Download Print this page

Juniper PTX10016 Hardware Manual

Packet transport router

Hide thumbs Also See for PTX10016:

Quick start manual (34 pages)

,

Quick start manual (20 pages)

page of 450

/ 450
Bookmarks

Advertisement

Quick Links

Download this manual

PTX10016 Packet Transport Router

Hardware Guide

Published

2023-05-16

Advertisement

Need help?

Need help?

Do you have a question about the PTX10016 and is the answer not in the manual?

Questions and answers

Summary of Contents for Juniper PTX10016

Page 1 PTX10016 Packet Transport Router Hardware Guide Published 2023-05-16...
Page 2 The Juniper Networks product that is the subject of this technical documentation consists of (or is intended for use with) Juniper Networks software. Use of such software is subject to the terms and conditions of the End User License Agreement ("EULA") posted at https:/ /support.juniper.net/support/eula/.
Page 3 PTX10016 Optional Equipment | 34 PTX10016 Cooling System | 36 PTX10016 Cooling System and Airflow | 37 PTX10016 Fan Tray LEDs and Fan Tray Controller LEDs | 45 PTX10016 Power System | 52 JNP10K-PWR-AC Power Supply | 53 JNP10K-PWR-AC2 Power Supply | 55...
Page 4 General Site Guidelines | 166 PTX10016 Site Electrical Wiring Guidelines | 167 PTX10016 Rack Requirements | 168 PTX10016 Clearance Requirements for Airflow and Hardware Maintenance | 171 PTX10016 Chassis Physical Specifications | 172 PTX10016 Power Planning | 177 Power Requirements for PTX10016 Components | 177...
Page 5 Unpack the PTX10016 Router | 210 Unpack the PTX10016 Shipping Pallet | 210 Unpack Line Cards, Routing Control Boards, and Switch Interface Boards for the PTX10016 Router | 213 Compare the PTX10016 Router Order to the Packing List | 214 Register Products—Mandatory to Validate SLAs | 219...
Page 6 Connect DC Power to the PTX10016 Router | 252 Connect the PTX10016 Router to External Devices | 253 Connect the PTX10016 Router to a Network for Out-of-Band Management | 254 Connect the PTX10016 Router to a Management Console | 255...
Page 7 Remove a JNP10K-PWR-DC2 Power Supply from the PTX10016 Router | 329 Maintain the PTX10016 Switch Fabric Components | 332 How to Handle and Store PTX10016 Line Cards, RCBs, and SIBs | 332 How to Hold Line Cards and RCBs | 332...
Page 8 Locate the Serial Number ID Labels on PTX10016 Power Supplies | 378 Locate the Serial Number ID Labels on the PTX10016 Fan Trays and Fan Tray Controllers | 381 Locate the Serial Number ID Labels on PTX10016 Routing and Control Boards | 382...
Page 9 Contact Customer Support to Obtain a Return Materials Authorization for the PTX10016 Router or Component | 386 How to Pack the PTX10016 Router or Component for Shipping | 387 How to Pack the PTX10016 Chassis for Shipping | 387 How to Pack PTX10016 Components for Shipping | 390...
Page 10 DC Power Electrical Safety Guidelines for the PTX10008 and PTX10016 Routers | 423 DC Power Copper Conductors Warning | 424 DC Power Disconnection Warning | 425 DC Power Grounding Requirements and Warning | 426 DC Power Wiring Sequence Warning | 427...
Page 11 After completing the installation and basic configuration procedures covered in this guide, refer to the Junos OS and the Junos OS Evolved documentation for information about further software configuration. If your PTX10016 has JNP10016-SF Switch Interface Boards (SIBs), refer to the Junos OS documentation. If your PTX10016 has JNP10016-SF3 SIBs, refer to the Junos OS Evolved documentation.
Page 12 PTX10016 System Overview | 2 PTX10016 Chassis | 28 PTX10016 Cooling System | 36 PTX10016 Power System | 52 PTX10016 Routing and Control Board Components and Descriptions | 73 PTX10016 Switch Fabric | 83 PTX10016 Line Card Components and Descriptions | 89...
Page 13 PTX10016 routers provide cloud and data center operators with the highest levels of scale and throughput. PTX10016 is a next-generation modular router that offers ultra-high system capacity in a 21 U platform. It provides 230.4 Tbps per chassis. The PTX10016 has 16 slots for line cards that allow...
Page 14 for a smooth transition from 10GbE, 40GbE, and 100GbE networks to 400GbE high-performance networks.
Page 15 Figure 1: PTX10016 Packet Transport Router...
Page 16 SIBs. If your PTX10016 has JNP10016-SF SIBs, it will come preinstalled with Junos operating system (Junos OS). If your PTX10016 has JNP10016-SF3 SIBs, it will come preinstalled with Junos OS Evolved. The PTX10016 is available in base and redundant configurations for operation with both AC and DC inputs.
Page 17 Chassis Description The PTX10016 is 21-U tall. Two PTX10016 chassis can fit in a standard 42-U rack with adequate cooling and power. All key PTX10016 components are field-replaceable units (FRUs). Figure 2 on page illustrates the components visible from the front of the chassis,...
Page 18 Some chassis ship with an enhanced power bus to future-proof the chassis beyond the current generation of line cards. You can determine which chassis you have by markings on the status panel (see "PTX10016 Status Panel" on page 31). Figure 3: PTX10016 Chassis Rear...
Page 19 The RCB (see Figure 5 on page 9) contains a Routing Engine and is responsible for the system management and system control in the PTX10016. See "PTX10016 Routing and Control Board Description" on page 74. RCBs are FRUs that are installed in the front of the chassis in the slots labeled...
Page 20 • JNP10K-RE1-128G Line Cards The PTX10016 features 16 horizontal line card slots and supports a maximum line rate of 14.4 Tbps for each line card. The line cards combine a Packet Forwarding Engine and Ethernet interfaces enclosed in a single assembly. The line cards are FRUs that you can install in the line card slots labeled 0 through 15 (top to bottom) on the front of the router chassis.
Page 21 When six JNP10016-SF SIBs are installed, the PTX10016 has a routing capacity of 96 Tbps. When six JNP10016-SF3 SIBs are installed, the PTX10016 has a routing capacity of 565 Tbps. See "PTX10016 Switch Interface Board...
Page 22 Figure 7: JNP10016-SF SIB...
Page 23 Each SIB model has a set of unique connectors to mate the line cards and the RCB to the switch fabric. Some system components are also designed to operate with a specific switch fabric. See Table 1 on page for the components that each switch fabric supports. Table 1: PTX10016 SIB Specifications Specification JNP10016-SF JNP10016-SF3 Operating system Junos OS Release 17.4R1 and later...
Page 24 3. PTX10K-LC1104 4. PTX10K-LC1105 5. QFX10000-60S-6Q Cooling System The cooling system in a PTX10016 consists of two hot-removable and hot-insertable FRU fan trays (see Figure 9 on page 14 Figure 10 on page 15) and two fan tray controllers (see...
Page 25 FAN2 fan tray contains 42 fans. The fan trays install vertically on the rear of the chassis and provide front-to-back chassis cooling. See "PTX10016 Cooling System and Airflow" on page Figure 9: JNP10016-FAN Fan Tray...
Page 26 Figure 10: JNP10016-FAN2 Fan Tray Figure 11: JNP10016-FAN-CTRL Fan Tray Controller...
Page 27 • JNP10K–PWR-DC • JNP10K-PWR-DC2 Power supplies for the PTX10016 router are fully redundant, load-sharing, and hot-removable and hot- insertable FRUs. Each PTX10016 base configuration has five power supplies; redundant configurations hold the maximum of ten AC, HVAC, DC, or HVDC power supplies. Each power supply has an internal fan for cooling.
Page 28 (Continued) Table 2: PTX10016 Power Supply Overview Power Supply Model Input Type Wattage Minimum Junos OS Release JNP10K-PWR-AC2 AC, HVAC, or HVDC 5000 W, single feed; 5500 W, dual 18.2R1 feed JNP10K-PWR DC DC only 2500 W 17.4R1 JNP10K-PWR-DC2 DC only 2750 W, single feed;...
Page 29 Figure 14: JNP10K-PWR-AC2 Power Supply Figure 15: JNP10K-PWR-DC Power Supply...
Page 30 Figure 16: JNP10K-PWR-DC2 Power Supply Software The PTX10016 runs on Junos OS, which provides Layer 3 routing services. The same Junos OS code ® base that runs on the PTX10016 routers also runs on all Juniper Networks EX Series Ethernet ®...
Page 31 Table 3: PTX10016 Hardware Configurations Router Configuration Configuration Components PTX10016-BASE • Chassis Base AC configuration that supports • One Routing and Control Board (RCB) the JNP10016-SF SIB and Junos OS • Two fan tray controllers (JNP10016-FAN-CTRL or JNP10016-FTC2) • Two fan trays (JNP10016-FAN and JNP10016-FAN2) •...
Page 32 (Continued) Table 3: PTX10016 Hardware Configurations Router Configuration Configuration Components PTX10016-PREMIUM • Chassis Redundant AC configuration that • Two RCBs supports the JNP10016-SF SIB and Junos OS • Two fan tray controllers (JNP10016-FAN-CTRL or JNP10016-FTC2) • Two fan trays (JNP10016-FAN and JNP10016-FAN2) •...
Page 33 (Continued) Table 3: PTX10016 Hardware Configurations Router Configuration Configuration Components PTX10016-BASE3 • Chassis Base AC configuration that supports • One RCB the JNP10016-SF3 SIB and Junos OS Evolved Release 21.2R2 and later • Two JNP10016-FTC2 fan tray controllers • Two JNP10016-FAN2 fan trays •...
Page 34 (Continued) Table 3: PTX10016 Hardware Configurations Router Configuration Configuration Components PTX10016-PREM2 • Chassis Redundant AC configuration that • Two RCBs supports the JNP10016-SF3 SIB and Junos OS Evolved Release 21.2R2 • Two JNP10016-FTC2 fan tray controllers and later • Two JNP10016-FAN2 fan trays •...
Page 35 Ten JNP10K-PWR-DC2 or HVDC power supplies • Six JNP10016-SF3-BB SIBs • Sixteen line card slot cover panels NOTE: You can install up to 16 line cards in the PTX10016. Do not mix line cards supported by JNP10016-SF and JNP10016-SF3 SIBs in the same chassis.
Page 36 PTX10016 Component Redundancy The PTX10016 router is designed so that no single point of failure can cause the entire system to fail. The following major hardware components in the redundant configuration provide redundancy: • Routing and Control Board (RCB)—The RCB consolidates the Routing Engine function with control plane function in a single unit.
Page 37 PTX10016 Hardware and CLI Terminology Mapping This topic describes the hardware terms used in PTX10016 router documentation and the corresponding terms used in the Junos OS CLI. See Table 4 on page Table 4: CLI Equivalents of Terms Used in Documentation for PTX10016 Routers...
Page 38 (Continued) Table 4: CLI Equivalents of Terms Used in Documentation for PTX10016 Routers Hardware Description (CLI) Value (CLI) Item in Additional Information Item (CLI) Documentati n is a value in the range PSM ( Abbreviation for AC, DC, One of the following: power supply of 0–9.
Page 39 Table 4: CLI Equivalents of Terms Used in Documentation for PTX10016 Routers (Continued) Hardware Description (CLI) Value (CLI) Item in Additional Information Item (CLI) Documentati n is a value in the range show chassis fabric sibs SIB ( This field indicates: Fabric plane of 0–5.
Page 40 PTX10016 Optional Equipment | 34 The PTX10016 chassis houses the hardware components. The chassis components include the fan trays, fan tray controllers, power supplies, Routing and Control Boards (RCBs), line cards, an optional cable management system, and the status panel.
Page 41 (Continued) Table 5: FRUs in a PTX10016 Router Type RCBs Redundant configuration: • Primary RCB is hot-pluggable. • Backup RCB is hot-insertable and hot-removable. Base configuration: • If you remove the RCB, the router shuts down. You can install a replacement RCB in the second slot.
Page 42 This note does not apply if you replace an existing component with the same type of component. PTX10016 Status Panel The status panel of the PTX10016 has two purposes: • Shows the overall status of the chassis • Indicates the type of power bus internal to the chassis Some chassis ship with an enhanced power bus that future-proofs the chassis for potential power growth.
Page 43 Figure 18 on page 32). Figure 18: Status Panel on Chassis with the Enhanced Power Bus Table 6 on page 32 describes the status panel LEDs. Table 6: Status Panel LEDs in a PTX10016 Name Color State Description ! Minor alarm (Triangle Yellow No minor alarms are active.
Page 44 (Continued) Table 6: Status Panel LEDs in a PTX10016 Name Color State Description Yellow On steadily (if One or more of the power supplies has Junos OS Evolved an error. is installed in your router)/Blinking (if Junos OS is installed in your...
Page 45 PTX10016 Optional Equipment IN THIS SECTION PTX10016 Cable Management System | 34 The PTX10016 router supports the cable management system as optional equipment. PTX10016 Cable Management System You can use the PTX10016 cable management system (see Figure 19 on page 35) to route optical cables away from the line card ports for better airflow through the chassis.
Page 46 The cable management system (part number: JLC-CBL-MGMT-KIT) is a spare part and is not shipped by default. You must order it separately. Figure 19: PTX10016 Cable Management System The cable management system comprises a set of handle extensions and a tray that snaps to the...
Page 47 PTX10016 Cooling System and Airflow | 37 PTX10016 Fan Tray LEDs and Fan Tray Controller LEDs | 45 The PTX10016 cooling system components work together to keep all components within the acceptable temperature range. If the maximum temperature specification is exceeded and the system cannot be adequately cooled, the Routing and Control Board (RCB) shuts down some or all of the hardware components.
Page 48 Fan Tray Controllers | 40 Airflow Direction in the PTX10016 Router | 43 The cooling system in a PTX10016 chassis consists of dual fan trays and dual fan tray controllers. Two fan tray models and their associated fan tray controllers are available. See...
Page 49 Figure 22: JNP10016-FAN Fan Tray for the PTX10016 Router Each JNP10016-FAN fan tray contains 21 fans, a nonremovable control board, and LEDs.
Page 50 Figure 23: JNP10016-FAN2 Fan Tray for the PTX10016 Router Each JNP10016-FAN2 fan tray contains 42 fans, a nonremovable control board, and LEDs. Table 7 on page 39 for the physical specifications for the fan trays. Table 7: Fan Tray Specifications...
Page 51 The two fan tray controllers provide the control logic and power to hot-insert and hot-remove a fan tray. The system continually monitors the temperature of critical parts across the chassis and adjusts the chassis fan speed according to the temperature. The PTX10016 supports two fan tray controller models:...
Page 52 • JNP10016-FAN-CTRL—Supports the JNP10016-FAN fan tray model; see Figure 24 on page Figure 24: JNP10016-FAN-CTRL Fan Tray Controller • JNP10016-FTC2—Supports the JNP10016-FAN2 fan tray model; see Figure 25 on page Figure 25: JNP10016-FTC2 Fan Tray Controller Software controls the fan speed. Under normal operating conditions, the fans in the fan tray run at less than full speed.
Page 53 Fan Tray 0 Fan 4 4650 Spinning at normal speed Fan Tray 0 Fan 5 4650 Spinning at normal speed Fan Tray 0 Fan 6 4650 Spinning at normal speed Fan Tray 0 Fan 7 4500 Spinning at normal speed Fan Tray 0 Fan 8 4500 Spinning at normal speed...
Page 54 1.5 lb (0.68 kg) 2.3 lb (1.04 cm) Airflow Direction in the PTX10016 Router The air intake vent to cool the chassis is located on the port (line card) side of the chassis. Air flows into the chassis from the ports in the RCBs and line cards, through the SIBs, and exits from the fan trays and the power supplies.
Page 55 You can check the status of fans by viewing the LEDs on each fan tray. See "PTX10016 Fan Tray LEDs and Fan Tray Controller LEDs" on page You cannot replace a single fan. If one or more fans fail, you must replace the entire fan tray.
Page 56 IN THIS SECTION Fan Tray LEDs | 45 Fan Tray Controller LEDs | 50 Each fan tray in the PTX10016 has a set of LEDs. Each corresponding fan tray controller also has a set of LEDs. Fan Tray LEDs Each fan tray has a set of LEDs that represent the status of the fans in the fan tray, the fan tray controller, and the three Switch Interface Boards (SIBs).
Page 57 SIB 3 through SIB 5 for the right fan tray). Fan tray controller status LED — Table 9 on page 46 describes the functions of the fan tray LEDs. Table 9: Fan Tray LEDs on a PTX10016 Router Name Color State Description FAN (fan status)
Page 58 (Continued) Table 9: Fan Tray LEDs on a PTX10016 Router Name Color State Description Yellow Blinking An error has been detected in one or more fans in the fan tray. Replace the fan tray as soon as possible. Either the fan has failed or it has become disconnected.
Page 59 (Continued) Table 9: Fan Tray LEDs on a PTX10016 Router Name Color State Description Yellow Blinking An error has been detected in SIB 0. Replace the SIB as soon as possible. The SIB is located behind the left fan tray and is the left-most SIB in the chassis.
Page 60 (Continued) Table 9: Fan Tray LEDs on a PTX10016 Router Name Color State Description None The SIB is offline. SIB Status (SIB 3 status) Green On steadily The left-most SIB behind the right fan tray is online. Yellow Blinking An error has been detected in SIB 3.
Page 61 (Continued) Table 9: Fan Tray LEDs on a PTX10016 Router Name Color State Description Yellow Blinking An error has been detected in SIB 5. Replace the SIB as soon as possible. The SIB is located behind the right fan tray and is the right-most SIB in the group of 3.
Page 62 None The fan tray controller is not receiving power. SEE ALSO Install a Fan Tray Controller in the PTX10016 Router | 281 Remove a Fan Tray Controller from the PTX10016 Router | 283...
Page 63 JNP10K-PWR-AC2 Power Supply LEDs | 65 JNP10K-PWR-DC Power Supply LEDs | 67 JNP10K-PWR-DC2 Power Supply LEDs | 69 PTX10016 routers support AC, DC, high-voltage alternating current (HVAC), and high-voltage direct current (HVDC) by offering the following power supplies: • JNP10K-PWR-AC •...
Page 64 The number of power supplies furnished as standard varies by configuration model. For details about different router configurations, see "PTX10016 Components and Configurations" on page Each JNP10K-PWR-AC power supply has two independent 16-A rated AC inlets on the faceplate. Although each inlet provides sufficient input power to provide full output, always connect the inlets to a dedicated AC power feed to provide redundancy.
Page 65 For instructions on installing the power cord retainers, see "Connect AC Power to the PTX10016 Router" on page 251. NOTE: Route all the AC power supply cords away from the fan trays. Make sure that the power...
Page 66 SEE ALSO JNP10K-PWR-AC Power Specifications | 181 Install a JNP10K-PWR-AC Power Supply in the PTX10016 Router | 287 Remove a JNP10K-PWR-AC Power Supply from the PTX10016 Router | 292 JNP10K-PWR-AC2 Power Supply The JNP10K-PWR-AC2 power supply is a high-capacity model that is designed to support AC, high- voltage AC (HVAC), or high-voltage DC (HVDC) systems in either a 20-A or a 30-A mode.
Page 67 Figure 32: Comparison Between the JNP10K-PWR-AC2 and the JNP10K-PWR-AC Power Supplies All models of power supplies running in PTX10016 routers have internal fans that contribute to chassis cooling. However, the JNP10K-PWR-AC2 and JNP10K-PWR-DC2 power supplies play a more substantial role in cooling the chassis than the JNP10K-PWR-AC and JNP10K-PWR-DC models.
Page 68 CAUTION: Before you begin installing the router, ensure that a licensed electrician has attached an appropriate grounding lug to the grounding cable that you supply. Using a grounding cable with an incorrectly attached lug can damage the router. CAUTION: Use a 2-pole circuit breaker rated at 25 A in the building installation and the system, or as per local electrical code.
Page 69 Using a grounding cable with an incorrectly attached lug can damage the router. NOTE: DC power supplies are shipped only in the redundant configuration of PTX10016 routers. For details about different chassis configurations, see "PTX10016 Components and...
Page 70 DC feed. The chosen breaker should be sized to deliver 60 A of input current. Each power supply connects to the combined power rail in a PTX10016 router. The power rail distributes the output power produced by the power supplies to different router components. Each DC power supply provides power to all the components in the router.
Page 71 SEE ALSO JNP10K-PWR-DC Power Specifications | 193 Install a JNP10K-PWR-DC Power Supply in the PTX10016 Router | 304 Remove a JNP10K-PWR-DC Power Supply from the PTX10016 Router | 314 JNP10K-PWR-DC2 Power Supply The JNP10K-PWR-DC2 power supply provides two power supplies in a single housing that accepts either 60 A or 80 A using four redundant input power feeds.
Page 72 Figure 35: Comparison Between the JNP10K-PWR-DC2 and JNP10K-PWR-DC Power Supplies All models of power supplies running in PTX10016 routers have internal fans that contribute to chassis cooling. However, the JNP10K-PWR-AC2 and JNP10K-PWR-DC2 power supplies play a more...
Page 73 substantial role in cooling the chassis than the JNP10K-PWR-AC and JNP10K-PWR-DC models. Consequently, all six JNP10K-PWR-AC2 or JNP10K-PWR-DC2 power supplies must be present in a running chassis to have the adequate airflow. NOTE: The JNP10K-PWR-DC2 power supply does not support 5500 W power if the inlet temperature to the power supply is 60°...
Page 74 Figure 36: LEDs on the JNP10K-PWR-AC Power Supply FAULT LED INP2 LED — — PWR OK LED INP1 LED — — Table 13 on page 63 describes the LEDs on the JNP10K-PWR-AC power supply. Table 13: LEDs on the JNP10K-PWR-AC Power Supply Color State Description...
Page 75 (Continued) Table 13: LEDs on the JNP10K-PWR-AC Power Supply Color State Description • INP2 in the CLI None Unlit The power supply is switched off. output for Junos OS Evolved Release 20.4R2 or later • INP1 in the CLI output for releases earlier than Junos OS Evolved Release 20.4R2...
Page 76 JNP10K-PWR-AC2 Power Supply LEDs The JNP10K-PWR-AC2 power supply has four LEDs on its faceplate: !, OK, 2, and 1. These LEDs display information about the status of the power supply. See Figure 37 on page Figure 37: LEDs on the JNP10K-PWR-AC2 Power Supply ! Fault 2 INP2–Source input 1 —...
Page 77 Table 15 on page 66 describes the LEDs on the JNP10K-PWR-AC2 power supply. Table 15: LEDs on the JNP10K-PWR-AC2 Power Supply Color State Description Yellow Solid One of the following: • • INP1 in the CLI output The power supply is switched off. for Junos OS Evolved •...
Page 78 JNP10K-PWR-DC Power Supply LEDs The JNP10K-PWR-DC power supply has four LEDs on its faceplate: INP1, INP2, PWR OK, and FAULT. These LEDs display information about the status of the power supply. See Figure 38 on page Figure 38: LEDs on a JNP10K-PWR-DC Power Supply INP1 LED PWR OK LED —...
Page 79 (Continued) Table 16: Physical Markings on Chassis Versus show chassis power Command Physical Marking show chassis power Command on JNP10K-PWR- INP2 PS1 in the CLI output for releases earlier than Junos OS Release 20.4R2 and Junos OS Evolved Release 20.4R2 A1 or B1 in the CLI output for Junos OS Release 20.4R2 or later and Junos OS Evolved Release 20.4R2 or later Table 17 on page 68...
Page 80 (Continued) Table 17: LEDs on a JNP10K-PWR-DC Power Supply Color State Description PWR OK Green Solid DC power output is within normal operating range. Yellow Blinking The output is out of the limits. FAULT Solid Power supply has failed and must be replaced. Unlit Power supply is functioning normally.
Page 81 Figure 39: LEDs on the JNP10K-PWR-DC2 Power Supply ! Fault 2 Power source input 1 — — OK Power OK 1 Power source input 0 — — You can find out the version of the firmware installed in the power supply from the output of show system firmware command.
Page 82 Table 18: LEDs on a JNP10K-PWR-DC2 Power Supply (with 300.300.208.208.304 or higher firmware (Continued) installed in it) Feed 0 Feed 1 State of the LED 1 LED 2 OK LED ! LED Power Supply Switch A or B Orange Green— Blinking A or B A or B...
Page 83 Table 18: LEDs on a JNP10K-PWR-DC2 Power Supply (with 300.300.208.208.304 or higher firmware (Continued) installed in it) Feed 0 Feed 1 State of the LED 1 LED 2 OK LED ! LED Power Supply Switch A and B Orange Green Green A or B A and B...
Page 84 If the ! LED is blinking, add a power supply to balance the power demand and supply. RELATED DOCUMENTATION Power Requirements for PTX10016 Components | 177 Connect DC Power to the PTX10016 Router | 252 PTX10016 Routing and Control Board Components and Descriptions...
Page 85 IN THIS SECTION Routing and Control Board Functions | 75 Routing and Control Board Components | 75 The PTX10016 Routing and Control Board (RCB) is responsible for system management in a PTX10016 router (see Figure 40 on page 74). The chassis can run with one or two RCBs. We ship the base configurations with one RCB, and you can expand the configuration with a second RCB for a fully redundant system.
Page 86 Figure 41: JNP10K-RE1, JNP10K-RE1-E, JNP10K-RE1-128G, and JNP10K-RE1-E128 Routing and Control Board Functions The RCB integrates the control plane and Routing Engine functions into a single management unit. Each RCB provides all the functions needed to manage the operation of the modular chassis: •...
Page 87 Figure 42: Routing and Control Board Faceplate (JNP10K-RE0) RCB status LEDs USB 2.0 port — — Console (CON) port Secondary 50-GB SATA SSD slot — — PTP-capable connections: SMB In, SMB Out, Reset (RESET) button — — 10 MHz In, 10 MHz Out Ethernet management (MGMT) ports: RJ-45 Four SFP+ ports (reserved for future use) —...
Page 88 Routing and Control Board Status Panel LEDs | 78 PTX10016 Management Port LEDs | 79 SATA SSD LEDs | 80 Clock LEDs (JNP10K-RE1, JNP10K-RE1-LT, and JNP10K-RE1-128) | 81 The PTX10016 Routing and Control Boards (RCBs) have various types of LED indicators (see Figure 44 on page 77).
Page 89 RCB status panel LEDs Clock LEDs—BITS-0 and BITS-1 — — SSD LEDs—DISK1 and DISK2 — Routing and Control Board Status Panel LEDs The RCB status panel LEDs indicate the state of the RCB (see Figure 46 on page 78). Figure 46: Routing and Control Board Status Panel LEDs and Button Power (PWR) LED Primary (MST) LED —...
Page 90 The RCB is the backup RCB. PTX10016 Management Port LEDs The two management ports on the RCB of a PTX10016 router have LEDs that indicate link status and link activity. These two ports, located on the RCB panel between the clocking connections and the USB port, are both labeled MGMT.
Page 91 On steadily A link is established. Blinking There is link activity. Yellow Blinking or flickering The beacon feature is enabled. Table 22: SFP Management Port LEDs on a PTX10016 Routing and Control Board (JNP10K-RE0 and JNP10K-RE1) Color State Description Link/Activity/Status Unlit No transceiver is present.
Page 92 Table 23 on page 81 describes the LEDs for the secondary SATA drive. Table 23: Routing and Control Board SSD Status LEDs Color State Description SSD on JNP10K-RE0 Green On steadily A SATA drive is present. DISK1 and DISK2 on JNP10K-RE1 Green Blinking...
Page 93 Clock is not working. RELATED DOCUMENTATION Connect the PTX10016 Router to a Network for Out-of-Band Management | 254 How to Handle and Store PTX10016 Line Cards, RCBs, and SIBs | 332 Install a Routing and Control Board in the PTX10016 Router | 268...
Page 94 Boards (RCBs) in the front and the fan trays in the rear. When you install six JNP10016-SF SIBs, the PTX10016 has a routing capacity of 96 Tbps. When you install six JNP10016-SF3 SIBs, the PTX10016 has a routing capacity of 565 Tbps.
Page 95 Figure 48: JNP10016 SIB...
Page 96 Figure 49: JNP10016-SF3 SIB Table 26 on page 85 lists the physical specifications of a JNP10016-SF SIB. Table 27 on page 86 lists the physical specifications of a JNP10016-SF3 SIB. Table 26: Dimensions of a JNP10016-SF SIB Specification Value Height 34.6 in.
Page 97 Table 27: Dimensions of a JNP10016-SF3 SIB Specification Value Height 34.5 in. (87.6 cm) Width 1.8 in. (4.57 cm) Depth 13.3 in. (33.8 cm) Weight 42.7 lb (19.37 kg) SIBs are hot-removable and hot-insertable field-replaceable units (FRUs). They are not visible from the outside of the router chassis.
Page 98 Figure 50: SIBs Installed in the PTX10016 Router Fan tray controllers SIBs — — SEE ALSO Install a Switch Interface Board in the PTX10016 Router | 335 Remove a Switch Interface Board from the PTX10016 Router | 340...
Page 99 PTX10016 Switch Interface Board LEDs The SIB has two status LEDs at the top of each board. See Figure 51 on page Figure 51: SIB LEDs Table 28 on page 88 describes the functions of these LEDs. Table 28: Functions of the SIB LEDs...
Page 100 The line cards in PTX10016 routers combine a Packet Forwarding Engine and Ethernet interfaces in a single assembly. Line cards are field-replaceable units (FRUs) that can be installed in the line card slots on the front of the router chassis. The PTX10016 chassis supports up to 16 line cards. See Table 29 on page 90 for line cards that operate in the PTX10016.
Page 101 Table 29: Line Cards That Operate in the PTX10016 Line Card Description Supported Dimensions Switch Shipping Fabric Weight PTX10K-LC1101 30-port 100GbE or 40GbE JNP10016- 17.2 in x 1.89 in x 27 lb 20.5 in 12.2 kg 43.68 cm x 4.8 cm x 52.07 cm...
Page 102 Table 29: Line Cards That Operate in the PTX10016 (Continued) Line Card Description Supported Dimensions Switch Shipping Fabric Weight PTX10K- 32 QSFP28 ports that support 100- JNP10016- 17.2 in. x 1.9 in. x 21 lb LC1202-36MR Gbps speed and four QSFP56-DD 21.3 in.
Page 103 ® Juniper Networks PTX10008 Packet Transport Router and the PTX10016 that run Junos OS Release 17.2R1 and later support the PTX10K-LC1101 line card. Figure 52: PTX10K-LC1101 Port Panel Power LED (PWR), status :LED (STS), and Network ports — — offline/online button (OFF) Each network port can operate as a: •...
Page 104 Table 30: Maximum Port Configuration Port Speed Nonchannelized Mode (Mode D) Channelized Mode (Mode A) 100 Gbps 30 or 24 or 40 Gbps 24 or 10 Gbps Unlike the PTX10K-LC1102 line card, the PTX10K-LC1101 line card does not have port groups; instead, port behavior is tied to the ASIC associated with the port.
Page 105 Table 31: Port Mapping for Channelization (Continued) ASIC Available Ports Disabled Port 10, 12, 14, 18 11, 13, 15, 19 20, 22, 24, 28 21, 23, 25, 29 Network Ports Each of the 30 QSFP28 ports supports: • 100GbE using QSFP28 optical transceivers. •...
Page 106 10GbE interfaces by configuring the port speed and cabling the port using fiber breakout cables. See Figure 54 on page PTX10008 and PTX10016 routers that run Junos OS Release 17.2R1 and later support the PTX10K- LC1102 line card. Figure 54: PTX10K-LC1102 Port Panel...
Page 107 • 40GbE QSFP+ transceivers • 40GbE to 10GbE or 1GbE QSA (Junos OS Release 18.4R1 and later) Channelization Every second and sixth port in a 6xQSFP cage on a PTX10K-LC1102 line card supports 100GbE using QSFP28 transceivers. These 100GbE ports operate either as 100GbE ports or as 40GbE, but are recognized as channelized 4x10GbE by default.
Page 108 Figure 57: Enabled 100GbE Port Creates a Port Group and Disables the Associated 40GbE Port The 40GbE ports can operate independently, be channelized into four 10GbE ports, or bundled with the next two consecutive ports and channelized into twelve 10GbE ports as a port range. Only the first and fourth port in each 6xQSFP cage are available to channelize a port range (see Figure 58 on page 97).
Page 109 Table 32: PTX10K-LC1102 Port Mapping Port Number 4x10GbE 4x10GbE 40GbE 100GbE 100GbE Disables Channelized Port Group – – ✓ ✓ ✓ 0, 2 ✓ ✓ ✓ – – ✓ ✓ – – ✓ ✓ ✓ – – ✓ ✓ 3, 4 ✓...
Page 110 (Continued) Table 32: PTX10K-LC1102 Port Mapping Port Number 4x10GbE 4x10GbE 40GbE 100GbE 100GbE Disables Channelized Port Group – – ✓ ✓ ✓ – – ✓ ✓ 15, 16 ✓ ✓ ✓ – – ✓ ✓ ✓ 18, 20 ✓ ✓ ✓...
Page 111 (Continued) Table 32: PTX10K-LC1102 Port Mapping Port Number 4x10GbE 4x10GbE 40GbE 100GbE 100GbE Disables Channelized Port Group – – ✓ ✓ ✓ 30, 32 ✓ ✓ ✓ – – ✓ ✓ – – ✓ ✓ ✓ – – ✓ ✓ 33, 34 ✓...
Page 112 Table 33: Unchannelized Network Port Link and Activity LEDs on a PTX10K-LC1102 Line Card Color State Description Unlit The port is administratively disabled, there is no power, the link is down, or a transceiver is not present. Green On steadily A link is established but there is no activity.
Page 113 PTX10K-LC1104 coherent line cardss. See Figure 60 on page 103. PTX10008 routers that run Junos OS Release 17.4R1-S1 and later support the PTX10K-LC1104 line card. PTX10016 routers that run Junos OS Release 18.3R1 and later support the PTX10K-LC1104 line card.
Page 114 / x / x ) that connect to one of three built-in flexible Each PTX10K-LC1104 has six physical interfaces (ot- rate optical transponders for a maximum of 24 physical interfaces on a PTX10008 or PTX10016 system. Each transponder connects four 100GbE logical interfaces (et- x / x / x ) to one of three forwarding ASICs.
Page 115 Figure 61: PTX10K-LC1104 Interfaces NOTE: All optical properties are configured under the ot interface. Use the set interfaces ot- x/x/x optics-options CLI command to set these options. Perform MACsec configuration on the et interface using the set security macsec connectivity-association ca-name encryption- algorithm.
Page 116 Center Interconnect (DCI). As part of the Open Cloud Interconnect (OCI) solution, the PTX10K-LC1104 coherent line card is compatible with many third-party optical products as well as Juniper Networks optical solutions and offerings. The line card is interoperable with the BTI Series Packet Optical Transport UFM6 in 100-Gbps and 200-Gbps modes.
Page 117 Table 37: PTX10K-LC1104 Optical Transmit Specifications Specification Value Standards compliance IEEE 802.3 IEC 60825-1 Class 1 Modulation format DP-QPSK, DP-8QAM, DP-16QAM Line rate DP-QPSK = 136.66 Gbps DP-8QAM = 205 Gbps DP-16QAM= 273.33 Gbps FEC types 15% or 25% SD-FEC Channel-plan wavelength range Extended C-band, 1528.77 nm to 1566.72 nm Channel-plan frequency range...
Page 118 Optical Receive Specifications Table 38: PTX10K-LC1104 Optical Receive Specifications Specification 100G DP-PSK 150G DP-8QAM 200G DP-16QAM Optical receiver input power range (low Rx —18 dBm to 0 dBm —18 dBm to 0 dBm —18 dBm to 0 dBm OSNR) Optical receiver input power range —32 dBm to 0 dBm —27 dBm to 0 dBm —25 dBm to 0 dBm...
Page 119 Figure 62: DWDM Port and Ethernet Link State LEDs Port LEDs (ot- interfaces) Ethernet LEDs (et- link interfaces) — — Table 39: Network Port Status LEDs (ot Interfaces) Color Description Unlit The port is not configured. Solid green A link is established on the interface.
Page 120 (Continued) Table 40: Valid et Interface Link Combinations of Every Two ot Ports Modulation Format Aggregate Data Configuration Interface Data Rate Interface Rate Ports 0, 2, 4 1, 3, 5 100 Gbps 200 Gbps QPSK and 16-QAM 3 x 100GbE 0, 2, 3 Independent QPSK and 16-QAM...
Page 121 Table 42: OT Interface Alarms and Defects Category Alarm Description Link Status Network lane LOS Loss of signal Link down Network lane LOF Loss of frame Link down Network lane LOM Loss of multiframe Link down Network lane OTU-BDI Backward defect identification Link down OTN FEC FEC degrade (OTU-FEC-...
Page 122 (Continued) Table 42: OT Interface Alarms and Defects Category Alarm Description Link Status DAC calibration fault DAC calibration fault Alarm ADC calibration fault ACD calibration fault Alarm Table 43: et Interface Alarms and Defects Category Alarm Description Link Status Loss of signal Alarm Loss of frame Alarm...
Page 123 (Continued) Table 43: et Interface Alarms and Defects Category Alarm Description Link Status ODU-OCI Open connection error Alarm ODU-LCK ODU lock triggers for path monitoring and TCM levels 1 through 6 Alarm ODU-BDI Backward defect indication Alarm ODU-TTIM DAPI or SAPI mismatch from expected to received Warning ODU-IAE Incoming alignment error...
Page 124 Junos OS Release 17.3R1 and later. The PTX10K-LC1104 coherent line card is available for the PTX10008 and PTX10016 routers. See Table 44 on page 113 for the available channel frequencies and wavelengths. Table 44: DWDM Module Wavelengths Frequency (THz)
Page 125 (Continued) Table 44: DWDM Module Wavelengths Frequency (THz) Wavelength (nm) Offset (GHz) 191.53 1565.29 12.5 191.54 1565.19 12.5 191.55 1565.09 12.5/50 191.56 1564.99 12.5 191.58 1564.88 12.5 191.59 1564.78 12.5 191.6 1564.68 12.5/50/100 191.61 1564.58 12.5 191.63 1564.48 12.5 191.64 1564.37 12.5 191.65...
Page 126 (Continued) Table 44: DWDM Module Wavelengths Frequency (THz) Wavelength (nm) Offset (GHz) 191.71 1563.76 12.5 191.73 1563.66 12.5 191.74 1563.56 12.5 191.75 1563.46 12.5/50 191.76 1563.35 12.5 191.78 1563.25 12.5 191.79 1563.15 12.5 191.8 1563.05 12.5/50/100 191.81 1562.95 12.5 191.83 1562.84 12.5 191.84...
Page 127 (Continued) Table 44: DWDM Module Wavelengths Frequency (THz) Wavelength (nm) Offset (GHz) 191.9 1562.23 12.5/50/100 191.91 1562.13 12.5 191.93 1562.03 12.5 191.94 1561.93 12.5 191.95 1561.83 12.5/50 191.96 1561.72 12.5 191.98 1561.62 12.5 191.99 1561.52 12.5 1561.42 12.5/50/100 192.01 1561.32 12.5 192.03 1561.22...
Page 128 (Continued) Table 44: DWDM Module Wavelengths Frequency (THz) Wavelength (nm) Offset (GHz) 192.09 1560.71 12.5 192.1 1560.61 12.5/50/100 192.11 1560.51 12.5 192.13 1560.4 12.5 192.14 1560.3 12.5 192.15 1560.2 12.5/50 192.16 1560.1 12.5 192.18 1560 12.5 192.188 1559.9 12.5 192.2 1559.79 12.5/50/100 192.21...
Page 129 (Continued) Table 44: DWDM Module Wavelengths Frequency (THz) Wavelength (nm) Offset (GHz) 192.28 1559.19 12.5 192.29 1559.08 12.5 192.3 1558.98 12.5/50/100 192.31 1558.88 12.5 192.33 1558.78 12.5 192.34 1558.68 12.5 192.35 1558.58 12.5/50 192.36 1558.48 12.5 192.38 1558.38 12.5 192.39 1558.27 12.5 192.4...
Page 130 (Continued) Table 44: DWDM Module Wavelengths Frequency (THz) Wavelength (nm) Offset (GHz) 192.46 1557.67 12.5 192.48 1557.57 12.5 192.49 1557.47 12.5 192.5 1557.36 12.5/50/100 192.51 1557.26 12.5 192.53 1557.16 12.5 192.54 1557.06 12.5 192.55 1556.96 12.5/50 192.56 1556.86 12.5 192.58 1556.76 12.5 192.59...
Page 131 (Continued) Table 44: DWDM Module Wavelengths Frequency (THz) Wavelength (nm) Offset (GHz) 192.65 1556.15 12.5/50 192.66 1556.05 12.5 192.68 1555.95 12.5 192.69 1555.85 12.5 192.7 1555.75 12.5/50/100 192.71 1555.65 12.5 192.73 1555.55 12.5 192.74 1555.44 12.5 192.75 1555.34 12.5/50 192.76 1555.24 12.5 192.78...
Page 132 (Continued) Table 44: DWDM Module Wavelengths Frequency (THz) Wavelength (nm) Offset (GHz) 192.84 1554.64 12.5 192.85 1554.54 12.5/50 192.86 1554.44 12.5 192.88 1554.34 12.5 192.89 1554.24 12.5 192.9 1554.13 1554.134 192.91 1554.03 12.5 192.93 1553.93 12.5 192.94 1553.83 12.5 192.95 1553.73 12.5/50 192.96...
Page 133 (Continued) Table 44: DWDM Module Wavelengths Frequency (THz) Wavelength (nm) Offset (GHz) 193.03 1553.13 12.5 193.04 1553.03 12.5 193.05 1552.93 12.5/50 193.06 1552.83 12.5 193.08 1552.73 12.5 193.09 1552.63 12.5 193.1 1552.52 12.5/50/100 193.11 1552.42 12.5 193.13 1552.32 12.5 193.14 1552.22 12.5 193.15...
Page 134 (Continued) Table 44: DWDM Module Wavelengths Frequency (THz) Wavelength (nm) Offset (GHz) 193.21 1551.62 12.5 193.23 1551.52 12.5 193.24 1551.42 12.5 193.25 1551.32 12.5/50 193.26 1551.22 12.5 193.28 1551.12 12.5 193.29 1551.02 12.5 193.3 1550.92 12.5/50/100 193.31 1550.82 12.5 193.33 1550.72 12.5 193.34...
Page 135 (Continued) Table 44: DWDM Module Wavelengths Frequency (THz) Wavelength (nm) Offset (GHz) 193.4 1550.12 12.5/50/100 193.41 1550.02 12.5 193.43 1549.92 12.5 193.44 1549.82 12.5 193.45 1549.72 12.5/50 193.46 1549.62 12.5 193.48 1549.52 12.5 193.49 1549.42 12.5 193.5 1549.32 12.5/50/100 193.51 1549.22 12.5 193.53...
Page 136 (Continued) Table 44: DWDM Module Wavelengths Frequency (THz) Wavelength (nm) Offset (GHz) 193.59 1548.62 12.5 193.6 1548.52 12.5/50/100 193.61 1548.42 12.5 193.63 1548.32 12.5 193.64 1548.22 12.5 193.65 1548.12 12.5/50 193.66 1548.02 12.5 193.68 1547.92 12.5 193.69 1547.82 12.5 193.7 1547.72 12.5/50/100 193.71...
Page 137 (Continued) Table 44: DWDM Module Wavelengths Frequency (THz) Wavelength (nm) Offset (GHz) 193.78 1547.12 12.5 193.79 1547.02 12.5 193.8 1546.92 12.5/50/100 193.81 1546.82 12.5 193.83 1546.72 12.5 193.84 1546.62 12.5 193.85 1546.52 12.5/50 193.86 1546.42 12.5 193.88 1546.32 12.5 193.89 1546.22 12.5 193.9...
Page 138 (Continued) Table 44: DWDM Module Wavelengths Frequency (THz) Wavelength (nm) Offset (GHz) 193.96 1545.62 12.5 193.98 1545.52 12.5 193.99 1545.42 12.5 1545.32 12.5/50/100 194.01 1545.22 12.5 194.03 1545.12 12.5 194.04 1545.02 12.5 194.05 1544.92 12.5/50 194.06 1544.82 12.5 194.08 1544.73 12.5 194.09 1544.63...
Page 139 (Continued) Table 44: DWDM Module Wavelengths Frequency (THz) Wavelength (nm) Offset (GHz) 194.15 1544.13 12.5/50 194.16 1544.03 12.5 194.18 1543.93 12.5 194.19 1543.83 12.5 194.2 1543.73 12.5/50/100 194.21 1543.63 12.5 194.23 1543.53 12.5 194.24 1543.43 12.5 194.25 1543.33 12.5/50 194.26 1543.23 12.5 194.28...
Page 140 (Continued) Table 44: DWDM Module Wavelengths Frequency (THz) Wavelength (nm) Offset (GHz) 194.34 1542.64 12.5 194.35 1542.54 12.5/50 194.36 1542.44 12.5 194.38 1542.34 12.5 194.39 1542.24 12.5 194.4 1542.14 12.5/50/100 194.41 1542.04 12.5 194.43 1541.94 12.5 194.44 1541.85 12.5 194.45 1541.75 12.5/50 194.46...
Page 141 (Continued) Table 44: DWDM Module Wavelengths Frequency (THz) Wavelength (nm) Offset (GHz) 194.53 1541.15 12.5 194.54 1541.05 12.5 194.55 1540.95 12.5/50 194.56 1540.85 12.5 194.58 1540.76 12.5 194.59 1540.66 12.5 194.6 1540.56 12.5/50/100 194.61 1540.46 12.5 194.63 1540.36 12.5 194.64 1540.26 12.5 194.65...
Page 142 (Continued) Table 44: DWDM Module Wavelengths Frequency (THz) Wavelength (nm) Offset (GHz) 194.71 1539.67 12.5 194.73 1539.57 12.5 194.74 1539.47 12.5 194.75 1539.37 12.5/50 194.76 1539.27 12.5 194.78 1539.17 12.5 194.79 1539.07 12.5 194.8 1538.98 12.5/50/100 194.81 1538.88 12.5 194.83 1538.78 12.5 194.84...
Page 143 (Continued) Table 44: DWDM Module Wavelengths Frequency (THz) Wavelength (nm) Offset (GHz) 194.9 1538.19 12.5/50/100 194.91 1538.09 12.5 194.93 1537.99 12.5 194.94 1537.89 12.5 194.95 1537.79 12.5/50 194.96 1537.69 12.5 194.98 1537.59 12.5 194.99 1537.5 12.5 1537.4 12.5/50/100 195.01 1537.3 12.5 195.03 1537.2...
Page 144 (Continued) Table 44: DWDM Module Wavelengths Frequency (THz) Wavelength (nm) Offset (GHz) 195.09 1536.7 12.5 195.1 1536.6 12.5/50/100 195.11 1536.51 12.5 195.13 1536.41 12.5 195.14 1536.31 12.5 195.15 1536.22 12.5/50 195.16 1536.12 12.5 195.18 1536.02 12.5 195.19 1535.92 12.5 195.2 1535.82 12.5/50/100 195.21...
Page 145 (Continued) Table 44: DWDM Module Wavelengths Frequency (THz) Wavelength (nm) Offset (GHz) 195.28 1535.23 12.5 195.29 1535.13 12.5 195.3 1535.03 12.5/50/100 195.31 1534.94 12.5 195.33 1534.84 12.5 195.34 1534.74 12.5 195.35 1564.64 12.5/50 195.36 1534.55 12.5 195.38 1534.45 12.5 195.39 1534.35 12.5 195.4...
Page 146 (Continued) Table 44: DWDM Module Wavelengths Frequency (THz) Wavelength (nm) Offset (GHz) 195.46 1533.76 12.5 195.48 1533.66 12.5 195.49 1533.56 12.5 195.5 1533.47 12.5/50/100 195.51 1533.37 12.5 195.53 1533.27 12.5 195.54 1533.17 12.5 195.55 1533.07 12.5/50 195.56 1532.98 12.5 195.58 1532.88 12.5 195.59...
Page 147 (Continued) Table 44: DWDM Module Wavelengths Frequency (THz) Wavelength (nm) Offset (GHz) 195.65 1532.29 12.5/50 195.66 1532.19 12.5 195.68 1532.09 12.5 195.69 1532 12.5 195.7 1531.9 12.5/50/100 195.71 1531.8 12.5 195.73 1531.7 12.5 195.74 1531.61 12.5 185.75 1531.51 12.5/50 185.76 1531.41 12.5 195.78...
Page 148 (Continued) Table 44: DWDM Module Wavelengths Frequency (THz) Wavelength (nm) Offset (GHz) 195.84 1530.82 12.5 195.85 1530.73 12.5/50 195.86 1530.63 12.5 195.88 1530.53 12.5 195.89 1530.43 12.5 195.9 1530.33 12.5/50/100 195.91 1530.34 12.5 195.93 1530.24 12.5 195.94 1530.04 12.5 195.95 1529.94 12.5/50 195.96...
Page 149 Table 44: DWDM Module Wavelengths (Continued) Frequency (THz) Wavelength (nm) Offset (GHz) 196.03 1529.36 12.5 196.04 1529.26 12.5 196.05 1529.16 12.5/50 196.06 1529.07 12.5 196.08 1528.97 12.5 196.09 1528.87 12.5 196.1 1528.77 12.5/50/100 PTX10K-LC1105 Line Card IN THIS SECTION Overview | 138 Network Ports | 139 Channelizing 40-Gigabit Ethernet Ports | 139 Power and Status LEDs | 141...
Page 150 The ports support speeds of 100 Gbps or 40 Gbps and you can configure the port speed through the CLI. See Figure 63 on page 139. The PTX10008 and PTX10016 routers that run Junos OS Release 17.4R1-S1 and later support the PTX10K-LC1105 line card. Figure 63: PTX10K-LC1105 Port Panel Power LED (PWR), status LED (STS), and Network ports —...
Page 151 Table 45: Maximum Port Configuration Port Speed Nonchannelized Mode (Mode D) Channelized Mode (Mode A) 100 Gbps 30 or 24 or 40 Gbps 24 or 10 Gbps The port behavior in the PTX10K-LC1105 line card is tied to the ASIC associated with the port. You must configure each port individually, in order to channelize a 40-Gigabit Ethernet port to four independent 10-Gigabit Ethernet ports.
Page 152 (Continued) Table 46: Port Mapping for Channelization ASIC Available Ports Disabled Port 10, 12, 14, 18 11, 13, 15, 19 20, 22, 24, 28 21, 23, 25, 29 Power and Status LEDs The two LEDs to the left of the network ports indicate the power (PWR) and status (STS) for the line card.
Page 153 (Continued) Table 48: Status LED Color State Description Yellow or amber On steadily The line card is booting. Blinking The line card has a fault condition or alarm. Slow blink or blip The beacon function is enabled. Port Status and Activity LEDs Each QSFP28 port has a bicolored up or down LED indicator that shows port status and link activity.
Page 154 JNP10004-FTC2, the JNP10008-FTC2, or the JNP10016-FTC2 fan tray controller. These components require Junos OS Evolved. Overview The PTX10K-LC1201-36CD line card houses Packet Forwarding Engine based on Juniper Networks' custom ASICs to deliver a 400GbE solution for data centers.
Page 155 You can install the PTX10K-LC1201-36CD line card in the PTX10004, PTX10008, and PTX10016 chassis horizontally at the front of the chassis. Figure 65: PTX10K-LC1201-36CD Port Panel Network ports and LEDs Power LED (PWR), status LED (STS), and — — offline button (OFF) PTX10004 routers running Junos OS Evolved Release 20.3R1 with Junos Continuity and later support...
Page 156 Network Ports The QSFP56-DD ports support: • 400GbE transceivers (QSFP56-DD) • 400GbE active optic cables (QSFP56-DD AOCs) • 4 x 100GbE transceivers (QSFP56-DD) • 2 x 100GbE transceivers (QSFP28-DD) • 100GbE transceivers (QSFP28) • 100GbE AOCs (QSFP28) • 40GbE transceivers (QSFP+) •...
Page 157 To individually configure a port, you need to specify both the speed and number of subports (channels). 0-7 pic 0 port 0-35 speed 400g | 200g | 100g | 50g | 40g | 25g | 10g number-of- user@host> set chassis fpc subports For example, to channelize port 15 in slot 0 to 4 downstream 100GbE interfaces: user@host>...
Page 158 et-0/0/15:0 et-0/0/15:1 et-0/0/15:2 et-0/0/15:3 Network LEDs Each network port has a single tricolored LED that indicates link activity and status. The red, amber, or green LED has different interpretations depending on whether the port is channelized, not channelized, or whether the beacon is activated (see Table 51 on page 147).
Page 159 Line Card Status LEDs The line card has a power (PWR) LED and a status (STS) LED (see Table 52 on page 148). Table 52: Line Card Status LEDs State LED Indication Beacon/Port Location On Power PWR Power is not present. The line card has power and is operating Green, on steadily Green, on steadily...
Page 160 ASICs. The line card has two custom ASICs, each hosting two Packet Forwarding Engines. The line card supports a maximum throughput of 1.2 Tbps per Packet Forwarding Engine. You can install the PTX10K-LC1202-36MR line card in the PTX10004, PTX10008, and PTX10016 chassis horizontally at the front of the chassis.
Page 161 (with Junos Continuity) support the PTX10K-LC1202-36MR line card. PTX10016 routers running Junos OS Evolved Release 21.2R2 and later support the PTX10K-LC1202-36MR line card. The PTX10K- LC1202-36MR line card interoperates with the PTX10K-LC1201-36CD line card on a PTX10004, PTX10008, or PTX10016 router.
Page 162 By using breakout cables, you can channelize the PTX10K-LC1202-36MR ports. The QSFP56-DD ports (ports 4, 10, 24, and 30) on the line card support the following transceivers: • 1x400GbE transceivers (QSFP56-DD) • 4x100GbE transceivers (QSFP56-DD) • 2x100GbE transceivers (QSFP28-DD) • 8x25GbE transceivers (QSFP28-DD) •...
Page 163 Table 54: PTX10K-LC1202-36MR Bandwidth Router Configuration Number of Switch Bandwidth per Slot Without Bandwidth per Slot with N +1 Fabric Cards Used Fabric Redundancy Fabric Redundancy PREM3 configuration – 4.8 Tbps PREM2 configuration 3.6 Tbps 2.8 Tbps BASE3 configuration 2.8 Tbps 1.6 Tbps Network LEDs Each network port has a single tricolored LED that indicates link activity and status.
Page 164 (Continued) Table 55: PTX10K-LC1202-36MR Network LEDs Port Status State Description Amber, on steadily Applies to all other cases. Red, on steadily The port has a hardware failure. Line Card Status LEDs The line card has a power (PWR) LED and a status (STS) LED (see Table 56 on page 153).
Page 165 QFX10000-60S-6Q Line Card IN THIS SECTION Hardware Features | 154 Port Groups | 156 Channelization of 40GbE Ports | 157 Using Copper and Fiber SFP Transceivers | 157 SFP+ Status and Activity LEDs | 158 QSFP+ and QSFP28 Status and Activity LEDs | 159 Hardware Features The QFX10000-60S-6Q line card consists of 60 small form-factor pluggable plus (SFP+) ports that support 10-Gbps or 1-Gbps port speed, 2 dual-speed QSFP28 ports that support either 40-Gbps or...
Page 166 Power LED (PWR), status LED (STS), and QSFP28 ports, QSFP+ ports, and port groups — — offline/online (OFF) button SFP+ ports — Each QSFP28 port (60 and 64) controls a port group and can be configured as a: • 100GbE port by using QSFP28 optical transceivers. The interface speeds are configured by port group.
Page 167 Port Groups The six combination ports of QSFP28 and QSFP+ can operate either as six independent 40GbE ports or as two port groups. The first port group is controlled by QSFP28 port 60 and administratively bundled with QSFP+ ports 61 and 62. The second port group is controlled by QSFP28 port 64 and administratively bundled with QSFP+ ports 63 and 65.
Page 168 (Continued) Table 57: QFX10000-60S-6Q Port Mapping Port Number 4X10GbE 4X10GbE 40GbE 100GbE 100GbE Disables Channelized Port Group – – ✓ ✓ Channelization of 40GbE Ports Channelization from a 40GbE port into four independent 10GbE ports is supported on the QSFP28 and QSFP+ ports.
Page 169 Figure 70: Supported Placement for Copper and Fiber SFP+ Transceivers CAUTION: Stacking three copper SFP transceivers in a column can cause damage to the line card. Because 1-Gbps copper SFP transceivers are physically larger than optical SFP transceivers, there is insufficient room for three copper SFP transceivers to be stacked.
Page 170 Figure 72: SFP+ Port Indicators and Status LEDs on a QFX10000-60S-6Q Line Card • An up arrow indicates the first row. • A circle indicates the second row. • A down arrow indicates the third row. Table 58: Network Port Status and Activity LEDs for SFP+ Ports on a QFX10000-60S-6Q Line Card Color State Description...
Page 171 The beacon function is enabled on one or more sub-channels. blip Blinking One or more sub-channels has a fault condition. PTX10016 Line Card LEDs The PTX10016 line cards have two bicolored (green and amber) LEDs. See Figure 74 on page 161.
Page 172 The beacon feature is enabled on the line card. Yellow On steadily The line card is booting. Yellow Blinking The line card is detecting an error. RELATED DOCUMENTATION PTX10016 Field-Replaceable Units | 29 Maintain the PTX10016 Line Cards | 345...
Page 173 C HAPTER Site Planning, Preparation, and Specifications PTX10016 Site Preparation Overview | 163 PTX10016 Power Planning | 177 PTX10016 Transceiver and Cable Specifications | 197 PTX10016 Console and Management Cable Specifications and Pinouts | 203...
Page 174 PTX10016 Site Electrical Wiring Guidelines | 167 PTX10016 Rack Requirements | 168 PTX10016 Clearance Requirements for Airflow and Hardware Maintenance | 171 PTX10016 Chassis Physical Specifications | 172 The following sections describe the guidelines, the specifications, and the requirements to prepare the site for installing a PTX10016 router.
Page 175 □ Plan the cable routing and management. — PTX10016 Environmental Requirements and Specifications You must install the PTX10016 router in a four-post rack. You must house it in a dry, clean, well- ventilated, and temperature-controlled environment.
Page 176 Table 62 on page 165 provides the required environmental conditions for normal router operation. Table 62: PTX10016 Environmental Tolerances Description Tolerance Altitude No performance degradation up to 6000 feet (1800 meters).
Page 177 Designed to comply with Zone 4 earthquake requirements per NEBS GR-63-CORE, Issue 3. NOTE: Install the PTX10016 router only in restricted-access areas, such as dedicated equipment rooms and equipment closets, in accordance with Articles 110-16, 110-17, and 110-18 of the National Electrical Code, ANSI/NFPA 70.
Page 178 • Install the device in a secure area, so that only authorized personnel can access the device. SEE ALSO Prevention of Electrostatic Discharge Damage | 419 PTX10016 Site Electrical Wiring Guidelines Table 63 on page 167 describes the factors you must consider while planning the electrical wiring at your site.
Page 179 GR-1089-CORE), and require isolation from the exposed OSP cabling. The addition of primary protectors is not sufficient protection to connect these interfaces metallically to OSP wiring. PTX10016 Rack Requirements The PTX10016 router chassis are designed to be installed in four-post racks. Rack requirements consist of: • Rack type...
Page 180 NOTE: A U is the standard rack unit defined in Panels, and Associated Equipment (document number EIA-310–D) published by the Electronics Industry Association. You can stack two PTX10016 routers at the bottom of the four-post rack if: • The rack is 42 U or greater.
Page 181 (Continued) Table 64: Rack Requirements for the PTX10016 Router Rack Requirement Guidelines Rack size and strength • Ensure that the rack complies with the standards for a 19-in. Cabinets, Racks, Panels, and Associated wide rack as defined in Equipment (document number EIA-310–D) published by the Electronics Industry Association.
Page 182 PTX10016 Clearance Requirements for Airflow and Hardware Maintenance When planning the site for a PTX10016 router installation, you must allow sufficient clearance around the installed chassis for cooling and maintenance. See Figure 75 on page 171 Figure 76 on page 172 for the top view of the clearance for the PTX10016.
Page 183 • Leave at least 24 in. (61 cm) both in front of and behind the PTX10016 for service personnel to remove and install hardware components. To be NEBS GR-63 compliant, allow at least 30 in.
Page 184 NOTE: The specifications of the line cards are without optics or the cable management system. Table 65: PTX10016 Physical Specifications Description Net Weight Height Width Depth Chassis, spare 220 lb (99.79 kg) 36.65 in. (93.09 cm) 17.4 in. (44.2 cm) 35 in.
Page 185 (Continued) Table 65: PTX10016 Physical Specifications Description Net Weight Height Width Depth JNP10K-PWR-DC 6 lb (2.72 kg) 3.4 in. (8.64 cm) 3.6 in. (9.14 cm) 14.4 in. (36.58 cm) power supply JNP10K-PWR-DC2 8.6 lb (3.9 kg) 3.4 in. (8.64 cm) 3.6 in.
Page 186 (Continued) Table 65: PTX10016 Physical Specifications Description Net Weight Height Width Depth PTX10K- 21 lb (9.5 kg) 1.9 in. (4.8 cm) 17.2 in. (43.7 cm) 21.3 in. (54.1 cm) LC1202-36MR line card QFX10000-60S-6Q 21.4 lb (9.7 kg) 1.9 in. (4.8 cm) 17.2 in.
Page 187 Figure 77: Front View of the PTX10016 RCBs Mounting holes for front panel — — Status panel Line cards — — Handles — WARNING: The handles on each side of the chassis facilitate the fine-tune positioning of the chassis on the base brackets. Do not use the handles to lift the chassis, even when the chassis is empty.
Page 188 JNP10K-PWR-DC Power Specifications | 193 JNP10K-PWR-DC2 Power Specifications | 194 PTX10016 Grounding Cable and Lug Specifications | 196 Use the information to calculate the power consumption for the PTX10016 and plan your configuration’s power requirements. Power Requirements for PTX10016 Components...
Page 189 Table 66: Power Requirements for PTX10016 Components Component Description Power Requirements (W) At 25° C for all At 40° C for systems At 55° C for systems running Junos OS systems running Evolved standard Junos OS JNP10016-SF PTX10016 SIB JNP10016-SF3...
Page 190 (Continued) Table 66: Power Requirements for PTX10016 Components Component Description Power Requirements (W) At 25° C for all At 40° C for systems At 55° C for systems running Junos OS systems running Evolved standard Junos OS NOTE: The JNP10K-RE1-E...
Page 191 (Continued) Table 66: Power Requirements for PTX10016 Components Component Description Power Requirements (W) At 25° C for all At 40° C for systems At 55° C for systems running Junos OS systems running Evolved standard Junos OS later and has...
Page 192 JNP10K-PWR-AC Power Specifications PTX10008 and PTX10016 redundant-configuration routers can use either AC or DC power supplies; base-configuration routers are AC only. You can run the JNP10K-PWR-AC power supply only in routers in which you have installed the JNP10008-SF or JNP10016-SF switch fabric.
Page 193 6.8 lb (3.08 kg) JNP10K-PWR-AC2 Power Specifications PTX10008 and PTX10016 redundant configuration routers can use either AC or DC power supplies; base configuration routers can use AC power supplies only. The JNP10K-PWR-AC2 power supply supports AC, HVAC, and HVDC inputs.
Page 194 210-52 and Canadian Electrical Code (CEC) Section 4-010(3). The cords shipped with the router to North America and Canada are in compliance. PTX10016 AC, high-voltage alternating current (HVAC), and high-voltage direct current (HVDC) power supplies have specific cord requirements. Use the following sections to determine the cable...
Page 195 AC power cord specifications for JNP10K-PWR-AC for various countries and regions. Table 71: AC Power Cord Specifications for JNP10K-PWR-AC Power Supplies Country/Region Electrical Plug Standards Juniper Model Graphic Specifications Number Argentina 250 VAC, 16 A, IRAM Type RA/...
Page 196 (Continued) Table 71: AC Power Cord Specifications for JNP10K-PWR-AC Power Supplies Country/Region Electrical Plug Standards Juniper Model Graphic Specifications Number China 250 VAC, 16 A, GB 1002 Type PRC/ CBL-EX-PWR-C19- 50 Hz 3/16 Europe (except Italy, 250 VAC, 16 A,...
Page 197 (Continued) Table 71: AC Power Cord Specifications for JNP10K-PWR-AC Power Supplies Country/Region Electrical Plug Standards Juniper Model Graphic Specifications Number Korea 250 VAC, 16 A, CEE (7) VII Type CBL-EX-PWR-C19- 50 Hz VIIG North America 250 VAC, 16 A, NEMA 6–20 Type...
Page 198 (Continued) Table 71: AC Power Cord Specifications for JNP10K-PWR-AC Power Supplies Country/Region Electrical Plug Standards Juniper Model Graphic Specifications Number Worldwide (other) 250 VAC, 16 A, EN 60320-2-2/1 CBL-EX-PWR-C19- 50 Hz CAUTION: It is important to connect both input feeds of the JNP10K-PWR-AC2 power supply to AC mains before loading the system with power.
Page 199 NOTE: The cables that we ship are 4.5 m long and come with AWG or mm² wire size depending on your country or region. Table 72: JNP10K-PWR-AC2 Power Cable Specifications for 20-A Input Locale Cord Set Rating Plug Standards Spare Juniper Model Graphic Number Argentina 16 A, 250 VAC IRAM 2073 Type...
Page 200 (Continued) Table 72: JNP10K-PWR-AC2 Power Cable Specifications for 20-A Input Locale Cord Set Rating Plug Standards Spare Juniper Model Graphic Number Europe (except Italy, 20 A, 250 VAC CEE 7/7 CBL-JNP-SG4-EU Switzerland, and United Kingdom) Great Britain 13 A, 250 VAC,...
Page 201 (Continued) Table 72: JNP10K-PWR-AC2 Power Cable Specifications for 20-A Input Locale Cord Set Rating Plug Standards Spare Juniper Model Graphic Number NEMA 6-20P CBL-JNP-SG4-US South Africa 16 A, 250 VAC SANS 164/1 CBL-JNP-SG4-SA Switzerland 16 A, 250 VAC CEI 23-50...
Page 202 JNP10K-PWR-AC2 orders. An example of the right-angle cable and connector is shown in Figure 81 on page 193. For connection to AC systems, Juniper provides a cable with either a NEMA 30-A connector (Figure 79 on page 191) or an IEC 330P6W connector (Figure 80 on page 192).
Page 203 Figure 80: IEC 330P6W Connector Table 74: 30-A Cabling Options Power Locale Cord Set Plug Standards Connector Spare Juniper Model Cord Rating Number AC/HVDC 30-A, UL 950 and IEC Anderson/straight CBL-PWR2-BARE power cord 400 VAC 60950 to bare wire 30-A,...
Page 204 The DC power supply (JNP10K-PWR-DC) is supported only in routers in which you have installed the JNP10008-SF or JNP10016-SF switch fabric. Table 75 on page 194 lists the power specifications for the JNP10K-PWR-DC power supply used in PTX10008 and PTX10016 routers.
Page 205 14.4 in. (36.58 cm) Weight 6 lb (2.72 kg) JNP10K-PWR-DC2 Power Specifications HVDC power supplies (JNP10K-PWR-DC2) are supported in only the PTX10008 and PTX10016 redundant configurations. Table 77 on page 195 lists the power specifications for the HVDC power supply used in PTX10008 and PTX10016 routers.
Page 206 Table 77: Power Specifications for the JNP10K-PWR-DC2 Power Supply Item Specifications DC input voltage • Minimum operating voltage: –40 VDC • Nominal operating voltage: –48 VDC • Operating voltage range: –40 VDC through –72 VDC DC input current rating • 76-A maximum at minimum operating voltage (-40 VDC) with 80-A DIP switch setting and 5500-W output load.
Page 207 90° C, or as permitted by local electrical code. • The grounding cable that you provide for a PTX10016 must be the same size or heavier than the input wire of each power supply. Minimum recommendations are 6 AWG (13.3 mm²) stranded...
Page 208 PTX10016 Optical Transceiver and Cable Support You can find information about the pluggable transceivers supported on your Juniper Networks device by using the Hardware Compatibility Tool. In addition to transceiver and connector type, the optical and cable characteristics—where applicable—are documented for each transceiver.
Page 209 The list of transceivers supported on the PTX10016 is available at https:/ /pathfinder.juniper.net/hct/product/#prd=PTX10016. CAUTION: The Juniper Networks Technical Assistance Center (JTAC) provides complete support for Juniper-supplied optical modules and cables. However, JTAC does not provide support for third-party optical modules and cables that are not qualified or supplied by Juniper Networks.
Page 210 Table 79: Cable Specifications for Console and Management Connections for the PTX10016 Router (Continued) Port on PTX10016 Cable Specification Cable Supplied Maximum Device Router Length Receptacle Management port Category 5 cable or One 7-foot (2.13-meter) 100 meters RJ-45 equivalent suitable for...
Page 211 mode loss occurs. Together, these factors reduce the transmission distance of multimode fiber compared to that of single-mode fiber. Single-mode fiber is so small in diameter that rays of light reflect internally through one layer only. Interfaces with single-mode optics use lasers as light sources. Lasers generate a single wavelength of light, which travels in a straight line through the single-mode fiber.
Page 212 Calculate the Fiber-Optic Cable Power Budget for the PTX10016 Router Calculate the link's power budget when planning fiber-optic cable layout and distances to ensure that fiber-optic connections have sufficient power for correct operation. The power budget is the maximum amount of power the link can transmit. When you calculate the power budget, you use a worst-case analysis to provide a margin of error, even though all the parts of an actual system do not operate at the worst-case levels.
Page 213 negative indicates insufficient power to operate the receiver. See the specification for your receiver to find the maximum receiver input power. To calculate the worst-case estimate for the power margin (P ) for the link: 1. Determine the maximum value for link loss (LL) by adding estimated values for applicable link-loss factors;...
Page 214 Console Port Connector Pinouts for the PTX10016 | 204 USB Port Specifications for the PTX10016 Router | 205 Management Port Connector Pinouts for the PTX10016 Router | 206 The following sections describe the console port, the USB port, and the management port connections...
Page 215 NOTE: If your laptop or PC does not have a DB-9 plug connector pin and you want to connect your laptop or PC directly to a PTX10016 router, use a combination of the RJ-45 cable and RJ-45 to DB-9 adapter supplied with the device and a USB to DB-9 plug adapter. You must provide the USB to DB-9 plug adapter.
Page 216 Connect the PTX10016 Router to a Management Console | 255 USB Port Specifications for the PTX10016 Router The following Juniper Networks USB flash drives have been tested and are officially supported for the USB port in the PTX10016 routers: • RE-USB-1G-S—1-gigabyte (GB) USB flash drive •...
Page 217 NOTE: USB flash drives used with the PTX10016 router must support USB 2.0 or later. SEE ALSO Creating an Emergency Boot Device Performing a Recovery Installation Using an Emergency Boot Device Management Port Connector Pinouts for the PTX10016 Router The 1000BASE-T RJ-45 management ports use an RJ-45 connector to connect a management device for out-of-band management.
Page 218 (Continued) Table 82: RJ-45 Management Port Connector Pinouts for the PTX10016 Router Signal Description TRP4– Transmit/receive data pair 4 SEE ALSO PTX10016 Routing and Control Board LEDs | 77...
Page 219 Mount the PTX10016 by Using the JNP10004-RMK-4POST Rack Mount Kit | Mount the PTX10016 by Using the EX-MOD-RMK-4POST Rack Mount Kit | 225 Install the Front Door and its Components on the PTX10016 Router | 231 Connect the PTX10016 Router to Power | 248...
Page 220 The router chassis ships in a cardbox box that has a two-layer wooden pallet base. The router chassis is bolted to the pallet base. You can install a PTX10016 router in a standard 19 in. (483 mm) equipment rack by using the supplied rack mount kit and the flanges that are attached to the chassis.
Page 221 IN THIS SECTION Unpack the PTX10016 Shipping Pallet | 210 Unpack Line Cards, Routing Control Boards, and Switch Interface Boards for the PTX10016 Router | 213 Compare the PTX10016 Router Order to the Packing List | 214 Register Products—Mandatory to Validate SLAs | 219 To unpack the PTX10016 router and its components, read the following sections.
Page 222 To unpack the chassis (see Figure 82 on page 211): Figure 82: Shipping Crate and Accessory Box Corrugated cover PTX10016 router — — Accessory box Pallet — — Foam top —...
Page 223 Move the shipping box to a staging area as close to the installation site as possible. While the chassis is bolted to the pallet, you can use a forklift or pallet jack to move the shipping box. Make sure there is enough space to remove components from the chassis. Position the shipping box with the arrows pointing up.
Page 224 12. Save the shipping box and packing materials in case you need to move or ship the router at a later time. SEE ALSO Mount the PTX10016 by Using the EX-MOD-RMK-4POST Rack Mount Kit | 225 Unpack Line Cards, Routing Control Boards, and Switch Interface Boards for the PTX10016 Router Before you unpack a component: •...
Page 225 If any part on the packing list is missing, contact your customer service representative, or contact Juniper Networks Customer Care from within the U.S. or Canada by telephone at 1-888-314-5822. For international-dial or direct-dial options in countries without toll-free numbers, see https:/ / www.juniper.net/support/requesting-support.html.
Page 226 Use the following procedure to compare the sales order and packing list against the contents of the chassis shipping crate. 1. Determine the configuration. See "PTX10016 Components and Configurations" on page 19. The parts shipped depend on the configuration you order.
Page 227 3. Compare the base configuration orders by using Table 84 on page 216. Table 84: Base Configuration Order Component Quantity Chassis, including power bus RCBs Blank cover panel in the RCB slot (part number: JNP10K-RE-BLNK) Fan tray controllers Fan trays Power supplies SIBs Cover in a SIB slot...
Page 228 4. Compare the contents of the accessory kit with Table 85 on page 217. Table 85: PTX10016 Accessory Kit Component Quantity AC Configurations DC Configurations Warranty card End User License Agreement (EULA) RJ-45 Ethernet cable RJ-45 to DB9 rollover cable...
Page 229 Table 86: PTX10016 Rack Mount Kit Component Quantity Mounting tray Mounting blades Safety restraint Phillips 8-32 x .375 in. flat-head screws 6. Compare the contents of the front door kit with Table 87 on page 218. Table 87: PTX10016 Front Door Kit...
Page 230 RMK-4POST Rack Mount Kit You can mount a PTX10016 router in a four-post closed frame rack or a four-post open frame rack by using a rack mount kit. The rack mount kit with the part number JNP10004-RMK-4POST is shipped by default.
Page 231 • One mounting tray • Two mounting blades • One safety restraint • 12 Phillips 8-32 x .375 flat-head screws CAUTION: Install line cards and other components in the chassis only after you mount the chassis securely. CAUTION: Before mounting the router on a rack, have a qualified technician verify that the rack is strong enough to support the router's weight and is adequately supported at the installation site.
Page 232 Figure 85: Attach the Mounting Blades From the rear of the rack, slide the mounting tray into the rear posts of the rack such that the mounting blades slide into the grooves on the mounting tray. Attach the tray to the rear rack posts by using six rack mount screws appropriate for your rack and a screwdriver (see Figure 86 on page 221).
Page 233 Figure 87: Attach the Mounting Blades to the Mounting Tray Remove the line card slot covers by grasping the handles and pulling the covers straight out (see Figure 88 on page 222). Store the covers. Figure 88: Remove the Line Card Slot Covers Load the router onto the lift, making sure it rests securely on the lift platform (see Figure 89 on page...
Page 234 Figure 89: Load the PTX10016 onto a Mechanical Lift By using the lift, align the router in front of the rack, centering it in front of the mounting tray. Lift the chassis approximately 0.75 in. (1.9 cm) above the surface of the mounting tray. Align the chassis as close as possible to the mounting tray.
Page 235 Figure 90: Attach the Chassis to the Rack 12. Move the lift away from the rack. 13. Check the alignment of the router. The rack mount screws on each side of the rack should line up, and the router should be level. Tighten the screws. 14.
Page 236 RMK-4POST Rack Mount Kit You can mount a PTX10016 router in a four-post closed frame rack or a four-post open frame rack by using a rack mount kit. The rack mount kit with the part number JNP10004-RMK-4POST is shipped by default.
Page 237 • A mechanical lift rated for 1000 lb (453.6 kg) • 16 rack mount screws appropriate for your rack to secure the mounting brackets to the rack (not provided) • 12 rack mount screws appropriate for your rack to secure the chassis to the rack (not provided) •...
Page 238 Line up the left base bracket in the left side of the rack so that its front screw holes line up with the holes in the rack. Use four mounting screws appropriate for your rack to secure the left base bracket to the rack.
Page 239 NOTE: Make sure that the left and right brackets are on the same level; if they are not, the chassis will rest at an angle. Remove the line card slot covers by grasping the handles and pulling the covers straight out (see Figure 93 on page 228).
Page 240 Figure 94: Load the PTX10016 onto a Mechanical Lift By using the lift, align the router in front of the rack, centering it in front of the base brackets. Lift the chassis approximately 0.75 in. (1.9 cm) above the surface of the base brackets. Align the chassis as close as possible to the base brackets.
Page 241 Figure 95: Attach the Chassis to the Rack 11. Move the lift away from the rack. 12. Attach the chassis to the rack by installing a rack mount screw appropriate for your rack through each open flange hole and rack hole, starting from the bottom. 13.
Page 242 Install the Front Door on the PTX10016 Router The front door is required on the PTX10016 routers to protect fiber-optic cabling and to provide additional protection from electromagnetic interference (EMI). You can install the front door with or without the optional cable management system.
Page 243 LED panel on the front of the PTX10016 chassis (see Figure 96 on page 232). Figure 96: ESD Point on the Front of the PTX10016 Chassis ESD point — 2. Remove the plastic bag that is taped to the front door. This bag holds the brackets and screws.
Page 244 Figure 97: Front Door Mounting Hardware Latch brackets Left base bracket — — Right base bracket — 4. Attach the two latch brackets to the chassis. Screw holes are located for each latch bracket between the top line card slot and the RCBs. Use the Phillips screwdriver to attach two supplied screws for each bracket (see Figure 98 on page 234).
Page 245 Figure 98: Attach the Front Door Brackets to the PTX10016 Chassis 5. Lift the front door and rest it on the two base brackets. 6. Slide the door on to the bracket glides until it engages on the two ramps (see...
Page 246 Figure 99: Install the JNP10016-FRNT-PNL Front Door on the PTX10016 Chassis Latch button —...
Page 247 Figure 100: Install the JNP10016-FRPNL1 Front Door on the PTX10016 Chassis Latch button — 7. Tilt the door towards the chassis until it is vertical with the chassis. The latch buttons on the side of the door locks the door in place.
Page 248 1. Wrap and fasten one end of the ESD grounding strap around your bare wrist and connect the other end of the strap to one of the ESD points on the chassis. An ESD point is located above the status LED panel on the front of the PTX10016 chassis (see Figure 96 on page 232).
Page 249 3. Gently lift the front door from the two base brackets by using your hands and move the door away from the chassis. 4. Place the door on the antistatic mat or in the ansistatic bag. Install the Side EMI Deflectors on the JNP10016-FRNT-PNL Front Door SUMMARY The JNP10016-FRNT-PNL front door supports optional side EMI deflectors that prevent EMI emissions from coming out through the openings on either sides of the front door.
Page 250 • Ensure that you have followed all safety warnings and cautions. • Ensure you understand how to prevent ESD damage. See "Prevention of Electrostatic Discharge Damage" on page 419. • Ensure that you have the following parts and tools available: •...
Page 251 Figure 102: Align the Deflector with the Front Door 2. Tighten the screws by using the screwdriver. 3. Repeat the steps to install the other side EMI deflector. After you install both the side EMI deflectors, the width of the chassis increases from 17.7 in. (44.95 cm) to 23.7 in.
Page 252 Remove the Side EMI Deflectors from the JNP10016-FRNT-PNL Front Door Before you remove the side EMI deflectors on the front door: • Ensure that you have followed all safety warnings and cautions. • Ensure you understand how to prevent ESD damage. See "Prevention of Electrostatic Discharge Damage"...
Page 253 • Ensure that you have the following parts and tools available: • An ESD grounding strap (provided in the accessory kit) • Phillips (+) screwdriver, number 2 • An antistatic mat or an antistatic bag To remove a side EMI deflector from the JNP10016-FRNT-PNL front door: 1.
Page 254 1. Wrap and fasten one end of the ESD grounding strap around your bare wrist and connect the other end of the strap to one of the ESD points on the chassis. An ESD point is located above the status LED panel on the front of the PTX10016 chassis (see Figure 96 on page 232).
Page 255 CAUTION: Do not operate the router for more than a few minutes without the air filter in place. 3. Hold the air filter with both hands and insert the air filter into the front door until it stops (see Figure 104 on page 244).
Page 256 1. Wrap and fasten one end of the ESD grounding strap around your bare wrist and connect the other end of the strap to one of the ESD points on the chassis. An ESD point is located above the status LED panel on the front of the PTX10016 chassis (see Figure 96 on page 232).
Page 257 Figure 105: Air Filter Frame on the JNP10016-FRPNL1 Front Door a. Air filter frame 3. Grasp the air filter with both hands and lift it straight up and out of the front door (see Figure 106 on page 247).
Page 258 Figure 106: Remove the Air Filter from the JNP10016-FRPNL1 Front Door Air filter — 4. Move the air filter frame over the front door and turn the knob on the air filter frame clockwise back in place. RELATED DOCUMENTATION PTX10016 Optional Equipment | 34...
Page 259 You must install the PTX10016 router in a restricted-access location. You must ensure that the chassis is always properly grounded. The PTX10016 router has a two-hole protective earthing terminal provided on the chassis.
Page 260 An AC-powered PTX10016 gets additional grounding when you plug the power supply in the router into a grounded AC power outlet by using an AC power cord appropriate for your geographical location. See "PTX10016 Power Cables Specifications"...
Page 261 Figure 107: ESD Point on the Rear of the PTX10016 Chassis ESD point — 4. Remove the two screws located next to the ESD point using a Phillips screwdriver. 5. Place the chassis grounding lug and cable over the screw holes with the cable connection pointing to the left.
Page 262 After you ground the chassis, add power supplies, and supply power to the chassis, the system initiates the power-on sequence. This sequence can start incrementally with a single power supply, but we do not recommend that you bring a PTX10016 system up with less than three power supplies. To connect AC power to a PTX10016 chassis: 1.
Page 263 The power-on sequence can start incrementally with a single power supply, but it is not recommended that you bring a PTX10016 system up with less than three power supplies.
Page 264 For installations that require a separate grounding conductor to the chassis, use the protective earthing terminal on the rear panel of the PTX10016 to connect to the earth ground. 2. Connect DC power to the JNP10K-PWR-DC or JNP10K-PWR-DC2 power supplies and install in the chassis.
Page 265 You can manage the PTX10016 router by using the two management ports on the RCB for out-of-band management or through the console port on the RCB. To connect a PTX10016 router to external management devices, read the following sections. Connect the PTX10016 Router to a Network for Out-of-Band Management Ensure that you have an appropriate cable available.
Page 266 NOTE: If your laptop or PC does not have a DB-9 plug connector pin and you want to connect your laptop or PC directly to the PTX10016 RCB, use a combination of the RJ-45 cable and RJ-45 to DB-9 adapter supplied with the device and a USB to DB-9 plug adapter. You must provide the USB to DB-9 plug adapter.
Page 267 Figure 110: Connect the PTX10016 Router to a Management Console Through a Console Server Figure 111: Connect the RCB Console Port Directly to a Management Console Connect the Router to External Clocking and Timing Devices IN THIS SECTION Connect the Router to a 1PPS and 10MHz Timing Device | 256...
Page 268 Table 88: GPS Clock Ports on the Router Label Description 1PPS – IN 1 PPS input port 10MHz – IN 10 MHz input port 1PPS – OUT 1 PPS output port 10MHz – OUT 10 MHz output port You can configure the router as a timing primary device or a client device. If you configure the router as a timing primary device, the router receives inputs from the timing device through the input ports and sends outputs to a client device through the output ports.
Page 269 If the router is a timing primary device, connect the router to a client device by using the output ports. NOTE: Ensure that the timing device supports an input or output impedance of 50 ohms, and supports input and output voltage levels that comply with ITU G.703. The timing device inputs must be 5V tolerant.
Page 270 (Continued) Table 91: ToD Port Connector Pinouts Description Direction Transmit Data Output Signal Ground – Signal Ground – Receive Data Input Reserved – Reserved – To connect the router to a ToD timing device: 1. Wrap and fasten one end of the ESD grounding strap around your bare wrist and connect the other end of the strap to one of the ESD points on the chassis.
Page 271 (Continued) Table 92: BITS Port Cable Specifications Specifications Value Connector at the router end Autosensing RJ-48 connector Table 93 on page 260 provides the pinout information for the RJ-48 connector for the BITS ports. Table 93: BITS Ports Pinouts Pin Number Description Direction EXT_CLKA_RRING_LINE...
Page 272 Configure Optional Routes, Services, and Commit the Configuration | 264 You must perform the initial configuration of the PTX10016 router through the console port using the CLI or through zero-touch provisioning (ZTP). To use ZTP to provision the device, you must have access to a Dynamic Host Control Protocol (DHCP) server, and a FTP (anonymous FTP), HTTP, or Trivial File Transfer Protocol (TFTP) server on which the software image and configuration files are stored.
Page 273 2. Gather the information you will need to configure the PTX10016: • The password you’ll set for the root user • The name on the system that the PTX10016 will be known as (host name) • The IP address and prefix of the default gateway router •...
Page 274 Establish a Root Password and Optional Host Name 1. Add a password to the root administration user account. [edit] root@# set system root-authentication plain-text-password password New password: password Retype new password: 2. (Optional) Configure the name of the router. If the name includes spaces, enclose the name in quotation marks (“...
Page 275 NOTE: The management ports (labeled MGMT) em0 or re0:mgmt-0 (for RJ-45 connections) and em1 (for fiber connections), are on the RCB on the PTX10016 router. Configure Optional Routes, Services, and Commit the Configuration 1.
Page 276 RELATED DOCUMENTATION PTX10016 Packet Transport Router Description | 2 PTX10016 Installation Overview | 209...
Page 277 C HAPTER Maintain Components Maintain the PTX10016 Routing and Control Boards | 267 Maintain the PTX10016 Cooling System Components | 272 Maintain the PTX10016 Power System Components | 286 Maintain the PTX10016 Switch Fabric Components | 332 Maintain the PTX10016 Line Cards | 345...
Page 278 Remove a Routing and Control Board from the PTX10016 Router | 271 We ship PTX10016 routers with one or two Routing and Control Boards (RCBs) preinstalled in the chassis, depending on the configuration. You can install RCBs in the two top slots on the front of the chassis.
Page 279 Install a Routing and Control Board in the PTX10016 Router In redundant configurations, a PTX10016 RCB is a hot-removable and hot-insertable field-replaceable unit (FRU). In base configurations, you need to install a second RCB before removing a failing RCB to prevent the router from shutting down.
Page 280 LED panel on the front of the PTX10016 chassis (see Figure 112 on page 269). Figure 112: ESD Point on the Front of the PTX10016 Chassis ESD point — 2. Either remove the cover from the RCB slot by holding the handles and pulling the cover out from the...
Page 281 You can also verify that the RCB is online by using the following CLI command: user@host> show chassis environment cb SEE ALSO Power Requirements for PTX10016 Components | 177 PTX10016 Routing and Control Board LEDs | 77...
Page 282 3. Wrap and fasten one end of the ESD grounding strap around your bare wrist and connect the other end of the strap to one of the ESD points on the chassis. An ESD point is located next to the protective grounding terminal and below PSU 9 on the rear of the PTX10016 chassis (see Figure 115 on page 271).
Page 283 Do this to protect the interior of the chassis from dust or other foreign substances and to ensure that the airflow inside the chassis is not disrupted. SEE ALSO How to Handle and Store PTX10016 Line Cards, RCBs, and SIBs | 332 Maintain the PTX10016 Cooling System Components...
Page 284 Remove a Fan Tray Controller from the PTX10016 Router | 283 The PTX10016 router has two independent, field-replaceable fan trays and fan tray controllers. To install or remove the fan trays and fan tray controllers, read the following sections. Install a Fan Tray in the PTX10016 Router Before you install a fan tray: •...
Page 285 Figure 117: ESD Point on the Rear of the PTX10016 Chassis ESD point — 2. Grasp the top and bottom fan tray handles and align the bottom of the fan tray with the bottom of the fan tray slot. 3. Rest the bottom edge of the fan tray in the slot and slide the fan tray into place so it is fully seated.
Page 286 Figure 118: Installing the JNP10016-FAN Fan Tray in the PTX10016 Router...
Page 287 Figure 119: Installing the JNP10016-FAN2 Fan Tray in the PTX10016 Router Remove a Fan Tray from the PTX10016 Router The PTX10016 chassis has two independent, field-replaceable fan trays. Each fan tray is a hot- removable and hot-insertable field-replaceable unit (FRU); you can remove and replace the fan tray...
Page 288 There are two models of fan tray for the PTX10016 (JNP10016-FAN and JNP10016-FAN2). Each fan tray is installed vertically on the rear, or FRU-side, of the chassis.
Page 289 2. Wrap and fasten one end of the ESD grounding strap around your bare wrist and connect the other end of the strap to one of the ESD points on the chassis. An ESD point is located next to the protective grounding terminal and below PSU 9 on the rear of the PTX10016 chassis (see Figure 120 on page 278).
Page 290 4. Grasp the top and bottom handles and pull the fan tray out about 3 in. (7.6 cm). See Figure 121 on page 279 Figure 122 on page 280. Figure 121: Remove the JNP10016-FAN Fan Tray from the PTX10016 Router...
Page 291 Figure 122: Remove the JNP10016-FAN2 Fan Tray from the PTX10016 Router 5. Tilt the top of the fan tray forward. 6. Using both hands, lift the fan tray out of the slot and rest it in the antistatic bag or on the antistatic...
Page 292 Install a Fan Tray Controller in the PTX10016 Router For each of the two fan trays, there is a fan tray controller. Each controller is a hot-removable and hot- insertable field-replaceable unit (FRU); you can remove and replace one fan tray controller while the router is running without turning off power to the router or disrupting routing functions.
Page 293 1. Wrap and fasten one end of the ESD grounding strap around your bare wrist and connect the other end of the strap to one of the ESD points on the chassis. An ESD point is located next to the protective grounding terminal and below PSU 9 on the rear of the PTX10016 chassis (see Figure 125 on page 282).
Page 294 4. By using a Phillips screwdriver, tighten the captive screws for the fan tray controller. 5. Replace the fan tray. See "Install a Fan Tray in the PTX10016 Router" on page 273. Remove a Fan Tray Controller from the PTX10016 Router For each of the two fan trays, there is a fan tray controller.
Page 295 • JNP10016-FAN-CTRL, which supports the fan tray with part number JNP10016-FAN • JNP10016-FTC2, which supports the fan tray with part number JNP10016-FAN2 Figure 128 on page 284 for the JNP10016-FAN-CTRL fan tray controller and Figure 129 on page for the JNP10016-FTC2 fan tray controller. Figure 128: JNP10016-FAN-CTRL Fan Tray Controller Figure 129: JNP10016-FTC2 Fan Tray Controller CAUTION: Do not remove the fan tray controller unless you have a replacement...
Page 296 • A Phillips (+) screwdriver, number 1, for the captive screws 1. Remove the fan tray. See "Remove a Fan Tray from the PTX10016 Router" on page 276. 2. Loosen the two captive screws on each side of the fan tray controller by using the screwdriver.
Page 297 Maintain the PTX10016 Power System Components IN THIS SECTION Install a JNP10K-PWR-AC Power Supply in the PTX10016 Router | 287 Remove a JNP10K-PWR-AC Power Supply from the PTX10016 Router | 292 Install a JNP10K-PWR-AC2 Power Supply in the PTX10016 Router | 296...
Page 298 PTX10016 routers support AC, DC, high voltage alternating current (HVAC), and high voltage direct current (HVDC) power supplies. To install and remove the power supplies in the PTX10016 router, read the following sections. All power supply models are hot-removable and hot-insertable field-replaceable units (FRUs).
Page 299 Wrap and fasten one end of the ESD grounding strap around your bare wrist and connect the other end of the strap to an ESD point on the chassis. There is an ESD point located next to the protective earthing terminal and below PSU 9 on the rear of the PTX10016 chassis (see Figure 132 on page 288).
Page 300 Figure 133 on page 289. Figure 133: Remove the Power Supply Cover from the PTX10016 Chassis Taking care not to touch power supply connections, remove the power supply from its bag. Peel back and remove the protective plastic wrap that covers all four sides of the power supply.
Page 301 NOTE: Ensure that the ejector is fully open to avoid scratching the chassis. Figure 134: Install a JNP10K-PWR-AC Power Supply in the PTX10016 Router 12. Manually load-balance the power supplies as you attach each power cable to a dedicated AC power source outlet.
Page 302 Figure 135: Proper Load Balancing for JNP10K-PWR-AC Power Cables on the PTX10016 Router WARNING: Ensure that the power cords do not block access to router components or drape where people can trip on them. 13. Squeeze the two sides of the power cord retainer clip and insert the ends of the clip into the holes in the bracket on each side of the AC appliance inlets on the AC power supply faceplate.
Page 303 20. Press the power switch to the on (|) position. Remove a JNP10K-PWR-AC Power Supply from the PTX10016 Router Before you remove a JNP10K-PWR-AC power supply from the PTX10016 router: • Ensure that you have followed all safety warnings and cautions.
Page 304 Wrap and fasten one end of the ESD grounding strap around your bare wrist and connect the other end of the strap to an ESD point on the chassis. There is an ESD point located next to the protectivegrounding terminal and below PSU 9 on the PTX10016 chassis (see Figure 137 on page...
Page 305 Figure 137: ESD Point on the Rear of the PTX10016 Chassis ESD point — Flip the power switch (O and |) next to the appliance inlet on the power supply to the standby position (O). Disconnect power from the router by performing one of the following tasks: •...
Page 306 Figure 138: Remove a JNP10K-PWR-AC Power Supply from the PTX10016 Router Rotate the captive screw away from the faceplate of the power supply to release the latch. NOTE: Ensure that the ejector is fully open to avoid scratching the chassis.
Page 307 Squeeze and place the cover in the slot. c. Release your fingers and the cover remains in the slot. Install a JNP10K-PWR-AC2 Power Supply in the PTX10016 Router CAUTION: Use the same type of power supply in all slots. Do not mix power supply models in a production chassis.
Page 308 Wrap and fasten one end of the ESD grounding strap around your bare wrist and connect the other end of the strap to an ESD point on the chassis. There is an ESD point located next to the protective earthing terminal and below PSU 9 on the PTX10016 chassis (see Figure 139 on page...
Page 309 Figure 139: ESD Point on the Rear of the PTX10016 Chassis ESD point — If the power supply slot has a cover in it, insert your thumb and forefinger into the finger holes, squeeze to retract the spring, and pull the cover out of the slot. Save the cover for later use. See Figure 140 on page 298.
Page 310 (See Figure 141 on page 299). Figure 141: Install a JNP10K-PWR-AC2 Power Supply in the PTX10016 Router Push the captive screw into the power supply faceplate. Ensure that the screw is seated inside the corresponding hole on the faceplate.
Page 311 Figure 142: Proper Load Balancing for JNP10K-PWR-AC2 Power Cables on a PTX10016 Router 12. For each power cable, insert the end of the cable with the Anderson connector into the JNP10K- PWR-AC2 power supply. The connector snaps and locks the cable into position.
Page 312 16. Press the power switch to the on (|) position. Remove a JNP10K-PWR-AC2 Power Supply from the PTX10016 Router Before you remove an JNP10K-PWR-AC2 power supply from the PTX10016 router: • Ensure that you have followed all safety warnings and cautions.
Page 313 Wrap and fasten one end of the ESD grounding strap around your bare wrist and connect the other end of the strap to an ESD point on the chassis. An ESD point is located next to the protective earthing terminal and below PSU 9 on the rear of the PTX10016 chassis (see Figure 143 on page...
Page 314 Figure 143: ESD Point on the Rear of the PTX10016 Chassis ESD point — Flip the power (|) switch next to the appliance inlet on the power supply to the standby position (O). If the AC power source outlets have a power switch, set them to the off (O) position.
Page 315 Release your fingers and the cover remains in the slot. Install a JNP10K-PWR-DC Power Supply in the PTX10016 Router Before you install a JNP10K-PWR-DC power supply in the PTX10016 router: • Ensure you understand how to prevent ESD damage. See "Prevention of Electrostatic Discharge...
Page 316 • Electrostatic discharge (ESD) grounding strap (provided in the accessory kit) • DC power source cables (not provided) with the cable lugs (provided) attached The provided Panduit LCD4-14A-L, or equivalent, terminal lugs in the PTX10016 are sized for either 4 AWG (21.1 mm ) or 6 AWG (13.3 mm...
Page 317 Wrap and fasten one end of the ESD grounding strap around your bare wrist and connect the other end of the strap to an ESD point on the chassis. There is an ESD point located next to the protective earthing terminal and below PSU 9 on the rear of the PTX10016 chassis (see Figure 145 on page 307).
Page 318 Figure 145: ESD Point on the Rear of the PTX10016 Chassis ESD point — Taking care not to touch power supply components, pins, leads, or solder connections, remove the power supply from its bag. CAUTION: See the heat symbol . The power supply surfaces are hot. Allow a few minutes for the power supply to cool by pulling the power supply halfway out of the chassis, or wear heat-resistant gloves while removing the power supply.
Page 319 Figure 146: Remove the Plastic Cable Cover on a JNP10K-PWR-DC Power Supply Remove the nuts from each DC power input terminal, using the 13/32 in. (10 mm) nut driver or socket wrench to loosen the nuts. Ensure that the power source circuit breaker is open so that the voltage across the DC power source cable leads is 0 V and that the cable leads do not become active while you are connecting DC power.
Page 320 • The cable with very low resistance (indicating a closed circuit) to chassis ground is positive (+) and will be installed on the RTN (return) DC power input terminal. CAUTION: You must ensure that power connections maintain the proper polarity. The power source cables might be labeled (+) and (–) to indicate their polarity.
Page 321 11. Install each power cable lug on the DC power input terminal, securing it with the nut (see Figure 148 on page 310). Apply between 23 lb-in. (2.6 Nm) and 25 lb-in. (2.8 Nm) of torque to each nut. (Use the 13/32 in. [10 mm] nut driver or socket wrench.) a.
Page 322 Figure 149 on page 311). Figure 149: Remove the Power Supply Cover from the PTX10016 Chassis 14. Unscrew the captive screw in the counterclockwise direction by using your fingers or by using the Phillips (+) screwdriver, number 1. 15. Pull the captive screw away from the faceplate of the power supply to release the latch.
Page 323 When the screw is completely tight, the latch locks into the router chassis. Figure 150: Install a JNP10K-PWR-DC Power Supply in the PTX10016 Router NOTE: Ensure that the ejector is fully open to avoid scratching the chassis.
Page 324 Figure 151: Proper Load Balancing for JNP10K-PWR-DC Power Cables on a PTX10016 Router WARNING: Ensure that the power cords do not block access to router components or drape where people can trip on them. 21. Set the enable switches for input 1 and input 2 (see Figure 152 on page 314).
Page 325 23. Press the power switch to the on (|) position. Remove a JNP10K-PWR-DC Power Supply from the PTX10016 Router Before you remove a JNP10K-PWR-DC power supply from the PTX10016 router: • Ensure you understand how to prevent ESD damage. See "Prevention of Electrostatic Discharge...
Page 326 Wrap and fasten one end of the ESD grounding strap around your bare wrist and connect the other end of the strap to an ESD point on the chassis. There is an ESD point located next to the protective earthing terminal and below PSU 9 on the PTX10016 chassis (see Figure 153 on page 315).
Page 327 Rotate the captive screw away from the faceplate of the power supply to release the latch. See Figure 154 on page 316. Figure 154: Remove a JNP10K-PWR-DC Power Supply from the PTX10016 Router NOTE: Ensure that the ejector is fully open to avoid scratching the chassis.
Page 328 Put on the heat resistant gloves to protect your hands from the hot power supply. Taking care not to touch power supply components, pins, leads, or solder connections, place one hand under the power supply to support it. Grasp the power supply handle with your other hand and pull the power supply completely out of the chassis.
Page 329 (for example, by causing a short circuit). CAUTION: To meet safety and electromagnetic interference (EMI) requirements and to ensure proper operation, you must connect PTX10016 routers to earth ground before you connect them to power. For installations that require a separate grounding conductor to the chassis, use the protective earthing terminal on the router chassis to connect to earth ground.
Page 330 Wrap and fasten one end of the ESD grounding strap around your bare wrist and connect the other end of the strap to an ESD point on the chassis. There is an ESD point located next to the protective earthing terminal and below PSU 9 on the rear of the PTX10016 chassis (see Figure 155 on page 319).
Page 331 Peel back and remove the protective plastic wrap that covers all four sides of the power supply. Ensure the power switch is set to the standby (O) position. This switch turns off the output voltage; it does not interrupt DC. Remove the plastic cable cover from the power input terminals, by using the Phillips (+) screwdriver, number 2, to loosen the screws (see Figure 156 on page...
Page 332 Verify that the DC power cables are correctly labeled before making connections to the power supply. In a typical power distribution scheme where the return is connected to chassis ground at the battery plant, you can use a multimeter to verify the resistance of the –48V and RTN DC cables to chassis ground: •...
Page 333 CAUTION: You must ensure that power connections maintain the proper polarity. The power source cables might be labeled (+) and (–) to indicate their polarity. There is no standard color coding for DC power cables. We recommend source redundancy (source A and source B) to all inputs to ensure reliability of the system.
Page 334 Figure 158: How to Install Heat-Shrink Tubing 10. Install each power cable lug on the DC power input terminal, securing it with the nut (see Figure 159 on page 324). Apply between 23 lb-in. (2.6 Nm) and 25 lb-in. (2.8 Nm) of torque to each nut. (Use the 13/32 in.
Page 335 Figure 159: Connect the DC Power Source Cables to a JNP10K-PWR-DC2 Power Supply 11. Install the plastic cable cover over each set of power cables by using the Phillips (+) screwdriver, number 2, to tighten the screw. 12. If the power supply slot on the chassis has a cover on it, insert your thumb and forefinger into the finger holes, squeeze, and pull the cover out of the slot.
Page 336 Figure 160: Remove the Power Supply Cover from the PTX10016 Chassis 13. Unscrew the captive screw in the counterclockwise direction by using your fingers or by using the Phillips (+) screwdriver, number 1. 14. Rotate the captive screw away from the faceplate of the power supply to release the latch.
Page 337 Figure 161: Install a JNP10K-PWR-DC2 Power Supply in the PTX10016 Router 18. Route input A0 and A1 cables to a power source and input B0 and B1 cables to another power source. You must connect each input to a dedicated power distribution and protection. The JNP10K-PWR-DC shares power, so if power dips on one input, the power supply is able to load- balance internally.
Page 338 Figure 162: Proper Load Balancing for JNP10K-PWR-DC2 Power Cables on a PTX10016 Router WARNING: Ensure that the power cords do not block access to router components or drape where people can trip on them. 19. Set the three DIP switches to indicate the number of input sources and to indicate high or low power.
Page 339 (Continued) Table 96: Set the JNP10K-PWR-DC2 DIP Switches Switch State Description IP0 is not present. IP1 is present. IP1 is not present Enabled for 30-A feed; 5000 W for a single feed, 5500 W for dual feeds. Enabled for 20-A feed; power supply capacity is 3000 W. Figure 163: Set the Enable Switches for the Power Source DIP switches Power switch, on (|) and standby (O)
Page 340 Remove a JNP10K-PWR-DC2 Power Supply from the PTX10016 Router Before you remove a JNP10K-PWR-DC2 power supply from the PTX10016 router: • Ensure that you have followed all safety warnings and cautions: CAUTION: A working JNP10K-PWR-DC2 power supply can reach temperatures between 158°...
Page 341 Wrap and fasten one end of the ESD grounding strap around your bare wrist and connect the other end of the strap to an ESD point on the chassis. An ESD point is located next to the protective earthing terminal and below PSU 9 on the PTX10016 chassis (see Figure 164 on page 330).
Page 342 Figure 165: Remove a JNP10K-PWR-DC2 Power Supply from the PTX10016 Router Wear the heat-resistant gloves to protect your hands from the hot power supply. Taking care not to touch power supply components, pins, leads, or solder connections, place one gloved hand under the power supply to support it. Grasp the power supply handle with your other hand and pull the power supply completely out of the chassis.
Page 343 Routing and Control Boards (RCBs) in the front and the fan trays in the rear. To install or remove the SIBs in a PTX10016 router, read the following sections. How to Handle and Store PTX10016 Line Cards, RCBs, and SIBs The PTX10016 chassis supports several field-replaceable units (FRUs) that have fragile components.
Page 344 CAUTION: Never hold the line card or the RCB by the connector edge. The connectors are fragile and the line card or the RCB will not seat properly if the connector is damaged. See Figure 166 on page 333. Figure 166: Connector Edge of a Line Card Connectors —...
Page 345 Figure 167: JNP10016-SF SIB for the PTX10016 Router The proper method of holding a SIB is to: 1. Have one person hold the handle in the center of the SIB faceplate with one hand and the top of the SIB with the other hand while keeping the SIB vertical, and slide the SIB about three-quarters of the way out of the chassis.
Page 346 Install a Switch Interface Board in the PTX10016 Router A PTX10016 router has up to six Switch Interface Boards (SIBs) that are installed in the middle of the chassis behind the fan trays. SIB 0 through SIB 2 are located behind the left fan tray, and SIB 3 through SIB 5 are located behind the right fan tray.
Page 347 3. Remove the appropriate fan tray (see "Remove a Fan Tray from the PTX10016 Router" on page 276) and place it in the antistatic bag or on the antistatic mat.
Page 348 5. Have one person hold the handle in the center of the SIB faceplate with one hand and the top of the SIB with the other hand while keeping the SIB vertical. Have another person place one hand underneath the SIB and lift the SIB. See "Chassis and Component Lifting Guidelines"...
Page 349 Figure 169: Install a SIB in the PTX10016 Router 8. Tighten the captive screws by using a screwdriver. slot number online command. 9. Bring the SIB online by using the request chassis sib slot You can check the status of the SIB by using the show chassis fabric sibs and the show chassis fabric plane-location commands.
Page 350 PFE #3 : OK PFE #4 : OK PFE #5 : OK FPC #3 PFE #0 : OK PFE #1 : OK PFE #2 : OK PFE #3 : OK PFE #4 : OK PFE #5 : OK FASIC #1 (plane 1) Active FPC #0 PFE #0 : OK PFE #1 : OK...
Page 351 Remove a Switch Interface Board from the PTX10016 Router A PTX10016 router has up to six Switch Interface Boards (SIBs) that are installed in the middle of the chassis behind the fan trays. SIB 0 through SIB 2 are located behind the left fan tray and SIB 3 through SIB 5 are located behind the right fan tray.
Page 352 Grasp both ejector handles and spread them apart. The SIB slides about a quarter of the way out of the slot. See Figure 170 on page 341. Figure 170: Loosen the Captive Screws and Spread the Ejector Handles Hold the ejector handles and slide the SIB about three-quarters of the way out of the chassis while keeping the SIB vertical.
Page 353 Figure 171: Remove the SIB from the PTX10016 Router Support the SIB as you rotate the SIB 90 degrees and place it on the antistatic mat with the printed circuit board (PCB) facing upward. Be careful not to bump or handle the SIB by the connectors. If you do not have an antistatic mat, have another person help you slide the antistatic bag over the SIB before placing it on a stable, flat surface.
Page 354 Figure 172: SIB Removed from the PTX10016 Router Connectors Printed circuit board — — If you are not installing a SIB in the emptied SIB slot, install a blank SIB cover panel (part number: JNP10016-SF-BLNK2) over the slot. Hold the blank SIB cover panel vertically such that the high...
Page 355 Figure 173: Install a Blank SIB Cover Panel 10. Install the fan tray. RELATED DOCUMENTATION PTX10016 Switch Interface Board Description | 83...
Page 356 Remove the Cable Management System from the PTX10016 Line Card | 354 Line cards on the PTX10016 are field-replaceable units (FRUs) that you can install in any of the line card slots on the front of the chassis. The line cards are hot-insertable and hot-removable: you can remove and replace them without powering off the router or disrupting router functions.
Page 357 LED panel on the front of the PTX10016 chassis. See Figure 174 on page 346. Figure 174: ESD Point on the Front of the PTX10016 Chassis ESD point — 2. Remove the line card slot cover by grasping the handles and pulling straight out to expose the slot for the line card.
Page 358 Figure 175: Remove the Line Card Slot Cover Figure 176: Line Card Connectors Connectors — 3. Remove the line card from the antistatic bag and inspect it for any damage before installing it in the chassis. CAUTION: Do not lift the line card by holding the edge connectors or the handles on the faceplate.
Page 359 However, we recommend that you take the line cards offline before removing them. Before you remove a line card from the PTX10016 router: • Ensure that you have taken the necessary precautions to prevent electrostatic discharge (ESD) damage.
Page 360 2. Wrap and fasten one end of the ESD grounding strap around your bare wrist and connect the other end of the strap to the ESD point on the front of the PTX10016 chassis. There is an ESD point located above the status LED panel on the front of the PTX10016 chassis (see Figure 178 on page 349).
Page 361 Place each line card separately in the antistatic bag or on the antistatic mat placed on a flat, stable surface. CAUTION: Each PTX10016 line card weighs between 20.9 lb (9.5 kg) and 27.3 lb (12.4 kg). Be prepared to support the full weight as you slide the line card out of the chassis.
Page 362 Ensure that you have a Phillips (+) screwdriver, number 2 available to install the PTX10016 cable management system on a line card.
Page 363 Figure 181: Cable Management System Components Handle extensions Cable tray — — 2. Use the screwdriver to loosen and remove the screws on the two line card handles (see Figure 182 on page 352). Save the screws. Figure 182: Remove the Line Card Handle Screws 3.
Page 364 Figure 183: Attach the Handle Extensions 4. Tighten the screws by using the screwdriver. 5. Snap open the blue clips on the ends of the cable tray with your hands. 6. Place the cable tray across the front of the line card so that the two ends of the cable tray are under the handle extensions.
Page 365 Remove the Cable Management System from the PTX10016 Line Card The PTX10016 cable management system is an optional, orderable kit (part number: JLC-CBL-MGMT- KIT) that you can use to organize and protect optical cabling attached to the line cards. After you install a line card, you can still remove the line card without needing to remove the cable management system.
Page 366 Install a Transceiver in the PTX10016 Router Before you install a transceiver in a PTX10016 line card or RCB, ensure that you have taken the necessary precautions for safe handling of lasers (see "Laser and LED Safety Guidelines and Warnings"...
Page 367 PTX10016 chassis (see Figure 186 on page 356). Figure 186: ESD Point on the Front of the PTX10016 Chassis ESD point — 4. If the port in which you want to install the transceiver is covered with a dust cover, remove the dust cover and save it in case you need to cover the port later.
Page 368 Figure 188: Install a QSFP+, QSFP28, and QSFP56-DD Transceivers Remove a Transceiver from the PTX10016 Router Before you remove a transceiver from the PTX10016 line card or RCB, ensure that you have taken the necessary precautions for safe handling of lasers (see "Laser and LED Safety Guidelines and Warnings"...
Page 369 • Dust cover to cover the port • An Electrostatic discharge (ESD) grounding strap (provided in the accessory kit) To remove a transceiver from the PTX10016 line card or RCB: 1. Place the antistatic bag or antistatic mat on a flat, stable surface.
Page 370 Connect a Fiber-Optic Cable to a Transceiver Installed in the PTX10016 Router Before you connect a fiber-optic cable to an optical transceiver installed in the PTX10016 router, ensure that you have taken the necessary precautions for safe handling of lasers (see "Laser and LED Safety...
Page 371 PTX10016 chassis (see Figure 190 on page 360). Figure 190: ESD Point on the Front of the PTX10016 Chassis ESD point — 2. If the fiber-optic cable connector is covered by a rubber safety cap, remove the cap. Save the cap.
Page 372 Disconnect a Fiber-Optic Cable from a Transceiver Installed in the PTX10016 Router Before you disconnect a fiber-optic cable from an optical transceiver installed in the PTX10016 router, ensure that you have taken the necessary precautions for safe handling of lasers (see "Laser and LED...
Page 373 Figure 191: ESD Point on the Front of the PTX10016 Chassis ESD point — 3. Carefully unplug the fiber-optic cable connector from the transceiver. 4. Cover the transceiver with a rubber safety cap. LASER WARNING: Do not leave a fiber-optic transceiver uncovered except when inserting or removing a cable.
Page 374 IN THIS SECTION Power Off the PTX10016 Router | 363 Remove the PTX10016 Router from a Four-Post Rack Using a Mechanical Lift | 366 To power off and remove the PTX10016 router, read the following sections. Power Off the PTX10016 Router Before you power off the PTX10016 router: •...
Page 375 PSU 9 on the rear of the PTX10016 chassis (see Figure 192 on page 365). An ESD point is located above the status LED panel on the front of the PTX10016 chassis (see Figure 193 on page...
Page 376 Figure 192: ESD Point on the Rear of the PTX10016 Chassis ESD point — Figure 193: ESD Point on the Front of the PTX10016 Chassis ESD point — 4. Disconnect power to the router by performing one of the following tasks: •...
Page 377 SEE ALSO Connect AC Power to the PTX10016 Router | 251 Connect DC Power to the PTX10016 Router | 252 Remove the PTX10016 Router from a Four-Post Rack Using a Mechanical Lift Before you remove the router using a lift: •...
Page 378 Because of the router's size and weight, we only recommend that you use a mechanical lift to remove the PTX10016. To remove the router using a mechanical lift (see Figure 194 on page 368): 1. Remove all line cards, RCBs, power supplies, fan trays, SIBs, and optics before attempting to move the router chassis.
Page 379 Figure 194: Move the PTX10016 Router by Using a Mechanical Lift RELATED DOCUMENTATION Connect AC Power to the PTX10016 Router | 251 Connect DC Power to the PTX10016 Router | 252...
Page 380 C HAPTER Troubleshoot Hardware Alarm Messages | 370...
Page 381 Interface Alarm Messages | 371 The following sections contain PTX10008 and PTX10016 alarm information. Alarms – A Glossary The PTX10008 and PTX10016 routers support different alarm types and severity levels. Table 97 on page 370 provides a list of alarm terms and definitions that may help you in monitoring the device.
Page 382 (Continued) Table 97: Alarm Terms and Definitions Term Definition Alarm Seriousness of the alarm. The level of severity can be either major (red) or minor (yellow). severity • Major (red)—Indicates a critical situation on the device that has resulted from one of the levels following conditions.
Page 383 network is down. You can configure these alarms to be ignored using the statement at the [edit alarm chassis] hierarchy level. RELATED DOCUMENTATION show chassis alarms show system alarms...
Page 384 C HAPTER Contact Customer Support and Return the Chassis or Components Contact Customer Support | 374 Return Procedures for the PTX10016 Chassis and Components | 375...
Page 385 Contact Customer Support You can contact Juniper Networks Technical Assistance Center (JTAC) 24 hours a day, 7 days a week in one of the following ways: • On the Web, using the Service Request Manager link at: https:/ /support.juniper.net/support/ • By telephone: •...
Page 386 Locate the Serial Number ID Labels on PTX10016 Power Supplies | 378 Locate the Serial Number ID Labels on the PTX10016 Fan Trays and Fan Tray Controllers | 381 Locate the Serial Number ID Labels on PTX10016 Routing and Control Boards | 382...
Page 387 If you are returning a router or component to Juniper Networks for repair or replacement, you must locate the serial number of the router or component. You must provide the serial number to the Juniper Networks Technical Assistance Center (JTAC) when you contact them to obtain a Return Materials Authorization (RMA).
Page 388 List the PTX10016 Chassis and Component Details by Using the CLI You can list the PTX10016 chassis and the components and their serial numbers by using the show CLI operational mode command. chassis hardware clei-models Locate the Chassis Serial Number on the PTX10016 Router The serial number ID label is located on a label on the right side of the chassis.
Page 389 Locate the Serial Number ID Labels on PTX10016 Power Supplies The power supplies installed in a PTX10016 are field-replaceable units (FRUs). For each FRU, you must remove the FRU from the router chassis to see the FRU serial number ID label.
Page 390 Figure 197: JNP10K-PWR-AC2 Power Supply Serial Number Location • JNP10K-PWR-DC power supply—The serial number ID label is on the left side of the power supply. Figure 198 on page 380.
Page 391 Figure 198: JNP10K-PWR DC Power Supply Serial Number Location • JNP10K-PWR-DC2 power supply—The serial number ID label is on the left side of the power supply. Figure 199 on page 380. Figure 199: JNP10K-PWR-DC2 Power Supply Serial Number Location...
Page 392 Locate the Serial Number ID Labels on the PTX10016 Fan Trays and Fan Tray Controllers The two fan trays and their associated fan tray controllers installed in the PTX10016 are field- replaceable units (FRUs). For each FRU, you must remove the FRU from the router chassis to see the FRU serial number ID label.
Page 393 Figure 201: PTX10016 Fan Tray Controller Serial Number Location Locate the Serial Number ID Labels on PTX10016 Routing and Control Boards The serial number ID label for a Routing and Control Board (RCB) is located on the connector end of the unit.
Page 394 Figure 202: PTX10016 Routing and Control Board Serial Number Location Locate the Serial Number ID Labels on the PTX10016 Line Cards The serial number ID label for a line card is located on the connector end of the card. See...
Page 395 Figure 203: PTX10016 Line Card Serial Number Location Locate the Serial Number ID Labels on the PTX10016 Switch Interface Boards (SIBs) The serial number ID label for a SIB is located on the printed circuit board. See Figure 204 on page 384 Figure 205 on page 385.
Page 396 Figure 205: JNP10016-SF3 SIB Serial Number Location Serial number ID label — Locate the Serial Number ID Label on the PTX10016 SATA SSD The serial number for a SATA SSD is located on top of the drive. See Figure 206 on page 385.
Page 397 Contact Customer Support to Obtain a Return Materials Authorization for the PTX10016 Router or Component If you are returning a PTX10016 router or component to Juniper Networks for repair or replacement, you must first obtain a Return Materials Authorization (RMA) from the Juniper Networks Technical Assistance Center (JTAC).
Page 398 How to Pack the PTX10016 Chassis for Shipping The PTX10016 is shipped in a cardboard box that has a two-layer wooden pallet base with foam cushioning between the layers. The router chassis is bolted to the pallet base with four pallet fasteners,...
Page 399 See Figure 207 on page 388 for the stacking configuration of the PTX10016 router. Figure 207: Configuration for Packing the PTX10016 Chassis Corrugated cover PTX10016 router — — Accessory box Pallet — —...
Page 400 For PTX10016 removal, see "Remove the PTX10016 Router from a Four-Post Rack Using a Mechanical Lift" on page 366.
Page 401 Figure 208: Attach the PTX10016 Chassis to the Pallet 17. Write the RMA number on the exterior of the box to ensure proper tracking. How to Pack PTX10016 Components for Shipping Before you begin packing a router component, ensure that you have the following parts and tools available: •...
Page 402 4. Close the top of the cardboard shipping box and seal it with packing tape. 5. Write the RMA number on the exterior of the box to ensure proper tracking. RELATED DOCUMENTATION PTX10016 Packet Transport Router Description | 2 How to Pack the PTX10016 Router or Component for Shipping | 387...
Page 403 Warning Statement for Norway and Sweden | 397 Fire Safety Requirements | 398 Installation Instructions Warning | 399 Chassis and Component Lifting Guidelines | 400 PTX10016 Chassis Lifting Guidelines | 400 Restricted Access Warning | 401 Ramp Warning | 402 Rack-Mounting and Cabinet-Mounting Warnings | 403...
Page 404 DC Power Electrical Safety Guidelines for the PTX10008 and PTX10016 Routers | DC Power Copper Conductors Warning | 424 DC Power Disconnection Warning | 425 DC Power Grounding Requirements and Warning | 426 DC Power Wiring Sequence Warning | 427...
Page 405 General Safety Guidelines and Warnings The following guidelines help ensure your safety and protect the device from damage. The list of guidelines might not address all potentially hazardous situations in your working environment, so be alert and exercise good judgment at all times. •...
Page 406 • Some parts of the chassis, including AC and DC power supply surfaces, power supply unit handles, SFB card handles, and fan tray handles might become hot. The following label provides the warning for hot surfaces on the chassis: • Always ensure that all modules, power supplies, and cover panels are fully inserted and that the installation screws are fully tightened.
Page 407 Waarschuwing Dit waarschuwingssymbool betekent gevaar. U verkeert in een situatie die lichamelijk letsel kan veroorzaken. Voordat u aan enige apparatuur gaat werken, dient u zich bewust te zijn van de bij elektrische schakelingen betrokken risico's en dient u op de hoogte te zijn van standaard maatregelen om ongelukken te voorkomen. Varoitus Tämä...
Page 408 Qualified Personnel Warning WARNING: Only trained and qualified personnel should install or replace the device. Waarschuwing Installatie en reparaties mogen uitsluitend door getraind en bevoegd personeel uitgevoerd worden. Varoitus Ainoastaan koulutettu ja pätevä henkilökunta saa asentaa tai vaihtaa tämän laitteen. Avertissement Tout installation ou remplacement de l'appareil doit être réalisé...
Page 409 In addition, you should establish procedures to protect your equipment in the event of a fire emergency. Juniper Networks products should be installed in an environment suitable for electronic equipment. We recommend that fire suppression equipment be available in the event of a fire in the vicinity of the equipment and that all local fire, safety, and electrical codes and ordinances be observed when you install and operate your equipment.
Page 410 NOTE: To keep warranties effective, do not use a dry chemical fire extinguisher to control a fire at or near a Juniper Networks device. If a dry chemical fire extinguisher is used, the unit is no longer eligible for coverage under a service agreement.
Page 411 • Before moving the PTX10016, disconnect all external cables. • When raising the PTX10016 into the rack using a mechanical lift, have one person lift and align the router with the rack while another person secures the router to the rack.
Page 412 General Safety Guidelines and Warnings | 394 Installation Instructions Warning | 399 Mount the PTX10016 by Using the EX-MOD-RMK-4POST Rack Mount Kit | 225 Restricted Access Warning WARNING: This unit is intended for installation in restricted access areas. A restricted...
Page 413 un'attrezzo speciale, lucchetto, o altri dispositivi di sicurezza, ed è controllata dall'autorità responsabile della zona. Advarsel Denne enheten er laget for installasjon i områder med begrenset adgang. Et område med begrenset adgang gir kun adgang til servicepersonale som bruker et spesielt verktøy, lås og nøkkel, eller en annen sikkerhetsanordning, og det kontrolleres av den autoriteten som er ansvarlig for området.
Page 414 De onderstaande richtlijnen worden verstrekt om uw veiligheid te verzekeren: • De Juniper Networks switch moet in een stellage worden geïnstalleerd die aan een bouwsel is verankerd. • Dit toestel dient onderaan in het rek gemonteerd te worden als het toestel het enige in het rek is.
Page 415 Les directives ci-dessous sont destinées à assurer la protection du personnel: • Le rack sur lequel est monté le Juniper Networks switch doit être fixé à la structure du bâtiment. • Si cette unité constitue la seule unité montée en casier, elle doit être placée dans le bas.
Page 416 Le seguenti direttive vengono fornite per garantire la sicurezza personale: • Il Juniper Networks switch deve essere installato in un telaio, il quale deve essere fissato alla struttura dell'edificio. • Questa unità deve venire montata sul fondo del supporto, se si tratta dell'unica unità...
Page 417 Para garantizar su seguridad, proceda según las siguientes instrucciones: • El Juniper Networks switch debe instalarse en un bastidor fijado a la estructura del edificio. • Colocar el equipo en la parte inferior del bastidor, cuando sea la única unidad en el mismo.
Page 418 • Om denna enhet är den enda enheten på ställningen skall den installeras längst ned på ställningen. • Om denna enhet installeras på en delvis fylld ställning skall ställningen fyllas nedifrån och upp, med de tyngsta enheterna längst ned på ställningen. •...
Page 419 Varning! Den här enheten måste vara ordentligt jordad. Följ instruktionerna i den här guiden för att jorda enheten ordentligt. Radiation from Open Port Apertures Warning LASER WARNING: Because invisible radiation might be emitted from the aperture of the port when no fiber cable is connected, avoid exposure to radiation and do not stare into open apertures.
Page 420 Class 1 LED Product Warning | 410 Laser Beam Warning | 411 Juniper Networks devices are equipped with laser transmitters, which are considered a Class 1 Laser Product by the U.S. Food and Drug Administration and are evaluated as a Class 1 Laser Product per IEC/EN 60825-1 requirements.
Page 421 eye directly on a laser source—even a low-power laser—could permanently damage the eye. Avertissement Les connecteurs à fibre optique sans terminaison peuvent émettre un rayonnement laser invisible. Le cristallin de l’œil humain faisant converger toute la puissance du laser sur la rétine, toute focalisation directe de l’œil sur une source laser, —même de faible puissance—, peut entraîner des lésions oculaires irréversibles.
Page 422 Avvertenza Avvertenza prodotto LED di Classe 1. Advarsel LED-produkt i klasse 1. Aviso Produto de classe 1 com LED. ¡Atención! Aviso sobre producto LED de Clase 1. Varning! Lysdiodprodukt av klass 1. Laser Beam Warning LASER WARNING: Do not stare into the laser beam or view it directly with optical instruments.
Page 423 Maintenance and Operational Safety Guidelines and Warnings IN THIS SECTION Battery Handling Warning | 412 Jewelry Removal Warning | 413 Lightning Activity Warning | 415 Operating Temperature Warning | 415 Product Disposal Warning | 417 While performing the maintenance activities for devices, observe the following guidelines and warnings: Battery Handling Warning WARNING: Replacing a battery incorrectly might result in an explosion.
Page 424 Warnung Bei Einsetzen einer falschen Batterie besteht Explosionsgefahr. Ersetzen Sie die Batterie nur durch den gleichen oder vom Hersteller empfohlenen Batterietyp. Entsorgen Sie die benutzten Batterien nach den Anweisungen des Herstellers. Advarsel Det kan være fare for eksplosjon hvis batteriet skiftes på feil måte. Skift kun med samme eller tilsvarende type som er anbefalt av produsenten.
Page 425 kuumenevat, kun ne ovat yhteydessä sähkövirran ja maan kanssa, ja ne voivat aiheuttaa vakavia palovammoja tai hitsata metalliesineet kiinni liitäntänapoihin. Avertissement Avant d'accéder à cet équipement connecté aux lignes électriques, ôter tout bijou (anneaux, colliers et montres compris). Lorsqu'ils sont branchés à l'alimentation et reliés à...
Page 426 6 in. (15.2 cm) of clearance around the ventilation openings. Waarschuwing Om te voorkomen dat welke switch van de Juniper Networks router dan ook oververhit raakt, dient u deze niet te bedienen op een plaats waar de maximale...
Page 427 40° C. Para evitar a restrição à circulação de ar, deixe pelo menos um espaço de 15,2 cm à volta das aberturas de ventilação. ¡Atención! Para impedir que un encaminador de la serie Juniper Networks switch se recaliente, no lo haga funcionar en un área en la que se supere la temperatura ambiente máxima recomendada de 40°...
Page 428 Product Disposal Warning WARNING: Disposal of this device must be handled according to all national laws and regulations. Waarschuwing Dit produkt dient volgens alle landelijke wetten en voorschriften te worden afgedankt. Varoitus Tämän tuotteen lopullisesta hävittämisestä tulee huolehtia kaikkia valtakunnallisia lakeja ja säännöksiä noudattaen. Avertissement La mise au rebut définitive de ce produit doit être effectuée conformément à...
Page 429 intrabuilding ports on the device are suitable for connection to intrabuilding or unexposed wiring or cabling only. The addition of primary protectors is not sufficient protection for connecting these interfaces metallically to OSP wiring. Avertissement Certains ports de l’appareil sont destinés à un usage en intérieur GR-1089-CORE ) uniquement (ports Type 2 ou Type 4 tels que décrits dans le document et doivent être isolés du câblage de l’installation extérieure exposée.
Page 430 • Make sure that you clean grounding surface and give them a bright finish before making grounding connections. • Do not work alone if potentially hazardous conditions exist anywhere in your workspace. • Never assume that power is disconnected from a circuit. Always check the circuit before starting to work.
Page 431 • Always use an ESD wrist strap when you are handling components that are subject to ESD damage, and make sure that it is in direct contact with your skin. If a grounding strap is not available, hold the component in its antistatic bag (see Figure 209 on page 421) in one hand and touch the exposed, bare metal of the device with the other hand immediately before inserting the component into the device.
Page 432 Figure 209: Placing a Component into an Antistatic Bag CAUTION: ANSI/TIA/EIA-568 cables such as Category 5e and Category 6 can get electrostatically charged. To dissipate this charge, always ground the cables to a suitable and safe earth ground before connecting them to the system. Attention Les câbles ANSI/TIA/EIA-568, par exemple Cat 5e et Cat 6, peuvent emmagasiner des charges électrostatiques.
Page 433 • AC-powered devices are shipped with a three-wire electrical cord with a grounding-type plug that fits only a grounding-type power outlet. Do not circumvent this safety feature. Equipment grounding must comply with local and national electrical codes. • You must provide an external certified circuit breaker (2-pole circuit breaker or 4-pole circuit breaker based on your device) rated minimum 20 A in the building installation.
Page 434 DC Power Electrical Safety Guidelines for the PTX10008 and PTX10016 Routers This topic applies to hardware devices in the PTX10008 and PTX10016 routers. • A DC-powered device is equipped with a DC terminal block that is rated for the power requirements of a maximally configured device.
Page 435 • A DC-powered device that is equipped with a DC terminal block is intended for installation only in a restricted-access location. In the United States, a restricted-access area is one in accordance with Articles 110-16, 110-17, and 110-18 of the National Electrical Code ANSI/NFPA 70. NOTE: Primary overcurrent protection is provided by the building circuit breaker.
Page 436 ¡Atención! Emplee sólo conductores de cobre. Varning! Använd endast ledare av koppar. DC Power Disconnection Warning WARNING: Before performing any of the DC power procedures, ensure that power is removed from the DC circuit. To ensure that all power is off, locate the circuit breaker on the panel board that services the DC circuit, switch the circuit breaker to the OFF position, and tape the device handle of the circuit breaker in the OFF position.
Page 437 CC, mettere l'interruttore in posizione OFF e fissarlo con nastro adesivo in tale posizione. Advarsel Før noen av disse prosedyrene utføres, kontroller at strømmen er frakoblet likestrømkretsen. Sørg for at all strøm er slått AV. Dette gjøres ved å lokalisere strømbryteren på...
Page 438 Varoitus Laitetta asennettaessa on maahan yhdistäminen aina tehtävä ensiksi ja maadoituksen irti kytkeminen viimeiseksi. Avertissement Lors de l'installation de l'appareil, la mise à la terre doit toujours être connectée en premier et déconnectée en dernier. Warnung Der Erdanschluß muß bei der Installation der Einheit immer zuerst hergestellt und zuletzt abgetrennt werden.
Page 439 est rectifié pour rectifier, +RTN à +RTN, puis –48 V à –48 V. En débranchant la puissance, l'ordre approprié de câblage est –48 V à –48 V, +RTN à +RTN, a alors rectifié pour rectifier. Notez que le fil de masse devrait toujours être relié d'abord et débranché pour la dernière fois.
Page 440 DC Power Wiring Terminations Warning WARNING: When stranded wiring is required, use approved wiring terminations, such as closed-loop or spade-type with upturned lugs. These terminations must be the appropriate size for the wires and must clamp both the insulation and conductor. Waarschuwing Wanneer geslagen bedrading vereist is, dient u bedrading te gebruiken die voorzien is van goedgekeurde aansluitingspunten, zoals het gesloten-lus type of het grijperschop type waarbij de aansluitpunten omhoog wijzen.
Page 441 ¡Atención! Cuando se necesite hilo trenzado, utilizar terminales para cables homologados, tales como las de tipo "bucle cerrado" o "espada", con las lengüetas de conexión vueltas hacia arriba. Estos terminales deberán ser del tamaño apropiado para los cables que se utilicen, y tendrán que sujetar tanto el aislante como el conductor. Varning! När flertrådiga ledningar krävs måste godkända ledningskontakter användas, t.ex.
Page 442 ¡Atención! Esta unidad tiene más de una conexión de suministros de alimentación; para eliminar la alimentación por completo, deben desconectarse completamente todas las conexiones. Varning! Denna enhet har mer än en strömförsörjningsanslutning; alla anslutningar måste vara helt avlägsnade innan strömtillförseln till enheten är fullständigt bruten. TN Power Warning WARNING: The device is designed to work with a TN power system.
Page 443 In addition, you should establish procedures to protect your equipment in the event of a fire emergency. Juniper Networks products should be installed in an environment suitable for electronic equipment. We recommend that fire suppression equipment be available in the event of a fire in the vicinity of the equipment and that all local fire, safety, and electrical codes and ordinances be observed when you install and operate your equipment.
Page 444 NOTE: To keep warranties effective, do not use a dry chemical fire extinguisher to control a fire at or near a Juniper Networks device. If a dry chemical fire extinguisher is used, the unit is no longer eligible for coverage under a service agreement.
Page 445 • UL 62368-1 Standard for Audio/video, information and communication technology equipment - Part 1: Safety requirements • CAN/CSA-C22.2 No. 60950-1 Information Technology Equipment – Safety • IEC 62368-1 Information Technology Equipment – Safety • IEC 60950-1 Information Technology Equipment – Safety CB Scheme report •...
Page 446 • GR-63-CORE – Requirements, physical protection • GR-1089-CORE, Issue 7 – Acoustic noise Compliance Statement for Argentina EQUIPO DE USO IDÓNEO. Compliance Statements for EMC Requirements for the PTX10008 and PTX10016 Routers IN THIS SECTION Canada | 436 European Community | 436 Israel | 437...
Page 447 This topic describes the EMC requirements for the PTX10008 and PTX10016 routers for: Canada This Class A digital apparatus complies with Canadian ICES-003. Cet appareil numérique de la classe A est conforme à la norme NMB-003 du Canada. The Industry Canada label identifies certified equipment. This certification means that the equipment meets certain telecommunications network protective, operational, and safety requirements.
Page 448 Israel Translation from Hebrew–Warning: This product is Class A. In residential environments, the product may cause radio interference, and in such a situation, the user may be required to take adequate measures. Japan The preceding translates as follows: This is a Class A product. In a domestic environment this product may cause radio interference in which case the user may be required to take adequate measures.
Page 449 United States The PTX10008 and PTX10016 devices have been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment.
Page 450 (Continued) Table 98: Line Card Compliance Line Card Compliance PTX10K-LC1102 NEBS compliant PTX10K-LC1104 Data center GR-3160 compliant PTX10K-LC1105 NEBS compliant PTX10K-LC1201-36CD NEBS compliant PTX10K-LC1202-36MR Data center GR-3160 compliant when installed in a PTX10008 router QFX10000-60S-6Q NEBS compliant...