LTC3558
... EN1, EN2, MODE, VOUT2 .............................. –0.3V to 6V FB1, SW1 ......................... –0.3V to (PVIN1 + 0.3V) or 6V FB2, VC2, SWAB2 ............. –0.3V to (PVIN2 + 0.3V) or 6V SWCD2 ............................–0.3V to (VOUT2 + 0.3V) or 6V ...
... EN1, EN2, MODE, VOUT2 .............................. –0.3V to 6V FB1, SW1 ......................... –0.3V to (PVIN1 + 0.3V) or 6V FB2, VC2, SWAB2 ............. –0.3V to (PVIN2 + 0.3V) or 6V SWCD2 ............................–0.3V to (VOUT2 + 0.3V) or 6V ...
High-Efficiency Backup Power Supply
... The TPS63060 buck-boost converter operates bidirectionally and is able to transfer energy from the input to the output as well as from the output to the input. The latter is used to charge the backup capacitor, connected to the converter's input. Transferring energy from the output to the input in o ...
... The TPS63060 buck-boost converter operates bidirectionally and is able to transfer energy from the input to the output as well as from the output to the input. The latter is used to charge the backup capacitor, connected to the converter's input. Transferring energy from the output to the input in o ...
Atomic-Scale Field-Effect Transistor as a Thermoelectric Power
... TL = T, and then we consider an infinitesimal current [(dI)T = I(μ,T;μ,T + dT)] induced by an infinitesimal temperature difference dT in the right electrode (i.e., TR = TL + dT). The Seebeck effect generates a voltage difference dV in the right electrode (i.e., μR = μL + dV), which drives current [( ...
... TL = T, and then we consider an infinitesimal current [(dI)T = I(μ,T;μ,T + dT)] induced by an infinitesimal temperature difference dT in the right electrode (i.e., TR = TL + dT). The Seebeck effect generates a voltage difference dV in the right electrode (i.e., μR = μL + dV), which drives current [( ...
SN74S374 数据资料 dataSheet 下载
... Off-state output voltage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5.5 V Package thermal impedance, θJA (see Note 2): DB package . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 70°C/W DW p ...
... Off-state output voltage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5.5 V Package thermal impedance, θJA (see Note 2): DB package . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 70°C/W DW p ...
MAX13410E–MAX13415E RS-485 Transceiver with Integrated Low-Dropout Regulator and AutoDirection Control General Description
... θJA (Note 1)...................................................................52.0°C/W θJC (Note 1).....................................................................6.0°C/W Lead Temperature (soldering, 10s) ................................+300°C ...
... θJA (Note 1)...................................................................52.0°C/W θJC (Note 1).....................................................................6.0°C/W Lead Temperature (soldering, 10s) ................................+300°C ...
Introduction to OrCAD Capture and PSpice Notes for demonstrators
... ground connection. This is a bit different. • Choose Place > Ground. . . from the menu bar or click the Place ground connection button on the toolbar, which brings up the dialogue box shown in figure 10 on the next page. • Choose 0/CAPSYM and place it in the usual way. A circuit must always have a g ...
... ground connection. This is a bit different. • Choose Place > Ground. . . from the menu bar or click the Place ground connection button on the toolbar, which brings up the dialogue box shown in figure 10 on the next page. • Choose 0/CAPSYM and place it in the usual way. A circuit must always have a g ...
Experiment 5 - Portal UniMAP
... experience a torque when a current passes through the wire of the coil. The coil is attached to a pointer and a spring so that the amount of deflection of the pointer is proportional to the current in the wire of the coil. The value of the load resistor (R1) will be set to a specified value and the ...
... experience a torque when a current passes through the wire of the coil. The coil is attached to a pointer and a spring so that the amount of deflection of the pointer is proportional to the current in the wire of the coil. The value of the load resistor (R1) will be set to a specified value and the ...
IV. Measuring Return Ratio at the Terminals of a Dependent Source
... where AOLiy, AOLix , AOLvy, and AOLvx are the open-loop gains for output signals iy, ix, vy, and vx, respectively; Gi and Gv are the input transmissions from it and vt sources; Diy and Dix are the direct transmissions from it source to output signals iy and ix; Dvy and Dvx are the direct transmissio ...
... where AOLiy, AOLix , AOLvy, and AOLvx are the open-loop gains for output signals iy, ix, vy, and vx, respectively; Gi and Gv are the input transmissions from it and vt sources; Diy and Dix are the direct transmissions from it source to output signals iy and ix; Dvy and Dvx are the direct transmissio ...
BW n - TI E2E Community
... ROUT is the effect of RO, Aol, and β controlling VO – Closed Loop feedback (β) forces VO to increase or decrease as needed to accommodate VO loading – Closed Loop (β) increase or decrease in VO appears at VOUT as a reduction in RO – ROUT increases as Loop Gain (Aolβ) decreases ...
... ROUT is the effect of RO, Aol, and β controlling VO – Closed Loop feedback (β) forces VO to increase or decrease as needed to accommodate VO loading – Closed Loop (β) increase or decrease in VO appears at VOUT as a reduction in RO – ROUT increases as Loop Gain (Aolβ) decreases ...
LTC6905 - 17MHz to 170MHz Resistor Set SOT-23 Oscillator.
... of N in the frequency equation. Pin 4 should be tied to V+ for the ÷1 setting, the highest frequency range. Floating Pin 4 divides the master oscillator by 2. Pin 4 should be tied to GND for the ÷4 setting, the lowest frequency range. To detect a floating DIV pin, the LTC6905 attempts to pull the pin ...
... of N in the frequency equation. Pin 4 should be tied to V+ for the ÷1 setting, the highest frequency range. Floating Pin 4 divides the master oscillator by 2. Pin 4 should be tied to GND for the ÷4 setting, the lowest frequency range. To detect a floating DIV pin, the LTC6905 attempts to pull the pin ...
What is a Resistor PDF
... Variable resistors used as potentiometers have all three terminals connected. This arrangement is normally used to vary voltage, for example to set the switching point of a circuit with a sensor, or control the volume (loudness) in an amplifier circuit. If the terminals at the ends of the track are ...
... Variable resistors used as potentiometers have all three terminals connected. This arrangement is normally used to vary voltage, for example to set the switching point of a circuit with a sensor, or control the volume (loudness) in an amplifier circuit. If the terminals at the ends of the track are ...
AN1290 Application Note How to Use the TDA911X and Improve Performances
... How to Use the TDA911X and Improve Performances TDA911x Deflection Processors at a Glance The TDA911x is a family of deflection processors for multisync monitors, incorporating horizontal and vertical processing, geometry correction, dynamic corrections (focus and/or brightness etc.), DC/DC conversi ...
... How to Use the TDA911X and Improve Performances TDA911x Deflection Processors at a Glance The TDA911x is a family of deflection processors for multisync monitors, incorporating horizontal and vertical processing, geometry correction, dynamic corrections (focus and/or brightness etc.), DC/DC conversi ...
FEATURES APPLICATIONS DESCRIPTION
... ESD damage can range from subtle performance degradation to complete device failure. Precision integrated circuits may be more susceptible to damage because very small parametric changes could cause the device not to meet its published specifications. ...
... ESD damage can range from subtle performance degradation to complete device failure. Precision integrated circuits may be more susceptible to damage because very small parametric changes could cause the device not to meet its published specifications. ...
