MAX761/MAX762 12V/15V or Adjustable, High-Efficiency, Low I , Step-Up DC-DC Converters
... (MAX762), or they can be set with two external resistors. With a 5V input, the MAX761 guarantees a 12V, 150mA output. Its high efficiency, low supply current, fast start-up time, SHDN controlling capability, and small size make the MAX761 ideal for powering flash memory. The MAX761/MAX762 have an in ...
... (MAX762), or they can be set with two external resistors. With a 5V input, the MAX761 guarantees a 12V, 150mA output. Its high efficiency, low supply current, fast start-up time, SHDN controlling capability, and small size make the MAX761 ideal for powering flash memory. The MAX761/MAX762 have an in ...
Low Voltage Performance of Multilayer Ceramic Capacitors
... reduced to zero. When the IR measurements were carried out again, curve 2 in Figure 3 results. This shows the higher voltage did more damage to the IR than the lower voltage. For these capacitors, IR degradation in the 0 to 5 VDC range was minimal, if any. (The ohmic heat dissipation is less than 1 ...
... reduced to zero. When the IR measurements were carried out again, curve 2 in Figure 3 results. This shows the higher voltage did more damage to the IR than the lower voltage. For these capacitors, IR degradation in the 0 to 5 VDC range was minimal, if any. (The ohmic heat dissipation is less than 1 ...
Bistable Rotary Solenoid
... Behaviour About the Mid Position The mid position in which bistable solenoids are normally drawn is the nominal centre half-way position between two (stable equilibrium in de-energised state) end points. This position is defined in relation to a locating feature (typically a flat or keyway) on the ...
... Behaviour About the Mid Position The mid position in which bistable solenoids are normally drawn is the nominal centre half-way position between two (stable equilibrium in de-energised state) end points. This position is defined in relation to a locating feature (typically a flat or keyway) on the ...
Data Sheet Features General Description
... drive Hall IC manufactured by special CMOS process. This IC consists of voltage reference, Hall sensor, signal amplifier, wave shaping circuit, locked rotor detector, locked rotor protection and restart circuit, output drive circuit, etc.. To allow survival in a harsh environment and in consideratio ...
... drive Hall IC manufactured by special CMOS process. This IC consists of voltage reference, Hall sensor, signal amplifier, wave shaping circuit, locked rotor detector, locked rotor protection and restart circuit, output drive circuit, etc.. To allow survival in a harsh environment and in consideratio ...
Diode - radfiz.org.ua
... diode in a special circuit, or are really different devices like the Gunn and laser diode and the MOSFET: Normal (p-n) diodes, which operate as described above, are usually made of doped silicon or, more rarely, germanium. Before the development of modern silicon power rectifier diodes, cuprous oxid ...
... diode in a special circuit, or are really different devices like the Gunn and laser diode and the MOSFET: Normal (p-n) diodes, which operate as described above, are usually made of doped silicon or, more rarely, germanium. Before the development of modern silicon power rectifier diodes, cuprous oxid ...
MAX767 5V-to-3.3V, Synchronous, Step-Down Power-Supply Controller ________________General Description
... into a tightly regulated 3.3V output. Two key features set this device apart from similar, low-voltage step-down switching regulators: high operating frequency and all N-channel construction in the application circuit. The 300kHz operating frequency results in very small, lowcost external surface-mo ...
... into a tightly regulated 3.3V output. Two key features set this device apart from similar, low-voltage step-down switching regulators: high operating frequency and all N-channel construction in the application circuit. The 300kHz operating frequency results in very small, lowcost external surface-mo ...
DC Drives
... • Power is also negative, which implies power is “generated” back to the supply. • In other words, during the deceleration phase, kinetic energy from the motor and load inertia is returned to the supply. • This is known as regenerative braking-an efficient way to brake a motor. Widely employ in elec ...
... • Power is also negative, which implies power is “generated” back to the supply. • In other words, during the deceleration phase, kinetic energy from the motor and load inertia is returned to the supply. • This is known as regenerative braking-an efficient way to brake a motor. Widely employ in elec ...
Lecture 8
... So we assume that the capacitor is acting like an open circuit. We then find the value of current or voltage we are looking for using this open-circuit assumption. Here, we use the circuit after switching along with the open-circuit assumption. ...
... So we assume that the capacitor is acting like an open circuit. We then find the value of current or voltage we are looking for using this open-circuit assumption. Here, we use the circuit after switching along with the open-circuit assumption. ...
Profile Control Experiments in JET using Off
... plasma parameters: plasma current IP = 0.7-3 MA, toroidal magnetic field BT = 1.8-3.4 T, line averaged electron density n e = 0.7-4.0×1019 m-3 and volume averaged electron temperature 〈Te〉 = 0.5-3 keV. The fast electron bremsstrahlung (FEB) diagnostic [23] is the tool for determining the LH depositi ...
... plasma parameters: plasma current IP = 0.7-3 MA, toroidal magnetic field BT = 1.8-3.4 T, line averaged electron density n e = 0.7-4.0×1019 m-3 and volume averaged electron temperature 〈Te〉 = 0.5-3 keV. The fast electron bremsstrahlung (FEB) diagnostic [23] is the tool for determining the LH depositi ...
Final Report - WordPress@UP
... levitate the magnet. This included a solenoid, two Hall sensors, and a microcomputer. Once the components arrived, the solenoid was tested to ensure that it would generate a strong enough magnetic field to levitate the magnet. Next, an Arduino microcomputer was used to generate a pulse width modulat ...
... levitate the magnet. This included a solenoid, two Hall sensors, and a microcomputer. Once the components arrived, the solenoid was tested to ensure that it would generate a strong enough magnetic field to levitate the magnet. Next, an Arduino microcomputer was used to generate a pulse width modulat ...
electrical engineering technology emt 113/4
... The phasor diagram is to shows the relationship among the voltages within a phase (Eφ,Vφ, jXSIA and RAIA) and the current IA in the phase. ...
... The phasor diagram is to shows the relationship among the voltages within a phase (Eφ,Vφ, jXSIA and RAIA) and the current IA in the phase. ...
MP3900DK-LF-Z Datasheet
... inductor current, and therefore reduces the stress on the power MOSFET. However, the larger value inductor has a larger physical size, higher series resistance, and/or lower saturation current. A good rule of thumb is to allow the peak-to-peak ripple current to be approximately 30-50% of the maximum ...
... inductor current, and therefore reduces the stress on the power MOSFET. However, the larger value inductor has a larger physical size, higher series resistance, and/or lower saturation current. A good rule of thumb is to allow the peak-to-peak ripple current to be approximately 30-50% of the maximum ...
Coilgun
A coilgun (or Gauss rifle, in reference to Carl Friedrich Gauss, who formulated mathematical descriptions of the magnetic effect used by magnetic accelerators) is a type of projectile accelerator consisting of one or more coils used as electromagnets in the configuration of a linear motor that accelerate a ferromagnetic or conducting projectile to high velocity. In almost all coilgun configurations, the coils and the gun barrel are arranged on a common axis.Coilguns generally consist of one or more coils arranged along a barrel, so the path of the accelerating projectile lies along the central axis of the coils. The coils are switched on and off in a precisely timed sequence, causing the projectile to be accelerated quickly along the barrel via magnetic forces. Coilguns are distinct from railguns, as the direction of acceleration in a railgun is at right angles to the central axis of the current loop formed by the conducting rails. In addition, railguns usually require the use of sliding contacts to pass a large current through the projectile or sabot but coilguns do not necessarily require sliding contacts. Whilst some simple coilgun concepts can use ferromagnetic projectiles or even permanent magnet projectiles, most designs for high velocities actually incorporate a coupled coil as part of the projectile.