File - ELECTRICAL ENGINEERING DEPT, DCE
... machine. Flux control or Field control method is used for varying speeds above the rated speed of the machine. PRECAUTIONS: (Not to be included in the record) 1. Remove the fuse carriers and start wiring as per the circuit diagram. 2. Fuse rating calculation: Since this is no load test, the required ...
... machine. Flux control or Field control method is used for varying speeds above the rated speed of the machine. PRECAUTIONS: (Not to be included in the record) 1. Remove the fuse carriers and start wiring as per the circuit diagram. 2. Fuse rating calculation: Since this is no load test, the required ...
ZXLD1322
... driven from the demand voltage (VADJ) on the ADJ pin. The difference between IMON and IADJ is integrated by CFB to produce an error voltage. A comparator takes a summed version of the voltage at the ISENSE pin and a fraction of this CFB voltage and resets the latch driving the switch when the sum is ...
... driven from the demand voltage (VADJ) on the ADJ pin. The difference between IMON and IADJ is integrated by CFB to produce an error voltage. A comparator takes a summed version of the voltage at the ISENSE pin and a fraction of this CFB voltage and resets the latch driving the switch when the sum is ...
Capacitance
... 1. Connect a single capacitor to a light bulb using one side of the switch. Connect two capacitors together and then to the switch and light bulb as indicated in the Figure 1 . The capacitor should have a set of dark lines on one side near one of the terminals. This is the negative terminal of the c ...
... 1. Connect a single capacitor to a light bulb using one side of the switch. Connect two capacitors together and then to the switch and light bulb as indicated in the Figure 1 . The capacitor should have a set of dark lines on one side near one of the terminals. This is the negative terminal of the c ...
worldwide capacitors
... has applied voltage to the total time of one cycle. The duty cycles for the normal performance of Type I and Type II are in accordance with the standards in EIA RS-463-B. SAFETY Because the watt-second value of these capacitors is high, precautions should be taken during the testing and application ...
... has applied voltage to the total time of one cycle. The duty cycles for the normal performance of Type I and Type II are in accordance with the standards in EIA RS-463-B. SAFETY Because the watt-second value of these capacitors is high, precautions should be taken during the testing and application ...
Bourns® Rectifier Diodes
... dissipation in the forward direction to save energy. Reverse Leakage Current (IR) is the diode's reverse leakage current, and low IR rectifier diodes have less power dissipation in the reverse direction for power reduction. Junction Capacitance (CJ) is the junction capacitance, and Reverse Recovery ...
... dissipation in the forward direction to save energy. Reverse Leakage Current (IR) is the diode's reverse leakage current, and low IR rectifier diodes have less power dissipation in the reverse direction for power reduction. Junction Capacitance (CJ) is the junction capacitance, and Reverse Recovery ...
question bank - SIETK ECE Dept
... 8. The armature of a 4 pole, lap-wound D.c shunt generator has 120 slots with 4 conductors per slot.The flux per pole is 0.05 wb. the armature resistance is 0.05ohm .and shunt field resistance is 50 ohm.Find the speed of the machine when supplying 45A at a terminal voltage of 250V. [L4][CO1][10M] 9. ...
... 8. The armature of a 4 pole, lap-wound D.c shunt generator has 120 slots with 4 conductors per slot.The flux per pole is 0.05 wb. the armature resistance is 0.05ohm .and shunt field resistance is 50 ohm.Find the speed of the machine when supplying 45A at a terminal voltage of 250V. [L4][CO1][10M] 9. ...
Unit-2 EMI
... 1. These do not have uniform scale. 2. These must be used in vertical position so that the control may operate properly. ...
... 1. These do not have uniform scale. 2. These must be used in vertical position so that the control may operate properly. ...
Direct Torque Control of Permanent Magnet Synchronous Motor
... irect Torque Control is one of the high performance control strategies designed for AC machines in 1980s. the DTC is implemented by selecting proper voltage space vector (VSV) according to the switching status of the inverter which depends upon the error values between the reference flux linkage and ...
... irect Torque Control is one of the high performance control strategies designed for AC machines in 1980s. the DTC is implemented by selecting proper voltage space vector (VSV) according to the switching status of the inverter which depends upon the error values between the reference flux linkage and ...
- aes journals
... ABSTRACT : A BLDCM can be described as an inverted brush dc motor with its magnet being the rotor and its stationary windings forming the stator. BLDC Motor is fast gaining popularity because of their superior performance in terms of high efficiency, fast response, light weight, precise and accurate ...
... ABSTRACT : A BLDCM can be described as an inverted brush dc motor with its magnet being the rotor and its stationary windings forming the stator. BLDC Motor is fast gaining popularity because of their superior performance in terms of high efficiency, fast response, light weight, precise and accurate ...
chapter quiz
... • Magnetic flux lines cannot be insulated. • There is no known material through which magnetic force does not pass, if the force is strong enough. • However, some materials allow the force to pass through more easily than others. • This degree of passage is called permeability. ...
... • Magnetic flux lines cannot be insulated. • There is no known material through which magnetic force does not pass, if the force is strong enough. • However, some materials allow the force to pass through more easily than others. • This degree of passage is called permeability. ...
Current Scaling for Megajoule Plasma Focus Machines
... cause of saturation needs to be looked for elsewhere, beyond electrodynamical considerations; which is outside the scope of this paper. This paper continues to present our numerical experiments. Although the analytic and intuitive approach is useful in attempts to understand this electrodynamic prob ...
... cause of saturation needs to be looked for elsewhere, beyond electrodynamical considerations; which is outside the scope of this paper. This paper continues to present our numerical experiments. Although the analytic and intuitive approach is useful in attempts to understand this electrodynamic prob ...
PDF
... studying the properties of a two-state system made from a niobium (Nb) superconducting loop, which can be incorporated on-chip with other superconducting circuits to perform the control and measurement. The devices we study are fabricated at Lincoln Laboratory, which uses a Nb-trilayer process for t ...
... studying the properties of a two-state system made from a niobium (Nb) superconducting loop, which can be incorporated on-chip with other superconducting circuits to perform the control and measurement. The devices we study are fabricated at Lincoln Laboratory, which uses a Nb-trilayer process for t ...
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.