Operational Amplifiers
... Set the output of the function generator to produce a bipolar sine wave output of 300mV peak-to-peak, at 1 kHz. Connect the signal generator to the input of your circuit and display your input and output waveforms on the oscilloscope (using Channels 1 and 2). Measure the peak to peak voltages of VIN ...
... Set the output of the function generator to produce a bipolar sine wave output of 300mV peak-to-peak, at 1 kHz. Connect the signal generator to the input of your circuit and display your input and output waveforms on the oscilloscope (using Channels 1 and 2). Measure the peak to peak voltages of VIN ...
Design, Simulation and Testing of MOSIS Fabricated CMOS
... greater than 10,000 (spec) and a DC offset of about 1.9mV. The frequency response characteristics measured with CIE-Bode (Figure 10) indicate that the device has unity gain frequency greater than 1 MHz which is the upper limit of our set up. Phase plot also shows a value of 85 degrees even at 1MHz. ...
... greater than 10,000 (spec) and a DC offset of about 1.9mV. The frequency response characteristics measured with CIE-Bode (Figure 10) indicate that the device has unity gain frequency greater than 1 MHz which is the upper limit of our set up. Phase plot also shows a value of 85 degrees even at 1MHz. ...
Unit 2 Signals
... The continuous analogue signal varies continuously between a minimum level and a maximum level. It could be representative of a speech or audio signal for example. The discrete digital signal assumes a finite number of logic levels. A 2 level signal is shown in the example above. Typically a high vo ...
... The continuous analogue signal varies continuously between a minimum level and a maximum level. It could be representative of a speech or audio signal for example. The discrete digital signal assumes a finite number of logic levels. A 2 level signal is shown in the example above. Typically a high vo ...
AN139A - NXP Semiconductors
... determined. Furthermore, if fαe, is not known, a curve could also be constructed if hfeo and hfe at any frequency above fαe were known. Thus to determine hfe at any frequency, it is necessary to know only hfeo and either fαe or hfe at some frequency f, where f is greater than fαe. Sometimes hfeo is ...
... determined. Furthermore, if fαe, is not known, a curve could also be constructed if hfeo and hfe at any frequency above fαe were known. Thus to determine hfe at any frequency, it is necessary to know only hfeo and either fαe or hfe at some frequency f, where f is greater than fαe. Sometimes hfeo is ...
MAX2181A - Maxim Part Number Search
... Lead Temperature (TQFN only, soldering, 10s)............... +300ºC Soldering Temperature (reflow)........................................ +260ºC ...
... Lead Temperature (TQFN only, soldering, 10s)............... +300ºC Soldering Temperature (reflow)........................................ +260ºC ...
CIRCUIT FUNCTION AND BENEFITS
... differential FFT plots in Figure 3 and Figure 4. The singleended circuit avoids the use of a transformer or balun in front of the amplifier while still maintaining excellent distortion up to approximately 100 MHz. However, at frequencies above approximately 100 MHz, second-order distortion increases ...
... differential FFT plots in Figure 3 and Figure 4. The singleended circuit avoids the use of a transformer or balun in front of the amplifier while still maintaining excellent distortion up to approximately 100 MHz. However, at frequencies above approximately 100 MHz, second-order distortion increases ...
Dual 160 MHz Rail-to-Rail Amplifier AD8042
... G = +2, RL = 150 Ω to 1.5 V, Input VCM = 1 V RL = 75 Ω to 1.5 V, Input VCM = 1 V G = +2, RL = 150 Ω to 1.5 V, Input VCM = 1 V RL = 75 Ω to 1.5 V, Input VCM = 1 V f = 5 MHz, RL = 1 kΩ to 1.5 V ...
... G = +2, RL = 150 Ω to 1.5 V, Input VCM = 1 V RL = 75 Ω to 1.5 V, Input VCM = 1 V G = +2, RL = 150 Ω to 1.5 V, Input VCM = 1 V RL = 75 Ω to 1.5 V, Input VCM = 1 V f = 5 MHz, RL = 1 kΩ to 1.5 V ...
CIRCUIT FUNCTION AND BENEFITS
... Data acquisition systems with wide dynamic range often need some method for adjusting the input signal level to the analog-todigital converter (ADC). In order to get the most from an ADC, the maximum input signal should match its full-scale voltage. This is achieved by implementing a programmable ga ...
... Data acquisition systems with wide dynamic range often need some method for adjusting the input signal level to the analog-todigital converter (ADC). In order to get the most from an ADC, the maximum input signal should match its full-scale voltage. This is achieved by implementing a programmable ga ...
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... to show all work. You may use equations given in the lab lecture, class lecture, or from a textbook (i.e., you do not need to derive the voltage gain). Be sure you understand how to use the equations, though—if assumptions are included, you must state these and show that you meet them. Do not simply ...
... to show all work. You may use equations given in the lab lecture, class lecture, or from a textbook (i.e., you do not need to derive the voltage gain). Be sure you understand how to use the equations, though—if assumptions are included, you must state these and show that you meet them. Do not simply ...
Making the Most of a Low-Power, High-Speed
... A Sallen-Key topology is normally used to set the gain independently of the filter. In a unity-gain configuration, this filter is usually applied in filters with high-gain accuracy and low Q. A typical Sallen-Key filter circuit, as Figure 13 illustrates, shows a single-supply, low-pass filter with a ...
... A Sallen-Key topology is normally used to set the gain independently of the filter. In a unity-gain configuration, this filter is usually applied in filters with high-gain accuracy and low Q. A typical Sallen-Key filter circuit, as Figure 13 illustrates, shows a single-supply, low-pass filter with a ...
A 15b 1Ms/s digitally self-calibrated pipeline ADC
... clockcycles[l-3l.Althoughanalogcalibrationdoesnotrequire extra clockcycles during normal conversions, for pipeline ADCs where many stages are calibrated, the added complexity [41. This paper presents a and capacitive load are significant digital calibration technique based on radix 1.93. The digital ...
... clockcycles[l-3l.Althoughanalogcalibrationdoesnotrequire extra clockcycles during normal conversions, for pipeline ADCs where many stages are calibrated, the added complexity [41. This paper presents a and capacitive load are significant digital calibration technique based on radix 1.93. The digital ...
Chapter 3: Three-Phase System
... In general, three phase systems are preferred over single phase systems for the transmission of the power system for many reasons, including the following: • Thinner conductors can be used to transmit the same kVA at the same voltage, which reduces the amount of copper required (typically about 25% ...
... In general, three phase systems are preferred over single phase systems for the transmission of the power system for many reasons, including the following: • Thinner conductors can be used to transmit the same kVA at the same voltage, which reduces the amount of copper required (typically about 25% ...
RF3377 GENERAL PURPOSE AMPLIFIER Features
... Exceeding any one or a combination of the Absolute Maximum Rating conditions may cause permanent damage to the device. Extended application of Absolute Maximum Rating conditions to the device may reduce device reliability. Specified typical performance or functional operation of the device under Abs ...
... Exceeding any one or a combination of the Absolute Maximum Rating conditions may cause permanent damage to the device. Extended application of Absolute Maximum Rating conditions to the device may reduce device reliability. Specified typical performance or functional operation of the device under Abs ...
a 60 MHz, 2000 V/ Monolithic Op Amp AD844
... A simplified schematic is shown in Figure 4. The AD844 differs from a conventional op amp in that the signal inputs have radically different impedance. The noninverting input (Pin 3) presents the usual high impedance. The voltage on this input is transferred to the inverting input (Pin 2) with a low ...
... A simplified schematic is shown in Figure 4. The AD844 differs from a conventional op amp in that the signal inputs have radically different impedance. The noninverting input (Pin 3) presents the usual high impedance. The voltage on this input is transferred to the inverting input (Pin 2) with a low ...
Chapter 3 - Three Phase System
... In general, three phase systems are preferred over single phase systems for the transmission of the power system for many reasons, including the following: • Thinner conductors can be used to transmit the same kVA at the same voltage, which reduces the amount of copper required (typically about 25% ...
... In general, three phase systems are preferred over single phase systems for the transmission of the power system for many reasons, including the following: • Thinner conductors can be used to transmit the same kVA at the same voltage, which reduces the amount of copper required (typically about 25% ...
Bode plot
In electrical engineering and control theory, a Bode plot /ˈboʊdi/ is a graph of the frequency response of a system. It is usually a combination of a Bode magnitude plot, expressing the magnitude of the frequency response, and a Bode phase plot, expressing the phase shift. Both quantities are plotted against a horizontal axis proportional to the logarithm of frequency.