The 2N4352 is an enhancement mode N-Channel Mosfet
... Note 1 ‐ Absolute maximum ratings are limiting values above which 2N4352 serviceability may be impaired. Note 2 ‐ Device must not be tested at ±125V more than once or longer than 300ms. ...
... Note 1 ‐ Absolute maximum ratings are limiting values above which 2N4352 serviceability may be impaired. Note 2 ‐ Device must not be tested at ±125V more than once or longer than 300ms. ...
application notes for tantalum capacitors
... 25°C. Measurement circuits are of high impedance, however, and under these conditions 1 volt rms may be applied even to 6 volt capacitors (23% peak reversal) without a DC bias. DC bias is thus normally not used, except when rated voltage is below 6 volts and the AC signal level exceeds 0.3 vrms. How ...
... 25°C. Measurement circuits are of high impedance, however, and under these conditions 1 volt rms may be applied even to 6 volt capacitors (23% peak reversal) without a DC bias. DC bias is thus normally not used, except when rated voltage is below 6 volts and the AC signal level exceeds 0.3 vrms. How ...
LT1187 - Low Power Video Difference Amplifier
... normal operation REF, Pin 1, is grounded or taken to a DC offset control voltage and differential signals are applied between Pins 2 and 3. The input responds linearly until all of the 345µA current flows through the 1.1k resistor and Q1 (or Q2) turns off. Therefore the maximum input swing is 380mVP ...
... normal operation REF, Pin 1, is grounded or taken to a DC offset control voltage and differential signals are applied between Pins 2 and 3. The input responds linearly until all of the 345µA current flows through the 1.1k resistor and Q1 (or Q2) turns off. Therefore the maximum input swing is 380mVP ...
Fixed Negative 5-V 200-mA Inverting DC/DC
... The TPS6735 is a fixed negative 5-V output inverting dc/dc converter capable of delivering 200 mA from inputs as low as 4.5 V. The only external components required are an inductor, an output filter capacitor, an input filter capacitor, a reference filter capacitor, and a Schottky rectifier. An enab ...
... The TPS6735 is a fixed negative 5-V output inverting dc/dc converter capable of delivering 200 mA from inputs as low as 4.5 V. The only external components required are an inductor, an output filter capacitor, an input filter capacitor, a reference filter capacitor, and a Schottky rectifier. An enab ...
High Voltage, Precision Difference Amplifier AD8208
... resistor network attenuates the common-mode signal by a ratio of 1/14. The A1 amplifier inputs are held within the power supply range, even as Pin 1 and Pin 8 exceed the supply or fall below the common (ground). A reference voltage of 350 mV biases the attenuator above ground, allowing Amplifier A1 ...
... resistor network attenuates the common-mode signal by a ratio of 1/14. The A1 amplifier inputs are held within the power supply range, even as Pin 1 and Pin 8 exceed the supply or fall below the common (ground). A reference voltage of 350 mV biases the attenuator above ground, allowing Amplifier A1 ...
operational amplifier - EECS: www
... amplifiers and a smattering of the various configurations that they can be used in. Apart from their most common use as amplifiers (both inverting and non-inverting), they also find applications as buffers (load isolators), adders, subtractors, integrators, logarithmic amplifiers, impedance converte ...
... amplifiers and a smattering of the various configurations that they can be used in. Apart from their most common use as amplifiers (both inverting and non-inverting), they also find applications as buffers (load isolators), adders, subtractors, integrators, logarithmic amplifiers, impedance converte ...
analog multiplier
... 2.5 V are positive voltages and voltages below 2.5 V are negative voltages. Care needs to be taken not to load the ADL5391 too heavily, the maximum reference current available is 50 mA. ...
... 2.5 V are positive voltages and voltages below 2.5 V are negative voltages. Care needs to be taken not to load the ADL5391 too heavily, the maximum reference current available is 50 mA. ...
Electricity
... Start with Filter 1. Form sine Vout2 voltage. Fix the amplitude of Vout and compare the amplitude of Vin6 and Vout2 at different frequencies. Find the two example frequencies; f1 where amplitude of Vin6 is not significantly smaller than Vout2 (say that amplitude 0.85 < Vin6/Vout2 < 0.95) and f2 wher ...
... Start with Filter 1. Form sine Vout2 voltage. Fix the amplitude of Vout and compare the amplitude of Vin6 and Vout2 at different frequencies. Find the two example frequencies; f1 where amplitude of Vin6 is not significantly smaller than Vout2 (say that amplitude 0.85 < Vin6/Vout2 < 0.95) and f2 wher ...
script
... to the 600 DC volt scale. Notice that there are 3 zeros displayed and no decimal point. The meter can now read up to 600 volts DC. Ask the students to continue to rotate the function selection knob one click left through the other DC voltage ranges and note the change in the decimal point location. ...
... to the 600 DC volt scale. Notice that there are 3 zeros displayed and no decimal point. The meter can now read up to 600 volts DC. Ask the students to continue to rotate the function selection knob one click left through the other DC voltage ranges and note the change in the decimal point location. ...
Directcurrent Circuits
... 6) A hot lightbulb has a much higher resistance 7) A light bulb usually fails just when switched on because the resistance is small and the current high, and thus the power delivered high (P=I2R) In the demos shown in this lecture, all lightbulbs have the same resistance if at the same temperatur ...
... 6) A hot lightbulb has a much higher resistance 7) A light bulb usually fails just when switched on because the resistance is small and the current high, and thus the power delivered high (P=I2R) In the demos shown in this lecture, all lightbulbs have the same resistance if at the same temperatur ...
LM6165/LM6265/LM6365 High Speed
... Keep all leads short to reduce stray capacitance and lead inductance, and make sure ground paths are low-impedance, especially where heavier currents will be flowing. Stray capacitance in the circuit layout can cause signal coupling between adjacent nodes, and can cause circuit gain to unintentional ...
... Keep all leads short to reduce stray capacitance and lead inductance, and make sure ground paths are low-impedance, especially where heavier currents will be flowing. Stray capacitance in the circuit layout can cause signal coupling between adjacent nodes, and can cause circuit gain to unintentional ...
First: demonstrate the charging of a capacitor with the provided... capacitor with the provided 9 volt battery. Once it is...
... little LED-lamp. With a little bit of luck you can have the LED lamp illuminate for more than a minute. We use an LED-lamp as it is very efficient and only requires a small current. You might need to switch off the light in the room. Emphasize that a capacitor can be used to store charge or store en ...
... little LED-lamp. With a little bit of luck you can have the LED lamp illuminate for more than a minute. We use an LED-lamp as it is very efficient and only requires a small current. You might need to switch off the light in the room. Emphasize that a capacitor can be used to store charge or store en ...
MAX3643 Evaluation Kit Evaluates: General Description Features
... 11) Connect the output of the user-supplied laser to an optical-to-electrical converter that has the appropriate bandwidth (filter) for the intended application. 12) Turn on the power supply and adjust the BIASSET (R52) and MODSET (R20) variable resistors for the desired average optical power and ...
... 11) Connect the output of the user-supplied laser to an optical-to-electrical converter that has the appropriate bandwidth (filter) for the intended application. 12) Turn on the power supply and adjust the BIASSET (R52) and MODSET (R20) variable resistors for the desired average optical power and ...
Test probe
A test probe (test lead, test prod, or scope probe) is a physical device used to connect electronic test equipment to a device under test (DUT). They range from very simple, robust devices to complex probes that are sophisticated, expensive, and fragile.