Fundamentals of Linear Electronics Integrated & Discrete
... • Gain-Bandwidth Product: fT fT is the frequency at which hfe = 1 ...
... • Gain-Bandwidth Product: fT fT is the frequency at which hfe = 1 ...
Technical Data 1
... The rum-on delay time, from the time AC power is applied to the PSU till the o/p voltage is within the regulation band. Shall be less than 8seconds at 100 VAC. cold starts. ...
... The rum-on delay time, from the time AC power is applied to the PSU till the o/p voltage is within the regulation band. Shall be less than 8seconds at 100 VAC. cold starts. ...
1 - LIGO dcc
... b. When no pulse is being applied, M12 is off. The gate drive voltage to M11 and M14 reduces to 2VDC, which is well below threshold. R28 will have ~1mA flowing through it when no pulse is commanded. This results in a power dissipation of ~0.4W, so R28 is sized as a 1 watt part. R28 must also be able ...
... b. When no pulse is being applied, M12 is off. The gate drive voltage to M11 and M14 reduces to 2VDC, which is well below threshold. R28 will have ~1mA flowing through it when no pulse is commanded. This results in a power dissipation of ~0.4W, so R28 is sized as a 1 watt part. R28 must also be able ...
Physics 160 Lecture 13
... – Probably best used in differential amps or source-followers, not common-source amps. ...
... – Probably best used in differential amps or source-followers, not common-source amps. ...
EG/PH 305
... Provided the coil resistance Rm is much smaller than the rest of the circuit's resistance with which it's in series (e.g., the load resistor R L in the diagram), the presence of the meter will not change the "true" value of the current (i.e., the value of the current that flows through R L when the ...
... Provided the coil resistance Rm is much smaller than the rest of the circuit's resistance with which it's in series (e.g., the load resistor R L in the diagram), the presence of the meter will not change the "true" value of the current (i.e., the value of the current that flows through R L when the ...
BD244/ A/B/ C PNP Epitaxial Silicon Transistor
... NEITHER DOES IT CONVEY ANY LICENSE UNDER ITS PATENT RIGHTS, NOR THE RIGHTS OF OTHERS. ...
... NEITHER DOES IT CONVEY ANY LICENSE UNDER ITS PATENT RIGHTS, NOR THE RIGHTS OF OTHERS. ...
40°C to 150°C Operating Junction Temperature Range
... electromagnetic interference, making it well suited for isolated high power applications of up to several kilowatts. The LTC3722-1’s adaptive zero voltage technology is accomplished by sensing the bridge MOSFETs and input voltage, allowing the converter to adapt to any change in load current, temper ...
... electromagnetic interference, making it well suited for isolated high power applications of up to several kilowatts. The LTC3722-1’s adaptive zero voltage technology is accomplished by sensing the bridge MOSFETs and input voltage, allowing the converter to adapt to any change in load current, temper ...
VALARIE WELSH
... same configuration should then be able to recognize when two identical signals are input, and suppress their common components at output. These characteristics are called differential amplification and common mode rejection and can be expressed in combination with each other to describe the quality ...
... same configuration should then be able to recognize when two identical signals are input, and suppress their common components at output. These characteristics are called differential amplification and common mode rejection and can be expressed in combination with each other to describe the quality ...
UJT - ECB2181
... The curve between Emitter voltage Ve and emitter current Ie of a UJT at a given voltage Vbb between the bases this is known as emitter characteristics of UJT Initially in the cut off region as Ve increases from zero, slight leakage current flows from terminal B2 to the emitter the current is due to ...
... The curve between Emitter voltage Ve and emitter current Ie of a UJT at a given voltage Vbb between the bases this is known as emitter characteristics of UJT Initially in the cut off region as Ve increases from zero, slight leakage current flows from terminal B2 to the emitter the current is due to ...
Lecture05 - madalina
... Significance of the time constant If the transient process has the same slope like in origins (initial moment), the final values of voltages and currents will be obtain after a time equal with circuit time constant. As can be seen in the previous figures, the charging process continues to infin ...
... Significance of the time constant If the transient process has the same slope like in origins (initial moment), the final values of voltages and currents will be obtain after a time equal with circuit time constant. As can be seen in the previous figures, the charging process continues to infin ...
Source-Free Parallel RLC Circuit
... Selection of equations is determine by comparing the natural frequency o to a. Coefficients are found by evaluating the equation and its first derivation at t = to- and t = ∞s. The voltage across the capacitor is equal to the initial condition when t < to ...
... Selection of equations is determine by comparing the natural frequency o to a. Coefficients are found by evaluating the equation and its first derivation at t = to- and t = ∞s. The voltage across the capacitor is equal to the initial condition when t < to ...
Evaluates: MAX1873 MAX1873 Evaluation Kit General Description Features
... removed from jumper JU1, because it is pulled up to VREF through resistor R8 (10kΩ). Refer to Table 1 for JU1 configurations. To set the charge current at the ICHG/EN pin, replace the voltage-divider resistors R8 and R9 so that the input voltage is set between 700mV and VREF. An external op amp or D ...
... removed from jumper JU1, because it is pulled up to VREF through resistor R8 (10kΩ). Refer to Table 1 for JU1 configurations. To set the charge current at the ICHG/EN pin, replace the voltage-divider resistors R8 and R9 so that the input voltage is set between 700mV and VREF. An external op amp or D ...
NCL30000LED2GEVB 180-265 Vac up to 15 Watt Dimmable LED Driver Evaluation Board
... limitation special, consequential or incidental damages. “Typical” parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including “Typicals” must be validated for ea ...
... limitation special, consequential or incidental damages. “Typical” parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including “Typicals” must be validated for ea ...
BP5039B12
... Rated current : More than 600mA Peak reverse voltage : More than 400V Mean rectifying current : More than 0.5A Peak forward surge current : More than 20A Full-wave rectification can be used Resistance : 10 to 22Ω Power : More than 1/4W ...
... Rated current : More than 600mA Peak reverse voltage : More than 400V Mean rectifying current : More than 0.5A Peak forward surge current : More than 20A Full-wave rectification can be used Resistance : 10 to 22Ω Power : More than 1/4W ...
Current source
A current source is an electronic circuit that delivers or absorbs an electric current which is independent of the voltage across it.A current source is the dual of a voltage source. The term constant-current 'sink' is sometimes used for sources fed from a negative voltage supply. Figure 1 shows the schematic symbol for an ideal current source, driving a resistor load. There are two types - an independent current source (or sink) delivers a constant current. A dependent current source delivers a current which is proportional to some other voltage or current in the circuit.