integrators are more linear than the differentiators and the integrators reduce the power consumption than the high pass filter
The basic elements in digital signal processing are an analog to digital converter, digital signal processor, and digital to analog converter. This process can take an analog input signal, convert it to digital for processing and offer an analog output.
Analogue
I thank that antalog time is the time on a analog clock, It makes since analog time on a analog clock.
An DAC convert digital signal to analog signal i.e Digital to Analog Converter. An ADC convert analog signal to digital signal i.e Analog to Digital Converter.
The left analog stick in the PC is the analog stick that is located to the left...
Analog computers do not have memory like digital computers do, so this question has no answer as written.Analog computers have widely varying architectures, unlike modern digital computers which are all some variant of the stored program architecture first developed in the late 1940s.The most common analog computing architecture from the 1920s through early 1980s and implemented both mechanically and electronically was the Integrating Analog Computer. On such computers the capacity was specified by the number of Integrators. A small computer might have 8 integrators while a large one might have 50 integrators.
it can be small, it can be large. The critical question is how many integrators does your problem need?
The op amp differentiator is generally not used in any analog computer application. The basic reason for this is that high-frequency noise signals will not be suppressed by this circuit; rather they will be amplified far beyond the amplification of the desired signal.
Included in this industry are digital computers, analog computers, and hybrid digital/analog computers.
No, most computers today are digital machines. Digital computers operate using discrete binary data, represented as 0s and 1s. Analog computers, on the other hand, manipulate continuous physical quantities such as voltage, current, or mechanical motion. While analog computers were used in the past, the vast majority of computers in use today are digital.
Victor Paschkis has written: 'Direct analog computers [by] Victor Paschkis [and] Frederick L. Ryder' -- subject(s): Engineering, Electronic data processing, Electronic analog computers, Electromechanical analogies 'Direct analog computers'
built with the same level of technology, analog computers are always faster but less accurate than digital computers. however as little significant work on analog computers has been done since the 1980s, they currently significantly lag behind digital computers in speed.
Hybrid computers are computers that exhibit features of analog computers and digital computers. The digital component normally serves as the controller and provides logical operations, while the analog component normally serves as a solver of differential equations.
Faster responce.
abacus old-fashioned cash register (with gears and handle) gear-driven clocks/watches ---- Actually the above are examples of mechanical computers, not analog computers. Analog computers use continually variable quantities. An abacus uses discrete units of measurement and is digital, though not binary. A slide rule is an example of a simple mechanical analog computer. Another example is the Norden Bomb Sight. An ancient example is the astrolabe. More complex analog computers are programmable and can use fluid, mechanical, or electronically set values. There is a link below to an article on analog computers.
analog computers
analog digital