[AKD9-] Evaluation oar Diagram oar Diagram J0 T T J00 J00 J0 J0 J00 T W0 J0 U U J00 W00 W00 W0 J0 PORT PORT igure. AKD9-A oar Diagram Description () U
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1 [AKD9-] AK9 Evaluation oar Rev.0 GENERAL DECRIPTION The AKD9- is an evaluation boar for AK9, which is bit,8k,ch ADC. The AKD9- is inclues the the analog input circuit an also has a igital interface transmitter. urther, the AKD9- can achieve the interface with igital auio systems via NC-connector. Orering guie AKD9- -- Evaluation boar for AK9 UNCTION DIT with NC igital output NC connector for an external clock input -V -VOP V VOP Regulators.V V AVDD DVDD NC_TX LIN RIN Input uffer AK9 AK0A (DIT) (OUT) Clock Generator DP Data 0pin Heaer igure. AKD9- lock Diagram <KM0900> 0/0 - -
2 [AKD9-] Evaluation oar Diagram oar Diagram J0 T T J00 J00 J0 J0 J00 T W0 J0 U U J00 W00 W00 W0 J0 PORT PORT igure. AKD9-A oar Diagram Description () U ( AK9 ) bit,8k,ch A/D Converter. () J00,J0 ( Analog ata ) Cannon connector : Differential Analog Input () J00 ( Digital ata ) NC Connector : Digital Output. () J00, J0, J0 ( Power supply ) Power upply Connector. () PORT ( pin heaer ) Pin heaer for evaluation (MCLK, ICK, LRCK). () PORT ( Digital Data ) Pin heaer for evaluation (DTO,DTO,TDMIN,TDMIN). () U ( AK0A ) AK0A has DIT. Transports output ata from AK9. (8) W00 ( Toggle switch ) Toggle type-switch PDN for AK9. H : PDN = High L : PDN = Low (9) W0 ( Toggle switch ) Toggle type-switch PDN for AK0A. H : PDN = High L : PDN = Low <KM0900> 0/0 - -
3 [AKD9-] (0) W00,W0 ( Dip switch ) DIP type-switch for AK9, AK0A. ( Table.-Table. ) () J0,J0 ( Analog ata ) NC Connector : ingle-ene Analog Input. () J00 ( MCLK external input ) NC Connector : External Clock Input (MCLK). () T, T, T Regulator for AK9, AK0A, Logic Circuit. <KM0900> 0/0 - -
4 [AKD9-] Evaluation oar Manual Operation sequence [] Power supply line settings [] Evaluation moes [-] lave Moe (--) A/D evaluation using DIT function of AK0A (--) eeing all clocks from PORT (CLOCK) (--) Input/Output igital ata from PORT (DATA) [-] Master Moe (--) A/D evaluation using DIT function of AK0A (--) eeing all clocks from PORT (CLOCK) (--) Input/Output igital ata from PORT (DATA) [] DIP switches settings [] Clock / Data format settings [] Toggle switches settings [] Analog input Circuit <KM0900> 0/0 - -
5 [AKD9-] [] Power supply line settings () Power supply settings : Use the regulator (T,T,T) <Default> et up the power supplie lines : * Each supply line shoul be istribute from the power supply unit. Name Color etting (Typ) Comments J00(V) Green V or Op-amp an Regulator J0(-V) lue -V or Op-amp an Regulator J0() lack 0V Groun Table -. Power supply line setting ( efault : use the regulator ) () About short resistance for power supply : The roles of the short resistance for each power supply supplie from the regulator are as follows. Connection of the short resistance for power supply : Name (Resistance) Processing Name (power supply) Comments R0 hort AVDD AVDD for AK9 R00 hort VIA ias for Op-amp R hort VCC VCC for AK0A an Logic IC R0 hort VCC pare terminal VCC R hort DVDD VDD for AK9 an Logic IC R0 hort DVDD VDD for DIP W Table -. hort resistance for power supply (Default : hort) <KM0900> 0/0 - -
6 [AKD9-] [] Evaluation moes [-] lave Moe (--) A/D evaluation using DIT function of AK0A *J00 (NC_TX) use. DIT generates auio bi-phase signal from receive ata an which is output throurh NC connector (NC_TX). It is possible to connect AKM s D/A converter evaluation boars an the igital-amplifier through the NC connector. *Nothing shoul be connecte to PORT (CLOCK), PORT (DATA). *In case of using external clock (MCLK) through a NC connector (J00), short R(EXT) an R by 0ohm resistance, an open R (XTL). *In case of efault setting, DTO of AK9 output ata is output through J00 (NC_TX). In case of short R(DTO) by 0ohm resistance an open R(DTO), DTO of AK9 output ata is output through J00 (NC_TX). (--) eeing all clocks from PORT (CLOCK) *Uner the following set-up, all external clocks (MCLK, ICK, LRCK) can be fe through PORT (CLOCK). hort R0(MCLK), R8(ICK), R(LRCK) by 0ohm resistance. Open R9(MCLK), R(ICK), R(LRCK). (--) Input/Output igital ata from PORT (DATA) *The A/D converte ata is output from DTO, DTO of PORT (DATA). *IN case of using igital ata through TDMIN pin, TDMIN pin of AK9, igital ata is input through TDMIN or TDMIN of PORT (DATA). [-] Master Moe (--) A/D evaluation using DIT function of AK0A *ignals (ICK, LRCK) output from AK9 use. Open R an R8 (ICK), R an R (LRCK). *J00 (NC_TX) use. DIT generates auio bi-phase signal from receive ata an which is output throurh NC connector (NC_TX). It is possible to connect AKM s D/A converter evaluation boars an the igital-amplifier through the NC connector. *Nothing shoul be connecte to PORT (CLOCK), PORT (DATA). *In case of using external clock (MCLK) through a NC connector (J00), short R(EXT) an R by 0ohm resistance, an open R (XTL). *In case of efault setting, DTO of AK9 output ata is output through J00 (NC_TX). In case of short R(DTO) by 0ohm resistance an open R(DTO), DTO of AK9 output ata is output through J00 (NC_TX). (--) eeing all clocks from PORT (CLOCK) *Uner the following set-up, the external clock (MCLK) can be fe through PORT (CLOCK). hort R0(MCLK) by 0ohm resistance. Open R9(MCLK). (--) Input/Output igital ata from PORT (DATA) *The A/D converte ata is output from DTO, DTO of PORT (DATA). *IN case of using igital ata through TDMIN pin, TDMIN pin of AK9, igital ata is input through TDMIN or TDMIN of PORT (DATA). <KM0900> 0/0 - -
7 [AKD9-] [] DIP switches settings [W00] (MODE): Evaluation Moe setting for AK9 an AK0A *ON= H, O= L No. Name O ( L ) ON ( H ) Default HPE HP O HP ON ON ( H ) CK0 ON ( H ) CK Table - O ( L ) CK O ( L ) DIT0 ON ( H ) Table DIT ON ( H ) N/A N/A O ( L ) 8 N/A N/A O ( L ) Table. Moe setting M_N CK CK CK0 MCLK ICK ampling L H L L L fs fs ICK 8fs Normal pee Moe (8k fs 8k) L L H Table- Auto etting Moe Default fs fs Double pee Moe L H L (8k fs 9k) L H H H L L H L H 8fs fs Qua pee Moe (9k fs 9k) fs fs Octal pee Moe (fs=8k) fs fs Hex pee Moe (fs=8k) H H L N/A N/A N/A H H H N/A N/A N/A L L L fs fs Normal pee Moe L L H fs fs (8k fs 8k) L H L fs fs Double pee Moe (8k fs 9k) L H H H L L H L H 8fs fs Qua pee Moe (9k fs 9k) fs fs Octal pee Moe (fs=8k) fs fs Hex pee Moe (fs=8k) H H L N/A N/A N/A H H H N/A N/A N/A Table -. MCLK frequency setting for AK9 <KM0900> 0/0 - -
8 [AKD9-] MCLK ICK fs fs fs ICK 8fs Normal pee Moe (8k fs 8k) fs fs Double pee Moe (8k fs 9k) 8fs fs Qua pee Moe (9k fs 9k) fs fs Octal pee Moe (fs = 8k) fs fs Hex pee Moe (fs = 8k) Table -. MCLK / ICK frequency setting for AK9 (Auto etting Moe: lave Moe) Moe DIT DIT0 MCLK fs 0 L L 8fs 8k k L H fs 8k 08k H L 8fs 8k k H H fs 8k k Default Table. MCLK frequency setting for AK0A [W0] (MODE): Evaluation Moe setting for AK9 an AK0A *ON= H, O= L No. Name O ( L ) ON ( H ) Default MONO tereo Moe Mono Moe O ( L ) TDM0 O ( L ) Table TDM O ( L ) M_N lave Moe Master Moe O ( L ) DI M justifie I Compatible O ( L ) DIL hort Delay Minimum Phase O ( L ) DM Normal Output L output O ( L ) 8 DM Normal Output L output O ( L ) Table. Moe setting TDM TDM0 Moe L L Normal Default L H TDM H L N/A H H TDM8 Table. TDM Moe setting for AK9 <KM0900> 0/0-8-
9 [AKD9-] [] Clock / Data format settings () ettings of Clocks (ICK, LRCK) Clock spee settings of ICK, LRCK can be set change by switching CLK, CLK. fs k.k 8k MCLK R (MCLK/8) R (MCLK/) ICK R (MCLK/) R (MCLK/) fs = 8.9M fs fs 8fs fs fs =.8M fs 8fs fs fs fs =.89M fs fs 8fs fs fs =.9M fs 8fs fs fs fs =.88M fs fs 8fs fs fs =.M fs 8fs fs fs Default (R=hort) 9k fs =.M fs fs 8fs fs 9k 8fs =.M - fs fs 8fs 8k fs =.M - - fs fs 8k fs =.M fs Table. ICK Clock setting fs k.k 8k MCLK R (MCLK/) R (MCLK/) LRCK R8 (MCLK/8) R9 (MCLK/) R0 (MCLK/) fs = 8.9M - fs fs =.8M fs fs =.89M - fs fs =.9M fs fs =.88M - fs fs =.M fs Default (R=hort) 9k fs =.M - fs k 8fs =.M - - fs - - 8k fs =.M fs - 8k fs =.M fs Table 8. LRCK Clock setting <KM0900> 0/0-9-
10 [AKD9-] () ettings of Data ormat (DTO) Auio Interface ormat settings of DTO can be set change by switching TDM, TDM0, M/N, DI. Moe TDM TDM0 M/N DI DTO LRCK ICK I/O 0 L L bit, M justifie H/L I I (lave) H bit, I Compatible L/H I I Normal L L Table - H L bit, M justifie H/L O O (Master) H bit, I Compatible L/H O O L L bit, M justifie I fs I (lave) H bit, I Compatible I fs I TDM L H H L bit, M justifie O fs O (Master) H bit, I Compatible O fs O 8 L L bit, M justifie I 8fs I 9 (lave) H bit, I Compatible I 8fs I TDM8 H H 0 H L bit, M justifie O 8fs O (Master) H bit, I Compatible O 8fs O N/A H L N/A N/A N/A N/A N/A N/A N/A Table 9. Auio Interface ormat setting for AK9 I/O Default <KM0900> 0/0-0-
11 [AKD9-] [] Toggle switches settings Up= H, Down= L [W00] ( Power Down (PDN) for AK9): Power Down (PDN) witch for AK9 Reset AK9 (U) once by brining W00 to L once upon power-up. Keep H when AK9 is in use; keep L when AK9 is not in use. [W0] ( Power Down (PDN) for AK0A): Power Down (PDN) witch for AK0A Reset AK0A (U) once by brining W0 to L once upon power-up. Keep H when AK0A is in use; keep L when AK0A is not in use. <KM0900> 0/0 - -
12 [AKD9-] [] Analog input Circuit Cannon Connectors (J00,J0) : Differential analog input signals for AK9 ) Analog input Circuit : Op-amp = LME9990.0k 00 Analog In (ingle) 8.Vpp.0k VP - VP- LME9990 open Vin 0µ 90 ias VP - VP- LME Vpp AK9 AIN n VA Analog In Vin/- (Differential) XLR n.k 80 0µ ias 0.0µ /-.Vpp open Vin- VA=V VP= V 0µ 90 ias 00 VP 00 - VP- LME Vpp AK9 AIN- n igure. Analog Input Circuit (Op-amp : LME9990) <KM0900> 0/0 - -
13 [AKD9-] Measurement Results [Measurement conition] Measurement unit : Auio Precision, Y- MCKI : fs/fs/8fs (.M ) ICK : fs fs : 8k / 9k / 9k it : bit Measurement Moe : lave Moe Power upply : VOP(V)=V, GND AVDD=.0V (Regulator), DVDD=.V (Regulator) Input requency : k Measurement requency : 0 ~ / / Temperature : Room [Measurement Results]. tereo ADC (Differential Inputs) Result Lch Rch Unit tereo ADC : AINL/R => ADC => DTO fs = 8k (-) /(ND) fs = 9k (-) fs = 9k (-) DR fs = 8k (-0, A-Weighte).0. /N fs = 8k (A-weighte)..8. Mono ADC (Differential Inputs) Result Lch Rch Unit Mono ADC : AINL/R => ADC => DTO fs = 8k (-) /(ND) fs = 9k (-) fs = 9k (-) DR fs = 8k (-0, A-Weighte) /N fs = 8k (A-weighte) <KM0900> 0/0 - -
14 [AKD9-] [Plots] fs = 8 k AK9 T (- Input) AVDD=.0V, DVDD=.V, VREL/-=VRER/-=.0V/, MCLK=fs, fin=k k k k 0k 0k igure. T (- Input) AK9 T ( -0 Input) AVDD=.0V, DVDD=.V, VREL/-=VRER/-=.0V/, MCLK=fs, fin=k k k k 0k 0k igure. T (-0 Input) <KM0900> 0/0 - -
15 [AKD9-] fs = 8 k AK9 T ( No ignal Input) AVDD=.0V, DVDD=.V, VREL/-=VRER/-=.0V/, MCLK=fs, fin=k k k k 0k 0k igure. T (No ignal Input) AK9 THDN vs. Input Level AVDD=.0V, DVDD=.V, VREL/-=VRER/-=.0V/, MCLK=fs, fin=k r igure. THDN vs. Input Level <KM0900> 0/0 - -
16 [AKD9-] fs = 8 k AK9 THDN vs. Input requency AVDD=.0V, DVDD=.V, VREL/-=VRER/-=.0V/, MCLK=fs, - Input k k k 0k 0k igure 8. THDN vs. Input requency AK9 Linearity AVDD=.0V, DVDD=.V, VREL/-=VRER/-=.0V/, MCLK=fs, fin=k r igure 9. Linearity <KM0900> 0/0 - -
17 [AKD9-] fs = 8 k AK9 requency Response AVDD=.0V, DVDD=.V, VREL/-=VRER/-=.0V/, MCLK=fs, - input k k k 0k 0k igure 0. requency Response AK9 Crosstalk AVDD=.0V, DVDD=.V, VREL/-=VRER/-=.0V/, MCLK=fs, - Input k k k 0k 0k igure. Crosstalk <KM0900> 0/0 - -
18 [AKD9-] fs = 9 k AK9 T (- Input) AVDD=.0V, DVDD=.V, VREL/-=VRER/-=.0V/, MCLK=fs, fin=k k k k 0k 0k 0k igure. T (- Input) AK9 T ( -0 Input) AVDD=.0V, DVDD=.V, VREL/-=VRER/-=.0V/, MCLK=fs, fin=k k k k 0k 0k 0k igure. T (-0 Input) <KM0900> 0/0-8-
19 [AKD9-] fs =9 k AK9 T ( No ignal Input) AVDD=.0V, DVDD=.V, VREL/-=VRER/-=.0V/, MCLK=fs, fin=k k k k 0k 0k 0k igure. T (No ignal Input) AK9 THDN vs. Input Level AVDD=.0V, DVDD=.V, VREL/-=VRER/-=.0V/, MCLK=fs, fin=k r igure. THDN vs. Input Level <KM0900> 0/0-9-
20 [AKD9-] fs = 9 k AK9 THDN vs. Input requency AVDD=.0V, DVDD=.V, VREL/-=VRER/-=.0V/, MCLK=fs, - Input k k k 0k 0k 0k igure. THDN vs. Input requency AK9 Linearity AVDD=.0V, DVDD=.V, VREL/-=VRER/-=.0V/, MCLK=fs, fin=k r igure. Linearity <KM0900> 0/0-0-
21 [AKD9-] fs = 9 k AK9 requency Response AVDD=.0V, DVDD=.V, VREL/-=VRER/-=.0V/, MCLK=fs, - Input k k k 0k 0k 0k igure 8. requency Response AK9 Crosstalk AVDD=.0V, DVDD=.V, VREL/-=VRER/-=.0V/, MCLK=fs, - Input k k k 0k 0k 0k igure 9. Crosstalk <KM0900> 0/0 - -
22 [AKD9-] fs = 9 k AK9 T (- Input) AVDD=.0V, DVDD=.V, VREL/-=VRER/-=.0V/, MCLK=8fs, fin=k k k k 0k 0k 0k 80k igure 0. T (- Input) AK9 T ( -0 Input) AVDD=.0V, DVDD=.V, VREL/-=VRER/-=.0V/, MCLK=8fs, fin=k k k k 0k 0k 0k 80k igure. T (-0 Input) <KM0900> 0/0 - -
23 [AKD9-] fs =9 k AK9 T ( No ignal Input) AVDD=.0V, DVDD=.V, VREL/-=VRER/-=.0V/, MCLK=8fs, fin=k k k k 0k 0k 0k 80k igure. T (No ignal Input) AK9 THDN vs. Input Level AVDD=.0V, DVDD=.V, VREL/-=VRER/-=.0V/, MCLK=8fs, fin=k r igure. THDN vs. Input Level <KM0900> 0/0 - -
24 [AKD9-] fs = 9 k AK9 THDN vs. Input requency AVDD=.0V, DVDD=.V, VREL/-=VRER/-=.0V/, MCLK=8fs, - Input k k k 0k 0k 0k 80k igure. THDN vs. Input requency AK9 Linearity AVDD=.0V, DVDD=.V, VREL/-=VRER/-=.0V/, MCLK=8fs, fin=k r igure. Linearity <KM0900> 0/0 - -
25 [AKD9-] fs = 9 k AK9 requency Response AVDD=.0V, DVDD=.V, VREL/-=VRER/-=.0V/, MCLK=8fs, - Input k k k 0k 0k 0k 80k igure. requency Response AK9 Crosstalk AVDD=.0V, DVDD=.V, VREL/-=VRER/-=.0V/, MCLK=8fs, - Input k k k 0k 0k 0k 80k igure. Crosstalk <KM0900> 0/0 - -
26 [AKD9-] REVIION HITORY Date (YY/MM/DD) Manual Revision oar Revision /0/0 KM irst eition - Reason Page Contents <KM0900> 0/0 - -
27 [AKD9-] IMPORTANT NOTICE 0. Asahi Kasei Microevices Corporation ( AKM ) reserves the right to make changes to the information containe in this ocument without notice. When you consier any use or application of AKM prouct stipulate in this ocument ( Prouct ), please make inquiries the sales office of AKM or authorize istributors as to current status of the Proucts.. All information inclue in this ocument are provie only to illustrate the operation an application examples of AKM Proucts. AKM neither makes warranties or representations with respect to the accuracy or completeness of the information containe in this ocument nor grants any license to any intellectual property rights or any other rights of AKM or any thir party with respect to the information in this ocument. You are fully responsible for use of such information containe in this ocument in your prouct esign or applications. AKM AUME NO LIAILITY OR ANY LOE INCURRED Y YOU OR THIRD PARTIE ARIING ROM THE UE O UCH INORMATION IN YOUR PRODUCT DEIGN OR APPLICATION.. The Prouct is neither intene nor warrante for use in equipment or systems that require extraorinarily high levels of quality an/or reliability an/or a malfunction or failure of which may cause loss of human life, boily injury, serious property amage or serious public impact, incluing but not limite to, equipment use in nuclear facilities, equipment use in the aerospace inustry, meical equipment, equipment use for automobiles, trains, ships an other transportation, traffic signaling equipment, equipment use to control combustions or explosions, safety evices, elevators an escalators, evices relate to electric power, an equipment use in finance-relate fiels. Do not use Prouct for the above use unless specifically agree by AKM in writing.. Though AKM works continually to improve the Prouct s quality an reliability, you are responsible for complying with safety stanars an for proviing aequate esigns an safeguars for your harware, software an systems which minimize risk an avoi situations in which a malfunction or failure of the Prouct coul cause loss of human life, boily injury or amage to property, incluing ata loss or corruption.. Do not use or otherwise make available the Prouct or relate technology or any information containe in this ocument for any military purposes, incluing without limitation, for the esign, evelopment, use, stockpiling or manufacturing of nuclear, chemical, or biological weapons or missile technology proucts (mass estruction weapons). When exporting the Proucts or relate technology or any information containe in this ocument, you shoul comply with the applicable export control laws an regulations an follow the proceures require by such laws an regulations. The Proucts an relate technology may not be use for or incorporate into any proucts or systems whose manufacture, use, or sale is prohibite uner any applicable omestic or foreign laws or regulations.. Please contact AKM sales representative for etails as to environmental matters such as the RoH compatibility of the Prouct. Please use the Prouct in compliance with all applicable laws an regulations that regulate the inclusion or use of controlle substances, incluing without limitation, the EU RoH Directive. AKM assumes no liability for amages or losses occurring as a result of noncompliance with applicable laws an regulations.. Resale of the Prouct with provisions ifferent from the statement an/or technical features set forth in this ocument shall immeiately voi any warranty grante by AKM for the Prouct an shall not create or exten in any manner whatsoever, any liability of AKM.. This ocument may not be reprouce or uplicate, in any form, in whole or in part, without prior written consent of AKM. <KM0900> 0/0 - -
28 D AVDD D 0 R R0 0 C 0u C 0.u R09 0 R08 0 C 0u C 0.u C 0u C 0.u R 0 R open TOUT C08 0u C0 0.u C0 0u C0 0.u LIN_P0 C00 0.0u U LIN VRER- VREL- VREL A AVDD 0 TET VCOM 9 8 TOUT AVDD A VRER RIN C0 0.0u RIN_P0 LIN_N0 LIN- RIN- RIN_N0 C R0 0 TET TET R 0 C 0 HPE HPE MONO 9 MONO CK0 CK0 TDM 8 TDM CK CK TDM0 TDM0 CK 8 CK TDMIN TDMIN R0 TDMIN_VD PDN C0 00p R00 PDN 9 PDN TDMIN TDMIN R0 TDMIN_VD DVDD 0 DVDD D DVDD D C0 0.u C0 0u DVDD MCLK ICK LRCK DTO DTO MCLK ICK LRCK DTO DTO OV DM DM DIL DI M/N C0 0u C0 0.u R0 R0 R0 R0 R0 0 0 MCLK_VD ICK_VD LRCK_VD DTO_VD DTO_VD OV M_N DI DIL DM DM A A - 8- Title AKD9- ize Document Number Rev A 0 AKD9 Date: Thursay, March, 0 heet of
29 VOP R0 k D J0 AIN_L C00 u R00 C0 0.u k U00 NC NC 8 -IN V IN OUT V- NC LME9990 C0 0.u C0 u R0 R open open J00 AINL C0 0u C0 0u AINLP AINLN VOP- VOP- R0 90 IAL C0 0u C0 00p C08 0.u R0 00 C open U0 NC NC 8 -IN V IN OUT V- NC LME9990 R0 00 C 0.u C 0u R09. R0. C 0.0u LIN_P0 D VIA R0 00 C.k 80 R0 R0 C0 0u IAL C0 0.u VOP- R0 90 IAL C09 0u C 00p C0 0.u C open U0 NC NC 8 -IN V IN OUT V- NC LME9990 R08 00 C 0.u C 0u R. R. C8 0.0u LIN_N0 C VOP R k U0 R8 00 J0 NC NC 8 AIN_R C0 open R k -IN V U0 R open C IN OUT NC NC 8 0u AINRP R 90 VOP- V- NC -IN V R. C9 C0 LME9990 C C J0 C R0 00 u 0.u 0.u u AINR IAR 00p IN OUT VOP- V- NC R. C 0u LME9990 AINRN C C C C C R open 0u 0.u 0.u 0u 0.0u RIN_P0 VIA R9 00.k 80 R R C 0u IAR C 0.u VOP- R 90 IAR C8 0u C 00p C9 0.u C open U0 NC NC 8 -IN V IN OUT V- NC LME9990 R 00 C 0.u C 0u R. R. C 0.0u RIN_N0 A A - 9- Title AKD9- ize Document Number Rev A 0 Analog Input Date: Thursay, March, 0 heet of
30 D D C C A A DI DIL CK0 DIT M_N HPE TDM TDM0 MONO CK CK DIT0 A <- A <-> A -> DM DM DI_VC DIT_VC DIT0_VC M_N DI TDM DIL TDM0 MONO DIT DIT0 CK CK CK0 HPE M_N DIT_VC DIT0_VC DI_VC DI DIT DIT0 DM DM DIT DIT0 MCLK_VC VCC DTI_0 PDN_VC ICK_0 LRCK_0 CK DM CK CK0 DIL M_N HPE DVDD MONO DI TDM TDM0 DM VCC DVDD PDN_VCA MCLK_VC TDMIN_VC TDMIN_VC TDMIN_VD TDMIN_VD MCLK_VD PDN ICK_VC LRCK_VC ICK_VD LRCK_VD DVDD OV DTO_VD DTO_VC DTO_VD DTO_VC Title ize Document Number Rev Date: heet of DIT 0 AKD9- A Thursay, March, 0 Title ize Document Number Rev Date: heet of DIT 0 AKD9- A Thursay, March, 0 Title ize Document Number Rev Date: heet of DIT 0 AKD9- A Thursay, March, 0 C0 0.u U0 LVC8T A A A A A 8 A 9 A8 0 OE VCC GND A DIR VCC VCCA GND GND RP0 0k 8 9 RP00 0k 8 9 C0 0.u W0 W DIP C0 u T00 DA-0 C08 0.u C00 0.u W00 W DIP LED00 PRK J00 NC_TX R0 0 C0 0.u R00 k C0 0.u U0 LVC8T A A A A A 8 A 9 A8 0 OE VCC GND A DIR VCC VCCA GND GND R0 0 U00 LVC8T A A A A A 8 A 9 A8 0 OE VCC GND A DIR VCC VCCA GND GND U AK0A V TRAN PDN MCLK DTI ICK LRCK 0/CN 8 /CDTI 9 /CCLK 0 /CDTO C AN L CK0 CK VDD 8 TXN 9 TXP 0 DI0 DI DI U C0 0.u C0 0.u - 0-
31 D X.M D R0 M MCLK_OURCE C XTE R0 open VCC J00 EXT C0 0p R open C0 0p C0 0.u R0 EXT U00 A Y A Y 9 A Y A Y A Y A Y VCC GND HCU0 8 0 XTL R 0 R open EXT MCLK_OURCE PDN_VC PDN_VC C0 0.u C0 0.u U0 PR CK D 0 CLR PR CK D CLR VCC GND VHC U0 A A 9 A A A A VCC GND Q Q Q 9 Q 8 Y Y Y 8 Y 0 Y Y VHC MCLK_OURCE MCLK_ CLK/ CLK/ PDN_VCA PDN_VC VCC R 0 open R MCLK C0 0.u PDN_VCA PDN_VC U0 0 CLK Q Q RT Q Q Q Q VDD Q Q8 Q9 8 Q0 Q Q LV00AD 9 ICK ICK ICK LRTD LRTD LRCK LRCK LRCK MCLK/ MCLK/ MCLK/8 MCLK/ MCLK/ MCLK/8 MCLK/ MCLK/ CLK/ CLK LRCK R 0 LRCK_DIV R 0 LRCK_0 R0 R open R open R8 open LRCK_P R9 open R0 open CLK R 0 ICK_DIV R open R open ICK_P R open PORT MCLK ICK LRCK CLOCK PORT TDMIN TDMIN DTO DTO DATA R0 R0 ICK R 0 ICK_0 R0 R8 open MCLK_OURCE MCLK R9 0 MCLK_EL R08 R0 open MCLK_P TDMIN_P TDMIN_P DTO_P DTO_P R09 R0 R R LRCK_VC LRCK_0 ICK_VC ICK_0 MCLK_VC TDMIN_VC TDMIN_VC DTO_VC DTO_VC C VCC VCC 00k 00k DTO DTO_P R 0 DTO_P R open DTI_0 W00 PDN L H D00 HU9 W0 PDN L H D0 HU9 C00 0.u R00 0k C0 0.u R0 0k PDN_VC PDN_VC A A - - Title AKD9- ize Document Number Rev A 0 LOGIC Date: Thursay, March, 0 heet of
32 D V T ADM0-0 L00 0 VOP D C00 u C8 C0 0u 0u C0 0.u C u R0 0 C u VIN VREG EN VOUT RE YP RE-ENE GND C u C u C u C 0.u C 0u C 0u C0 u C0 0.u C 0u C9 0u C0 u R0 0 R00 0 AVDD VIA C C0 u -V L0 0 VOP- J00 V J0 V -V C -V J0 VOP T NJM8M0A IN GND OUT R 0 C0 C0 C08 C09 u 0.u 0.u u R0 0 VCC VCC T upc9mh VCC IN GND OUT R 0 DVDD C0 u C 0.u C 0.u C u R0 0 DVDD A A - - Title AKD9- ize Document Number Rev A Power upply 0 Date: Thursay, March, 0 heet of
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