№ files_lp_3_process_7_068151
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The document is a lab report describing the use and troubleshooting of external reflectance sensors on an AEV, with recommendations for future improvements.
Year:
2026
Region / City:
N/A
Theme:
External Sensors, AEV, Troubleshooting
Document Type:
Lab Report
Organization / Institution:
N/A
Author:
N/A
Target Audience:
N/A
Period of Validity:
N/A
Approval Date:
N/A
Date of Changes:
N/A
Price: 8 / 10 USD
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The product description is provided for reference. Actual content and formatting may differ slightly.
Year:
2026
Institution:
Brown University, Department of Earth, Environmental and Planetary Sciences
Location:
Providence, Rhode Island, USA
Type of document:
Laboratory manual
Supported by:
NASA
Target audience:
NASA-funded investigators and researchers in planetary sciences
Instruments:
UV-Vis-NIR Bidirectional Spectrometer, Thermo Nexus 870 FT-IR Spectrometer, Continuµm Microscope
Operational mode:
Reflectance and transmission measurements
Specimen types:
Particulate samples, chips, slabs, thin sections, single crystals
Reference standards:
Spectralon, diffuse gold
Measurement range:
0.3–2.6 µm for UV-Vis-NIR, 0.9–200 µm for FT-IR
Precision:
Instrumental error <0.25% in reflectance
User requirements:
Registration form, specimen information form, compositional analysis form, measurement request form
Year:
2023
Region / City:
Princeton, New Jersey, USA
Topic:
Solar Reflectance, Infrared Emittance, Radiative Cooling
Document Type:
Research Article
Institution:
Princeton University, Institut National des Sciences Appliquées de Lyon
Author:
Anson Tsang, Nithin Jo Varghese, Mathis DeGeorges, Jyotirmoy Mandal
Target Audience:
Researchers in materials science and engineering
Date of Approval:
Not specified
Date of Changes:
Not specified
Document type:
Information notice
Regulation:
EU Data Act (Regulation (EU) 2023/2854)
Manufacturer:
ABB
Organization:
ABB Limited
Organization address:
Oldends Lane, Stonehouse, Gloucestershire, GL10 3TA, United Kingdom
Connected product category:
Digital pH/ORP and chlorine sensors
Connected products:
100 GP-D (APS122); 100 ULTRA-D (APS132); 500 PRO-D (APS522); 700 ULTRA-D (APS732); 700 M-D (APS752); 500 X-D (APS552); ChloroStar Sensor (ACL420)
Product connectivity:
Transmitters; wired digital and analog interfaces; wireless Bluetooth
Type of product data (direct access):
Measurement data; diagnostic logs; calibration data; manufacturing and configuration data
Product data formats (direct access):
CSV; XML; ABB native format; PDF
Estimated data volume (direct access):
Approximately 1–5 MB per hour
Data generation frequency:
Continuous, real time
Data retention period (direct access):
30 to 180 days
Type of product data (indirect access):
Configuration backups; fault logs; service interaction notes
Product data formats (indirect access):
TXT; CSV; XML; PDF
Estimated data volume (indirect access):
Up to 10 MB per service session
Data collection frequency (indirect access):
During support events, firmware updates, or calibration checks
Storage location (indirect access):
ABB technician systems; ABB secure SharePoint
Retention period (indirect access):
Up to 24 months
Data access request method:
ABB support channels; ABB privacy website
Year:
2018
Note:
Region / City
Topic:
Motion and Orientation Sensors
Document Type:
Technical Paper
Organization / Institution:
Microsoft
Target Audience:
OEMs, ODMs, IHVs
Date of Changes:
February 15, 2018
Version:
1.0
Circulated date:
January 2024
Review date:
July 2024
Scope:
Children and young people with Type 1 diabetes (CYP with T1DM)
Guideline reference:
NICE NG18 (2022)
Type:
Implementation document
Region:
London
Target audience:
Paediatric diabetes teams, healthcare professionals, CYP with T1DM and their families
Components:
Written pathway, implementation flowchart, accompanying device list
Device focus:
Continuous glucose monitoring (CGM)
Purpose:
Support implementation of NG18 and guide device choice
Year:
2016
Region / City:
United States
Theme:
Radar Systems, Military Procurement
Document Type:
Technical Manual, Contract Requirements
Organ / Institution:
U.S. Air Force
Author:
U.S. Air Force
Target Audience:
Contractors, System Program Offices, Technical Order Development Teams
Period of Validity:
Not specified
Approval Date:
21 April 2016
Date of Changes:
Not specified
Year:
2021
Region / City:
USA
Topic:
Non-contact temperature measurement
Document Type:
User Manual
Organization / Institution:
Process Sensors IR
Author:
Process Sensors IR Corp.
Target Audience:
Qualified personnel
Period of Validity:
N/A
Approval Date:
N/A
Amendment Date:
N/A
Year:
Not specified
Region / City:
Not specified
Topic:
Arduino programming, electronics
Document Type:
Course syllabus
Institution:
Not specified
Author:
Not specified
Target Audience:
Students interested in Arduino programming and electronics
Period of Action:
Not specified
Approval Date:
Not specified
Modification Date:
Not specified
Year:
2016
Region / City:
University Park, PA, USA; Gaithersburg, MD, USA; Irvine, CA, USA; Tsukuba, Ibaraki, Japan
Topic:
IEEE Sensors Letters Submission Guidelines
Document Type:
Guidelines / Template
Organization / Institution:
IEEE, The Pennsylvania State University, National Institute of Standards and Technology, University of California, National Institute for Materials Science
Author:
First A. Author, Second B. Author Jr., Third Author
Target Audience:
Authors submitting to IEEE Sensors Letters
Date of Approval:
November 2016
Date of Changes:
November 2016
Note:
Contextual Description
Document type:
Technical instruction
Subject:
Calibration of gain, power, energy, and phase in EMDC systems
Applicable hardware:
Shunts or current transformer (CT) current sensors
Operating modes:
Basic mode (Calibrate power); Advanced mode (Calibrate energy)
Parameters:
voltageSF; currentSF; activePowerSF; reactivePowerSF; phaseCorrection; TPU; WSD; FSD; WSR; FSR
ADC sampling frequency:
4 kHz
Example AC signal frequency:
60 Hz
ADC oversampling rate (OSR):
Defined by system configuration
Referenced file:
hal_adc.h
Referenced definitions:
HAL_ADC_V_ARRAY_LENGTH; HAL_ADC_I_ARRAY_LENGTH
Target device:
EMDC-programmed MCU
Calibration angles:
0° and 60°
Institution:
Ganpat University
Faculty:
Faculty of Engineering & Technology
Programme:
Diploma Engineering
Branch:
Mechatronics Engineering
Semester:
IV
Version:
1.0.0.0
Academic Year:
2019–20
Batch:
Admitted in July 2018
Subject Code:
1MC2401
Teaching Scheme:
3 Lecture hours and 2 Practical hours per week
Credits:
4
Examination Scheme:
Continuous Evaluation 40 (Theory) + 30 (Practical); Semester End Examination 60 (Theory) + 20 (Practical)
Total Marks:
150
Pre-requisites:
Basic electrical and electronics knowledge; fundamental mechanical engineering
Course Learning Outcomes:
Understanding control systems, signal processing, sensors, actuators, and design of mechatronics systems
Units:
Introduction; Signal Processing; Sensor; Actuators; Mechatronic Systems
Practical Component:
11 laboratory experiments and mini project
Reference Books:
Mechatronics by M.D. Singh; A Text Book of Mechatronics by R.K. Rajput; A Course in Electrical and Electronic Measurements by A.K. Sawhney; Fundamentals of Industrial Instrumentation and Process Control by William Dunn; Analog and Digital Circuits for Electronic Control System Applications by Jerry Luecke
Learning Resources:
nationalinstruments.com; controldevices.com; youtube.com; sensors-research.com; sensormag.com; honeywell.com
Document Type:
Academic syllabus
Year:
2022
Region / City:
Kentucky
Topic:
Controlled Environment Agriculture
Document Type:
Catalog
Organization / Institution:
University of Kentucky
Author:
Kelly Bryant, Arundathi Sharma, Qinglu Ying
Target Audience:
County Extension Agents, CEA Growers
Effective Period:
Ongoing
Approval Date:
N/A
Modification Date:
N/A
Year:
May 2015
Region:
Americas; Europe, Middle East, Africa; Asia-Pacific
Product Name:
Bosch FLEXIDOME IP indoor 4000 cameras (NIN-41012-V3; NII-41012-V3)
Document Type:
Product Guide Specification
Section Number:
28 23 29
Standard Format:
CSI 3-Part Format; MasterFormat 2004
Manufacturer:
Bosch Security Systems, Inc.; Bosch Security Systems B.V.; Robert Bosch (SEA) Pte Ltd, Security Systems
Addresses:
Fairport, New York, USA; Eindhoven, The Netherlands; Singapore
Subject:
Video Surveillance Remote Devices and Sensors
Application:
Indoor network video surveillance systems
Resolution:
720p at 30 fps
Lens:
Varifocal 3.3 to 10 mm, DC Iris fixed board-mounted
Power Supply:
+12 VDC; Power over Ethernet (IEEE 802.3af, class 2)
Standards and Compliance:
IEC 62471; EN 60950-1; UL 60950-1; CAN/CSA-C22.2 No. 60950-1-03; EN 50130-4; EN 50130-5 Class II; FCC Part 15 Subpart B Class B; EMC Directive 2004/108/EC; EN 55022 Class B; EN 55024; AS/NZS CISPR 22; ICES-003 Class B; VCCI J55022 V2/V3; EN 50121-4; ONVIF; EN 50132-5-2; IEC 62676-2-3
Certifications:
CE; FCC; UL; cUL; RCM; CB; VCCI
Warranty:
3 years manufacturer’s warranty
Quality Assurance:
ISO 9001 registered quality system; minimum 10 years manufacturer experience; minimum 5 years installer experience
Submittals:
Product data; user and installation manuals; shop drawings; wiring diagrams; maintenance requirements
Storage and Handling:
Delivery in original unopened containers; storage per manufacturer instructions
Technical Features:
Intelligent Dynamic Noise Reduction (IDNR); true day/night function; quad-streaming IP video; microSDHC/SDXC support up to 2 TB; optional built-in active infrared illumination (NII-41012-V3)
Year:
2026
Region / City:
N/A
Topic:
Scientific Equipment, pH Sensor Deployment
Document Type:
User Manual
Author:
Kaitlyn Lowder, Kim Currie, Christopher Sabine, Abed El Rahman Hassoun, Maribel I. García-Ibáñez, Melissa Meléndez, Sophie Chu, Katherina Schoo, Regina Easley
Target Audience:
Researchers, Technicians in Environmental Science and Engineering
Date of Publication:
2026
Date of Changes:
N/A
Purpose:
Guideline for deploying, preparing, and recovering the iSAMI pH sensor.
Year:
2026
Region:
United States
Subject:
Electrical Engineering / Lighting Control
Document Type:
Technical Specification
Organization:
Construction Project Management
Author:
Not specified
Target Audience:
Contractors, Electrical Engineers
Effective Period:
During construction and commissioning phase
Approval Date:
Not specified
Amendment Date:
Not specified
Related Sections:
Division 26 – Electrical
Equipment Standards:
UL, ANSI/IEEE compliance required
Installation Requirements:
Wall box and ceiling mount occupancy sensors, dimmers, and dimming systems
System Features:
Dimming control, occupancy detection, daylight harvesting, main and accessory controls
Year:
2025-2027
Region / City:
Waterloo, ON, Canada
Field:
Wireless Sensor Technologies, Healthcare, Aging
Document Type:
Biography
Organization / Institution:
Schlegel-University of Waterloo Research Institute for Aging, Spark Technology Labs, University of Waterloo
Author:
George Shaker
Professional Status:
Senior Member, IEEE; Lab Director; Chief Scientist; Adjunct Associate Professor
Education / Training:
NSERC Scholar, Georgia Institute of Technology
Experience:
Industrial technology development, academic research
Achievements:
Over 200 publications, 35+ patents, 50+ international awards
Target Audience:
IEEE members, researchers, industry professionals