NCP1207A, NCP1207B PWM Current--Mode Controller for Free Running Quasi--Resonant Operation
... The NCP1207A/B combines a true current mode modulator and a demagnetization detector to ensure full borderline/critical Conduction Mode in any load/line conditions and minimum drain voltage switching (Quasi--Resonant operation). Due to its inherent skip cycle capability, the controller enters burst ...
... The NCP1207A/B combines a true current mode modulator and a demagnetization detector to ensure full borderline/critical Conduction Mode in any load/line conditions and minimum drain voltage switching (Quasi--Resonant operation). Due to its inherent skip cycle capability, the controller enters burst ...
H4148
... switching frequency constant for HM-based SM controller, basically two types of approaches are there. First approach is adding a constant ramp or timing function directly into the controller [5]. The second approach uses an adaptive hysteresis band that varies with the parameter changes to control a ...
... switching frequency constant for HM-based SM controller, basically two types of approaches are there. First approach is adding a constant ramp or timing function directly into the controller [5]. The second approach uses an adaptive hysteresis band that varies with the parameter changes to control a ...
D305A IC Electroluminescent Lamp Driver IC
... Theory of Operation Electroluminescent (EL) lamps are essentially capacitors with one transparent electrode and a special phosphor material in the dielectric. The phosphor glows when a strong AC voltage is applied across the EL lamp electrodes. The required AC voltage is typically not present in mos ...
... Theory of Operation Electroluminescent (EL) lamps are essentially capacitors with one transparent electrode and a special phosphor material in the dielectric. The phosphor glows when a strong AC voltage is applied across the EL lamp electrodes. The required AC voltage is typically not present in mos ...
Installation Manual
... Note: 1. Current each wire carries should be de‐rated to 80% of the current suggested above when using 5 or more wires connected to the unit. 2. The maximum allowable wire cross‐sectional area for the terminal of the DR‐45 is 12AWG/2.5 mm2 . Make sure that all strands of each stranded ...
... Note: 1. Current each wire carries should be de‐rated to 80% of the current suggested above when using 5 or more wires connected to the unit. 2. The maximum allowable wire cross‐sectional area for the terminal of the DR‐45 is 12AWG/2.5 mm2 . Make sure that all strands of each stranded ...
NCP5392Q - 2/3/4-Phase Controller for CPU Applications
... Non--inverting input to current sense amplifier #1 Inverting input to current sense amplifier #2 Non--inverting input to current sense amplifier #2 Inverting input to current sense amplifier #3 Non--inverting input to current sense amplifier #3 Inverting input to current sense amplifier #4 Non--inve ...
... Non--inverting input to current sense amplifier #1 Inverting input to current sense amplifier #2 Non--inverting input to current sense amplifier #2 Inverting input to current sense amplifier #3 Non--inverting input to current sense amplifier #3 Inverting input to current sense amplifier #4 Non--inve ...
FMMT634Q Description A Product Line of
... Should Customers purchase or use Diodes Incorporated products for any unintended or unauthorized application, Customers shall indemnify and hold Diodes Incorporated and its representatives harmless against all claims, damages, expenses, and attorney fees arising out of, directly or indirectly, any c ...
... Should Customers purchase or use Diodes Incorporated products for any unintended or unauthorized application, Customers shall indemnify and hold Diodes Incorporated and its representatives harmless against all claims, damages, expenses, and attorney fees arising out of, directly or indirectly, any c ...
International Electrical Engineering Journal (IEEJ) Vol. 6 (2015) No.5, pp. 1898-1904
... Iinv must be in phase with the waveform of Vgrid as illustrated in Fig. 10. In the phasor diagram, it is represented as in Fig. 11. As in Fig. 11, Vinv has to lead Vgrid with the angle α in order to get the Iinv in phase with the Vgrid. This is achieved by adjusting the phase angle of the modulating ...
... Iinv must be in phase with the waveform of Vgrid as illustrated in Fig. 10. In the phasor diagram, it is represented as in Fig. 11. As in Fig. 11, Vinv has to lead Vgrid with the angle α in order to get the Iinv in phase with the Vgrid. This is achieved by adjusting the phase angle of the modulating ...
GT3412451250
... with different load conditions. In previous research, electronic load controllers (ELCs) have been proposed to balance the generator output power to control the generator voltage [1], [7], [8]. However, since the active power is controlled with a variable ac/dc load in the ELC, the system efficiency ...
... with different load conditions. In previous research, electronic load controllers (ELCs) have been proposed to balance the generator output power to control the generator voltage [1], [7], [8]. However, since the active power is controlled with a variable ac/dc load in the ELC, the system efficiency ...
to EEE B.Tech III Year-I Semester
... transmission lines modeling and their performance analysis. Transient in power system, improvement of power factor and voltage control are discussed in detail. It is important for the student to understand the mechanical design aspects of transmission lines, cables, insulators. These aspects are als ...
... transmission lines modeling and their performance analysis. Transient in power system, improvement of power factor and voltage control are discussed in detail. It is important for the student to understand the mechanical design aspects of transmission lines, cables, insulators. These aspects are als ...
LT6210/LT6211 - Single/Dual Programmable Supply Current, R-R Output, Current Feedback Amplifiers
... Note 3: The LT6210C/LT6211C is guaranteed functional over the operating temperature range of –40°C to 85°C. Note 4: The LT6210C/LT6211C is guaranteed to meet specified performance from 0°C to 70°C. The LT6210C/LT6211C is designed, characterized and expected to meet specified performance from –40°C a ...
... Note 3: The LT6210C/LT6211C is guaranteed functional over the operating temperature range of –40°C to 85°C. Note 4: The LT6210C/LT6211C is guaranteed to meet specified performance from 0°C to 70°C. The LT6210C/LT6211C is designed, characterized and expected to meet specified performance from –40°C a ...
Options - MTE - Meter Test Equipment
... and apparent power, energy, frequency, power factor, error measurement, vector diagram Accuracy 0.2 % Options: CALSOFT I Software Clamp-on CTs up to 120 A (Measuring range 100 mA … 120 A, ...
... and apparent power, energy, frequency, power factor, error measurement, vector diagram Accuracy 0.2 % Options: CALSOFT I Software Clamp-on CTs up to 120 A (Measuring range 100 mA … 120 A, ...
I consumer
... It means that distort current will flow through the linear consumer - electric arc serial connection. The idea is to detect the distortion caused by the electric arc. The questions to be investigated: spectral characteristics of the electric arc the minimal current of stable arc maintaining influ ...
... It means that distort current will flow through the linear consumer - electric arc serial connection. The idea is to detect the distortion caused by the electric arc. The questions to be investigated: spectral characteristics of the electric arc the minimal current of stable arc maintaining influ ...
MC100ES8111, Low Voltage 1:10 Differential HSTL Clock Fanout
... 2. VDIF (DC) is the minimum differential HSTL input voltage swing required for device functionality. 3. VX (DC) is the crosspoint of the differential HSTL input signal. Functional operation is obtained when the crosspoint is within the VX (DC) range and the input swing lies within the VDIF (DC) spec ...
... 2. VDIF (DC) is the minimum differential HSTL input voltage swing required for device functionality. 3. VX (DC) is the crosspoint of the differential HSTL input signal. Functional operation is obtained when the crosspoint is within the VX (DC) range and the input swing lies within the VDIF (DC) spec ...
International Electrical Engineering Journal (IEEJ) Vol. 5 (2014) No.11, pp. 1613-1618
... reduce the switching losses of devices. This paper describes a neutral point voltage balancing method for neutral point clamped GTO inverters using space vector pulse width modulation technique to balance the neutral point voltage. This includes an algorithm to balance the neutral point voltage with ...
... reduce the switching losses of devices. This paper describes a neutral point voltage balancing method for neutral point clamped GTO inverters using space vector pulse width modulation technique to balance the neutral point voltage. This includes an algorithm to balance the neutral point voltage with ...
Rectifier
A rectifier is an electrical device that converts alternating current (AC), which periodically reverses direction, to direct current (DC), which flows in only one direction. The process is known as rectification. Physically, rectifiers take a number of forms, including vacuum tube diodes, mercury-arc valves, copper and selenium oxide rectifiers, semiconductor diodes, silicon-controlled rectifiers and other silicon-based semiconductor switches. Historically, even synchronous electromechanical switches and motors have been used. Early radio receivers, called crystal radios, used a ""cat's whisker"" of fine wire pressing on a crystal of galena (lead sulfide) to serve as a point-contact rectifier or ""crystal detector"".Rectifiers have many uses, but are often found serving as components of DC power supplies and high-voltage direct current power transmission systems. Rectification may serve in roles other than to generate direct current for use as a source of power. As noted, detectors of radio signals serve as rectifiers. In gas heating systems flame rectification is used to detect presence of a flame.Because of the alternating nature of the input AC sine wave, the process of rectification alone produces a DC current that, though unidirectional, consists of pulses of current. Many applications of rectifiers, such as power supplies for radio, television and computer equipment, require a steady constant DC current (as would be produced by a battery). In these applications the output of the rectifier is smoothed by an electronic filter (usually a capacitor) to produce a steady current.More complex circuitry that performs the opposite function, converting DC to AC, is called an inverter.