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Digital Communication - Pulse Shaping
https://www.tutorialspoint.com/digital_communication/digital_communication_pulse_shaping.htm
Digital Communication - Pulse Shaping, After going through different types of coding techniques, we have an idea on how the data is prone to distortion and how the measures are taken to …
Pulse-Shaping Techniques Theory and Experimental ...
https://cdn.intechopen.com/pdfs/8415/InTech-Pulse_shaping_techniques_theory_and_experimental_implementations_for_femtosecond_pulses.pdf
4. Theory of Pulse shaping techniques The two main technologies of pulse shaping commonly used are the 4-f pulse shaper, or Fourier transform femtosecond pulse shaping, and the acousto-optic programmable dispersive filter (AOPDF). This part will review theoretically these two technologies and
Pulse-Shaping Techniques Theory and Experimental ...
https://www.intechopen.com/chapters/8415
The two main technologies of pulse shaping commonly used are the 4-f pulse shaper, or Fourier transform femtosecond pulse shaping, and the acousto-optic programmable dispersive filter (AOPDF). This part will review theoretically these two technologies and introduces their simulation models in order to determine the frequency response of these filters.
Pulse-Shaping Basics - Circuit Cellar
https://circuitcellar.com/cc-blog/pulse-shaping-basics/
You can use a straightforward method. Simply define a pair of voltages (e.g., 0 and 5 V) and put 0 V on the line for a 0-level bit and put 5 V on the line for a 1-level bit. This method is pedantically called non-return-to-zero (NRZ). This is exactly what a TTL UART is doing; there is nothing new here.
Pulse-Shape Filtering in Communications Systems - NI
https://www.ni.com/en-us/innovations/white-papers/06/pulse-shape-filtering-in-communications-systems.html
The Gaussian filter is a pulse shaping technique that is typically used for frequency shift keying (FSK) and minimum shift keying (MSK) modulation. This filter is unlike the raised cosine and root raised cosine filters because it does not implement zero crossing points.
Pulse Shaping - Lawrence Berkeley National Laboratory
https://www-physics.lbl.gov/~spieler/physics_198_notes_1999/PDF/V-3-Resolution-2.pdf
Pulse Shaping Two conflicting objectives: 1. Improve Signal-to-Noise Ratio S/N Restrict bandwidth to match measurement time ⇒ Increase Pulse Width 2. Improve Pulse Pair Resolution ⇒ Decrease Pulse Width Pulse pile-up distorts amplitude measurement Reducing pulse shaping time to 1/3 eliminates pile-up. TIME A M P L I T U D E TIME A M P L I T U D E
Pulse Shaping Techniques for Testing Brittle Materials ...
https://digital.library.unt.edu/ark:/67531/metadc725603/m2/1/high_res_d/766549.pdf
While pulse shaping techniques have been successfully used to achieve the goals of many different experiments, pulse shapers are usually designed by experimental trials that exclude a model to guide the design parameters. For example, Duffy, Campbell, and Hawley13 used a
Two Techniques to Improve Spurious Levels in Pulsed RF ...
https://www.dbcontrol.com/two-techniques-improve-spurious-levels-pulsed-rf-amplifiers/
Another technique for reducing spurs is to shape the RF pulse into a pseudo-Gaussian shape by slowing the rise and fall time of the RF signal at the input of the amplifier. This allows time for the cathode, grid and electron beam to stabilize. This also reduces the ringing involved with the step response of the RF pulse.
Digital techniques for real-time pulse shaping in ...
https://deepblue.lib.umich.edu/bitstream/handle/2027.42/31113/0000009.pdf;sequence=1
Efficient algorithms forreal-time digital pulse-shaping have been developed. Based on these algorithms twocon-figurations of linear time-invariant shapers have been in-vestigated and tested. The first allows trapezoidal/ triangular pulse shapes to be synthesized. The prototype operates at clock rates up to 50 MHz and allows full
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