Spelling suggestions: "subject:"pulse wider""
1 |
On-line parameter identification of induction machines for vector controlled drivesMao, Shenjian January 1998 (has links)
No description available.
|
2 |
Evaluation of the variable rate capabilities of a sprayer equipped with pulse width modulation nozzle control and direct chemical injection systemsWalker, William 10 December 2021 (has links) (PDF)
Variable-rate technologies coupled with broadcast spray systems serve to reduce chemical inputs, misapplication of chemicals, and environmental pollution, thus improving profitability and sustainability. Sprayer variable rate control involves using pulse width modulation (PWM) solenoids and/or direct chemical injection to adjust the application rate. The objectives of this research were to: outfit a conventional broadcast sprayer with PWM and direct inject technologies; evaluate the accuracy of the PWM system to control application rate for strait line and turn segments; and characterize the direct injection system’s transport delay time. For the PWM evaluation, the mean flow rate and coefficient of variation of individual nozzles indicated consistent performance. For the direct injection evaluation, the manufacturer recommended plumbing scheme and injection point location resulted in unsatisfactory delay times, ranging from 105 to 150s for the 8 km h-1 (5 mph) speed and 60 to 90s for the 16 km h-1 (10 mph) speed.
|
3 |
Computer controlled generation of PWM waveform using harmonic distortion minimization schemeDalvi, Mahesh January 1997 (has links)
No description available.
|
4 |
Efficient Driver for Dimmable White LED LightingYang, Wen-ching 25 July 2011 (has links)
A high efficiency driver circuit is proposed for Light Emitting Diode (LED) lamps with dimming feature. The current regulation is accomplished by processing partial power of the power conversion circuit so that a high overall efficiency can be realized. The detailed description and analysis of circuit operation are provided. The dimming feature can be accomplished by means of linear current regulation, pulse-width modulation (PWM) or double pulse-width modulation (DPWM).
Based on the circuit analyses and derived equations, a laboratory circuit is designed for an LED lamp which is composed of 40 high-brightness white LEDs in series. The performances with three dimming schemes are compared from the measured results. LEDs dimmed by DPWM have less color shift than those dimmed by linear current regulation and PWM. On the other hand, the dimming scheme with linear current regulation has the highest light efficiency over the entire dimming range. The circuit efficiency can be as high as 95.5% at the rated output and deteriorates slightly to 90.5% as the lamp is dimmed to 10% of the rated power.
|
5 |
Variable frequency control of voltage source inverters using harmonic distortion minimization schemeTeeters, Bradley W. January 1999 (has links)
No description available.
|
6 |
Investigations On Multilevel Inverter Topologies And Modulation Schemes For Induction Motor DrivesBaiju, M R 05 1900 (has links) (PDF)
No description available.
|
7 |
A Biotelemetry Unit for Monitoring Nocturnal BruxismHirsh, S. S. 10 1900 (has links)
International Telemetering Conference Proceedings / October 26-29, 1992 / Town and Country Hotel and Convention Center, San Diego, California / This paper describes a biotelemetric application whereby information of tooth contact pressure from within the mouth of a human subject is transmitted to a bedside receiver where it is processed and used in the biofeedback treatment of nocturnal bruxism (grinding of the teeth). Bruxing information is encoded on a pulse width modulated 313 MHZ carrier. Issues that are addressed include miniaturization of the transmitter, minimization of power requirements, stabilization of carrier frequency, receiver selection, and the various problems associated with getting a radio frequency signal out of the mouth.
|
8 |
Two photon luminescence from quantum dots using broad and narrowband ultrafast laser pulsesBalasubramanian, Haribhaskar 15 May 2009 (has links)
Nonlinear optical microscopy (NLOM) offers many advantages when imaging
intact biological samples. By using ultrafast lasers in the near infrared and two photon
excitation (TPE), signal production is limited to the focal volume and provides an
excellent means for rendering thin, microscopic images from within the sample.
Exogenous fluorophores/lumiphores may be used as efficient contrast agents to tag
specific targets and provide enhanced signal. The efficiency of the TPE process in these
contrast agents is broadly assumed to vary inversely with the laser pulsewidth, τ.
In this work, we investigate the TPE efficiency of transform limited broadband
(~133nm, ~10fs) and narrowband (~11nm, ~170fs) pulses in the generation of twophoton
luminescence from semiconductor nanocrystals or quantum dots (QD’s) both
theoretically and experimentally. Compared to standard organic dyes, QD’s possess a
relatively broad, uniform spectral response that enables better use of the full bandwidth
from the broadband laser.
Theoretical calculations including both degenerate and non-degenerate TPE
indicate a rolloff from the 1/τ behavior as the pulses’ spectral bandwidth becomes
broader than the absorption spectra of the QD’s. Experimentally measured enhancement in luminescence intensity while using a broadband pulse is compared with the simulated
enhancement in two-photon luminescence.
A combination of increased understanding of the excitation processes in NLOM
and proper selection of contrast agents will help in advancing the role of broadband
ultrafast lasers in NLOM.
|
9 |
Two photon luminescence from quantum dots using broad and narrowband ultrafast laser pulsesBalasubramanian, Haribhaskar 10 October 2008 (has links)
Nonlinear optical microscopy (NLOM) offers many advantages when imaging
intact biological samples. By using ultrafast lasers in the near infrared and two photon
excitation (TPE), signal production is limited to the focal volume and provides an
excellent means for rendering thin, microscopic images from within the sample.
Exogenous fluorophores/lumiphores may be used as efficient contrast agents to tag
specific targets and provide enhanced signal. The efficiency of the TPE process in these
contrast agents is broadly assumed to vary inversely with the laser pulsewidth, τ.
In this work, we investigate the TPE efficiency of transform limited broadband
(~133nm, ~10fs) and narrowband (~11nm, ~170fs) pulses in the generation of twophoton
luminescence from semiconductor nanocrystals or quantum dots (QD's) both
theoretically and experimentally. Compared to standard organic dyes, QD's possess a
relatively broad, uniform spectral response that enables better use of the full bandwidth
from the broadband laser.
Theoretical calculations including both degenerate and non-degenerate TPE
indicate a rolloff from the 1/τ behavior as the pulses' spectral bandwidth becomes
broader than the absorption spectra of the QD's. Experimentally measured enhancement in luminescence intensity while using a broadband pulse is compared with the simulated
enhancement in two-photon luminescence.
A combination of increased understanding of the excitation processes in NLOM
and proper selection of contrast agents will help in advancing the role of broadband
ultrafast lasers in NLOM.
|
10 |
Study on Pulsewidth Modulation Techniques for a Neutral-Point-Clamped Voltage Source InverterDas, Soumitra January 2012 (has links) (PDF)
Neutral-point-clamped (NPC) three-level inverter is capable of handling higher dc bus voltage and producing output waveform of better quality than a conventional two-level inverter. The main objective of the present work is to analyze the existing PWM schemes for two-level and three-level inverters in terms of line current ripple, and to design new PWM techniques for the NPC inverter to reduce line current distortion.
Various discontinuous PWM or bus-clamping PWM (BCPWM) methods for a two-level voltage source inverter are analyzed in terms of rms line current ripple, which is evaluated by integrating the error voltage (i.e. error between the applied and reference voltages). The BCPWM schemes can be broadly classified into continual-clamp PWM (CCPWM) and split-clamp PWM (SCPWM). It is shown that split-clamp PWM scheme leads to lower harmonic distortion than CCPWM scheme. Further, advanced bus-clamping PWM (ABCPWM) methods for a two-level inverter are also studied. These methods clamp each phase to the positive and negative DC terminals over certain intervals as in BCPWM schemes, and also switch each phase at double the nominal frequency in certain other intervals unlike in BCPWM. Analytical closed-form expressions are derived for the total rms harmonic distortion due to SCPWM, CCPWM and ABCPWM schemes.
Existing sinusoidal and bus-clamping PWM schemes for three-level NPC inverters are also analyzed in the space vector domain. These methods are compared in terms of line current ripple analytically as well as experimentally. As earlier, closed-form expressions are derived for the harmonic distortion factors corresponding to centered space vector PWM (CSVPWM) and the various BCPWM methods.
A three-level inverter can be viewed as an equivalent two-level inverter in each sixth of the fundamental cycle or hextant. This is widely used to simplify the control of an NPC inverter. Further, this approach makes it simple to extend the BCPWM and ABCPWM methods for two-level inverters to three-level inverters. Furthermore, the method of analysis of line current ripple for the two-level inverter can also be easily extended to the three-level case.
The pivot vector, which is half the length of the longest voltage vectors produced by the NPC inverter, acts as an equivalent null vector for the conceptual two-level inverter. Each pivot vector can be produced by two inverter states termed as “pivot states”. Typically, in continuous modulation methods for NPC inverter such as sinusoidal PWM and centered space vector PWM, the switching sequence (i.e. the sequence in which the voltage vectors are applied) begins and ends with the same pivot vector in each subcycle, which is equivalent to a half-carrier cycle. To be more precise, the switching sequence starts with one pivot state and ends with the other in each subcycle.
However, in case of BCPWM schemes, only one pivot state is used in a subcycle. The choice of pivot state results in a variety of BCPWM schemes for an NPC inverter. Different BCPWM schemes are evaluated in terms of rms line current ripple. The optimal BCPWM, which minimizes the rms current ripple, is determined for an NPC inverter, controlled as an equivalent two-level inverter.
Further, four new switching sequences are proposed here for a three-level inverter, controlled as a conceptual two-level inverter. These sequences apply the pivot vector only once, but employ one of the other two vectors twice within the subcycle. These four switching sequences are termed as “ABCPWM sequences” for three-level inverter. These sequences exploit the flexibility available in the space vector approach to PWM to switch a phase more than once in a subcycle, which results in the application of an active vector twice within the subcycle.
Influence of the proposed ABCPWM sequences on the line current ripple over a subcycle is studied. The various sequences are compared in terms of rms line current ripple over a subcycle. An analytical closed-form expression for rms line current ripple over a subcycle is derived in terms of reference magnitude, angle of reference voltage vector, and subcycle duration for each of the sequences. Further, closed-form expressions are also derived for the rms current ripple over a line cycle in terms of modulation index and subcycle duration, corresponding to the various sequences.
The four proposed ABCPWM sequences for the NPC inverter can be grouped into two pairs of sequences. Each pair of sequences is shown to perform better than the individual sequences, if the two sequences are employed in appropriate spatial regions. Hence, with these two pairs of sequences, two hybrid PWM schemes are proposed. Finally, a hybrid PWM technique is proposed which employs all five sequences (conventional and proposed four sequences) in spatial regions where each performs the best. This is termed as “five-zone hybrid PWM”. The total harmonic distortion (THD) in the motor current, pertaining to all the proposed schemes, is studied theoretically over the entire range of linear modulation.
The theoretical investigations are validated experimentally on a 2.2 kW, 415V, 4.9A, 50 Hz induction motor drive. The no-load current THD is measured over a range of fundamental frequency from 10 Hz to 50 Hz in steps of 2 Hz for the various PWM methods. Theoretical and experimental results bring out the reduction in current THD due to the proposed BCPWM schemes at fundamental frequencies of 45 Hz and above, compared to CSVPWM. The ABCPWM methods improve the performance at higher as well as lower modulation indices. Further improvement is achieved with the proposed five-zone hybrid PWM. At the rated frequency (50 Hz) of the drive, the improvement in line current distortion is around 36% with this hybrid PWM scheme over CSVPWM. The reduction in THD is also experimentally verified at different loads on the motor.
The difference between the top and bottom capacitor voltages is measured at various operating conditions, corresponding to CSVPWM and the proposed schemes. No significant difference is observed in the dc neutral voltage shifts with the different proposed schemes and CSVPWM method. Thus, the proposed methods improve the THD at low and high speed ranges without appreciable worsening of the dc voltage unbalance.
|
Page generated in 0.0417 seconds