Technologies Discussion

Цифровой приёмопередатчик № 1. Создание защищённого сигнала: скрытый этап: шифрование, кодировани...
Цифровой приёмопередатчик № 1. Создание защищённого сигнала: скрытый этап: шифрование, кодировани...
АЦП № 1. Преобразование аналогового сигнала в цифровые данные. 3 процесса АЦП: выборка, квантован...
АЦП № 1. Преобразование аналогового сигнала в цифровые данные. 3 процесса АЦП: выборка, квантован...
Отношение сигнал/шум № 3. Определение коэффициента шума и коэффициента шума: факторы, ухудшающие ...
Отношение сигнал/шум № 3. Определение коэффициента шума и коэффициента шума: факторы, ухудшающие ...
Децибел № 1. Мощность в дБ или ваттах. Почему для измерения усиления и ослабления мощности исполь...
Децибел № 1. Мощность в дБ или ваттах. Почему для измерения усиления и ослабления мощности исполь...
Антенна № 22. Визуализация поведения муравья: 3D-диаграмма направленности, 2D-полярная и 2D-декар...
Антенна № 22. Визуализация поведения муравья: 3D-диаграмма направленности, 2D-полярная и 2D-декар...
ИИ № 4. Как 5 основных компонентов ИИ (пример) создают автономные транспортные средства (будущее ...
ИИ № 4. Как 5 основных компонентов ИИ (пример) создают автономные транспортные средства (будущее ...
ИИ № 3. Как ИИ «видит» (воспринимает) изображения и «понимает» ваш язык (объяснение мультимодальн...
ИИ № 3. Как ИИ «видит» (воспринимает) изображения и «понимает» ваш язык (объяснение мультимодальн...
AI #2. Reasoning Vs Problem-Solving: Most of the Time, Reasoning First Before Problem-Solving.
AI #2. Reasoning Vs Problem-Solving: Most of the Time, Reasoning First Before Problem-Solving.
AI #1. AI Components: Learning, Reasoning, Problem-solving, Perception, Language Understanding.
AI #1. AI Components: Learning, Reasoning, Problem-solving, Perception, Language Understanding.
EMC #28. Shielding Design: Near Field, Low Freq (E- & H-field) & Far Field, High Freq (Plane Wave)
EMC #28. Shielding Design: Near Field, Low Freq (E- & H-field) & Far Field, High Freq (Plane Wave)
EMC #21. Absorption or Reflection? How to Properly Design a Shield Against ALL EMI Fields.
EMC #21. Absorption or Reflection? How to Properly Design a Shield Against ALL EMI Fields.
How 5G, Edge Computing & Portable Cloud Making Supercomputing Power Cheap & Accessible for Everyone.
How 5G, Edge Computing & Portable Cloud Making Supercomputing Power Cheap & Accessible for Everyone.
Satellite Communication #5. Apogee & Perigee, Ascend & Descend Nodes, Line of Apsides & Eccentricity
Satellite Communication #5. Apogee & Perigee, Ascend & Descend Nodes, Line of Apsides & Eccentricity
S-Parameters #10. VNA Measurement: How to Shift Reference Planes for S-Parameter Data & De-embedding
S-Parameters #10. VNA Measurement: How to Shift Reference Planes for S-Parameter Data & De-embedding
Antenna #21. How to Derive the Free Space Path Loss (FSPL) Eq from Friis Transmission Formula.
Antenna #21. How to Derive the Free Space Path Loss (FSPL) Eq from Friis Transmission Formula.
Radio Wave Propagation #2. How to Obtain Max Distance of Space Wave Direct & Ground Reflected Waves.
Radio Wave Propagation #2. How to Obtain Max Distance of Space Wave Direct & Ground Reflected Waves.
Transmission Line #1. Why Wire Become Antenna at High Freq (How Transmission Lines Theory Fix It)
Transmission Line #1. Why Wire Become Antenna at High Freq (How Transmission Lines Theory Fix It)
Power Divider #5. The 3dB Loss Mystery - Why T-Junction Resistive Dividers Waste Half Your Power.
Power Divider #5. The 3dB Loss Mystery - Why T-Junction Resistive Dividers Waste Half Your Power.
Antenna #20. How to Derive the Friis Transmission Equation & Apply to Calculate Receiver Power, Pr.
Antenna #20. How to Derive the Friis Transmission Equation & Apply to Calculate Receiver Power, Pr.
Microwave #2. Gauss, Faraday & Ampère: The Maxwell's Laws That Make Wireless Communication Work.
Microwave #2. Gauss, Faraday & Ampère: The Maxwell's Laws That Make Wireless Communication Work.
ZigBee #1. How This Global Standard Power Smart Applications with Low Cost, Long Battery Life & More
ZigBee #1. How This Global Standard Power Smart Applications with Low Cost, Long Battery Life & More
Multiple Access #2. Network Sharing: Multiplexing Vs Multiple Access Methods. Sharing Resources.
Multiple Access #2. Network Sharing: Multiplexing Vs Multiple Access Methods. Sharing Resources.
Multiple Access #1. Transmission Modes Made Simple: A Guide to Simplex, Half Duplex & Full Duplex.
Multiple Access #1. Transmission Modes Made Simple: A Guide to Simplex, Half Duplex & Full Duplex.
S-Parameters #5. Is Your Network Reciprocal & Lossless? How to Find the Input Return Loss Explained.
S-Parameters #5. Is Your Network Reciprocal & Lossless? How to Find the Input Return Loss Explained.
S-Parameters #4. Reason RF Design Uses Power Waves Instead of Voltage & Current for S-Parameters.
S-Parameters #4. Reason RF Design Uses Power Waves Instead of Voltage & Current for S-Parameters.
Impedance Matching #3. How to Design 2 Two Elements L-Section Guide. Series & Shunt (Ind/ Cap)
Impedance Matching #3. How to Design 2 Two Elements L-Section Guide. Series & Shunt (Ind/ Cap)
Antenna #19. How to Proof the Max Directivity & Effective Area Relationship (Derivation + Equation)
Antenna #19. How to Proof the Max Directivity & Effective Area Relationship (Derivation + Equation)
Impedance Matching #1. Explained Simply. How to Design for Maximum Power Transfer & Avoid Mismatch.
Impedance Matching #1. Explained Simply. How to Design for Maximum Power Transfer & Avoid Mismatch.
EMC #72. EFT/Burst Test (IEC/EN61000-4-4) Setup, Configuration & How to Select Test Level Explained!
EMC #72. EFT/Burst Test (IEC/EN61000-4-4) Setup, Configuration & How to Select Test Level Explained!
EMC #20. How to Calculate Wave Impedance in Air & Characteristic Impedance (Shielding) – Easy Guide!
EMC #20. How to Calculate Wave Impedance in Air & Characteristic Impedance (Shielding) – Easy Guide!