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Project and PCB making Workshop
... Buy components which are to be used in the circuit. Try to buy the components from the shop where they are much cheaper. Assemble the circuit on breadboard. If the circuit is working properly then proceed to next step. Make PCB layout for this circuit. PCB layout should be compact, so use datashe ...
... Buy components which are to be used in the circuit. Try to buy the components from the shop where they are much cheaper. Assemble the circuit on breadboard. If the circuit is working properly then proceed to next step. Make PCB layout for this circuit. PCB layout should be compact, so use datashe ...
+9V and -9V from one battery
... is that power dissipated in the resistances of the switches inside the 1044 and the series resistance of the capacitors, as well as the power to run the internal oscillator that flips the switches when needed. All by itself, the 1044 runs at about 7-10kHz, so there will be ripple of that amount on t ...
... is that power dissipated in the resistances of the switches inside the 1044 and the series resistance of the capacitors, as well as the power to run the internal oscillator that flips the switches when needed. All by itself, the 1044 runs at about 7-10kHz, so there will be ripple of that amount on t ...
Kit 7. 3V FM TRANSMITTER
... movement of the plate changes the capacitance. The electret capacitor is connected to an FET amplifier. These microphones are small, have excellent sensitivity, a wide frequency response and a very low cost. First amplification stage: this is a standard self-biasing common emitter amplifier. The 22n ...
... movement of the plate changes the capacitance. The electret capacitor is connected to an FET amplifier. These microphones are small, have excellent sensitivity, a wide frequency response and a very low cost. First amplification stage: this is a standard self-biasing common emitter amplifier. The 22n ...
Radio Frequency Detector
... frequency (RF) signal. If it is and a few other components. Detector diodes D1 and D2 capclose to RF-emitting devices such as a ture the RF from surroundings for television set or a computer, it shows a high reading in the UV meter, giv- the inverting input of IC1. The IC is ing us an idea about the ...
... frequency (RF) signal. If it is and a few other components. Detector diodes D1 and D2 capclose to RF-emitting devices such as a ture the RF from surroundings for television set or a computer, it shows a high reading in the UV meter, giv- the inverting input of IC1. The IC is ing us an idea about the ...
Solutions #3
... c) 4V - 1V = 3 V. Note that since no current flows into the - input, the 3 kW resistor does nothing. d) Again, no current flows into the - input, which must be at 0 Volts, so there is no voltage drop between the output and the input. The output must be at 0 Volts, and the 3 mA at the output must be ...
... c) 4V - 1V = 3 V. Note that since no current flows into the - input, the 3 kW resistor does nothing. d) Again, no current flows into the - input, which must be at 0 Volts, so there is no voltage drop between the output and the input. The output must be at 0 Volts, and the 3 mA at the output must be ...
BBA IInd SEMESTER EXAMINATION 2008-09
... V3 20 cos 440t then determine the frequency and rms value of resultant voltage. A metal filament lamp, rated at 750W, 100V is to be connected in series with a capacitance across a 230V, 50Hz supply. Calculate the value of capacitance required. Draw the ...
... V3 20 cos 440t then determine the frequency and rms value of resultant voltage. A metal filament lamp, rated at 750W, 100V is to be connected in series with a capacitance across a 230V, 50Hz supply. Calculate the value of capacitance required. Draw the ...
two stage ota design
... slows down the drop of the magnitude, thereby pushing the gain crossover away from the origin. To avoid this, a zero cancelling resistor with a value Rz=gm9-1 is used. In practice, the zero can even be moved into the left half plane so as to cancel the 1st non-dominant pole. However, the process of ...
... slows down the drop of the magnitude, thereby pushing the gain crossover away from the origin. To avoid this, a zero cancelling resistor with a value Rz=gm9-1 is used. In practice, the zero can even be moved into the left half plane so as to cancel the 1st non-dominant pole. However, the process of ...
Vacuum tubes
... The cavity magnetron is a high-powered vacuum tube that generates microwaves using the interaction of a stream of electrons with a magnetic field. The high power of pulses from the cavity magnetron made centimeter-band radar practical, with shorter wavelength radars allowing detection of smaller obj ...
... The cavity magnetron is a high-powered vacuum tube that generates microwaves using the interaction of a stream of electrons with a magnetic field. The high power of pulses from the cavity magnetron made centimeter-band radar practical, with shorter wavelength radars allowing detection of smaller obj ...
Physics 517/617 HOMEWORK V Due Nov 24
... expression in part b). Show that the resulting current has a term that depends linearly on cosωct and a term that depends linearly on cosωmt (it also has lots of other terms!). e) Remembering that the base-emitter junction of a transistor acts like a diode, use the results of part d) to describe how ...
... expression in part b). Show that the resulting current has a term that depends linearly on cosωct and a term that depends linearly on cosωmt (it also has lots of other terms!). e) Remembering that the base-emitter junction of a transistor acts like a diode, use the results of part d) to describe how ...
Physics 4700 HOMEWORK V Due March 21
... expression in part b). Show that the resulting current has a term that depends linearly on cosωct and a term that depends linearly on cosωmt (it also has lots of other terms!). e) Remembering that the base-emitter junction of a transistor acts like a diode, use the results of part d) to describe how ...
... expression in part b). Show that the resulting current has a term that depends linearly on cosωct and a term that depends linearly on cosωmt (it also has lots of other terms!). e) Remembering that the base-emitter junction of a transistor acts like a diode, use the results of part d) to describe how ...
DE-70BM
... DEFLECTOR DRIVER DESCRIPTION The Model DE series Deflector Drivers include a voltage controlled RF oscillator and a broadband RF power amplifier in a housing with power supply, RFI line filter, and line switch. An optional (M) analog amplitude modulation circuit is available. Standard frequency line ...
... DEFLECTOR DRIVER DESCRIPTION The Model DE series Deflector Drivers include a voltage controlled RF oscillator and a broadband RF power amplifier in a housing with power supply, RFI line filter, and line switch. An optional (M) analog amplitude modulation circuit is available. Standard frequency line ...
Final Design Presentation
... Using this filter would be problematic because we would have to use either 20kHz or 30kHz, so there would be some insufficient sampling rates. ...
... Using this filter would be problematic because we would have to use either 20kHz or 30kHz, so there would be some insufficient sampling rates. ...
LOOP INPUT CIRCUITS
... • In fig.2.3(a),the inductance of the loop is tuned out by a capacitor,the two together making a series tuned circuit. • The series tuned circuit provides a certain amount of circuit magnification of the loop voltage eL. • Fig 2.3(b) and 2.3(c) show developments of the same circuit to achieve a be ...
... • In fig.2.3(a),the inductance of the loop is tuned out by a capacitor,the two together making a series tuned circuit. • The series tuned circuit provides a certain amount of circuit magnification of the loop voltage eL. • Fig 2.3(b) and 2.3(c) show developments of the same circuit to achieve a be ...
LCR and resonance
... This is known as the resonant condition for the circuit. You can see that since XL and XC are frequency-dependent, the resonant condition depends on the frequency of the applied a.c. Every series a.c. circuit has a frequency for which resonance occurs, known as its resonant frequency (fo). This is g ...
... This is known as the resonant condition for the circuit. You can see that since XL and XC are frequency-dependent, the resonant condition depends on the frequency of the applied a.c. Every series a.c. circuit has a frequency for which resonance occurs, known as its resonant frequency (fo). This is g ...
PowerPoint - Computer Science Department
... wireless sound transmission system using a modulated laser beam, for non-physics major students to build. Circuit designs were chosen based on ease of construction as well as functionality. This project focused on building the laser microphone and characterizing its spectral response. ...
... wireless sound transmission system using a modulated laser beam, for non-physics major students to build. Circuit designs were chosen based on ease of construction as well as functionality. This project focused on building the laser microphone and characterizing its spectral response. ...
Document
... Simple AGC (automatic gain control) is used in most inexpensive broadcast-band radio receivers. With simple AGC, the AGC bias begins to increase as soon as the received signal level exceeds the thermal noise of the receiver. Delayed AGC prevents the AGC feedback voltage from reaching the RF or I ...
... Simple AGC (automatic gain control) is used in most inexpensive broadcast-band radio receivers. With simple AGC, the AGC bias begins to increase as soon as the received signal level exceeds the thermal noise of the receiver. Delayed AGC prevents the AGC feedback voltage from reaching the RF or I ...
Regenerative circuit
The regenerative circuit (or regen) allows an electronic signal to be amplified many times by the same active device. It consists of an amplifying vacuum tube or transistor with its output connected to its input through a feedback loop, providing positive feedback. This circuit was widely used in radio receivers, called regenerative receivers, between 1915 and World War II. The regenerative receiver was invented in 1912 and patented in 1914 by American electrical engineer Edwin Armstrong when he was an undergraduate at Columbia University. Due partly to its tendency to radiate interference, by the 1930s the regenerative receiver was superseded by other receiver designs, the TRF and superheterodyne receivers and became obsolete, but regeneration (now called positive feedback) is widely used in other areas of electronics, such as in oscillators and active filters. A receiver circuit that used regeneration in a more complicated way to achieve even higher amplification, the superregenerative receiver, was invented by Armstrong in 1922. It was never widely used in general receivers, but due to its small parts count is used in a few specialized low data rate applications, such as garage door openers, wireless networking devices, walkie-talkies and toys.