electronic instrumentation
... instruments that do not contain electronic components. In order to compete with rival companies or just remain a step ahead of them, the designers of technical systems and innovative products must be fully aware of both the assets and the limitations of electronic components and systems. Users of el ...
... instruments that do not contain electronic components. In order to compete with rival companies or just remain a step ahead of them, the designers of technical systems and innovative products must be fully aware of both the assets and the limitations of electronic components and systems. Users of el ...
JSUNIL TUTORIAL CBSE MATHS & SCIENCE
... electrons that pass through any cross-section of the resistor in this time. Q.17. A 100 watt electric bulb is lighted for 2 hours daily and four 40 watt bulbs are lighted for 4 hours daily. Calculate the electric energy consumed in kwh in 30 days. Q.18. Two lamps, one rated 100 W at 220 volts and th ...
... electrons that pass through any cross-section of the resistor in this time. Q.17. A 100 watt electric bulb is lighted for 2 hours daily and four 40 watt bulbs are lighted for 4 hours daily. Calculate the electric energy consumed in kwh in 30 days. Q.18. Two lamps, one rated 100 W at 220 volts and th ...
Rectifier: It is a circuit which employs one or more diodes to convert
... so that their τ= RC = 10 ms. as stated earlier, capacitor will take a time of 5τ = 50 ms to get fully discharged. But the input signal will allow it just 0.5 ms during which to discharge. Obviously, C would hardly get discharged in this extremely short time interval of 0.5 ms. hence, it can be assu ...
... so that their τ= RC = 10 ms. as stated earlier, capacitor will take a time of 5τ = 50 ms to get fully discharged. But the input signal will allow it just 0.5 ms during which to discharge. Obviously, C would hardly get discharged in this extremely short time interval of 0.5 ms. hence, it can be assu ...
Electricity Continued SHORT versionR2014
... • DC = direct current like battery • Electrons flow in one direction • AC = Alternating current like mains • Electron flow changes direction 50x per ...
... • DC = direct current like battery • Electrons flow in one direction • AC = Alternating current like mains • Electron flow changes direction 50x per ...
AD8028-KGD-CHIPS Low-Distorion, High Speed Rail-to
... Single-supply and rail-to-rail output Low offset voltage 1.5 mV maximum High common-mode rejection ratio: −100 dB SFDR −88 dBc @ 1 MHz Low power: 6.4 mA/amplifier typical supply current Known good die (KGD): these die are fully guaranteed to data sheet specifications ...
... Single-supply and rail-to-rail output Low offset voltage 1.5 mV maximum High common-mode rejection ratio: −100 dB SFDR −88 dBc @ 1 MHz Low power: 6.4 mA/amplifier typical supply current Known good die (KGD): these die are fully guaranteed to data sheet specifications ...
A dual-polarity, bidirectional current-shunt monitor
... comparable input-voltage levels. Instead of an analog meter-scale indication, the current-shunt monitor provides a voltage or current output level, or a digital output code, that directly corresponds to the measured current level. A variety of current-shunt monitors are available that are at the sam ...
... comparable input-voltage levels. Instead of an analog meter-scale indication, the current-shunt monitor provides a voltage or current output level, or a digital output code, that directly corresponds to the measured current level. A variety of current-shunt monitors are available that are at the sam ...
Ejemplo del 741
... feedback also affects the output impedance of the amplifier and therefore its damping factor. Roughly speaking, the damping factor is a measure of the ability of the amplifier to control the speaker. All other things being equal, the greater the amount of feedback, the lower its output impedance and ...
... feedback also affects the output impedance of the amplifier and therefore its damping factor. Roughly speaking, the damping factor is a measure of the ability of the amplifier to control the speaker. All other things being equal, the greater the amount of feedback, the lower its output impedance and ...
AND8019/D Offline Converter Provides 5.0 Volt, 1.0 Amp
... converters offers a low cost, high efficiency power source for low power, electronic equipment. It serves the same function as small, line frequency transformers, but with the added benefits of line and load regulation, transient suppression, reduction in weight, and operation across the universal i ...
... converters offers a low cost, high efficiency power source for low power, electronic equipment. It serves the same function as small, line frequency transformers, but with the added benefits of line and load regulation, transient suppression, reduction in weight, and operation across the universal i ...
IS32AP2120 - Integrated Silicon Solution
... authorized for use in such applications unless Integrated Silicon Solution, Inc. receives written assurance to its satisfaction, that: a.) the risk of injury or damage has been minimized; b.) the user assume all such risks; and c.) potential liability of Integrated Silicon Solution, Inc is adequa ...
... authorized for use in such applications unless Integrated Silicon Solution, Inc. receives written assurance to its satisfaction, that: a.) the risk of injury or damage has been minimized; b.) the user assume all such risks; and c.) potential liability of Integrated Silicon Solution, Inc is adequa ...
LM78S40 Universal Switching Regulator Subsystem
... The LM78S40 is a variable frequency, variable duty cycle device. The initial switching frequency is set by the timing capacitor. (Oscillator frequency is set by a single external capacitor and may be varied over a range of 100 Hz to 100 kHz). The initial duty cycle is 6:1. This switching frequency a ...
... The LM78S40 is a variable frequency, variable duty cycle device. The initial switching frequency is set by the timing capacitor. (Oscillator frequency is set by a single external capacitor and may be varied over a range of 100 Hz to 100 kHz). The initial duty cycle is 6:1. This switching frequency a ...
JBL A6000GTi Balanced Current Sub Amp
... The A6000GTi will deliver 50 amperes at 120 volts. Not only will this amplifier deliver more power than any other car audio amplifier available, it will do so with distortion an order of magnitude lower than current Class-D amplifiers, and a damping factor of better than 2000 @ 3 ohms, measured belo ...
... The A6000GTi will deliver 50 amperes at 120 volts. Not only will this amplifier deliver more power than any other car audio amplifier available, it will do so with distortion an order of magnitude lower than current Class-D amplifiers, and a damping factor of better than 2000 @ 3 ohms, measured belo ...
Resistors
... To measure the voltage across a resistor, the voltmeter is placed in parallel with it To measure the current through a resistor, the ammeter is placed in series with it To measure the resistance of a resistor, the resistor is removed from the circuit and each end is connected to an end of the ...
... To measure the voltage across a resistor, the voltmeter is placed in parallel with it To measure the current through a resistor, the ammeter is placed in series with it To measure the resistance of a resistor, the resistor is removed from the circuit and each end is connected to an end of the ...
Lehrstuhl für Technische Elektronik Integrated Circuits Design Lab II
... (a) Extract the threshold voltage VT . As a first approximation, VT is defined as: VGS @IDS = 300nA·(W/L), VDS = VDD /2 for the nMOS and VGS @IDS = −70nA·(W/L), VDS = −VDD /2 for the pMOS. (b) Extract µCox . this calculation is explained in [1] (c) Extract λ. this calculation is also shown in [1] (d ...
... (a) Extract the threshold voltage VT . As a first approximation, VT is defined as: VGS @IDS = 300nA·(W/L), VDS = VDD /2 for the nMOS and VGS @IDS = −70nA·(W/L), VDS = −VDD /2 for the pMOS. (b) Extract µCox . this calculation is explained in [1] (c) Extract λ. this calculation is also shown in [1] (d ...
PDF Version(33KB)
... shipping a low-noise, small-package amplifier for global positioning systems (GPS) in mobile devices on November 1. The MGF7301 features industry-leading low-noise of 0.75dB and its small, lead-free package measures just 1.45mm x 1.0mm x 0.5mm, which help to downsize GPS circuitry. ...
... shipping a low-noise, small-package amplifier for global positioning systems (GPS) in mobile devices on November 1. The MGF7301 features industry-leading low-noise of 0.75dB and its small, lead-free package measures just 1.45mm x 1.0mm x 0.5mm, which help to downsize GPS circuitry. ...
NATIONAL SEMICONDUCTOR (LM556CN) DUAL TIMER
... The LM556 Dual timing circuit is a highly stable controller capable of producing accurate time delays or oscillation. The 556 is a dual 555. Timing is provided by an external resistor and capacitor for each timing function. The two timers operate independently of each other sharing only VCC and grou ...
... The LM556 Dual timing circuit is a highly stable controller capable of producing accurate time delays or oscillation. The 556 is a dual 555. Timing is provided by an external resistor and capacitor for each timing function. The two timers operate independently of each other sharing only VCC and grou ...
EEEE 482 Lab0_Rev2015_1 - RIT
... be used for design of the common emitter amplifier (such as 2N3904 datasheet, equations for small signal voltage gain, etc.). Design and simulate the amplifier to meet the design specifications you pick. Each student will randomly pick design specifications: (1) a minimum value for magnitude of volt ...
... be used for design of the common emitter amplifier (such as 2N3904 datasheet, equations for small signal voltage gain, etc.). Design and simulate the amplifier to meet the design specifications you pick. Each student will randomly pick design specifications: (1) a minimum value for magnitude of volt ...
Opto-isolator
In electronics, an opto-isolator, also called an optocoupler, photocoupler, or optical isolator, is a component that transfers electrical signals between two isolated circuits by using light. Opto-isolators prevent high voltages from affecting the system receiving the signal. Commercially available opto-isolators withstand input-to-output voltages up to 10 kV and voltage transients with speeds up to 10 kV/μs.A common type of opto-isolator consists of an LED and a phototransistor in the same opaque package. Other types of source-sensor combinations include LED-photodiode, LED-LASCR, and lamp-photoresistor pairs. Usually opto-isolators transfer digital (on-off) signals, but some techniques allow them to be used with analog signals.