№ lp_1_15696
File format: docx
Character count: 51628
File size: 172 KB
The document provides detailed requirements for ensuring the radiation hardness of electronic components in space projects, covering effects such as Total Ionizing Dose (TID), Total Non-Ionizing Dose (TNID), and Single Event Effects (SEE).
Year:
2025
Region / city:
Noordwijk, The Netherlands
Topic:
Radiation hardness assurance for EEE components
Document type:
Standard
Organization / institution:
European Space Agency (ESA), ECSS Secretariat
Author:
Radiation Hardness Assurance Working Group
Target audience:
Space industry professionals, engineers, and project managers in space missions
Effective period:
Ongoing
Approval date:
1 October 2012
Amendment date:
20 March 2025
Price: 8 / 10 USD
The file will be delivered to the email address provided at checkout within 12 hours.
The file will be delivered to the email address provided at checkout within 12 hours.
Don’t have cryptocurrency yet?
You can still complete your purchase in a few minutes:- Buy Crypto in a trusted app (Coinbase, Kraken, Cash App or any similar service).
- In the app, tap Send.
- Select network, paste our wallet address.
- Send the exact amount shown above.
The final amount may vary slightly depending on the payment method.
The file will be sent to the email address provided at checkout within 24 hours.
The product description is provided for reference. Actual content and formatting may differ slightly.
Note:
Year
Document Type:
User Manual
Target Audience:
Agriculture professionals, educators
Note:
Year
Topic:
Water testing, Coliform, Nitrate, Fluoride, pH, Hardness
Document Type:
Instructional Guide
Organization:
Central District Health Department
Target Audience:
Residents with private water supplies, individuals testing water quality
Year:
2026
Region / City:
International
Subject:
Material testing methodologies
Document type:
Survey questionnaire
Organization / Institution:
Not specified
Target audience:
Professionals involved in material testing and conservation
Survey structure:
Four sections including device usage, methodology, advantages/disadvantages, and research needs
Device types:
Equotip, Duroscope, Durometer, Other
Testing areas:
Mechanical characterization, Condition survey, Surface treatment assessment, Quality control
Testing methods:
Single Impact Method, Repeated Impact Method, Hybrid Dynamic Hardness, Other
Additional parameters investigated:
Compressive strength, Ultrasound pulse velocity, Drilling resistance, Scratch resistance, Surface roughness, Moisture content
Advantages noted:
Portability, Ease of use, Limited alteration of surfaces, Rapid data acquisition
Disadvantages noted:
Data reliability uncertainty, Difficulty correlating results, Visual impact of indentations, Sensitivity to surface properties, Equipment cost, Limited user base
Year:
2022
Region / City:
Noordwijk, The Netherlands
Topic:
Space Product Assurance, Standards for Electrical Components
Document Type:
Technical Standard
Organization / Institution:
European Space Agency (ESA)
Author:
ECSS-Q-ST-60-13C Working Group
Target Audience:
Engineers, Space Industry Professionals
Period of Validity:
Ongoing
Approval Date:
21 October 2013
Revision Date:
12 May 2022
Course:
EEE 445 Microwaves
Credits and Contact Hours:
4 Credit Hours (lecture, lab)
Topics:
Engineering
Course Coordinator:
Dr. George Pan, Professor
Textbook:
D.M. Pozar, Microwave Engineering, Addison-Wesley, 1990
Supplemental materials:
R.S. Elliott, An Introduction to Guided Waves and Microwave Circuits, Prentice-Hall, 1993; R.E. Collin, Foundations for Microwave Engineering, McGraw-Hill, 1996; D.K. Chen, Field and Wave Electromagnetics, Addison-Wesley, 1989; Ramo, Whinnery, and Vanducer, Fields and Waves in Communication Electronics
Catalog description:
Waveguides; circuit theory for waveguiding systems; microwave devices, systems, and energy sources; striplines and microstrips; impedance matching transformers; measurements
Prerequisites or co-requisites:
EEE341
Course type:
Elective
Specific goals:
To acquaint students with microwave circuits and systems
Outcomes of instruction:
Skills to identify and solve problems including microwave circuits and systems such as microstrip lines, couplers, hybrids, and waveguides
Outcomes of Criterion 3:
Use of math and engineering principles; use of modern tools for simulation; lab experiments and testing
Topics covered:
Transmission lines and waveguides; microstrip and striplines; microwave network analysis; matching techniques; multisection and tapered matching; resonators; dividers, couplers, hybrids; active microwave circuits; microwave systems and applications
Computer usage:
Design project and simulation including hybrid couplers, coupled lines, matching networks
Laboratory experiments:
Weekly three-hour laboratory; network analyzers; bandpass filter; isolator and circulator microstrip line; microcircuit bandpass filter; time domain measurement; power measurement; cavity and resonator
Course contribution:
Design, simulation and testing of basic microwave circuits including matching circuits, couplers, and resonators
Prepared by:
George Pan, Jim Aberle, K. Tsakalis
Date of preparation:
June 2021
Course:
EEE 459 Communication Networks
Credits and Contact Hours:
3 Credit Hours (lecture)
Topics:
Engineering
Course Coordinator:
Dr. Martin Reisslein, Professor
Textbook:
James F. Kurose and Keith W. Ross, Computer Networking, A Top-Down Approach, 5th Edition, 2010, Addison-Wesley, ISBN 0-13-607967-9
Supplemental Materials:
Behrouz A. Forouzan, Data Communications and Networking, 5th Edition, 2013; Andrew S. Tanenbaum, Computer Networks, 5th Edition, 2010; Dimitri Bertsekas and Robert Gallager, Data Networks, 2nd Edition, 1992
Catalog Description:
Fundamentals of communication networks and Five-Layer Internet model
Prerequisites:
EEE 203; pre-/co-requisite EEE 350
Course Type:
Elective
Specific Goals:
Identification and relation of fundamental components of a communication network
Instructional Outcomes:
Knowledge of protocol requirements and analysis of functional parameters in protocol design
Criterion 3 Outcomes:
Engineering and mathematical problem solving; analysis and modeling of communication systems
Topics Covered:
Internet overview; application, transport, network, link, and wireless layers; routing; congestion control; Ethernet; WiFi 802.11
Laboratory Experiments:
None
Computer Usage:
Web-based applets and online networking tools
Course Contribution to Engineering Science and Design:
Design and evaluation of networking protocols and local area networks
Prepared By:
Martin Reisslein, K. Tsakalis
Date of Preparation:
June 2021
Year:
2026
Institution:
University College London, Department of Electronic and Electrical Engineering
Document Type:
Project Proposal Form
Target Audience:
Undergraduate and MSc students in Electronic and Electrical Engineering
Project Scope:
Technical and applied engineering projects across multiple specializations
Contact Persons:
Dr Oliver Hadeler (Undergraduate Research Project Module Lead), Prof. Miguel Rio (MSc Director), Dr Robert Thompson (Strategic Alliance Director)
Application Areas:
Semiconductor devices, Quantum Devices, Optoelectronics, Laser Devices, Photovoltaics, Sensor Systems, Computer Vision, Radar, RF and THz systems, Optical Networks, Wireless Networks, Signal Processing, AI Applications
Industry Focus:
Smart and immersive environments, Robotics & Autonomous Systems, Connected and Autonomous Vehicles, Health and Wellbeing, Sustainability and Green Technologies, Secure and Resilient Technologies, Communication Networks including 5G
Year:
2013
Region / City:
Pune, India
Theme:
Software Testing, IT
Document Type:
Resume
Organization / Institution:
Perscitus Solutions Pvt. Ltd.
Author:
Niharendu Garnayak
Target Audience:
Employers in IT, Recruitment Agencies
Period of Activity:
2015 - Present
Date of Approval:
Not specified
Date of Changes:
Not specified
Year:
2026
Region / City:
Not specified
Subject:
Electrical Engineering, VLSI Design
Document Type:
Course Syllabus
Institution:
University / Department of Electrical and Electronic Engineering
Instructor / Author:
Not specified
Prerequisites:
EEE525, basic knowledge of Verilog, RTL synthesis, APR, static timing analysis
Target Audience:
Graduate students in Electrical Engineering
Course Duration:
One semester
Topics Covered:
Device variability, advanced devices impact, SRAM design, microprocessor microarchitecture, low power design, domino circuits, cache and buffer design, clocking, device reliability
Year:
2025
Region / city:
Great Britain
Subject:
Radiation Emergency Preparedness in Transport
Document Type:
Technical Inspection Guide
Authority:
ONR
Author:
Nuclear Safety Inspector, Radiological Protection
Target Audience:
ONR Inspectors
Period of Validity:
Until June 2030
Approval Date:
June 2025
Scheduled Review Date:
June 2030
Document Reference:
NS-INSP-GD-066
Record Reference:
ONRHH-822789359-20707
Revision Commentary:
Major update: Change in structure – Document now divided into four inspection "thematic areas". Clarified expectations around the method of testing of emergency plans and the frequency of testing. Removal of references to notifiable events as notification to ONR is dealt with in other ONR guidance.
Note:
Context
Effective Date:
01/01/2021
Year:
2021
Note:
Region / city
Subject:
Occupational Radiation Exposure
Document Type:
Inspection Procedure
Organization:
NRC
Target Audience:
Inspectors, Licensees
Approval Date:
01/01/2021
Year:
2007
Region / City:
Singapore
Theme:
Radiation Protection, Laser Safety
Document Type:
Application Form
Organization:
National Environment Agency
Author:
National Environment Agency
Target Audience:
Applicants seeking a licence to use lasers
Period of validity:
3 / 6 / 9 / 12 / 24 months
Approval Date:
Not specified
Modification Date:
Not specified
Year:
2021
Region / City:
ACT
Topic:
Radiation Protection
Document Type:
Radiation Management Plan
Organ / Institution:
ACT Health
Author:
Insert Name
Target Audience:
Dental Practitioners, Radiation Safety Officers
Period of Validity:
12 months from submission
Approval Date:
Insert Date
Date of Changes:
N/A
Year:
2026
Region / City:
United States
Subject:
Radiation exposure compensation
Document Type:
Claim form
Agency:
U.S. Department of Justice, Civil Division
Legal Basis:
Radiation Exposure Compensation Act (RECA), 42 U.S.C. § 2210 note
Target Audience:
Uranium workers, downwinders, onsite participants, Manhattan Project waste-affected individuals
Required Documentation:
Certified or original supporting records
Submission Method:
Paper or electronic filing
Contact:
www.justice.gov/civil/reca
Note:
, 1-800-729-7327
Year:
2021
Region / city:
Australian Capital Territory (ACT)
Topic:
Veterinary Radiation Safety
Document Type:
Management Plan
Organization / Institution:
ACT Health Directorate
Author:
Insert Name
Target Audience:
Veterinary Practice Staff
Period of Validity:
12 months after submission
Approval Date:
Insert Date
Date of Last Review:
Insert Date
Scheduled Review Date:
Insert Date
Radiation Safety Officer:
Insert Name
Responsible Person:
Insert Name
Position:
Insert Position
Phone:
Insert Phone Number
Work Location:
Insert Location
Version:
1.6
Date of Submission:
Insert Date
Date of Review:
Insert Date
Note:
Year
Context:
This document is a draft statement of work for providing radiation dosimetry services for the San Francisco Veterans Affairs Health Care System, outlining the requirements and specifications for dosimetry providers.
Year:
2024
Location:
Vienna, Austria
Event:
57th Meeting of the Radiation Safety Standards Committee (RASSC)
Organizer:
International Atomic Energy Agency (IAEA)
Venue:
Vienna International Centre, Room M3, M Building
Chair:
Mr. Haruyuki Ogino (Japan)
Acting Scientific Secretary:
Ms. Laura Urso (IAEA)
Participants:
Member States, IAEA staff, international organizations
Type of document:
Agenda and schedule of meetings
Main topics:
Approval of safety standards, reports on technical meetings, presentations on nuclear safety and radiation protection, IRRS/ORPAS missions, country and international organization reports
Dates:
9–13 December 2024
Language:
English
Distribution:
Participants of RASSC, international organizations, IAEA staff
Year:
2004
Region / City:
General Hospital
Topic:
Radiation Safety
Document Type:
Instruction Sheet
Organization / Institution:
General Hospital
Author:
Dr. John Smith
Target Audience:
Patients receiving radiopharmaceutical therapy
Action Period:
1 day - 26 days post-therapy
Approval Date:
January 1, 2004
Amendment Date:
N/A