[AKD5367A-A] 2008/06 - 1 - general description AKD5367A-A is an evaluation board for the digital audio 24bit 96khz a/d converter, ak5367a. the AKD5367A-A includes the input circ uit and also has a digital inte rface transmitter. further, the AKD5367A-A can achieve the interfac e with digital audio systems via optical connector. and it can achieve the direct interface with akemd?s d/a converter evaluation boar ds of via 10-line flat cable. ordering guide AKD5367A-A --- ak5367a evaluation board (cable for connecting with printer port of ib m-at compatible pc and control software are enclosed with board. this control software does not support windows nt.) function ? dit with optical output ? bnc connector for an external clock input ? 10pin header for serial control interface rin1 lin1 ak4104 (dit) 10pin header ak5367a reg +3.3v avdd cvdd jp3 dvdd vss1 vss2 agnd dgnd mclk_ext 12.288mhz d3v clock generator opt out port1 avdd cvdd dvdd jp2 rin2 lin2 rin3 lin3 rin4 lin4 jp4 port2 rom port3 up-i/f figure 1. AKD5367A-A block diagram * circuit diagram and pcb layout are attached at the end of this manual. ak5367a evaluation board rev.0 a kd5367a- a
[AKD5367A-A] 2008/06 - 2 - operation sequence 1) set up the power supplies lines. ( note 1 ) connector name connector color voltage used for comment and attention default setting avdd orange +4.75~+5.25 v avdd for ak5367a, regulator t1. this connector must be connected. +5v dvdd red +3.0~+3.6v dvdd for ak5367a this connector is used when dvdd of ak5367a is supplied from dvdd connector without regulator t1. in this case, jp2 shoul d be open. (default) +3.3v cvdd red +3.0~+3.6v cvdd for ak5367a this connector is used when cvdd of ak5367a is supplied from cvdd connector without regulator t1. in this case, jp3 shoul d be open. (default) +3.3v d3v red +3.0~+3.6v ak4104, logic circuit this connector is used when power of ak4104 and logic circuit is supplied from +3.3v connector without regulator t1. in this case, jp4 should be open. (default) +3.3v agnd black 0v analog ground this connector must be connected. 0v dgnd black 0v digital ground this connector is used when dgnd is supplied separately from agnd. in th is case, jp1 should be open. (default) 0v table 1. power supply lines note 1. each supply line should be distributed from the power supply unit. 2) set up the evaluation mode, jumper pins and dip switches. (see the followings.) 3) power on. the ak5367a and ak4104 should be reset once bringing sw1 and sw2 = ?l? and return it to ?h? to upon power-up. evaluation mode (1) slave mode when evaluating the ak5367a using the ak4104, the setting of the ak5367a?s audio interface format should be the same as the ak4104?s format. when the ak4104 is used, the audio interface format is the default setting of 16/24bit i2s compatible. therefo re, set dif bit=?1? to agree with the ak4104?s format. (1-1) a/d evaluation using ak4104 dit function port1 (dit) is used. dit generates audio bi-phase signal fro m received data and it is output through optical connector (totx141). it is possible to connect akemd?s d/a converter evaluation boards on the digital-amplifier. the clock can be generated from crys tal oscillator x1 or be i nput from j11 (bnc) or port2 (rom).
[AKD5367A-A] 2008/06 - 3 - (1-1-1) the mclk is generated from crystal oscillator x1 please set jp10 (clk) ?xtl?, open jp8 (xte), and short jp5 (lrck), jp6 (bick), jp7 (mclk), jp9 (ext). mclk can be selected to 256fs or 512fs with jp11 and jp12. in this case, please do not connect anything with port2 (rom). jp10 clk jp6 bick jp7 mclk x tl ext jp8 xte jp9 ext jp5 lrck figure 2. switch setting when the mclk is generated from crystal oscillator x1 (1-1-2) the mclk is input from bnc please set jp10 (clk) ?ext?, short jp5 (lrck), jp6 (bick), jp7 (mclk) and jp8 (xte), open jp9 (ext). mclk can be selected to 256fs or 512fs with jp11 and jp12. in this case, please do not connect anything with port2 (rom). jp10 clk jp6 bick jp7 mclk x tl ext jp8 xte jp9 ext jp5 lrck figure 3. switch setting when the mclk is input from bnc (1-1-3) the mclk, bick and lrck input from port2 please open jp5 (lrck), jp6 (bick), jp7 (mclk), jp8(xte), jp9(ext) and jp10(clk) when input the external clock from port2 (rom). jp10 clk jp6 bick jp7 mclk x tl ext jp8 xte jp9 ext jp5 lrck figure 4. switch setting when the external clock is input from port2 (rom) (1-2) the a/d converter is evaluated with external ap equipment by using port2 (rom) the analog to digital conversion data can be transmitte d from port2 (rom). the cl ock can be generated from crystal oscillator x1 or j11 (bnc) or port2 (rom). refer to (1-1-1), (1-1-2) and (1-1-3) to setting the switches.
[AKD5367A-A] 2008/06 - 4 - (2) master mode (2-1) a/d evaluation using ak4104 dit function port1 (dit) is used. dit generates audio bi-phase signal fro m received data and it is output through optical connector (totx141). it is possible to connect akemd?s d/a converter evaluation boards on the digital-amplifier. the mclk can be generated from crystal oscillator x1 or be input from j11 (bnc) or port2 (rom). (2-1-1) the mclk is generated from crystal oscillator x1 please set jp10 (clk) ?xtl?, open jp5 (lrck), jp6 (b ick) and jp8 (xte), short jp7 (mclk) and jp9 (ext). in this case, please do not connect anything with port2 (rom). jp10 clk jp6 bick jp7 mclk x tl ext jp8 xte jp9 ext jp5 lrck figure 5. switch setting when the mclk is generated from crystal oscillator x1 (2-1-2) the mclk input from bnc please set jp10 (clk) ?ext?, short jp7 (mclk) a nd jp8 (xte), open jp5 (lrck), jp6 (bick) and jp9 (ext). in this case, please do not connect anything with port2 (rom). jp10 clk jp6 bick jp7 mclk x tl ext jp8 xte jp9 ext jp5 lrck figure 6. switch setting when the mclk is input from bnc (2-1-3) the mclk is input from port2 please open jp5 (lrck), jp6 (bick), jp7 (mclk), jp8(xte), jp9(ext) and jp10(clk) when input the external clock from port2 (rom). jp10 clk jp6 bick jp7 mclk x tl ext jp8 xte jp9 ext jp5 lrck figure 7. switch setting when the mclk is input from port2 (rom) (2-2) the a/d converter is evaluated with external ap equipment by using port2 (rom)
[AKD5367A-A] 2008/06 - 5 - the analog to digital conversion data can be transm itted from port2 (rom). the mclk can be generated from crystal oscillator x1 or j11 (bnc) or port2 (rom). refer to (2-1-1), (2-1-2) and (2-1-3) to setting the switches.
[AKD5367A-A] 2008/06 - 6 - other jumper pins set up 1. jp1 (gnd): analog and digital ground open: separated. short: common. (the connector ?dgnd? can be open.) 2. jp2 (dvdd): select avdd for ak5367a open: supply from dvdd connector. short: supply from regulator t1. in this case, dvdd connector should be open. 3. jp3 (cvdd): select dvdd for ak5367a open: supply from cvdd connector. short: supply from regulator t1. in this case, cvdd connector should be open. 4. jp4 (d3v): select d3v for ak4104 and logic circuit open: supply from d3v connector. short: supply from regulator t1. in this case, d3v connector should be open. 5. jp11 (sbick), jp12 (slrck): select mclk frequency 256: mclk=256fs (=12.288mhz@fs=48khz) 512: mclk=512fs (=24.576mhz@fs=48khz) the function of the toggle sw upper-side is ?h? and lower-side is ?l?. [sw1] (5367_pdn): resets of ak5367a. keep ?h? during normal operation. [sw2] (dit_pdn): resets of ak4104. keep ?h? during normal operation. serial control AKD5367A-A can be controlled through the printer port of ibm-at compatible machine (parallel port). please connect port3 (up-i/f) and pc with bundled ten line flat cable. 10 wire flat cable 10pin connector connect pc AKD5367A-A sda(ack) scl sda 10pin header 10 1 port3 up-i/f figure 8. 10pin header connecting
[AKD5367A-A] 2008/06 - 7 - analog input/output circuit 1. analog input circuit the analog input of ak5367a are input from j1~j8. r1 47k rin1 + c33 short rin2 rin3 rin4 lin2 lin1 lin3 lin4 r3 47k + c35 short + c34 short r4 47k r5 47k + c37 short + c36 short r6 47k r7 47k + c39 short + c38 short r8 47k lin1 j1 mr-552ls 2 3 1 lin2 j3 mr-552ls 2 3 1 lin3 j5 mr-552ls 2 3 1 + c32 short lin4 j7 mr-552ls 2 3 1 rin1 j2 mr-552ls 2 3 1 rin2 j4 mr-552ls 2 3 1 rin3 j6 mr-552ls 2 3 1 rin4 j8 mr-552ls 2 3 1 r2 47k figure 9. analog input circuits * akemd assumes no responsibility for th e trouble when using the circuit examples.
[AKD5367A-A] 2008/06 - 8 - control software manual set-up of evaluation board and control software 1. set up the AKD5367A-A according to previous term. 2. connect ibm-at compatible pc with AKD5367A-A by 10-line type flat cable (packed with AKD5367A-A). take care of the direction of 10pin header. (please install the driver in the cd-rom when this control software is used on windows 2000/xp. please refer ?installation manual of control software driver by akm device control software?. in case of windows95/98/me, this installation is not n eeded. this control software does not operate on windows nt.) 3. insert the cd-rom labeled ?AKD5367A-A evaluation kit? into the cd-rom drive. 4. access the cd-rom drive and double-click the icon of ?AKD5367A-A.exe? to set up the control program. 5. then please evaluate according to the follows. operation flow keep the following flow. 1. set up the control program according to explanation above. 2. click ?port reset? button. explanation of each buttons 1. [port reset]: set up the usb interface board (akdusbif-a) . 2. [write default]: initialize the register of ak5367a. 3. [all write]: write all registers that is currently displayed. 4. [function1]: dialog to write data by keyboard operation. 5. [function2]: dialog to write data by keyboard operation. 6. [function3]: the sequence of regi ster setting can be set and executed. 7. [function4]: the sequence that is created on [function3] can be assigned to buttons and executed. 8. [function5]: the re gister setting that is created by [save] function on main window can be assigned to buttons and executed. 9. [save]: save the current register setting. 10. [open]: write the saved values to all register. 11. [write] : dialog to write data by mouse operation. indication of data input data is indicated on the register map. red letter indicates ?h? or ?1? and blue one indicates ?l? or ?0?. blank is the part that is not defined in the datasheet.
[AKD5367A-A] 2008/06 - 9 - explanation of each dialog 1. [write dialog]: dialog to write data by mouse operation there are dialogs corres ponding to each register. click the [write] button corresponding to each register to set up the dialog. if you check the check box, data becomes ?h? or ?1?. if not, ?l? or ?0?. if you want to write the input data to ak5367a, click [ok] button. if not, click [cancel] button. 2. [function1 dialog]: dialog to write data by keyboard operation address box: input registers address in 2 figures of hexadecimal. data box: input registers data in 2 figures of hexadecimal. if you want to write the input data to ak5367a, click [ok] button. if not, click [cancel] button. 3. [function2 dialog]: dialog to evaluate att address box: input registers address in 2 figures of hexadecimal. start data box: input starts data in 2 figures of hexadecimal. end data box: input end data in 2 figures of hexadecimal. interval box: data is wr itten to ak5367a by this interval. step box: data changes by this step. mode select box: if you check this check box, data reaches end data, and returns to start data. [example] start data = 00, end data = 09 data flow: 00 01 02 03 04 05 06 07 08 09 09 08 07 06 05 04 03 02 01 00 if you do not check this check box, data reaches end data, but does not re turn to start data. [example] start data = 00, end data = 09 data flow: 00 01 02 03 04 05 06 07 08 09 if you want to write the input data to ak5367a, click [ok] button. if not, click [cancel] button.
[AKD5367A-A] 2008/06 - 10 - 4. [save] and [open] 4-1. [save] save the current register setting data. the extension of file name is ?akr?. (operation flow) (1) click [save] button. (2) set the file name and push [save] button. the extension of file name is ?akr?. 4-2. [open] the register setting data saved by [save] is written to ak5367a. the file type is the same as [save]. (operation flow) (1) click [open] button. (2) select the file (*.akr) and click [open] button.
[AKD5367A-A] 2008/06 - 11 - 5. [function3 dialog] the sequence of register setting can be set and executed. (1) click [f3] button. (2) set the control sequence. set the address, data and interval time. set ?-1? to th e address of the step where the sequence should be paused. (3) click [start] button. then this sequence is executed. the sequence is paused at the step of interval= ?-1?. click [start] button, the sequence restarts from the paused step. this sequence can be saved and opened by [save] and [open] button on the function3 window. the extension of file name is ?aks?. figure 10. window of [f3]
[AKD5367A-A] 2008/06 - 12 - 6. [function4 dialog] the sequence that is created on [function3] can be assigned to buttons and executed. when [f4] button is clicked, the window as shown in figure 11 opens. figure 11. [f4] window
[AKD5367A-A] 2008/06 - 13 - 6-1. [open] buttons on left side and [start] buttons (1) click [open] button and select the sequence file (*.aks). the sequence file name is displayed as shown in figure 12. figure 12. [f4] window (2) (2) click [start] button, then the sequence is executed. 6-2. [save] and [open] buttons on right side [save]: the sequence file names can assign be saved. the file name is *.ak4. [open]: the sequence file names assign that are saved in *.ak4 are loaded. 6-3. note (1) this function doesn't support the pause function of sequence function. (2) all files need to be in same folder used by [save] and [open] function on right side. (3) when the sequence is changed in [function3], the file should be loaded again in order to reflect the change.
[AKD5367A-A] 2008/06 - 14 - 7. [function5 dialog] the register setting that is created by [save] function on main window can be assigned to buttons and executed. when [f5] button is clicked, the following window as shown in figure 13 opens. figure 13. [f5] window 7-1. [open] buttons on left side and [write] button (1) click [open] button and select the register setting file (*.akr). (2) click [write] button, then the register setting is executed. 7-2. [save] and [open] buttons on right side [save]: the register setting file names assign can be saved. the file name is *.ak5. [open]: the register setting file names a ssign that are saved in *.ak5 are loaded. 7-3. note (1) all files need to be in same folder used by [save] and [open] function on right side. (2) when the register setting is changed by [save] button in main window, the file should be loaded again in order to reflect the change.
[AKD5367A-A] 2008/06 - 15 - measurement results [measurement condition] ? measurement unit : audio precision, system two cascade ? mclk : 512fs (fs=48khz), 256fs (fs=96khz) ? bick : 64fs ? fs : 48khz, 96khz ? bit : 24bit ? power supply : avdd = 5.0v, dvdd = cvdd = 3.3v ? interface : dsp data (10pin header : psia) ? temperature : room [measurement results] parameter result unit l1ch / r1ch l2ch / r2ch l3 ch / r3ch l4ch / r4ch adc analog input characteristics: s/(n+d): filter=none (fs=48khz, -1dbfs, bw=20khz) (fs=96khz, -1dbfs, bw=40khz) 90.2 / 90.7 91.3 / 91.9 90.2 / 90.8 91.3 / 91.9 90.2 / 90.7 91.3 / 91.9 90.2 / 90.7 91.1 / 91.7 db db d-range: filter=a-weighted (fs=48khz, -60dbfs, bw=20khz) (fs=96khz, -60dbfs, bw=40khz) 101.7 / 101.9 102.6 / 102.8 101.8 / 101.9 102.6 / 102.8 101.7 / 101.9 102.6 / 102.8 101.7 / 102.0 102.0 / 102.2 db db s/n: filter=a-weighted (fs=48khz, no signal, bw=20khz) (fs=96khz, no signal, bw=40khz) 101.8 / 102.1 102.7 / 102.9 101.9 / 102.1 102.7 / 102.9 101.9 / 102.1 102.7 / 102.9 101.9 / 102.1 102.3 / 102.5 db db
[AKD5367A-A] 2008/06 - 16 - [adc plot: fs=48khz] akm ak5367a thd+n vs. input level avdd=5v, dvdd=cvdd=3.3v, fs=48khz, mclk=512fs, fin=1khz -120 -70 -115 -110 -105 -100 -95 -90 -85 -80 -75 d b f s -140 +0 -130 -120 -110 -100 -90 -80 -70 -60 -50 -40 -30 -20 -10 dbr figure 14. thd+n vs. input level akm ak5367a thd+n vs. input frequency avdd=5v, dvdd=cvdd=3.3v, fs=48khz, mclk=512fs, -1dbfs input -120 -70 -115 -110 -105 -100 -95 -90 -85 -80 -75 d b f s 20 20k 50 100 200 500 1k 2k 5k 10k hz t t t t tt t t t t figure 15. thd+n vs. input frequency
[AKD5367A-A] 2008/06 - 17 - akm ak5367a linearity avdd=5v, dvdd=cvdd=3.3v, fs=48khz, mclk=512fs, fin=1khz -130 +0 -120 -110 -100 -90 -80 -70 -60 -50 -40 -30 -20 -10 dbr -130 +0 -120 -110 -100 -90 -80 -70 -60 -50 -40 -30 -20 -10 d b f s t t tt figure 16. linearity akm ak5367a frequency response avdd=5v, dvdd=cvdd=3.3v, fs=48k hz, mclk=512fs, -1dbfs input 2k 20k 4k 6k 8k 10k 12k 14k 16k 18k hz -2 -0 -1.9 -1.8 -1.7 -1.6 -1.5 -1.4 -1.3 -1.2 -1.1 -1 -0.9 -0.8 -0.7 -0.6 -0.5 -0.4 -0.3 -0.2 -0.1 d b f s figure 17. frequency response
[AKD5367A-A] 2008/06 - 18 - akm ak5367a crosstalk (red=lin1, blue=rin1) avdd=5v, dvdd=cvdd=3.3v, fs=48khz, mclk=512fs, -1dbfs input -120 -50 -115 -110 -105 -100 -95 -90 -85 -80 -75 -70 -65 -60 -55 d b 20 20k 50 100 200 500 1k 2k 5k 10k hz figure 18. crosstalk akm ak5367a fft avdd=5v, dvdd=cvdd=3.3v, fs=48k hz, mclk=512fs, -1dbfs input -180 +0 -170 -160 -150 -140 -130 -120 -110 -100 -90 -80 -70 -60 -50 -40 -30 -20 -10 d b f s 20 20k 50 100 200 500 1k 2k 5k 10k hz figure 19. fft plot
[AKD5367A-A] 2008/06 - 19 - akm ak5367a fft avdd=5v, dvdd=cvdd=3.3v, fs=48khz, mclk=512fs, -60dbfs input -180 +0 -170 -160 -150 -140 -130 -120 -110 -100 -90 -80 -70 -60 -50 -40 -30 -20 -10 d b f s 20 20k 50 100 200 500 1k 2k 5k 10k hz figure 20. fft plot akm ak5367a fft avdd=5v, dvdd=cvdd=3.3v, fs=48khz, mclk=512fs, no signal input -180 +0 -170 -160 -150 -140 -130 -120 -110 -100 -90 -80 -70 -60 -50 -40 -30 -20 -10 d b f s 20 20k 50 100 200 500 1k 2k 5k 10k hz figure 21. fft plot
[AKD5367A-A] 2008/06 - 20 - [adc plot: fs=96khz] akm ak5367a thd+n vs. input level avdd=5v, dvdd=cvdd=3.3v, fs=96khz, mclk=256fs, fin=1khz -140 +0 -130 -120 -110 -100 -90 -80 -70 -60 -50 -40 -30 -20 -10 dbr -120 -70 -115 -110 -105 -100 -95 -90 -85 -80 -75 d b f s figure 22. thd+n vs. input level akm ak5367a thd+n vs. input frequency avdd=5v, dvdd=cvdd=3.3v, fs=96khz, mclk=256fs, -1dbfs input 40 40k 50 100 200 500 1k 2k 5k 10k 20k hz -120 -70 -115 -110 -105 -100 -95 -90 -85 -80 -75 d b f s t tt t t figure 23. thd+n vs. input frequency
[AKD5367A-A] 2008/06 - 21 - akm ak5367a linearity avdd=5v, dvdd=cvdd=3.3v, fs=96khz, mclk=256fs, fin=1khz -130 +0 -120 -110 -100 -90 -80 -70 -60 -50 -40 -30 -20 -10 dbr -130 +0 -120 -110 -100 -90 -80 -70 -60 -50 -40 -30 -20 -10 d b f s t figure 24. linearity akm ak5367a frequency response avdd=5v, dvdd=cvdd=3.3v, fs=96k hz, mclk=256fs, -1dbfs input 2.5k 40k 5k 7.5k 10k 12.5k 15k 17.5k 20k 22.5k 25k 27.5k 30k 32.5k 35k 37.5k hz -2 -0 -1.9 -1.8 -1.7 -1.6 -1.5 -1.4 -1.3 -1.2 -1.1 -1 -0.9 -0.8 -0.7 -0.6 -0.5 -0.4 -0.3 -0.2 -0.1 d b f s figure 25. frequency response
[AKD5367A-A] 2008/06 - 22 - akm ak5367a crosstalk (red=lin1, blue=rin1) avdd=5v, dvdd=cvdd=3.3v, fs=96k hz, mclk=256fs, -1dbfs input 40 40k 50 100 200 500 1k 2k 5k 10k 20k hz -120 -50 -115 -110 -105 -100 -95 -90 -85 -80 -75 -70 -65 -60 -55 d b figure 26. crosstalk akm ak5367a fft avdd=5v, dvdd=cvdd=3.3v, fs=96k hz, mclk=256fs, -1dbfs input 40 40k 50 100 200 500 1k 2k 5k 10k 20k hz -180 +0 -170 -160 -150 -140 -130 -120 -110 -100 -90 -80 -70 -60 -50 -40 -30 -20 -10 d b f s figure 27. fft plot
[AKD5367A-A] 2008/06 - 23 - akm ak5367a fft avdd=5v, dvdd=cvdd=3.3v, fs=96khz, mclk=256fs, -60dbfs input 40 40k 50 100 200 500 1k 2k 5k 10k 20k hz -180 +0 -170 -160 -150 -140 -130 -120 -110 -100 -90 -80 -70 -60 -50 -40 -30 -20 -10 d b f s figure 28. fft plot akm ak5367a fft avdd=5v, dvdd=cvdd=3.3v, fs=96khz, mclk=256fs, no signal input 40 40k 50 100 200 500 1k 2k 5k 10k 20k hz -180 +0 -170 -160 -150 -140 -130 -120 -110 -100 -90 -80 -70 -60 -50 -40 -30 -20 -10 d b f s figure 29. fft plot
[AKD5367A-A] 2008/06 - 24 - revision history date (yy/mm/dd) manual revision board revision reason page contents 08/06/09 km095000 0 first edition important notice these products and their specifications are subject to change without notice. when you consider any use or application of these produc ts, please make inquiries the sales office of asahi kasei emd corporation (akemd) or authorized distributors as to current status of the products. akemd assumes no liability for infringement of any patent, intellectual property, or other rights in the application or use of any information contained herein. any export of these products, or devices or systems containi ng them, may require an export license or other official approval under the law and regulations of the country of e xport pertaining to customs and tariffs, currency exchange, or strategic materials. akemd products are neither intended nor au thorized for use as critical components note1) in any safety, life support, or other hazard related device or system note2) , and akemd assumes no responsibility for such use, except for the use approved with the express written consent by representative director of akemd. as used here: note1) a critical component is one whose failure to func tion or perform may reasonably be expected to result, whether directly or indirectly, in the loss of the safety or effectiveness of the device or system containing it, and which must therefore meet very high standards of performance and reliability. note2) a hazard related device or system is one designed or intended for life support or maintenance of safety or for applications in medicine, aerospace, nuclear energy, or other fi elds, in which its failure to function or perform may reasonably be expected to result in loss of life or in significant injury or damage to person or property. it is the responsibility of the buyer or distributor of akemd pr oducts, who distributes, dis poses of, or otherwise places the product with a third party, to notify such third party in advance of the above cont ent and conditions, and the buyer or distributor agrees to assume any and all re sponsibility and liability for and hold akemd harmless from any and all claims arising from the use of said product in the absence of such notification.
a a b b c c d d e e e e d d c c b b a a avdd dvdd cvdd avdd dvdd cvdd vcc_3v vcc_3v lin1 rin1 lin2 rin2 lin3 rin3 lin4 rin4 5367_cvdd 5367_pdn scl bick sdto 5367_mclk lrck lout rout 5367_dvdd 5367_avdd 5367_dvdd 5367_avdd 5367_cvdd sda vcc_3v title size document number rev date: sheet of ak5367a 0 AKD5367A-A a3 14 tuesday, may 06, 2008 title size document number rev date: sheet of ak5367a 0 AKD5367A-A a3 14 tuesday, may 06, 2008 title size document number rev date: sheet of ak5367a 0 AKD5367A-A a3 14 tuesday, may 06, 2008 agnd dgnd agnd dgnd all unmount r8 47k r8 47k l1 (short) l1 (short) 1 2 r17 51 r17 51 cvdd t_45(red) cvdd t_45(red) 1 r16 51 r16 51 d3v t_45(red) d3v t_45(red) 1 l2 (short) l2 (short) 1 2 + c14 10u + c14 10u r15 51 r15 51 r12(open) r12(open) + c7 10u + c7 10u r14 51 r14 51 jp1 gnd jp1 gnd c5 1u c5 1u lt1117-3.3 t1 lt1117-3.3 t1 1 gnd in 3 out 2 c6 0.1u c6 0.1u r11(open) r11(open) r13 51 r13 51 jp4 d3v_sel jp4 d3v_sel cn2 30pin_2 cn2 30pin_2 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 cn1 30pin_1 cn1 30pin_1 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 + c13 47u + c13 47u r3 47k r3 47k r9 24k r9 24k r5 47k r5 47k r7 47k r7 47k + c3 10u + c3 10u + c12 10u + c12 10u r18 51 r18 51 r20 (short) r20 (short) c11 0.1u c11 0.1u + c16 47u + c16 47u c8 0.1u c8 0.1u c15 0.1u c15 0.1u c1 0.1u c1 0.1u dgnd t_45(black) dgnd t_45(black) 1 + c2 2.2u + c2 2.2u + c10 10u + c10 10u r1 47k r1 47k r10 24k r10 24k c9 0.1u c9 0.1u avdd t_45(orange) avdd t_45(orange) 1 r2 47k r2 47k jp3 cvdd_sel jp3 cvdd_sel ak5367a u1 ak5367a u1 vcom 1 lin1 2 rin1 3 lin2 4 rin2 5 lin3 6 rin3 7 lin4 8 sda 22 scl 23 sdto 24 bick 25 lrck 27 mclk 26 dvdd 28 pdn 21 ropin 12 lopin 13 lout 14 rin4 9 risel 10 rout 11 cvdd 18 cn 19 cp 20 lisel 15 cvee 16 vss2 17 vss1 29 avdd 30 jp2 dvdd_sel jp2 dvdd_sel agnd t_45(black) agnd t_45(black) 1 dvdd t_45(red) dvdd t_45(red) 1 + c4 10u + c4 10u r4 47k r4 47k r6 47k r6 47k r19 51 r19 51 + c17 47u + c17 47u
a a b b c c d d e e e e d d c c b b a a vcc_3v vcc_3v vcc_3v vcc_3v vcc_3v slrck sdto bick lrck sbick mclk 5367_mclk vcc_3v 5367_pdn title size document number rev date: sheet of dit ak4104 0 AKD5367A-A a3 24 wednesday, may 07, 2008 title size document number rev date: sheet of dit ak4104 0 AKD5367A-A a3 24 wednesday, may 07, 2008 title size document number rev date: sheet of dit ak4104 0 AKD5367A-A a3 24 wednesday, may 07, 2008 sdto lrck bick mclk h l h l c27 0.1u c27 0.1u r40 51 r40 51 port1 totx141 port1 totx141 gnd 1 vcc 2 in 3 r23 0 r23 0 r38 51 r38 51 c20 0.1u c20 0.1u sw1 5367_pdn sw1 5367_pdn 2 1 3 u4 74hc14 u4 74hc14 gnd 7 1a 1 3a 5 5a 11 5y 10 3y 6 1y 2 2y 4 4y 8 6y 12 6a 13 4a 9 2a 3 vcc 14 r24 10k r24 10k c25 0.1u c25 0.1u c28 0.1u c28 0.1u d1 hsu119 d1 hsu119 2 1 + c26 10u + c26 10u sw2 dit_pdn sw2 dit_pdn 2 1 3 jp5 lrck jp5 lrck ak4104 u2 ak4104 u2 mclk 1 bick 2 sdti1 3 lrck 4 pdn 5 csn 6 cclk 7 cdti 8 testd1 10 testd2 11 testd3 12 vss 13 cdto/sdti2 15 vdd 14 tx 16 test 9 r25 10k r25 10k jp7 mclk jp7 mclk r39 51 r39 51 d2 hsu119 d2 hsu119 2 1 r37 51 r37 51 jp6 bick jp6 bick c24 0.1u c24 0.1u port2 rom port2 rom 1 2 3 4 5 6 7 8 9 10
a a b b c c d d e e e e d d c c b b a a rin1 rin2 rin3 rin4 lin2 lin1 lin3 lin4 rout lout title size document number rev date: sheet of input output 0 AKD5367A-A a3 34 wednesday, may 07, 2008 title size document number rev date: sheet of input output 0 AKD5367A-A a3 34 wednesday, may 07, 2008 title size document number rev date: sheet of input output 0 AKD5367A-A a3 34 wednesday, may 07, 2008 lin1 lin2 lin3 lin4 rin1 rin2 rin3 rin4 rout lout + c40 22u + c40 22u + c39 short + c39 short j2 mr-552ls j2 mr-552ls 2 3 1 + c34 short + c34 short r33 47k r33 47k + c33 short + c33 short + c36 short + c36 short j4 mr-552ls j4 mr-552ls 2 3 1 j6 mr-552ls j6 mr-552ls 2 3 1 + c35 short + c35 short j8 mr-552ls j8 mr-552ls 2 3 1 r34 220 r34 220 r35 47k r35 47k + c38 short + c38 short + c41 22u + c41 22u j3 mr-552ls j3 mr-552ls 2 3 1 + c37 short + c37 short j5 mr-552ls j5 mr-552ls 2 3 1 j10 mr-552ls j10 mr-552ls 2 3 1 j1 mr-552ls j1 mr-552ls 2 3 1 j9 mr-552ls j9 mr-552ls 2 3 1 + c32 short + c32 short r36 220 r36 220 j7 mr-552ls j7 mr-552ls 2 3 1
a a b b c c d d e e e e d d c c b b a a 256fs 256 512fs 512 sbick slrck mclk scl sda vcc_3v vcc_3v vcc_3v vcc_3v vcc_3v vcc_3v title size document number rev date: sheet of logic 0 AKD5367A-A a3 44 wednesday, may 07, 2008 title size document number rev date: sheet of logic 0 AKD5367A-A a3 44 wednesday, may 07, 2008 title size document number rev date: sheet of logic 0 AKD5367A-A a3 44 wednesday, may 07, 2008 ext xtl scl sda(ack) sda jp12 slrck jp12 slrck port3 up-i/f port3 up-i/f 1 2 3 4 5 6 7 8 9 10 jp10 clk jp10 clk r29 470 r29 470 x1 12.288mhz x1 12.288mhz c29 0.1u c29 0.1u c18 0.1u c18 0.1u u3 74hcu04 u3 74hcu04 gnd 7 1a 1 3a 5 5a 11 5y 10 3y 6 1y 2 2y 4 4y 8 6y 12 6a 13 4a 9 2a 3 vcc 14 u6 74lvc07 u6 74lvc07 1a 1 1y 2 vcc 14 gnd 7 2a 3 3a 5 4a 9 5a 11 6a 13 2y 4 3y 6 4y 8 5y 10 6y 12 r27 470 r27 470 c30 5p c30 5p r30 10k r30 10k r28 10k r28 10k jp9 ext jp9 ext u7 74hc4040 u7 74hc4040 clk 10 rst 11 q1 9 q2 7 q3 6 q4 5 q5 3 q6 2 q7 4 q8 13 q9 12 q10 14 q11 15 q12 1 vdd 16 vss 8 r26 10k r26 10k c23 0.1u c23 0.1u c31 5p c31 5p r31 1m r31 1m u5 74lvc541 u5 74lvc541 a1 2 a2 3 a3 4 a4 5 a5 6 a6 7 a7 8 a8 9 g1 1 g2 19 y1 18 y2 17 y3 16 y4 15 y5 14 y6 13 y7 12 y8 11 vcc 20 gnd 10 r32 51 r32 51 j11 mclk_ext j11 mclk_ext jp11 sbick jp11 sbick jp8 xte jp8 xte c19 0.1u c19 0.1u
5 5 4 4 3 3 2 2 1 1 d d c c b b a a title size document number rev date: sheet of ak5367a 0 AKD5367A-A-30vsop-sub a4 11 wednesday, may 07, 2008 title size document number rev date: sheet of ak5367a 0 AKD5367A-A-30vsop-sub a4 11 wednesday, may 07, 2008 title size document number rev date: sheet of ak5367a 0 AKD5367A-A-30vsop-sub a4 11 wednesday, may 07, 2008 + c10 10u + c10 10u r8 47k r8 47k c5 1u c5 1u r5 47k r5 47k cn2 30pin_2 cn2 30pin_2 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 r2 47k r2 47k r12 (open) r12 (open) + c2 2.2u + c2 2.2u ak5367a u1 ak5367a u1 vcom 1 lin1 2 rin1 3 lin2 4 rin2 5 lin3 6 rin3 7 lin4 8 sda 22 scl 23 sdto 24 bick 25 lrck 27 mclk 26 dvdd 28 pdn 21 ropin 12 lopin 13 lout 14 rin4 9 risel 10 rout 11 cvdd 18 cn 19 cp 20 lisel 15 cvee 16 vss2 17 vss1 29 avdd 30 r11 (open) r11 (open) r6 47k r6 47k r3 47k r3 47k c1 0.1u c1 0.1u c8 0.1u c8 0.1u c6 0.1u c6 0.1u r10 24k r10 24k r9 24k r9 24k + c4 10u + c4 10u r1 47k r1 47k cn1 30pin_1 cn1 30pin_1 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 r7 47k r7 47k + c7 10u + c7 10u c11 0.1u c11 0.1u + c3 10u + c3 10u c9 0.1u c9 0.1u + c12 10u + c12 10u r4 47k r4 47k
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