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Summary of Contents for Tektronix TD140
- Page 1 TD140 Hardware Maintenance Guide Software Version 7.13.2 Tektronix Communications | For Licensed Users | Unauthorized Duplication and Distribution Prohibited...
- Page 2 Copyright © Tektronix, Inc. All rights reserved. Printed in the USA. Tektronix products are covered by U.S. and foreign patents, issued and pending. Information in this publication supersedes that in all previously published material. Specification and price change privileges reserved. TEKTRONIX and TEK are registered trademarks of Tektronix, Inc.
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Page 3: Table Of Contents
Airflow Management Panels................20 Chapter 3 Blades and RTMs......................21 Overview ........................21 Packet Processing Module (PPM40) ................23 Front Panel Interfaces and LEDs ..............23 TD140 Hardware Maintenance Guide 7.13.2 Tektronix Communications | For Licensed Users | Unauthorized Duplication and Distribution Prohibited... - Page 4 Replace the Filter and Install the Tray..............43 Chapter 5 TD140 System Operating Specifications ................44 Overview ........................44 Physical Dimensions ....................45 Power and Heat ......................46 AC Rectifier ....................46 Environmental......................47 TD140 Hardware Maintenance Guide 7.13.2 Tektronix Communications | For Licensed Users | Unauthorized Duplication and Distribution Prohibited...
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Page 5: What's New In Td140 Hardware Maintenance Version 7.13.2
GTP Session Persistency on TD140 GTP session mapping data can now be persisted at the G10 probes that are bound to a TD140. To minimize data loss when a Network Connectivity TD140 is rebooted, the bound G10 probes send the GTP session... -
Page 6: Chapter 1 Td140 Overview
TD140 Overview VERVIEW The TD140 Traffic Distributor is a GTPv1/GTPv2 load balancing network element used as a Gn/LTE monitoring solution to distribute coherent GTP sessions from the S1-U, S11, S5/S8, S4, and Gn interfaces among a pool of G10 probes. This product provides a complete, independent solution with software and hardware integrated into a common environment. -
Page 7: Td140 Architecture Overview
Table 1.1 - TD140 Network Architecture Elements Element Function TD140 At ingress ports, TD140 collects GTP traffic from S1-U, S11, S5/S8, S4, and Gn interfaces in the packet core network. Other traffic (non-GTPv1/v2 IP protocols) is load balanced based on IP ... -
Page 8: Td140 Hardware Components
The PPM40 packet processing module provides high-performance packet processing for the Module (PPM40) TD140. The PPM delivers I/O processing for 10 gigabit and 1 gigabit (Gb) Ethernet interfaces. Each PPM40 blade provides four egress port connections to the G10 probes. - Page 9 Figure 1.3 Figure 1.3 - TD140 Front View shows the rear view of the TD140. Figure 1.4 Figure 1.4 - TD140 Rear View TD140 Hardware Maintenance Guide 7.13.2 Tektronix Communications | For Licensed Users | Unauthorized Duplication and Distribution Prohibited...
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Page 10: Network Connectivity
Rev. 001-140228 TD140 Overview ETWORK ONNECTIVITY A TD140 deployment currently requires the customer to provide two Ethernet connections and associated addresses as described in 1.1. See Ethernet Cabling Diagram for cabling details. Table Table 1.3 - TD140 Network Connectivity Port... -
Page 11: Ethernet Cabling Diagram
Rev. 001-140228 TD140 Overview Ethernet Cabling Diagram shows the ingress and egress cable connections for the TD140 load balancer. See also Figure 1.5 Supported SFP or SFP+ Transceivers for SFP details. DO NOT connect the OAM cable to Port B until Network Connectivity is complete. -
Page 12: Default Port Settings
Full duplex ETH Port (PPM40 Blade 1) 1 Gbps Auto Full duplex 10G ports (PPM40 Ingress and Egress ports) 10 Gbps Auto Full duplex TD140 Hardware Maintenance Guide 7.13.2 Tektronix Communications | For Licensed Users | Unauthorized Duplication and Distribution Prohibited... -
Page 13: Td140 Chassis Subsystem
A backplane providing dual star Base interface and replicated mesh Fabric interface Two redundant and hot-swappable PEMs Two pluggable, hot-swappable fan trays Shelf Management Controller (ShMC) Removable fan filter TD140 Hardware Maintenance Guide 7.13.2 Tektronix Communications | For Licensed Users | Unauthorized Duplication and Distribution Prohibited... - Page 14 Module Blade Slots Fan tray 6-slot backplane Fan tray Figure 2.1 - Chassis Front View shows a rear view of the TD140 chassis with key components identified. Figure 2.2 PEM A ESD wrist PEM B strap terminal Ground terminal...
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Page 15: Shelf Management Controller (Shmc)
Steady green 1000 Mbps Steady amber 100 Mbps Link Port Blinking Link active No link established Port status Green Green Port enabled Port disabled TD140 Hardware Maintenance Guide 7.13.2 Tektronix Communications | For Licensed Users | Unauthorized Duplication and Distribution Prohibited... -
Page 16: Front Panel Leds
Each fan tray is individually hot-swappable. To deliver maximum air flow to modules installed in the chassis, the TD140 contains two interchangeable fan trays located on either side of the chassis card cage. - Page 17 The fans move air from the right side to the left side of the chassis in a push-pull arrangement. This arrangement provides excellent airflow as well as fault tolerance if a fan failure occurs. The TD140 can be installed with an optional baffle to support front-to-back airflow. Refer to the TD140 Installation Guide for more information.
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Page 18: Connectors And Indicators
Figure 2.5 - Fan Tray Components and LEDs Hot Swap Button The hot swap button is used to remove the fan tray without powering off the platform. TD140 Hardware Maintenance Guide 7.13.2 Tektronix Communications | For Licensed Users | Unauthorized Duplication and Distribution Prohibited... -
Page 19: Fan Tray Leds
Figure 2.6. Note: When installing the air filter, the filter element must be in the top position. Figure 2.6 - Air Filter Tray TD140 Hardware Maintenance Guide 7.13.2 Tektronix Communications | For Licensed Users | Unauthorized Duplication and Distribution Prohibited... -
Page 20: Air Filter Presence Sensor
PEM OK LED (blue) Figure 2.7 - PEM Front Panel The hot-swap button is used to remove a PEM without powering off the platform. TD140 Hardware Maintenance Guide 7.13.2 Tektronix Communications | For Licensed Users | Unauthorized Duplication and Distribution Prohibited... -
Page 21: Frame-Ground Connections
(or in the same rack). The two studs permit the use of a double lug grounding connection to the platform frame to prevent rotation. shows the chassis ground connection at the rear of the TD140. Figure 2.8 Figure 2.8 - TD140 Chassis Ground Connection... -
Page 22: Blade Slots
The panels use the card guide features in the card cage for alignment and retention within the space. They also have face panels with thumbscrews, consistent with a standard module, but do not have ejector latches. TD140 Hardware Maintenance Guide 7.13.2 Tektronix Communications | For Licensed Users | Unauthorized Duplication and Distribution Prohibited... -
Page 23: Blades And Rtms
User Documentation Blades and RTMs VERVIEW The TD140 load balancer is a scalable, modular device consisting of blades, Rear Transition Modules (RTMs), and other hardware components that allow minimal risk and dependency on other hardware devices. The TD140 supports the following components: Packet Processing Module (PPM40) ... - Page 24 Rev. 001-140228 Blades and RTMs shows the front view of the TD140 with the PPM40 blades installed. Figure 3.1 PPM40 Blades Figure 3.1 - TD140 - Front View shows the rear view of the TD140 with the PPM40 RTMs installed.
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Page 25: Packet Processing Module (Ppm40)
The PPM40 packet processing module (Figure 3.3) provides high-performance packet processing for the TD140. The PPM delivers I/O processing for 10 Gigabit (Gb) and 1 Gb Ethernet interfaces. PPM40 Blade 1 is used for receiving persistence data from G10 probes through the ETH port. - Page 26 (PWR) (APP) SFP/SFP+ ports (4) DPB serial port (2) Hot swap LED (H/S) RESET Hot swap AdvancedTCA Figure 3.4 - PPM40 Front Panel TD140 Hardware Maintenance Guide 7.13.2 Tektronix Communications | For Licensed Users | Unauthorized Duplication and Distribution Prohibited...
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Page 27: Front Panel Leds
Long blink: Activating the module after insertion Short blink: Preparing for hot swap Solid: Ready for hot swap Off: No hot-swap activity in progress TD140 Hardware Maintenance Guide 7.13.2 Tektronix Communications | For Licensed Users | Unauthorized Duplication and Distribution Prohibited... -
Page 28: Sfp And Sfp+ Sockets
A reset button is provided on the front panel for resetting the PPM payload, which includes the Octeon processors, the LMP, the Ethernet switch, and associated peripherals. The switch is a recessed button labeled RESET. TD140 Hardware Maintenance Guide 7.13.2 Tektronix Communications | For Licensed Users | Unauthorized Duplication and Distribution Prohibited... -
Page 29: Hot-Swap Switch
With hot-swapping, a module can be removed and reinserted in a shelf without resetting the module. PPM40 RTM The PPM40 supports the PPM40 RTM, which connects to the back of the TD140 chassis (Figure 3.5). Compliant with PICMG 3.0 Advanced Telecommunications Computing Architecture R3.0, the PPM40 RTM supplies maintenance and additional connectivity options... -
Page 30: Front Panel Interfaces And Leds
SFP 12: link status LED Hot swap LED (H/S) SFP 12: port status LED Reset button Serial port (not used) Figure 3.6 - PPM40 RTM Front Panel TD140 Hardware Maintenance Guide 7.13.2 Tektronix Communications | For Licensed Users | Unauthorized Duplication and Distribution Prohibited... -
Page 31: Front Panel Leds
LED depends on the application assigned. The LED status is controlled by the MMC. Amber: Application activity Off: No activity TD140 Hardware Maintenance Guide 7.13.2 Tektronix Communications | For Licensed Users | Unauthorized Duplication and Distribution Prohibited... - Page 32 Off: Running status, no hot-swap activity in progress a. The user application can set the LED color using the Set FRU LED State IPMI command. TD140 Hardware Maintenance Guide 7.13.2 Tektronix Communications | For Licensed Users | Unauthorized Duplication and Distribution Prohibited...
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Page 33: Td140 Maintenance Guidelines
ESD. For instructions on mounting the TD140 in a rack, see the TD140 Installation Guide and the instructions provided by the rack’s manufacturer. -
Page 34: Warnings
power connection cables. When the system is powered on, do NOT touch the power terminals. This TD140 is intended to be grounded. Ensure that the platform ground terminals are connected to protective earth (PE) ground of the building. -
Page 35: Install The Ppm
Refer to Figure 4.2. Locking latch Slide lock toward handle to release lock, then pull handle out Figure 4.2 - PPM40 Handle Locking Latch TD140 Hardware Maintenance Guide 7.13.2 Tektronix Communications | For Licensed Users | Unauthorized Duplication and Distribution Prohibited... -
Page 36: Replacing Appm40 Rtm
PPM front panel. PPM40 RTM EPLACING A Refer to the following sections for more information: Remove the PPM40 RTM Install the PPM40 RTM TD140 Hardware Maintenance Guide 7.13.2 Tektronix Communications | For Licensed Users | Unauthorized Duplication and Distribution Prohibited... -
Page 37: Remove The Ppm40 Rtm
RTM. See Figure 4.4. Remove the RTM from the shelf. TD140 Hardware Maintenance Guide 7.13.2 Tektronix Communications | For Licensed Users | Unauthorized Duplication and Distribution Prohibited... -
Page 38: Install The Ppm40 Rtm
Rev. 001-140228 TD140 Maintenance Guidelines Install the PPM40 RTM Install the PPM40 RTM PRIOR to installing the PPM40 front module in the TD140 chassis. Perform the following steps: Remove the filler panel in the rear shelf slot where the RTM will be installed. -
Page 39: Remove The Shmc
Table 4.1 - LED States for Normal Operation State Explanation Out of Service (OOS) Operating normally Power Good (PG) GREEN On Power is good from all supplies TD140 Hardware Maintenance Guide 7.13.2 Tektronix Communications | For Licensed Users | Unauthorized Duplication and Distribution Prohibited... -
Page 40: Replacing A Fan Tray
Release the locking screw that secures the fan tray to the shelf. TD140 Hardware Maintenance Guide 7.13.2 Tektronix Communications | For Licensed Users | Unauthorized Duplication and Distribution Prohibited... -
Page 41: Replacing Apem
Ignoring any of these precautions may cause personal injury or damage electronic equipment. An electrical current of up to 75 VDC may be present at any power connection. TD140 Hardware Maintenance Guide 7.13.2 Tektronix Communications | For Licensed Users | Unauthorized Duplication and Distribution Prohibited... - Page 42 PEM. Tighten the screws. Reconnect the power cables to the power terminal. Replace the terminal cover. Restore the facility’s power to the PEM. TD140 Hardware Maintenance Guide 7.13.2 Tektronix Communications | For Licensed Users | Unauthorized Duplication and Distribution Prohibited...
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Page 43: Cleaning Or Replacing The Inlet Air Filter
Refer to the following sections for more information: Remove the Filter Tray and Filter Clean the Filter Replace the Filter and Install the Tray TD140 Hardware Maintenance Guide 7.13.2 Tektronix Communications | For Licensed Users | Unauthorized Duplication and Distribution Prohibited... -
Page 44: Remove The Filter Tray And Filter
Immersion in warm soapy water. Dip the filter in a solution of warm water and mild detergent, then rinse it in clear water. Let it stand until completely dry. TD140 Hardware Maintenance Guide 7.13.2 Tektronix Communications | For Licensed Users | Unauthorized Duplication and Distribution Prohibited... -
Page 45: Replace The Filter And Install The Tray
With the filter tray removal tab facing you, grasp the tab and slide the filter tray into the filter slot at the front of the shelf. Push the filter tray into the shelf until it clicks into place. TD140 Hardware Maintenance Guide 7.13.2 Tektronix Communications | For Licensed Users | Unauthorized Duplication and Distribution Prohibited... -
Page 46: Td140 System Operating Specifications
Specifications VERVIEW The design of the TD140 load balancer enables you to install it in common switching, or other equipment frame lineups found in telecommunications central office environments. The following sections list the physical specifications, power and ground requirements, and appropriate specifications to which the TD140 probe conforms. -
Page 47: Physical Dimensions
Min depth: 24.7 in. Max depth: 26.9 in. a. Refer to the TD140 Installation Guide for rack space requirements. AC configurations require an additional 1U rack space to accommodate an AC rectifier. lists the physical dimensions for the TD140 without the baffle installed. -
Page 48: Power And Heat
Rev. 001-140228 TD140 System Operating Specifications OWER AND lists the power and heat specifications for the TD140 (Model: 80G, 2-blade, DC, Table 5.3 front-to-back cooling). Table 5.3 - TD140 DC Power and Heat Dimensions Dimension Value Maximum current draw 50A (2x 30A breakers on each PEM) -
Page 49: Environmental
The AC power supply shelf supports up to four AC rectifier modules. The power output per rectifier is dependent on the AC input voltage. For the TD140 80G configuration, two AC rectifier modules are included. This provides redundant power. Load sharing between the modules is not ideal because the power paths are independent.
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