| 1 -Before 4-20 mA.mp4 | 85.1 MB | ||
| 1 -Conclusion.mp4 | 10.9 MB | ||
| 1 -Dead Zero Problem.mp4 | 134.3 MB | ||
| 1 -Design Rule - 20% Bias.mp4 | 40.4 MB | ||
| 1 -Easy I to V Conversion.mp4 | 33.5 MB | ||
| 1 -Fault Detection.mp4 | 18.4 MB | ||
| 1 -Field.mp4 | 124.6 MB | ||
| 1 -Human Safety.mp4 | 54.7 MB | ||
| 1 -Magnetic Field and Crosstalk Problems.mp4 | 80.7 MB | ||
| 1 -Pneumatic Control Systems.mp4 | 76.5 MB | ||
| 2 -Analog Systems.mp4 | 143.8 MB | ||
| 2 -Control Room.mp4 | 101.9 MB | ||
| 2 -Live Zero Advantage.mp4 | 110.1 MB | ||
| 2 -Long Distance Transmission.mp4 | 33.3 MB | ||
| 2 -Question Why 20 mA Why Not 30 mA.mp4 | 16.7 MB | ||
| 2 -Twisted Pair Cables Solution.mp4 | 69.9 MB | ||
| 2 -Why 20% Bias Rule.mp4 | 13.4 MB | ||
| 2 -Why I to V Conversion.mp4 | 127.1 MB | ||
| 3 -4-20 mA Overview in PLC Systems.mp4 | 91.5 MB | ||
| 3 -Converters.mp4 | 44.5 MB | ||
| 3 -Design Rule - 1 5 Ratio.mp4 | 46 MB | ||
| 3 -Limited to Single Measurement.mp4 | 27.6 MB | ||
| 3 -Question Why 4 mA Why Not 0 mA.mp4 | 14.5 MB | ||
| 3 -Question Why 4 mA Why Not 6 mA or 10 mA.mp4 | 19.8 MB | ||
| 3 -Question Why 4 to 20 mA Range.mp4 | 22.4 MB | ||
| 3 -Simple & Cost-Effective Wiring.mp4 | 40.8 MB | ||
| 4 -Introduction to Bias.mp4 | 32.1 MB | ||
| 4 -Less Affected by Noise & Interference.mp4 | 52.7 MB | ||
| 4 -Tank Level Measurement.mp4 | 67.8 MB | ||
| 4 -Transition to Analog Instruments.mp4 | 16.7 MB | ||
| 4 -Upper Range Value.mp4 | 13.8 MB | ||
| 4 -Why 15 Ratio.mp4 | 88.5 MB | ||
| 5 -Application Example 1.mp4 | 72.2 MB | ||
| 5 -Early Transistor & Circuit Limitations.mp4 | 76.7 MB | ||
| 5 -Industry Live Example.mp4 | 147.2 MB | ||
| 5 -Question Why 20 mA Why Not 25 mA or 15 mA.mp4 | 21.8 MB | ||
| 5 -Supports Loop-Powered Devices.mp4 | 43.8 MB | ||
| 6 -Analog Inputs in PLC.mp4 | 102.9 MB | ||
| 6 -Application Example 2.mp4 | 38.8 MB | ||
| 6 -Lower Range Value.mp4 | 19.2 MB | ||
| 6 -Question Why 4 mA Why Not 2 mA.mp4 | 18.6 MB | ||
| 6 -Simple Current to Voltage Conversion.mp4 | 11.6 MB | ||
| 7 -Application Example 3.mp4 | 49.4 MB | ||
| 7 -Pump Control.mp4 | 125 MB | ||
| 7 -Worldwide Industry Standard.mp4 | 34.3 MB | ||
| 8 -Analog Outputs in PLC.mp4 | 56.5 MB | ||
| 8 -Application Example 4.mp4 | 56.3 MB | ||
| 9 -4-20 mA Questions.mp4 | 27.3 MB | ||
| Bonus Resources.txt | 102.4 B | ||
| Get Bonus Downloads Here.url | 204.8 B | ||
| ▲ 50 total files | |||
Why 4-20 mA? PLC, Electrical & Instrumentation Training
https://FreeCourseWeb.com
Published 2/2025
Created by S Bharadwaj Reddy
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz, 2 Ch
Level: All | Genre: eLearning | Language: English | Duration: 48 Lectures ( 3h 33m ) | Size: 2.7 GB
PLC Basics, Electrical and Instrumentation Course, Industrial Automation Tutorials, Process Control Industries
What you'll learn
Understand why 4-20mA is used in electrical and instrumentation systems.
Learn why 4mA is chosen as the lower limit instead of 0mA.
Learn why 20mA is used as the upper limit in signal transmission.
Analyze why the 4-20mA range was selected over other ranges.
Explore the advantages and disadvantages of using 4-20mA signals.
Learn why 4-20mA is widely used in process control industries.
Requirements
No prior experience in electrical or instrumentation required.
Basic understanding of industrial automation concepts is helpful but not necessary.
Anyone interested in learning about 4-20mA signal transmission can join.
| torrent name | size | uploader | age | seed | leech |
|---|---|---|---|---|---|
| 505.81 MB | rndNbr | 12 years | 0 | 1 |
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