[AKD4955-A] AKD4955-A AK4955 Evaluation Board Rev.3 GENERAL DESCRIPTION The AKD4955-A is an evaluation board for AK4955, 24bit stereo CODEC with a microphone/ speaker/ video amplifiers, DSP and LDO. The AKD4955-A has the Digital Audio I/F and can achieve the interface with digital audio systems via optical connector. Ordering Guide AKD4955-A --- AK4955 Evaluation Board (Cable for connecting with USB Port of PC and control software are packed with this.) FUNCTION • DIR/DIT with optical input/output • BNC connector for an external clock input DVDD SVDD LVDD AVDD +5V 3.3V←5V LDO (T2) 1.8V←5V LDO (T3) for TVDD LIN1 AIN Mini Jack 3.3V←5V LDO (T1) RIN1 LIN2 LIN RIN2 PIC4550 AK4955 USB PORT4 (10pin-CTRL) PORT3 (DSP) RIN LOUT External Clock ROUT Opt In SPP SPN AK4118A (DIT/DIR) Mini Jack MIN Opt Out VOUT VIN Figure 1.AKD4955-A Block Diagram <KM104703> 2011/08 -1- [AKD4955-A] Operation Sequence 1) 2) Set up the Power Supply Lines. Setup the Audio I/F Evaluation Mode. (1) Evaluation of A/D using DIT of AK4118A. (1-1) Setting with External Slave Mode. (1-2) Setting with External Master Mode. (2) Evaluation of D/A using DIR of AK4118A. (2-1) Setting with External Slave Mode. < Default > (2-2) Setting with External Master Mode. (3) Evaluation of A/D, D/A using PORT3 (DSP). (3-1) Setting with External Slave Mode. (3-2) Setting with External Master Mode. (3-3) Setting with PLL Slave Mode. (3-4) Setting with PLL Master Mode. (4) Evaluation of external Loop-back (A/D -> D/A). (4-1) Setting with External Slave Mode. (4-2) Setting with External Master Mode. (4-3) Setting with PLL Slave Mode. (4-4) Setting with PLL Master Mode. 3) Jumper pins and SW Setting. (1) Setting of other jumper pins. (2) Setting of SW. 4) Power on. <KM104703> 2011/08 -2- [AKD4955-A] 1) Set up the Power Supply Lines. (1-1) In case of using the regulator. < Default > JP20 AVDD-SEL REG JP23 LVDD-SEL AVDD REG JP25 SVDD-SEL LVDD REG SVDD JP26 D3V-SEL REG D3V JP21 DVDD-SEL REG DVDD JP24 LVC-SEL REG LVC Figure 2.Setting of jumper pins, when using the regulator. Name of Jack +5V AVDD LVDD SVDD D3V DVDD LVC AGND DGND Color Default Setting Using red green green green green green green black black 5V Open Open Open Open Open Open 0V 0V for regulator. for AVDD of AK4955 for LVDD of AK4955 for SVDD of AK4955 for AK4118A and digital logic. for DVDD of AK4955 for TVDD of AK4955 and digital logic. for analog ground for digital ground Table 1.Set up of power supply lines (1-2) In case of using the power supply connectors. JP20 AVDD-SEL REG JP23 LVDD-SEL AVDD REG JP25 SVDD-SEL LVDD REG SVDD JP26 D3V-SEL REG D3V JP21 DVDD-SEL REG DVDD JP24 LVC-SEL REG LVC Figure 3.Setting of jumper pins, when using the power supply connectors. Name of Jack +5V AVDD LVDD SVDD D3V DVDD LVC AGND DGND Color Default Setting Using red green green green green green green black black Open +2.8V ~ +3.6V [typ:+3.3V] +2.7V ~ +5.5V [typ:+3.3V] +2.7V ~ +5.5V [typ:+3.3V] +2.7V ~ +3.6V [typ:+3.3V] +1.6V ~ +2.0V [typ:+1.8V] +1.6V ~ +3.6V [typ:+1.8V] 0V 0V for regulator. for AVDD of AK4955 for LVDD of AK4955 for SVDD of AK4955 for AK4118A and digital logic. for DVDD of AK4955 for TVDD of AK4955 and digital logic. for analog ground for digital ground Table 2.Set up of power supply lines (Note 1) Note 1.Each supply line should be distributed from the power supply unit. <KM104703> 2011/08 -3- [AKD4955-A] 2) Setup the Audio I/F Evaluation Mode. In case of using the AK4118A when evaluating the AK4955, both the AK4955 and AK4118A’s audio interface formats must be matched. Refer to the datasheet for AK4955’s audio interface format, and AK4118A’s audio interface format (Table 4). The AK4118A operates at sampling frequency of 32 kHz or more. If the sampling frequency is slower than 32 kHz, please use other mode. In addition, MCLK of AK4118A supports 256fs and 512fs. When evaluating in a condition except above, please use other mode. Refer to the datasheet for register setting of the AK4955. (1) Evaluation of A/D using DIT of AK4118A. (1-1) Setting with External Slave Mode X1 (X’tal) and PORT2 (TOTX) are used. Nothing should be connected to PORT1 (TORX) and PORT3 (DSP). MCKI, BICK and LRCK are supplied from the AK4118A, and SDTO of the AK4955 is output to the AK4118A. In addition, registers of the AK4955 should be set to “External Slave Mode” and setting of AK4118A should be set to “Master Mode”. SW4 (M/S) should be set to “ON (H)”. JP11 BICK-SEL JP13 LRCK-SEL JP12 BICK-PHASE 6 2 JP16 MCKI-SEL 4 8 5 DIR GND EXT 10pin 10pin DIR 4040 INV 5 THR 5 4 8 10pin DIR 4040-32fs 4040-64fs 3 2 4 XTL MCKO JP10 XTI-SEL Figure 4.Setting of jumper pins with External Slave Mode (1-2) Setting with External Master Mode X1 (X’tal) and PORT2 (TOTX) are used. Nothing should be connected to PORT1 (TORX) and PORT3 (DSP). MCKI is supplied from the AK4118A, and BICK, LRCK and SDTO of the AK4955 is output to the AK4118A. In addition, registers of the AK4955 should be set to “External Master Mode” and setting of AK4118A should be set to “Slave Mode”. SW4 (M/S) should be set to “OFF (L)”. JP13 LRCK-SEL JP12 BICK-PHASE 6 2 10pin DIR 4040 INV 5 THR 5 4 8 JP16 MCKI-SEL 4 8 5 DIR GND EXT 10pin JP11 BICK-SEL 10pin DIR 4040-32fs 4040-64fs 3 2 4 XTL MCKO JP10 XTI-SEL Figure 5.Setting of jumper pins with External Master Mode <KM104703> 2011/08 -4- [AKD4955-A] (2) Evaluation of D/A using DIR of AK4118A. (2-1) Setting with External Slave Mode < Default > PORT1 (TORX) is used. Nothing should be connected to PORT2 (TOTX) and PORT3 (DSP). MCKI, BICK, LRCK and SDTI are supplied from the AK4118A. In addition, registers of the AK4955 should be set to “External Slave Mode” and setting of AK4118A should be set to “Master Mode”. SW4 (M/S) should be set to “ON (H)”. JP13 LRCK-SEL JP12 BICK-PHASE 6 2 5 6 2 JP16 MCKI-SEL 4 8 DIR ADC 10pin 10pin DIR 4040 INV 5 THR 5 4 8 JP15 SDTI-SEL 5 DIR GND EXT 10pin JP11 BICK-SEL 10pin DIR 4040-32fs 4040-64fs 3 2 4 XTL MCKO JP10 XTI-SEL Figure 6.Setting of jumper pins with External Slave Mode (2-2) Setting with External Master Mode PORT1 (TORX) is used. Nothing should be connected to PORT2 (TOTX) and PORT3 (DSP). MCKI and SDTI are supplied from the AK4118A, and BICK and LRCK of the AK4955 is output to the AK4118A. In addition, registers of the AK4955 should be set to “External Master Mode” and setting of AK4118A should be set to “Slave Mode”. SW4 (M/S) should be set to “OFF (L)”. 6 2 10pin DIR 4040 INV 5 THR 5 4 8 JP15 SDTI-SEL 5 6 2 JP16 MCKI-SEL 4 8 5 DIR GND EXT 10pin JP13 LRCK-SEL JP12 BICK-PHASE DIR ADC 10pin JP11 BICK-SEL 10pin DIR 4040-32fs 4040-64fs 3 2 4 XTL MCKO JP10 XTI-SEL Figure 7.Setting of jumper pins with External Master Mode <KM104703> 2011/08 -5- [AKD4955-A] (3) Evaluation of A/D, D/A using PORT3 (DSP). (3-1) Setting with External Slave Mode Registers of the AK4955 should be set to “External Slave Mode”. SW4 (M/S) should be set to “ON (H)”. AK4955 DSP or μP MCKO 256fs, 512fs or 1024fs MCKI MCLK ≥ 32fs BICK BCLK 1fs LRCK LRCK SDTO SDTI SDTI SDTO Figure 8.External Slave Mode PORT3 (DSP) is used. Nothing should be connected to PORT1 (TORX) and PORT2 (TOTX). MCLK, BICK, LRCK, and SDTI are input from PORT3 (DSP) and SDTO of the AK4955 is output to the PORT3 (DSP). JP14 MCKIO MCKO 2 MCKI 6 10pin DIR 4040 INV 10pin DIR 4040-32fs 4040-64fs 5 THR 5 4 8 JP15 SDTI-SEL 5 6 2 JP16 MCKI-SEL 4 8 5 DIR GND EXT 10pin JP13 LRCK-SEL JP12 BICK-PHASE DIR ADC 10pin JP11 BICK-SEL Figure 9.Setting of jumper pins with External Slave Mode (Note 2) Note 2.JP12 (BICK-PHASE) is jumper which decides polarity of BICK, “THR” or “INV” should be selected according to the Audio I/F format. <KM104703> 2011/08 -6- [AKD4955-A] (3-2) Setting with External Master Mode Registers of the AK4955 should be set to “External Master Mode”. SW4 (M/S) should be set to “OFF (L)”. AK4955 DSP or μP MCKO 256fs, 512fs or 1024fs MCKI MCLK 32fs or 64fs BICK BCLK 1fs LRCK LRCK SDTO SDTI SDTI SDTO Figure 10.External Master Mode PORT3 (DSP) is used. Nothing should be connected to PORT1 (TORX) and PORT2 (TOTX). MCLK and SDTI are input from PORT3 (DSP) and BICK, LRCK and SDTO of the AK4955 is output to the PORT3 (DSP). JP14 MCKIO MCKO 2 MCKI 6 10pin DIR 4040 INV 10pin DIR 4040-32fs 4040-64fs 5 THR 5 4 8 JP15 SDTI-SEL 5 6 2 JP16 MCKI-SEL 4 8 5 DIR GND EXT 10pin JP13 LRCK-SEL JP12 BICK-PHASE DIR ADC 10pin JP11 BICK-SEL Figure 11.Setting of jumper pins with External Master Mode <KM104703> 2011/08 -7- [AKD4955-A] (3-3) Setting with PLL Slave Mode A reference clock of PLL is selected among the input clocks supplied to MCKI pin. The required clock to the AK4955 is generated by an internal PLL circuit. SW4 (M/S) should be set to “ON (H)”. (a) PLL Reference Clock: MCKI pin Registers of the AK4955 should be set to “PLL Slave Mode” (Reference Clock: MCKI pin). BICK and LRCK inputs should be synchronized with MCKO output. However the phase between MCKO and LRCK dose not matter. 11.2896MHz, 12MHz, 13.5MHz 24MHz, 25MHz, 27MHz AK4955 DSP or μP MCKI MCKO 256fs/128fs/64fs/32fs ≥ 32fs BICK BCLK 1fs LRCK MCLK LRCK SDTO SDTI SDTI SDTO Figure 12.PLL Slave Mode 1 (PLL Reference Clock: MCKI pin) J10 (EXT) and PORT3 (DSP) are used (Note 3). Nothing should be connected to PORT1 (TORX) and PORT2 (TOTX). MCKI is input from J10 (EXT). BICK, LRCK and SDTI are input from PORT3 (DSP). MCKO and SDTO of the AK4955 is output to the PORT3 (DSP). JP14 MCKIO MCKO 2 MCKI 6 10pin DIR 4040 INV 10pin DIR 4040-32fs 4040-64fs 5 THR 5 4 8 JP15 SDTI-SEL 5 6 2 JP16 MCKI-SEL 4 8 JP18 EXT 5 DIR GND EXT 10pin JP13 LRCK-SEL JP12 BICK-PHASE DIR ADC 10pin JP11 BICK-SEL Figure 13.Setting of jumper pins with PLL Slave Mode (Note 4) Note 3.When a termination (51Ω) of J10 (EXT) is not used, JP18 (EXT) should be open. Note 4.JP12 (BICK-PHASE) is jumper which decides polarity of BICK, “THR” or “INV” should be selected according to the Audio I/F format. <KM104703> 2011/08 -8- [AKD4955-A] (b) PLL Reference Clock: BICK pin Registers of the AK4955 should be set to “PLL Slave Mode” (Reference Clock: BICK pin). AK4955 DSP or μP MCKO MCKI 32fs, 64fs BICK BCLK 1fs LRCK LRCK SDTO SDTI SDTI SDTO Figure 14.PLL Slave Mode 2 (PLL Reference Clock: BICK pin) PORT3 (DSP) is used. Nothing should be connected to PORT1 (TORX) and PORT2 (TOTX). BICK, LRCK and SDTI are input from PORT3 (DSP). SDTO of the AK4955 is output to the PORT3 (DSP). 5 2 6 6 10pin DIR 4040 INV 10pin DIR 4040-32fs 4040-64fs 5 THR 5 4 8 JP15 SDTI-SEL 2 JP16 MCKI-SEL 4 8 5 DIR GND EXT 10pin JP13 LRCK-SEL JP12 BICK-PHASE DIR ADC 10pin JP11 BICK-SEL Figure 15.Setting of jumper pins with PLL Slave Mode (Note 5) Note 5.JP12 (BICK-PHASE) is jumper which decides polarity of BICK, “THR” or “INV” should be selected according to the Audio I/F format. <KM104703> 2011/08 -9- [AKD4955-A] (3-4) Setting with PLL Master Mode The master clock is input from MCKI pin of J10 (EXT). An internal PLL circuit generates MCKO, BICK, and LRCK. In addition, registers of the AK4955 should be set to “PLL Master Mode”. SW4 (M/S) should be set to “ON (H)”. 11.2896MHz, 12MHz, 13.5MHz 24MHz, 25MHz, 27MHz DSP or μP AK4955 MCKI MCKO 256fs/128fs/64fs/32fs MCLK 32fs, 64fs BICK BCLK 1fs LRCK LRCK SDTO SDTI SDTI SDTO Figure 16.PLL Master Mode J10 (EXT) and PORT3 (DSP) are used (Note 6). Nothing should be connected to PORT1 (TORX) and PORT2 (TOTX). MCKI is input from J10 (EXT) and SDTI is input from PORT3 (DSP). BICK, LRCK, MCKO and SDTO of the AK4955 are output to the PORT3 (DSP). JP14 MCKIO MCKO 2 MCKI 6 10pin DIR 4040 INV 10pin DIR 4040-32fs 4040-64fs 5 THR 5 4 8 JP15 SDTI-SEL 5 6 2 JP16 MCKI-SEL 4 8 JP18 EXT 5 DIR GND EXT 10pin JP13 LRCK-SEL JP12 BICK-PHASE DIR ADC 10pin JP11 BICK-SEL Figure 17.Setting of jumper pins with PLL Slave Mode Note 6.When a termination (51Ω) of J10 (EXT) is not used, JP18 (EXT) should be open. <KM104703> 2011/08 - 10 - [AKD4955-A] (4) Evaluation of external Loop-back (A/D -> D/A). (4-1) Setting with External Slave Mode. J10 (EXT) is used (Note 7). Nothing should be connected to PORT1 (TORX), PORT2 (TOTX) and PORT3 (DSP). MCKI is input from J10 (EXT). BICK and LRCK are generated by on-board divider. SDTI is connected to SDTO of the AK4955 as loopback. In addition, registers of the AK4955 should be set to “External Slave Mode”. SW4 (M/S) should be set to “ON (H)”. 2 4 8 JP17 4040-SEL 5 JP18 EXT MCKO 6 JP16 MCKI-SEL MCKI 5 2 6 10pin DIR 4040 INV 10pin DIR 4040-32fs 4040-64fs 5 THR 5 4 8 JP15 SDTI-SEL DIR GND EXT 10pin JP13 LRCK-SEL JP12 BICK-PHASE DIR ADC 10pin JP11 BICK-SEL Figure 18.Setting of jumper pins with External Slave Mode (Note 8, Note 9) Note 7.When a termination (51Ω) of J10 (EXT) is not used, JP18 (EXT) should be open. Note 8.JP12 (BICK-PHASE) is jumper which decides polarity of BICK, “THR” or “INV” should be selected according to the Audio I/F format. Note 9.When BICK of 32fs is used, JP11 (BICK-SEL) should be set to “4040-32fs” side. (4-2) Setting with External Master Mode. J10 (EXT) is used (Note 10). Nothing should be connected to PORT1 (TORX), PORT2 (TOTX) and PORT3 (DSP). MCKI is input from J10 (EXT), SDTI is connected to SDTO of the AK4955 as loopback. In addition, registers of the AK4955 should be set to “External Master Mode”. SW4 (M/S) should be set to “OFF (L)”. 2 4 8 JP17 4040-SEL 5 JP18 EXT MCKO 6 JP16 MCKI-SEL MCKI 5 2 6 10pin DIR 4040 INV 10pin DIR 4040-32fs 4040-64fs 5 THR 5 4 8 JP15 SDTI-SEL DIR GND EXT 10pin JP13 LRCK-SEL JP12 BICK-PHASE DIR ADC 10pin JP11 BICK-SEL Figure 19.Setting of jumper pins with External Master Mode Note 10.When a termination (51Ω) of J10 (EXT) is not used, JP18 (EXT) should be open. <KM104703> 2011/08 - 11 - [AKD4955-A] (4-3) Setting with PLL Slave Mode. SW4 (M/S) should be set to “ON (H)”. (a) PLL Reference Clock: MCKI pin J10 (EXT) is used (Note 11). Nothing should be connected to PORT1 (TORX), PORT2 (TOTX) and PORT3 (DSP). MCKI is input from J10 (EXT). BICK and LRCK are generated by using on-board divider and MCKO of the AK4955. SDTI is connected to SDTO of the AK4955 as loopback. In addition, registers of the AK4955 should be set to “PLL Slave Mode” (Reference Clock: MCKI pin). 4 8 JP17 4040-SEL 5 JP18 EXT MCKO 10pin DIR 4040 2 JP16 MCKI-SEL MCKI 5 2 6 6 INV 10pin DIR 4040-32fs 4040-64fs 5 THR 5 4 8 JP15 SDTI-SEL DIR GND EXT 10pin JP13 LRCK-SEL JP12 BICK-PHASE DIR ADC 10pin JP11 BICK-SEL Figure 20.Setting of jumper pins with PLL Slave Mode (Note 12, Note 13) Note 11.When a termination (51Ω) of J10 (EXT) is not used, JP18 (EXT) should be open. Note 12.JP12 (BICK-PHASE) is jumper which decides polarity of BICK, “THR” or “INV” should be selected according to the Audio I/F format. Note 13.When BICK of 32fs is used, JP11 (BICK-SEL) should be set to “4040-32fs” side. (b) PLL Reference Clock: BICK pin PORT3 (DSP) is used. Nothing should be connected to PORT1 (TORX), PORT2 (TOTX) and J10 (EXT). BICK and LRCK are generated by on-board divider which used MCLK from PORT3 (DSP). SDTI is connected to SDTO of the AK4955 as loopback. In addition, registers of the AK4955 should be set to “PLL Slave Mode” (Reference Clock: BICKI pin). 5 6 2 JP16 MCKI-SEL 4 8 JP17 4040-SEL 5 MCKO MCKO 2 MCKI 6 10pin DIR 4040 INV 10pin DIR 4040-32fs 4040-64fs 5 THR 5 4 8 JP15 SDTI-SEL MCKI JP14 MCKIO DIR GND EXT 10pin JP13 LRCK-SEL JP12 BICK-PHASE DIR ADC 10pin JP11 BICK-SEL Figure 21.Setting of jumper pins with PLL Slave Mode (Note 14, Note 15) Note 14.JP12 (BICK-PHASE) is jumper which decides polarity of BICK, “THR” or “INV” should be selected according to the Audio I/F format. Note 15.When BICK of 32fs is used, JP11(BICK-SEL) should be set to “4040-32fs” side. <KM104703> 2011/08 - 12 - [AKD4955-A] (4-4) Setting with PLL Master Mode. J10 (EXT) is used (Note 16). Nothing should be connected to PORT1 (TORX), PORT2 (TOTX) and PORT3 (DSP). MCKI is input from J10 (EXT), SDTI is connected to SDTO of the AK4955 as loopback. SW4 (M/S) should be set to “OFF (L)”. 4 8 JP17 4040-SEL 5 JP18 EXT MCKO 2 JP16 MCKI-SEL MCKI 5 2 6 6 10pin DIR 4040 INV 10pin DIR 4040-32fs 4040-64fs 5 THR 5 4 8 JP15 SDTI-SEL DIR GND EXT 10pin JP13 LRCK-SEL JP12 BICK-PHASE DIR ADC 10pin JP11 BICK-SEL Figure 22.Setting of jumper pins with PLL Master Mode Note 16.When a termination (51Ω) of J10 (EXT) is not used, JP18 (EXT) should be open. <KM104703> 2011/08 - 13 - [AKD4955-A] 3) Jumper pins and SW Setting. (1) Setting of other jumper pins. [JP6 (LIN-SEL)]: The selection of input signal to LIN1 pin and LIN2 pin. L1-mini : Input signal of LIN1 pin is supplied from J1 (AIN). < Default > L1-BNC : Input signal of LIN1 pin is supplied from J3 (LIN). L2-mini : Input signal of LIN2 pin is supplied from J1 (AIN). L2-BNC : Input signal of LIN2 pin is supplied from J3 (LIN). < Default > [JP7 (RIN-SEL)]: The selection of input signal to RIN1 pin and RIN2 pin. R1-mini : Input signal of RIN1 pin is supplied from J1 (AIN). < Default > R1-BNC : Input signal of RIN1 pin is supplied from J5 (RIN). R2-mini : Input signal of RIN2 pin is supplied from J1 (AIN). R2-BNC : Input signal of RIN2 pin is supplied from J5 (RIN). < Default > [JP8 (MIN-SEL)]: The selection of input mode of MIN pin. EXT : “External Resistance Mode”. INT : “Internal Resistance Mode”. < Default > [JP9 (SPK-GND)]: The selection of condition for GND of J9 (SPK-OUT) connector. Short : Connect to GND. < Default > Open : None connect to GND. [JP19 (GND)]: Analog ground and Digital ground Short : Common. (The connector “DGND” can be open.) < Default > Open : Separated. [JP28 (CTRL-SEL)]: The selection of Serial Control I/F. USB : Use U10 (USB) connector. < Default > 10pin : Use PORT4 (10pin-CTRL). [JP29 (PIC)]: Not to Use. [JP100 (MPWR-SEL)]:The selection of MIC-power. OPEN : MIC-power is not supplied. < Default > SHORT : MIC-power is supplied. [JP101 (RIN1-SEL)]:The selection of input signal to RIN1 pin. RIN1 : Connect to analog signal from JP7 (RIN-SEL). < Default > DMCLK : Connect to digital microphone clock supply input. [JP102 (LIN1-SEL)]:The selection of input signal to LIN1 pin. LIN1 : Connect to analog signal from JP6 (LIN-SEL). < Default > DMDAT : Connect to digital microphone data input. [JP103 (CDTIO/CAD0)]:The selection of input signal to CDTIO/CAD0 pin. CDTIO : When I2C pin = “L”, CDTIO is selected. < Default > CAD0 : When I2C pin = “H”, CAD0 is selected. [JP104 (CSN/SDA)]:The selection of input signal to CSN/SDA pin. CSN : When I2C pin = “L”, CSN is selected. < Default > SDA : When I2C pin = “H”, SDA is selected. <KM104703> 2011/08 - 14 - [AKD4955-A] (2) Setting of SW. Upper-side is “ON(H)” and lower-side is “OFF(L)”. [SW1] (SW DIP-4): Mode setting for AK4118A. No. Name 1 2 3 4 DIF2 DIF1 DIF0 OCKS1 ON (“H”) OFF (“L”) Default ON OFF OFF OFF See Table 4 See Table 5 Table 3.Mode setting for AK4118A Mode DIF2 DIF1 DIF0 DAUX SDTO 0 1 2 3 4 5 L L L L H H L L H H L L L H L H L H 24bit, Left justified 24bit, Left justified 24bit, Left justified 24bit, Left justified 24bit, Left justified 24bit, I2S 16bit, Right justified 18bit, Right justified 20bit, Right justified 24bit, Right justified 24bit, Left justified 24bit, I2S LRCK I/O H/L O H/L O H/L O H/L O H/L O L/H O 6 H H L 24bit, Left justified 24bit, Left justified H/L I 7 H H H 24bit, I2S 24bit, I2S L/H I BICK I/O 64fs O 64fs O 64fs O 64fs O 64fs O 64fs O 64 I -128fs 64 I -128fs Default Table 4.Audio I/F Format Setting for AK4118A OCKS1 L H MCKO1 256fs 512fs Default Table 5.Master Clock setting for AK4118A [SW4] (SW DIP-3): Mode setting for AK4955. No. Name ON (“H”) OFF (“L”) Default 1 I2C I2C Bus 3-Wire Serial OFF 2 CAD0 CAD0 pin = “1” CAD0 pin = “0” OFF 3 M/S When the AK4955 is in “Slave Mode”. When the AK4955 is in “Master Mode”. ON Table 6.Mode setting for AK4955 <KM104703> 2011/08 - 15 - [AKD4955-A] 4) Power on. Upper-side is “H” and lower-side is “L”. [SW2] (DIO-PDN) : Resets the AK4118A. Keep “H” during normal operation. The AK4118A should be resets once bringing “L” upon power-up. [SW3] (PDN) : Resets the AK4955. Keep “H” during normal operation. The AK4955 should be resets once bringing “L” upon power-up. Indication for LED [LED1] (INT0) : Monitor INT0 pin of the AK4118A. LED turns on when some error has occurred to AK4118A. Control Port It is possible to control AKD4955-A via general USB port. Connect cable with the U10 (USB) on board and PC. Control software is packed with this board. The software operation sequence is included in the evaluation board manual. <KM104703> 2011/08 - 16 - [AKD4955-A] ■ Analog Input / Output Circuits 1) Input circuit (1-1) MIC/LINE1, 2 input circuit (except for Digital-MIC circuit). MPWR 2.2k 2.2k 2.2k 2.2k MPWR 5 mini-Rch 2 1 mini-Lch RIN2 LIN2 RIN1 LIN1 J1 AIN 2 3 4 5 J3 LIN 1 L1-mini L1-BNC L2-mini L2-BNC BNC-Lch JP100 MPWR-SEL JP6 LIN1 1u LIN2 LIN-SEL 2 3 4 5 J5 RIN 1 R1-mini R1-BNC R2-mini R2-BNC BNC-Rch 1u JP7 RIN1 1u RIN2 RIN-SEL 1u Figure 23.Circuit diagram of MIC/LIN1, 2 input The MIC/LINE1, 2 inputs are shared with J1, J3 and J5. Please select the input to be used with JP6 (LIN-SEL) and JP7 (RIN-SEL). (1-2) Video input circuit. VIN 2 3 4 5 J2 1 VIN 75 0.1u Figure 24.Circuit diagram of Video input (1-3) Monaural input circuit. 1 MIN 1u 33k + 2 3 4 5 J8 MIN 33k EXT INT JP8 MIN MIN-SEL Figure 25.Circuit diagram of Monaural input <KM104703> 2011/08 - 17 - [AKD4955-A] 2) Output circuit + (2-1) LINE output circuit. 1 LOUT 20k 1 ROUT 1u 20k 2 3 4 5 220 + 1u J6 LOUT J7 ROUT 2 3 4 5 220 Figure 26.Circuit diagram of LINE output (2-2) Video output circuit. 1 VOUT J4 VOUT 75 2 3 4 5 Figure 27.Circuit diagram of Video output (2-3) Speaker output circuit. 5 SPN 16 16 (open) J9 SPK-OUT 2 1 JP9 SPK-GND SPP (open) Figure 28.Circuit diagram of Speaker output <KM104703> 2011/08 - 18 - [AKD4955-A] Control Soft Manual ■ Evaluation Board and Control Soft Settings 1. Set an evaluation board properly. 2. Connect a PC and an evaluation board. 3. The USB control is recognized as HID (Human Interface Device) on the PC. It is not necessary to install a new driver. 4. Start up the control program. (Note 17) Note 17.The AK4955 should be reset by the PDN pin after the power supplies are applied. After that, “Dummy Command” should be executed. 5. Proceed evaluation by following the process below. Figure 29.Window of Control Soft <KM104703> 2011/08 - 19 - [AKD4955-A] ■ Operation Overview Function, register map and testing tool can be controlled by this control soft. These controls are selected by upper tabs. Buttons which are frequently used such as register initializing button “Write Default”, are located outside of the switching tab window. Refer to the “■ Dialog Boxes” for details of each dialog box setting. 1. [Port Reset]: Click this button after the control soft starts up. 2. [Write Default]: Initializes Registers When the device is reset by a hardware reset, use this button to initialize the registers. 3. [All Write]: Executes write commands for all registers displayed. 4. [All Read]: Executes read commands for all registers displayed. 5. [Save]: Saves current register settings to a file. 6. [Load]: Executes data write from a saved file. 7. [All Req Write]: Opens “All Req Write” dialog box. 8. [Data R/W]: Opens “Data R/W” dialog box 9. [Sequence]: Opens “Sequence” dialog box. 10. [Sequence(File)]: Opens “Sequence(File)” dialog box. 11. [Read]: Reads current register settings and displays on to the register area (on the right of the main window). This is different from [All Read] button, it does not reflect to a register map, only displaying register settings in hexadecimal. 12. [READ:Disable/Enable]: The register setting of [READ]. READ: Read function enable. 0: Disable < Default > 1: Enable 13. [Dummy Command]: The dummy command is written (Note 18). Note 18. The AK4955 should be reset by the PDN pin after the power supplies are applied. After that, “Dummy Command” should be executed. <KM104703> 2011/08 - 20 - [AKD4955-A] ■ Tab Functions 1. [Function]: Function control This tab is for function. Each operation is executed by [Function] buttons on the left side of the screen (Note 19, Note 20). Note 19. Please refer to the following setting when you use the “Function” function. Mode= “External Slave Mode”, fs= “7.35kHz~48kHz”, Audio I/F Format= “24bit MSB justified” Note 20. The AK4955 should be reset by the PDN pin after the power supplies are applied. After that, “Dummy Command” should be executed. Figure 30.Window of [Function] <KM104703> 2011/08 - 21 - [AKD4955-A] 2. [REG]: Register Map This tab is for a register writing and reading. Each bit on the register map is a push-button switch. Button Down indicates “H” or “1” and the bit name is in red (when read only it is in deep red). Button Up indicates “L” or “0” and the bit name is in blue (when read only it is in gray). Gray-out registers are Read only registers. They can not be controlled. The registers which is not defined in the datasheet are indicated as “---”. Figure 31.Window of [REG] <KM104703> 2011/08 - 22 - [AKD4955-A] 2-1. [Write]: Data Writing Dialog It is for when changing two or more bits on the same address at the same time. Click [Write] button located on the right of the each corresponded address for a pop-up dialog box. When the checkbox is checked, the data will be “H” or “1”. When the checkbox is not checked, the data will be “L” or “0”. Click [OK] to write setting values to the registers, or click [Cancel] to cancel this setting. Figure 32.Window of [Register Set] 2-2. [Read]: Data Read Click [Read] button located on the right of the each corresponded address to execute a register read. After register reading, the display will be updated regarding to the register status. Button Down indicates “H” or “1” and the bit name is in red (when read only it is in deep red). Button Up indicates “L” or “0” and the bit name is in blue (when read only it is in gray). Please be aware that button statuses will be changed by a Read command. <KM104703> 2011/08 - 23 - [AKD4955-A] 3. [Tool]: Testing Tools Evaluation testing tools are available in this tab. Click buttons for each testing tool. Figure 33.Window of [Tool] <KM104703> 2011/08 - 24 - [AKD4955-A] 3-1. [Repeat Test]: Repeat Test Dialog Click [Repeat Test] button in the Test tab to open a repeat test dialog shown below. Repeat writing test can be executed by this dialog. Figure 34.Window of [Repeat Test] [Start] Button : Starts the repeat test. A dialog for saving a file of the test result will open when clicking this button. Name the file. Test will start after specifying a saving file. [Close] Button : Closes this dialog and finishes the process. [Address] Box : Data writing address in hexadecimal numbers. [Start Data] Box : Start data in hexadecimal numbers. [End Data] Box : End data in hexadecimal numbers. [Step] Box : Data write step interval. [Repeat Count] Box : Repeat count of the test writing. [Up and Down] Box : Data write flow is changed as below. • Checked [Example] Data flow : Writes in step interval from the start data to the end data and turn back from the end data to the start data. Start Data = 00, End Data = 05, Step = 1, [ ]…for 1 count. : [00→01→02→03→04→05→05→04→03→02→01→00] x Repeat Count Number • Not checked : Writes in step interval from the start data to the end data and finishes writing. [Example] Start Data = 00, End Data = 05, Step = 1, [ ]…for 1 count. Data flow : [00→01→02→03→04→05] x Repeat Count Number [Sampling Frequency] Box : Selects sampling frequency 44.1 kHz/48 kHz [Count] Box : Indicates the count number during a repeat test. [Lch Level] Box : Indicates the Lch Level during a repeat test. <KM104703> 2011/08 - 25 - [AKD4955-A] 3-2. [Loop Setting]: Loop Dialog Click [Loop Setting] button in the Tool tab to open loop setting dialog as shown below. Writing test can be executed. Figure 35.Window of [Loop] [OK] Button [Cancel] Button [Address] Box [Start Data] Box [End Data] Box [Interval] Box [Step] Box [Mode Select] Box • Checked : Starts the test. : Closes the dialog and finishes the process. : Data writing address in hexadecimal numbers. : Start data in hexadecimal numbers. : End data in hexadecimal numbers. : Data write interval time. : Data write step interval. : Mode select check box. [Example] Data flow : Writes in step interval from the start data to the end data and turn back from the end data to the start data. Start Data = 00, End Data = 05, Step = 1 : 00→01→02→03→04→05→05→04→03→02→01→00 • Not Checked [Example] Data flow : Writes in step interval from the start data to the end data and finishes writing. Start Data = 00, End Data = 05, Step = 1 : 00→01→02→03→04→05 <KM104703> 2011/08 - 26 - [AKD4955-A] ■ Dialog Boxes 1. [All Req Write]: All Reg Write dialog box Click [All Reg Write] button in the main window to open register setting files. Register setting files saved by [SAVE] button can be applied. Figure 36.Window of [All Reg Write] [Open (left)] : Selects a register setting file (*.akr). [Write] : Executes register writing by the setting of selected file. [Write All] : Executes all register writings. Selected files are executed in descending order. [Help] : Opens a help window. [Save] : Saves a register setting file assignment. The file name is “*.mar”. [Open (right)]: Opens a saved register setting file assignment “*. mar”. [Close] : Closes the dialog box and finish the process. ~ Operating Suggestions ~ 1. 2. Those files saved by [Save] button and opened by [Open] button on the right of the dialog “*.mar” should be stored in the same folder. When register settings are changed by [Save] button in the main window, re-read the file to reflect new register settings. <KM104703> 2011/08 - 27 - [AKD4955-A] 2. [Data R/W]: Data R/W Dialog Box Click the [Data R/W] button in the main window for data read/write dialog box. Data write is available to specified address. Figure 37.Window of [Data R/W] [Address] Box : Input data address in hexadecimal numbers for data writing. [Data] Box : Input data in hexadecimal numbers. [Mask] Box : Input masks data in hexadecimal numbers. This is “AND” processed input data. [Write] : Writs the data generated from Data and Mask values to the address specified by “Address” box (Note 21). [Read] : Reads data from the address specified by “Address” box (Note 21). The result will be shown in the Read Data Box in hexadecimal numbers. [Close] : Closes the dialog box and finishes the process. Data writing can be cancelled by this button instead of executing a write command. Note 21.The register map will be updated after executing [Write] or [Read] commands. <KM104703> 2011/08 - 28 - [AKD4955-A] 3. [Sequence]: Sequence Dialog Box Click [Sequence] button to open register sequence setting dialog box. Register sequence can be set in this dialog box. Figure 38.Window of [Sequence] ~ Sequence Setting ~ Set register sequence by following process bellow. 1. Select a command Use [Select] pull-down box to choose commands. Corresponding boxes will be valid. < Select Pull-down menu > · No_use: Not using this address · Register: Register writing · Reg(Mask): Register writing (Masked) · Interval: Taking an interval · Stop: Pausing the sequence · End: Finishing the sequence <KM104703> 2011/08 - 29 - [AKD4955-A] 2. Input sequence [Address] : Data address [Data] : Writing data [Mask] : Mask [Data] box data is ANDed with [Mask] box data. This is the actual writing data. When Mask = 0x00, current setting is hold. When Mask = 0xFF, the 8bit data which is set in the [Data] box is written. When Mask =0x0F, lower 4bit data which is set in the [Data] box is written. Upper 4bit is hold to current setting. [Interval] : Interval time Valid boxes for each process command are shown bellow. · No_use · Register · Reg(Mask) · Interval · Stop · End : None : [Address], [Data], [Interval] : [Address], [Data], [Mask], [Interval] : [Interval] : None : None ~ Control Buttons~ The function of Control Button is shown bellow. [Start] [Help] [Save] [Open] [Close] : Executes the sequence : Opens a help window : Saves sequence settings as a file. The file name is “*.aks”. : Opens a sequence setting file “*.aks”. : Closes the dialog box and finishes the process. ~ Stop of the sequence~ When “Stop” is selected in the sequence, the process is paused and it starts again when [Start] button is clicked Restarting step number is shown in the “Start Step” box. When finishing the process at the end of sequence, “Start Step” will return to “1”. The sequence can be started from any step by writing the step number to the “Start Step” box. Write “1” to the “Start Step” box and click [Start] button, when restarting the process from the beginning. <KM104703> 2011/08 - 30 - [AKD4955-A] 4. [Sequence(File)]: Sequence Setting File Dialog Box Click [Sequence(File)] button to open sequence setting file dialog box. Those files saved in the “Sequence setting dialog” can be applied in this dialog. Figure 39.Window of [Sequence(File)] [Open (left)] [Start] [Start All] [Help] [Save] [Open(right)] [Close] : Opens a sequence setting file (*.aks). : Executes the sequence by the setting of selected file. : Executing all sequence settings. Selected files are executed in descending order. : Opens a help window. : Saves a sequence setting file assignment. The file name is “*.mas”. : Opens a saved sequence setting file assignment “*. mas”. : Closes the dialog box and finishes the process. ~ Operating Suggestions ~ 1. Those files saved by [Save] button and opened by [Open] button on the right of the dialog “*.mas” should be stored in the same folder. 2. When “Stop” is selected in the sequence the process will be paused and a pop-up message will appear. Click “OK” to continue the process. Figure 40.Window of [Sequence Pause] <KM104703> 2011/08 - 31 - [AKD4955-A] 5. [Power Management Setting]: Power Management Setting Dialog Box When [Power Management Setting] button is clicked, the window as shown in Figure 41 opens. Refer to the datasheet for register settings of the AK4955. Figure 41.Window of [Power Management Setting] <KM104703> 2011/08 - 32 - [AKD4955-A] 6. [Audio Mode Setting]: Audio Mode Setting Dialog Box When [Audio Mode Setting] button is clicked, the window as shown in Figure 42 opens. Refer to the datasheet for register settings of the AK4955. Figure 42.Window of [Audio Mode Setting] <KM104703> 2011/08 - 33 - [AKD4955-A] 7. [PLL Setting]: PLL Setting Dialog Box When [PLL Setting] button is clicked, the window as shown in Figure 43 opens. Refer to the datasheet for register settings of the AK4955. Figure 43.Window of [PLL Setting] <KM104703> 2011/08 - 34 - [AKD4955-A] 8. [ALC Setting]: ALC Setting Dialog Box When [ALC Setting] button is clicked, the window as shown in Figure 44 opens. Refer to the datasheet for register settings of the AK4955. Figure 44.Window of [ALC Setting] [VOL Read]: When the button is pushed, reading “VOL” register is executed. Gain: Current volume is displayed in 1.5dB step based on the reading result of the VOL register value. Data: The VOL register value is displayed. (HEX) <KM104703> 2011/08 - 35 - [AKD4955-A] 9. [Volume Setting]: Volume Setting Dialog Box When [Volume Setting] button is clicked, the window as shown in Figure 45 opens. Refer to the datasheet for register settings of the AK4955. Figure 45.Window of [Volume Setting] <KM104703> 2011/08 - 36 - [AKD4955-A] Volume Control by Slider Menu The volume can also be changed by writing a value in a dialog box. The slide bar is moved to the value that written in the dialog box. The up and down arrow keys to mouse or keyboard to adjust the settings. Slide bar is moved to the selected value The possible values are automatically selected. Figure 46.Volume Slider <KM104703> 2011/08 - 37 - [AKD4955-A] 10. [Video Setting]: Video Setting Dialog Box When [Video Setting] button is clicked, the window as shown in Figure 47 opens. Refer to the datasheet for register settings of the AK4955. Figure 47.Window of [Video Setting] <KM104703> 2011/08 - 38 - [AKD4955-A] 11. [BEEP Setting]: BEEP Setting Dialog Box When [BEEP Setting] button is clicked, the window as shown in Figure 48 opens. Refer to the datasheet for register settings of the AK4955. Figure 48.Window of [BEEP Setting] <KM104703> 2011/08 - 39 - [AKD4955-A] 12. [DSP Setting]: DSP Setting Dialog Box When [DSP Setting] button is clicked, the window as shown in Figure 49 opens. Refer to the datasheet for register settings of the AK4955. Figure 49.Window of [DSP Setting] <KM104703> 2011/08 - 40 - [AKD4955-A] 13. [Digital Filter]: Filter Setting Dialog Box When [Digital Filter] button is clicked, the window as shown in Figure 50 opens. Refer to the datasheet for register settings of the AK4955. Figure 50.Window of [Filter Setting] [F Response] [Write] [Register Setting] [Close] : The filter characteristic dialog is displayed. : The calculation of all filters and writing the coefficient are executed. : “Register Setting for Filter” dialog box is popped up. : Closing the dialog box and finish the process. <KM104703> 2011/08 - 41 - [AKD4955-A] 13-1. Parameter Setting (1) Please set a parameter of each Filter. Parameter Function Sampling Rate Sampling frequency (fs) HPF Cut Off Frequency High pass filter cut off frequency LPF Cut Off Frequency Low pass filter cut off frequency FIL3 Cut Off Frequency FIL3 cut off frequency Filter type Gain EQ0 Pole Frequency EQ0 Pole Frequency Zero-point Frequency EQ0 Zero-point Frequency Gain Gain2 5 Band Equalizer EQ1-5 Center Frequency EQ1-5 Band Width EQ1-5 Gain Gain Gain2 Setting Range 7350Hz ≤ fs ≤ 48000Hz fs/10000 ≤ Cut Off Frequency ≤ (0.497 * fs) fs/20 ≤ Cut Off Frequency ≤ (0.497 * fs) fs/10000 ≤ Cut Off Frequency ≤ (0.497 * fs) LPF or HPF -10 ≤ Gain < 0 dB The selection of filter type Gain EQ1-5 Center Frequency EQ1-5 Band Width EQ1-5 Gain fs/10000 ≤ Cut Off Frequency ≤ (0.497 * fs) fs/10000 ≤ Cut Off Frequency ≤ (0.497 * fs) -20 ≤ Gain < +12 dB 0 / +12 / +24 dB (Note 22) (Note 23) 0Hz ≤ Center Frequency < (0.497 * fs) 1Hz ≤ Band Width < (0.497 * fs) -1 ≤ Gain < 3 Table 7.Parameter setting of [Filter Setting] Note 22.A gain difference is a bandwidth of 3dB from center frequency. Note 23.When a gain is “-1”, EQ becomes a notch filter. (2) “LPF Enable”, “HPF Enable”, “HPFAD Enable”, “FIL3 Enable”, “EQ0 Enable”, “EQ1”, “EQ2”, “EQ3”, “EQ4”, “EQ5” Please set ON/OFF of Filter with a check button. When checked it, Filter becomes ON. When “Notch Filter Auto Correction” is checked, perform automatic correction of the center frequency of the notch filter is executed. Figure 51.Filter ON/OFF setting button <KM104703> 2011/08 - 42 - [AKD4955-A] 13-2. [Register Setting]: Register Setting for Filter Dialog Box A register set value is displayed when push a [Register Setting] button. When a value out of a setting range is set, error message is displayed, and a calculation of register setting is not carried out. Figure 52.A register setting calculation result Followings are the cases when a register set value is updated. (1) When [Register Setting] button was pushed. (2) When [Frequency Response] button was pushed. (3) When [UpDate] button was pushed on a frequency characteristic indication window. (4) When set ON/OFF of a check button “Notch Filter Auto Correction” <KM104703> 2011/08 - 43 - [AKD4955-A] 13-3. [F Response]: Filter Plot Dialog Box A frequency characteristic is displayed when push a [F Response] button. Then, a register set point is also updated. Change Frequency Range, and indication of a frequency characteristic is updated when push a [UpDate] button. Figure 53.Window of [F Response] [Frequency Range] [Update] [Gain/Phase] [Log View] [Close] : The width of the frequency display is specified. : It draws in the graph again. : Switch of “Gain/Phase” display. : Switch of “Linear/Log” display. : Closing the dialog box and finish the process. ~ Adjustment of vertical range ~ [Y-axis Ref] : Display setting of center value. [Vertical slider] : Movement of vertical display. [Horizontal slider] : Adjustment of the horizontal display. (The left side reduces, and the right side expands. ) <KM104703> 2011/08 - 44 - [AKD4955-A] 13-4. 5-BandEQ operation on Filter Plot screen When EQ (1~5) is turning on, a green number is displayed on the Filter Plot dialog box. This number shows the setting of the center frequency and the gain of each EQ. The number under the display is operated with the mouse, and it is possible to set the filter characteristic on this screen. The center frequency and the gain setting are changed by moving the mouse while left-clicking. The setting of the bandwidth is changed by moving the mouse while right-clicking. After operating the mouse The value of the center frequency and the gain is updated. The number is selected. The movement operation is done while left-clicking. Figure 54.Filter Setting (Left-clicking operation) After operating the mouse The value of the bandwidth is updated. Figure 55.Filter Setting (Right-clicking operation) <KM104703> 2011/08 - 45 - [AKD4955-A] 13-5. Simulation of Fil3 Filter Setting of Stereo-MIC [L-ch Level]/[R-ch Level] : The level of the MIC input is input. [Distance] : The distance between the sound source and the MIC is set. [Angle] : The angle between the sound source and the MIC is set. Figure 56.Simulation of Fil3 Filter <KM104703> 2011/08 - 46 - [AKD4955-A] 13-6. about “Notch Auto Correct” If the gain of 5-Band EQ is set to “-1”, Equalizer becomes a notch filter. When the center frequency of two or more notch filters is adjacent, the gap is generated in the center frequency. When “Notch Auto Correct” button is checked, the center frequency of the notch filter is automatically corrected. The gain setting of the automatic correction function is effective and only EQ of “-1” is effective. (Note 24) Note 24.There is a possibility that the automatic compensation is not correctly done when the width of the center frequency is smaller than that of the bandwidth setting. Setting of center frequency: 4400Hz, 5000Hz, 5400Hz / Bandwidth: 200Hz (EQ2~4) Figure 57. “Notch Auto Correct” function is “OFF” Setting of center frequency: 4400Hz, 5000Hz, 5400Hz / Bandwidth: 200Hz (EQ2~4) Figure 58. “Notch Auto Correct” function is “ON” <KM104703> 2011/08 - 47 - [AKD4955-A] Measurement Result [Measurement condition] • Measurement Unit • MCLK • BICK • fs • Bit • Power Supply • Band Width • Measurement Mode • Temperature : Audio Precession System Two Cascade : 12.2880MHz : 64fs : 48 kHz : 24bit : AVDD = LVDD = SVDD = 3.3V, DVDD = TVDD = 1.8V : 20 Hz ~ 20 kHz : External Slave Mode : Room Temperature [Measurement Result] 1. ADC a). LIN1/RIN1 pins, MGAIN bits = “+18dB” Parameter Lch S/(N+D) (-1dBFS Input) D-Range (-60dB Input, A-weighted) S/N (No Signal, A-weighted) Result / Rch Unit 81.0 / 81.5 dB 88.8 / 88.7 dB 88.7 / 88.7 dB b). LIN2/RIN2 pins, MGAIN bits = “0dB” Parameter Lch S/(N+D) (-1dBFS Input) D-Range (-60dB Input, A-weighted) S/N (No Signal, A-weighted) Result / Rch Unit 81.7 / 82.2 dB 97.7 / 97.8 dB 98.0 / 97.8 dB 2. DAC a). LOUT/ROUT pins, LVCM bits = “01”, RL=10kΩ Parameter Lch S/(N+D) (-3dBFS Input) S/N (No Signal, A-weighted) b). SPP/SPN pins, SPKG bits = “01”, RL=8Ω Parameter S/(N+D) (-0.5dBFS Input) S/N (No Signal, A-weighted) <KM104703> Result / Rch Unit 87.5 / 87.6 dB 92.6 / 92.5 dB Result Unit 80.5 dB 96.7 dB 2011/08 - 48 - [AKD4955-A] PLOT DATA 1-a). ADC [LIN1/RIN1 pins, MGAIN = “+18dB”] AKM AK4955 S/(N+D) vs. Input Level [ ADC, LIN1/RIN1 ] AVDD=LVDD=SVDD=3.3V, DVDD=TVDD=1.8V, fs=48kHz, External Slave Mode, MGAIN="+18dB" -70 -72 -74 -76 -78 -80 -82 d B F S -84 -86 -88 -90 -92 -94 -96 -98 -100 -130 -120 -110 -100 -90 -80 -70 -60 -50 -40 -30 -20 -10 dBr Figure 59.S/(N+D) vs. Input Level AKM AK4955 S/(N+D) vs. Input Frequency [ ADC, LIN1/RIN1 ] AVDD=LVDD=SVDD=3.3V, DVDD=TVDD=1.8V, fs=48kHz, External Slave Mode, MGAIN="+18dB" -70 -72 -74 -76 -78 -80 -82 d B F S -84 -86 -88 -90 -92 -94 -96 -98 -100 20 50 100 200 500 1k 2k 5k 10k 20k Hz Figure 60.S/(N+D) vs. Input Frequency <KM104703> 2011/08 - 49 - [AKD4955-A] AKM AK4955 Linearity [ ADC, LIN1/RIN1 ] AVDD=LVDD=SVDD=3.3V, DVDD=TVDD=1.8V, fs=48kHz, External Slave Mode, MGAIN="+18dB" +0 T -10 -20 -30 -40 -50 d B F S -60 -70 -80 -90 -100 -110 -110 -100 -90 -80 -70 -60 -50 -40 -30 -20 -10 +0 dBr Figure 61.Linearity AKM AK4955 Frequency Response [ ADC, LIN1/RIN1 ] AVDD=LVDD=SVDD=3.3V, DVDD=TVDD=1.8V, fs=48kHz, External Slave Mode, MGAIN="+18dB" -0.5 -0.55 -0.6 -0.65 -0.7 -0.75 -0.8 -0.85 -0.9 d B F S -0.95 -1 -1.05 -1.1 -1.15 -1.2 -1.25 -1.3 -1.35 -1.4 -1.45 -1.5 20 50 100 200 500 1k 2k 5k 10k 20k Hz Figure 62.Frequency Response <KM104703> 2011/08 - 50 - [AKD4955-A] AKM AK4955 Crosstalk [ ADC, LIN1/RIN1 ] AVDD=LVDD=SVDD=3.3V, DVDD=TVDD=1.8V, fs=48kHz, External Slave Mode, MGAIN="+18dB" -70 TTTTTTTTTT TT TTTTTTTTT TT TT T TT T TT T T T T T TT T T TT TT TT -75 -80 -85 -90 -95 -100 d B -105 -110 -115 -120 -125 -130 -135 -140 20 50 100 200 500 1k 2k 5k 10k 20k 10k 20k Hz Figure 63.Crosstalk AKM AK4955 FFT (-1dBFS Input) [ ADC, LIN1/RIN1 ] AVDD=LVDD=SVDD=3.3V, DVDD=TVDD=1.8V, fs=48kHz, External Slave Mode, MGAIN="+18dB" +0 -10 -20 -30 -40 -50 -60 -70 d B F S -80 -90 -100 -110 -120 -130 -140 -150 -160 -170 -180 20 50 100 200 500 1k 2k 5k Hz Figure 64.FFT (-1dBFS Input) <KM104703> 2011/08 - 51 - [AKD4955-A] AKM AK4955 FFT (-60dBFS Input) [ ADC, LIN1/RIN1 ] AVDD=LVDD=SVDD=3.3V, DVDD=TVDD=1.8V, fs=48kHz, External Slave Mode, MGAIN="+18dB" +0 -10 -20 -30 -40 -50 -60 -70 d B F S -80 -90 -100 -110 -120 -130 -140 -150 -160 -170 -180 20 50 100 200 500 1k 2k 5k 10k 20k 10k 20k Hz Figure 65.FFT (-60dBFS Input) AKM AK4955 FFT (No Signal Input) [ ADC, LIN1/RIN1 ] AVDD=LVDD=SVDD=3.3V, DVDD=TVDD=1.8V, fs=48kHz, External Slave Mode, MGAIN="+18dB" +0 -10 -20 -30 -40 -50 -60 -70 d B F S -80 -90 -100 -110 -120 -130 -140 -150 -160 -170 -180 20 50 100 200 500 1k 2k 5k Hz Figure 66.FFT (No Signal Input) <KM104703> 2011/08 - 52 - [AKD4955-A] 1-b). ADC [LIN2/RIN2 pins, MGAIN = “0dB”] AKM AK4955 S/(N+D) vs. Input Level [ ADC, LIN2/RIN2 ] AVDD=LVDD=SVDD=3.3V, DVDD=TVDD=1.8V, fs=48kHz, External Slave Mode, MGAIN="+0dB" -70 -72 -74 -76 -78 -80 -82 d B F S -84 -86 -88 -90 -92 -94 -96 -98 -100 -130 -120 -110 -100 -90 -80 -70 -60 -50 -40 -30 -20 -10 dBr Figure 67.S/(N+D) vs. Input Level AKM AK4955 S/(N+D) vs. Input Frequency [ ADC, LIN2/RIN2 ] AVDD=LVDD=SVDD=3.3V, DVDD=TVDD=1.8V, fs=48kHz, External Slave Mode, MGAIN="+0dB" -70 -72 -74 -76 -78 -80 -82 d B F S -84 -86 -88 -90 -92 -94 -96 -98 -100 20 50 100 200 500 1k 2k 5k 10k 20k Hz Figure 68.S/(N+D) vs. Input Frequency <KM104703> 2011/08 - 53 - [AKD4955-A] AKM AK4955 Linearity [ ADC, LIN2/RIN2 ] AVDD=LVDD=SVDD=3.3V, DVDD=TVDD=1.8V, fs=48kHz, External Slave Mode, MGAIN="+0dB" +0 -10 -20 -30 -40 -50 d B F S -60 -70 -80 -90 -100 -110 -110 -100 -90 -80 -70 -60 -50 -40 -30 -20 -10 +0 dBr Figure 69.Linearity AKM AK4955 Frequency Response [ ADC, LIN2/RIN2 ] AVDD=LVDD=SVDD=3.3V, DVDD=TVDD=1.8V, fs=48kHz, External Slave Mode, MGAIN="+0dB" -0.5 -0.55 -0.6 -0.65 -0.7 -0.75 -0.8 -0.85 -0.9 d B F S -0.95 -1 -1.05 -1.1 -1.15 -1.2 -1.25 -1.3 -1.35 -1.4 -1.45 -1.5 20 50 100 200 500 1k 2k 5k 10k 20k Hz Figure 70.Frequency Response <KM104703> 2011/08 - 54 - [AKD4955-A] AKM AK4955 Crosstalk [ ADC, LIN2/RIN2 ] AVDD=LVDD=SVDD=3.3V, DVDD=TVDD=1.8V, fs=48kHz, External Slave Mode, MGAIN="+0dB" -70 T T T T TT T TT T -75 -80 -85 -90 -95 -100 d B -105 -110 -115 -120 -125 -130 -135 -140 20 50 100 200 500 1k 2k 5k 10k 20k 10k 20k Hz Figure 71.Crosstalk AKM AK4955 FFT (-1dBFS Input) [ ADC, LIN2/RIN2 ] AVDD=LVDD=SVDD=3.3V, DVDD=TVDD=1.8V, fs=48kHz, External Slave Mode, MGAIN="+0dB" +0 -10 -20 -30 -40 -50 -60 -70 d B F S -80 -90 -100 -110 -120 -130 -140 -150 -160 -170 -180 20 50 100 200 500 1k 2k 5k Hz Figure 72.FFT (-1dBFS Input) <KM104703> 2011/08 - 55 - [AKD4955-A] AKM AK4955 FFT (-60dBFS Input) [ ADC, LIN2/RIN2 ] AVDD=LVDD=SVDD=3.3V, DVDD=TVDD=1.8V, fs=48kHz, External Slave Mode, MGAIN="+0dB" +0 -10 -20 -30 -40 -50 -60 -70 d B F S -80 -90 -100 -110 -120 -130 -140 -150 -160 -170 -180 20 50 100 200 500 1k 2k 5k 10k 20k 10k 20k Hz Figure 73.FFT (-60dBFS Input) AKM AK4955 FFT (No Signal Input) [ ADC, LIN2/RIN2 ] AVDD=LVDD=SVDD=3.3V, DVDD=TVDD=1.8V, fs=48kHz, External Slave Mode, MGAIN="+0dB" +0 -10 -20 -30 -40 -50 -60 -70 d B F S -80 -90 -100 -110 -120 -130 -140 -150 -160 -170 -180 20 50 100 200 500 1k 2k 5k Hz Figure 74.FFT (No Signal Input) <KM104703> 2011/08 - 56 - [AKD4955-A] 2-a). DAC [LOUT/ROUT pins, LVCM(1-0) bits = “01”] AKM AK4955 THD+N vs. Input Level [ DAC, LineOUT ] AVDD=LVDD=SVDD=3.3V, DVDD=TVDD=1.8V, fs=48kHz, External Slave Mode, LVCMbit="01", RL=10kohm -70 -72 -74 -76 -78 -80 -82 d B r -84 -86 A -88 -90 -92 -94 -96 -98 -100 -120 -110 -100 -90 -80 -70 -60 -50 -40 -30 -20 -10 dBFS Figure 75.S/(N+D) vs. Input Level AKM AK4955 THD+N vs. Input Frequency [ DAC, LineOUT ] AVDD=LVDD=SVDD=3.3V, DVDD=TVDD=1.8V, fs=48kHz, External Slave Mode, LVCMbit="01", RL=10kohm -70 -72 -74 -76 -78 -80 -82 d B r -84 -86 A -88 -90 -92 -94 -96 -98 -100 20 50 100 200 500 1k 2k 5k 10k 20k Hz Figure 76.S/(N+D) vs. Input Frequency <KM104703> 2011/08 - 57 - [AKD4955-A] AKM AK4955 Linearity [ DAC, LineOUT ] AVDD=LVDD=SVDD=3.3V, DVDD=TVDD=1.8V, fs=48kHz, External Slave Mode, LVCMbit="01", RL=10kohm +0 -10 -20 -30 -40 d B r A -50 -60 -70 -80 -90 -100 -110 -110 -100 -90 -80 -70 -60 -50 -40 -30 -20 -10 +0 dBFS Figure 77.Linearity AKM AK4955 Frequency Response [ DAC, LineOUT ] AVDD=LVDD=SVDD=3.3V, DVDD=TVDD=1.8V, fs=48kHz, External Slave Mode, LVCMbit="01", RL=10kohm -2.5 -2.6 -2.7 -2.8 -2.9 d B r -3 A -3.1 -3.2 -3.3 -3.4 -3.5 20 50 100 200 500 1k 2k 5k 10k 20k Hz Figure 78.Frequency Response (Pin Direct) <KM104703> 2011/08 - 58 - [AKD4955-A] AKM AK4955 Crosstalk [ DAC, LineOUT ] AVDD=LVDD=SVDD=3.3V, DVDD=TVDD=1.8V, fs=48kHz, External Slave Mode, LVCMbit="01", RL=10kohm -70 T T T TTT TTT T TTTT T T TT -75 -80 -85 -90 -95 -100 d B -105 -110 -115 -120 -125 -130 -135 -140 20 50 100 200 500 1k 2k 5k 10k 20k Hz Figure 79.Crosstalk AKM AK4955 FFT (-3dBFS Input)[ DAC, LineOUT ] AVDD=LVDD=SVDD=3.3V, DVDD=TVDD=1.8V, fs=48kHz, External Slave Mode, LVCMbit="01", RL=10kohm +0 -10 -20 -30 -40 -50 -60 -70 d B r -80 A -100 -90 -110 -120 -130 -140 -150 -160 -170 -180 20 50 100 200 500 1k 2k 5k 10k 20k Hz Figure 80.FFT (-3dBFS Input) <KM104703> 2011/08 - 59 - [AKD4955-A] AKM AK4955 FFT (-60dBFS Input)[ DAC, LineOUT ] AVDD=LVDD=SVDD=3.3V, DVDD=TVDD=1.8V, fs=48kHz, External Slave Mode, LVCMbit="01", RL=10kohm +0 -10 -20 -30 -40 -50 -60 -70 d B r -80 A -100 -90 -110 -120 -130 -140 -150 -160 -170 -180 20 50 100 200 500 1k 2k 5k 10k 20k Hz Figure 81.FFT (-60dBFS Input) AKM AK4955 FFT (No Signal Input)[ DAC, LineOUT ] AVDD=LVDD=SVDD=3.3V, DVDD=TVDD=1.8V, fs=48kHz, External Slave Mode, LVCMbit="01", RL=10kohm +0 -10 -20 -30 -40 -50 -60 -70 d B r -80 A -100 -90 -110 -120 -130 -140 -150 -160 -170 -180 20 50 100 200 500 1k 2k 5k 10k 20k Hz Figure 82.FFT (No Signal Input) <KM104703> 2011/08 - 60 - [AKD4955-A] 2-b). DAC [SPP/SPN pins, SPKG(1-0) bits = “01”] AKM AK4955 THD+N vs. Input Level [ DAC, SPKOUT ] AVDD=LVDD=SVDD=3.3V, DVDD=TVDD=1.8V, fs=48kHz, External Slave Mode, SPKGbit="01", RL=8ohm -70 -72 -74 -76 -78 -80 -82 d B r -84 -86 A -88 -90 -92 -94 -96 -98 -100 -120 -110 -100 -90 -80 -70 -60 -50 -40 -30 -20 -10 dBFS Figure 83.S/(N+D) vs. Input Level AKM AK4955 THD+N vs. Input Frequency [ DAC, SPKOUT ] AVDD=LVDD=SVDD=3.3V, DVDD=TVDD=1.8V, fs=48kHz, External Slave Mode, SPKGbit="01", RL=8ohm -60 -62 -64 -66 -68 -70 -72 -74 -76 d B r A -78 -80 -82 -84 -86 -88 -90 -92 -94 -96 -98 -100 20 50 100 200 500 1k 2k 5k 10k 20k Hz Figure 84.S/(N+D) vs. Input Frequency <KM104703> 2011/08 - 61 - [AKD4955-A] AKM AK4955 Linearity [ DAC, SPKOUT ] AVDD=LVDD=SVDD=3.3V, DVDD=TVDD=1.8V, fs=48kHz, External Slave Mode, SPKGbit="01", RL=8ohm +0 -10 -20 -30 -40 -50 d B r A -60 -70 -80 -90 -100 -110 -120 -110 -100 -90 -80 -70 -60 -50 -40 -30 -20 -10 +0 dBFS Figure 85.Linearity AKM AK4955 Frequency Response [ DAC, SPKOUT ] AVDD=LVDD=SVDD=3.3V, DVDD=TVDD=1.8V, fs=48kHz, External Slave Mode, SPKGbit="01", RL=8ohm +0 -0.1 -0.2 -0.3 -0.4 d B r -0.5 A -0.6 -0.7 -0.8 -0.9 -1 20 50 100 200 500 1k 2k 5k 10k 20k Hz Figure 86.Frequency Response <KM104703> 2011/08 - 62 - [AKD4955-A] AKM AK4955 FFT (-0.5dBFS Input)[ DAC, SPKOUT ] AVDD=LVDD=SVDD=3.3V, DVDD=TVDD=1.8V, fs=48kHz, External Slave Mode, SPKGbit="01", RL=8ohm +0 -10 -20 -30 -40 -50 -60 -70 d B r -80 A -100 -90 -110 -120 -130 -140 -150 -160 -170 -180 20 50 100 200 500 1k 2k 5k 10k 20k 10k 20k Hz Figure 87.FFT (-0.5dBFS Input) AKM AK4955 FFT (-60dBFS Input)[ DAC, SPKOUT ] AVDD=LVDD=SVDD=3.3V, DVDD=TVDD=1.8V, fs=48kHz, External Slave Mode, SPKGbit="01", RL=8ohm +0 -10 -20 -30 -40 -50 -60 -70 d B r -80 A -100 -90 -110 -120 -130 -140 -150 -160 -170 -180 20 50 100 200 500 1k 2k 5k Hz Figure 88.FFT (-60dBFS Input) <KM104703> 2011/08 - 63 - [AKD4955-A] AKM AK4955 FFT (No Signal Input)[ DAC, SPKOUT ] AVDD=LVDD=SVDD=3.3V, DVDD=TVDD=1.8V, fs=48kHz, External Slave Mode, SPKGbit="01", RL=8ohm +0 -10 -20 -30 -40 -50 -60 -70 d B r -80 A -100 -90 -110 -120 -130 -140 -150 -160 -170 -180 20 50 100 200 500 1k 2k 5k 10k 20k Hz Figure 89.FFT (No Signal Input) <KM104703> 2011/08 - 64 - [AKD4955-A] 3. VIDEO PLOT DATA [Measurement condition] • Measurement unit • Power Supply • Temperature • Input Level • VG bits : Tektronix VM700T Video Measurement set : AVDD = LVDD = SVDD = 3.3V, DVDD = TVDD = 1.8V : Room Temperature : 1.0Vpp Input : “00” (+6dB) ・S/N • Input signal : 0% Flat Field • Measurement Frequency : 100kH ∼ 6MHz Figure 90.Noise Spectrum <KM104703> 2011/08 - 65 - [AKD4955-A] ・DC • Input signal : Field Square Wave Figure 91.Field Time Distortion <KM104703> 2011/08 - 66 - [AKD4955-A] ・Vector • Input signal : 75% Color Bar Figure 92.Vector <KM104703> 2011/08 - 67 - [AKD4955-A] Revision History Date (YY/MM/DD) 11/08/24 Manual Revision KM104703 Board Revision 3 Reason Page First edition - Contents IMPORTANT NOTICE z These products and their specifications are subject to change without notice. When you consider any use or application of these products, please make inquiries the sales office of Asahi Kasei Microdevices Corporation (AKM) or authorized distributors as to current status of the products. z Descriptions of external circuits, application circuits, software and other related information contained in this document are provided only to illustrate the operation and application examples of the semiconductor products. You are fully responsible for the incorporation of these external circuits, application circuits, software and other related information in the design of your equipments. AKM assumes no responsibility for any losses incurred by you or third parties arising from the use of these information herein. AKM assumes no liability for infringement of any patent, intellectual property, or other rights in the application or use of such information contained herein. z Any export of these products, or devices or systems containing them, may require an export license or other official approval under the law and regulations of the country of export pertaining to customs and tariffs, currency exchange, or strategic materials. z AKM products are neither intended nor authorized for use as critical componentsNote1) in any safety, life support, or other hazard related device or systemNote2), and AKM assumes no responsibility for such use, except for the use approved with the express written consent by Representative Director of AKM. As used here: Note1) A critical component is one whose failure to function 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 fields, 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. z It is the responsibility of the buyer or distributor of AKM products, who distributes, disposes of, or otherwise places the product with a third party, to notify such third party in advance of the above content and conditions, and the buyer or distributor agrees to assume any and all responsibility and liability for and hold AKM harmless from any and all claims arising from the use of said product in the absence of such notification. <KM104703> 2011/08 - 68 - 1 49 50 51 52 53 54 55 56 2 57 58 59 60 64 CN4 64pin 61 3 62 4 63 5 D D 0 0 R102 R103 MCKI 51 B5 LRCK 51 A5 B4 4 5 TP114 LRCK 6 TP116 BICK R114 R115 R117 8 TP118 DVDD 9 TP120 VSS2 10 TP122 TVDD 0 LIN1 RIN1 LIN2 RIN2 DMDAT JP102 LIN1-SEL R106 2.2k 2.2k 2.2k 2.2k C109 0.1u BICK VSS3 F5 DVDD LVDD D5 VCOM F4 C115 0.1u VSS1 E4 REGFIL F3 MIN A4 VSS2 B3 TVDD A3 U100 AK4955ECB SDTO 39 TP123 REGFIL 38 C3 TP124 MIN 37 TP126 VSS1A 36 TP127 AVDD 35 + C113 2.2u C112 0.1u C116 2.2u C117 0.1u C118 10u B PVEE 34 33 F1 VSS1 E1 C2 C120 2.2u R122 C121 R121 C122 (open) TP133 PVEE TP131 VOUT C119 (open) 75 TP130 VIN 0.1u I2C VIN D1 TP132 PDN C1 D2 C110 + C111 0.1u 10u 64pin 0 TP135 CCLK/SCL TP134 CAD0 SDA CSN JP104 CSN/SDA 64pin VOUT E2 PDN VSS1 AVDD TP137 I2C TP129 CDTIO/SDA C 42 40 CDTIO/CAD0 TP136 CSN 16 CDTIO 15 43 C106 + C107 0.1u 10u TP121 VSS1B MCKO CSN/SDA 0 44 TP115 VSS3 41 B2 B1 R120 CAD0 14 TP128 MCKO TP113 SVDD TP119 VCOM F2 JP103 CDTIO/CAD0 13 B 46 TP117 LVDD A2 CCLK/SCL 51 A1 12 R119 47 TP112 SPN F6 SPP SPN E5 E3 R108 R111 R109 R110 1u D4 D6 LIN1 RIN2 D3 LIN2 C5 C6 E6 100k + C108 10u 48 TP102 SPP 45 SVDD 11 TP125 SDTO CN3 100k R116 7 MPWR A6 RIN1 100k ROUT R118 51 C4 R113 LOUT TP104 MCKI SDTI 3 B6 2 C JP100 MPWR-SEL TP111 MPWR 1u C105 51 CN6 1 TP110 LIN1 VSS1 LIN1 1u DMCLK TP108 JP101 LIN2 RIN1-SEL C103 TP109 RIN2 C104 RIN1 R105 (short) C101 1u R107 C102 TP106 SDTI 2 1 TP103 RIN1 1 1 CN5 TP100 DMCLK TP101 DMDAT + CN1 CN7 (open) 0 R101 TP107 LOUT VSS1 TP105 ROUT C100 R104 (short) (open) 0 R100 Digital MIC 75 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 CN2 64pin 17 TP138 VSS1C R123 A A Title 5 4 - 69 3 Size A2 Date: 2 Document Number AKD4955-A Rev AKD4955-A-36CSP-SUB Monday, November 29, 2010 Sheet 1 1 of 13 1 LIN2 LIN1 E RIN2 D RIN1 C ROUT B LOUT A 49 50 51 52 53 54 55 56 57 58 59 60 61 62 CN4 64pin 63 E 64 E D D CN3 48 CN1 AK4955-SDTI AK4955-MCKI 1 47 SPP 2 46 SPN 3 45 4 44 AK4955-LRCK 5 43 AK4955-BICK 6 42 7 41 DVDD 8 40 9 39 TVDD 10 38 11 37 12 36 13 35 14 34 C AK4955-SDTO AK4955-MCKO 15 B SVDD LVDD C MIN AVDD 33 B 64pin CDTIO/SDA 16 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 CN2 64pin 17 64pin A B - 70 C VOUT VIN PDN I2C CSN CCLK/SCL A CAD0 A Title Size A2 Date: D AKD4955-A Document Number Rev Under the Sub-Board Monday, November 29, 2010 Sheet E 1 of 6 13 A B 5 2 1 D E TP41 mini-Rch TP40 mini-Lch E VIN C24 + J1 AIN E C (short) 1 J2 VIN 2 3 4 5 R24 (open) D 2 3 4 5 1 JP6 L1-mini L1-BNC L2-mini L2-BNC TP42 BNC-Lch LIN1 LIN2 LIN-SEL J5 RIN 1 R1-mini R1-BNC R2-mini R2-BNC TP43 BNC-Rch VOUT C25 + J3 LIN (short) R25 (short) 1 C26 (open) JP7 J4 VOUT 2 3 4 5 C27 (open) D RIN1 RIN2 RIN-SEL LOUT C28 + 2 3 4 5 1u R26 220 1 J6 LOUT 2 3 4 5 R27 20k C ROUT 1 TP44 MIN C30 1u R30 33k R31 33k + 2 3 4 5 J8 MIN EXT INT C29 + C 1u R28 JP8 220 1 J7 ROUT R29 20k 2 3 4 5 MIN MIN-SEL B B 5 SPP R63 16 R32 16 C31 (open) J9 SPK-OUT 2 1 JP9 SPK-GND SPN C32 (open) A A Title Size A3 - 71 A B C Date: D Document Number AKD4955-A Rev Input/Output Monday, November 29, 2010 Sheet E 13 2 of 6 A L1 GND OUT 2 1 C33 0.1u 47u 2 D3V D3V C34 10u + E TORX 51 TP45 RX C35 + R33 C36 D 1 IPS0/RX4 2 0.1u 40 39 10k R VCOM 41 VSS3 42 RX0 43 NC 44 RX1 45 TEST1 46 RX2 RX3 VSS4 47 48 R34 C37 0.47u 10u 37 3 E INT1 VCC D 38 E 1 C AVDD PORT1 B INT0 36 NC OCKS0/CSN/CAD0 35 3 DIF0/RX5 OCKS1/CCLK/SCL 34 OCKS1 4 TEST2 CM1/CDTI/SDA 33 D3V 5 DIF1/RX6 CM0/CDTO/CAD1 32 6 VSS1 PDN 31 D 8 7 6 5 D3V INT0 DIF2 DIF1 DIF0 OCKS1 1 2 3 4 L U2 OCKS1 7 AK4118A DIF2/RX7 XTI 30 C38 5p X1 12.288MHz C39 5p 27 11 XTL1 BICK 26 12 VIN/GP0 SDTO 25 VSS2 MCKO C DAUX DIR-BICK DIR-SDTO LRCK MCKO2 MCKO1 XTL0 DVDD 10 VOUT/GP7 28 UOUT/GP6 DAUX COUT/GP5 P/SN BOUT/GP4 9 TX1/GP3 29 TX0/GP2 XTO NC/GP1 47k IPS1/IIC TVDD RP1 8 MCKO XTL XTI-SEL 5 4 3 2 1 C DIO-PDN JP10 1 SW1 2 H 24 23 22 21 20 19 18 17 16 15 14 B 13 B PORT2 A IN VCC 3 2 GND 1 + D3V C41 0.1u + DIR-LRCK C40 0.1u C42 10u C43 10u DIR-MCKI TP46 TX C44 0.1u A D3V Title TOTX Size - 72 A B C A3 Date: D Document Number AKD4955-A DIR/DIT Monday, November 29, 2010 Rev 13 Sheet E 3 of 6 A B C D U3 10 E Q1 Q2 RST Q3 Q4 Q5 Q6 Q7 Q8 Q9 Q10 VD Q11 DGND Q12 D3V 16 8 C45 0.1u U4 CLK 11 E 9 7 6 5 3 2 4 13 12 14 15 1 DIR-BICK DIR-LRCK 4040 DIR 10pin JP11 4040-64fs 4040-32fs DIR 10pin THR INV BICK-SEL JP13 E JP12 4 1A1 1B1 13 5 1A2 1B2 12 2 1DIR 1OE 15 6 2A1 2B1 11 7 2A2 2B2 10 3 2DIR 2OE 14 1 VCCA VCCB 16 AK4955-BICK BICK-PHASE LRCK-SEL M/S AK4955-LRCK 74HC4040 D3V D3V C49 0.1u 1A 1Y 2A 2Y 3A 3Y GND D3V 14 13 12 11 10 9 8 VCC 6A 6Y 5A 5Y 4A 4Y 㪧㪦㪩㪫㪊 C48 0.1u INT0 R36 74HC14 1k 2 LE1 9 7 5 3 1 SDTO SDTI LRCK BICK MCLK 8 GND DSP 1 GND 9 D LVC C47 0.1u 74AVC4T245 INT0 JP14 MCKIO DIO-PDN LVC U6 C 1 D2 HSU119 3 A K C 10 8 6 4 2 C46 0.1u MCKI 1 2 3 4 5 6 7 H 2 L SW2 DIO-PDN U5 R35 10k MCKO 1 D1 HSU119 3 A K D U7 1 2 3 4 5 6 7 H C51 0.1u 2 L SW3 PDN PDN R37 10k 1A 1Y 2A 2Y 3A 3Y GND MCKO VCC 6A 6Y 5A 5Y 4A 4Y 14 13 12 11 10 9 8 4 1A1 1B1 13 AK4955-MCKO 5 1A2 1B2 12 AK4955-SDTO 2 1DIR 1OE 15 6 2A1 2B1 11 7 2A2 2B2 10 3 2DIR 2OE 14 1 VCCA VCCB 16 LVC C50 0.1u DAUX 74HC14 DIR-SDTO 10pin ADC DIR JP15 SDTI-SEL B 2 3 4 5 MCKO MCKI JP17 4040-SEL J10 EXT 1 R38 51 DIR-MCKI 10pin EXT GND DIR JP16 D3V MCKI-SEL C52 0.1u 8 JP18 EXT GND GND 9 AK4955-SDTI AK4955-MCKI B LVC C53 0.1u 74AVC4T245 SW4 H 3 2 1 M/S CAD0 I2C A 3 2 1 A M/S CAD0 I2C L 4 5 6 LVC Title RP2 47k Size A3 - 73 A B C Date: D Document Number AKD4955-A Rev CLOCK & SW Monday, November 29, 2010 Sheet E 13 4 of 6 A B C D E E E R39 4.7k 10 8 6 4 2 C54 2.2u PORT4 9 7 5 3 1 CSN CCLK/SCL CDTI/SDA CDTO/SDA(ACK) 10pin-CTRL U8 10k 10k 10k 10k PIC TP47 RD0 TP49 RD2 TP51 RD4 TP53 RD6 1 2 3 4 R54 R55 USB(B type) 0 0 USB 7 USB VDD0 VSS0 RB7/KBI3/PGD RB6/KBI2/PGC RB5/KBI1/PGM RB4/AN11/KBI0/CSSPP RB3/AN9/CPP2/VPO RB2/AN8/INT2/VMO RB1/AN10/INT1/SCK/SCL RB0/AN12/INT0/FLT0/SDI/SDA 38 39 40 41 2 3 4 5 RD0/SPP0 RD1/SPP1 RD2/SPP2 RD3/SPP3 RD4/SPP4 RD5/SPP5/P1B RD6/SPP6/P1C RD7/SPP7/P1D 18 USB-RST R47 100k 12 13 33 34 OSC1/CLKI OSC2/CLKO/RA6 30 31 RE0/AN5/CK1SPP RE1/AN6/CK2SPP RE2/AN7/OESPP 25 26 27 VUSB 37 C65 470n RA0/AN0 RA1/AN1 RA2/AN2/Vref-/CVref RA3/AN3/Vref+ RA4/T0CKI/C1OUT/RCV RA5/AN4/SS_N/HLVDIN/C2OUT 19 20 21 22 23 24 R51 R50 R52 R53 51 51 51 51 U9 32 35 36 RC0/T1OSO/T13CKI RC1/T1OSI/CCP2/UOE_N RC2/CCP1/P1A 42 43 44 1 RC4/D-/VM RC5/D+/VP RC6/TX/CK RC7/RX/DT/SDO R44 470 R45 470 R46 470 CTRL-SEL C60 0.1u NC/ICCK/ICPGC NC/ICDT/ICPGD NC/ICRST_N/ICVpp NC/ICPORTS PIC18F4550 TQFP 44-PIN 10pin CSN 10pin CCLK/SCL 10pin CDTI/SDA 10pin CDTO/SDA(ACK) USB MCLR_N/Vpp/RE3 17 16 15 14 11 10 9 8 JP28 USB C58 0.1u 6 28 VSS2 VDD1 C57 0.1u 29 1 2 3 4 5 U10 VUSB DD+ GND C56 10u VSS1 JP29 TP48 RD1 TP50 RD3 TP52 RD5 TP54 RD7 B + C SILK-SCREEN(P1) 1:VDD 2:MCLR 3:PGD 4:PGC 5:GND + VSS2 C59 1u C55 10u 4 1A1 1B1 13 5 1A2 1B2 12 2 1DIR 1OE 15 6 2A1 2B1 11 7 2A2 2B2 10 3 2DIR 2OE 14 1 VCCA VCCB 16 CSN D CCLK/SCL R40 R41 R43 R42 5V => 3.3V NC NC Vin Vout Vcont PCL NC GND 8 7 6 5 D T1 TK73633AME 1 2 3 4 D3V D3V C61 0.1u 8 XTI XTO C63 GND GND 22p CDTIO/SDA LVC C62 0.1u 9 C 74AVC4T245 X2 20MHz C64 22p LVC R48 1k R49 100 U11 CSN CCLK/SCL CDTI/SDA CDTO/SDA(ACK) D3V 1 3 5 9 11 13 1A 2A 3A 4A 5A 6A 14 Vcc C66 0.1u 7 PIC18F4550 1Y 2Y 3Y 4Y 5Y 6Y 2 4 6 8 10 12 B GND 74LVC07 A A Title Size - 74 A B C A3 Date: D AKD4955-A Document Number Rev uP-I/F Monday, November 29, 2010 Sheet E 13 5 of 6 B C D E JP19 GND E 8 7 6 5 T2 TK73633AME NC NC Vin Vout Vcont PCL NC GND 5V => 3.3V C68 1u 1 2 3 4 REG J14 AVDD C69 2.2u AVDD JP20 R57 (short) AVDD AVDD-SEL C70 1u T3 TK73618AME NC NC Vin Vout Vcont PCL NC GND 5V => 1.8V 1 2 3 4 REG J15 DVDD C71 2.2u DVDD TP56 GND2 TP57 GND3 E TP58 GND4 D JP21 R56 (short) R58 (short) DVDD DVDD-SEL REG J17 LVDD C73 47u + C72 47u + LVDD JP23 R59 (short) TVDD LVDD C LVDD-SEL 1 C 8 7 6 5 TP55 GND1 1 D C67 47u 1 + J13 AGND 1 J12 DGND 1 J11 +5V 1 A C75 47u + REG J18 LVC J19 SVDD (short) LVC JP25 R61 (short) SVDD SVDD-SEL C76 47u + B 1 B SVDD R60 LVC-SEL 1 REG LVC JP24 C77 47u + REG D3V R62 (short) D3V D3V-SEL 1 J20 D3V JP26 + C78 47u A A Title Size - 75 A B C A3 Date: D AKD4955-A Document Number Rev Power Supply Monday, November 29, 2010 Sheet E 1 3 6 of 6 AKD4955-A Rev.3 部品面シルク図 3 - 76 - AKD4955-A Rev.3 半田面シルク図 - 77 - AKD4955-A Rev.3 部品面パターン図 - 78 - AKD4955-A Rev.3 内層L2パターン図 - 79 - AKD4955-A Rev.3 内層L3パターン図 - 80 - AKD4955-A Rev.3 内層L4パターン図 - 81 - AKD4955-A Rev.3 内層L5パターン図 - 82 - AKD4955-A Rev.3 半田面パターン図 - 83 - AKD4955-A Rev.3 部品面シルク図 3 - 84 - AKD4955-A Rev.3 半田面シルク図 - 85 - AKD4955-A Rev.3 部品面パターン図 - 86 - AKD4955-A Rev.3 内層L2パターン図 - 87 - AKD4955-A Rev.3 内層L3パターン図 - 88 - AKD4955-A Rev.3 半田面パターン図 - 89 -