This document describes a 10G 1554.94nm 80km DWDM SFP+ transceiver. It provides specifications for the transceiver including its product description, features, optical and electrical characteristics, and pin definitions. The transceiver uses a cooled EML laser transmitter and APD receiver to support transmission distances up to 80km over single-mode fiber for applications such as 10G Ethernet and fiber channel. It complies with relevant standards and provides digital diagnostics monitoring via a serial interface.
Epistemic Interaction - tuning interfaces to provide information for AI supportAlan Dix
Paper presented at SYNERGY workshop at AVI 2024, Genoa, Italy. 3rd June 2024
https://alandix.com/academic/papers/synergy2024-epistemic/
As machine learning integrates deeper into human-computer interactions, the concept of epistemic interaction emerges, aiming to refine these interactions to enhance system adaptability. This approach encourages minor, intentional adjustments in user behaviour to enrich the data available for system learning. This paper introduces epistemic interaction within the context of human-system communication, illustrating how deliberate interaction design can improve system understanding and adaptation. Through concrete examples, we demonstrate the potential of epistemic interaction to significantly advance human-computer interaction by leveraging intuitive human communication strategies to inform system design and functionality, offering a novel pathway for enriching user-system engagements.
Essentials of Automations: Optimizing FME Workflows with ParametersSafe Software
Are you looking to streamline your workflows and boost your projects’ efficiency? Do you find yourself searching for ways to add flexibility and control over your FME workflows? If so, you’re in the right place.
Join us for an insightful dive into the world of FME parameters, a critical element in optimizing workflow efficiency. This webinar marks the beginning of our three-part “Essentials of Automation” series. This first webinar is designed to equip you with the knowledge and skills to utilize parameters effectively: enhancing the flexibility, maintainability, and user control of your FME projects.
Here’s what you’ll gain:
- Essentials of FME Parameters: Understand the pivotal role of parameters, including Reader/Writer, Transformer, User, and FME Flow categories. Discover how they are the key to unlocking automation and optimization within your workflows.
- Practical Applications in FME Form: Delve into key user parameter types including choice, connections, and file URLs. Allow users to control how a workflow runs, making your workflows more reusable. Learn to import values and deliver the best user experience for your workflows while enhancing accuracy.
- Optimization Strategies in FME Flow: Explore the creation and strategic deployment of parameters in FME Flow, including the use of deployment and geometry parameters, to maximize workflow efficiency.
- Pro Tips for Success: Gain insights on parameterizing connections and leveraging new features like Conditional Visibility for clarity and simplicity.
We’ll wrap up with a glimpse into future webinars, followed by a Q&A session to address your specific questions surrounding this topic.
Don’t miss this opportunity to elevate your FME expertise and drive your projects to new heights of efficiency.
Epistemic Interaction - tuning interfaces to provide information for AI supportAlan Dix
Paper presented at SYNERGY workshop at AVI 2024, Genoa, Italy. 3rd June 2024
https://alandix.com/academic/papers/synergy2024-epistemic/
As machine learning integrates deeper into human-computer interactions, the concept of epistemic interaction emerges, aiming to refine these interactions to enhance system adaptability. This approach encourages minor, intentional adjustments in user behaviour to enrich the data available for system learning. This paper introduces epistemic interaction within the context of human-system communication, illustrating how deliberate interaction design can improve system understanding and adaptation. Through concrete examples, we demonstrate the potential of epistemic interaction to significantly advance human-computer interaction by leveraging intuitive human communication strategies to inform system design and functionality, offering a novel pathway for enriching user-system engagements.
Essentials of Automations: Optimizing FME Workflows with ParametersSafe Software
Are you looking to streamline your workflows and boost your projects’ efficiency? Do you find yourself searching for ways to add flexibility and control over your FME workflows? If so, you’re in the right place.
Join us for an insightful dive into the world of FME parameters, a critical element in optimizing workflow efficiency. This webinar marks the beginning of our three-part “Essentials of Automation” series. This first webinar is designed to equip you with the knowledge and skills to utilize parameters effectively: enhancing the flexibility, maintainability, and user control of your FME projects.
Here’s what you’ll gain:
- Essentials of FME Parameters: Understand the pivotal role of parameters, including Reader/Writer, Transformer, User, and FME Flow categories. Discover how they are the key to unlocking automation and optimization within your workflows.
- Practical Applications in FME Form: Delve into key user parameter types including choice, connections, and file URLs. Allow users to control how a workflow runs, making your workflows more reusable. Learn to import values and deliver the best user experience for your workflows while enhancing accuracy.
- Optimization Strategies in FME Flow: Explore the creation and strategic deployment of parameters in FME Flow, including the use of deployment and geometry parameters, to maximize workflow efficiency.
- Pro Tips for Success: Gain insights on parameterizing connections and leveraging new features like Conditional Visibility for clarity and simplicity.
We’ll wrap up with a glimpse into future webinars, followed by a Q&A session to address your specific questions surrounding this topic.
Don’t miss this opportunity to elevate your FME expertise and drive your projects to new heights of efficiency.
Slack (or Teams) Automation for Bonterra Impact Management (fka Social Soluti...Jeffrey Haguewood
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This video focuses on the notifications, alerts, and approval requests using Slack for Bonterra Impact Management. The solutions covered in this webinar can also be deployed for Microsoft Teams.
Interested in deploying notification automations for Bonterra Impact Management? Contact us at sales@sidekicksolutionsllc.com to discuss next steps.
Securing your Kubernetes cluster_ a step-by-step guide to success !KatiaHIMEUR1
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However, this ease of use means that the subject of security in Kubernetes is often left for later, or even neglected. This exposes companies to significant risks.
In this talk, I'll show you step-by-step how to secure your Kubernetes cluster for greater peace of mind and reliability.
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As AI technology is pushing into IT I was wondering myself, as an “infrastructure container kubernetes guy”, how get this fancy AI technology get managed from an infrastructure operational view? Is it possible to apply our lovely cloud native principals as well? What benefit’s both technologies could bring to each other?
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In today's fast-changing business world, Companies that adapt and embrace new ideas often need help to keep up with the competition. However, fostering a culture of innovation takes much work. It takes vision, leadership and willingness to take risks in the right proportion. Sachin Dev Duggal, co-founder of Builder.ai, has perfected the art of this balance, creating a company culture where creativity and growth are nurtured at each stage.
Generating a custom Ruby SDK for your web service or Rails API using Smithyg2nightmarescribd
Have you ever wanted a Ruby client API to communicate with your web service? Smithy is a protocol-agnostic language for defining services and SDKs. Smithy Ruby is an implementation of Smithy that generates a Ruby SDK using a Smithy model. In this talk, we will explore Smithy and Smithy Ruby to learn how to generate custom feature-rich SDKs that can communicate with any web service, such as a Rails JSON API.
GDG Cloud Southlake #33: Boule & Rebala: Effective AppSec in SDLC using Deplo...James Anderson
Effective Application Security in Software Delivery lifecycle using Deployment Firewall and DBOM
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Welcome to UiPath Test Automation using UiPath Test Suite series part 4. In this session, we will cover Test Manager overview along with SAP heatmap.
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dwdm-sfp10g-80km-c28-optical-module-141119.doc
1. DWDM-SFP10G-80-C28-T02#141119
Guilin GLsun Science and Tech Group Co., LTD.
Tel: +86-773-3116006 info@glsun.com Web: www.glsun.com
- 1 -
10G 1554.94nm 80km DWDM SFP+ Transceiver
Specification Revision Record
Date Version Page Revision Description Prepare Approve
20160601 1.0 Zhang S
All right reserved by Guilin GLsun Science and Tech Group Co., LTD. Without written permission,
any unit or individual can’t reproduce, copy or use it for any commercial purpose.
Product 10G 1554.94nm 80km DWDM SFP+ Transceiver
Model DWDM-SFP10G-80-C28-T02
File No. DWDM-SFP10G-80-C28-T02#141119
Version 1.0
Issuing Date 2020-6-1
- 1 -
2. DWDM-SFP10G-80-C28-T02#141119
Guilin GLsun Science and Tech Group Co., LTD.
Tel: +86-773-3116006 info@glsun.com Web: www.glsun.com
- 2 -
Product Description
DWDM-SFP10G-80-C28-T02 Enhanced Small Form Factor Pluggable SFP+ transceivers are designed
for use in 10-Gigabit Ethernet links up to 80km over Single-Mode fiber. They are compliant with SFF- 8431,
SFF-8432 and ITU-T G.698.1. The transceiver designs are optimized for high performance and cost
effective to supply customers the best solutions for telecommunication.
This transceiver consists of two sections: The transmitter section incorporates a cooled EML laser. And the
receiver section consists of a APD photodiode integrated with a TIA. All modules satisfy class I laser safety
requirements. Digital diagnostics functions are available via a 2-wire serial interface, as specified in
SFF-8472, which allows real-time access to device operating parameters such as transceiver temperature,
laser bias current, transmitted optical power, received optical power and transceiver supply voltage.
Product Feature
Supports 9.95 to 11.3 Gb/s bit rates
Duplex LC connector
Hot pluggable SFP+ footprint
Cooled EML transmitter and APD receiver
Applicable for 80km SMF connection
Low power consumption, < 1.5W
100 GHz channel spacing
Digital Diagnostic Monitor Interface
Optical interface compliant to ITU-T 694.1& G.698.1
Electrical interface compliant to SFF-8431& SFF-8432
Operating case temperature: 0 to 70 °C (commercial)
Application
10G Ethernet
2x,4x, 8x Fiber Channel
ITU-T G.698.1
Other optical links
Product Channel Selection
Channel# Product Part No.
Frequency
(THz)
Center Wavelength
(nm)
17 SFP-10G-DWDM-C17-80 191.7 1563.86
18 SFP-10G-DWDM-C18-80 191.8 1563.05
4. DWDM-SFP10G-80-C28-T02#141119
Guilin GLsun Science and Tech Group Co., LTD.
Tel: +86-773-3116006 info@glsun.com Web: www.glsun.com
- 4 -
51 SFP-10G-DWDM-C51-80 195.1 1536.61
52 SFP-10G-DWDM-C52-80 195.2 1535.82
53 SFP-10G-DWDM-C53-80 195.3 1535.04
54 SFP-10G-DWDM-C54-80 195.4 1534.25
55 SFP-10G-DWDM-C55-80 195.5 1533.47
56 SFP-10G-DWDM-C56-80 195.6 1532.68
57 SFP-10G-DWDM-C57-80 195.7 1531.90
58 SFP-10G-DWDM-C58-80 195.8 1531.12
59 SFP-10G-DWDM-C59-80 195.9 1530.33
60 SFP-10G-DWDM-C60-80 196.0 1529.55
61 SFP-10G-DWDM-C61-80 196.1 1528.77
Functional Diagram
Absolute Maximum Ratings
Parameter Symbol Min Max Unit Note
Supply Voltage Vcc -0.5 4.0 V
Storage Temperature Ts -40 85 °C
Relative Humidity RH 0 85 %
Receiver Damage Threshold RxDamage +5 dBm
Note: Stress in excess of the maximum absolute ratings can cause permanent damage to the transceiver.
5. DWDM-SFP10G-80-C28-T02#141119
Guilin GLsun Science and Tech Group Co., LTD.
Tel: +86-773-3116006 info@glsun.com Web: www.glsun.com
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General Operating Characteristic
Parameter Symbol Min. Typ Max. Unit Note
Data Rate DR 9.95 10.3125 11.3 Gb/s
Supply Voltage Vcc 3.13 3.3 3.47 V
Supply Current Icc 450 mA
Operating Case
Temp.
Tc 0 70
°C
TI -40 85
Electrical Characteristics (TOP(C) = 0 to 70 ℃, TOP(I) =-40 to 85 ℃,VCC = 3.13 to 3.47 V)
Parameter Symbol Min. Typ Max
. Unit Note
Transmitter
Differential data
input swing
VIN,PP 120 850 mVpp 1
Transmit Disable
Voltage
VD VCC-0.8 Vcc
V
Transmit Enable
Voltage VEN Vee Vee+0.8
Input differential
impedance
Rin 100 Ω
Receiver
Differential data
output swing Vout,pp 300 850 mVpp 1
Output rise time
and fall time
Tr, Tf 28 Ps 2
LOS asserted VLOS_F VCC-0.8 Vcc V 3
LOS de-asserted VLOS_N Vee Vee+0.8 V 3
Notes:
1. Internally AC coupled. Data pins connect directly to the CDR.
2. 20 – 80%. Measured with Module Compliance Test Board and OMA test pattern. Use of four 1’s and
four 0’s sequence in the PRBS 9 is an acceptable alternative.
3. LOS is an open collector output. Should be pulled up with 4.7kΩ – 10kΩ on the host board. Normal
operation is logic 0; loss of signal is logic 1.
6. DWDM-SFP10G-80-C28-T02#141119
Guilin GLsun Science and Tech Group Co., LTD.
Tel: +86-773-3116006 info@glsun.com Web: www.glsun.com
- 6 -
Optical Characteristics (TOP(C) = 0 to 70 ℃, TOP(I) =-40 to 85 ℃,VCC = 3.13 to 3.47 V)
Parameter Symbol Min. Typ Max. Unit Note
Transmitter
Center Wavelength λc 1528.77 1563.86 nm
Center Wavelength
(End of Life)
λc_EOL λc±100pm
Ave. output power
(Enabled)
PAVE 0 5 dBm 1
Side-Mode
Suppression Ratio
SMSR 30 dB
Extinction Ratio ER 8.2 dB
RMS spectral width Δλ 1 nm
Rise/Fall time
(20%~80%)
Tr/Tf 50 ps
Relative Intensity Noise RIN -128 dB/Hz
Receiver
Operating Wavelength λ 1260 1600 nm
Sensitivity PSEN1 -23 dBm 2
Overload PAVE -7 dBm
LOS Assert Pa -35 dBm
LOS De-assert Pd -24 dBm
LOS Hysteresis Pd-Pa 0.5 dB
Notes:
1. Measured 231 – 1
PRBS@10.3125G
2. Measured with worst ER=8.2dB; 231 – 1
PRBS@10.3125G
Pin Definition And Functions
7. DWDM-SFP10G-80-C28-T02#141119
Guilin GLsun Science and Tech Group Co., LTD.
Tel: +86-773-3116006 info@glsun.com Web: www.glsun.com
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Pin Symbol Name/Description
1 VEET [1] Transmitter Ground
2 Tx_FAULT [2] Transmitter Fault
3 Tx_DIS [3] Transmitter Disable. Laser output disabled on high or open
4 SDA [2] 2-wire Serial Interface Data Line
5 SCL [2] 2-wire Serial Interface Clock Line
6 MOD_ABS [4] Module Absent. Grounded within the module
7 RS0 Rate Select 0
8 RX_LOS [2] Loss of Signal indication. Logic 0 indicates normal operation
9 RS1 Rate Select 1
10 VEER [1] Receiver Ground
11 VEER [1] Receiver Ground
12 RD- Receiver Inverted DATA out. AC Coupled
13 RD+ Receiver DATA out. AC Coupled
14 VEER [1] Receiver Ground
15 VCCR Receiver Power Supply
16 VCCT Transmitter Power Supply
17 VEET [1] Transmitter Ground
18 TD+ Transmitter DATA in. AC Coupled
19 TD- Transmitter Inverted DATA in. AC Coupled
20 VEET [1] Transmitter Ground
Notes:
1. Module circuit ground is isolated from module chassis ground within the module.
2. Should be pulled up with 4.7k – 10k ohms on host board to a voltage between 3.15V and 3.6V.
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 in the range 4.7 kΩ to10 kΩ.Mod_ABS is asserted “High” when the SFP+
module is physically absent from a host slot.
8. DWDM-SFP10G-80-C28-T02#141119
Guilin GLsun Science and Tech Group Co., LTD.
Tel: +86-773-3116006 info@glsun.com Web: www.glsun.com
- 8 -
Serial Interface for ID and Digital Diagnostic Monitor
DWDM-SFP10G-80-C28-T02 transceiver support the 2-wire serial communication protocol as defined in
the SFP+ MSA. The standard SFP+ serial ID provides access to identification information that describes
the transceiver’s capabilities, standard interfaces, manufacturer, and other information. Additionally, This
SFP+ transceivers provide an enhanced digital diagnostic monitoring interface, which allows real-time
access to device operating parameters such as transceiver temperature, laser bias current, transmitted
optical power, received optical power and transceiver supply voltage. It also defines a sophisticated
system of alarm and warning flags, which alerts end-users when particular operating parameters are
outside of a factory set normal range.
The SFP MSA defines a 256-byte memory map in EEPROM that is accessible over a 2-wire serial
interface at the 8 bit address 1010000X(A0h), so the originally monitoring interface makes use of the 8 bit
address(A2h), so the originally defined serial ID memory map remains unchanged. The structure of the
memory map is shown in Table1.
Table 1. Digital Diagnostic Memory Map (Specific Data Field Descriptions)
Digital Diagnostic Specifications
DWDM-SFP10G-80-C28-T02 transceivers can be used in host systems that require either
internally or externally calibrated digital diagnostics.
Parameter Symbol Units Min. Max. Accuracy Note
Transceiver temperature DTemp-E ºC -10 +90 ±5ºC 1,2
Transceiver supply
voltage
DVoltage V 2.8 4.0 ±3%
Transmitter bias current DBias mA 2 127 ±10% 3
Transmitter output power DTx-Power dBm -2 +7 ±2dB
Receiver average input
power
DRx-Power dBm -25 0 ±2dB
Notes:
1. When Operating temp.=0~70 ºC, the range will be min=-5, Max=+75
2. Internally measured
3. The accuracy of the Tx bias current is 10% of the actual current from the laser driver to the laser
9. DWDM-SFP10G-80-C28-T02#141119
Guilin GLsun Science and Tech Group Co., LTD.
Tel: +86-773-3116006 info@glsun.com Web: www.glsun.com
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Typical Interface Circuit
Recommended power supply filter
Note:
Inductors with DC resistance of less than 1Ω should be used in order to maintain the required voltage at
the SFP input pin with 3.3V supply voltage. When the recommended supply filtering network is used, hot
plugging of the SFP transceiver module will result in an inrush current of no more than 30 mA greater
than the steady state value
10. DWDM-SFP10G-80-C28-T02#141119
Guilin GLsun Science and Tech Group Co., LTD.
Tel: +86-773-3116006 info@glsun.com Web: www.glsun.com
- 10 -
Package Dimensions
Ordering Information
Part Number Description
DWDM-SFP10G-80-C28-T02
SFP+, 9.95 to 11.3Gb/s, DWDM wavelengths, 80km, 0~70℃,
with Digital Diagnostic Monitor