Data Sheet | Motorola STARLINE MBN100 1 GHz Optical Node Datasheet

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The STARLINE MBN100 is a 1 GHz optical node that complements evolving fiber-deep networks by providing operators with an amplifier to node drop in conversion with flexibility and high performance. It can be deployed as a standalone compact-sized fiber deep node or to convert an existing Minibridger amplifier to an optical node. The MBN100 node is backward compatible with the 10-Amp MB*/* housing and can be used in a variety of configurations, including single and dual transmitter/receiver setups with or without a status monitor. The node also offers forward and return path redundancy, ingress control switching, and multiple diplex filter options.

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Motorola STARLINE MBN100 1 GHz Optical Node Datasheet | Manualzz

MBN100 1 GHz Optical Node

STARLINE ®

Series

The MBN100 complements evolving fi ber-deep networks by providing operators with an amplifi er to node drop in conversion with fl exibility and high performance.

Motorola’s 1 GHz STARLINE ® Mini-Bridger ® series optical node, model MBN100, leads the industry in features and performance and is designed to meet the needs of today’s expanding broadband communication networks. This optical node provides the perfect solution for system operators who need to deploy fiber deeper into their architecture with the flexibility to expand later. The MBN100 node can be deployed as a stand alone compact sized fiber deep node or to convert an existing Minibridger ® amplifier to an optical node. The base of the MBN100 node is the same as the MB100 amplifier and can allow operators to leave the hard line coax cable installed when segmenting at an amplifier location.

The MBN100 Optical Node allows operators to utilize existing

MB amplifier locations. Once converted the MBN100 allows operators to seamlessly set up output drive levels of the amplifier for minimal installation downtime. The MBN100 has a variety of optical return path transmitters with powers ranging from 400 μW

Isolated Fabry-Perot to 2.0 mW Course Wave Division Multiplexed transmitters. The MBN100 node allows for segmentation between the two output ports in the return path. Forward and Return redundancy is also available with or without a status monitor. The status monitor is DOCSIS compatible. There are no configuration boards; all changes and upgrading are configured through RF cable connections and jumper settings.

compatible with the 10-Amp MB*/* housing by installing the

MB-15A Kit or the MB-15A Kit II. These kits contain 50 mil gold plated platform assemblies. This makes it possible for the node to carry 15 Amperes continuous through the input or output ports.

All MBN100 optical nodes will fit into the existing MB amplifier installed base, but will require replacement of the entire lid.

minimum virtual output level at 1 GHz with a -3 dBm optical input received power with 4% OMI per channel. Replacing a MiniBridger amplifier with +44 dBmV at 550 MHz output level is easily achieved with the maintenance, the node is engineered for compatibility with standard accessories, such as attenuators, automotive fuses

The MBN100 uses modular diplex filters, which can be changed for a different frequency split as required. The node is available with S-split filters for a 5-40 MHz return and a 52-1003 MHz forward band. K-splits (5-42 MHz/54-

1003 MHz), J-splits (5-55 MHz/70-1003 MHz), A-splits (5-65

MHz/85-1003 MHz), and N-split (5-85 MHz/104-1003 MHz) are also available. These same filters are used for all US-style

Motorola RF distribution amplifiers (models BLE, MB, and

Benefits include:

• 1003 MHz Enhanced Gallium Arsenide power doubling technology

Two high level outputs

Split or Directional Coupler passive 3rd output

Segmented Return path

Forward and Return Path redundancy

Up to two optical receivers

Up to two optical transmitters

Multiple diplex filter options

N-split (5-85/104-1003 MHz) availability

DOCSIS transponder interface provided

Hot swap modules

STARLINE MBN100 1 GHz Optical Node

Return Path

Recommended input to the MBN100 node is the same as the MB100 amplifier at +28 dBmV. Five models of transmitters are available for the MBN100 Node:

1310 nm

1310 nm

1310 nm

1310 nm

1270 nm –

1610 nm

IFPT 400 μW Isolated Fabry-Perot Transmitter (-4 dBm)

EIFPT 1 mW Enhanced Isolated Fabry-Perot Transmitter (0 dBm)

DFBT 2 mW

DFBT3 2 mW

DFBT3 2 mW

Distributed Feedback Transmitter (0 dBm)

Distributed Feedback Transmitter (+3 dBm)

Course Wavelength Division Multiplexed (CWDM)

DFB Transmitter (+3 dBm)

Also available is Ingress Control Switching (ICS). This pin diode attenuator circuit can pass signal (ON), lower levels by 6 dB with a controlled slew rate for minimum bit errors, or turning the path completely OFF by dropping the levels greater than 38 dB. The

DOCSIS transponder is required to operate the Ingress Control

Switch from a remote location. The VPIM embedded accessory allows for operators to switch manually at the node location.

Lid Modules

The receivers and transmitters are unique to the Minibridger Node.

The power supply is the same power supply used in the SG4000 node platform. The DOCSIS transponder is also the same transponder that is used in the SG4000 Node platform. The VPIM module is unique to the Minibridger Node.

Model Availability

To reduce customer costs and to accommodate customer specific needs, the STARLINE MBN100 can be ordered in a variety of different models. Please refer to the MBN100 ordering information below for options.

STARLINE MBN100 1 GHz Optical Node

Typical Plant power supply current needed for a Minibridger Node

AC Input

@90 VAC

@75 VAC

@60 VAC

@53 VAC

@45 VAC

@38 VAC

1 x 1

Amps

0.956

1.063

1.182

1.274

1.398

1.546

1 x 2

Amps

1.047

1.185

1.341

1.444

1.571

1.767

Node Configuration

1R x 1R w/SM, VPIM

Amps

1.121

1.254

1.438

1.542

1.713

1.886

MBN100 Block Diagram

MBN100

DC 1 Splitter

Fuse

AC

Bus

Port Input

SFE

Forward Injection

Board

JXP

Jumper

Flatness and slope

BODE

Jumper

EQ

JX P

JX P

H

L

AC

Bus

Fuse

Jumper

Fuse

AC

Bus JXP

Thermal Pad

JXP JXP

ICS pick offs

ICS

JXP

ICS pick offs

ICS

JXP

H

L

DC/SP

AC

Bus

Fuse

1 dB

EPACK

Housing Lid

Optical input therm

JXP lme

Switch

TP rplpf JXP Optical

Output

Optical input therm

JXP lme

Switch

TX

TP

30 dB rplpf JXP Optical

Output

AC Bus

24 V

TX

30 dB

Status Monitor

SG 4 form factor

SG 4 Power Supply Voltage regulator for

5 vdc

24 to

VPIM

Note: The ICS pick offs can be used for return path segmentation. When buying a configured node with a single transmitter the

ICS pick offs are installed and both cables will go to that single transmitter. For easy upgrade to segmentation, you do not have to remove the cover in this configuration; you simply remove the second cable from the single transmitter and use that for your input to the second segmented transmitter. When you purchase a node without a transmitter, the SRE board is installed with easy access for installing a single or redundant pair of transmitters without having to remove the cover.

STARLINE MBN100 1 GHz Optical Node

558747-001-00

558748-001-00

558799-001-00

558800-001-00

558802-XXX-00

558803-001-00

558807-001-00

531186-XXX-00

558819-001-00

558820-001-00

558821-001-00

558822-001-00

559648-XXX-00

558809-001-00

558805-001-00

532244-001-00

928150-002-00

Ordering Information

Part Number

822000-001-00

822000-002-00

822000-003-00

822000-004-00

822000-005-00

822000-006-00

822000-007-00

822000-008-00

Model

MBN100/SS2/SXN/NNN

MBN100/SK2/SXN/NNN

MBN100/SN2/SXN/NNN

MBN100/SS2/SXN/CNN

MBN100/SK2/SXN/ENN

MBN100/SS2/SXN/ENN

MBN100/SA2/SXN/NNN

MBN100/SJ2/SXN/NNN

Description

Minibridger Node 1 GHz with 5-40 / 52-1003 MHz S-split, 2-output, Single Receiver, No

Transmitter, 14.5 dB internal slope, high gain return, 20A fuses, FTEC surge protector, full station – RoHS Compliant

Minibridger Node 1 GHz with 5-42 / 54-1003 MHz K-split, 2-output, Single Receiver, No

Transmitter, 14.5 dB internal slope, high gain return, 20A fuses, FTEC surge protector, full station – RoHS Compliant

Minibridger Node 1 GHz with 5-85 / 104-1003 MHz N-split, 2-output, Single Receiver, No

Transmitter, 14.5 dB internal slope, high gain return, 20A fuses, FTEC surge protector, full station – RoHS Compliant

Minibridger Node 1 GHz with 5-40 / 52-1003 MHz S-split, 2-output, Single Receiver, DFBT

1310 nm 1 mW Transmitter, 14.5 dB internal slope, high gain return, 20A fuses, FTEC surge protector, full station – RoHS Compliant

Minibridger Node 1 GHz with 5-42 / 54-1003 MHz K-split, 2-output, Single Receiver, DFBT3

1550 nm 2 mW Transmitter, 14.5 dB internal slope, high gain return, 20A fuses, FTEC surge protector, full station – RoHS Compliant

Minibridger Node 1 GHz with 5-40 / 52-1003 MHz S-split, 2-output, Single Receiver, DFBT3

1550 nm 2 mW Transmitter, 14.5 dB internal slope, high gain return, 20A fuses, FTEC surge protector, full station – RoHS Compliant

Minibridger Node 1 GHz with 5-65 / 85-1003 MHz A-split, 2-output, Single Receiver, No

Transmitter, 14.5 dB internal slope, high gain return, 20A fuses, FTEC surge protector, full station – RoHS Compliant

Minibridger Node 1 GHz with 5-55 / 70-1003 MHz J-split, 2-output, Single Receiver, No

Transmitter, 14.5 dB internal slope, high gain return, 20A fuses, FTEC surge protector, full station – RoHS Compliant

MBN-IFPT/SC-R

MBN-EIFPT/SC-R

MBN-DFBT/SC-R

MBN-DFBT3/SC-R

MBN-DFBT3-{XXXX}-

CWDM/SC-R-R

MBN-RX/SC-R

MBN-VPIM

MBN100 isolated fabry perot 0.4 mw (-4 dbm) 1310 nm transmitter, SC/APC,

RoHS compliant, finished good

MBN100 enhanced isolated fabry perot 1.0 mw (0 dbm) 1310 nm transmitter, SC/APC,

RoHS compliant, finished good

MBN100 distributed feedback 1.0 mw (0 dbm) 1310 nm transmitter, SC/APC,

RoHS compliant, finished good

MBN100 distributed feedback 2.0 mw (3 dbm) transmitter, SC/APC, RoHS compliant, finished good

MBN100 distributed feedback 2.0 MW (3 DBM) {Wavelength Value} nm transmitter,

SC/APC, RoHS compliant, finished good

MBN-R optical reciever, 1 GHz, SC/APC connectorization, RoHS compliant, finished good

Vertical embedded plug-in module for MBN100 node, provides redundant reciever and ICS operation. Includes SIC, finished good

Plug-in attenuator/pad (values 0 to 26 dB, in 1 dB steps) JXP-*B-R

MBN-ICS-RF-R

MBN-FEQ-INJ-R

MBN-BODE-JUMPER-R

MBN-ICS-RF-R, board, ICS Return Path RF output board (ICS Pick offs), finished good

MBN-FEQ-INJ-R, board, FEQ forward RF input board with test point, finished good

MBN-BODE-JUMPER-R, board, bode bypass board, finished good

MBN-HYBRID-JUMPER-R MBN-HYBRID-JUMPER-R, board, hybrid bypass board, finished good

MBN-LME-100-(X)-R MBN-LME-100-(X)-R, equalizer, MBN-equalizer,1 GHz, linear mid-stage equalizer, (x)dB,

RoHS compliant, finished good

MBN-HSG-LID

MBN-PIC

MBN-HSG-LID,MBN100 spare lid assembly, with router board and fiber tray, finished good

MBN-PIC, cable, power interface cable for MBN100 node, finished good

SG4-PS-R

Service cable

SG4-PS-R, power supply, finished good

Fiber Service Cable, SC/APC, 42’ breakout, finished good

STARLINE MBN100 1 GHz Optical Node

Specifications

OPTICAL RECEIVER

Optical Wavelength

Optical Input Power Range

Optical Connector Type

Optical Input Return Loss

RF

Operational Bandwidth

Flatness

Outpute Slope

RF Output Test Points

RF Output Impedence

RF Output Return Loss

1290 – 1600 nm

–3.0 to +2.0 dBm continuous

SC/APC

45 dB minimum

F min

to 1003 MHz

±0.75 dB F min

to 1003 MHz

8, 10, 12, 14.5, 16, and 18

are

Level Stability ±1.5 dB over operating

temperature

–20±1.0 dB (internal)

75 Ω

16 dB minimum

STATION PERFORMANCE

Output Level

–3

Power Consumption

Hum Modulation @ 15 A

Return Path Isolation

AC Bypass Current

55 dBmV @ 1003 MHz with

70 W maximum

(–55 dBc, 5 to 10 MHz)

(–60 dBc, 11 MHz to F maxret

)

(–65 to 870 MHz)

(–60 dBc, 871 to 1003 MHz)

60 dB, port-to-port

15 A with digital loading 6 dB below analog, 550 to 1003 MHz, 20 km optical link, 0 dBm optical input power, GX2 transmitter

Composite Triple Beat (CTB) –68 dBc

Composite Second Order

–64

Carrier to Composite Noise

(CCN) dBc dB

Measured with 79 channels NTSC at 48 dBmV @ 547.25 MHz

MECHANICAL/ENVIRONMENTAL

Dimensions

Weight

15.4 in L x 9.6 in W x 8.5 in D

(39.1 cm x 24.4 CM x 21.6 CM)

Mounting

22 lbs (9.97 kg)

Aerial

International Protection Rating IP68

RF Connector Types

accepts

SCTE-compliant housing,

Operating Temperature Range –40 °F to 140 °F

(–40 °C to 60 °C)

SYSTEM POWER CONSUMPTION

1 x 1

1 x 2

52 Watts typical

(from

58 Watts typical

(from

90

38

63 Watts typical 1R x 1R

(from VAC

STARLINE MBN100 1 GHz Optical Node

www.motorola.com/broadband

MOTOROLA, the Stylized M Logo, STARLINE, and Mini-Bridger are registered in the US Patent & Trademark Office. All other product or service names are the property of their respective owners. © Motorola, Inc. 2009. All rights reserved.

553774-001-a 04/09

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Key Features

  • Backward compatibility with MB*/* housing
  • Forward and Return Path redundancy
  • Ingress Control Switching
  • Multiple diplex filter options
  • Up to two optical receivers
  • Up to two optical transmitters
  • DOCSIS transponder interface

Frequently Answers and Questions

What are the benefits of using the MBN100 optical node?
The MBN100 optical node offers several benefits, including high gain levels, two high-level outputs, a segmented return path, and multiple diplex filter options. It can also be used to convert existing Minibridger amplifiers to optical nodes, providing flexibility and cost savings.
What is the recommended input power to the MBN100 node?
The recommended input power to the MBN100 node is +28 dBmV, which is the same as the MB100 amplifier.
What are the different types of transmitters available for the MBN100 node?
There are five different types of transmitters available for the MBN100 node: the Isolated Fabry-Perot Transmitter (IFPT), the Enhanced Isolated Fabry-Perot Transmitter (EIFPT), the Distributed Feedback Transmitter (DFBT), the Distributed Feedback Transmitter (DFBT3), and the Course Wavelength Division Multiplexed (CWDM) DFB Transmitter.
What is Ingress Control Switching (ICS) and how does it work?
Ingress Control Switching (ICS) is a pin diode attenuator circuit that can pass signal (ON), lower levels by 6 dB with a controlled slew rate for minimum bit errors, or turn the path completely OFF by dropping the levels greater than 38 dB. The DOCSIS transponder is required to operate the ICS from a remote location. The VPIM embedded accessory allows for operators to switch manually at the node location.

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