Pitch Correction Module in Cubase 5Could someone with experience with the pitch correction module in Cubase 5 let me know what upgrade to 5 or go with an independent pitch correction module. Any thoughts? Thanks, Alan with Meoldyne, VarAudio, Autotune etc for the long slog. Of course one big advantage of Melodyne type
Why we do modulation?Such as the stareable antenna and other things , why we modulate signal before we send it? and why we can't send a digital signal under any conditions without modulate it? phase and amplitude at RF, etc. If you ignore physical difficult, it should be no problem. yeah
AM Modulation calculatorFields or you will lose the math. You can do it either way: input % modulation and see what to expect for sideband level or input SBdBc and see what the APPROXIMATE % modulation is. This might of unvarying amplitude. More at http://www.qsl.net/wa5bxo/amtech.html " AmplitudeModulation is the...
Advantages of FM over AMFrequency shifts than amplitude shifts making digital modulation simpler. 4. It allows simpler and vise verse for AM. Here the frequency is modulated and in AM amplitude is modulated. Natural which your r modulating (making changes in form of amplitude, frequency and phase). Yes, saif haider
From Yahoo Answers
Question:why we use the PWM over other types of modulation ?
what is its advantages and disadvantages?
what is the effect of increasing carrier frequency on the low order harmonic?
how can we reduce the harmonic?
please help me ASAP
Question:I'm finding this a bit tricky as some of my websites are blocked for research...
Could someone tell me how digital modulation methods have advantages over analogue systems, please?
Answers:Information density. Digital systems can carry far more information in the same channel. This also implies that this information can be stored in less space.
Security - digital systems can be encrypted, and in fact, the modulation itself offers some degree of encryption. For CDMA systems, the intrinsic encryption is of such a high order that it rivals sophisticated encryption schemes.
That should get you started!
SolarMove - PV Modules: Conveyor system to handle glas plate, laminate or panelsSolarMove - PV Panels is a conveyor system which allows you to carry glas plate, laminate or panels very smoothly from one station to the next. SolarMove is design modular and flexibel. We are able as well to provide you conveyor elements, transfer unit, buffer systems, turn device, and more... There no pneumatic required to lift up and down the glas plate at the transfer unit - that is a very big advantage! www.stein-automation.de
What Is The Advantages Of Solar Energywww.SolarEnergyGuide.net - How to Make a Homemade Solar Panel Solar panels, unlike before, are cheap and easy to install with great efficiency. With this advent, you can save big money as well as help save the environment. A DIY kit is available and has an easy to follow instruction with them. What you need is some simple tools and you're done. Here is your guide to make a homemade solar panel 1. First, you must know the loads of your solar panel and the package that is affordable to you. One watt of solar panel module will coast you about $25 and a 200 watts module is around $1000. If you need more power, you can connect this to form a collector to produce your desired power needs. Electrical connections are made in series to achieve a desired output voltage and/or in parallel to provide a desired amount of current capability. 2. After selecting the solar panel modules, you need a charge controller which is an important system component that regulates the voltage generated by the solar panel. This will regulate your power and provide protection to the batteries from being over or under-charged. 3. Next, you need a solar inverter this will convert 12 volt DC (direct current) from solar panel to 125 volts AC (alternating current) which will feed your appliances. Some high end inverters combine an inverter, battery charger and dual transfer switch in one package. 4. Batteries are needed if there is no sun or there is a blackout in your area. Typically, lead acid batteries ...
Direct Numerical Simulation Demonstrating how Turbulence can Modulate a Bacterial DistributionAs part of ongoing work, we are examining the impact of turbulence on the ability of motile bacteria to swim up chemical gradients, a process known as chemotaxis. In this direct numerical simulation, a patch of dissolved nutrients was injected into fully-developed homogeneous, isotropic turbulence. The red iso-surface indicates where the nutrient concentration is 10% of its initial maximum value. Bacteria start out uniformly distributed throughout the computational volume, but quickly begin to cluster around the nutrient filaments. The color volume rendering shows where the bacteria concentration is larger than the initial value. As reported in Taylor and Stocker (2010), the optimal advantage of chemotactic bacteria occurs at intermediate turbulence levels.
Omron MEMS Flow Sensor Product Training ModuleThis product training module offers a succinct, but tremendously informative presentation of Omron's MEMS flow sensor line-up, as well as their superior MEMS technology. - video developed and released by Omron Electronic Components LLC, Americas "The main feature of the MEMS Flow Sensor is its ability to measure flow speed from 1 mm to 40 m/s, which covers the range from the fluttering of a butterfly's wings to the roar of a typhoon. At the heart of the MEMS Flow Sensor, there is a tiny sensor element. That is the MEMS Flow Sensor chip which is only 1.5 mm square. Conventional flow sensors use a resistance measurement method based on a natural characteristic that causes the electrical resistance of a material to change due to changes in temperature. This method has a number of disadvantages, though, such as the high cost required for the extremely time-consuming adjustment of the resistance balance. (See Figure 1.) In contrast, the MEMS Flow Sensor was the industry's first to apply the thermopile method, which uses an element called a thermopile that converts thermal energy into electrical energy. This new method offered a variety of previously nonexistent advantages, including low-cost operation because there are few adjustments required, low power consumption, and high sensitivity." - comments by: Sasaki, Omron MEMS Flow Sensor chip Developer