Example

... cannot be interrupted by one for the keyboard, but the interrupt routine for the keyboard can be interrupted by one from the timer. The motivation in this case is not to miss any timer ticks, with consequent error to the time of day maintained. The interrupt controller is programmed by the operating ...

ABFT Frequency Translator - Product Training Module

... Base Station - GSM, CDMA Telecom - SONET/SDH/ATM ...

The DECIMETER slipslick

... the oscillator. This reaction will appear as a fluctuation of grid current, plate current, or output to an r. f. detector. Reduce the coupling of the Slipstick to the oscillator until its effect is just perceptible. Read the frequency at the outside edge of the center plastic assembly as marked. ...

Science and Engineering Saturday Seminars What Electrical

... 30+ transistor functions along with resistor and diode functions. Its output consists of one or more square wave pulses with the frequency controlled by external R and C components. It can serve as a relatively precise “clock pulse” circuit for use in more complex systems. LED: Led’s (light emitting ...

Bubba oscillator Summary References Related Web sites

... Op amp oscillators are restricted to the lower end of the frequency spectrum because op amps do not have the required bandwidth to achieve low phase shift at high frequencies. The new current feedback op amps are very hard to use in oscillator circuits because they are sensitive to feedback capacita ...

RiverbeckConfPaper160516

... In this paper we highlight the design work performed by Riverbeck Ltd on the Romeo and Juliet chipset paid for by Global Invacom and the European Space Agency. Romeo and Juliet are application specific integrated circuits developed as the receiver element of a satellite TV, terrestrial TV and FM rad ...

Classical analog of electromagnetically induced transparency

... laboratory. The stimulated resonance Raman effect has already been modeled classically in a system of three coupled pendula by Hemmer and Prentiss.7 Even though many aspects of electromagnetically induced transparency were already present in the stimulated Raman effect, as can be seen in Ref. 7, EIT ...

I 2007 IEEE International Solid-State Clircits Conference 1

... demultiplexing receiver. Because the interpolator is in the feedAs I/O bit rates have increased in order to accommodate growing back path, any glitches due to interpolator switching are filtered on-chip aggregate bandwidth, the disparity between optical and by the PLL. Also, the delay from the VCO t ...

PS TFB Hardware: J. Belleman, A. Blas, T. Bohl, F. Caspers

... Synchronization with Linac 4 Injection Reference source The injection reference rf could be issued from the R1 LLRF (last ring that will stay at a fixed frequency until it comes to its turn), but there is not much to gain using this approach. The economy of one extra rf source would be obtained at ...

Laboratory 9: Circuits and Filters

...  -3dB Point  3dB drop of signal power from highest point on gain  Signal power is half of original value ...

1.2.5.A Analog and Digital Signals

... Almost all development tools used today in digital electronics have an internal clock that can be integrated into your circuit design. There are times however, when you may want to generate your own simple clock signal and not depend on the internal clock of your development board or equipment like ...

Problem - UCLA.edu

... Die Parasitic and On-die Decoupling Capacitance ...

STUDIA SOCIETATIS SCIENTIARUM TORUNENSIS TORUN

... which is less than one second in 424 days. The implementation of this idea requires the use of the divide by 23 counter which generates two time intervals, one of 22 and another of 1 time units. The simplified circuit diagramme of the sidereal clock with variable division ratio is shown in fig. 5. T ...

Chapter 2 Interconnect Parasitic Extraction

... Die Parasitic and On-die Decoupling Capacitance ...

Physics 422 - Spring 2016 - Midterm Exam, March 10

... power drawn by the circuit. (b) Calculate the range of frequencies for which the power drawn by the circuit is at least half the maximal value. 5. A whistle consists of a tube of length L with three holes that are uniformly spaced along its length as shown. ...

ICS1561A Differential Output PLL Clock Generator Integrated Circuit

... The ICS1561A has a VDDO pin which is the supply of +5 volt power to all output stages. This pin should be connected to the power plane (or bus) using standard high frequency decoupling practice. This decoupling consists of a low series inductance bypass capacitor, using the shortest leads possible, ...

Running Self-winding Clocks from 12V Sealed Lead Acid Batteries

... displaced by the dry cell. This kept the mainspring at constant torque, producing a very accurate clock. The winding mechanism would trigger generally once per hour, but other intervals were also used. On the average batteries would need to be changed about once per year or so. Today, these self win ...

Precision Variable Frequency Drive

... customer may want to run the motor at different speeds, like for a record player that needs to operate at 45 and 33 1/3 rpm. A precision variable frequency drive is a way to speed up or slow down the motor by changing the frequency of the input voltage. This product will be designed to adjust the fr ...

power/temp management

... • It is possible to choose one among several discrete DVFS settings ...

a AN-419 APPLICATION NOTE •

... Circuit description: L2/R1 resonate with the crystal stray capacitance to prevent spurious oscillations. The tank circuit containing L3 is resonant near 125 MHz to allow the crystal to operate at its seventh overtone series resonant frequency. R6 reduces the tank circuit Q and prevents self-oscillat ...

Lab 7 - Electronic Filters (C and G Sections Only)

...  -3dB Point  3dB drop of signal power from highest point on gain  Signal power is half of original value  Cutoff Frequency (in Hz)  Frequency at -3dB Point ...

Time transfer through optical fibers over a distance of 73 km

... path instead of free-space transmission of signals between two ground stations through geostationary satellites. As we use a dark fiber there are practically no limitations to the bandwidth of the transmitted signals so that we can use the highest chip-rate of the binary phase-shift modulation avail ...

Lab 5: Frequency Response of an Op Amp Circuit

... Collect the required components; measure and record their values. Build the circuit and connect it to a sinusoidal source (FG). Test the circuit for ω ranging from 0.1 krad/s to 30 krad/s. Note: Keep the input voltage constant and measure the output voltage magnitude and phase. Plot gain magnitude v ...

Frequency combs and frequency dissemination for scientific and

... fibre network was built for the dissemination of a particular optical frequency of 269 THz (corresponding to a wavelength of 1120 nm) [12]. This transmitted frequency is used at MPQ for two different experiments on laser cooling. For both experiments only one laser and one stabilisation unit are nec ...

frequency response & compensation

...  What causes the gain of an op-amp to roll off after a certain frequency is reached? Note: roll off is the rate of decreases in voltage gain with frequency. For each ten times reduction in frequency below fc, there is a 20 dB reduction in voltage gain. ...

< 1 ... 16 17 18 19 20 21 >

Atomic clock

An atomic clock is a clock device that uses an electronic transition frequency in the microwave, optical, or ultraviolet region of the electromagnetic spectrum of atoms as a frequency standard for its timekeeping element. Atomic clocks are the most accurate time and frequency standards known, and are used as primary standards for international time distribution services, to control the wave frequency of television broadcasts, and in global navigation satellite systems such as GPS.The principle of operation of an atomic clock is not based on nuclear physics, but rather on atomic physics; it uses the microwave signal that electrons in atoms emit when they change energy levels. Early atomic clocks were based on masers at room temperature. Currently, the most accurate atomic clocks first cool the atoms to near absolute zero temperature by slowing them with lasers and probing them in atomic fountains in a microwave-filled cavity. An example of this is the NIST-F1 atomic clock, one of the U.S.'s national primary time and frequency standards.The accuracy of an atomic clock depends on two factors. The first factor is temperature of the sample atoms—colder atoms move much more slowly, allowing longer probe times. The second factor is the frequency and intrinsic width of the electronic transition. Higher frequencies and narrow lines increase the precision.National standards agencies in many countries maintain a network of atomic clocks which are intercompared and kept synchronized to an accuracy of 10−9 seconds per day (approximately 1 part in 1014). These clocks collectively define a continuous and stable time scale, International Atomic Time (TAI). For civil time, another time scale is disseminated, Coordinated Universal Time (UTC). UTC is derived from TAI, but approximately synchronised, by using leap seconds, to UT1, which is based on actual rotation of the Earth with respect to the solar time.

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Atomic clock