№ files_lp_4_process_3_136759
File format: docx
Character count: 736
File size: 62 KB
Source code demonstrating control of a servo motor with a button and potentiometer, while reading force sensor values and outputting them via PWM and serial communication.
Year:
2026
Region / City:
Not specified
Topic:
Arduino programming, servo motor, force sensor
Document Type:
Source code
Organization / Institution:
Individual / Open-source community
Author:
Not specified
Target Audience:
Electronics hobbyists, programmers
Hardware:
Arduino board, servo motor, force-sensitive resistor
Input:
Button, potentiometer
Output:
Servo angle, PWM signal, Serial Monitor
Programming Language:
C++
Libraries:
Servo
Price: 8 / 10 USD
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Year:
2021
Author:
Eileen Rheinboldt-Tran
Language:
English
Type of document:
Technical reference / Programming guide
Programming language:
C++
Topics:
Syntax, data types, control structures, functions, directives
Target audience:
Beginner to intermediate C++ programmers
Format:
Digital text document
Scope:
Covers basic C++ constructs including loops, conditionals, functions, and data types
Year:
2023
Region / city:
Not specified
Subject:
UAVCAN, AutoPilot Configuration, Hitec Servo
Document Type:
Technical Procedure
Organization / Institution:
Not specified
Author:
Not specified
Target Audience:
UAV integrators, engineers working with ArduPilot and UAVCAN
Period of Validity:
Not specified
Approval Date:
Not specified
Amendment Date:
Not specified
Year:
2026
Region / City:
Not specified
Subject:
Biomedical engineering, prosthetic devices
Document Type:
Laboratory worksheet
Institution / Organization:
Educational / STEM program
Author:
Not specified
Target Audience:
Students or beginner engineers
Data Collection Period:
During laboratory session
Equipment Used:
Servo motor, FSR sensor, Arduino IDE, graphing tools
Measurement Units:
Degrees for angles, analog values for FSR readings
Analysis Methods:
Scatter plots, regression analysis, graph interpretation
Year:
2024-25
Region / city:
Badulla & Monaragala
Topic:
Application for distribution appointment
Document type:
Application form
Organization:
Lanka IOC PLC
Author:
Senior Vice President (Lube Marketing & Production)
Target audience:
Individuals or companies interested in becoming Servo Lube distributors
Period of validity:
Not specified
Approval date:
Not specified
Date of changes:
Not specified
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
Journal:
INTERNATIONAL JOURNAL OF THERMODYNAMICS (IJOT)
Volume:
21
Issue:
1
Pages:
1–5
Year:
2018
ISSN:
1301-9724
e-ISSN:
2146-1511
DOI:
10.5541/ijot.5000209000
Website:
www.ijoticat.com
Published online:
March 1, 2018
Received:
28 November 2016
Revised:
17 November 2017
Accepted:
21 January 2018
Authors:
Elson Avallone; Paulo César Mioralli; Vicente Luiz Scalon; Alcides Padilha; Santiago del Rio Oliveira
Affiliations:
Instituto Federal de Educação, Ciência e Tecnologia de São Paulo; UNESP - Univ Estadual Paulista, Faculdade de Engenharia, Departamento de Engenharia Mecânica
Country:
Brazil
Type of document:
Research article
Field:
Thermodynamics; Solar radiation measurement; Thermal instrumentation
Keywords:
Pyranometer; Radiometer; Thermal sensor; Arduino
Abstract focus:
Design, calibration and dynamic modeling of a low-cost thermal pyranometer
Calibration method:
Comparison with commercial photodiode sensor
Estimated standard error:
20.8 W/m² (99% confidence level)
Estimated response time:
Approximately 1.5 minutes
Final cost of device:
US $ 60.00
Experiment Number:
8
Group:
B
Aim:
Write a program that asks the user for a number and outputs the number squared that is entered
Outcome:
Connectivity, configuration and serial communication with Arduino
Hardware Requirement:
Arduino, USB cable
Software Requirement:
Arduino IDE
Topic:
Arduino Serial Monitor and Serial Communication
Example Sketch:
ASCIITable
Boards Mentioned:
Arduino Uno, MEGA 2560
Baud Rate:
9600 baud
Number Range in Example:
33 to 126
Number Systems Used:
Decimal, Hexadecimal, Octal, Binary
Communication Interface:
USB connection between computer and Arduino
Type of Document:
Laboratory experiment instruction and tutorial
Year:
2025
Region / City:
Global
Topic:
Waste segregation, recycling, deep learning, object detection
Document Type:
Research paper
Organization / Institution:
Not specified
Author:
Not specified
Target Audience:
Researchers, environmental scientists, waste management professionals
Period of Validity:
Not specified
Approval Date:
Not specified
Modification Date:
Not specified
Year:
Not specified
Platform:
Intel Edison
Development Environment:
Arduino IDE 1.6.5
Programming Language:
Arduino (C/C++ based)
Network Configuration:
Custom HTTP port 1000
Referenced Examples:
WiFiWebServer Arduino example
Hardware Inputs:
Digital pins 2, 4, 6, 8
Primary Functionality:
Webpage hosting with background computations
Port Restrictions:
Avoid ports 22, 23, 80, 443
Update Mechanism:
Polling (with suggested interrupt-based improvement)
Type of Document:
Technical implementation notes
Document Type:
Learning activity instructions
Subject:
Electronics and sensor circuits
Topic:
Building a gas sensor circuit using Arduino
Components:
Arduino UNO R3, MQ-135 gas sensor, 0.96” OLED display, jumper wires, 9V AC/DC power adapter
Required Materials:
Arduino UNO R3 board, MQ-135 gas sensor module, OLED display, eight colored jumper wires, power adapter
Connection Interface:
Arduino pin connections to OLED display and MQ-135 sensor
Connection Details:
VCC, GND, SCL, SDA, AO, DO pin mapping between components
Instruction Format:
Step-by-step participant instructions with wiring table and diagrams
Figures Referenced:
Figure 1 wire connection diagram; Figure 2 voltage regulator location; Figure 3 reset button location
Software / Tools Referenced:
Fritzing
Audience:
Students participating in instructor-led electronics activity
Supervision Requirement:
Instructor verification before powering the circuit
Power Supply:
9V DC input via AC/DC adapter
Safety Considerations:
Static electricity precautions and heat from Arduino voltage regulator
Learning Context:
Classroom or workshop electronics activity
Year:
2024
Region / City:
Dhaka, Bangladesh
Topic:
Air Quality Monitoring
Document Type:
Journal Article
Institution / Publisher:
Science Domain International (SDI)
Author:
Iftekhar Uddin Mullick, Khan Atik Faisal, Tarikul Islam Nishat, Muhibul Haque Bhuyan
Target Audience:
Researchers and students in Electrical and Electronic Engineering
Study Period:
September 2023 – February 2024
Publication Date:
12 April 2024
Volume:
26
Issue:
3
Pages:
163–174
ISSN:
2582-2926
DOI:
https://doi.org/10.9734/jerr/2024/v26i51143
URL:
https://journaljerr.com/index.php/JERR/article/view/1143
Methodology:
Hardware-software design using Arduino Uno and DSM501A dust sensor to measure PM10 and determine air quality