Minggu, 15 Agustus 2021
AMNIMARJESLOW GOVERNMENT TECH TO BE Electronics SUPER RING T_Phi_L as source of Match_Parametry_Booster_Energy Circulation ; our world is always connected by a magic bridge that is so called communication , balancer , home base and booster booster ; in the current decade all technology is involved in the development of this magic bridge which is greatly fulfilled by super advanced electronic communication technology that makes us more dignified. __ Thankyou for My dearest _ Lord Jesus , My Family and My Student __ Gen. Gate *nd and Gen. Comm Lite ***th .
Preface : make peace with life because a happy life is good medicine; smile , be grateful , be a blessing , praise the Lord because the Lord is good , that his steadfast love endures forever .
our world is always connected by a magic bridge that is so called communication , balancer , home base and booster booster ; in the current decade all technology is involved in the development of this magic bridge which is greatly fulfilled by super advanced electronic communication technology that makes us more dignified.
super power countries that have a very wide area, always use super-sophisticated electronic technology to maintain the integrity of its territory and for the next civilization, namely towards colonies in outer space and planets outside the earth. for example the United States with WESTAR and COMSTAR technology. all of them with the development of qualified electronic physics technology, mainly because of Einstein's theory of cause and effect, namely that we can fly:
1. antigravity application theory,
2. propulsion rocket application theory,
3. nuclear energy communication theory, namely radioactive decay.
4. Electron communication application theory in silicon and lasers .
I introduce for my blogger reader Electronics super Ring T-Phi-L- STAR BOOSTER .
AWACS ( Awareness And Communication Source )
Sign - in
( Gen. Gate*nd and Gen. Comm Lite***th )
let's discuss the application theory of einstein and his theory of relativity applications in SUPERMAN's krypton planetary system.
Electronics SUPER RING T - Phi - L - STAR BOOSTER
T = Timing Einstein Relativity
Phi = Fibonacci statement ( 3.14 or 22/7 ) Ring Ball effect .
L = Long Distance cause and effect ( Relativity Einstein or SUPERMAN Crypto )
STAR BOOSTER = ( Switch Timing and Relay for Believing On Over Source Territory Elevation Reload )
FB 1 . Home base definition in
Electronic Communicator
Device
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Electronic communications is the transmission, reception, and processing of information between two or more locations with the use of electronic circuits. The basic components of electronic communications system are the transmitter, communications channel or medium, receiver, and noise. Analog signals (such human voice) or digital signals (binary data) are inputted to the system, processed in the electronic circuits for transmission, and then decoded by the receiver. The system is said to be reliable and effective only when errors are minimized in the process.
FB.2 .Electronic circuits in Space
Applications
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What quality grade of electronics component were selected for the control system of you space craft ? High reliability and device with space heritage are key factors in the selection of components for space level applications .
1 . The first hurdle for space electronics to overcome is the vibration imposed by the launch vehicle
2 . Electronics device to be the response of the structure to high frequency , high magnitude stress waves that propagate throughout the structure as a result of an explosive charge , like the ones use in a sattelite ejection or the separation of two stages of support device and home base device .
3 . High levels of contamination on surfaces can contribute to electrostatic discharge .
4 . No floating metal
5 . Using lead- based solder eliminate the risk of short occuring when devices are used in high stress applications .
6 . The space radiation environment can have damaging effects on spaceraft electronic device .
7 . Analog devices has the depth and breadth of technologies that spans the complete signal chain from sensors , amplifier , booster , RF and microwaves
Device , ADCs, DACs , and output devices that provide solutions to the challenging requirements of the aerospace and communication defence industry .
8 . Electronics device support super ring communication using GPS as like as navigation sattelite , include atomic clock , navigation signal generator , and high power RF amplifier and Antennas .
9 . For telecommunications system , the payload would include antennas , transmitters and receivers , low noise amplifiers , mixers and local oscillators , demodulator and modulators , and power amplifier .
10. Observatoin device : microwave , infrared sounding instruments for weather forecasting , visible infrared imaging radiometers , oxygen mapping instruments , visible and infrared cameras , and sensors , the thinking with Artificcial intelligence, machine learning and deep learning go to MARIA PREFER with JESI ISE .
FB.3 Fibonacci generalize to
Electronics communication bridge " Morse code "
In such advanced devices as computers, facsimiles and CD players, information is sent by digital signals. The Morse code, composed of dots and dashes, is a forerunner of digital communications codes. The code was originated about 1840 by the American inventor Samuel F. B. Morse and his assistant Alfred Vail. In 1851 an international convention improved the original Morse’s code and the resulting newer code is called the International Morse code.
Today, Morse code remains popular with amateur radio operators around the world. It is also commonly used for emergency signals. It can be sent in a variety of ways with improvised devices that can be switched easily on and off, such as flashlights.
We look communication circuit in electronic coomunication device ;
Before telephones were invented, it could send messages over long distances by using pulses of electricity to signal a machine to make marks on a moving paper tape.
A code was necessary to help translate the marks on the paper tape into readable text messages. Morse developed the first version of this code.
His version included only numbers. Vail soon expanded it to include letters and a few special characters, such as punctuation marks.
The code — known as Morse code — assigned each number, letter or special character a unique sequence of short and long signals called "dots" and "dashes."
In Morse code transmission, the short dot signal is the basic time measurement. A long dash signal is equal to three dots. Each dot or dash is followed by a short silence that's equal to a dot.
If you wonder how they decided which combination of signals was assigned to each letter, they studied how often each letter in the English language was used.
The most used letters were given the shorter sequences of dots and dashes. For example, the most commonly used letter in the English language — E — is represented by a single dot.
The original telegraph machines made a clicking noise as they marked the moving paper tape. The paper tape eventually became unnecessary.
Telegraph operators soon learned that they could translate the clicks directly into dots and dashes. Later, operators were trained in Morse code by studying it as a language that was heard rather than read from a page.
Although Morse originally referred to code signals as dots and dashes, operators began to vocalize dots as “dits" and dashes as “dahs" to mimic the sound of Morse code receivers.
Today, it's possible to transmit messages in Morse code in any way that dots and dashes can be communicated. This includes sounds and lights, as well as printed dots and dashes.
Morse code was critical for communication during World War II. It was also used as an international standard for communication at sea until 1999, when it was replaced by the Global Maritime Distress Safety System. The new system takes advantage of advances in technology, such as satellite communication.
Today, Morse code remains popular with amateur radio operators around the world. It is also commonly used for emergency signals. It can be sent in a variety of ways with improvised devices that can be switched easily on and off, such as flashlights.
The international Morse code distress signal ( · · · — — — · · · ) was first used by the German government in 1905 and became the standard distress signal around the world just a few years later. The repeated pattern of three dots followed by three dashes was easy to remember and chosen for its simplicity.
In Morse code, three dots form the letter S and three dashes form the letter O, so SOS became a shorthand way to remember the sequence of the code. Later, SOS was associated with certain phrases, such as “save our ship" and “save our souls."
These were just easy ways to remember SOS, though. The letters themselves have no such inherent meaning.
Electronic circuit example fibonacci application ;
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The Fibonacci sequence generator can be implemented with two registers and one adder. Upon reset the first register is set to 1 and the second to 0. When the reset is released, the generator starts generating the sequence. Since the numbers become quickly larger and larger, the circuit will soon run out of bits. For instance, with 32 bits the largest Fibonacci number that can be represented corresponds to n=47.
Even though the circuit is very simple, it is very difficult to design it starting from basic gates. The circuit can be described with VHDL or Verilog and then you can synthesize it. You can also use Synopsys SPW or MATLAB to create the block diagram and then use the tool to automatically generate the RTL code.
From the practical point of view, the implementation of the random Fibonacci sequence generator could be more useful. It is defined by the relation:
Fn=Fn−1±Fn—2Fn=Fn−1±Fn—2
The signs + or − are chosen randomly with equal probability 1/2, independently for different n.
The random Fibonacci sequence consists of positive and negative numbers which require just a few bits.
The adder of the block diagram can be replaced with an adder/subtractor whose control bit can be driven with a pseudorandom number generator.
For instance, a pseudorandom number generator using the polynomial
1+x−18+x−231+x−18+x−23
could be used.
It can be implemented with a 1-bit shift register with 23 locations and two adders. Each adder can be replaced with an XOR gate.
The repetition period can be increased by using a higher order polynomial and a longer shift register.
FB 4. AGSTMM WIPER ( Word _ Instruction
_ Peripheral _ Energy _ Recovery )
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Monitoring and Controling is the key to success for everything in business, science, and technology. Controls can be unique and do not follow competitors. providing new conveniences or new methods or new benefits and new lifestyles that is technology and science. Monitoring for setting Life Style in Pro Modern Live and Life .
Good term and theme for monitoring level
***we look at hot and cold fusion Energy :***
Plasmas are very hot gases, so hot that electrons have been freed from atomic nuclei, forming a collection of ions and electrons that can be controlled by electric and magnetic fields. The known universe consists of over 99% plasma, which form stars such as the sun. Scientist study plasmas in space, like star explosions, to better understand plasma physics. Scientist also study plasmas that occur on Earth, like lightning. There are also plasmas that are manufactured and are seen everywhere, like light bulbs and a store’s neon sign. There are plasmas that have practical applications, such as advanced medical and sanitation procedures. However, there are challenges in creating and sustaining plasmas on Earth.
The sun produces light and energy that everyone can see and feel. It does this by a process called fusion. Fusion occurs in a plasma where two nuclei are combined to form a new atom. This occurs many times in the sun generating an enormous amount of energy. Scientist now want to recreate the process here on Earth and collect the energy to make electricity. The promise and potential benefits to humankind from this carbon-free energy source are enormous. Achieving this goal would have far-reaching and significant effects on human civilization and its impact on the planet.
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SUPPORT CHEMICAL CONCEPT TO FB1 , FB2 , FB3
AND FB4 .
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support and checker future technology balancer
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There was no shared language, no common understanding of technology, and little history of working through how to balance the competing interests at stake on issues as diverse as encryption, artificial intelligence (AI) and cyberwarfare.
the goal is to inspire a new generation of tech-savvy students who can think critically about the impacts of technological change and explore opportunities to work in service of the public good, one focused on human-centered artificial intelligence, a second on data science and a third on social problem-solving
AL do Four do AL One initiatives take off in the coming year:
1. new curricular innovations and improvement
2. educational pathways and Research Tracking
3. research opportunities and career trajectories in public interest technology
4. development strategic for global future at
outspace base station .