The RC Series Circuit
... 1) Connect the circuit elements as shown in Figure 4(a). Set the voltage output knob on the signal generator to I volt. At this setting the output resistance of the signal generator, RG, is 52 ohms. 2) Turn on the oscilloscope and the signal generator. Adjust the horizontal sweep knob (TIME/DIV) and ...
... 1) Connect the circuit elements as shown in Figure 4(a). Set the voltage output knob on the signal generator to I volt. At this setting the output resistance of the signal generator, RG, is 52 ohms. 2) Turn on the oscilloscope and the signal generator. Adjust the horizontal sweep knob (TIME/DIV) and ...
DATAFLEX® Torque measuring shaft NEW
... is directed through two disks the transparency of which is amended proportionally to the torque. The overall electronics are situated in a stationary housing to make sure that no signals have to be transmitted by the rotating shaft and the torque is available accurately with a high band width of 16 ...
... is directed through two disks the transparency of which is amended proportionally to the torque. The overall electronics are situated in a stationary housing to make sure that no signals have to be transmitted by the rotating shaft and the torque is available accurately with a high band width of 16 ...
currents through inductances, capacitances and resistances
... current i. Voltage VC may be observed with the oscilloscope connected across the capacitor C. (The triggering of the oscilloscope should be internal.) If the time constants are short, it is necessary to do the switching described above more rapidly. This is done by means of a pulse generator or a sq ...
... current i. Voltage VC may be observed with the oscilloscope connected across the capacitor C. (The triggering of the oscilloscope should be internal.) If the time constants are short, it is necessary to do the switching described above more rapidly. This is done by means of a pulse generator or a sq ...
5.Op-Amp Applications CW Nonlinear applications7
... The input is applied to the non-inverting input terminal of the op-amp. To understand the working of the circuit, let us assume that the output is positively saturated i.e. at +Vsat. This is fedback to the non-inverting input through R1. This is a positive feedback. Now though Vin is decreased, the ...
... The input is applied to the non-inverting input terminal of the op-amp. To understand the working of the circuit, let us assume that the output is positively saturated i.e. at +Vsat. This is fedback to the non-inverting input through R1. This is a positive feedback. Now though Vin is decreased, the ...
ECG-Amplifier
... Common mode gain Ideal op-amps amplify only the voltage difference in its inputs Real op-amps amplify also voltage that is common to both inputs (common mode gain) Minimizing this common mode gain (i.e. maximizing the common mode rejection ratio, ’CMRR’) is important for most applications ...
... Common mode gain Ideal op-amps amplify only the voltage difference in its inputs Real op-amps amplify also voltage that is common to both inputs (common mode gain) Minimizing this common mode gain (i.e. maximizing the common mode rejection ratio, ’CMRR’) is important for most applications ...
ultra sonic range finder ( mini radar)
... AT89S52. The AT89S52 oscillates at a frequency of 40 kHz between high and low on RA0 and low and high on RA1. This produces a 40kHz square wave with a peak to peak voltage of about 10 volts. This signal is transmitted for approximately 130us per measurement. ...
... AT89S52. The AT89S52 oscillates at a frequency of 40 kHz between high and low on RA0 and low and high on RA1. This produces a 40kHz square wave with a peak to peak voltage of about 10 volts. This signal is transmitted for approximately 130us per measurement. ...
Electrical Engineering Lab. II
... Introduction to Electric Circuits, 9th edition, R. C. Dorf and J. A. Svoboda, 2014. Microelectronic Circuits, 6th edition, A. S. Sedra and K. C. Smith, 2010. Course Goal(s): This course provides knowledge and skills for circuit measurement and testing, with an emphasis on the loading effects and lim ...
... Introduction to Electric Circuits, 9th edition, R. C. Dorf and J. A. Svoboda, 2014. Microelectronic Circuits, 6th edition, A. S. Sedra and K. C. Smith, 2010. Course Goal(s): This course provides knowledge and skills for circuit measurement and testing, with an emphasis on the loading effects and lim ...
Project 2
... The oscillator output we want to use is the triangle wave, but audible triangle waves are a little raspy because they contain some high frequency components. (They sound much better than square waves, however.) Still, we would like to get rid of the higher frequencies, and to do that we need a filte ...
... The oscillator output we want to use is the triangle wave, but audible triangle waves are a little raspy because they contain some high frequency components. (They sound much better than square waves, however.) Still, we would like to get rid of the higher frequencies, and to do that we need a filte ...
Optical Fan Out
... amplifies it and fans it out eight (8) ways. The unit is used for short runs where stabilized links are not required. A semiconductor amplifier and fan-out is used. The input and output power levels are monitored, and the gain of the module is adjustable. ...
... amplifies it and fans it out eight (8) ways. The unit is used for short runs where stabilized links are not required. A semiconductor amplifier and fan-out is used. The input and output power levels are monitored, and the gain of the module is adjustable. ...
IC of a low-dispersion timing discriminator, intended to
... device (ECD). So, noises and disturbances do not affect the output signal of the whole timing channel. Biasing the comparator to the linear segment of switching curve allows us to increase its gain and permits operation with input signals of very small amplitude. Further such a biasing will be ment ...
... device (ECD). So, noises and disturbances do not affect the output signal of the whole timing channel. Biasing the comparator to the linear segment of switching curve allows us to increase its gain and permits operation with input signals of very small amplitude. Further such a biasing will be ment ...
127-10_Resonance
... 1 Oscilloscope, 1 Function Generator, 1 Inductance Coil, 1 Decade Resistance Box, 1 Decade Capacitance Box, 1 Frequency Counter. B. Method We use a dual-trace oscilloscope to monitor the input voltage applied to the series RLC circuit (channel 1) and simultaneously observe the voltage across parts o ...
... 1 Oscilloscope, 1 Function Generator, 1 Inductance Coil, 1 Decade Resistance Box, 1 Decade Capacitance Box, 1 Frequency Counter. B. Method We use a dual-trace oscilloscope to monitor the input voltage applied to the series RLC circuit (channel 1) and simultaneously observe the voltage across parts o ...
Document
... For Vp = 1 and RL = 1kohm, specify the signal resulting at the output of the amplifier. For Vp = 1.5 and RL = 1kohm, specify the signal resulting at the output of the amplifier. For RL= 1kohm what is the maximum value of Vp for undistorted output? For Vp = 1V what is the lowest value of RL for undis ...
... For Vp = 1 and RL = 1kohm, specify the signal resulting at the output of the amplifier. For Vp = 1.5 and RL = 1kohm, specify the signal resulting at the output of the amplifier. For RL= 1kohm what is the maximum value of Vp for undistorted output? For Vp = 1V what is the lowest value of RL for undis ...
1 (Vahid 4.1) Given a timer ... frequency of 10 MHz: (a)Determine ...
... controlling input voltage is 3.7 V. Assume that you are using a microcontroller with a PWM whose output port can be set high (5 V) or low (0 V). (a) Compute the duty cycle necessary to obtain 10 revolutions per second. (b) Provide values for a pulse width and period that achieve this duty cycle. You ...
... controlling input voltage is 3.7 V. Assume that you are using a microcontroller with a PWM whose output port can be set high (5 V) or low (0 V). (a) Compute the duty cycle necessary to obtain 10 revolutions per second. (b) Provide values for a pulse width and period that achieve this duty cycle. You ...
Project: sun tracker
... • Trigger: when < 1/3 Vcc, the output is high (Vcc) • Threshold input: when > 2/3 Vcc and the trigger is > 1/3 Vcc, the output is low (0V). If the trigger is < 1/3 Vcc, it overrides the threshold input and holds the output high. • Reset input: when less than about 0.7V, all other inputs are overridd ...
... • Trigger: when < 1/3 Vcc, the output is high (Vcc) • Threshold input: when > 2/3 Vcc and the trigger is > 1/3 Vcc, the output is low (0V). If the trigger is < 1/3 Vcc, it overrides the threshold input and holds the output high. • Reset input: when less than about 0.7V, all other inputs are overridd ...
Capacitor Self
... Before writing down that this is the experimentally determined bandwidth, make sure, by calculation, that the output amplitude didn’t decrease in amplitude due to slew-rate limiting. If you were near the slew-rate limit in step 4, simply decrease the amplitude of the generator output and do the proc ...
... Before writing down that this is the experimentally determined bandwidth, make sure, by calculation, that the output amplitude didn’t decrease in amplitude due to slew-rate limiting. If you were near the slew-rate limit in step 4, simply decrease the amplitude of the generator output and do the proc ...
Linear Biphasic Stimulus Isolator
... The Model BSI- 1A Biphasic Stimulus Isolator is totally battery powered utilizing optimum packaging design to provide maximum isolation of stimulus signals. This instrument is a truly linear device which will convert any waveform from 0 to plus and minus 10 volts into a constant current or constant ...
... The Model BSI- 1A Biphasic Stimulus Isolator is totally battery powered utilizing optimum packaging design to provide maximum isolation of stimulus signals. This instrument is a truly linear device which will convert any waveform from 0 to plus and minus 10 volts into a constant current or constant ...
Transient Response
... You may have seen a count up of the time step (lower right) as the program go through the calculations as a function of time. When done, Simulation complete should appear in the lower left . A plot will be generated where the number of curves will be equal the number of voltage and current markers o ...
... You may have seen a count up of the time step (lower right) as the program go through the calculations as a function of time. When done, Simulation complete should appear in the lower left . A plot will be generated where the number of curves will be equal the number of voltage and current markers o ...
Digital Tachometer
... circuit can have a different ground reference, and the supply voltage Vs can be chosen to establish a desired output volt-age range. With no common ground, the optoisolator creates a state of electrical isolation between the input and output circuits by transmitting the signal optically rather than ...
... circuit can have a different ground reference, and the supply voltage Vs can be chosen to establish a desired output volt-age range. With no common ground, the optoisolator creates a state of electrical isolation between the input and output circuits by transmitting the signal optically rather than ...
View File
... • Once Signal is in Digital Form it Can be Processed by Digital Circuits • Digital Circuits also Process Signals which do Not Have Analog Origin, e.g., Signals Representing Digital Computer Instruction • As Digital Circuits Deal With Binary Signals Their Design is Simpler Than of Analog Circuits • ...
... • Once Signal is in Digital Form it Can be Processed by Digital Circuits • Digital Circuits also Process Signals which do Not Have Analog Origin, e.g., Signals Representing Digital Computer Instruction • As Digital Circuits Deal With Binary Signals Their Design is Simpler Than of Analog Circuits • ...
1321TH 13 GHz Bandwidth 2 GS/s THA
... The 1321TH track-and-hold amplifier is designed for high precision sampling of wideband signals with multi-GHz frequency content. The master-slave architecture integrates two track-and-hold (T/H) circuits, clock mode selection logic, and a 50 Ω differential output buffer. Sample rates up to 2 GS/s a ...
... The 1321TH track-and-hold amplifier is designed for high precision sampling of wideband signals with multi-GHz frequency content. The master-slave architecture integrates two track-and-hold (T/H) circuits, clock mode selection logic, and a 50 Ω differential output buffer. Sample rates up to 2 GS/s a ...
Oscilloscope history
This article discusses the history and development of oscilloscope technology.