Optroelectronics Prisma II Product Data Sheets. Insert Product Line Name Here

Optroelectronics Prisma II Product Data Sheets Insert Product Line Name Here A 541293 Rev. 99.03 08 May 2001 Scientific-Atlanta Arcodan A/S European print edition

Optoelectronics Table of Contents Prisma II Platform 739199 Rev B... Page 1 Includes Prisma II Chassis, Power Supply System, ICIM, and Module Blanks Prisma II Chassis, 739199 Rev B...Page 3 Prisma II Power Supply System, 739199 Rev B...Page 7 Prisma II Intelligent Communications Interface Module (ICIM), 729199 Rev B...Page 10 Prisma II Module Blank, 739199 Rev B...Page 12 Prisma II 1310 nm Transmitters 739200 Rev B... Page 13 Prisma II 1550 nm Transmitters 739201 Rev B... Page 21 Prisma II 1550 nm Amplifiers 739202 Rev B... Page 28 Prisma II Receivers 739203 Rev A... Page 36 Prisma II Ancillary Modules 739205 Rev B... Page 40 Includes Prisma II Headend Driver Amplifiers and Switch Prisma II Headend Driver Amplifiers...Page 42 Prisma II 1310/1550 nm Switch...Page 45 Kindly observe that the following products are not sold in Europe because of lack of compliance with CE requirements. Page 5 Chassis with Power Inlet, type Standard or S Page 6 Chassis with Power Inlet Kit, standard, model 741422 Page 9 Power Supply System, type Standard or S The following 1550 nm optical amplifiers are not sold in Europe because they do not comply with European safety regulations. These regulations do not allow optical output levels on an output port higher than +17 dbm. Page 33 Amplifier Module 1 port, 20 dbm Page 33 Output System 1 port, 24 dbm Page 33 Output System 2 ports, 2 x 21 dbm Page 34 Post-Amplifier Module 1 port, 24 dbm Page 34 Post-Amplifier Module 2 ports, 2 x 21 dbm Denmark Germany Poland Spain United Kingdom Scientific-Atlanta Scientific-Atlanta Scientific-Atlanta Scientific-Atlanta Scientific-Atlanta Arcodan A/S Central Europe GmbH Eastern Europe Sp. z o.o. Iberia, S.L. Western Europe Ltd. Augustenborg Landevej 7 Westerbach 28 ul. Krupnicza 6/8 Gardenal Marcelo Espínola,8 F-1 Home Park Estate, Kings Langley DK-6400 Sønderborg D-61476 Kronberg PL-50-075 Wroclaw E-28016 Madrid Herts WD4 8LZ, UK Tel. +45 73 12 21 50 Tel. +49 6173 928-0 Tel. +48 71 341 75 62 Tel. +34 91 383 49 20 Tel. +44 1923 266 133 Fax +45 74 42 39 07 Fax +49 6173 928-150 Fax +48 71 343 96 31 Fax +34 91 383 49 21 Fax +44 1923 269 018 mailbox.north.eur@sciatl.dk mailbox.central.eur@sciatl.dk mailbox.east.eur@sciatl.com mailbox.iberia.eur@sciatl.com mailbox.west.eur@sciatl.com

Optoelectronics Prisma II Platform Description In optical transmission systems, the network platform forms the foundation of the product family. The Prisma II platform provides network operators with the unique features that enable the deployment of a carrier class -type network. Advanced features such as high usable module density, broad operating temperature range for field deployment without environmental controls, and a unique design optimized for easy module insertion, setup, and administration make the Prisma II platform the key to increased network reliability, scalability, and more cost-effective deployments. Front-Access Chassis 23169 Features High usable module density (up to 13 modules per chassis) Operating temperature range suitable for outdoor field deployment Solid metal construction Low power consumption Superior heat dissipation and air circulation Front access and rear access chassis available Technician-friendly design with easy module insertion and removal, setup, and administration High-speed passive backplane to support migration to digital transmission technologies such as Scientific-Atlanta s bdr Digital Reverse System Excellent fiber, powering, and RF cable management Advanced SNMP-oriented network monitoring and control over multiple network interfaces Multiple connector and powering options User-friendly alarm setup Master / Slave Redundant switching between modules Rear-Access Chassis Power Supply System 23142 23141 Platform Components The Prisma II platform consists of the following modules/components: Chassis (front and rear access) Power Supply System Intelligent Communications Interface Module (ICIM) Module Blanks ICIM 23201 Page 1

Prisma II Platform Prisma II Chassis Configuration Ground Jack POWER ON LED ALARM LED Chassis I.D. Switch LCI Port ALARM ON 5 9 CHASSIS ID LOCAL CRAFT INTERFACE Prisma II AC Power Supply Alarm AC Power Supply Alarm EDFA Fail EDFA Fail EDFA Fail DRR Fail DRR Fail DRR Fail OTM Fail OTM Fail OTM Fail OTM Fail Intelligent Communicaitons Interface Module On On ACT ACT ACT ACT ACT ACT ACT ACT ACT ACT 1 2 3 STAT CFG 4 5 6 ICIM SEL 7 8 9 SHIFT Entr 0 Can ENTR MAIN ALRM Ethernet Power Supplies Application Modules Fiber Guides ICIM T8702 Slots 1 through 16, left to right Slots 1 and 3 are dedicated to power supplies. Slots 2 and 4 can accommodate any single width Application Module (i.e., Amplifier, Transmitter, Receiver, etc.). Slots 5 through 16 can accommodate any Application Module. Intelligent Communications Interface Module (ICIM), if used, must be installed in Slots 15/16. (Note: An ICIM is not required in every chassis.) Blanks required in all unused slots of chassis to maintain proper cooling for all other modules. Prisma II products include the industry s most complete range of high performance optical components: For more information please refer to: 1310 nm Transmitters Prisma II Data Sheet Part Number 739200 1550 nm Transmitters Prisma II Data Sheet Part Number 739201 1550 nm Amplifiers Prisma II Data Sheet Part Number 739202 Receivers Prisma II Data Sheet Part Number 739203 Ancillary Modules Prisma II Data Sheet Part Number 739205 bdr Digital Reverse 2:1 Multiplexing System Prisma II Data Sheet Part Number 744484 Scientific Atlanta, the Scientific-Atlanta logo, and Prisma are registered trademarks of Scientific-Atlanta, Inc. bdr is a trademark of Scientific-Atlanta, Inc. Specifications and product availability are subject to change without notice. 2001 Scientific-Atlanta, Inc. All rights reserved. Scientific-Atlanta, Inc. 1-800-722-2009 or 770-903-6900 www.sciatl.com Part Number 739199 Rev B March 2001 Page 2

Optoelectronics Prisma II Chassis Features Rear access; 10.5 (6 RU) high, 13.5 deep Front access; 14.0 (8 RU) high, 11.25 deep 19-inch width with mounts available to fit 23-inch rack Chassis accommodates 16 single-width modules Blind mate (push-on) connectors for RF, power, and data provide complete front access for simplified installation and maintenance Advanced fiber handling system accommodates front or rear fiber routing Intelligent Communications Interface Module (ICIM) for element management Front panel Local Craft Interface (LCI) port for local module configuration Designed for dual, redundant powering via AC or DC power supplies Chassis cooling fans for enhanced air circulation and heat dissipation Extended operating temperature range (-40 C to +65 C) Option for F or BNC connectors Front-Access Chassis 23169 Rear-Access Chassis 23141 Page 3

Prisma II Chassis EM In EM Out DB-9 ICIM In ICIM Out DB-9 Clock Input "F" Alarm Out (DB-37) Alarm In (DB-37) RF RF RF RF Data Interface Primary Power Supply Power Input Secondary Power Supply Module 1 Module 2 Module 3 Module N Local Craft Interface (LCI) ICIM Ethernet Port Specifications Electrical Units Notes Connections Transmission Networks Control System (TNCS) with ICIM Two DB-9 or one RJ-45 Local Alarm Two DB-37 male (rear) Auxiliary Power Input One DB-50 female (rear) Ground Stud (Rear) 10-32 thread (rear) Power Consumption with fan tray W DC 48 Bandwidth MHz 5-1000 Environmental Units Notes Temperature Range 1,2 Full Specs and Operational C F -40 to +65-40 to +149 Humidity Range % 0 to 95 3 Mechanical Units Notes Rear Access Front Access Physical Dimensions Depth in. cm 13.5 34.3 11.25 28.6 Width in. cm 17.5 44.4 17.5 44.4 Height in. cm 10.50 26.7 14.0 35.6 Weight lb kg 19.0 8.6 20.0 9.1 Rack Units RU 6 8 Notes: 1. Air temperature measured at the air inlet of the Prisma II chassis. 2. All unused slots in the Prisma II chassis need to be filled with a Module Blank. 3. Recommended for use only in non-condensing environments. Page 4

Prisma II Chassis Ordering Information Sample P 2 C H R F 2 8 R D D S P 2 C H Platform Power Inlet Type Chassis Product CH Fan Exhaust Rear Exhaust Front Exhaust R F Standard CE (Class II) Power Inlets S E Access Type Rear Access Front Access R F 90 to 265 V AC -48 V DC AA DD Connector Type F Connector BNC Connector F B Quantity of Connectors 28 Connectors 56 Connectors 28 56 Ordering Information Notes Item Options Notes Access Type Rear Access Standard configuration. This selection provides the 6 RU chassis with all connectors on the rear. Front Access configuration. This selection provides the 8 RU chassis with all connectors on the front. Consider this option for back-to-back or Remote Terminal (RT) installations. Connector Type F Connector Standard configuration. BNC Connector configuration. Quantity of 28 Connectors Standard. This selection provides 2 coaxial connectors per Connectors single slot. 56 Connectors. This selection provides 4 coaxial connectors per single slot. Select this option if 4:1 bdr Digital Reverse Fan Exhaust Rear Exhaust Front Exhaust Power Inlets 90 265 V AC -48 V DC Power Inlet Type Standard System products will be installed in the chassis. Standard configuration. configuration. Available for back-to-back chassis installations. Universal 90 to 265 V AC powering. 48 V DC powering. Select standard for all 48 V DC installations. Standard selection with AC powering provides a 3-prong, Class I AC receptacle suitable for all non-ce requirements. CE (Class II) CE selection with AC powering provides a 2-prong, Class II AC receptacle suitable for all CE requirements. DO NOT select CE for 48V DC powering. Page 5

Prisma II Chassis Ordering Information (cont d) Spare Equipment and Tools Part Number Module Blank (pk. 6) 716307 Power Supply Blank (pk. 6) 716308 Serial Extension Cable, DB-9 Male to DB-9 Female, 6 ft (1 ea) 180143 TNCS, Cable Kit, Prisma II (1 kit) 738686 Tool, RF Connector Removal, Backplane / Module (1 ea) 741425 Tool, F Connector (security shield) (1 ea) 744313 Test Point Adapter, Long Reach (1 ea) 562580 Fan Tray, Rear Exhaust (1 ea) 741419 Fan Tray, Front Exhaust (1 ea) 741420 Fans Only (5 ea) 741421 Power Inlet, Front Access, AC, Standard (1 ea) 744432 Power Inlet, Front Access, DC, Standard (1 ea) 744430 Power Inlet, Front Access, AC, CE (1 ea) 744431 Power Inlet, Rear Access, AC, Standard (1 ea) 741422 Power Inlet, Rear Access, DC, Standard (1 ea) 741424 Power Inlet, Rear Access, AC, CE (1 ea) 741423 Power Connector, -48 VDC (12 ea) 741982 RF Connectors, F, Front or Rear Access, (28 ea) 741429 RF Connectors, BNC, Front or Rear Access, (28 ea) 741428 Mounting Ears, Black (3 pair) 741602 Mounting Ears, Green (3 pair) 741603 Fiber Storage, Rack Mount, 1 RU 739138 Scientific Atlanta, the Scientific-Atlanta logo, and Prisma are registered trademarks of Scientific-Atlanta, Inc. bdr is a trademark of Scientific-Atlanta, Inc. Specifications and product availability are subject to change without notice. 2001 Scientific-Atlanta, Inc. All rights reserved. Scientific-Atlanta, Inc. 1-800-722-2009 or 770-903-6900 www.sciatl.com Part Number 739199 Rev B March 2001 Page 6

Optoelectronics Prisma II Power Supply System Features Universal AC (90-265 V AC) and 48 V DC power options Designed to be used in fully-redundant configuration Uninterruptable transfer to single supply in the event that one power supply module fails Modular, front access design and hot-swap capability allow for quick and easy replacement in the event of failure Universal AC voltage input (automatically adjusts to voltage input, for AC supply only) Power factor correction 23142 Power Input T8914 Input Connector EMI Filter Fuse Inrush Current Limiter Rev Input Polarity Prot (DC) Pwr Factor Correction (AC) Isolated DC/DC Converters Output Connector +5VDC -5VDC +24VDC Page 7

Prisma II Power Supply System Specifications Electrical Units AC -48 V DC Notes Voltage Requirements V 90 to 265, 50/60 Hz -40 to 75 1 Power Consumption A 4.7 full load 9.8 full load Output Voltage/Current V DC/A V DC/A V DC/A +24/10.0 +5/40.0-5/3.0 +24/10.0 +5/40.0-5/3.0 Efficiency (maximum) % 68 68 Line Regulation % 0.5 0.5 Load Regulation % ± 1.5 ± 1.5 Power Stability % ± 0.5 over temperature range ± 0.5 over temperature range Redundancy Switch Time ms 0 0 Environmental Units AC -48 V DC Notes Temperature Range 2 Full Specs and Operational C F -40 to +65-40 to +149-40 to +65-40 to +149 Humidity Range % 0 to 95 0 to 95 3 Mechanical Units Notes Physical Dimensions Depth in. cm 9.2 23.4 Width in. cm 2.1 5.3 Height in. cm 6.4 16.3 Weight lb kg 6.0 2.7 Module Width slots 2 Notes: 1. One module, includes 6 ft. (1.8 m) AC power cord with AC unit. 2. Air temperature measured at the air inlet of the Prisma II chassis. 3. Recommended for use only in non-condensing environments. Page 8

Prisma II Power Supply System Ordering Information Sample P 2 P S M A S P 2 P S Platform Regulatory Product Standard CE (Class II) S E Power Supply PS Powering Type Modular M 90-265 V AC -48 V DC A D Ordering Information Notes Item Options Notes Powering 90 265 V AC Universal 90 to 265 V AC powering. -48 V DC 48 V DC powering. Regulatory Standard Standard selection provides a power supply suitable for all non-ce requirements. This selection applies to AC and DC power supplies. CE (Class II) CE selection provides a power supply suitable for all CE requirements. This selection applies to AC and DC power supplies. Scientific Atlanta, the Scientific-Atlanta logo, and Prisma are registered trademarks of Scientific-Atlanta, Inc. Specifications and product availability are subject to change without notice. 2001 Scientific-Atlanta, Inc. All rights reserved. Scientific-Atlanta, Inc. 1-800-722-2009 or 770-903-6900 www.sciatl.com Part Number 739199 Rev B March 2001 Page 9

Optoelectronics Prisma II Intelligent Communications Interface Module (ICIM) Features Functions as the interface between the Prisma II modules and the Transmission Networks Control Systems (TNCS) communications bus Provides early warning of systems faults Blind-mate (push-on) connectors for power and data provide complete front access for simplified installation and maintenance Allows local module configuration and status monitoring for up to 82 modules located in multiple chassis Ethernet interface LCD display and keypad TNCS Interface - Remote control and monitoring of individual modules Integrated Communications Interface Module (ICIM) 23201 Prisma II Chassis Backplane Microprocessor Monitoring bus Configuration bus BACKPLANE CONNECTOR DB9 DB9 DB9 Element Manager Interface RS-485 ICIM to Module Interface RS-485 Local Craft Interface RS-232 Hardware Interface Hardware Interface Hardware Interface Hardware Interface RJ-45 Ethernet ICIM Module KEY PAD LCD DISPLAY Page 10

Prisma II Intelligent Communications Interface Module (ICIM) Specifications Electrical Units Notes Connections RJ-45 (Ethernet) Power Consumption Nominal Operation Heater ON Operation W DC W DC 0.3 13.0 Polling Speed Kb 38.4 Environmental Units Notes Temperature Range 1 Full Specs and Operational C F -40 to +65-40 to +149 Humidity Range % 0 to 95 2 Mechanical Units Notes Physical Dimensions Depth in. cm 9.8 24.9 Width in. cm 2.1 5.3 Height in. cm 7.6 19.3 Weight lb kg 2.0 0.9 Module Width slot 2 Note: 1. Air temperature measured at the air inlet of the Prisma II chassis. 2. Recommended for use only in non-condensing environments. Ordering Information Sample P 2 I C I M P 2 I C I M Platform ICIM Product I C I M Scientific Atlanta, the Scientific-Atlanta logo, and Prisma are registered trademarks of Scientific-Atlanta, Inc. Specifications and product availability are subject to change without notice. 2001 Scientific-Atlanta, Inc. All rights reserved. Scientific-Atlanta, Inc. 1-800-722-2009 or 770-903-6900 www.sciatl.com Part Number 739199 Rev B March 2001 Page 11

Optoelectronics Prisma II Module Blanks Description The Prisma II platform is a high-density platform designed for a broad operating temperature range. This feature allows for field deployment without facility environment controls. The thermal integrity of the platform and air circulation around the modules are critical. All unused module slots in a Prisma II chassis must be filled with a Module Blank. Features One module slot wide Two types of blanks available -- Power supply blank (slots 1 and 3) -- Standard blank for all other slots Blanks required in all unused slots of chassis to maintain proper cooling for all other modules Note: Slots 1 and 3 of the Prisma II chassis are dedicated to power supplies. These two slots require the Power Supply Blank. All other slots use the Module Blank. Module Blank 23198 Ordering Information Part Number Module Blank (pk. 6) 716307 Power Supply Blank (pk. 6) 716308 Scientific Atlanta, the Scientific-Atlanta logo, and Prisma are registered trademarks of Scientific-Atlanta, Inc. Specifications and product availability are subject to change without notice. 2001 Scientific-Atlanta, Inc. All rights reserved. Scientific-Atlanta, Inc. 1-800-722-2009 or 770-903-6900 www.sciatl.com Part Number 739199 Rev B March 2001 Page 12

Optoelectronics Prisma II 1310 nm Transmitters Description The Prisma II optical network is an advanced transmission system designed to optimize network architectures and increase reliability, scalability, and cost effectiveness. The 1310 nm Transmitters are designed to operate over a wide range of optical output powers and loss budgets, delivering both analog and digital signals. Microprocessor control allows ease of installation and flexibility of application. The transmitter design includes an array of contemporary capabilities including: low RF input level, broadcast and new media RF inputs, and three levels (Standard, XL and XLS) of performance. Features Forward and reverse transmitters available in various channel plans Applicable to loss budgets of 2 db to 16 db Variable modulation depth (RF drive level) and precise optical power levels enables superior link optimization and lower spare requirements 1310 nm Forward Transmitter Advanced pre-distortion circuitry improves cost-to-performance ratio RF Overdrive Protection to protect the laser Nonvolatile storage of pre-set operating parameters simplifies installation procedures Simple plug-and-play operation Dual RF inputs for broadcast video and new media service tiers Blind-mate (push-on) RF and DC connectors connector is removable to enable quick cleaning RF input test point Multiple set-up and control options - Local control via Local Craft Interface (LCI) - Local control via Intelligent Communications Interface Module (ICIM) - Remote monitoring via Transmission Networks Control System (TNCS) Master / Slave Redundancy Transmitter Modules The Prisma II 1310 nm Transmitter Family includes: 870 MHz Forward Transmitter 200 MHz Reverse Transmitter Page 13

Prisma II 1310 nm Transmitters 1310 nm Forward Transmitter Front Panel Test Point -20 db RF Input -10 db Hybrid Amplifier -10 db Hybrid Amplifier Voltage Controlled Attenuator Hybrid Amplifier Equalizer New Media Input RF Detector Resistive Match Cooled DFB Laser DC Control Line Output Rear Facet Mon. Detec Voltage APC Circuit Laser Bias Laser Power Microprocessor T8943 1310 nm Reverse Transmitter RF Input -10 db Hybrid Amplifier Voltage Controlled Attenuator Hybrid Amplifier Equalizer RF Detector Resistive Match Front Panel Test Point -20 db Cooled DFB Laser DC Control Line Output Rear Facet Mon. Detec Voltage APC Circuit Laser Bias Laser Power Microprocessor T8916 Page 14

Prisma II 1310 nm Transmitters Specifications Units Forward Tx Reverse Tx Notes Nominal Output Wavelength nm 1310 ± 20 1310 ± 20 Interface SC/APC SC/UPC FC/UPC E2000/APC Minimum Modulation Index (OMI) Output Power %/ch dbm dbm dbm dbm dbm dbm Standard 3.8 Low Ch; 3.2 High Ch 4 6 8 10 12 13 Standard 10 1,2,3,4, 5,6,7 6 Electrical Units Forward Tx Reverse Tx Notes Bandwidth MHz 46-870 5-200 Frequency Response db ± 0.60 ± 1 Input Return Loss db <16.0 Video 16.0 New Media (46-870 MHz) Port-to-Port Isolation (Video to New Media Inputs) Required per channel Video RF Input Level (13 dbm transmitters add 1.0 db to the RF Input Levels below.) < 16.0 across the band db > 50 N/A NTSC 78 Analog ch dbmv 14 NTSC 110 Analog ch dbmv 12 PAL B/G 64 Analog ch dbmv 15 NTSC 4 T Channels dbmv N/A 20 9 New Media RF Input Level db +31 (above video RF input level) Power Consumption (maximum) W DC 15 15 Front Panel Test Point Relative to Input db db Video Input -20 ± 1.0 @ 46 870 MHz New Media Input -51 ± 1.0 @ 46 870 MHz RF Input Port -20 ± 1.0 Environmental Units Forward Tx Reverse Tx Notes Operating Temperature Range Full Specs Operational C F C F -20 to +65-4 to +149-40 to +65-40 to +149-20 to +65-4 to +149-40 to +65-40 to +149 Humidity Range % 0 to 95 0 to 95 11 Mechanical (All Modules) Units Notes Depth in. 9.8 cm 24.9 Width in. 1.0 cm 2.5 Height in. 7.6 cm 19.3 Weight lb 3.0 kg 1.4 Module Width slots 1 1,8 Page 15

Prisma II 1310 nm Transmitters Performance Specifications 1310 nm Forward Transmitter - Low Channel Load Performance (NTSC 78, PAL I HRC 62, PAL B/G 64, PAL D/K 58, CENELEC 42) Carrier to Noise Output Power Link Loss All Fiber Fiber + 3.5 db Passive Loss Fiber + 7 db Passive Loss dbm Std XL XLS Std XL XLS Std XL XLS Notes 4 2 CNR 53 55 57 --- --- --- --- --- --- 1,2,3, 3 52 54 56 --- --- --- --- --- --- 4,5,6 4 51 53 55 52 54 56 --- --- --- 5 50 52 54 51 53 55 --- --- --- 6 49 51 53 50 52 54 --- --- --- 7 48 50 52 49 51 53 50 52 54 dbm Std XL XLS Std XL XLS Std XL XLS 6 4 CNR 53 55 57 54 56 58 --- --- --- 1,2,3, 5 52 54 56 53 55 57 --- --- --- 4,5,6 6 51 53 55 52 54 56 --- --- --- 7 50 52 54 51 53 55 52 54 56 8 49 51 53 50 52 54 51 53 55 9 48 50 52 49 51 53 50 52 54 dbm Std XL XLS Std XL XLS Std XL XLS 8 6 CNR 53 55 57 54 56 58 --- --- --- 1,2,3, 7 52 54 56 53 55 57 54 56 58 4,5,6 8 51 53 55 52 54 56 53 55 57 9 50 52 54 51 53 55 52 54 56 10 49 51 53 50 52 54 51 53 55 11 48 50 52 49 51 53 50 52 54 dbm Std XL XLS Std XL XLS Std XL XLS 10 8 CNR 53 55 56 54 56 57 55 57 58 1,2,3, 9 52 54 55 53 55 56 54 56 57 4,5,6 10 51 53 54 52 54 55 53 55 56 11 50 52 53 51 53 54 52 54 55 12 49 51 52 50 52 53 51 53 54 13 48 50 51 49 51 52 50 52 53 dbm Std XL XLS Std XL XLS Std XL XLS 12 10 CNR 53 55 56 54 56 57 55 57 58 1,2,3, 11 52 54 55 53 55 56 54 56 57 4,5,6 12 51 53 54 52 54 55 53 55 56 13 50 52 53 51 53 54 52 54 55 14 49 51 52 50 52 53 51 53 54 15 48 50 51 49 51 52 50 52 53 Output Power Link Loss All Fiber Fiber + 4.5 db Passive Loss Fiber + 9 db Passive Loss dbm Std XL XLS Std XL XLS Std XL XLS Notes 13 11 CNR 52 54 55 53 55 56 54 56 57 1,2,3, 12 51 53 54 52 54 55 53 55 56 4,5,6 13 50 52 53 51 53 54 52 54 55 14 49 51 52 50 52 53 51 53 54 15 48 50 51 49 51 52 50 52 53 16 47 49 50 48 50 51 49 51 52 Page 16

Prisma II 1310 nm Transmitters Performance Specifications (cont d) Distortion Performance for all Output Powers Std XL XLS Std XL XLS Std XL XLS CTB 69 69 69 69 69 69 69 69 69 CSO 64 64 64 64 64 64 64 64 64 XMOD 65 65 65 65 65 65 65 65 65 CB 61 61 61 61 61 61 61 61 61 7 1310 nm Forward Transmitter - High Channel Load Performance (NTSC 110, PAL I HRC 81, PAL B/G 89, PAL D/K 83) Carrier to Noise Output Power Link Loss All Fiber Fiber + 3.5 db Passive Loss Fiber + 7 db Passive Loss Notes dbm Std XL XLS Std XL XLS Std XL XLS 4 2 CNR 51 53 55 --- --- --- --- --- --- 1,2,3, 3 50 52 54 --- --- --- --- --- --- 4,5,6 4 49 51 53 50 52 54 --- --- --- 5 48 50 52 49 51 53 --- --- --- 6 47 49 51 48 50 52 --- --- --- 7 46 48 50 47 49 51 48 50 52 dbm Std XL XLS Std XL XLS Std XL XLS 6 4 CNR 51 53 55 52 54 56 --- --- --- 1,2,3, 5 50 52 54 51 53 55 --- --- --- 4,5,6 6 49 51 53 50 52 54 --- --- --- 7 48 50 52 49 51 53 50 52 54 8 47 49 51 48 50 52 49 51 53 9 46 48 50 47 49 51 48 50 52 dbm Std XL XLS Std XL XLS Std XL XLS 8 6 CNR 51 53 55 52 54 56 --- --- --- 1,2,3, 7 50 52 54 51 53 55 52 54 56 4,5,6 8 49 51 53 50 52 54 51 53 55 9 48 50 52 49 51 53 50 52 54 10 47 49 51 48 50 52 49 51 53 11 46 48 50 47 49 51 48 50 52 dbm Std XL XLS Std XL XLS Std XL XLS 10 8 CNR 51 53 54 52 54 55 53 55 56 1,2,3, 9 50 52 53 51 53 54 52 54 55 4,5,6 10 49 51 52 50 52 53 51 53 54 11 48 50 51 49 51 52 50 52 53 12 47 49 50 48 50 51 49 51 52 13 46 48 49 47 49 50 48 50 51 dbm Std XL XLS Std XL XLS Std XL XLS 12 10 CNR 51 53 54 52 54 55 53 55 56 1,2,3, 11 50 52 53 51 53 54 52 54 55 4,5,6 12 49 51 52 50 52 53 51 53 54 13 48 50 51 49 51 52 50 52 53 14 47 49 50 48 50 51 49 51 52 15 46 48 49 47 49 50 48 50 51 Page 17

Prisma II 1310 nm Transmitters Performance Specifications (cont d) Output Power Link Loss All Fiber Fiber + 4.5 db Passive Loss Fiber + 9 db Passive Loss Notes dbm Std XL XLS Std XL XLS Std XL XLS 13 11 CNR 50 52 53 51 53 54 52 54 55 1,2,3, 12 49 51 52 50 52 53 51 53 54 4,5,6 13 48 50 51 49 51 52 50 52 53 14 47 49 50 48 50 51 49 51 52 15 46 48 49 47 49 50 48 50 51 16 45 47 48 46 48 49 47 49 50 Distortion Performance for all Output Powers Std XL XLS Std XL XLS Std XL XLS CTB 69 69 69 69 69 69 69 69 69 CSO 64 64 64 64 64 64 64 64 64 XMOD 65 65 65 65 65 65 65 65 65 CB 61 61 61 61 61 61 61 61 61 7 Reverse Transmitter Output Power Loss Budget db CNR CTB CSO Notes 6 dbm (4 mw) 16 (Note 12) 48 (Note 13) 62 55 Notes: 1. Loading refers to the total modulated channel loading, video and new media inputs combined. Power levels are per channel peak envelope power. 2. At specified RF input level. Specifications are for unmodulated (CW) carriers. 3. New media input requires an RF input level 31 db greater than the RF input to the broadcast video input. 4. Low Channel Loading is NTSC 78, Pal I HRC 62, PAL B/G 64, PAL D/K 58, CENELEC 42 Analog Channels. 5. High Channel Loading is NTSC 110, PAL I HRC 81, PAL B/G 89, PAL D/K 83 Analog Channels. 6. With 4 NTSC channels T8 T11 (13, 18, 25, 31 MHz) at 20 dbmv/channel. 7. At nominal RF input level. 8. Activation of digital loading may impact analog performance. Testing of digital loading with 550 MHz of analog video channels and 33, 64 QAM channels (-6 db from video) to 750 MHz indicates a typical CNR degradation of less than 0.5 db. 9. T8 T11 (13, 18, 25, 31 MHz) 10. In order to minimize performance impact, analog carriers should be placed above 650 MHz. 11. Recommended for use only in non-condensing environments. 12. Loss budget consists of 10 db of single mode fiber optic cable (glass loss) and 6 db of nondispersive passive loss. 13. C/N is measured with all 4 carriers on. There will be approximately 2 db degradation in C/N when measurement is made with a single carrier. Unless otherwise noted, specifications are guaranteed minimum performance and are based on measurements made in accordance with NCTA Practices for Measurements made on Cable Television Systems using standard frequency assignments and are referenced to the ambient air temperature at the inlet to the Prisma II chassis. Page 18

Prisma II 1310 nm Transmitters Ordering Information Forward Transmitter Sample P 2 1 3 T X F 1 2 S T N T 1 1 0 S A P 2 1 3 T X F Platform Product Reverse Transmitter 1310 Forward Tx 13TXF Output Power +4 dbm +6 dbm +8 dbm +10 dbm +12 dbm +13 dbm 04 06 08 10 12 13 Performance Standard XL XLS Channel Load & Format NTSC 78 NTSC 110 PAL I 62 PAL I 81 PAL B/G 64 PAL B/G 89 PAL D/K 58 PAL D/K 84 CENELEC 42 ST XL XS NT78 NT110 PI62 PI81 PBG64 PBG89 PDK58 PDK84 CEN42 Connectors SC/APC* SC/UPC FC/UPC E2000/APC SA SP FP E2 * Standard connector Sample P 2 1 3 T X R S A P 2 1 3 T X R Platform Product 1310 Reverse Tx 13TXR Connectors SC/APC* SC/UPC FC/UPC E2000/APC SA SP FP E2 * Standard connector Page 19

Prisma II 1310 nm Transmitters Prisma II products include the industry s most complete range of high performance optical components: For more information please refer to: Platform Prisma II Data Sheet Part Number 739199 1550 nm Transmitters Prisma II Data Sheet Part Number 739201 1550 nm Amplifiers Prisma II Data Sheet Part Number 739202 Receivers Prisma II Data Sheet Part Number 739203 Ancillary Modules Prisma II Data Sheet Part Number 739205 bdr Digital Reverse 2:1 Multiplexing System Prisma II Data Sheet Part Number 744484 Scientific-Atlanta and the Scientific-Atlanta logo are registered trademarks of Scientific-Atlanta, Inc. Prisma is a registered trademark of Scientific-Atlanta, Inc. bdr is a trademark of Scientific-Atlanta, Inc. Specifications and availability are subject to change without notice. 2001 Scientific-Atlanta, Inc. All rights reserved. Scientific-Atlanta, Inc. 1-800-722-2009 or 770-903-6900 www.sciatl.com Part Number 739200 Rev B March 2001 Page 20

Optoelectronics Prisma II 1550 nm Transmitters Description The Prisma II optical network is an advanced transmission system designed to optimize network architectures and increase reliability, scalability, and cost-effectiveness. Prisma II 1550 nm Transmitters offer the ultimate in network architecture flexibility with products designed specifically for broadcast or narrowcast transmission at long, intermediate, or short distances. Features Designed to operate within the Prisma II platform Multiple channel plans available Superior Stimulated Brillouin Scattering (SBS) suppression RF predistortion for maximum CNR while maintaining excellent CTB and CSO performance Status LEDs indicate module condition and simplify troubleshooting Blind-mate (push-on) RF and DC connectors RF input test points Nonvolatile storage of pre-set operating parameters simplifies installation procedures Multiple set-up and control options - Local control via Local Craft Interface (LCI) - Local control via Intelligent Communications Interface Module (ICIM) - Remote monitoring via Transmission Networks Control System (TNCS) Transmitter Modules The Prisma II 1550 nm Transmitter Family includes: Standard Externally-Modulated Broadcast Transmitter Gap Bridger Externally-Modulated Broadcast Transmitter Forward QAM Transmitter 1550 nm Standard and Gap Bridger Transmitter 23197 1550 nm Forward QAM Transmitter 23196 Page 21

Prisma II 1550 nm Transmitters Standard and Gap Bridger Externally-Modulated Broadcast Transmitters SBS Suppression DFB Laser and DFB Controller Broadcast RF Input Voltage Controlled Attenuator Variable Equalizer Predistortion Modulator Outputs New Media -30dB RF Input Modulator Bias Control Microprocessor Front Panel RF Test Point T8630 Forward QAM Transmitter RF Input Voltage Controlled Attenuator Variable Equalizer Front Panel RF Predistortion Circuit Laser Chirp Predistortion Laser Output RF Test Point RF Power Detector RF Power Detector Microprocessor T8942 Page 22

Prisma II 1550 nm Transmitters Preliminary Specifications Units Standard Broadcast Tx Wavelength Range Options Connector Type SC/APC FC/APC E2000/APC Output Power Options (minimum) nm nm nm 1545 to 1548 1549 to 1554 1554.94 Standard dbm +8 +10 Gap Bridger Forward QAM Notes Broadcast Tx Tx 1530 to 1567 1530 1567 1,2 Standard +7 +9 Standard +8 +10 +11 Modulation Type External External Direct SBS Threshold dbm 16.0 rated output rated output 3 9 Electrical Units Standard Broadcast Tx Gap Bridger Broadcast Tx Bandwidth MHz 45 to 870 45 to 870 45 to 870 Required RF Input Level per Channel 110 NTSC analog 89 PAL B/G 78 NTSC analog 64 PAL B/G channels 42 CENELEC channels 40 NTSC channels 16 Channel Digital RF Input Return Loss 50 550 MHz 550 870 MHz Frequency Response 45 MHz 550 MHz 45 MHz 870 MHz Power Consumption (maximum) dbmv dbmv dbmv dbmv dbmv dbmv dbmv db db +18 ± 3.0 db +19 ± 3.0 db +20 ± 3.0 db +21 ± 3.0 db +23 ± 3.0 db +23 ± 3.0 db N/A 16 minimum 14 minimum +18 ± 3.0 db +19 ± 3.0 db +20 ± 3.0 db +21 ± 3.0 db +23 ± 3.0 db +23 ± 3.0 db N/A 16 minimum 14 minimum Forward QAM Tx N/A N/A N/A N/A N/A N/A +22.0 ± 1.5 db 16 minimum 14 minimum db ± 0.50 ± 0.50 N/A db ± 0.75 ± 0.75 ± 0.75 W DC 45 35 15 Notes 4,5 6,7 Environmental Units Standard Gap Bridger Forward QAM Notes Broadcast Tx Broadcast Tx Tx Temperature Range Full Specs C F -20 to +65-4 to +149-20 to +65-4 to +149-20 to +65-4 to +149 Operational C F -40 to +65-40 to +149-40 to +65-40 to +149-40 to +65-40 to +149 Humidity % 0 to 95 0 to 95 0 to 95 8 Page 23

Prisma II 1550 nm Transmitters Preliminary Specifications (cont d) Mechanical Units Standard Broadcast Tx Gap Bridger Broadcast Tx Forward QAM Tx Physical Dimensions Depth in. 9.8 9.8 9.8 cm 24.9 24.9 24.9 Width in. 3.2 3.2 1.0 cm 8.1 8.1 2.5 Height in. 7.6 7.6 7.6 cm 19.3 19.3 19.3 Weight lb 6.0 6.0 3.0 kg 2.7 2.7 1.2 Module Width slots 3 3 1 Notes Notes: 1. ITU grid wavelength within the range for the Standard and Gap Bridger Externally-Modulated Broadcast Transmitters. 2. See Ordering Information for ITU wavelengths available for Forward QAM Transmitter. 3. RF input must be connected at specified level. 4. For the Standard and Gap Bridger Broadcast Transmitters, activation of digital loading may impact analog performance. 200 MHz digital tier is based on 33 channels (64 QAM) at 6 MHz per channel with power per QAM channel 6 db below analog channel peak (sync tip) power. 5. For the Standard and Gap Bridger Broadcast Transmitters, the New Media input requires an RF input level 30 db above the video input. 6. For the Forward QAM Transmitter, 16 CW channels with 8 dbm input to the receiver and 6 db RF between the broadcast and narrowcast signal. 7. For the Forward QAM Transmitter, as used in 8 wavelength DWDM narrowcast network HE HUB architecture. 8. Recommended for use in non-condensing environments only. 9. For the Standard Broadcast transmitter, the 10dBm power option is only offered for the 1549-1554 and 1554.94 nm wavelength options. Unless otherwise noted, specifications are based on measurements made in accordance with NCTA Practices for Measurements made on Cable Television Systems using standard frequency assignments and are referenced to the ambient air temperature at the inlet to the Prisma II chassis. Page 24

Prisma II 1550 nm Transmitters Preliminary Performance Specifications Standard Externally-Modulated Broadcast Transmitter Standard Broadcast Transmitter; assumes no optical amplifier and no fiber 1,2,3,4 CNR CTB CSO 40 NTSC or 42 CENELEC Channels 54.5-67 -67 64 PAL B/G Channels 54.0-65 -65 78 NTSC Analog Channels 55.0-65 -65 Channel Loading 78 NTSC Analog Channels + 200 MHz Digital Tier 5 54.5-65 -65 89 PAL B/G Channels 53.5-65 -65 110 NTSC Analog Channels 52.0-65 -65 For links using Prisma II Standard Externally-Modulated Broadcast Transmitter followed by EDFA and launched into 50 km SM fiber 1,2,3,4,6 Channel Loading CNR CTB CSO 40 NTSC or 42 CENELEC Channels 53.0-67 -67 64 PAL B/G Channels 52.5-65 -65 78 NTSC Analog Channels 53.0-65 -65 78 NTSC Analog Channels + 200 MHz Digital Tier 5 52.5-65 -65 89 PAL B/G Channels 51.5-65 -65 110 NTSC Analog Channels 50.0-65 -65 Gap Bridger Externally-Modulated Broadcast Transmitter For Gap Bridger Externally-Modulated Broadcast Transmitter with fiber (+7 dbm module with 20 km fiber, +9 dbm module with 30 km fiber, +11 dbm module with 40 km fiber), optical attenuator, and optical receiver with 0 dbm receive power; typical performance. 1,4 Channel Loading CNR CTB CSO 40 NTSC or 42 CENELEC Channels 54.0-66 -67 64 PAL B/G Channels 53.5-66 -67 78 NTSC Analog Channels 53.5-66 -67 78 NTSC Analog Channels + 200 MHz Digital Tier 5 53.0-66 -67 89 PAL B/G Channels 52.5-66 -67 110 NTSC Analog Channels 51.5-66 -67 Forward QAM Transmitter Forward QAM Transmitter as used in 8 wavelength DWDM narrowcast network HE HUB architecture Channel Loading Modulation Error Ratio (MER) Bit Error Rate (BER) Notes 16 Channels 64 QAM 16 Channel 256 QAM 35 32 1.0E-9 1.0E-6 7 Notes: 1. Typical operating parameters. For other performance levels, please contact Applications Engineering. 2. Primary (J1) output. Secondary (J2). 3. Second port (J2) may have some performance degradation as compared with J1. J2 is available for back-up or route-redundant systems. 4. 0 dbm into receiver with NEP = 7 pa / Hz; ρ = 0.9 A/W. 5. 200 MHz digital tier is based on 33 channels (64 QAM) at 6 MHz per channel with power per QAM channel 6 db below analog channel peak (sync tip) power. 6. amplifier minimum input power is 5.0 dbm; noise figure is 5.5 db. 7. Measured without Forward Error Correction (FEC). Unless otherwise noted, specifications are based on measurements made in accordance with NCTA Practices for Measurements made on Cable Television Systems using standard frequency assignments and are referenced to 30 C (86 F) at the inlet to the Prisma II chassis. Page 25

Prisma II 1550 nm Transmitters Ordering Information Standard Externally-Modulated Broadcast Transmitter Sample P 2 1 5 T X L 0 8 E M N T 1 1 0 S A 4 5 4 8 P 2 1 5 T X L Platform Product 1550 Long Distance Broadcast Tx 15TXL Output Power +8 dbm +10 dbm Modulation External 08 10* EM Channel Load & Format NTSC 40 Low NTSC 40 High NTSC 78 NTSC 110 PAL B/G 64 PAL B/G 89 CENELEC 42 NT40L NT40H NT78 NT110 PBG64 PBG89 CEN42 * The 10dBm power option is only offered for the 4954 and ITU28 wavelength options 1545-1548 1549-1554 1554.94 SC/APC FC/APC E2000/APC Wavelength Connectors SA FA E2 4 5 4 8 4 9 5 4 ITU28 Intermediate Distance Gap Bridger Externally-Modulated Broadcast Transmitter Sample P 2 1 5 T X S 0 7 E M N T 1 1 0 S A 3 0 6 7 P 2 1 5 T X S Platform Product 1550 "Gap Bridger" Tx 15TXS Output Power +7 dbm +9 dbm +11 dbm 07 09 11 Channel Load & Format NTSC 40 Low NTSC 40 High NTSC 78 NTSC 110 PAL B/G 64 PAL B/G 89 CENELEC 42 NT40L NT40H NT78 NT110 PBG64 PBG89 CEN42 Wavelength 1530-1567 1530-1555 Connectors SC/APC FC/APC E2000/APC 3 0 6 7 3 0 5 5 SA FA E2 Modulation External EM Page 26

Prisma II 1550 nm Transmitters Ordering Information (cont d) Forward QAM Transmitter Sample P 2 1 5 T X Q 0 8 D M Q A M S A I T U 5 7 P 2 1 5 T X Q Platform Wavelength Product 1550 Forward QAM Tx 15TXQ Output Power +8 dbm +10 dbm Modulation Direct 08 10 DM Channel Load & Format QAM QAM Connectors SC/APC FC/APC E2000/APC SA FA E2 1530.38 1531.90 1533.47 1535.04 1536.61 1538.19 1539.77 1541.35 1542.94 1544.53 1546.12 1547.72 1549.32 1550.92 1552.52 1554.13 1555.75 1557.36 1558.98 1560.61 1562.23 1563.86 1565.50 1567.13 ITU59 ITU57 ITU55 ITU53 ITU51 ITU49 ITU47 ITU45 ITU43 ITU41 ITU39 ITU37 ITU35 ITU33 ITU31 ITU29 ITU27 ITU25 ITU23 ITU21 ITU19 ITU17 ITU15 ITU13 Prisma II products include the industry s most complete range of high performance optical components: For more information please refer to: Platform Prisma II Data Sheet Part Number 739199 1310 nm Transmitters Prisma II Data Sheet Part Number 739200 1550 nm Amplifiers Prisma II Data Sheet Part Number 739202 Receivers Prisma II Data Sheet Part Number 739203 Ancillary Modules Prisma II Data Sheet Part Number 739205 Scientific Atlanta, the Scientific-Atlanta logo, and Prisma are registered trademarks of Scientific-Atlanta, Inc. Specifications and product availability are subject to change without notice. 2001 Scientific-Atlanta, Inc. All rights reserved. Scientific-Atlanta, Inc. 1-800-722-2009 or 770-903-6900 www.sciatl.com Part Number 739201 Rev B March 2001 Page 27

Optoelectronics Prisma II 1550 nm Amplifiers Description The Prisma II optical network is an advanced transmission system designed to optimize network architectures and increase reliability, scalability, and cost effectiveness. Prisma II 1550 nm Amplifiers offer a wide range of configurations and output powers for the ultimate in network architecture flexibility. The Prisma II Amplifiers are available as single modules with various output options or as configured amplifier systems with a preamplifier and a corresponding amplifier module. Additional postamplifier modules can be designed in for greater routing capabilities. Single Amplifier Modules The Prisma II Amplifiers offer a broad range of output powers in stand-alone modules. Operating over a wide range of input powers from a Prisma II 1550 nm Transmitter or another 1550 nm Amplifier upstream, the amplifier modules provide reliable, highperformance transmission of voice, video, and data signals for all optical networking needs. 1550 nm Amplifier Single-Wide Module 23195 Configurable Amplifier System The configurable system consists of one high-power 8 x +17 dbm preamplifier module and one post-amplifier module. The post-amplifier module is available with various number of output port and power output options. For flexibility in network expansion, add-on postamplifier modules can be added to the configurable system. Add-On Post-Amplifier Modules Up to seven (7) additional post-amplifier modules can be used with the configurable system for outstanding network expansion capabilities. Post-amplifier modules require the high optical input provided by the pre-amplifier modules of the configurable system. Features Designed to operate within the Prisma II platform 1550 nm Configurable Single amplifier modules with various output power and number of output Amplifier System port options Configurable amplifier system with one pre-amplifier and added amplifier modules - Various number of output port options for both pre-amplifier and modules - Ultra-high output power potential Nonvolatile storage of pre-set operating parameters simplifies installation procedures Master / Slave Redundancy Multiple set-up and control options - Local control via Local Craft Interface (LCI) - Local control via Intelligent Communications Interface Module (ICIM) - Remote monitoring via Transmission Networks Control System (TNCS) 23205 Page 28

Prisma II 1550 nm Amplifiers Single-Wide and Post-Amplifier Modules Input Coupler Wave Division Multiplexer Gain Fiber Isolator Coupler Output Diode Laser Pump #1 Photo Diode Pump Diode Drive Electronics Photo Diode External Controller () Controller Electronics T8688 Double-Wide Amplifier Modules Input Coupler Wave Division Multiplexer Gain Fiber Isolator Wave Division Multiplexer Gain Fiber Isolator Coupler Splitter Outputs Diode Laser Pump #1 Diode Laser Pump #2 Photo Diode Pump Diode Drive Electronics Pump Diode Drive Electronics Photo Diode External Controller () Controller Electronics T8629 Page 29

Prisma II 1550 nm Amplifiers Triple-Wide Amplifier Modules Wave Division Multiplexer Gain Fiber Isolator Coupler Splitter Outputs Input Coupler Wave Division Multiplexer Gain Fiber Splitter Diode Laser Pump #2 Diode Laser Pump #1 Pump Diode Drive Electronics Photo Diode Photo Diode Pump Diode Drive Electronics Wave Division Multiplexer Gain Fiber Isolator Coupler Splitter Outputs Diode Laser Pump #3 Pump Diode Drive Electronics Photo Diode External Controller () Controller Electronics T8938 Page 30

Prisma II 1550 nm Amplifiers Specifications Units Amplifier Modules Configurable System 1 Notes Output Power @ > 0.0 2 dbm input Single-Wide Modules dbm dbm dbm dbm dbm +13 minimum +16 minimum +17 maximum +20 minimum 2 outputs @ +17 out of max port Double-Wide Modules dbm 4 outputs @ +17 out of max port Triple-Wide Modules dbm 8 outputs @ +17 out of max port Wavelength nm 1530 1567 1530-1567 +24 maximum 2 outputs @ +21 out of max port 4 outputs @ +17 out of max port Return Loss db > 50 > 50 Operational Input Power Full Specs Functional Port-to-Port Output Power Uniformity Single Output Dual Output 4 Output 8 Output Noise Figure @ +5.0 dbm input +13 to +17 Single Port +20 dbm Single Port 2 x +17 Output 4 x +17 Output 8 x +17 Output dbm dbm db db db db db db db db db db > 0 > -10 N/A 0.3 1.0 1.0 5.0 typical 5.5 typical 5.5 typical 5.5 typical 5.5 typical As provided by the pre-amplifier Power Stability db ± 0.2 ± 0.2 Connector Options SC/APC FC/APC E2000/APC Standard Standard N/A 0.3 1.0 N/A 5.5 typical for all outputs 3 Electrical Units Amplifier Modules Configurable System Notes Power Consumption 45 pre-amplifier (maximum) 15 each post-amplifier Temperature Range Operational and Full Specs W DC W DC W DC 15 single wide module 30 double wide module 45 triple wide module C -40 to +65-40 to +65 F -40 to +149-40 to +149 Humidity Range % 0 to 95 0 to 95 5 4 Page 31

Prisma II 1550 nm Amplifiers Specifications (cont d) Mechanical Units Single-Wide Modules Physical Dimensions Depth Width Height Weight Module Width in. cm in. cm in. cm lb. kg slots 9.8 24.9 1.0 2.5 7.6 19.3 2.25 1.0 1 Double-Wide Modules 9.8 24.9 2.1 5.3 7.6 19.3 3.5 1.6 2 Triple-Wide Modules 9.8 24.9 3.2 8.1 7.6 19.3 4.0 1.8 3 Notes Notes: 1. Specifications are for the output of the Configurable System (triple-wide pre-amplifier modules plus single-wide post-amplifier module) and the output of all additional post-amplifier modules added to the system. 2. Contact Applications Engineering for performance at other input power levels. 3. Noise figure for the Configurable System requires +5.0 dbm input into the pre-amplifier stage and is through any pre/post-amplifier combination. 4. FC/APC connectors will have the narrow alignment key width at 2.05 mm. 5. Recommended for use only in non-condensing environments. Unless otherwise noted, specifications are based on measurements made in accordance with NCTA Practices for Measurements made on Cable Television Systems using standard frequency assignments and are referenced to the ambient air temperature at the inlet to the Prisma II chassis. Page 32

Prisma II 1550 nm Amplifiers Ordering Information Amplifier Modules Sample P 2 E D F A M O D 1 x 1 6 S A P 2 E D F A M O D Platform Connectors Product 1550 Amplifier EDFA Module Configuration MOD SC/APC* FC/APC E2000/APC * Standard connector SA FA E2 Power 1 Port, +13 dbm 1 Port, +16 dbm 1 Port, +17 dbm 1 Port, +20 dbm 2 Ports, +17 dbm 4 Ports, +17 dbm 8 Ports, +17 dbm 1x13 1x16 1x17 1x20 2x17 4x17 8x17 Configurable Amplifier Systems Note: Order Configurable Amplifier System by the output of the Post Amplifier Module. Sample P 2 E D F A C O N 1 x 2 4 S A P 2 E D F A C O N Platform Connectors Product 1550 Amplifier EDFA Configuration Configured CON SC/APC* FC/APC E2000/APC * Standard connector SA FA E2 Power 1 Port, +24 dbm 2 Ports, +21 dbm 4 Ports, +17 dbm 1x24 2x21 4x17 Page 33

Prisma II 1550 nm Amplifiers Ordering Information (cont d) Post-Amplifier Modules Sample P 2 E D F A P S T 1 x 2 4 S A P 2 E D F A P S T Platform Connectors Product 1550 Amplifier EDFA Configuration Post-Amplifier Module Only PST SC/APC* FC/APC E2000/APC * Standard connector SA FA E2 Power 1 Port, +24 dbm 2 Ports, +21 dbm 4 Ports, +17 dbm 1x24 2x21 4x17 Page 34

Prisma II 1550 nm Amplifiers Prisma II products include the industry s most complete range of high performance optical components: For more information please refer to: Platform Prisma II Data Sheet Part Number 739199 1310 nm Transmitters Prisma II Data Sheet Part Number 739200 1550 nm Transmitters Prisma II Data Sheet Part Number 739201 Receivers Prisma II Data Sheet Part Number 739203 Ancillary Modules Prisma II Data Sheet Part Number 739205 bdr Digital Reverse 2:1 Multiplexing System Prisma II Data Sheet Part Number 744484 Scientific-Atlanta and the Scientific-Atlanta logo are registered trademarks of Scientific-Atlanta, Inc. Prisma is a registered trademark of Scientific-Atlanta, Inc. bdr is a trademark of Scientific-Atlanta, Inc. Specifications and product availability are subject to change without notice. 2001 Scientific-Atlanta, Inc. All rights reserved. Scientific-Atlanta, Inc. 1-800-722-2009 or 770-903-6900 www.sciatl.com Part Number 739202 Rev B March 2001 Page 35

Optoelectronics Prisma II Receivers Description The Prisma II optical network is an advanced transmission system designed to optimize network architectures and increase reliability, scalability, and cost effectiveness. The Prisma 1310/1550 Receivers are optimized for superior performance and full redundancy. Up to 13 receiver modules can be placed in a single Prisma II chassis. Features Blind-mate (push-on) connections for RF, power, and data Removable optical connectors for easy cleaning RF test points (one for each receiver) Multiple set-up and control options - Local control via Local Craft Interface (LCI) - Local control via Intelligent Communications Interface Module (ICIM) - Remote monitoring via Transmission Networks Control System (TNCS) Forward Receiver 23145R Reverse Data Receiver 23143 Reverse Video Receiver 23145 Due to continual product improvements, specifications and product availability are subject to change without notice. Printed copy of this document must be verified with Scientific-Atlanta to confirm revision level prior to use. Page 36

Prisma II Receivers High Power Forward Receiver Input Power Hybrid Current RF Test Point RF Output Microprocessor Temperature Sensor T8936 Reverse Data and Video Receivers RF Amp Rx 1 RF Test Point Input 1 Variable Attenuator 75 Ohm N C N O -20 db RF Output 1 RF Amp Input 2 Variable Attenuator 75 Ohm N C N O -20 db Rx 2 RF Test Point RF Output 2 Microprocessor T8948 Page 37

Prisma II Receivers Specifications Units Forward Receiver Reverse Data Receiver Reverse Video Receiver Input Power dbm -3.0 to 5.0 +2 to 17 +2 to 17 Wavelength nm 1310 ± 20 1550 ± 20 1310 ± 20 1550 ± 20 1310 ± 20 1550 ± 20 Return Loss db < -40 db < -30 db < -30 db Interface SC/APC SC/UPC FC/UPC E2000 Standard Standard Standard Notes Electrical Units Forward Receiver Reverse Data Receiver Reverse Video Receiver RF Bandwidth MHz 50-870 5 to 65 5 to 200 Nominal RF Output Level dbmv > 33/ch > 35 composite > 42 composite 1 Responsivity A/W > 14 > 150 > 82 2 Maximum Composite RF Output Level dbmv 35/channel < 51 < 51 2,3 RF Frequency Response db ± 1.0 ± 0.5 db ± 0.5 db RF Test Points db -20.0 ± 1.0-20.0 ± 1.0-20.0 ± 1.0 Return Loss db 16 @ 50-550 MHz > 16 > 16 4,5 Tilt db 0 to +1 ± 0.5 0.75 to 1.25 Noise Equivalent Power pa Hz < 7.5 < 8; nominal 6 < 8; nominal 6 2 Power Consumption W DC < 15 < 13 < 13 Environmental Units Forward Receiver Reverse Data Receiver Reverse Video Receiver Temperature Range Full Specs and Operational C F -40 to +65-40 to +149-40 to +65-40 to +149-40 to +65-40 to +149 Humidity Range % 0 to 95 0 to 95 0 to 95 5 Notes Notes Mechanical Units Forward Receiver Reverse Data Receiver Reverse Video Receiver Physical Dimensions Depth in cm 9.8 24.9 9.8 24.9 9.8 24.9 Width in cm 1.03 2.6 1.03 2.6 1.03 2.6 Height in cm 7.6 19.3 7.6 19.3 7.6 19.3 Weight lbs kg 2.2 1.0 3.0 1.4 3.0 1.4 Module Width slots 1 1 1 Notes Page 38

Prisma II Receivers Notes: 1. For the reverse receivers, the transmitter is loaded with 5 42 MHz broadband noise with an RMS OMI of 10%, and the optical received level is 10 dbm with the receiver set to minimum attenuation. For the forward receiver, the output will be greater than 33 dbmv/ch when received power is +3 dbm and the modulation depth is 3%/ch. 2. At minimum attenuation. Forward receiver is equipped with a 20 db continuously variable RF attenuator accessible via the front panel. 3. For the reverse receivers the maximum output level is determined using 5-42 MHz composite noise loading, while ensuring that the NPR dynamic range is not limited by the receiver. The maximum output level is measured with a transmitter RMS OMI of 10%. 4. The return loss is reduced by 3*F, where F is the frequency in GHz. For example, at 800 MHz the return loss is 16 3 X 0.8 which equals 13.6 db. 5. Recommended for use only in non-condensing environments. Unless otherwise noted, specifications are based on measurements made in accordance with NCTA Practices for Measurements made on Cable Television Systems using standard frequency assignments and are referenced to the ambient air temperature at the inlet to the Prisma II chassis. Ordering Information Sample P 2 R X R D S A P 2 Platform Product Forward Receiver Reverse Data Receiver (5-65 MHz) Reverse Video Receiver (5-200 MHz) RXF RXRD RXRV Connectors SC/APC* SC/UPC FC/UPC E2000/APC SA SP FP E2 * Standard connector Prisma II products include the industry s most complete range of high performance optical components: For more information please refer to: Platform Prisma II Data Sheet Part Number 739199 1310 nm Transmitters Prisma II Data Sheet Part Number 739200 1550 nm Transmitters Prisma II Data Sheet Part Number 739201 1550 nm Amplifiers Prisma II Data Sheet Part Number 739202 Passive Components Prisma II Data Sheet Part Number 739204 Ancillary Modules Prisma II Data Sheet Part Number 739205 Scientific-Atlanta and the Scientific-Atlanta logo are registered trademarks of Scientific-Atlanta, Inc. Prisma is a registered trademark of Scientific-Atlanta, Inc. Specifications and product availability are subject to change without notice. 2000 Scientific-Atlanta, Inc. All rights reserved. Scientific-Atlanta, Inc. 1-800-722-2009 or 770-903-6900 www.sciatl.com Part Number 739203 Rev A August 2000 Page 39

Optoelectronics Prisma II Ancillary Modules Description The Prisma II optical network is an advanced transmission system designed to optimize network architectures and increase reliability, scalability, and cost effectiveness. Ancillary modules such as the Forward and Reverse Headend Driver Amplifiers and the Switch support the main optical transmission modules of the Prisma II network. The modules are designed for easy insertion, setup, and administration. Features Multiple set-up and control options for Switch - Local control via Local Craft Interface (LCI) - Local control via Intelligent Communications Interface Module (ICIM) - Remote monitoring via Transmission Networks Control System (TNCS) software Ancillary Modules The Prisma II Ancillary Modules include the following: Headend Driver Amplifiers 1310/1550 nm Switch Forward/Reverse Headend Driver Amplifier Switch 23147 Page 40