Trompeter mini bnc removal tool

Remove the lower backplane cover to access the alarm interface panel AIP , alarm pin fields, frame ground, and power terminals Figure It also provides an interface from the backplane to the fan tray assembly and LCD. The panel has a non-volatile memory chip that stores the unique node address MAC address.

Note Ensure that all nodes in the affected network are running the same software version before replacing the AIP and repairing circuits. If you need to upgrade nodes to the same software version, no hardware should be changed or circuit repair performed until after the software upgrade is complete. You can replace the AIP on an in-service system without affecting traffic except Ethernet traffic on nodes running a software release earlier than Release 4. The circuit repair feature allows you to repair circuits affected by MAC address changes on one node at a time.

Circuit repair will work when all nodes are running the same software version. Each individual AIP upgrade requires an individual circuit repair; if AIPs are replaced on two nodes, the circuit repair must be performed twice. Note The MAC address identifies the nodes that support circuits.

It allows CTC to determine circuit sources, destinations, and spans. The ONS has a backplane pin field located at the bottom of the backplane see Figure The backplane pin field provides 0.

Visual and audible alarms are typically wired to trigger an alarm light or bell at a central alarm collection point when the corresponding contacts are closed.

The ACO function clears all audible alarm indications. After clearing the audible alarm indication, the alarm is still present and viewable in the Alarms tab in CTC. The optional alarm expansion panel AEP can be used with the enhanced Alarm Interface Controller card AIC-I card to provide an additional 48 dry alarm contacts, 32 of which are inputs and 16 are outputs.

The AEP shown in Figure is a printed circuit board assembly that is installed on the backplane. Here, the left connector is the input connector and the right connector is the output connector. These direct AIC-I alarm contacts are routed through the backplane to wire-wrap pins accessible from the back of the shelf. If you install an AEP, you cannot use the alarm contacts on the wire-wrap pins.

High-Density BNC. Mini BNC. AMP Champ. EIAs are attached to the shelf assembly backplane to provide electrical interface cable connections.

As you face the rear of the ONS shelf assembly, the right-hand side is the A side and the left-hand side is the B side. The top of the EIA connector columns are labeled with the corresponding slot number, and EIA connector pairs are marked transmit Tx and receive Rx to correspond to transmit and receive cables.

Right-angle mating connectors for the connecting cable are AMP ohm connectors. If preferred, you can also use a straight connector of the same type. These cables are recommended to connect to a patch panel and are designed for long runs.

The first 12 pairs of BNC connectors correspond to Ports 1 to 12 for a port card and map to Slot 2 on the shelf assembly. The BNC connector pairs are marked "Tx" and "Rx" to indicate transmit and receive cables for each port. You can install an additional card in Slot 1 as a protect card for the card in Slot 2. The second 12 BNC connector pairs correspond to Ports 1 to 12 for a port card and map to Slot 4 on the shelf assembly. You can install an additional card in Slot 3 as a protect card for the card in Slot 4.

The first 12 BNC connector pairs correspond to Ports 1 to 12 for a port card and map to Slot 14 on the shelf assembly. You can install an additional card in Slot 15 as a protect card for the card in Slot The second 12 BNC connector pairs correspond to Ports 1 to 12 for a port card and map to Slot 16 on the shelf assembly. You can install an additional card in Slot 17 as a protect card for the card in Slot Cisco recommends these cables for connection to a patch panel; they are designed for long runs.

Each column of connector pairs is numbered and corresponds to the slot of the same number. The first column 12 pairs of BNC connectors corresponds to Slot 1 on the shelf assembly, the second column to Slot 2, the third column to Slot 4, and the fourth column to Slot 5. The rows of connectors correspond to Ports 1 to 12 of a port card.

The first column 12 pairs of BNC connectors corresponds to Slot 13 on the shelf assembly, the second column to Slot 14, the third column to Slot 16, and the fourth column to Slot This tool also helps with ONS patch panel connections. The BNC insertion and removal tool can be obtained from the following vendors:. The Mini BNC insertion and removal tool can be obtained from the following vendors:. Right-angle mating connectors for the connecting cable are AMP 75 ohm connectors.

Cisco recommends these cables for connection to a patch panel; they are not designed for long runs. Range does not affect loopback testing. The "A" side columns are numbered 1 to 6 and correspond to Slots 1 to 6 on the shelf assembly. The "B" side columns are numbered 12 to 17 and correspond to Slots 12 to 17 on the shelf assembly.

The connector rows are numbered 1 to 14 and correspond to the 14 ports on a DS-1 card. If you use a DS-3 or EC-1 card, only ports 1 to 12 are active. If you use a DS3XM-6 card, only ports 1 to 6 are active. The SMB connector pairs are marked "Tx" and "Rx" to identify transmit and receive cables for each port. The connectors are numbered 1 to 6 for the corresponding slots on the shelf assembly. The connectors are labeled 12 to 17 for the corresponding slots on the shelf assembly.

The appropriate cable assembly is required depending on the type of signal. The diagrams adjacent to each row of SCSI connectors indicate the slots and ports that correspond with each SCSI connector in that row, depending on whether you are using a high-density HD or low-density LD configuration. Figure shows the slot assignments for sides A and B.

Note The high-density DS electrical card will be available in a future release. The UBIC-V sheet metal covers use the same screw holes as the standard sheet metal covers, but they have 12 additional holes for pan-head screws and three holes for jack screws, so you can screw down the cover and the board using standoffs on the UBIC-V board. When installed with the standard door and cabling on the backplane, the ONS shelf measures approximately When installed with the deep door and cabling on the backplane, the ONS shelf measures approximately The A-side maps to Slots 1 through 6 and the B-side maps to Slots 12 through In Software Releases 4.

In Software R5. Figure shows the A and B side connector labeling. In Software Releases prior to Release 5. ONS plug-in cards have electrical plugs at the back that plug into electrical connectors on the shelf assembly backplane. When the ejectors are fully closed, the card plugs into the assembly backplane. Figure shows card installation. Release 5. This inhibits switching to a failed line card, if such a card exists, by generating a diagnostic failure alarm.

The feature also causes a switch-away on the cross connect cards via an equipment failure alarm. All diagnostic failures are logged in the alarm history. The feature accomplishes these goals by adding three new timers that ensure the correct state of the cards at key points in card communication.

A verification guard timer is used when a Force is issued, to ensure that the far end has a chance to respond. To replace an ONS card with another card of the same type, you do not need to make any changes to the database; remove the old card and replace it with a new card.

To replace a card with a card of a different type, physically remove the card and replace it with the new card, then delete the original card from CTC. The tables in this section describe the function and slot assignment for each ONS plug-in card.

Each card is marked with a symbol that corresponds to a slot or slots on the ONS shelf assembly. The cards can only be installed into slots displaying the same symbols.

It provides synchronization, 10 DCC terminations, system initialization, provisioning, alarm reporting, maintenance, and diagnostics. These additional features require Software Release 5. The AIC card provides user-defined environmental alarms with its 4 input and 4 output alarm contact closures. It also provides orderwire. The AIC-I card provides user-defined environmental alarms with its 12 input and 4 output alarm contact closures. Two TCC and cross-connect cards must always be installed for redundant operation.

Each port operates at 1. Each DS port has DSX-level digital signal cross-connect frame outputs supporting distances up to feet. The DS card can function as a working or protect card in protection schemes and as a working card in 1:N protection schemes. The DS1N card supports the same features as the DS card in addition to enhanced protection schemes. The DS1N card can function as a working or protect card in or 1:N protection schemes. Each port operates at Each port features DSX-level outputs supporting distances up to feet meters depending on facility conditions.

The DS card operates as a working or protect card in protection schemes and as a working card in 1:N protection schemes. The DS3N card supports the same features as the DS card in addition to enhanced protection schemes.

The DS3N card can function as a working or protect card in or 1:N protection schemes. Each port features DSX-level outputs supporting distances up to feet meters. The DSE card provides enhanced performance monitoring functions. Each EC interface features DSX-level digital signal cross-connect frame outputs supporting distances up to feet meters depending on facility conditions. You must install the EC in an even-numbered slot to serve as a working card and in an odd-numbered slot to serve as a protect card.

You can provision protection on a per port basis. The card uses SC connectors. The card supports the same payloads and protection schemes as the four port OC3 card. The card uses LC connectors on the faceplate, angled downward The port operates at Each port operates at 2. The port operates at 2. The port operates at 9. The four-port card is not upgradable to a single-port card.

The reason is that four different spans, possibly going to four different nodes, cannot be merged to a single span. It is available in sixteen different versions, covering thirty-two different wavelengths in the nm range. You can provision this card in a linear configuration, BLSR, path protection, or a regenerator.

They are available in eight versions of the card, covering thirty-two different wavelengths in the nm range. The 2. The port can also operate at An OC-1 signal is the equivalent of one DS3 channel transmitted across optical fiber.

OC-1 is primarily used for trunk interfaces to phone switches in the United States. The card multiplexes four 2. It is available in eight different versions, covering thirty-two different wavelengths in the nm range. The faceplate designation of the card is "4x2.

Because the card is tunable to one of four adjacent grid channels on a GHz spacing, this card is available in eight versions covering thirty-two different wavelengths in the nm range. The mapping function is simply done by placing a digital wrapper around the client signal. The circuit types supported are:. The ports auto configure to operate at either half or full duplex and determine whether to enable or disable flow control. You can also configure Ethernet ports manually.

Each ET card supports standards-based, wire-speed, Layer 2 Ethernet switching between its Ethernet interfaces. The IEEE IEEE The ET ports use RJ interfaces. E 1. Do not use the E when the XC10G card is in use. Each port supports full-duplex operation. G 1. Use the G card with the XCG card. Each port supports full-duplex operation for a maximum bandwidth of OC on each card. Each port auto negotiates for full duplex and Each card supports standards-based, wire-speed, Layer 2 Ethernet switching between its Ethernet ports.

Priority queuing is also supported to provide multiple classes of service. Each port independently detects the speed of an attached device autosenses and automatically connects at the appropriate speed. The ports auto configure to operate at either half or full duplex and can determine whether to enable or disable flow control. Each VCAT group must be provisioned with two circuit members. Each interface supports full-duplex operation for a maximum bandwidth of 2 Gbps per port and 4 Gbps per card.

Each port auto configures for full duplex and IEEE Two queues are provided on card. Queue level is provisionable from 0 to 7. The FPGA running on the card upgrades to the required image. However, the FPGA image in the card's flash is not modified. An optical service channel OSC is a bidirectional channel connecting all the nodes in a ring.

The OSC uses the nm wavelength and does not affect client traffic. The primary purpose of this channel is to carry clock synchronization and orderwire channel communications for the DWDM network. It also provides transparent links between each node in the network. Note Note: The optical splitters each have a ratio of The 32MUX-O is typically used in hub nodes and provides the multiplexing of 32 channels, spaced at GHz, into one fiber before their amplification and transmission along the line.

In the case of electrical power failure, the VOA is set to its maximum attenuation for safety purposes. A manual VOA setting is also available. This port is supported by both a VOA for optical power regulation and a photodiode for optical power monitoring.

Each drop port has a photodiode for optical power monitoring. The 4MD-xx. There are eight versions of this card that correspond with the eight sub-bands specified in Table A "virtual photodiode" is a firmware calculation of the optical power at that port. This calculation is based on the single channel photodiode reading and insertion losses of the appropriated paths. There are thirty-two versions of this card, each designed only for use with one wavelength. Each wavelength version of the card has a different part number.

There are sixteen versions of this card, each designed for use with one pair of wavelengths. The card bidirectionally adds and drops in two different sections on the same card to manage signal flow in both directions.

Each version of the card has a different part number. The AD-2C-xx. In this table, channel IDs are given rather than wavelengths. There are eight versions of this card, each designed for use with one band of wavelengths.

There are eight versions of this card with eight part numbers. The AD-4C-xx. There are eight versions of this card with eight different part numbers, each version designed for use with one band of wavelengths. This card can be used when there is asymmetric adding and dropping on each side east or west of the node; a band can be added or dropped on one side but not on the other. There are two versions of this card with different part numbers, each version designed for use with one set of bands.

The AD-4B-xx. The 32WSS card has seven sets of ports located on the faceplate. The card takes up two slots and can operates in Slots , , , or in Slots , , or Each add channel is associated with an individual switch element that selects whether an individual channel is added.

Each add port has optical power regulation provided by a VOA. The ACO button opens the audible alarm closure on the backplane. ACO state is stopped if a new alarm occurs. When the fibers are properly connected, the light turns off. The LEDs shows green if the port is available to carry traffic, is provisioned as in-service, and is part of a protection group, in the active mode.

Use the LCD to quickly view the status of any port or card slot; the screen displays the number and severity of alarms for a given port or slot. MON is the output monitor port. COM Rx is the input signal port. COM Tx is the output signal port. MON Rx is the output monitor port receive section.

MON Tx is the output monitor port. LINE Tx is the output signal port. LINE Rx is the input signal port receive section. COM Tx is the output signal port receive section. COM Tx is the line output. MON is the optical monitoring port. The xx. The TX ports are 32 drop ports. The connectors provide four groups of eight channels ranging from xx.

COM Rx is the line input. The 15xx. When the LED is green it indicates that the Ethernet card is active and the software is operational. The LED is amber when the card is in the standby mode. For example, an unconfigured circuit, an error on line, or a non-enabled port may inhibit traffic flow. The LED flash rate reflects the traffic rate for the port. The protect card connects to the working card s through the backplane and becomes active when the working card fails. The protect card then uses the physical connection of the failed card.

Invisible laser radiation may be emitted from the end of the unterminated fiber cable or connector. Do not stare into the beam or view directly with optical instruments. Viewing the laser output with certain optical instruments for example, eye loupes, magnifiers, and microscopes within a distance of mm may pose an eye hazard. Use of controls or adjustments, or performance of procedures other than those specified may result in hazardous radiation exposure. The following tables list the software release and common card compatibility for each plug-in card.

Table cells with dashes — mean cards are not compatible with the listed software release or cross-connect card. See details. Located in:. This amount is subject to change until you make payment. For additional information, see the Global Shipping Program terms and conditions - opens in a new window or tab This amount includes applicable customs duties, taxes, brokerage and other fees. For additional information, see the Global Shipping Program terms and conditions - opens in a new window or tab.

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