This document describes an SFP+ DWDM 10G C-Band optical transceiver that operates at 10Gbps up to 80km on single mode fiber. It uses a DWDM EML laser transmitter, APD photodiode receiver, and built-in CDR. Key features include hot-pluggable SFP+ form factor, LC duplex optical interface, digital diagnostics, and operating temperature range of 0-70°C. The transceiver provides 10Gb Ethernet and 10GBase-ZR/ZW connectivity and is RoHS compliant.
This document summarizes the specifications of a BlueOptics SFP+ 10G 1550nm 40KM CDR optical transceiver module. It operates at 10Gbps over single mode fiber with a maximum link length of 40 kilometers. The module contains an EML laser transmitter, photodiode receiver, and built-in clock and data recovery circuits. It provides digital diagnostics for operating parameters via the SFP MSA interface.
This document provides specifications for the BlueOptics BO55J27610D SFP+ 10G optical transceiver module. It supports data rates up to 10Gbps over single mode fiber up to 10km in length. The module uses a 1270nm DFB laser transmitter and 1330nm photodetector receiver. It complies with relevant industry standards and provides digital diagnostics for operating parameters.
This document provides specifications for an SFP+ CWDM optical transceiver operating at 8.5Gbps with a wavelength between 1470-1610nm and a maximum range of 80km. The transceiver uses an EML laser transmitter, APD receiver, and supports digital diagnostics monitoring via the SFF-8472 standard. It is compliant with SFP+ and telecom industry standards for performance, safety and manufacturing.
This document provides specifications for an SFP+ CWDM optical transceiver module that operates at 8.5Gbps with a wavelength between 1470-1610nm and a maximum link length of 80km. The module uses an EML laser transmitter and APD receiver with digital diagnostics. It has an SFP+ form factor and complies with relevant interoperability standards.
This document describes an SFP+ DWDM 10G C-Band optical transceiver that operates at 10Gbps up to 80km on single mode fiber. It uses a DWDM EML laser transmitter, APD photodiode receiver, and built-in CDR. Key features include hot-pluggable SFP+ form factor, LC duplex optical interface, digital diagnostics, and operating temperature range of 0-70°C. The transceiver provides 10Gb Ethernet and 10GBase-ZR/ZW connectivity and is RoHS compliant.
This document summarizes the specifications of a BlueOptics SFP+ 10G 1550nm 40KM CDR optical transceiver module. It operates at 10Gbps over single mode fiber with a maximum link length of 40 kilometers. The module contains an EML laser transmitter, photodiode receiver, and built-in clock and data recovery circuits. It provides digital diagnostics for operating parameters via the SFP MSA interface.
This document provides specifications for the BlueOptics BO55J27610D SFP+ 10G optical transceiver module. It supports data rates up to 10Gbps over single mode fiber up to 10km in length. The module uses a 1270nm DFB laser transmitter and 1330nm photodetector receiver. It complies with relevant industry standards and provides digital diagnostics for operating parameters.
This document provides specifications for an SFP+ CWDM optical transceiver operating at 8.5Gbps with a wavelength between 1470-1610nm and a maximum range of 80km. The transceiver uses an EML laser transmitter, APD receiver, and supports digital diagnostics monitoring via the SFF-8472 standard. It is compliant with SFP+ and telecom industry standards for performance, safety and manufacturing.
This document provides specifications for an SFP+ CWDM optical transceiver module that operates at 8.5Gbps with a wavelength between 1470-1610nm and a maximum link length of 80km. The module uses an EML laser transmitter and APD receiver with digital diagnostics. It has an SFP+ form factor and complies with relevant interoperability standards.
This document provides specifications for an SFP+ CWDM optical transceiver operating at 8.5Gbps up to a distance of 10km over single mode fiber. The transceiver uses a DFB laser transmitter operating between 1270-1330nm and a PIN photodiode receiver. It supports multi-rate fiber channel and has hot-pluggable and RoHS compliant packaging. Diagnostic data on operating parameters can be accessed via the digital diagnostic interface.
This document provides information about a BlueOptics SFP+ transceiver module that operates at 10Gbps with wavelengths between 1470-1610nm and a maximum link length of 40km on single mode fiber. It supports SFP+ MSA compliance and provides digital diagnostics for real-time monitoring of supply voltage, laser bias current, output power, temperature and more.
This document provides information about the BO56HXX640DT2 SFP+ optical transceiver module. It is an 8.5Gbps transceiver that operates between 1470-1610nm on single mode fiber with a maximum link length of 40km. The document describes its specifications, features, applications, installation instructions and provides pinout, diagnostic and mechanical details.
This document provides specifications for a BlueOptics SFP+ CWDM 10G optical transceiver operating from 1270-1450nm and supporting transmission distances up to 60km. Key features include support for 10Gbps data rates and compliance with SFP+ and SFF-8472 standards. The transceiver uses an EML transmitter, APD diode, TIA, and digital diagnostics to transmit and receive optical signals within the specified wavelength range.
This document provides specifications for the BlueOptics BO55J33610D SFP+ 10G optical transceiver module. It supports 10Gbps data rates over single mode fiber up to 10km. The module uses a 1330nm DFB laser transmitter and 1270nm photodetector receiver. It complies with the SFP+ MSA and provides digital diagnostics for operating parameters.
This document provides specifications for the BlueOptics BO55J27660D SFP+ 10G optical transceiver module. It supports data rates up to 10Gbps over distances of 60km on single mode fiber. Key features include a 1270nm laser transmitter, 1330nm receiver, digital diagnostics, and compliance with relevant telecom standards. The document details optical, electrical, mechanical and interface specifications to allow the module to be used in networking equipment.
This document provides specifications for the BlueOptics BO55J27640D SFP+ 10G optical transceiver module. It supports data rates up to 10Gbps over single mode fiber with a maximum link length of 40 kilometers. The module complies with relevant industry standards and provides digital diagnostics for real-time monitoring of operating parameters. It is hot-pluggable and operates from a single 3.3V power supply.
This document provides specifications for a SFP+ CWDM 10G optical transceiver operating at 1470-1610nm wavelengths with a maximum range of 80km. The transceiver supports data rates up to 10Gbps and is compliant with relevant telecom standards. It provides digital diagnostics for real-time monitoring of operating parameters like power, temperature and bias current.
This document provides specifications for a BlueOptics SFP+ transceiver module that operates at 10Gbps over single mode fiber with a wavelength between 1270-1450nm and a maximum link length of 40km. The module supports CWDM and includes a DFB laser transmitter, photodiode receiver, and digital diagnostics functionality.
This document provides specifications for a BlueOptics SFP+ 10G 1550nm optical transceiver module that operates at 10Gbps up to 80km on single mode fiber. Key features include an EML laser transmitter, APD receiver, digital diagnostics monitoring, and compliance with SFP+ and RoHS standards. It has an operating temperature range of 0-70°C and is hot-pluggable.
1) The document describes a BlueOptics SFP+ 10G 850nm 300M optical transceiver that supports data rates up to 10Gbps over multimode fiber with a link length of 300 meters.
2) It provides technical specifications for the transceiver's electrical interface, optical transmitter and receiver, pinout, EEPROM information, digital diagnostics, and mechanical dimensions.
3) The transceiver is compliant with relevant industry standards and provides features such as hot-pluggability, digital diagnostics, and a 5-year warranty.
This document provides specifications for the BlueOptics BO35J13610D SFP+ 10G 1310nm 10KM optical transceiver module. It is a high-performance module that supports 10Gbps transmission over 10km of single-mode fiber. The document describes its optical and electrical specifications, interfaces, diagnostic features, and mechanical dimensions. It also provides ordering information and contact details for the manufacturer.
This document describes an SFP+ optical transceiver module that provides:
- 10Gbps data transmission over single mode fiber up to 40km, using 1330nm laser transmission and 1270nm reception
- Compliance with relevant telecom standards for performance, safety and manufacturing
- Monitoring of operating parameters like power, current and temperature via digital diagnostics
This document provides information about a SFP+ CWDM 10G optical transceiver module operating at wavelengths between 1270-1450nm and supporting transmission distances up to 10km. The module supports data rates up to 10Gbps and complies with relevant industry standards. It provides digital diagnostic functions and real-time monitoring of parameters like supply voltage, laser current and temperature.
This document provides specifications for the BlueOptics BO55J33660D SFP+ 10G optical transceiver module. It supports data rates up to 10Gbps over single mode fiber up to 60km in length. The module uses a 1330nm DFB laser transmitter and 1270nm photodetector receiver. It complies with relevant industry standards and provides digital diagnostics for various operating parameters.
This document describes an SFP+ 10G 1310nm optical transceiver that operates at 10Gbps up to a distance of 40km on single mode fiber. It provides digital diagnostic monitoring of parameters like supply voltage, laser bias current, temperatures and more. The transceiver is hot-pluggable and compliant with SFP+ and RoHS standards. It is designed for applications like 10G Ethernet, fiber channel and switch/router interfaces.
This document provides information about a SFP+ optical transceiver module that operates at 10Gbps up to a distance of 10km on single mode fiber. Key details include:
- It operates in the 1270-1450nm wavelength range and supports 10G Ethernet and 10GBase applications.
- The transceiver module complies with SFP+ MSA standards and contains a laser transmitter, photodiode receiver, and digital diagnostic monitoring functions.
- It provides 10Gbps data rates with transmission distances up to 10km on single mode fiber. Operating temperature ranges are also specified.
This document describes an SFP+ 10G 1310nm optical transceiver that operates at 10Gbps over 2km of single-mode fiber. It provides digital diagnostic monitoring of parameters like power levels and temperature. The transceiver complies with relevant interoperability standards and safety regulations for optical components. It can be used for applications like Ethernet and Fibre Channel networking between switches and servers.
This document describes an SFP+ 10G 1310nm optical transceiver that operates at 10Gbps over multimode fiber up to 220 meters. It provides high-speed data transmission and receives real-time diagnostic information on parameters like supply voltage, temperature, and optical power levels. The transceiver complies with relevant industry standards and safety certifications and comes with a 5-year warranty.
Blueoptics bo01c152c0 1000base-zx gbic transceiver 1550nm 120 kilometer singl...CBO GmbH
This document provides information about a 1.25Gbps optical transceiver module that operates at 1550nm wavelengths and supports transmission distances of up to 120km. It has a hot-pluggable GBIC footprint and provides digital diagnostic monitoring of operating parameters like power, temperature and bias current. The transceiver uses a DFB laser for transmission and a PIN photodiode for reception, supporting Ethernet, Fiber Channel and other optical link applications.
The document discusses the results of a study on the effects of exercise on memory and thinking abilities in older adults. The study found that regular exercise can help reduce the decline in thinking abilities that often occurs with age. Older adults who exercised regularly performed better on cognitive tests and brain scans showed they had greater activity in important areas for memory and learning compared to less active peers.
This document provides specifications for an SFP+ CWDM optical transceiver operating at 8.5Gbps up to a distance of 10km over single mode fiber. The transceiver uses a DFB laser transmitter operating between 1270-1330nm and a PIN photodiode receiver. It supports multi-rate fiber channel and has hot-pluggable and RoHS compliant packaging. Diagnostic data on operating parameters can be accessed via the digital diagnostic interface.
This document provides information about a BlueOptics SFP+ transceiver module that operates at 10Gbps with wavelengths between 1470-1610nm and a maximum link length of 40km on single mode fiber. It supports SFP+ MSA compliance and provides digital diagnostics for real-time monitoring of supply voltage, laser bias current, output power, temperature and more.
This document provides information about the BO56HXX640DT2 SFP+ optical transceiver module. It is an 8.5Gbps transceiver that operates between 1470-1610nm on single mode fiber with a maximum link length of 40km. The document describes its specifications, features, applications, installation instructions and provides pinout, diagnostic and mechanical details.
This document provides specifications for a BlueOptics SFP+ CWDM 10G optical transceiver operating from 1270-1450nm and supporting transmission distances up to 60km. Key features include support for 10Gbps data rates and compliance with SFP+ and SFF-8472 standards. The transceiver uses an EML transmitter, APD diode, TIA, and digital diagnostics to transmit and receive optical signals within the specified wavelength range.
This document provides specifications for the BlueOptics BO55J33610D SFP+ 10G optical transceiver module. It supports 10Gbps data rates over single mode fiber up to 10km. The module uses a 1330nm DFB laser transmitter and 1270nm photodetector receiver. It complies with the SFP+ MSA and provides digital diagnostics for operating parameters.
This document provides specifications for the BlueOptics BO55J27660D SFP+ 10G optical transceiver module. It supports data rates up to 10Gbps over distances of 60km on single mode fiber. Key features include a 1270nm laser transmitter, 1330nm receiver, digital diagnostics, and compliance with relevant telecom standards. The document details optical, electrical, mechanical and interface specifications to allow the module to be used in networking equipment.
This document provides specifications for the BlueOptics BO55J27640D SFP+ 10G optical transceiver module. It supports data rates up to 10Gbps over single mode fiber with a maximum link length of 40 kilometers. The module complies with relevant industry standards and provides digital diagnostics for real-time monitoring of operating parameters. It is hot-pluggable and operates from a single 3.3V power supply.
This document provides specifications for a SFP+ CWDM 10G optical transceiver operating at 1470-1610nm wavelengths with a maximum range of 80km. The transceiver supports data rates up to 10Gbps and is compliant with relevant telecom standards. It provides digital diagnostics for real-time monitoring of operating parameters like power, temperature and bias current.
This document provides specifications for a BlueOptics SFP+ transceiver module that operates at 10Gbps over single mode fiber with a wavelength between 1270-1450nm and a maximum link length of 40km. The module supports CWDM and includes a DFB laser transmitter, photodiode receiver, and digital diagnostics functionality.
This document provides specifications for a BlueOptics SFP+ 10G 1550nm optical transceiver module that operates at 10Gbps up to 80km on single mode fiber. Key features include an EML laser transmitter, APD receiver, digital diagnostics monitoring, and compliance with SFP+ and RoHS standards. It has an operating temperature range of 0-70°C and is hot-pluggable.
1) The document describes a BlueOptics SFP+ 10G 850nm 300M optical transceiver that supports data rates up to 10Gbps over multimode fiber with a link length of 300 meters.
2) It provides technical specifications for the transceiver's electrical interface, optical transmitter and receiver, pinout, EEPROM information, digital diagnostics, and mechanical dimensions.
3) The transceiver is compliant with relevant industry standards and provides features such as hot-pluggability, digital diagnostics, and a 5-year warranty.
This document provides specifications for the BlueOptics BO35J13610D SFP+ 10G 1310nm 10KM optical transceiver module. It is a high-performance module that supports 10Gbps transmission over 10km of single-mode fiber. The document describes its optical and electrical specifications, interfaces, diagnostic features, and mechanical dimensions. It also provides ordering information and contact details for the manufacturer.
This document describes an SFP+ optical transceiver module that provides:
- 10Gbps data transmission over single mode fiber up to 40km, using 1330nm laser transmission and 1270nm reception
- Compliance with relevant telecom standards for performance, safety and manufacturing
- Monitoring of operating parameters like power, current and temperature via digital diagnostics
This document provides information about a SFP+ CWDM 10G optical transceiver module operating at wavelengths between 1270-1450nm and supporting transmission distances up to 10km. The module supports data rates up to 10Gbps and complies with relevant industry standards. It provides digital diagnostic functions and real-time monitoring of parameters like supply voltage, laser current and temperature.
This document provides specifications for the BlueOptics BO55J33660D SFP+ 10G optical transceiver module. It supports data rates up to 10Gbps over single mode fiber up to 60km in length. The module uses a 1330nm DFB laser transmitter and 1270nm photodetector receiver. It complies with relevant industry standards and provides digital diagnostics for various operating parameters.
This document describes an SFP+ 10G 1310nm optical transceiver that operates at 10Gbps up to a distance of 40km on single mode fiber. It provides digital diagnostic monitoring of parameters like supply voltage, laser bias current, temperatures and more. The transceiver is hot-pluggable and compliant with SFP+ and RoHS standards. It is designed for applications like 10G Ethernet, fiber channel and switch/router interfaces.
This document provides information about a SFP+ optical transceiver module that operates at 10Gbps up to a distance of 10km on single mode fiber. Key details include:
- It operates in the 1270-1450nm wavelength range and supports 10G Ethernet and 10GBase applications.
- The transceiver module complies with SFP+ MSA standards and contains a laser transmitter, photodiode receiver, and digital diagnostic monitoring functions.
- It provides 10Gbps data rates with transmission distances up to 10km on single mode fiber. Operating temperature ranges are also specified.
This document describes an SFP+ 10G 1310nm optical transceiver that operates at 10Gbps over 2km of single-mode fiber. It provides digital diagnostic monitoring of parameters like power levels and temperature. The transceiver complies with relevant interoperability standards and safety regulations for optical components. It can be used for applications like Ethernet and Fibre Channel networking between switches and servers.
This document describes an SFP+ 10G 1310nm optical transceiver that operates at 10Gbps over multimode fiber up to 220 meters. It provides high-speed data transmission and receives real-time diagnostic information on parameters like supply voltage, temperature, and optical power levels. The transceiver complies with relevant industry standards and safety certifications and comes with a 5-year warranty.
Blueoptics bo01c152c0 1000base-zx gbic transceiver 1550nm 120 kilometer singl...CBO GmbH
This document provides information about a 1.25Gbps optical transceiver module that operates at 1550nm wavelengths and supports transmission distances of up to 120km. It has a hot-pluggable GBIC footprint and provides digital diagnostic monitoring of operating parameters like power, temperature and bias current. The transceiver uses a DFB laser for transmission and a PIN photodiode for reception, supporting Ethernet, Fiber Channel and other optical link applications.
The document discusses the results of a study on the effects of exercise on memory and thinking abilities in older adults. The study found that regular exercise can help reduce the decline in thinking abilities that often occurs with age. Older adults who exercised regularly performed better on cognitive tests and brain scans showed they had greater activity in important areas for memory and learning compared to less active peers.
Daniel Matheus, de 14 anos, cursa informática básica e sonha em ser mecânico. Ele gosta de história e planeja trabalhar com carros após concluir o ensino médio. Daniel também aprecia ler e jogar futebol em seu tempo livre.
Remember enjoying Keebler Grasshopper Cookies as a child? Well, what's old is now new. It's time for the next generation of kids to learn about these yummy "bug cookies"
This document describes a BiDi cSFP optical transceiver module that operates at 1.25Gbps over single mode fiber with a maximum range of 40km. The module uses a DFB laser transmitter operating at 1490nm and a PIN photodiode receiver operating at 1310nm. It provides digital diagnostic monitoring of operating parameters and is compliant with relevant industry standards for optical transceivers.
This document describes an SFP 155M 1550nm optical transceiver module that operates at 155Mbps up to 120km on single mode fiber. It provides digital diagnostic functions and is compliant with RoHS and SFP MSA standards. Key features include a DFB laser transmitter, APD receiver, hot-pluggable SFP form factor, and operating temperature ranges from 0 to 85°C.
The BlueOptics BO31J15680DC is a high performance 10Gbps optical receiver module that is fully compliant with XFP MSA standards. It supports transmission distances up to 80km on single mode fiber and provides real-time diagnostic monitoring of parameters like supply voltage, temperature, and received optical power. The module consists of a photodiode, transimpedance amplifier, laser driver, and digital diagnostic functions. It is hot-pluggable and offers industrial temperature ranges from -40C to 85C.
Bo32j13210d 10gbase-lr x2 transceiver 1310nm 10 kilometer singlemode sc-duple...CBO GmbH
The document describes a BlueOptics BO32J13210D X2 10G 1310nm optical transceiver module that operates at 10Gbps over 10km of single mode fiber. It provides digital diagnostics monitoring of supply voltage, laser bias current, output power, input power and temperature. The module complies with RoHS and X2 MSA standards and has a hot-pluggable X2 footprint with a 5-year warranty.
The document provides an overview of operating systems, including:
1. An operating system acts as an intermediary between users and computer hardware, managing complexity and resources.
2. Early systems evolved from single-user batch processing to multiprogramming and time-sharing to improve efficiency.
3. Modern systems include personal computing, parallel and distributed systems, and real-time systems to meet different needs.
This document describes an SFP+ 10G 1550nm optical transceiver module that operates at 10Gbps over 40km of single mode fiber. It provides key specifications such as an EML laser transmitter, PIN photodetector receiver, hot-pluggable SFP+ form factor, LC duplex optical interface, and digital diagnostic monitoring functions as defined by SFF-8472. The transceiver is RoHS compliant and supports various industrial temperature ranges.
This document describes an SFP+ 10G 1310nm optical transceiver that operates at 10Gbps over 10km of single-mode fiber. It provides high-speed data transmission and real-time diagnostic monitoring. The transceiver uses DFB laser transmission and PIN photodiode reception to comply with small form-factor pluggable standards for hot-pluggable optical modules.
This document provides specifications for an SFP+ 8.5G 1310nm optical transceiver module that operates at up to 10Gbps over 10km of single-mode fiber. It includes detailed optical and electrical specifications, pinout diagrams, and compliance information. Key features are 8.5Gb/s data rate, 10km reach, hot-pluggable SFP+ form factor, and digital diagnostic monitoring. It is fully compatible with SFP+ and SFF-8472 industry standards.
This document provides specifications for the BlueOptics BO35G13610D SFP+ transceiver module. It supports data rates up to 6.25Gbps over 10km of single mode fiber. The module complies with relevant industry standards and provides digital diagnostics for voltage, current, temperature and optical power levels. It has an operating temperature range of 0-70°C and hot-pluggable SFP+ form factor.
This document describes an SFP+ optical transceiver that operates at 6.25Gbps over 2km of single mode fiber. It provides digital diagnostic monitoring and is compliant with relevant industry standards. Key features include an FP laser transmitter, PIN photodiode receiver, hot-pluggable SFP+ form factor, and operating temperature ranges from commercial to industrial.
This document provides specifications for the BlueOptics BO35H856S3D SFP+ optical transceiver module. It supports data rates up to 8.5Gbps over 300 meters of multimode fiber. The module includes a VCSEL laser transmitter, photodiode receiver, and digital diagnostics monitoring various parameters. It complies with relevant industry standards and has an operating temperature range of 0-70°C.
The document describes an SFP+ 10G 1550nm optical receiver module that operates at 10Gbps up to 80km on single mode fiber. It provides digital diagnostic functions for voltage, temperature, and received optical power. The module complies with SFP+ MSA standards and provides an SFP+ pluggable interface that supports applications such as Ethernet and fiber channel networks.
This document provides information about a SFP+ 10G 1310nm optical receiver module that operates at 10Gbps over 10km of single mode fiber. It includes specifications for the receiver's electrical interface, optical properties, pinout, EEPROM data, digital diagnostics, interface circuit, and mechanical dimensions. The module supports Ethernet, Fibre Channel, and other optical link applications.
This document describes an SFP+ DWDM 10G C-Band optical transceiver that operates at 10Gbps up to 80km on single mode fiber. It provides high-speed data transmission and real-time diagnostic information. The transceiver complies with relevant interoperability standards and safety regulations.
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Blueoptics bo25k859s2d 40gbase-sr4 qsfp transceiver 4x850nm 150 meter multimo...CBO GmbH
This document describes a QSFP 40G 850nm 100M optical transceiver module. It provides high-level specifications including:
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This document describes an SFP+ DWDM 10G C-Band optical transceiver that operates at 10Gbps over single mode fiber with a range of 40 kilometers. It provides high-speed data transmission in compliance with telecommunications standards while offering features such as digital diagnostics, hot-pluggability, and RoHS compliance.
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Mydbops Opensource Database Meetup 16
Topic: Must-Know PostgreSQL Extensions for Developers and DBAs During Migration
Speaker: Deepak Mahto, Founder of DataCloudGaze Consulting
Date & Time: 8th June | 10 AM - 1 PM IST
Venue: Bangalore International Centre, Bangalore
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* Don't miss this chance to gain practical knowledge from an industry expert and stay updated on the latest open-source database trends.
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Contact us: info@mydbops.com
Visit: https://www.mydbops.com/
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The global energy transition is placing new and unprecedented demands on Distribution System Operators (DSOs). Alongside upgrades to grid capacity, processes such as digitization, capacity optimization, and congestion management are becoming vital for delivering reliable services.
Power Grid Model is an open source project from Linux Foundation Energy and provides a calculation engine that is increasingly essential for DSOs. It offers a standards-based foundation enabling real-time power systems analysis, simulations of electrical power grids, and sophisticated what-if analysis. In addition, it enables in-depth studies and analysis of the electrical power grid’s behavior and performance. This comprehensive model incorporates essential factors such as power generation capacity, electrical losses, voltage levels, power flows, and system stability.
Power Grid Model is currently being applied in a wide variety of use cases, including grid planning, expansion, reliability, and congestion studies. It can also help in analyzing the impact of renewable energy integration, assessing the effects of disturbances or faults, and developing strategies for grid control and optimization.
What to expect
For the upcoming meetup we are organizing, we have an exciting lineup of activities planned:
-Insightful presentations covering two practical applications of the Power Grid Model.
-An update on the latest advancements in Power Grid -Model technology during the first and second quarters of 2024.
-An interactive brainstorming session to discuss and propose new feature requests.
-An opportunity to connect with fellow Power Grid Model enthusiasts and users.
"Frontline Battles with DDoS: Best practices and Lessons Learned", Igor IvaniukFwdays
At this talk we will discuss DDoS protection tools and best practices, discuss network architectures and what AWS has to offer. Also, we will look into one of the largest DDoS attacks on Ukrainian infrastructure that happened in February 2022. We'll see, what techniques helped to keep the web resources available for Ukrainians and how AWS improved DDoS protection for all customers based on Ukraine experience
3. BO54J15680D
SFP+ 10G 1550nm 80KM CDR
RoHS Compliant Optical Transceiver
- 3 -
1. Absolute Maximum Ratings
Parameter Symbol Min. Typ. Max. Unit
Storage Temperature Ts -40 85 ºC
Storage Ambient Humidity HA 5 95 %
2. Recommended Operating Conditions
Parameter Symbol Min. Typ. Max. Unit Note
Case Operating Temperature Tcase
0 70 BO54J15680D
-10 80 ºC BO54J15680DEX
-40 85 BO54J15680DIN
Ambient Humidity HA 5 70 %
Transmission Distance 80 KM
Coupled Fiber Single mode fiber 9/125µm SMF
3. Electrical Interface Characteristics
Parameter Symbol Min. Typ. Max. Unit Note
Power Supply Voltage Vcc 3.13 3.3 3.47 V
Signal Input Voltage Icc 360 mA
Transmitter
Input differential impedance Rin 100 Ω 1
Single ended data input swing Vin,pp 180 700 mV
Transmit Disable Voltage VD Vcc-1.3 Vcc V
Transmit Enable Voltage VEN Vee Vee+0.8 V 2
Transmit Disable Assert Time 10 µs
Receiver
Differential data output swing Vout,pp 400 850 mV 3
Data output rise time tr 28 Ps 4
Data output fall time tf 28 Ps 4
LOS Fault VLOS
fault
Vcc-1.3 VccHOST V 5
LOS Normal VLOS
norm
Vee Vee+0.8 V
5
Power Supply Rejection PSR 100 mVpp 6
Notes:
1. Internally AC coupled.
2. Or open circuit.
3. Into 100Ω differential termination.
4. 20-80%
5. LOS is an open collector output. Should be pulled up with 4.7KΩ on the host board.
6. All transceiver specifications are compliant with a power supply sinusoidal modulation of 20 Hz to 1.5 MHz
up to specified value through the power supply filtering network shown on page 23 of the Small Form -
factor Pluggable (SFP) Transceiver Multi Source Agreement (MSA), September 14, 2000.
4. BO54J15680D
SFP+ 10G 1550nm 80KM CDR
RoHS Compliant Optical Transceiver
- 4 -
4. Transmitter Specifications - Optical
Parameter Symbol Min. Typ. Max. Unit Note
Average Output Power POUT 0 4 dBm
Extinction Ratio ER 6 dB
Center Wavelength λC 1530 1550 1565 nm
EML Laser
RIN RIN -128 dB/Hz
SMSR 30
Transmitter and Dispersion Peanlty TDP 3 dB
Output Eye Mask
Compliant with IEEE802.3ae
(class 1 laser safety)
5. Receiver Specifications - Optical
Parameter Symbol Min. Typ. Max. Unit Note
Input Optical Wavelength λIN 1270 1610 nm
Receiver Sensitivity PIN -23 dBM 1
Input Saturation Power (Overload) PSAT -7 dBm
Receiver Reflectance Rrx -27 dB
LOS Assert PA -28 dBm
LOS De-assert PD -19 dBm
LOS Hysteresis PA-PD 0.5 dB
Notes:
1. Measured with Light source 1550nm, ER=3.5dB; BER =<10
-12
@PRBS=2
31
-1 non-return-to-zero.
6. SFP+ to Host Connector Pin Out
Pin Symbol Name / Description Note
1 VEET Transmitter Ground (Common with Receiver Ground) 1
2 TFAULT Transmitter Fault indication 2
3 TDIS Transmitter Disable 3
4 SDA 2-wire Serial Interface Data Line 4
5 SCL 2-wire Serial Interface Clock Line 4
6 MOD-ABS Module Absent. Grounded within the module 4
7 RS0 Rate Select 0 5
8 LOS Loss of Signal indication 6
9 RS1 No connection required 1
10 VEER Receiver Ground (Common with Transmitter Ground) 1
11 VEER Receiver Ground (Common with Transmitter Ground) 1
12 RD- Inv. Received Data Out
13 RD+ Received Data Out
14 VEER Receiver Ground (Common with Transmitter Ground) 1
15 VCCR Receiver Power Supply
16 VCCT Transmitter Power
17 VEET Transmitter Ground (Common with Receiver Ground) 1
18 TD+ Transmit Data In
19 TD- Inv. Transmit Data In
20 VEET Transmitter Ground (Common with Receiver Ground) 1
5. BO54J15680D
SFP+ 10G 1550nm 80KM CDR
RoHS Compliant Optical Transceiver
- 5 -
Notes:
1. Circuit ground is isolated from chassis ground.
2. Needs to be pulled up with 4.7k – 10kΩ on host board to a voltage from 2.0V to Vcc + 0.3V.
3. Tx_Disable is an input contact with a 4.7 kΩ to 10 kΩ pullup to VccT inside the module.
4. Mod_ABS is connected to VeeT or VeeR in the SFP+ module. The host may pull this contact up to
Vcc_Host with a resistor from 4.7 kΩ up to 10 kΩ.
5. RS1 are module inputs and are pulled low to VeeT with > 30 kΩ resistors in the module.
6. This is an open collector output, which should only be pulled with a resistor of 4.7k - 10kΩ. Pull up
voltage between 2.0V and 3.6V. Logic 1 indicates loss of signal; logic 0 indicates normal operation. The
output will be pulled to less than 0.8V.
Pinout of Connector Block on Host Board
7. EEPROM Information
The SFP MSA defines a 256-byte memory map in EEPROM describing the transceivers capabilities, standard
interfaces, manufacturer, and other information, which is accessible over a 2 wire serial interface at the 8-bit
address 1010000X (A0h).
Data
Address
Field Size
(Bytes)
Name of Field Contents (Hex) Description
0 1 Identifier XX Formfactor
1 1 Ext. Identifier XX
2 1 Connector XX
3-10 8 Transceiver XX XX XX XX XX XX XX XX Transmittter Code
11 1 Encoding XX
12 1 BR, Nominal XX Transceiver Speed
13 1 Reserved 00
14 1 Length (9μm) km XX Max. link length in KM
15 1 Length (9μm) 100m XX Max. link length in M
16 1 Length (50μm) 10m XX Max. link length in M
17 1 Length(62.5μm)10m XX Max. link length in M
18 1 Length (Copper) XX Max. link length in M
29 1 Reserved 00
30-35
16
Vendor name
XX XX XX XX XX XX XX XX
XX XX XX XX XX XX XX XX
Vendor name - OEM
36 1 Reserved 00
37-39 3 Vendor OUI XX XX XX
6. BO54J15680D
SFP+ 10G 1550nm 80KM CDR
RoHS Compliant Optical Transceiver
- 6 -
40-55
16
Vendor PN
XX XX XX XX XX XX XX XX
XX XX XX XX XX XX XX XX
Product Number -
depending on Part
56-59 4 Vendor rev XX XX XX XX Vendor revision
60-61 2 Wavelength XX XX Transceiver
Wavelength
62 1 Reserved 00
63 1
CC BASE
XX Checksum of bytes 0-
62
64-65 2 Options XX XX
66 1 BR, max XX
67 1 BR, min XX
68-83 16
Vendor SN
XX XX XX XX XX XX XX XX
XX XX XX XX XX XX XX XX
Part serial number
84-91 8 Vendor date code XX XX XX XX XX XX 20 20 Year, Month, Day
92 1 Diagnostic type XX Diagnostics
93 1 Enhanced option XX Diagnostics
94 1 SFF-8472 XX Diagnostics
95 1
CC_EXT
XX Checksum of bytes 64-
94
96-255 160 Vendor Specific
8. Digital Diagnostics / Digital Optical Monitoring
The transceiver provides serial ID memory contents and diagnostic information about the present
operating conditions by the 2-wire serial interface (SCL, SDA).
The diagnostic information with internal calibration or external calibration are all implemented,
including received power monitoring, transmitted power monitoring, bias current monitoring, supply
voltage monitoring and temperature monitoring.
9. Recommended Interface Circuit