Tx-Rx
Páginas: 32 (7912 palabras)
Publicado: 2 de mayo de 2012
Fiber Optic Components
CookBook
Table of Contents
Objectives: ................................................................................................. 2 Why use optical fibers?.......................................................................... 2 Fundamentals of digital fiber-optic links ........................................ 2 Why encoding is desirable................................................................... 2 Why so many different fiber-optic components? ........................ 2 How to use disintegrated components........................................... 3 Parallel-to-serial and serial-to-parallel converters....................... 3 So what happens when data is encoded?...................................... 3 So what happens if data is not encoded?...................................... 4 Avago fiber-optic solutions for unencoded data ........................ 4 Low-cost digital transmitters .............................................................. 4 Using Avago’s recommended solutions.......................................... 4 Solution for dc to 40 KBd TTL data at distances between 0 and 53meters..................................................................... 5 Solution for dc to 40 KBd TTL data at distances between 0 and 1.5 kilometers. ........................................................... 6 Solution for dc to 1 MBd TTL data at distances between 0 and 10 meters..................................................................... 7 Solution for dc to 1 MBd TTL data at distances between 0 and 45meters..................................................................... 8 Solution for dc to 5 MBd TTL data at distances between 0 and 16 meters..................................................................... 9 Solution for dc to 5 MBd TTL data at distances between 0 and 700 meters. ...............................................................10 Solution for dc to 5 MBd TTL data at distances between 0 and 1.7kilometers. .........................................................11 Solution for dc to 10 MBd TTL data at distances between 0 and 40 meters...................................................................12 Solution for dc to 10 MBd TTL data at distances between 0 and 300 meters. ...............................................................13 Solution for dc to 32 MBd TTL data at distancesbetween 0 and 1.3 kilometers. (Pages 14 & 15) ..........................14 Solution for dc to 32 MBd TTL data at distances between 0 and 3.3 kilometers.(Pages 16 & 17) ...........................16 Solution for 2 to 70 MBd TTL data at distances between 0 and 3.8 kilometers. (Pages 18 & 19) ..........................18 Solution for 20 to 160 MBd +5V ECL (PECL) data at distances between 0 and 2kilometers. (Pages 20-22) .................................20 Distance vs. Data rate HFBR-14X4Z and HFBR-24X6Z, PECL Transceiver with 62.5 Pm Fiber .............................................22 Distance vs. Data rate HFBR-14X4Z and HFBR-24X6Z, TTL Transceiver with 62.5 Pm Fiber ................................................22 Distance vs. Data rate HFBR-15X7Z and HFBR-25X6Z, PECL Transceiver with1 mm POF Fiber .........................................23 Distance vs. Data rate HFBR-15X7Z and HFBR-25X6Z, TTL Transceiver with 1 mm POF Fiber ............................................23 Distance vs. Data rate HFBR-15X7Z and HFBR-25X6Z, PECL Transceiver with 200 Pm HCS Fiber .....................................24 Distance vs. Data rate HFBR-15X7Z and HFBR-25X6Z, TTL Transceiver with 200 PmHCS Fiber ........................................24 Distance vs. Data rate HFBR-13X2TZ and HFBR-23X6TZ, PECL Transceiver with 62.5 Pm Fiber..............................................25 Distance vs. Data rate HFBR-13X2TZ and HFBR-23X6TZ, TTL Transceiver with 62.5 Pm Fiber ................................................25 Application Notes for Plastic and Glass Optical Fiber Components...
CookBook
Table of Contents
Objectives: ................................................................................................. 2 Why use optical fibers?.......................................................................... 2 Fundamentals of digital fiber-optic links ........................................ 2 Why encoding is desirable................................................................... 2 Why so many different fiber-optic components? ........................ 2 How to use disintegrated components........................................... 3 Parallel-to-serial and serial-to-parallel converters....................... 3 So what happens when data is encoded?...................................... 3 So what happens if data is not encoded?...................................... 4 Avago fiber-optic solutions for unencoded data ........................ 4 Low-cost digital transmitters .............................................................. 4 Using Avago’s recommended solutions.......................................... 4 Solution for dc to 40 KBd TTL data at distances between 0 and 53meters..................................................................... 5 Solution for dc to 40 KBd TTL data at distances between 0 and 1.5 kilometers. ........................................................... 6 Solution for dc to 1 MBd TTL data at distances between 0 and 10 meters..................................................................... 7 Solution for dc to 1 MBd TTL data at distances between 0 and 45meters..................................................................... 8 Solution for dc to 5 MBd TTL data at distances between 0 and 16 meters..................................................................... 9 Solution for dc to 5 MBd TTL data at distances between 0 and 700 meters. ...............................................................10 Solution for dc to 5 MBd TTL data at distances between 0 and 1.7kilometers. .........................................................11 Solution for dc to 10 MBd TTL data at distances between 0 and 40 meters...................................................................12 Solution for dc to 10 MBd TTL data at distances between 0 and 300 meters. ...............................................................13 Solution for dc to 32 MBd TTL data at distancesbetween 0 and 1.3 kilometers. (Pages 14 & 15) ..........................14 Solution for dc to 32 MBd TTL data at distances between 0 and 3.3 kilometers.(Pages 16 & 17) ...........................16 Solution for 2 to 70 MBd TTL data at distances between 0 and 3.8 kilometers. (Pages 18 & 19) ..........................18 Solution for 20 to 160 MBd +5V ECL (PECL) data at distances between 0 and 2kilometers. (Pages 20-22) .................................20 Distance vs. Data rate HFBR-14X4Z and HFBR-24X6Z, PECL Transceiver with 62.5 Pm Fiber .............................................22 Distance vs. Data rate HFBR-14X4Z and HFBR-24X6Z, TTL Transceiver with 62.5 Pm Fiber ................................................22 Distance vs. Data rate HFBR-15X7Z and HFBR-25X6Z, PECL Transceiver with1 mm POF Fiber .........................................23 Distance vs. Data rate HFBR-15X7Z and HFBR-25X6Z, TTL Transceiver with 1 mm POF Fiber ............................................23 Distance vs. Data rate HFBR-15X7Z and HFBR-25X6Z, PECL Transceiver with 200 Pm HCS Fiber .....................................24 Distance vs. Data rate HFBR-15X7Z and HFBR-25X6Z, TTL Transceiver with 200 PmHCS Fiber ........................................24 Distance vs. Data rate HFBR-13X2TZ and HFBR-23X6TZ, PECL Transceiver with 62.5 Pm Fiber..............................................25 Distance vs. Data rate HFBR-13X2TZ and HFBR-23X6TZ, TTL Transceiver with 62.5 Pm Fiber ................................................25 Application Notes for Plastic and Glass Optical Fiber Components...
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