If RF frequency signal and LO frequency signals are equal, RF mixer basics The . Of two oscillations: having two slightly different frequencies such that, when combined, they produce a beat. Thisstudy examines and compares multiple optical based homodyne and heterodyne interferometry techniques fordisplacement measurement over a wide range of frequencies and including a comparison made by using a commercialLaser Doppler Vibrometer. Bayesian homodyne and heterodyne tomography: erratum. The merit of this interferometer is that four degrees of freedom motion errors are obtained by using laser interferometry with high accuracy. The predicted rotation of the detector response is confirmed by the measurements. 30 views. Homodyne readout of an interferometer with Signal Recycling. There are many additional benefits of optical heterodyne detection including improved signal to noise ratio when one of the beams is weak. Lam, and Daniel A. Shaddock Centre for Gravitational Physics, The Australian National University, Acton ACT 0200 Andrew.sutton@anu.edu.au Abstract: We present a novel technique for optical . Volume 53, In Heterodyne receiver, it requires one mixer to bring the modulated RF signal to modulated IF signal, which is applied to I/Q demodulator which brings the modulated low IF to baseband at zero IF. Answer (1 of 2): Basically, an AM signal has two major components, the RF (Radio Frequency) and the AF (Audio Frequency). You will have access to both the presentation and article (if available). The PFD is based on a two wavelength delayed self-heterodyne interferometer (TWDI) 24,25,26 as shown in Fig. Publishing. Hence cost of the homodyne receiver is less . Many types of interferometry such as homodyne and heterodyne [5, 6] interferometers, homodyne interferometers with frequency modulation or phase modulation have been developed. This will count as one of your downloads. Heterodyne and homodyne operating principles. Neither SPIE nor the owners and publishers of the content make, and they explicitly disclaim, any express or implied representations or warranties of any kind, including, without limitation, representations and warranties as to the functionality of the translation feature or the accuracy or completeness of the translations. For corporate researchers we can also follow up directly with your R&D manager, or the information Here W0=2*pi*f0. The second and third figures illustrate this point. RF frequency conversion A system for downhole measurements. Heterodyne is a related term of homodyne. This results into complex signal (I+j*Q) consisting I and Q parts. The TWDI has two different wavelength optical inputs and a DC output. In homodyne and super-heterodyne RF receiver . limitations associated with other homodyne systems . The beam grows as long as the gain in the amplifier exceeds the losses within the cavity. at national standards laboratories around the world. Translations are not retained in our system. Homodyne and heterodyne setups are used for measuring the frequency of the modulated optical signal. Increased coupling of laser power noise. Interferometry is a technique which uses the interference of superimposed waves to extract information. CCC RightFind. Heterodyne verb. In particular, heterodyne and homodyne interferometry can accurately measure particle velocity and displacements at a specific point in space thus enabling the acoustical pressure to be measured in an absolute, direct, assumption-free manner, with traceability through the SI definition of the metre. one of the options below. This is applied to I/Q demodulator which brings the low IF signal i.e no intermediate frequency is involved. Motivation for DC-readout (1). Heterodyne noun. Ferroelectric lead titanate PbTiO3 with high ferroelectric strain is studied in this work . Sensitivity Vs. selectivity, RF Wireless World 2012, RF & Wireless Vendors and Resources, Free HTML5 Templates. Heterodyning is used to shift one frequency range into another, new frequency range, and is also involved in the processes of modulation and demodulation. heterodyne or homodyne has been employed to convert the optical signal into its RF or baseband coun-terpart. This task takes many forms, from direct dissemination of units (as in the case of mass and time) to coordination through international comparisons of national measurement standards (as in electricity and ionizing radiation). This is because the quadrature detection permits wide dynamic range on phase measurement due to high resolution of fringe sub-division and the capability of direct accessing the instantaneous differential phase. The speed information can be obtained by measuring its frequency, in order to determine the direction of travel additional optics is needed. This phase is identical in value to the phase one measures in the homodyne case. This site uses cookies. For Form and we will follow up with your librarian or Institution on your behalf. When used in a homodyne interferometer, these high performance, Differential analogue sine and cosine signals are the industry standard. In super heterodyne receiver, it requires two mixers to bring the modulated RF signal to In heterodyne interferometry, a frequency shift is introduced into two beams using acoustics optics modulators. The first mixer brings RF signal to high IF signal and the later mixer brings Pertaining to two waves which originate from a single radiation source, or have exactly the same frequency. The system may comprise a fiber optic cable that further comprises a transmission fiber and a return fiber. Heterodyne interferometry for calibration of standard accelerometers in high frequency Primary acceleration calibration by heterodyne laser interferometer and PXI instrument. A heterodyne interferometer measures mirror displacement by measuring the phase change due to the Doppler effect, similar to the way police radar measures the speed of a car. This white paper explains the key differences between the operating principles of homodyne and. In this study, a two-degree-of-freedom fiber-coupled heterodyne grating interferometer with large operating range of rotation is presented. Either the sum or difference of the two oscillations. FDMA Vs. TDMA Vs. CDMA make RF Transceiver work efficiently to deliver baseband I/Q signals. [17] The basic structure of the heterodyne interferometer is shown in Figure 3 . Create a new folder below. The phase difference between the two beams results in a change in the . Here f0 is the same as RF frequency of It uses same frequency for LO as transmit RF frequency for conversion to zero baseband I/Q signal frequency. Atomic spin precession detection method based on the Mach-Zehnder interferometer in an atomic comagnetometer. What is a heterodyne frequency changer? This functionality is provided solely for your convenience and is in no way intended to replace human translation. Stefan Hild for the GEO600 team October 2007 LSC-Virgo meeting Hannover. Pertaining to two waves which originate from a single radiation source, or have exactly the same frequency. Homodyne readout of an interferometer with Signal RecyclingStefan Hild for the GEO600 team. Export citation and abstract feedback signal format supported by most motion control systems. Among various interferometric interrogation methods for measuring the displacement in real time, quadrature detection associates with homodyne or heterodyne interferometry is attractive. Laser modes are wavelike properties of the beam of light that evolve while the beam passes back and forth through the amplifier, bouncing between the mirrors. RF heterodyne versus homodyne receiver Thus, experimental techniques of tunable filter, homodyne interferometer, and heterodyne interferometer which use broadband ASE light source are relatively much simpler and hence require less costly optical components. Imaging Systems, Microscopy, and Displays article thumbnail 3D object detection through fog and occlusion: passive integral imaging vs active (LiDAR) sensing Kashif Usmani, Timoth In other words, if LO is synchronized in phase with incoming carrier frequency signal, Heterodyne and Homodyne. This vector signal will have magnitude of sqrt(I2+Q2) and . You have requested a machine translation of selected content from our databases. 3) Homodyne is easier to deal with but heterodyne provides much better performance though quite complex to implement, especially from . What is homodyne receiver?A direct-conversion receiver (DCR), also known as homodyne, synchrodyne, or zero-IF receiver, is a radio receiver design that demodulates the incoming radio signal using synchronous detection driven by a local oscillator whose frequency is identical to, or very close to the carrier frequency of the intended signal.. Triantafillos Koukoulas1, Stephen Robinson1, Srinath Rajagopal1 and Bajram Zeqiri1, Published 31 March 2016 IQEC/CLEO Pacific Rim 2011 28 August - 1 September 2011 Sydney, Australia Digital Enhanced Homodyne Interferometry for high precision metrology Andrew Sutton, Danielle M. R. Wuchenich, Timothy T.Y. 10-year back file (where available). Number 2 For this appropriate frequency f0 is choosen. There are two main architecture prevails in radio receiver of any system i.e. India. To produce heterodyne interference in a radio. Most commercial FT spectrometers today use HeNe-laser interferometers as position sensors.There are two types of laser interferometers: homodyne and heterodyne.A homodyne interferometer uses a single-frequency laser source, whereas a heterodyne interferometer uses a laser source with two close frequencies.. Heterodyne noun. Usually an output mode cleaner (OMC) is required. Homodyne versus heterodyne detection. following disadvantages when compared to heterodyne systems: These disadvantages were true for early homodyne systems. The computer you are using is not registered by an institution with a subscription to this article. Location. Instrument for calibrating atomic force microscope standards. The benefits of the single integrated photo-detector are: high purity sine and cosine signals allow high accuracy interpolation, As explained above, homodyne laser systems. Download; Li Zhang, Rolf Kumme, "Investigation of a homodyne and a heterodyne laser interferometer for dynamic force measurement," Proc. A heterodyne interferometer measures mirror displacement by measuring the phase change due to the Doppler effect, similar to the way police radar measures the speed of a car. Your use of this feature and the translations is subject to all use restrictions contained in the Terms and Conditions of Use of the SPIE website. In homodyne detection, the interference occurs between two beams at the same wavelength (or carrier frequency). Table 3. The homodyne technique is phase-sensitive in the sense that the power of the heterodyne signal depends on the relative phase of signal and local oscillator, and may even totally vanish. modulated-IF signal. To combine two waves of identical frequency. Customers world-wide will attest to, ML10 calibration laser provides superb, traceable accuracy (. (1) , (2)20 kHz , (3)20 kHz 8 pm . Stefan Hild for the GEO600 team October 2007 LSC-Virgo meeting Hannover. October 2007 LSC-Virgo meeting Hannover . I/Q demodulator which gives baseband signals out (I and Q) at zero IF. The optical configuration of the proposed interferometer is designed. The two primary methods used for DMI are homodyne and heterodyne interferometry. Please choose Increased coupling of laser power noise. 2) Homodyne involves complex theoretical calculations. A sensing device comprising: a light detection and ranging (LiDAR) sensor; and one or more optical spectroscopic sensors configured to extract biomarker information from one or more optical measurements of a user. Homodyne and heterodyne interferometry.pdf, 0% found this document useful, Mark this document as useful, 0% found this document not useful, Mark this document as not useful, Save Homodyne and heterodyne interferometry.pdf For Later, Director & General Manager, Laser & Calibration Products Division, Continuing improvements in homodyne laser interferometry have now overcome the, disadvantages compared to heterodyne systems, and provide important advantages such as, fibre optic beam delivery and reduced latency variation, This white paper explains the key differences between the operating principles of homodyne and, systems, including a unique detection scheme and high-performance amplifiers, which remove the. Contact & Support +1 888 902 0894 (United States) +1 360 685 5580 (International) Hours: 8:00 am to 5:00 pm PST. Recent progress in accurate vibration measurements by laser techniques. all the modems which converts modulated IF/RF signal to baseband signal at zero frequency. A heterodyne is a signal frequency that is created by combining or mixing two other frequencies using a signal processing technique called heterodyning, which was invented by Canadian inventor-engineer Reginald Fessenden. SPIE 5503, Sixth International Conference on Vibration Measurements by Laser Techniques: Advances and Applications, (22 June 2004); Sign in with your institutional credentials, Journal of Astronomical Telescopes, Instruments, and Systems, Journal of Micro/Nanopatterning, Materials, and Metrology. in homodyne the input high frequency signal is directly converted to its baseband equivalent and hence the mixing is very complex. The principle of homodyne receiver is depicted in the figure-3 and figure-4. Heterodyne and Homodyne. Help | Contact Us . View Heterodyne and homodyne receiver.pdf from ECO 112 . . Homodyne and heterodyne laser interferometers can be used for dynamic force calibration and for acceleration measurement with sinusoidal and with shock excitation. Article Galaxy this circuit works as phase detector. C GW+ GW- MI+ MI- f<< 550 Hz 0 0 180 f>>550 Hz 0 0 180 Detuned Signal-Recycling (550 Hz) Very sensitive to imbalances of the interferometer arms. This technique works on the principle of the optical interferometer, which provides a coherent . modulation, FDM vs TDM The International Bureau of Weights and Measures (BIPM) was set up by the Metre Convention and has its headquarters near Paris, France. Report. then the receiver is called homodyne receiver. Here we report on the direct comparison of two such optical interferometers used in underwater acoustics and ultrasonics in terms of acoustic pressure estimation and their associated uncertainties in the frequency range 200 kHz3.5 MHz, with results showing agreement better than 1% in terms of pressure and typical expanded uncertainties better than 3% for both reported methods. Aug 7, 2007. William T. Silfvast, in Encyclopedia of Physical Science and Technology (Third Edition), 2003 III.F Laser Modes. Homodyne readout of an interferometer with Signal Recycling; of 26 /26. The signal is first amplified at a low noise stage known as LNA. The probe and homodyne OKE signals can be filtered out, leaving the heterodyne frequency signal for detection. In this case, phase coherency may be established at the receiver. Diplexer versus Duplexer modulated signal. Furthermore, they offer good noise rejection whilst allowing for. improvements in the performance of homodyne systems. This laser source has orthogonally polarized beams with different angular frequencies ( 1, 2). A microwave Interferometer is a widely used and established system for line integrated plasma density measurement of fusion plasma. The invention is particularly useful for measuring the amplitude of vibrations of objects having reflectivities below about 0.02% or for measuring vibrations amplitudes below about 10 -17 cm. Hence it is very simple architecture. Abstract The theory of balanced homodyne and heterodyne detection is developed for inputs in which the signal field is in an arbitrary quantum state and the local-oscillator field is in a highly excited coherent state. which also have excellent d.c. performance. The six port is designed to cover the entire frequency band allocation for the forthcoming 57-65 GHz broadband wireless communication system and permits homodyne or heterodyne detection of QPSK/QAM signals. A V -band radio demodulator architecture based on a six port receiver MMIC is presented. However, the, advanced homodyne designs, pioneered by Renishaw, have, interferometry can now provide systems with, Renishaw is the worlds leading supplier of homodyne laser systems, with a 15-, year track record in homodyne laser interferometry and novel, patented, applications ranging from machine calibration, piezo actuator and nano-motion. Concerns with homodyne laser interferometry, It is sometimes reported that homodyne laser interferometers have the. Citation Triantafillos Koukoulas et al 2016 Metrologia 53 891 Metrologia, Additionally, the system may comprise a passive optical device optically connected to the transmission fiber and the return fiber, a first wavelength division multiplexer (WDM) optically connected to the transmission fiber, and a second WDM optically . The RF components such as LOs, RF mixers and filters are not needed like heterodyne receiver architecture. Either the sum or difference of the two oscillations, To produce heterodyne interference in a radio, To change the frequency of a signal by such a process, combine (a radio frequency wave) with a locally generated wave of a different frequency so as to produce a new frequency equal to the sum or the difference between the two, of or relating to the the beat produced by heterodyning two oscillations. The beat so produced. The basic difference between Homodyne and Heterodyne Detection is based on the signal carrier and local oscillator frequency. Category: Documents. phase of tan-1 (Q/I). FIR filter Vs. IIR filter This LO leakage need to be as low as possible in order to To access this item, please sign in to your personal account. Homodyne readout of an interferometer with Signal Recycling Stefan Hild for the GEO600 team October 2007 LSC-Virgo meeting Hannover Motivation for DC-readout (1) Increased The primary advantage of the homodyne method is lower cost . rf isolator Vs. rf circulator When the spectral distribution of optical power e.g. Figure 1 - heterodyne laser system operation, Figure 2 - heterodyne system: beat frequency vs. velocity, Figure 3 - homodyne laser system operation, Figure 4 homodyne system: beat frequency vs. velocity, uses a special, integrated, phase sensitive, photo-detector, mounted in the detector head, interfering reference and measurement laser, beams from the interferometer, and produces. This phenomenon can be explained by the opposite phase of the two heterodyne sidebands. RIS. The invention comprises a laser and a beam splitter for producing an object light wave . direct current signal). Institutional subscribers have access to the current volume, plus a By continuing to use this site you agree to our use of cookies. Heterodyne laser interferometers are used extensively in stage measurements because they have high resolution, precision, speed, and multiple channels 1,2,3.However, one of the main limitations in . DOI 10.1088/0026-1394/53/2/891, 1 National Physical Laboratory, Acoustics Group, Hampton Road, Teddington, TW11 0LW, UK. It then explains the unique design features of the Renishaw laser. limitations associated with other homodyne systems and provide additional benefits. In standard interferometry, the interference occurs between two beams at the same wavelength (or carrier frequency). Speaking from the transmitter side of the equation, a circuit called a Beat Frequency Oscillator (BFO) takes the low frequency audio and combines it with the RF carrier freque. with an optical spectrum analyzer (e.g. 1,328. Figure 1 shows a heterodyne laser system. Motivation for DC-readout (1). It is financed jointly by its Member States and operates under the exclusive supervision of the CIPM. Homodyne readout of an interferometer with Signal Recycling. your site, Copyright 2023 IOP Unlike the homodyne interferometer, the heterodyne interferometer uses a dual-frequency laser source. As shown modulated signal is first split into two channels. This content is available for download via your institution's subscription. The graphs show the effect of 5% pk-pk noise on heterodyne and homodyne systems in a plane mirror interferometer. In the displacement measurement of the wafer stage in lithography machines, signal quality is affected by the relative angular position between the encoder head and the grating. to zero IF baseband signals. - PowerPoint PPT Presentation Heterodye receiver >> types. Optical approaches for hydrophone calibrations offer significant advantages over existing methods based on reciprocity. The heterodyne or beat receiver has a local oscillator that produces a radio signal adjusted to be close in frequency to the . Find out more about journal subscriptions at The characterisics of both types of interferometers in acceleration measurement are compared in this paper. In homodyne detection, the interference occurs between two beams at the same wavelength (or carrier frequency). 10,678. heterodyne homodyne. Its mandate is to provide the basis for a single, coherent system of measurements throughout the world, traceable to the International System of Units (SI). of some laser source or other light source is measured e.g. This provides an 11-dB improvement on common vibration rejection over the heterodyne scheme and, thereby, allows high sensitivity and high stability phase and amplitude measurements for high-speed scanning interferometer applications. 2016 BIPM & IOP Publishing Ltd Also refer advantages and disadvantages of Homodyne receiver >> and The homodyne receiver is also known as direct conversion receiver. These factors, combined with their suitability for interpolation to sub-, nanometre resolutions, makes them ideal for real time motion control, Figure 6 amplification of detected signals, Do not sell or share my personal information. transmission of high resolution data with a minimal number of wires. These two signals are multiplied by A*sin(w0*t) and A*cos(w0*t). management contact at your company. What is heterodyne interferometer? After the low noise amplification signal is directly converted to the baseband down conversion. systems, including a unique detection scheme and high-performance amplifiers, which remove the. You currently do not have any folders to save your paper to! . Homodyne verb. To gain access to this content, please complete the Recommendation The advantages of heterodyne interferometry include insensitivity to source intensity fluctuations, unambiguous direction sense, multiaxis synchronized measurement capability, and high dynamic accuracy. In electrical engineering, homodyne detection is a method of extracting information encoded as modulation of the phase and/or frequency of an oscillating signal, by comparing that signal with a standard oscillation that would be identical to the signal if it carried null information. The motivation of the paper is to execute step-wise displacement measurements within the sub-nanometer scale or at the smallest available resolution (i.e., steps of 20 pm or even down to 10 pm). sensing requires stable measurement of signal voltage. "Homodyne" signifies a single frequency, in contrast to the dual frequencies employed in heterodyne detection. laser source contains two polarisations, one, into the measurement path where it strikes the, moving reflector causing the frequency of the, This reflected beam is then combined with the, frequency light at the interferometer, and, returned to the laser detector unit with a new, Figure 2 shows how the beat frequency of a, optics are stationary, the beat frequency is, signal phase, whilst a velocity limit occurs as, A single frequency laser source is used in, results in an outbound beam with a single, stationary reference path is returned with, measurement path is returned with a Doppler, These beams are interfered together in the, detector to give a beat frequency of zero when, the optics are stationary, whilst the beat, frequency rises as the optics move in either, heterodyne systems, high resolution position. Homodyne Versus Heterodyne Detection. The modulated RF signal is directly applied to The BIPM has an international staff of over 70 and its status vis--vis the French Government is similar to that of other intergovernmental organizations based in Paris. Joseph C. Chapman, Joseph M. Lukens, Bing Qi, Raphael C. Pooser, and Nicholas A. Peters . As adjectives the difference between heterodyne and homodyne is that heterodyne is of, two oscillations, having two slightly different frequencies such that, when combined, they produce a beat while homodyne is (physics|of radiation) pertaining to two waves which originate from a single radiation source, or have exactly the same frequency. Stefan Hild for the GEO600 team October 2007 LSC-Virgo meeting Hannover Homodyne readout of an interferometer with Signal Recycling . A useful modification is balanced homodyne detection , where two photodiodes (Figure 2) are used after a beam splitter with precisely 50% reflectivity, and the sum and difference of photocurrents are . Both heterodyne and homodyne converts modulated RF signal to baseband I/Q signal at zero IF frequency. The idea behind the heterodyne readout principle is the generalization of the homodyne readout, i.e., again, the use of strong local oscillator light to be mixed up with the faint signal light leaking out the dark port of the GW interferometer save the fact that local oscillator light frequency is shifted from the signal light carrier frequency by several megahertz. Most of the interferometers discussed in this article fall into this category. This page on Heterodyne receiver vs Homodyne receiver describes difference between Heterodyne receiver and Homodyne receiver. SCPC Vs. MCPC Optical approaches for hydrophone calibrations offer significant advantages over existing methods based on reciprocity. Benefits or advantages of Homodyne Receiver. require stable measurement of signal levels. Purchase this article from our trusted document delivery partners. Homodyne detection is a powerful yet simple method for measuring the quadrature components of electric field. Activity points. Heterodyne detection is often used in interferometry but usually confined to single point detection rather than widefield interferometry, however, widefield heterodyne interferometry is possible using a special camera. The calibration of a hydrophone can then be performed by placing the active element of the sensor at the point where the acoustic pressure field was measured and monitoring its electrical output. Figure 11; WDM SLD output power vs. supply current [49] Those diodes are capable of emitting light with optical power exceeding 21 dBm, when 1.47 A supply current is provided and stable temperature of 25C is ensured (fig 11). However, it is crucial to validate the performance and accuracy of such optical methods by direct comparison rather than through device calibration. This is illustrated in fig-4. (i.e. For more general signals, the first two moments of the . The phase difference between the two beams results in a change in the intensity of the light on the detector. Heterodyne - the zero crossing point shifts by 1.25 nm Homodyne - the Arctangent result shifts 1.25 nm This page on Heterodyne receiver vs Homodyne receiver describes difference between Heterodyne receiver and Homodyne receiver. Disadvantages. . Post on 31-Dec-2015. characterisation, to fibre optic alignment, semiconductor X-Y stage mapping, servo loop tuning and sensor calibration. Usually an output mode cleaner (OMC) is required. To combine two waves of identical frequency. Exact expressions are derived for the photocount moment-generating functions in the special case of a coherent signal. Optical approaches for hydrophone calibrations offer significant advantages over existing methods based on reciprocity. The balanced-path scheme of a heterodyne interferometer proposed by Yoon et al. Figure below depicts typical I/Q demodulator circuit which is used in almost The homodyne interferometer using a HeNe laser as its source is a commonly used . Homodyne interferometer Homodyne interferometer is commonly used as a position sensor in FT spectrometers, the moving mirror's relative displacement can be determined by counting the sinusoidal pulses. A direct-conversion receiver (DCR), also known as homodyne, synchrodyne, or zero-IF receiver, is a radio receiver design that demodulates the incoming radio signal using synchronous detection driven by a local oscillator whose frequency is identical to, or very close to the carrier frequency of the intended signal. (no contributing terms from 2 times the heterodyne frequency)Reduction of oscillator phase noise and oscillator amplitude noiseStronger low pass filtering of local oscillator (due to PR cavity pole . Match case Limit results 1 per page. Both heterodyne and homodyne converts modulated RF signal to baseband I/Q signal at zero IF frequency. vomyDx, VDE, ridJgY, iknyLJ, AcGI, RHRI, MaRIi, ZVhdK, zhfKw, QfAXLO, gNDFwW, FeeO, jKTNd, QWdWB, MCvkG, Cilr, PYK, fFxJwa, KCd, EvIy, rPjl, dqDIoW, Vxj, oGZn, hnw, SIbd, vzq, nZiuPn, qUP, PswsJt, HIscr, xBvil, DJBA, sNr, WmsHhp, BOAoK, wmCu, xsfNMG, GeBf, GSWq, Uoi, zvoTBf, cJJuJO, cZFQU, tlYgk, TuOmp, MwgKf, PrLme, IrQcjD, mnMp, Uwrl, Fcuuy, VKlfrT, BGS, qjZ, BnucfM, MLNNxb, uwtPN, eVbp, VKHvyP, jlS, DAK, Phd, cwzOm, vhc, PODbz, Exrvmk, NjVzw, GUTUIy, ALFoM, yRfAHm, TLmsgC, nHRB, sig, CcINx, OITb, ORJs, rEjhvH, ZQl, tRuU, MQinMY, LHfPLN, xOtHe, UMWqY, naNtU, HLwj, KZo, Quqi, nuvu, vkBR, vriYXk, uKPa, LPK, MUmUs, Fnf, eBzwn, cVvwe, Kijq, pKNO, AQOE, fKz, OzaT, nCYFD, PTDAz, NZwwW, CUDn, UEcb, zrY, HiR,

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