Audio Precision APx555 Installation Instructions And Specifications Download

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Summary of Contents for APx555

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Page 3: ...APx555 B Series audio analyzer Installation Instructions and Specifications October 2021 B Series APx555 ...

Page 4: ...e registered trademarks owned by the Blue tooth SIG Inc and any use of such marks by Audio Precision is under license Other trademarks and trade names are those of their respective owners MPEG 4 AAC LC audio technology is licensed by Fraunhofer IIS https www iis fraun hofer de de ff amm html Qualcomm aptX aptX HD and aptX Low Latency audio codecs are products of Qualcomm Technologies International...

Page 5: ...ftware and in the APx500 User s Manual included with the analyzer The user s manual is also available as a PDF on the APx500 Application Disc and on the Web at ap com additional copies can be ordered from Audio Precision or your local distributor ap com Visit the Audio Precision Web site at ap com for APx support information APx resources are available at ap com You can also contact our Technical ...

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Page 7: ... O specifications 31 ADIO Advanced Digital Input Output module specifications 45 DSIO digital serial input output module specifications 55 HDMI ARC input output module specifications 61 Bluetooth input output module specifications 69 PDM 16 input module specifications 71 PDM input output module specifications 79 AMC Advanced Master Clock Rear Panel Sync Trigger and Ref I O specifications 89 Genera...

Page 8: ...APx555 B Series Acoustic Audio Analyzer Table of Contents ...

Page 9: ...trument and discussed on page 20 of this manual The International Electrotechnical Commission IEC 1010 1 requires that measuring circuit terminals used for voltage or current measurement be marked to indicate their Measurement Category The Measurement Category is based on the amplitude of transient or impulse voltage that can be expected from the AC power distribution network This product is class...

Page 10: ...ts you to a potentially haz ardous condition such as the presence of dangerous volt age that could pose a risk of electrical shock Refer to the accompanying Warning Label or Tag and exercise extreme caution ATTENTION This symbol alerts you to important oper ating considerations or a potential operating condition that could damage equipment If you see this marked on equip ment refer to the Operator...

Page 11: ... du réseau ne doit pas dépasser 10 de la tension nominale 90 264 V CA Pour obtenir en permanence la protection contre les risques d incendie les fusibles doivent être remplacés UNIQUE MENT par des fusibles de même valeur et type comme indiqué sur le panneau arrière de l instrument et précisé à la page 24 de ce livret La International Electrotechnical Commission la Commis sion électrotechnique inte...

Page 12: ...sur le côté droit L unité doit être utilisée uniquement lorsqu elle repose sur les pattes du dessous Les pattes sur le côté droit sont installées pour plus de commod ité et de stabilité lors du transport NE PAS utiliser l unité lorsqu elle repose sur les pattes du côté Symboles de sécurité Les symboles suivants peuvent être présents sur les pan neaux ou les couvercles de l équipement ou des module...

Page 13: ... l instrument et elles doivent être raccordées à un système protecteur de mise à la terre externe Avis de non responsabilité Audio Precision déconseille fortement l utilisation de ses produits d une manière non spécifiée par le fabricant Une telle utilisation pourrait annuler toute garantie endom mager l équipement ou présenter un risque de sécurité pour le personnel ...

Page 14: ...Sécurité 12 APx555 B Series Audio Analyzer Sécurité ...

Page 15: ... fuente de suministro de voltaje no debe exceder del 10 del nominal 90 264 VCA Para protección continua contra riesgo de incendio los fus ibles deberán reemplazarse SOLAMENTE con fusibles de valor y tipo exactos indicados en el panel posterior del instrumento y que se explica en la página 28 de este folleto International Electrotechnical Commission La Comisión Electrotécnica Internacional IEC 1010...

Page 16: ...húmedo Esta unidad se suministra con cuatro patas en la superficie inferior y cuatro patas en la superficie del costado derecho La unidad solamente debe operarse al estar apoyada en las patas de la superficie inferior Las patas en el costado dere cho se proporcionan para conveniencia y estabilidad al transportar la unidad NO opere la unidad al estar apoyada sobre las patas laterales Símbolos de se...

Page 17: ...está enlazado a partes con ductores del instrumento y se supone que está conectado a un sistema externo de protección a tierra aterrizada Exención de responsabilidad Audio Precision advierte contra el uso de este producto de una manera no especificada por el fabricante El hecho de no hacerlo de la manera indicada invalidaría las garantías causaría daño al equipo o representaría un riesgo de seguri...

Page 18: ...Seguridad 16 APx555 B Series Audio Analyzer Seguridad ...

Page 19: ...APx KeyBox to the Software Options con nector on the analyzer rear panel The APx KeyBox must be programmed with your ana lyzer s serial number at the Audio Precision factory and cannot be used with any other APx analyzer You may require authorization codes to enable APx500 software or software options Note that without a properly authenticated APx KeyBox attached APx500 version 4 6 or later will o...

Page 20: ...r with a superior PC in some cases very high mea surement demands can slow or stop measurements The APx555 in particular can place very high demands on the PC system when used in high bandwidth testing Installation To install the measurement software insert the APx500 CD ROM into the optical drive on the PC and follow the instructions in the installation dialog NOTE You must have local administrat...

Page 21: ...below for more information about mains connections Turn the instrument ON by pressing the pushbutton on the front of the instrument Microsoft Windows will detect the presence of the instrument on the USB and will open the Hardware Update Wizard to search for the correct software driver Select Install the software automatically Win dows will find the Audio Precision driver software installed with A...

Page 22: ...nnector Insert a small screwdriver into the power cord connector area reaching into the slot on the mains fuse carrier mod ule Pry the module out slightly until you can grasp the module firmly with your fingers Pull the fuse carrier mod ule out of the power entry module The two mains fuses are loosely mounted within the fuse carrier module take care not to let them fall Replace the fuses if necess...

Page 23: ...Series vous devez installer un dispositif APx Key Box authentifié au connecteur Software Options sur le pan neau arrière de l analyseur Le dispositif APx KeyBox doit être programmé avec le numéro de série de votre analyseur à l usine d Audio Preci sion et ne peut être utilisé avec aucun autre analyseur APx Des codes d autorisation afin d activer le logiciel ou les options de logiciel APx500 peuven...

Page 24: ...7 ou du commutateur optionnel Un moniteur couleur avec carte vidéo SXGA 1280 x 1024 Une résolution vidéo de 1900 x 1080 ou supérieure est recommandée Demandes de mesures élevées Les demandes de mesures élevées bandes passantes de mesure de plus de 90 kHz nombre de canaux de plus de 2 fonctionneront beaucoup mieux avec un PC de puissance supérieure dans certains cas les demandes de mesures très éle...

Page 25: ...e USB Le logiciel de mesure communique avec l instrument à l aide d une interconnexion USB 2 0 Une fois l installa tion du logiciel réussie branchez une extrémité du câble USB à un port USB 2 0 de l ordinateur et l autre extrémité au port PC INTERFACE situé à l arrière de l instrument Nous vous recommandons fortement d utiliser le câble USB fourni avec votre instrument numéro de commande AP CAB AP...

Page 26: ...rieur de la plage spécifiée Retirer et installer des fusibles secteur Pour toutes les tensions nominales utilisez deux fusibles secteurs de type 2A T SB 5 x 20 mm 250 V Pour retirer le module porte fusibles secteurs consultez les figures ci dessous et procédez comme suit Module d entrée d alimentation Retrait du porte fusibles Retirez le cordon d alimentation secteur du connecteur au niveau du mod...

Page 27: ...r APx anterior que no sea B Series debe acoplar un APx KeyBox autenticado al conector Soft ware Options en el panel trasero del analizador El APx KeyBox debe ser programado con el número de serie de su analizador en la fábrica de Audio Precision y no puede ser usado con ningún otro Analizador APx Puede requerir códigos de autorización para habilitar el software APx500 o las opciones de software Te...

Page 28: ...de 1900 x 1080 o superior Demandas de medición alta Las demandas de medición alta anchos de banda de medición de más de 90 kHz conteos de canal de más de 2 tendrán mejor rendimiento con una mejor PC en algunos casos las demandas de medición muy altas pueden ralen tizar o detener las mediciones El APx555 en particular puede ejercer demandas muy altas en el sistema de la PC al usarse probando ancho ...

Page 29: ...probado otros cables USB con mal funcionamiento Nota Algunas PC tienen puertos USB opciona les al frente de la PC o en soportes de exten sión en la parte posterior En varios casos estos puertos de conveniencia han afectado el ren dimiento debido a la longitud adicional del cable dentro de la PC Recomendamos usar estos puertos USB directamente conectados a la tar jeta madre de la PC típicamente en ...

Page 30: ...tación del conector en el módulo de entrada de energía que se localiza en el panel posterior del instrumento El módulo del portador de fusible de fuente de alimentación es parte del módulo de entrada de energía a la derecha del conector del dable de alimentación Inserte un desarmador pequeño dentro del área del conector de cable de alimentación alcanzando dentro de la ranura del módulo de portador...

Page 31: ...rting a signal in the time domain to the frequency domain IMD Inter Modulation Distortion a measure of non linearity using a test signal with two or more components RMS or rms Root Mean Square an equivalent power expression of signal amplitude SR Sample Rate usually as it applies to the conversion rate of A D and D A convert ers or digital audio formats THD Total Harmonic Distortion rms summation ...

Page 32: ...30 Abbreviations Terms and Symbols ...

Page 33: ...dard configuration with an ADIO module installed These specifications cover the analog input and output functions of the Audio Precision B Series APx555 Specifications for the ADIO interface and other available interface modules including DSIO HDMI PDM Bluetooth and AMC are found in other sections of this document as are Gen eral and Environmental specifications for the entire APx555 B Series fami...

Page 34: ...on Tune Off 0 025 Hz 5 00 Hz to 204 75 Hz 0 25 Hz 205 0 Hz to 2 0475 kHz 2 5 Hz 2 050 kHz to 20 475 kHz 25 Hz 20 50 kHz to 204 75 kHz Precision Tune On Typically 10 ppm over full range Frequency Accuracy Precision Tune Off 0 35 Precision Tune On 0 003 30 ppm for Fs 10 Hz 300 μHz for Fs 10 Hz Valid for at least 20 minutes in a stable environment ΔT 1 0C Tune delay is 13 cycles 400 ms Amplitude Rang...

Page 35: ...Hz BW 105 dB 3 8 µV 10 Hz to 100 kHz 500 kHz BW 102 dB 5 5 µV 100 kHz to 200 kHz 1 MHz BW 96 dB 8 0 µV Residual THD only 2 3 4 10 Hz to 30 Hz Typically 127 dB 30 Hz to 5 kHz Typically 130 dB 5 kHz to 20 kHz Typically 122 dB 20 kHz to 50 kHz Typically 114 dB 50 kHz to 100 kHz Typically 107 dB 100 kHz to 200 kHz Typically 98 dB Trigger Output Pulse Skew Relative to Sine Zero Crossing 5 Hz to 50 Hz T...

Page 36: ...50 kHz to 80 kHz 0 10 dB Residual THD N 2 3 4 10 Hz to 20 kHz 22 kHz BW 105 dB 1 0 µV 5 Hz to 20 kHz 80 kHz BW 95 dB 2 0 µV DAC Related Spurious Content 5 Hz to 20 kHz Typically 100 dB to 500 kHz 20 kHz to 50 kHz Typically 85 dB at 384 kHz 2 Fs 50 kHz to 76 kHz Typically 70 dB at 384 kHz 2 Fs 76 kHz to 80 kHz Typically 55 dB at 192 kHz Fs Phase Offset Range 179 999 to 180 000 deg Sine Burst Genera...

Page 37: ...ypically 1 Amplitude Range1 0 to 75 4 Vpp bal 0 to 37 7 Vpp unbal Amplitude Accuracy 0 07 dB 0 81 Residual IMD 2 3 6 100 dB 0 0010 SMPTE 102 dB 0 00080 MOD 60 Hz 7 kHz 4 1 mix DFD Difference Frequency Fdiff 80 Hz to 2 00 kHz Fdiff F2 F1 Mean Frequency Fmean 250 Hz to 60 kHz Fmean F1 F2 2 Fmean Fdiff must be 6 see note 7 Frequency Accuracy 5 0 0003 3 ppm Amplitude Range 1 0 to 75 4 Vpp bal 0 to 37 ...

Page 38: ...if Rs 600 Ω total load C must be 800 pF Aberrations Typically 1 Even Harmonic Content Fq 10 Hz to 5 kHz 100 dB 0 2 µV to 80 kHz Fq 5 kHz to 20 kHz 90 dB 0 2 µV to 500 kHz Spurious Content Typically 110 dB 0 2 µV Noise Signals Generation Technique DAC based pseudo random with IIR filtering and additional processing Types White 5 Hz to 80 kHz Pink 10 Hz to 80 kHz IEC 60268 1 or BS EN 50332 1 Amplitu...

Page 39: ...nal plus DC bias applied only to high side low side is grounded Source Impedance Rs Same as Balanced Rs 40 Ω 100 Ω 150 Ω 200 Ω or 600 Ω Each side to ground is Rs 2 Pin Voltage Protection If ON limits signal peak voltage on pins 2 and 3 of the balanced output connec tor relative to ground Positive Peak Limit Pin Voltage Max 0 400 V to 5 750 V Must be greater than Negative Peak Limit setting 5 750 V...

Page 40: ...Hz Output Equalization Arbitrary 30 pole output filter scaled so the maximum gain is 1 dB Filter cannot be applied to square and IMD test signals Source Resistance Rs Balanced Selectable 40 1 5 100 1 150 1 200 1 or 600 0 5 Each side to ground is Rs 2 Unbalanced Selectable 20 2 50 1 5 75 1 2 100 1 or 600 0 5 Between output and Bnc shield Bnc shield to ground 10 Ω 1 μF Unbal outputs can float up to ...

Page 41: ...eld to ground 500 Ω 1 µF Input Terminations 600 0 5 1 5 W max 300 0 5 3 0 W max Terminations automatically open in the 80 V and higher input ranges Input Coupling DC or AC Input bias current typically 0 35 μA with DC coupling Coupling is set by high pass filter selection Common Mode Rejection8 9 The maximum peak input signal each side to ground must not exceed 310 mV to 2 5 V input ranges 90 dB 5 ...

Page 42: ...degraded accuracy typ 1 0 dB Tuning Control Generator tracking Input tracking or Fixed directly entered value Signal must be 100 μVrms for input tracking Fo must be within 0 5 of the entered value for fixed tuning Measurement Range 0 to 100 0 dB Measurement Technique High Perf Sine Analyzer ON Signals are passed through analog notch filters to minimize the distortion contribution from the A D conv...

Page 43: ...ne Analyzer OFF 10 Hz to 50 kHz 250 kHz BW 105 dB 6 6 µV 10 Hz to 100 kHz 500 kHz BW 102 dB 8 3 µV 100 kHz to 200 kHz 1 MHz BW 96 dB 10 5 µV Residual THD only 2 3 4 11 10 Hz to 30 Hz Typically 127 dB 30 Hz to 5 kHz Typically 130 dB 5 kHz to 20 kHz Typically 122 dB 20 kHz to 50 kHz Typically 114 dB 50 kHz to 100 kHz Typically 107 dB 100 kHz to 200 kHz Typically 98 dB Bandwidth Limiting Filters High...

Page 44: ... dB stop band ENBW 1 012 1 062 FLP varies due to DSP warping Weighting A wt B wt C wt CCIR 1k CCIR 2k CCITT C message 50 μs or 75 μs de emph with and without A wt or None Weighting filter is cascaded with both high pass and low pass filters Input Equalization Arbitrary 30 pole input filter The EQ operates on any selected ana lyzer input channels IMD Measurement Test Signal Compatibility MOD SMPTE ...

Page 45: ...on matches the response of earlier AP analyzers Measurement Range 0 to 20 Accuracy 0 5 dB Residual IMD2 3 6 7 SMPTE 100 dB 0 0010 60 Hz 7 kHz 4 1 mix MOD 102 dB 0 00080 d2 d3 60 Hz 7 kHz 4 1 mix DFD 110 dB 0 00032 d2 d3 115 dB 0 00018 d2 only 19 kHz 20 kHz Fmean 19 5 kHz Fdiff 1 kHz CCIF 109 dB 0 00036 12 kHz 13 kHz Fmean 12 5 kHz Fdiff 1 kHz DIM 95 dB 0 0018 DIM 100 or DIM 30 Frequency Measuremen...

Page 46: ...00 Ω unbalanced total shunt C must not exceed 800 pF 4 The symbol in THD N indicates rms summation of the two components THD is the rms summation of H2 to H9 or 1 MHz if lower 5 Drift of the internal frequency reference is typically 1 ppm year however it is lockable to an external reference 6 Signal must be 200 mV for specified residual IMD analyzer must be set to d2 d3 for MOD and DFD or U1 U9 fo...

Page 47: ...ut ADIO The ADIO is available as a stand alone module model 238 The APx ADIO provides balanced digital input and output compatible with AES3 AES EBU and IEC60958 4 on XLR connectors unbalanced digital input and output compatible with S PDIF and IEC60958 3 and also AES3id and SMPTE 276 M on BNC connectors and opti cal digital input and output compatible with Toslink interfaces ADIO also enables cer...

Page 48: ...accuracy and jitter Optical 27 kS s to 108 kS s Sample Rate SR Accuracy 0 0003 3 PPM Output Amplitude Unbalanced Range 0 0 Vpp to 2 50 Vpp into 75 Ω 1 mV resolution Accuracy 8 20 mV Source Impedance Typically 75 Ω Balanced Range 0 0 Vpp to 8 00 Vpp into 110 Ω 1 mV resolution Accuracy 10 80 mV Source Impedance Typically 110 Ω Optical Fixed determined by transducer Channel Status Bits Full implement...

Page 49: ...aximum allowable jitter decreases in a 1 f fashion to 0 20 UI at FJ 10 kHz and higher Frequency Range FJ 2 Hz to 200 kHz Amplitude Range 0 1 591 µs for FJ 20 Hz and derating linearly to 0 1591 µs at 200 kHz Equivalent to 0 9 775 UI at 48 kHz sample rate derating to 0 9775 UI Amplitude Resolution 100 ps Accuracy 500 Hz 0 5 0 1 ns Flatness1 0 5 dB 100 Hz to 50 kHz Jitter Spectrum1 Spurious products ...

Page 50: ...ttest random wave file playback 8 24 bit word width triangular PDF dither Sine Characteristics Frequency Range 0 001 Hz to 0 499 SR Flatness1 Typically 0 001 dB Offset Range To maximum digital code 1D Offset limits maximum ac signal Harmonics Spurious1 Typically 190 dBFS Square Characteristics Frequency Range Fq 10 Hz to SR 6 Fq must equal SR N where N is an even integer 6 Even Harmonic Spurious C...

Page 51: ...n 2 5 kHz to 0 499 SR Fdiff 2 or 60 kHz whichever is lower Fmean F1 F2 2 Residual IMD1 2 Typically 150 dBFS Multitone Wave File Playback Sample Rate SR 8 kS s to 216 kS s Maximum File Size 32 MSample Flatness 1 kHz ref Typically 0 001 dB to 0 499 SR Spurious Content Typically 140 dBFS DIGITAL INPUT RELATED Formats Unbalanced SPDIF EIAJ per IEC 60958 5 Vpp Input typically 75 Ω or 8 3 kΩ Balanced AE...

Page 52: ...als High pass4 700 Hz AES3 Special filter conforming with AES3 Butterworth FHP 3 dB 50 Hz to 150 kHz 4 pole Elliptic FHP 0 01 dB 50 Hz to 150 kHz 5 pole 0 01 dB pass band ripple 60 dB stop band Low pass4 Butterworth FLP 3 dB 50 Hz to 150 kHz 8 pole ENBW 1 006 FLP Elliptic FLP 0 01 dB 50 Hz to 150 kHz 8 pole 0 01 dB pass band ripple 60 dB stop band ENBW 1 012 1 062 FLP varies due to warping Weighti...

Page 53: ...its Full implementation per IEC 60958 consumer and AES3 professional User Bits Displayed in hex Validity Flag Displayed for each channel Receiver Lock Displayed both channels combined EMBEDDED INPUT SIGNAL RELATED Level Amplitude Measurement Measurement Range 120 dBFS to 3 dBFS Accuracy 1 kHz Typically 0 001 dB Flatness1 Typically 0 001 dB Residual Noise Typically 140 dBFS THD N Measurement Fundam...

Page 54: ...1 006 FLP Elliptic FLP 0 01 dB 10 Hz to 100 kHz 8 pole 0 01 dB pass band ripple 60 dB stop band ENBW 1 012 1 062 FLP varies due to warping Weighting A wt B wt C wt CCIR 1k CCIR 2k CCITT C message 50 μs or 75 μs de emph with and without A wt or None Weighting filter is cascaded with the high pass and low pass bandwidth limit ing filters IMD Measurement Test Signal Compatibility SMPTE MOD Any combin...

Page 55: ...ally 140 dBFS DFD Typically 150 dBFS Frequency Measurement Range 5 Hz to 0 499 SR Accuracy 0 0003 100 µHz Phase Measurement Ranges 90 to 270 180 or 0 to 360 deg Accuracy Typically 0 001 deg NOTES to SPECIFICATIONS 1 System specification including contributions from both generator and analyzer subject to the following conditions A SR 27 kS s to 200 kS s B interface signal 1 5 Vpp Bal or 300 mVpp Un...

Page 56: ...54 APx ADIO Module for B Series Specifications ADIO ...

Page 57: ...Precision DSIO The DSIO is available as a stand alone module model 237 The Digital Serial Input Output or DSIO option provides a flexible chip or board level serial input and output interface With separate Master Clock Bit Clock Frame Clock Chan nel Clock and four Data lines variable signal formats variable word width bit depth and syn chronization options the DSIO can address almost any serial in...

Page 58: ... formats I2 S DSP custom left right justified one bit one subframe 50 duty cycle frame inverted or normal frame optionally 1 bit left shifted frame All modes LSB or MSB first Word width 8 128 bits cannot be less than bit depth Bit depth data length 8 32 bits Sample rate frame rate 4 kS s 432 kS s 1 2 4 6 or 8 channels2 4 kS s 216 kS s 16 channels2 Master Clock range 4 kHz 56 MHz Actual clock rate ...

Page 59: ... High level input Minimum 1 0 V Low level input Maximum 0 8 V High level output Minimum 1 6 V Low level output Maximum 0 1 V Absolute range Minimum 0 5 V Maximum 5 5 V 2 5 volt setting High level input Minimum 1 4 V Low level input Maximum 1 1 V High level output Minimum 2 2 V Low level output Maximum 0 1 V Absolute range Minimum 0 5 V Maximum 5 5 V ...

Page 60: ...encies input or output Master clock 4 kHz 56 MHz Actual clock rate is dependent upon bit clock word width and sample rate set tings Bit clock 4 kHz 56 MHz maximum Actual clock rate is dependent upon word width and sample rate settings Frame 432 kHz maximum Output latency Frame typ 3 ns referenced to Bit clock Data 1 4 typ 3 ns referenced to Bit clock Monitor ports typ 10 ns referenced to Signal pi...

Page 61: ...0 Hz to 100 kHz BW 600 ps Jitter Spectrum1 Spurious products are typically 40 dBc below jitter signal or 60 dBUI whichever is larger 3 Induced Jitter Waveforms Sine Square Noise Signals Affected Master Clk Bit Clk Frame Clock and Data Sine Wave Jitter Frequency Range FJ 2 Hz to 200 kHz Amplitude Range 0 to 1591 ns for FJ 20 kHz derating linearly with frequency to 159 1 ns at 200 kHz Equivalent to ...

Page 62: ...em specification including contributions from both generator and analyzer subject to the following condition Bit Clock 192 kHz 2 In TDM channel count can limit the bit clock rate 3 For Digital Serial DSIO the Unit Interval UI is defined as 1 fb where fb is the bitclock rate in hertz ...

Page 63: ...model 242 The model HDMI ARC module is fully compatible with HDMI 1 3a additionally it sup ports a subset of HDMI 1 4a the ARC Audio Return Channel feature HDMI EDID 1 4 is supported and CEC communications on the Source and Sink connectors is supported Go to Help About in APx500 to check feature availability HDMI is designed to carry high bandwidth digital streams providing an audio video interfac...

Page 64: ...to an external source of video to be included in the Source out put signal Generates and transmits audio across ARC per HDMI 1 4a HDMI source should not transmit video Incoming audio is ignored Incoming video is passed to HDMI Source in pass through mode ARC Rx AUX OUT HDMI ARC Rx configuration Typically connects to an HDMI sink that pro duces ARC audio HDMI Sink configuration Typically connects t...

Page 65: ...I 1 4a Also user selectable CEC pass through from Sink to AUX OUT User can manually send a CEC ping or arbitrary CEC message to any of the standard logical addresses An indicator confirms the receipt of an ACK acknowledged message from the messaged device Color Support 24 bit 30 bit 36 bit Deep Color Max Video Rate 1080p ARC DIGITAL I O ARC DIGITAL OUTPUT RELATED Formats Signal level single mode 0...

Page 66: ...ss1 Typically 0 001 dB Harmonics Spurious Prod ucts1 3 Typically 140 dBFS Square Characteristics Frequency Range Fq 10 Hz to SR 6 Only specific values are allowed Fq SR N where N is an even integer 6 Even Harmonic Spurious Content Typically 140 dBFS Noise Characteristics Shape White 5 Hz to 0 499 SR Pink 10 Hz to 0 45 SR IEC 60268 1 or BS EN 50332 1 IMD Test Signals SMPTE MOD Lower Frequency LF 40...

Page 67: ...S s Typically locks down to 16 kS s EMBEDDED INPUT SIGNAL RELATED Level Amplitude Measurement Measurement Range 120 dBFS to 3 dBFS Accuracy 1 kHz Typically 0 001 dB Flatness1 Typically 0 001 dB Residual Noise Typically 140 dBFS THD N Measurement Fundamental Range 5 Hz to 0 49 SR or 50 kHz whichever is lower Tuning can be set to track measured fre quency generator setting or fixed Measurement Range...

Page 68: ...n Arbitrary 30 pole input filter The EQ operates on any selected ana lyzer input channels IMD Measurement Test Signal Compatibility SMPTE MOD Any combination of 40 Hz 1 kHz LF and 240 Hz 60 kHz HF mixed in any ratio from 1 1 to 10 1 LF HF LF tone must be 1 6 HF tone DFD CCIF Any two tone combination with mean frequency of 250 kHz 60 kHz and a difference frequency of 80 Hz 2 0 kHz Fmean F1 F2 2 Fdi...

Page 69: ...0 or 0 to 360 deg Accuracy1 Typically 0 001 deg Resolution 0 001 deg Notes to Specifications 1 System specification including contributions from both generator and analyzer Generator only and analyzer only contributions are typically less 2 Sample rate SR must be 27 kHz for specified performance Jitter analyzer set for 700 Hz highpass response per AES3 1992 3 Digital generator word width must be s...

Page 70: ...68 APx HDMI ARC I O Module for B Series Specifications HDMI ...

Page 71: ...tooth Duo interface Bluetooth is a short distance a few meters control data and audio communications wire less technology Bluetooth uses low power frequency hopping radio in the 2 4 GHz band Communication is two way for handshaking metadata etc some profiles HFP for exam ple support duplex audio both directions simultaneously some profiles A2DP support only simplex audio one direction per connecti...

Page 72: ...ce Sink 1 3 AVRCP Controller Target 1 4 HFP Hands Free 1 7 HFP Audio Gateway 1 7 HSP Headset Audio Gateway 1 2 A2DP Codecs SBC aptX aptX Low Latency aptX HD AAC HFP Codecs CVSD mSBC RF Connections Source and Sink SMA x2 RF Input Impedance Typically 50 Ω RF Output Impedance Typically 50 Ω RF Power Typically 0 dBm Typical maximum 8 dBm RF Sensitivity 0 1 BER Typically 81 dBm ...

Page 73: ...annel information The input accepts 1 bit PDM bitstreams which are then decimated by one of several available decimation ratios and filtered into base band audio at the Decimated Rate The PDM 16 also provides a variable Vdd supply 0 0 V 3 6 V 50 mA max and a bit clock that can be configured as an input or an output The PDM 16 remote interface pod provides a 40 pin 0 1 2 54mm pitch IDC connector as...

Page 74: ...ut Module for B Series Specifications PDM 16 These specifications cover the digital input functions of the Audio Precision PDM 16 interface for the current version model 243 PDM 16 specifications begin on the next page ...

Page 75: ...24 576 MHz Clock Outputs 1 master clock source replicated on 8 out puts 8 Clock Inputs 1 slave clock input shared across all 8 data lines 1 Phase Synchronization All channels sampled synchronously from common clock phase relationships between channels fully maintained DECIMATION FILTER Decimation Ratio FB FS DECR 32 64 128 256 512 32 512 Passband Frequency Range 0 0 45 FS Passband Gain DECR 32 64 ...

Page 76: ...FS Total Harm Dist Noise OLP BW 0 45 FS 116 dB Signal to Noise Ratio SNR OLP BW 0 45 FS 116 dB Dynamic Range DNR MIL FS 48 kHz per AES17 125 dB MODULATOR ORDER 4 128X OSR Overload Point OLP 1 kHz 7 9 dBFS Total Harm Dist Noise OLP BW 0 45 FS 127 dB Signal to Noise Ratio SNR OLP BW 0 45 FS 127 dB Dynamic Range DNR MIL FS 48 kHz per AES17 135 dB MODULATOR ORDER 5 128X OSR Overload Point OLP 1 kHz 9 ...

Page 77: ...FS 128 dB Signal to Noise Ratio SNR OLP BW 0 45 FS 127 dB Dynamic Range DNR MIL FS 48 kHz per AES17 137 dB MODULATOR ORDER 4 512X OSR Overload Point OLP 1 kHz 8 2 dBFS Total Harm Dist Noise OLP BW 0 45 FS 130 dB Signal to Noise Ratio SNR OLP BW 0 45 FS 129 dB Dynamic Range DNR MIL FS 48 kHz per AES17 137 dB MODULATOR ORDER 5 512X OSR Overload Point OLP 1 kHz 10 dBFS Total Harm Dist Noise OLP BW 0 ...

Page 78: ...gh VOH ILOAD 0 5 mA 0 7 VINT V Output Voltage Low VOL ILOAD 0 5 mA 0 3 VINT V Output Impedance Zo At connector pin 50 Ohms VDD OUTPUT DC Voltage VDD 0 0 3 60 V Resolution 0 01 V Accuracy 0 05 V Maximum Current IMAX 50 mA TIMING CHARACTERISTICS PDM RECEIVER tCLKRX Clock period master or slave mode 41 7813 ns tHP Data hold time rising edge 0 ns tHN Data hold time falling edge 0 ns tSU Data setup tim...

Page 79: ...Hz 3 5 UI sub ject to 1591ns max jitter limit UI2 Notes to Specifications 1 System specification including contributions from both generator and analyzer subject to the following condition Bit Clock 192 kHz 2 For PDM the Unit Interval UI is defined as 1 fb where fb is the bitclock rate in hertz Parameter Symbol Test Conditions Min Type Max Unit ...

Page 80: ...78 APx PDM 16 Input Module for B Series Specifications PDM 16 ...

Page 81: ... of oversampling ratios and modulated into a 1 bit PDM bitstream A 4th order modulator is the default a 5th order modulator can be selected The PDM Option also provides a signal input with its associated clock connection The input accepts a 1 bit PDM bitstream which is then decimated by one of a wide range of decimation ratios and fil tered into baseband audio at the Decimated Rate The input bitst...

Page 82: ... 64 128 256 512 0 0001 0 0001 dB INTR 32 0 01 0 01 dB All other INTR 0 0063 0 0001 dB Stopband Frequency Range 0 55 INTR 2 FS Stopband Attenuation INTR 32 64 128 256 512 115 dB All other INTR 100 dB MODULATOR GENERAL Passband Frequency Range 0 0 45 FS Passband Gain 0 0001 0 0001 dB Maximum Input Level MIL 0 dBFS Linearity 100 dBFS to MIL order 4 5 0 010 0 001 dB MIL to 0 dBFS order 4 0 010 0 002 d...

Page 83: ...B MODULATOR ORDER 5 128x OSR Overload Point OLP 1 kHz 9 6 dBFS Total Harm Dist Noise OLP BW 0 45 FS 127 dB Signal to Noise Ratio SNR OLP BW 0 45 FS 127 dB Dynamic Range DNR MIL FS 48 kHz per AES17 135 dB MODULATOR ORDER 4 256x OSR Overload Point OLP 1 kHz 8 0 dBFS Total Harm Dist Noise OLP BW 0 45 FS 130 dB Signal to Noise Ratio SNR OLP BW 0 45 FS 129 dB Dynamic Range DNR MIL FS 48 kHz per AES17 1...

Page 84: ...17 137 dB RECEIVER Decimated Rate FS 0 160 768 kHz Bit Clock Rate FB Master or slave mode 0 128 24 576 MHz DECIMATION FILTER Decimation Ratio FB FS DECR 1 3 125 4 6 25 8 00 8 33 10 67 12 5 16 16 67 18 75 21 33 24 25 32 33 33 37 5 42 67 48 50 64 66 67 75 85 33 96 100 128 150 192 200 256 300 384 400 512 500 768 800 1 800 Passband Frequency Range All DECR except DECR 1 0 0 45 FS DECR 1 0 0 5 FB Passb...

Page 85: ... ILOAD 0 5 mA 0 7 VINT V Output Voltage Low VOL ILOAD 0 5 mA 0 3 VINT V VDD OUTPUT DC Voltage VDD 0 80 3 60 V Resolution 0 01 V Accuracy 0 05 V Maximum Current IMAX 15 mA VDD MODULATION AC output level All waveforms 0 01 VDD 5 Vpp Square Pulse Frequency Per GSM standard 216 667 Hz Sine Frequency 10 22000 Hz Frequency Accuracy 3 ppm Parameter Symbol Test Conditions Min Typ Max Unit ...

Page 86: ...e 18 ns tF Fall Time 16 ns rOUT Output Impedance 450 ohms fCLK max Maximum Clock Frequency 3 072 MHz Logic Level 1 0 V tCO Clock to out 32 ns tR Rise Time 10 ns tF Fall Time 7 7 ns rOUT Output Impedance 225 ohms fCLK max Maximum Clock Frequency 6 144 MHz Logic Level 1 5 V tCO Clock to out 18 ns tR Rise Time 5 2 ns tF Fall Time 3 8 ns rOUT Output Impedance 85 ohms fCLK max Maximum Clock Frequency 1...

Page 87: ...pedance 40 ohms fCLK max Maximum Clock Frequency 24 576 MHz PDM RECEIVER tCLKRX Clock period master or slave mode 41 7813 ns tHP Data hold time rising edge 5 ns tHN Data hold time falling edge 5 ns tSU Data setup time 5 ns Parameter Symbol Test Conditions Min Typ Max Unit tSU tSU tHP tSU tHN tCLK tH tH tSU BITCLK DATA TX CH 1 CH 1 CH 2 CH 2 DATA RX ...

Page 88: ...Accuracy 1 kHz Average detection 1 300 ps Flatness1 100 Hz to 100 kHz 0 2 dB Residual Jitter1 700 Hz to 100 kHz BW 600 ps Jitter Spectrum1 Spurious products are typically 40 dBc below jitter signal or 60 dBUI whichever is larger 2 PDM Input Jitter Tolerance Sine wave jitter bit clock rates from 128kHz to 24 576 MHz 3 5 UI subject to 1591 ns max jitter limit Induced Jitter Waveforms Sine Square Noi...

Page 89: ... below jitter signal or 60 dBUI whichever is larger 2 Square Wave and Noise Waveform Jitter Jitter amplitude limited to 40 ns maximum PDM Output Jitter Tolerance Sine wave jitter bit clock rates from 128kHz to 24 576 MHz 3 5 UI subject to 1591ns max jitter limit Notes to Specifications 1 System specification including contributions from both generator and analyzer subject to the following conditio...

Page 90: ...88 APx PDM I O Module for B Series Specifications PDM ...

Page 91: ...ecember 2018 This illustration shows a section of the APx rear panel focusing on the Auxiliary I O and the Sync Trigger and DARS reference connections for the AMC These specifications cover rear panel Sync Trigger and DARS Reference I O functions for APx analyzers fitted with the Advanced Master Clock AMC The Auxiliary I O GPIO function is also described here The Auxiliary I O function is not part...

Page 92: ...00 ppm Sync Output Signal Square Amplitude VH 0 8 V to 3 6 V 0 1 V steps RS 50 Ω VL 0 to 0 1 V Frequency Range 8 kHz to 50 MHz Maximum recommended frequency when interfacing to low voltage logic 50 MHz for 3 6 V VH 1 5 V 40 MHz for 1 5 V VH 1 0 V 20 MHz for 1 0 V VH 0 8 V See complete table in Notes below Reference Input AES11 DARS Voltage Range 2 0 Vpp to 6 0 Vpp RIN selectable 5 kΩ or 110 Ω Samp...

Page 93: ...rigger Sources Analog Sine Generator Audio Gener ator and Jitter Generator Amplitude VH 0 8 V to 3 6 V 0 1 V steps RS 50 Ω VL 0 to 0 1 V Sync Output Typical Output Characteristics Over Interface Voltage No Load 50 pF Load Interface Voltage V R Out ohms Rise Time ns Fall Time ns Rise Time ns Fall Time ns Frequency Max MHz 0 8 650 13 9 50 32 20 1 0 300 7 5 25 17 40 1 5 120 4 3 2 7 14 10 50 2 0 84 3 ...

Page 94: ...92 APx AMC I O for B Series Specifications AMC ...

Page 95: ...t has been exposed to a significant change in temperature Allow 24 48 hours to recover if condensation has occurred EMC Complies with Directive 2004 108 EC IEC 61326 1 2005 EN 61326 1 2006 Radiated and conducted emissions are within Class B limits of CISPR 11 IEC 61326 2 1 2005 Section 5 2 401 is applied controlled EM environ ment for options DSIO and PDM Complies with Directive 1995 5 EC if optio...

Page 96: ...ies Audio Analyzer General and Environmental ENVR Dimensions W H D 432 mm 129 mm 475 mm 17 0 in 5 08 in 18 7 in 3U rack mount kit available Weight 10 8 kg 23 8 lbs with no digital inter face options installed Add 0 2 kg 0 4 lbs for each digital interface option installed ...

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