@@t1d100 You are welcome! Glad that this video is helpful. Another interesting example is: 1x, 10x, 100x, 1000x Switched-Gain Instrumentation Amplifier ua-cam.com/video/9-MLqyewXW8/v-deo.html For more videos about Sensors and Instrumentation Amplifiers see the playlist ua-cam.com/play/PLrwXF7N522y7Ut9bm8TXAOhIWqL__FGlj.html I hope these videos are interesting as well.
You are welcome. Thanks for watching. I'm glad that this Instrumentation Amplifier video is useful. Here are a few more Op Amp circuit examples: Negative Feedback Importance in Difference Amplifier ua-cam.com/video/Ba-66z4T2FA/v-deo.html Op Amp Analog Computer Differential Equation Solver: ua-cam.com/video/ENq39EesfPw/v-deo.html Difference Amplifier Analysis ua-cam.com/video/gSaAcUCXQGk/v-deo.html Triangle Oscillator circuit ua-cam.com/video/JF5Up_cuL9k/v-deo.html Full-Wave Rectifier ua-cam.com/video/DJJMNU-CYcg/v-deo.html and ua-cam.com/video/HeZRtnRXpEI/v-deo.html presents a circuit with op amps and feedback loops to design an analog computer that solves a second order differential equation. For more analog signal processing examples see: ua-cam.com/play/PLrwXF7N522y4c7c-8KBjrwd7IyaZfWxyt.html Thanks again for watching 🙋♂️
For more Op Amp Circuit and Analog Filter examples please see: Op Amp Amplifier with Electronic Gain Control ua-cam.com/video/NoNgQpbj77Y/v-deo.html Op Amp Analog Computer Differential Equation Solver ua-cam.com/video/ENq39EesfPw/v-deo.html Push-Pull Power Amplifier with Darlington Transistors ua-cam.com/video/866MYibo8yE/v-deo.html How to find Bode Plot, Freq Response, Transfer Function of Analog Filters ua-cam.com/video/vZFkPeDa1H8/v-deo.html Analog Logarithm Computer ua-cam.com/video/RpKEq5WyoLg/v-deo.html Universal Analog Filter Design ua-cam.com/video/2J-0msXZE2o/v-deo.html Laplace Transform Example and S-domain circuit analysis: ua-cam.com/video/ps8N5TPM_qU/v-deo.html Op Amp circuit Bode Frequency plot ua-cam.com/video/BLVzuuqAlZs/v-deo.html Lowpass Butterworth Filter: ua-cam.com/video/UzCjkwqy-9w/v-deo.html Analog Computer to Raise Signal to power n ua-cam.com/video/IUTlBH1UraE/v-deo.html Triangle Oscillator Op Amp circuit ua-cam.com/video/JF5Up_cuL9k/v-deo.html Differential Equation Solver Analog Circuit ua-cam.com/video/R3X5AYNZGEI/v-deo.html Complex Sinusoid Oscillator ua-cam.com/video/GXRhmwmS5Zk/v-deo.html Sawtooth Oscillator Design ua-cam.com/video/2eUsGPfqbW4/v-deo.html Full-Wave Rectifier circuit example ua-cam.com/video/DJJMNU-CYcg/v-deo.html Sawtooth Waveform Generator design with OpAmp, JFET, BJT ua-cam.com/video/5zHXTx-Vl20/v-deo.html op amps Circuit with feedback loops to design an analog computer that solves a second order differential equation ua-cam.com/video/HeZRtnRXpEI/v-deo.html For more analog circuits and signal processing examples see: ua-cam.com/play/PLrwXF7N522y4c7c-8KBjrwd7IyaZfWxyt.html I hope these Circuit design and analysis videos are helpful. 🙋♂
Thank you for the explanation. This is very helpful. I just wonder if there is any major differencies between instrumentation amplifiers with single power supply and with dual power supply? Implementation that you shown here assumes dual power supply, right?
You're welcome. Thanks for watching & your comment. Glad to hear that this instrumentation amplifier analysis video is helpful. In this circuit example we need positive supply & negative supplies to generate difference voltage at the output. Single-supply design is possible but requires careful biasing and decoupling capacitors to generate AC difference voltage. For more examples pleasee see Op Amp Amplifier with Electronic Gain Control ua-cam.com/video/NoNgQpbj77Y/v-deo.html How to find Gain of Feedback Amplifier Example with JFET & BJT Transistors ua-cam.com/video/NB1-mYglXsY/v-deo.html Op Amp Analog Computer Differential Equation Solver ua-cam.com/video/ENq39EesfPw/v-deo.html Push-Pull Power Amplifier with Darlington Transistors ua-cam.com/video/866MYibo8yE/v-deo.html I hope these circuits are interesting as well. 🙋♂️
Thanks again for watching and your good question. Here are a few more Op Amp examples: Negative Feedback Importance in Difference Amplifier ua-cam.com/video/Ba-66z4T2FA/v-deo.html Triangle Oscillator circuit ua-cam.com/video/JF5Up_cuL9k/v-deo.html Full-Wave Rectifier ua-cam.com/video/DJJMNU-CYcg/v-deo.html Difference Amplifier Analysis ua-cam.com/video/gSaAcUCXQGk/v-deo.html Diode-Amplifier VTC ua-cam.com/video/vpGZkafxMJM/v-deo.html and ua-cam.com/video/HeZRtnRXpEI/v-deo.html presents a circuit with op amps and feedback loops to design an analog computer that solves a second order differential equation. For more analog signal processing examples see: ua-cam.com/play/PLrwXF7N522y4c7c-8KBjrwd7IyaZfWxyt.html Regarding your question, Dual power supply design allows us more degree of freedom in terms of handling input signal (at the expense of requiring two voltage supplies). I hope these Circuit engineering and analysis videos are helpful.
Thank you for teaching us!!!
@@t1d100 You are welcome! Glad that this video is helpful. Another interesting example is: 1x, 10x, 100x, 1000x Switched-Gain Instrumentation Amplifier ua-cam.com/video/9-MLqyewXW8/v-deo.html
For more videos about Sensors and Instrumentation Amplifiers see the playlist ua-cam.com/play/PLrwXF7N522y7Ut9bm8TXAOhIWqL__FGlj.html
I hope these videos are interesting as well.
Merci for this video.
You are welcome. Thanks for watching. I'm glad that this Instrumentation Amplifier video is useful. Here are a few more Op Amp circuit examples: Negative Feedback Importance in Difference Amplifier ua-cam.com/video/Ba-66z4T2FA/v-deo.html
Op Amp Analog Computer Differential Equation Solver: ua-cam.com/video/ENq39EesfPw/v-deo.html
Difference Amplifier Analysis ua-cam.com/video/gSaAcUCXQGk/v-deo.html
Triangle Oscillator circuit ua-cam.com/video/JF5Up_cuL9k/v-deo.html
Full-Wave Rectifier ua-cam.com/video/DJJMNU-CYcg/v-deo.html
and ua-cam.com/video/HeZRtnRXpEI/v-deo.html presents a circuit with op amps and feedback loops to design an analog computer that solves a second order differential equation.
For more analog signal processing examples see: ua-cam.com/play/PLrwXF7N522y4c7c-8KBjrwd7IyaZfWxyt.html
Thanks again for watching 🙋♂️
For more Op Amp Circuit and Analog Filter examples please see:
Op Amp Amplifier with Electronic Gain Control ua-cam.com/video/NoNgQpbj77Y/v-deo.html
Op Amp Analog Computer Differential Equation Solver ua-cam.com/video/ENq39EesfPw/v-deo.html
Push-Pull Power Amplifier with Darlington Transistors ua-cam.com/video/866MYibo8yE/v-deo.html
How to find Bode Plot, Freq Response, Transfer Function of Analog Filters ua-cam.com/video/vZFkPeDa1H8/v-deo.html
Analog Logarithm Computer ua-cam.com/video/RpKEq5WyoLg/v-deo.html
Universal Analog Filter Design ua-cam.com/video/2J-0msXZE2o/v-deo.html
Laplace Transform Example and S-domain circuit analysis: ua-cam.com/video/ps8N5TPM_qU/v-deo.html
Op Amp circuit Bode Frequency plot ua-cam.com/video/BLVzuuqAlZs/v-deo.html
Lowpass Butterworth Filter: ua-cam.com/video/UzCjkwqy-9w/v-deo.html
Analog Computer to Raise Signal to power n ua-cam.com/video/IUTlBH1UraE/v-deo.html
Triangle Oscillator Op Amp circuit ua-cam.com/video/JF5Up_cuL9k/v-deo.html
Differential Equation Solver Analog Circuit ua-cam.com/video/R3X5AYNZGEI/v-deo.html
Complex Sinusoid Oscillator ua-cam.com/video/GXRhmwmS5Zk/v-deo.html
Sawtooth Oscillator Design ua-cam.com/video/2eUsGPfqbW4/v-deo.html
Full-Wave Rectifier circuit example ua-cam.com/video/DJJMNU-CYcg/v-deo.html
Sawtooth Waveform Generator design with OpAmp, JFET, BJT ua-cam.com/video/5zHXTx-Vl20/v-deo.html
op amps Circuit with feedback loops to design an analog computer that solves a second order differential equation ua-cam.com/video/HeZRtnRXpEI/v-deo.html
For more analog circuits and signal processing examples see: ua-cam.com/play/PLrwXF7N522y4c7c-8KBjrwd7IyaZfWxyt.html
I hope these Circuit design and analysis videos are helpful. 🙋♂
Thank you for the explanation. This is very helpful. I just wonder if there is any major differencies between instrumentation amplifiers with single power supply and with dual power supply? Implementation that you shown here assumes dual power supply, right?
You're welcome. Thanks for watching & your comment. Glad to hear that this instrumentation amplifier analysis video is helpful. In this circuit example we need positive supply & negative supplies to generate difference voltage at the output. Single-supply design is possible but requires careful biasing and decoupling capacitors to generate AC difference voltage. For more examples pleasee see Op Amp Amplifier with Electronic Gain Control ua-cam.com/video/NoNgQpbj77Y/v-deo.html
How to find Gain of Feedback Amplifier Example with JFET & BJT Transistors ua-cam.com/video/NB1-mYglXsY/v-deo.html
Op Amp Analog Computer Differential Equation Solver ua-cam.com/video/ENq39EesfPw/v-deo.html
Push-Pull Power Amplifier with Darlington Transistors ua-cam.com/video/866MYibo8yE/v-deo.html
I hope these circuits are interesting as well. 🙋♂️
Thanks again for watching and your good question. Here are a few more Op Amp examples: Negative Feedback Importance in Difference Amplifier ua-cam.com/video/Ba-66z4T2FA/v-deo.html
Triangle Oscillator circuit ua-cam.com/video/JF5Up_cuL9k/v-deo.html
Full-Wave Rectifier ua-cam.com/video/DJJMNU-CYcg/v-deo.html
Difference Amplifier Analysis ua-cam.com/video/gSaAcUCXQGk/v-deo.html
Diode-Amplifier VTC ua-cam.com/video/vpGZkafxMJM/v-deo.html and
ua-cam.com/video/HeZRtnRXpEI/v-deo.html presents a circuit with op amps and feedback loops to design an analog computer that solves a second order differential equation.
For more analog signal processing examples see: ua-cam.com/play/PLrwXF7N522y4c7c-8KBjrwd7IyaZfWxyt.html
Regarding your question, Dual power supply design allows us more degree of freedom in terms of handling input signal (at the expense of requiring two voltage supplies).
I hope these Circuit engineering and analysis videos are helpful.