.

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4. ABBREVIATIONS

BPDU

Bridge Protocol Data Unit

CE

Conformité Européenne

CSM

Central Switching Module

DWDM

Dense Wavelength Division Multiplexing

EFM-F

Ethernet in the First Mile Over Point-to-Point Fiber

EMI

Electromagnetic Interference

FLT

Fault

IEC

International Electrotechnical Commission

IEEE

Institute of Electrical and Electronics Engineers

IETF

Internet Engineering Task Force

IFM

InterFace Module

ISP

Internet Service Provider

LA

Link Activity

LAN

Local Area Network

LER

Label Edge Router

LOS

Loss of Signal

LSR

Label Switching Router

LVD

Low Voltage Directive

MRC

Media Redundancy Clients

MRM

Media Redundancy Manager

MRP

Media Redundancy Protocol

MSTP

Multiple Spanning Tree

MTBF

Mean Time Between Failures

PF

Power Failure

PHY

Physical interface

PI

Power Input

PSU

Power Supply Unit

PTN

Packet Transport Network

PTP

Precision Time Protocol

ROADM

Reconfigurable Optical Add-Drop Multiplexer

SONET

Synchronous Optical Network

SyncE

Synchronous Ethernet

WAN

Wide Area Network

Interface Module PTN-1-10G-LW 15

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WPH

WAN PHY, Packet over SDH

XFP

10 Gigabit Small Form Factor Pluggable Module

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