Hartley oscillator
... The Hartley oscillator is distinguished by a tank circuit consisting of two series-connected coils in parallel with a capacitor, with the feedback signal needed for oscillation taken from the center connection between the coils; the coils act as a voltage divider. The Hartley oscillator is the dual ...
... The Hartley oscillator is distinguished by a tank circuit consisting of two series-connected coils in parallel with a capacitor, with the feedback signal needed for oscillation taken from the center connection between the coils; the coils act as a voltage divider. The Hartley oscillator is the dual ...
Circuit - BAschools.org
... might flow dangerously to the outside the shell of the appliance. However a ground wire, the current will flow safely into the ground, along either a buried rod or a cold water pipe. ...
... might flow dangerously to the outside the shell of the appliance. However a ground wire, the current will flow safely into the ground, along either a buried rod or a cold water pipe. ...
THAT Corporation Design Note 106
... • Make sure the power supply is quiet. • Make sure that the circuit is isolated from any RFI. Cover the circuit with a medium sized box covered with aluminum foil, and see if this alleviates the problem. You'll probably want to ground the foil. • As an experiment, try letting pin 4 of the VCA float. ...
... • Make sure the power supply is quiet. • Make sure that the circuit is isolated from any RFI. Cover the circuit with a medium sized box covered with aluminum foil, and see if this alleviates the problem. You'll probably want to ground the foil. • As an experiment, try letting pin 4 of the VCA float. ...
CEN/CE Capstone Project @ EKU
... The output of the guitar is very weak. 3mV peak-topeak is typical. The 8-bit ADC of the AVR is setup to use a 5V reference voltage. We have 255 usable steps over the 5 volt range which is equal to 19mV per step. This will not allow us enough precision to detect the zero crossings of the wave form. T ...
... The output of the guitar is very weak. 3mV peak-topeak is typical. The 8-bit ADC of the AVR is setup to use a 5V reference voltage. We have 255 usable steps over the 5 volt range which is equal to 19mV per step. This will not allow us enough precision to detect the zero crossings of the wave form. T ...
QUASAR ELECTRONICS KIT 1092 IN–CAR AIR IONISER
... The circuit of the ioniser is shown in figure 1 and consists of two parts. The first part is configured by the transistors Q1, Q2 in Darlington connection, the transformer T1, the resistors R2, R3 and the capacitor C2. The circuit is called blocking vibrator and operates in the frequency of 30KHz. A ...
... The circuit of the ioniser is shown in figure 1 and consists of two parts. The first part is configured by the transistors Q1, Q2 in Darlington connection, the transformer T1, the resistors R2, R3 and the capacitor C2. The circuit is called blocking vibrator and operates in the frequency of 30KHz. A ...
PS Systems EB100S Midi Tube Guitar Amplifier Proof of Existence I
... Once the proper cable orientation was restored, the front panel came up and everything appeared to work! However, after experimenting with the amp for awhile (with 1kHz sine wave and a scope) it became apparent that there was another problem. The tube amp could not generate an undistorted sine wave, ...
... Once the proper cable orientation was restored, the front panel came up and everything appeared to work! However, after experimenting with the amp for awhile (with 1kHz sine wave and a scope) it became apparent that there was another problem. The tube amp could not generate an undistorted sine wave, ...
SNA-286 DC-6.0 GHz, Cascadable GaAs MMIC Amplifier Product Description
... Sirenza Microdevices SNA-286 is a GaAs monolithic broadband amplifier (MMIC) housed in a low-cost surface-mountable plastic package. At 1950 MHz, this amplifier provides 15.5dB of gain and +14dBm of P1dB power when biased at 50mA. The use of an external resistor allows for bias flexibility and stabi ...
... Sirenza Microdevices SNA-286 is a GaAs monolithic broadband amplifier (MMIC) housed in a low-cost surface-mountable plastic package. At 1950 MHz, this amplifier provides 15.5dB of gain and +14dBm of P1dB power when biased at 50mA. The use of an external resistor allows for bias flexibility and stabi ...
Demo Activity: Understanding Circuits Series Circuit: 1. Build the
... - The electricity stops flowing through the circuit as there is a break in it. Switch is acting as the greatest resistor. 5. Collect the voltmeter, what does it measure? What are the units? - Measures the voltage. Its units are volts (V). 6. Look at how you can manipulate the voltage: Measure the vo ...
... - The electricity stops flowing through the circuit as there is a break in it. Switch is acting as the greatest resistor. 5. Collect the voltmeter, what does it measure? What are the units? - Measures the voltage. Its units are volts (V). 6. Look at how you can manipulate the voltage: Measure the vo ...
ppt
... cos2*pi*5t + (1/3)cos2*pi*15t + (1/5)cos2*pi*25t + (1/7)cos2*pi*35t) In this example the 15 and 35 Hz signals have suffered a phase shift (which can be caused as a result of different propagation speeds) with respect to the 5 and 25 Hz signals. The pulse shape changes significantly. ...
... cos2*pi*5t + (1/3)cos2*pi*15t + (1/5)cos2*pi*25t + (1/7)cos2*pi*35t) In this example the 15 and 35 Hz signals have suffered a phase shift (which can be caused as a result of different propagation speeds) with respect to the 5 and 25 Hz signals. The pulse shape changes significantly. ...
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.