XK-AUDIO-216-MC-AB

xCORE-200 Multichannel Audio Platform 2v0 Hardware Manual IN THIS DOCUMENT · Features · xCORE Multicore Microcontroller Device · Analog input audio channels · Analog output audio channels · Digital audio output · Digital audio input · MIDI audio input and output · Audio clocking · USB Connectivity · Ethernet Connectivity · General purpose user interface · I2C bus address map · xSYS Debug · QSPI Flash · Operating requirements · Dimensions · xCORE-200 Multichannel Audio Platform Portmap · xCORE-200 Multichannel Audio Platform schematics · RoHS and REACH · Version history The xCORE-200 Multichannel Audio Platform (XK-AUDIO-216-MC-AB) is a complete hardware and reference software platform targeted at up to 32-channel USB and networked audio applications, such as DJ decks and mixers. The Multichannel Audio Platform hardware is based around the XE216-512-TQ128 multicore microcontroller; an xCORE-200 device with an integrated High Speed USB 2.0 PHY, RGMII (Gigabit Ethernet) interface and 16 logical cores delivering up to 2000MIPS of deterministic and responsive processing power. Exploiting the flexible programmability of the xCORE-200 architecture, the Multichannel Audio Platform supports either USB or network audio source, streaming 8 input and 8 output audio channels simultaneously - at up to 192kHz. Ideal for mixing two sources and providing main and headphone monitor output feeds. Publication Date: 2016/4/1 XMOS © 2016, All Rights Reserved Document Number: XM007657C xCORE-200 Multichannel Audio Platform 2v0 Hardware Manual 2/27 The guaranteed Hardware-Response™ times of xCORE technology always ensure lowest latency (round trip as low as 3ms), bit perfect audio streaming to and from the USB host or network. Delivered as source code, the reference software provides a fully featured production ready solution, including support for: · Full-Speed and High-Speed USB operation, Audio Class 2.0 & 1.0, MIDI, HID and DFU classes. · Standards compliant AVB Talker and/or Listener endpoints · MFi support for Apple Host Mode and USB Role Switch 1 Features A block diagram of the xCORE-200 Multichannel Audio Platform (XK-AUDIO-216MC-AB) is shown below: J J Q C E O K Figure 1: xCORE-200 Multichannel Audio Platform block diagram C A N M MM R L S B P D B H H G G F F It includes the following features: · A: xCORE-200 (XE216-512-TQ128) Multicore Microcontroller device · B: 8 output analog audio channels (3.5mm stereo jack) · C: 8 input analog audio channels (3.5mm stereo jack) · D: 192kHz 24b audio DAC · E: 192kHz 24b audio ADC · F: Optical connections for digital interface (e.g. S/PDIF and ADAT) XM007657C xCORE-200 Multichannel Audio Platform 2v0 Hardware Manual · G: Coaxial connections for digital interfaces (e.g. S/PDIF) · H: MIDI in and out connections · I: An ultra low-jitter programmable audio phase lock loop · J: USB 2.0 type A and micro-B jacks · K: 10/100/1000 Mbps Ethernet connection · L: 16 general purpose LEDs · M: 3 general purpose buttons · N: 1 general purpose 2-way switch · O: Selectable TDM input audio sources · P: Selectable TDM output audio sources · Q: Integrated power supply unit · R: Quad-SPI boot ROM · S: 24MHz Oscillator XM007657C 3/27 xCORE-200 Multichannel Audio Platform 2v0 Hardware Manual 2 4/27 xCORE Multicore Microcontroller Device xCORE-200 Multichannel Audio Platform (XK-AUDIO-216-MC-AB) is based on a two-tile xCORE-200 device (XE216-512-TQ128). Each tile is user-programmable, providing eight logical cores with a total of up to 1000 MIPS compute. A total of 53 general-purpose digital I/O have been brought out to header pins, providing tremendous flexibility for a wide range of USB and networked audio products to be developed on a common platform. For information on xCORE-200 tiles and cores see the xCORE-200 Architecture Overview1 . I/O pins xTIME scheduler Hardware response ports I/O pins Hardware response ports xCORE logical core xCORE logical core xCORE logical core xCORE logical core xCORE logical core USB SRAM OTP xCONNECT Switch xCORE logical core xCORE logical core xCORE logical core 3 JTAG xTIME scheduler xCORE logical core xCORE logical core Figure 2: xCORE-200 device PLL xCORE logical core xCORE logical core xCORE logical core xCORE logical core xCORE logical core xCORE logical core OTP SRAM RGMII Analog input audio channels A total of eight single-ended analog input channels are provided via 3.5mm stereo jacks. Each is fed into a CirrusLogic CS5368 ADC. Figure 3: Analog input stage The four digital input channels SDIN1 to SDIN4 are mapped to the xCORE inputs xSDIN1 to xSDIN4 through a header array as described in Figure 4. The jumper allows channel selection when the ADC is used in TDM mode. Row 1, column 1 is defined as the pin closest to pin 1 of the header (as denoted by a triangle on the silk-screen). The ADC registers are accessed via the I2C bus - see §12. 1 http://www.xmos.com/published/xcore-architecture XM007657C xCORE-200 Multichannel Audio Platform 2v0 Hardware Manual Figure 4: Analog input patching Row Column 1 Column 2 Column 3 1 ADC_SD1 iADC_SD1 ADC_SD1 2 ADC_SD2 iADC_SD2 ADC_SD1 3 ADC_SD3 iADC_SD3 ADC_SD1 4 ADC_SD4 iADC_SD4 ADC_SD1 5/27 The xSDIN signals are connected to both 1b and 4b ports of the xCORE-200 IO as described in Figure 5. This allows additional flexibility in the firmware. Figure 5: Analog input xCORE GPIO Audio output xCORE GPIO Port Description iADC_SD1 X0D24 P1I Analog input 1 (DSD_MODE = 0) iADC_SD2 X0D25 P1J Analog input 2 (DSD_MODE = 0) iADC_SD3 X0D34 P1K Analog input 3 (DSD_MODE = 0) iADC_SD4 X0D35 P1L Analog input 4 (DSD_MODE = 0) OVERFLOW X0D15 P4C1 Active low overflow ADC_RST_N X0D32 P4E2 Active low reset LRCLK X0D22 P1G Serial audio channel clock SCLK X0D23 P1H Main timing for serial audio interface MCLK_AUDIO See notes below ADC master clock Notes: · Details of the analog input stage clocking scheme can be found in §8. 4 Analog output audio channels A total of eight single-ended analog output channels are provided. Each is fed into a CirrusLogic CS4384 DAC. The four digital output channels SDOUT1 to SDOUT4 are mapped to the xCORE inputs xSDOUT1 to xSDOUT4 through a header array as described in Figure 7. Row 1, column 1 is defined as the pin closest to pin 1 of the header (as denoted by a triangle on the silk-screen). The DAC registers are accessed via the I2C bus - see §12. The xSDOUT signals are connected to the xCORE-200 IO as described in Figure 8 XM007657C xCORE-200 Multichannel Audio Platform 2v0 Hardware Manual Figure 6: Analog output stage Figure 7: Analog output patching Figure 8: Analog output xCORE GPIO Row Column 1 Column 2 Column 3 1 DAC_SD1 xDAC_SD1 DAC_SD1 2 DAC_SD2 xDAC_SD2 DAC_SD1 3 DAC_SD3 xDAC_SD3 DAC_SD1 4 DAC_SD4 xDAC_SD4 DAC_SD1 Audio output xCORE GPIO Port Description DAC_SD5 X0D24 P1I DAC DSD5 (DSD_MODE = 1) DAC_SD6 X0D25 P1J DAC DSD6 (DSD_MODE = 1) DAC_SD7 X0D34 P1K DAC DSD7 (DSD_MODE = 1) DAC_SD8 X0D35 P1L DAC DSD8 (DSD_MODE = 1) xDAC_SD1 X0D36 | P1M DAC SD/DSD1 xDAC_SD2 X0D37 | P1N DAC SD/DSD2 xDAC_SD3 X0D38 | P1O DAC SD/DSD3 xDAC_SD4 X0D39 | P1P DAC SD/DSD4 DAC_RST_N X0D27 P4E1 Active low reset LRCLK X0D22 P1G Serial audio channel clock SCLK X0D23 P1H Main timing for serial audio interface MCLK_AUDIO See notes below DAC master clock Notes: · Details of the analog input stage clocking scheme can be found in §8. XM007657C 6/27 xCORE-200 Multichannel Audio Platform 2v0 Hardware Manual 5 7/27 Digital audio output Optical and coaxial digital audio transmitters are used to provide digital audio output in formats such as IEC60958 consumer mode (S/PDIF) and ADAT. The data streams from the xCORE-200 are re-clocked using the external master clock to synchronise the data into the audio clock domain. This is achieved using simple external D-type flip-flops. The optical output uses a TOSLINK optical connector with an integrated LED and differential driving circuit. The coaxial output uses an RCA connector and is isolated via a transformer. Figure 9: Optical audio output The signals are generated from two 1-bit ports on the xCORE-200. Figure 10: Optical output audio xCORE GPIO Audio signal xCORE GPIO Port Description OPT_TX X0D12 P1E For use with either S/PDIF or ADAT COAX_TX X0D11 P1D For use with either S/PDIF or ADAT MCLK_DIG See notes below Digital master clock Notes: · Details of the analog input stage clocking scheme can be found in §8. XM007657C xCORE-200 Multichannel Audio Platform 2v0 Hardware Manual 6 8/27 Digital audio input Digital audio input is provided to allow formats such as IEC60958 consumer mode (S/P DIF) or ADAT to be connected to the device via either optical or coaxial mediums. The optical input uses a TOSLINK optical connector with an integrated photodiode and receiver circuit. The coaxial input uses an RCA connector and is AC-coupled into a 75Ω terminator. This gives a signal level of 0.5Vp-p , which is fed into a differential line receiver. Figure 11: Optical audio input The input signals are fed into two 1-bit ports on the xCORE-200 device. Figure 12: Optical audio input xCORE GPIO Audio signal xCORE GPIO Port Description OPT_RX X1D38 P1O For use with either S/PDIF or ADAT COAX_RX X1D39 P1P For use with either S/PDIF or ADAT MCLK_DIG See notes below Digital master clock Notes: · Details of the analog input stage clocking scheme can be found in §8. XM007657C xCORE-200 Multichannel Audio Platform 2v0 Hardware Manual 7 9/27 MIDI audio input and output MIDI I/O is provided on the board via a standard Gameport connector. The signals are buffered using 5V line drivers and are then connected to 1-bit ports on the xCORE-200, via a 5V to 3.3V buffer. 10Ω pull ups are placed on the MIDI IN signal from the connector and on the MIDI OUT signal from the xCORE-200. These stop glitches on startup and when no MIDI devices are connected to the board Figure 13: MIDI audio input/output The MIDI audio signals are connected to the xCORE-200 IO, as described in Figure 14, via a 5V to 3.3V buffer. Figure 14: MIDI audio xCORE GPIO XM007657C Audio signal xCORE GPIO Port MIDI_TX X1D37 P1N MIDI_RX X1D36 P1M Description xCORE-200 Multichannel Audio Platform 2v0 Hardware Manual 8 10/27 Audio clocking A flexible clocking scheme is provided for both audio and other system services. Figure 15: Clocking circuit In order to accommodate a multitude of clocking options, the low-jitter master clock is generated locally using a frequency multiplier PLL chip. The chip used is a Phaselink PL611-01, which is pre-programmed to provide a 24MHz clock from its CLK0 output, and either 24.576 MHz (FSEL high) or 22.5792MHz (FSEL low) from its CLK1 output. The 24MHz fixed output is provided to the xCORE-200 device, as the main processor clock. It also provides the reference clock to a CirrusLogic CS2100, which provides a very low jitter audio clock from a synchronisation signal provided from the xCORE-200. Either the locally generated clock (from the PL611) or the recovered low jitter clock (from the CS2100) may be selected to clock the audio stages; the xCORE-200, the ADC/DAC and Digital output stages. Audio signal xCORE GPIO Port Description MCLK_FSEL X0D33 P4E3 PLL_SYNC PLL_SELECT X0D0 X0D31 P1A P4F3 MCLK_XCORE X0D13, X1D35 P1F, P1L Set local clock to 24.576 MHz (MCLK_FSEL high) or 22.5792MHz (MCLK_FSEL low) Reference clock from xCORE-200 Select local fixed clock (SELECT low) or PLL output (SELECT high) Audio clock to xCORE audio path The CirrusLogic CS2100 device is controlled using I2C. Further information on the xCORE-200 Multichannel Audio Platform I2C bus can be found in §12. XM007657C xCORE-200 Multichannel Audio Platform 2v0 Hardware Manual 9 11/27 USB Connectivity The USB connectivity section consists of a USB A connector, USB B connector and a high-speed 3:1 switch to select between them. The figure below shows the layout of the USB subsection: Figure 16: USB section The USB signals are mapped onto the xCORE-200 device as shown in Figure 17 Figure 17: USB xCORE GPIO USB signal xCORE GPIO Port Description USB_D_N & P See note USB_SEL0 X0D28 P4F0 Bit 0 of USB switch select signal USB_SEL1 X0D29 P4F1 Bit 1 of USB switch select signal VBUS_OUT_EN X0D30 P4F2 Enable output onto VBUS USB physical layer signals Notes: · The XE216 device incorporates a dedicated USB PHY device, so GPIO are not required Two LEDs are provided to indicate the inverted status of USB select 0 and 1. The USB switch should be configured as shown in Figure 18 Figure 18: USB source selection USB select LED state USB source Description 0 Both on NA Sleep mode (DP, DN switch paths open 1 D28 ON Reserved 2 D29 ON USB A connector 3 Both off USB B connector Notes: 5V is supplied to the USB A connector, from a local power supply, to provide VBUS to connected devices under the control of VBUS enable. This supply can be disabled by bringing the VBUS output enable low. XM007657C xCORE-200 Multichannel Audio Platform 2v0 Hardware Manual 10 12/27 Ethernet Connectivity Ethernet connectivity consists of a Gigabit Ethernet PHY and RJ45 connector with integrated magnetics. The figure below shows the layout of the Ethernet subsection: Figure 19: Gigabit Ethernet section Three indivator LEDs are provided on the RJ45 connector: · A yellow LED indicates activity · A green LED indicates a Gigabit Ethernet connection · An orange LED indicates a 10/100Mbps Ethernet connection The RGMII signals are mapped onto the xCORE-200 device as shown in Figure 20 Figure 20: Ethernet xCORE GPIO XM007657C RGMII signal xCORE GPIO TX_CLK X1D26 TX_CTL X1D27 RX_CLK X1D28 RX_CTL X1D29 RX0 X1D30 RX1 X1D31 RX2 X1D32 RX3 X1D33 TX0 X1D43 TX1 X1D42 TX2 X1D41 TX3 X1D40 INT X1D03 MDIO X1D10 MDC X1D11 ETH_RST_N X1D02 Description xCORE-200 Multichannel Audio Platform 2v0 Hardware Manual 11 13/27 General purpose user interface An array of 4*4 green LEDs, 3 buttons and a switch are provided for general purpose user interfacing. The LED array is driven by eight signals each controlling one of 4 rows and 4 columns. The figure below shows the layout of the user interface subsection: Figure 21: User interface components The signal mapping of the user interface components is shown in Figure 22 Figure 22: User interface GPIO XM007657C UI signal xCORE GPIO Port Description LED_ROW_0 X1D14 P4C0 Row 0 LED driver control (active low) LED_ROW_1 X1D15 P4C1 Row 1 LED driver control (active low) LED_ROW_2 X1D20 P4C2 Row 2 LED driver control (active low) LED_ROW_3 X1D21 P4C3 Row 3 LED driver control (active low) LED_COL_0 X1D16 P4D0 Column 0 LED driver control (active low) LED_COL_1 X1D17 P4D1 Column 1 LED driver control (active low) LED_COL_2 X1D18 P4D2 Column 2 LED driver control (active low) LED_COL_3 X1D19 P4D3 Column 3 LED driver control (active low) BUTTON_1 X1D04 P4B0 Push button 1 (active low) BUTTON_2 X1D05 P4B1 Push button 2 (active low) BUTTON_3 X1D06 P4B2 Push button 3 (active low) SWITCH_1 X1D07 P4B3 Common terminal of Slider switch 1 xCORE-200 Multichannel Audio Platform 2v0 Hardware Manual 12 14/27 I2C bus address map The address of the I2C bus on the xCORE-200 MC audio platform is shown in Figure 23 Figure 23: I2C address map 13 I2C address Device 0x4C (0x99[r], 0x98[w] ) CirrusLogic CS5368 Audio ADC 0x18 (0x31[r], 0x30[w] ) CirrusLogic CS4384 Audio DAC 0x4E (0x9D[r], 0x9C[w] ) CirrusLogic CS2100 PLL xSYS Debug A standard XMOS xSYS interface is provided to allow host debug of the board via JTAG. An XTAG debug adapter can be plugged into this port to allow running/debugging code, programming the FLASH memory and selection of boot mode. A 20-way IDC header is used as the physical connector and the pinout of this is shown below: XSYS signal xCORE GPIO Header pin Description TMS See note 7 JTAG Test Mode Select. TCK See note 9 JTAG Test Clock. TDI See note 5 JTAG Test Data In. From debug adapter to XS1-U8. TDO See note 13 JTAG Test Data Out. From XS1-U8 to debug adapter. RST_N See note 15 System Reset. Active low, resets XS1-U8 device 4, 8, 12, 16, 20 Ground. GND Figure 24: XSYS Connector Pinout XL_UP1 X0D43 6 XMOS link, uplink bit 1 XL_UP0 X0D42 10 XMOS link, uplink bit 0 XL_DN1 X0D40 14 XMOS link, downlink bit 1 XL_DN0 X0D41 18 XMOS link, downlink bit 0 Notes: · JTAG connections occupy dedicated connections On power on, the XE216 device boots from the on-board flash memory. With the xTAG connected, the XE216 can be reset and then booted from a program on the host PC. XM007657C xCORE-200 Multichannel Audio Platform 2v0 Hardware Manual 14 15/27 QSPI Flash xCORE-200 Multichannel Audio Platform provides 2Mbytes of Quad Serial Peripheral Interface (QSPI) FLASH memory, which is interfaced by the GPIO connections shown in Figure 25: Figure 25: QSPI Flash QSPI connection Pin Port SPI_CS X0D01 P1B QSP_D0 X0D04 P4B0 QSP_D1 X0D05 P4B1 QSP_D2 X0D06 P4B2 QSP_D3 X0D07 P4B3 SPI_CLK X0D10 P1C The xTIMEcomposer tools include the xFLASH utility for programming compiled programs into the flash memory. xCORE-200 Multichannel Audio Platform designs may also access the FLASH memory at run-time by interfacing with the above pins. 15 Operating requirements A USB 2.0 high-speed compliant cable of less than 3m in length should be used when operating the xCORE-200 Multichannel Audio Platform. XMOS cannot guarantee correct operation of the xCORE-200 Multichannel Audio Platform should any other cable be used. This product is, like most electronic equipment, sensitive to Electrostatic Discharge (ESD) events. Users should operate the xCORE-200 Multichannel Audio Platform with appropriate ESD precautions in place. 16 Dimensions The xCORE-200 Multichannel Audio Platform dimensions are 180x110mm. The mounting holes are 2mm in diameter. XM007657C xCORE-200 Multichannel Audio Platform 2v0 Hardware Manual 17 16/27 xCORE-200 Multichannel Audio Platform Portmap The table below provides a full description of the port-pin mappings described throughout this document for the XK-AUDIO-216-MC-AB board. Figure 26: xCORE-200 Multichannel Audio Platform Portmap XM007657C Pin X0D00 X0D01 X0D02 X0D03 X0D04 X0D05 X0D06 X0D07 X0D08 X0D09 X0D10 X0D11 X0D12 X0D13 X0D14 X0D15 X0D16 X0D17 X0D18 X0D19 X0D20 X0D21 X0D22 X0D23 X0D24 X0D25 X0D26 X0D27 X0D28 X0D29 X0D30 X0D31 X0D32 X0D33 X0D34 X0D35 X0D36 X0D37 X0D38 X0D39 X0D40 X0D41 X0D42 X0D43 1-bit 1A0 1B 0 4-bit 8-bit 16-bit 32-bit 4A0 4A1 4B 0 4B 1 4B 2 4B 3 4A2 4A3 8A0 8A1 8A2 8A3 8A4 8A5 8A6 8A7 16A0 16A1 16A2 16A3 16A4 16A5 16A6 16A7 32A20 32A21 32A22 32A23 32A24 32A25 32A26 32A27 1C 0 1D 0 1E 0 1F 0 SPI_CLK COAX_TX OPT_TX MCLK_XCORE 4C 0 4C 1 4D 0 4D 1 4D 2 4D 3 4C 2 4C 3 8B 0 8B 1 8B 2 8B 3 8B 4 8B 5 8B 6 8B 7 16A8 16A9 16A10 16A11 16A12 16A13 16A14 16A15 1G0 1H 0 1I 0 1J 0 4E 0 4E 1 4F 0 4F 1 4F 2 4F 3 4E 2 4E 3 1K 0 1L0 1M 0 1N 0 1O 0 1P 0 Signal PLL_SYNC SPI_CS I2C_SCL I2C_SDA QSPI_D0 QSPI_D1 QSPI_D2 QSPI_D3 8C 0 8C 1 8C 2 8C 3 8C 4 8C 5 8C 6 8C 7 16B 0 16B 1 16B 2 16B 3 16B 4 16B 5 16B 6 16B 7 8D 0 8D 1 8D 2 8D 3 8D 4 8D 5 8D 6 8D 7 16B 8 16B 9 16B 10 16B 11 16B 12 16B 13 16B 14 16B 15 32A28 32A29 OVERFLOW BUTTON_1 BUTTON_2 BUTTON_3 SWITCH_1 32A30 32A31 LRCLK SCLK xSDIO1 xSDIO2 DSD_MODE DAC_RST_N USB_SEL0 USB_SEL1 VBUS_OUT_EN PLL_SELECT ADC_RST_N MCLK_FSEL xSDIO3 xSDIO4 xDAC_SD1 xDAC_SD2 xDAC_SD3 xDAC_SD4 XL_DN1 XL_DN0 XL_UP0 XL_UP1 xCORE-200 Multichannel Audio Platform 2v0 Hardware Manual Pin 1-bit 4-bit 8-bit 16-bit 32-bit Signal X1D02 4A0 8A0 16A0 32A20 ETH_RST_N X1D03 4A1 8A1 16A1 32A21 ETH_INT X1D04 4B 0 8A2 16A2 32A22 BUTTON_1 X1D05 4B 1 8A3 16A3 32A23 BUTTON_2 X1D06 4B 2 8A4 16A4 32A24 BUTTON_3 X1D07 4B 3 8A5 16A5 32A25 SWITCH_1 X1D08 4A2 8A6 16A6 32A26 4A3 8A7 16A7 32A27 X1D00 1A0 X1D01 1B 0 X1D09 Figure 27: xCORE-200 Multichannel Audio Platform Portmap XM007657C 17/27 X1D10 1C 0 X1D11 1D 0 MDIO MDC X1D14 4C 0 8B 0 16A8 32A28 LED_ROW_0 X1D15 4C 1 8B 1 16A9 32A29 LED_ROW_1 X1D16 4D 0 8B 2 16A10 LED_COL_0 X1D17 4D 1 8B 3 16A11 LED_COL_1 X1D18 4D 2 8B 4 16A12 LED_COL_2 X1D19 4D 3 8B 5 16A13 X1D20 4C 2 8B 6 16A14 32A30 X1D21 4C 3 8B 7 16A15 32A31 X1D26 4E 0 8C 0 16B 0 ETH_TX_CLK X1D27 4E 1 8C 1 16B 1 ETH_TX_CTL X1D28 4F 0 8C 2 16B 2 ETH_RX_CLK X1D29 4F 1 8C 3 16B 3 ETH_RX_CTL X1D30 4F 2 8C 4 16B 4 ETH_RX0 X1D31 4F 3 8C 5 16B 5 ETH_RX1 X1D32 4E 2 8C 6 16B 6 ETH_RX2 X1D33 4E 3 8C 7 16B 7 ETH_RX3 LED_COL_3 LED_ROW_2 LED_ROW_3 X1D35 1L0 X1D36 1M 0 8D 0 16B 8 X1D37 1N 0 8D 1 16B 9 MIDI_TX X1D38 1O 0 8D 2 16B 10 OPT_RX X1D39 1P 0 8D 3 16B 11 COAX_RX X1D40 8D 4 16B 12 ETH_TX3 X1D41 8D 5 16B 13 ETH_TX2 X1D42 8D 6 16B 14 ETH_TX1 X1D43 8D 7 16B 15 ETH_TX0 MCLK MIDI_RX COMI0TX MI_TX COMI0RX MI_RX IO TILE 0 MCLK_FSEL PLL_SYNC I2C_SCL I2C_SDA PLL_SELECT USB_SEL0 USB_SEL1 VBUS_OUT_EN NLMCLK0DIG MCLK_DIG NLMIDI0RX PIMI0TX01 MIDI_RX PIMI0RX01 NLMIDI0TX MIDI_TX 1K PIR13701 30 27 37 PIU23037 38 PIU23038 31 PIU23031 33 PIU23033 34 PIU23034 35 PIU23035 39 PIU23039 40 PIU23040 28 PIU23028 32 PIU23032 62 PIU23062 63 PIU23063 57 PIU23057 58 0R PIU23058 PIR20202 68 PIU23068 69 PIU23069 70 PIU23070 71 PIU23071 59 PIU23059 61 PIU23061 64 PIU23064 66 PIU23066 88 PIU23088 89 PIU23089 93 PIU23093 94 PIU23094 96 PIU23096 98 PIU23098 99 PIU23099 100 PIU230100 95 PIU23095 97 PIU23097 90 PIU23090 91 PIU23091 3 PIU2303 4 PIU2304 5 PIU2305 7 PIU2307 8 PIU2308 9 PIU2309 10 33R PIU23010 PIR14202 12 33R PIU23012 PIR14302 PIU23030 PIU23027 COAXIAL_RX OPTICAL_RX OPTICAL_TX COAXIAL_TX USB_ID USB_D_P USB_D_N MCLK_FSEL AUDIO_MCLK PLL_SYNC MCLK_XCORE I2C_SCL MCLK_SPDIF I2C_SDA 24M_CLK PLL_SELECT U_xC-200-MC-AUDIO-Clock xC-200-MC-AUDIO-Clock.SchDoc USB_SEL0 USB_SEL1 VBUS_OUT_EN NLSWITCH01 SWITCH_1 PISCL01 PISDA01 MCLK_XCORE PIMCLK01 MCLK_DIG 24M_CLK MCLK_AUDIO NLMCLK0AUDIO GND 43R2 48 X1D35 X1D36 X1D37 X1D38 X1D39 X1D40 X1D41 X1D42 X1D43 X1D26 X1D27 X1D28 X1D29 X1D30 X1D31 X1D32 X1D33 X1D14 X1D15 X1D16 X1D17 X1D18 X1D19 X1D20 X1D21 X1D00 X1D01 X1D02 X1D03 X1D04 X1D05 X1D06 X1D07 X1D08 X1D09 X1D10 X1D11 USB_RTUNE 85 86 72 PIU23072 74 PIU23074 75 PIU23075 76 PIU23076 77 PIU23077 79 PIU23079 82 PIU23082 84 PIU23084 121 PIU230121 122 PIU230122 PIU23085 3 7 PIU2403 1 2 PIJ9020 PIJ9018 PIJ9016 PIJ9014 HEADER_RA PIJ9019 PIJ908 PIJ9010 PIJ909 PIJ9012 PIJ906 PIJ907 6 8 10 12 14 16 18 20 PIJ902 4 PIJ904 J9 COJ9 PIJ905 5 7 9 11 PIJ9011 TDO 13 NLTDO PIJ9013 XSYS_RST_N 15 NLXSYS0RST0N PIJ9015 17 PIJ9017 19 PIJ901 3 PIJ903 SPI_CS SPI_CLK 3V3 GND PIU2404 PIU2406 6 4 8 PIU2408 1 PIU2401 NLTX2 TX2 NLTX1 TX1 NLTX0 TX0 NLTX3 TX3 NLRX0 RX0 NLRX1 RX1 NLRX2 RX2 NLRX3 RX3 NLRX0CTL RX_CTL NLTX0CLK TX_CLK NLTX0CTL TX_CTL NLRX0CLK RX_CLK BUTTON_1 BUTTON_2 BUTTON_3 SWITCH_1 100N GND PIC13602 C136 XL_DN1 XL_DN0 XL_UP0 XL_UP1 GND POR 3V3 3 PIU2603 XSYS_RST_N A2 A1 NC7WZ07 1 PIU2601 PIR19301 POR_N NLPOR0N COR193 GND Y2 Y1 COR194 PIR19401 C142 C143 PIR14502 TCK TMS TDI TDO R145 COR145 125 CLK RST_N C144 C145 C146 2A 2B C147 C148 KSC421J COSW4 SW4 PIJ7012 12 PIJ709 9 PIJ706 6 3 PIJ703 C150 1 2 4 PIJ704 5 PIJ705 7 PIJ707 8 PIJ708 10 PIJ7010 11 PIJ7011 PIJ701 C151 2V5 10 14 13 NLDAC0SD7 DAC_SD7 NLiADC0SD4 iADC_SD4 NLDAC0SD8 DAC_SD8 110 111 65 50 NC NC VDDIOT VDDIOT C153 3V3 C154 XE216-512-TQ128 PIU23050 PIU23065 PIU230111 PIU230110 GND 16 3V3 8 GND PIU2208 12 9 PIU22012 PIU2209 7 PIU2207 4 PIU2204 PIU22016 VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD VDD C156 GND PLL_AGND PLL_AVDD 11 16 17 24 36 PIU23036 41 PIU23041 56 PIU23056 60 PIU23060 73 PIU23073 80 PIU23080 81 PIU23081 87 PIU23087 101 PIU230101 102 PIU230102 120 PIU230120 126 PIU230126 GND C138 129 PIU230129 PIU230104 104 PIU230103 103 49 PIU23049 PIU23024 PIU23017 PIU23016 PIU23011 1V0 SCL SDA ADC_RST_N LRCLK SCLK MCLK C140 C139 100N GND PIC1402 PIC1420 100N PIC14302 100N PIC1402 100N PIC14502 100N PIC14602 100N PIC14702 100N PIC14802 100N PIC14902 100N PIC1502 100N PIC1502 100N PIC1520 100N 100N GND PIC15302 PIC15402 100N PIC1502 100N PIC15602 100N PIC13802 100N PIC13902 100N 100N GND PIC13702 C137 2V5 100N GND 100N C135 PIC13502 3 6 PTH_M3 MTH5 COMTH5 PTH_M3 MTH6 COMTH6 PTH_M3 GND PIMTH601 PIMTH501 PIMTH401 PIMTH301 PIMTH201 PIMTH101 1 of 04/08/2015 Date Sheet Sheet Name xC-200-MC-AUDIO-Top.SchDoc Size A2 Project Name xCORE-200 MC AUDIO PTH_M3 PTH_M3 PTH_M3 COMTH4 MTH4 DCB-6 PROD13 COPROD13 DCB-6 PROD14 COPROD14 DCB-6 MTH3 COMTH3 MTH2 COMTH2 DCB-6 DCB-6 COPROD12 PROD12 PROD11 COPROD11 DCB-6 COMTH1 MTH1 PIJ8012 12 9 PIJ809 PROD10 COPROD10 COPROD9 PROD9 PIJ807 PIJ805 PIJ806 PIJ803 COJ8 J8 PIJ802 4 PIJ804 1 2 COPROD1 PROD1 JUMPER SHUNT COPROD2 PROD2 JUMPER SHUNT COPROD3 PROD3 JUMPER SHUNT COPROD4 PROD4 JUMPER SHUNT PIJ801 5 7 iADC_SD3 PIJ808 8 10 PIJ8010 iADC_SD4 PIJ8011 11 iADC_SD2 iADC_SD1 PIC13501 COC135 3V3 OVERFLOW NLADC0SD1 ADC_SD1 NLADC0SD2 ADC_SD2 ADC_SD3 NLADC0SD3 ADC_SD4 NLADC0SD4 xSDIO4 xSDIO3 xSDIO2 xSDIO1 PIC1401 COC140 PIC1402 PIR14 01 GND COR14 PIR14 02 1V0 OVFL_N SDOUT1 SDOUT2 SDOUT3 SDOUT4 U_xC-200-MC-AUDIO-ADC xC-200-MC-AUDIO-ADC.SchDoc MCLK LRCLK SCLK SD1 SD2 SD3 SD4 DAC_RST_N SCL SDA DSD5 DSD6 DSD7 DSD8 USB_VDD C155 GND 4A 3A 2A 1A VCC U_xC-200-MC-AUDIO-DAC xC-200-MC-AUDIO-DAC.SchDoc 74CBTLV3257 PIU22015 I2C_SCL I2C_SDA ADC_RST_N LRCLK SCLK MCLK_AUDIO OTP_VCC 52 PIU23052 VDDIOR 67 PIU23067 VDDIOR 78 PIU23078 VDDIOR 83 PIU23083 VDDIOR 92 PIU23092 VDDIOR S OE_N PIU2201 1 15 4B2 4B1 3B2 3B1 2B2 2B1 PIU22013 PIU22014 PIU22010 PIU22011 MCLK_AUDIO LRCLK SCLK NLDAC0SD1 DAC_SD1 NLDAC0SD2 DAC_SD2 NLDAC0SD3 DAC_SD3 NLDAC0SD4 DAC_SD4 DAC_RST_N I2C_SCL I2C_SDA DAC_SD5 DAC_SD6 DAC_SD7 DAC_SD8 USB_VDD33 6 PIU2306 VDDIOL 14 PIU23014 VDDIOL 19 PIU23019 VDDIOL 29 PIU23029 VDDIOL 42 PIU23042 VDDIOL 105 PIR14 01 GND PIU230105 U23B 11 NLiADC0SD3 iADC_SD3 COR14 6 PIU2206 NLDAC0SD6 DAC_SD6 PIR14102 5 PIU2205 NLiADC0SD2 iADC_SD2 1B2 1B1 COU22 U22 2 3 PIU2203 NLDAC0SD5 DAC_SD5 PIU2202 NLiADC0SD1 iADC_SD1 PIU23044 C152 3V3 44 xDAC_SD4 xDAC_SD3 xDAC_SD2 COPROD5 PROD5 JUMPER SHUNT PROD6 COPROD6 JUMPER SHUNT COPROD7 PROD7 JUMPER SHUNT PROD8 COPROD8 JUMPER SHUNT PIJ702 DSD_MODE xDAC_SD1 BUTTON_3 BUTTON_2 BUTTON_1 COJ7 J7 PIR13 01 PIR13401 PIR13501 PIR13 02 PIR13402 PIR13502 COR13 COR134COR135 C149 PISW402B 2A 2B PISW402A PISW401B KSC421J PISW401A 1A 1B PISW302B COSW3 SW3 PISW302A 1A 1B PISW301B KSC421J PISW301A GND XE216-512-TQ128 128 PIU230128 TCK 127 PIU230127 TMS 2 PIU2302 TDI 1 PIU2301 TDO 0R 123 PIR14501 PIU230123 TRST_N PIU230125 124 PIU230124 COU23A COU23B COU23C COU23D COU23E U23A SWITCH_1 NL24M0CLK 24M_CLK RST_N NLRST0N 10K PIR13602 COR136 R136 PIR13601 PISW102B 2A 2B PISW102A COSW1 SW1 PISW101B 1A 1B PISW101A 3V3 PIC1401 COC141PIC14201 COC142PIC14301 COC143PIC1401 COC144PIC14501 COC145PIC14601 COC146PIC14701 COC147PIC14801 COC148PIC14901 COC149PIC1501 COC150PIC1501 COC151PIC15201 COC152 PIC15301 COC153PIC15401 COC154PIC1501 COC155PIC15601 COC156PIC13801 COC138PIC13901 COC139 PIC13701 COC137 C141 1V0 GND PIU2602 2 4 PIU2604 6 PIU2606 5 PIU2605 PIR19402 3V3 GND PISW203 PISW202 PISW201 3V3 VCC INT MDIO MDC ETH_RST 3 2 1 PIR19302 COU26 U26 INT MDIO MDC PHY_RSTn CANDK_OS COSW2 SW2 3V3 PIC13601 COC136 3V3 TX3 TX2 TX1 TX0 TX_CLK TX_EN RX_CLK RX_DV RX0 RX1 RX2 RX3 U_xC-200-MC-AUDIO-Ether xC-200-MC-AUDIO-Ether.SchDoc LED_ROW_0 LED_ROW_1 LED_COL_0 LED_COL_1 LED_COL_2 LED_COL_3 LED_ROW_2 LED_ROW_3 U_xC-200-MC-AUDIO-LEDA xC-200-MC-AUDIO-LEDA.SchDoc U_xC-200-MC-AUDIO-Power xC-200-MC-AUDIO-Power.SchDoc Vcc CE_n SCK GND IS25LQ080B PIU2407 IO0 IO1 IO2 IO3 22R PIR14002 MCLK_XCORE MIDI_RX MIDI_TX OPT_RX COAX_RX COU24 U24 PIU2405 2 PIU2402 5 PIU23015 PIU23013 13 15 18 PIU23018 20 PIU23020 21 PIU23021 106 PIU230106 107 PIU230107 108 PIU230108 109 PIU230109 PIU230114 PIU230113 PIU230112 PIR14801 COR147 R147 NLETH0RST ETH_RST PIR14701 COR148 R148 NLINT INT NLMDIO MDIO NLMDC MDC 0R PIR14702 0R PIR14802 112COR140 R140 PIR14001 113 114 115 PIU230115 116 PIU230116 117 PIU230117 118 PIU230118 119 PIU230119 PIU23053 53 22 PIU23022 23 PIU23023 25 PIU23025 26 PIU23026 54 PIU23054 55 PIU23055 51 PIU23051 PIU23086 TDI NLTDI TMS NLTMS TCK NLTCK QSPI_D0 QSPI_D1 QSPI_D2 QSPI_D3 XE216-512-TQ128 XE216-512-TQ128 PIU23048 MCLK COMCLK PIR14602 R146 COR146 PIR14601 USB_DP USB_DM U23E 45 PIU23045 USB_VBUS 43 PIU23043 USB_ID PIU23047 PIU23046 46 47 COC0RX C_RX COO0RX O_RX COO0TX O_TX C_TX COC0TX VBUS_IN PIC0TX01 PIO0TX01 PIC0RX01 PIO0RX01 COSCL SCL COSDA SDA USB_D_P NLUSB0D0P USB_D_N NLUSB0D0N OPT_TX COAX_TX OPT_RX NLOPT0RX NLCOAX0RX COAX_RX NLLRCLK PILRCLK01 LRCLK COLRCLK LRCLK NLSCLK SCLK PISCLK01 COSCLK SCLK NLxSDIO1 PIxSDIO101 COxSDIO1 xSDIO1 xSDIO1 NLxSDIO2 PIxSDIO201 COxSDIO2 xSDIO2 xSDIO2 NLDSD0MODE DSD_MODE NLDAC0RST0N DAC_RST_N NLUSB0SEL0 USB_SEL0 NLUSB0SEL1 USB_SEL1 NLVBUS0OUT0EN VBUS_OUT_EN NLPLL0SELECT PLL_SELECT NLADC0RST0N ADC_RST_N NLMCLK0FSEL MCLK_FSEL NLxSDIO3 PIxSDIO301 COxSDIO3 xSDIO3 xSDIO3 NLxSDIO4 PIxSDIO401 COxSDIO4 xSDIO4 xSDIO4 NLxDAC0SD1 PIxDAC0SD101 COxDAC0SD1 xDAC_SD1 NLxDAC0SD2 PIxDAC0SD201 xDAC_SD1 xDAC_SD2 xDAC_SD2 NLxDAC0SD3 PIxDAC0SD301 COxDAC0SD2 xDAC_SD3 COxDAC0SD3 xDAC_SD3 NLxDAC0SD4 xDAC_SD4 PIxDAC0SD401 COxDAC0SD4 xDAC_SD4 NLXL0DN1 XL_DN1 NLXL0DN0 XL_DN0 COR142 NLXL0UP0 R142 XL_UP0 PIR14201 COR143 NLXL0UP1 R143 XL_UP1 PIR14301 PIR20201 U_xC-200-MC-AUDIO-USB xC-200-MC-AUDIO-USB.SchDoc MCLK_DIO MIDI_TX MIDI_RX NLSPI0CLK SPI_CLK NLCOAX0TX COAX_TX NLOPT0TX OPT_TX NLMCLK0XCORE MCLK_XCORE PIR13901 PIR13801 COR139COR138 2K2 2K2 R139 R138 COR202 R202 NLOVERFLOW OVERFLOW NLBUTTON01 BUTTON_1 NLBUTTON02 BUTTON_2 NLBUTTON03 BUTTON_3 NLPLL0SYNC PLL_SYNC NLSPI0CS SPI_CS NLI2C0SCL I2C_SCL NLI2C0SDA I2C_SDA NLQSPI0D0 QSPI_D0 NLQSPI0D1 QSPI_D1 NLQSPI0D2 QSPI_D2 NLQSPI0D3 QSPI_D3 R137 U_xC-200-MC-AUDIO-DIG xC-200-MC-AUDIO-DIG.SchDoc XE216-512-TQ128 X0D00 X0D01 X0D02 X0D03 X0D04 X0D05 X0D06 X0D07 X0D08 X0D09 X0D10 X0D11 X0D12 X0D13 X0D14 X0D15 X0D16 X0D17 X0D18 X0D19 X0D20 X0D21 X0D22 X0D23 X0D24 X0D25 X0D26 X0D27 X0D28 X0D29 X0D30 X0D31 X0D32 X0D33 X0D34 X0D35 X0D36 X0D37 X0D38 X0D39 X0D40 X0D41 X0D42 X0D43 U23D IO TILE 1 USB PIR13902 PIR13802 10K 10K 10K 10K R133 R134 R135 3V3 R193 COR137 SYSTEM PIR13702 10K R141 3V3 R194 10K POWER XM007657C 4R7 Figure 28: xCORE-200 Multichannel Audio Platform schematic (1 of 9) R144 9 Rev 2V0 18 U23C xCORE-200 Multichannel Audio Platform 2v0 Hardware Manual 18/27 xCORE-200 Multichannel Audio Platform schematics 510R R102 POPHY0RSTn POPHY0RSTN PHY_RSTn POMDC MDC POMDIO MDIO POINT INT POTX0 TX0 PORX3 RX3 POTX3 TX3 POTX2 TX2 POTX1 TX1 PORX2 RX2 PORX0CLK RX_CLK PORX0DV RX_DV PORX0 RX0 PORX1 RX1 POTX0EN TX_EN POTX0CLK TX_CLK PIJ5016 GRN PIJ5017 PIR10301 PIR107 1 COR107 COR108 PIR107 2 PIR108 1 PIR108 2 3V3 VDDH_REG R107 PIJ5014 PIJ5013 YEL 510R 1K5 14 R103 16 17 10K R108 J5B L829-1J1T-43 COR109 GND PIR10902 PIR10901 PIR1 01 PIC10102 CO 106 PIC10601 10K PIR105 1 PIR10601 PIR10602 PIR1 301 20 PIC90 2 470P C90 CLK_25M RBIAS PIU1407 7 PIU14023 23 5 PIU1405 XTLI XTLO PIU1404 4 RSTn PIU1401 1 PIU14039 39 MDIO 40 PIU14040 MDC INT GTX_CLK TX_EN RX_CLK RX_DV RXD0 RXD1 RXD2 RXD3 TXD3 TXD2 TXD1 TXD0 GND PIU14020 GND COR1 3 PIR1 302 PIX201 FA238 COX2 X2 PIX203 470P C89 GND PIC8902 33 PIU14033 32 PIU14032 31 PIR11202 PIU14031 22R PIU14030 30 29 PIU14029 28 PIU14028 26 PIU14026 25 PIU14025 37 PIU14037 36 PIU14036 35 PIU14035 34 PIU14034 470P C88 GND PIC8 02 25M PIX202 PIX204 CO 10 PIC10101 PIR10502 10K PIC8 01 COC88PIC8901 COC89PIC90 1 COC90 PIR104 1 PIR10402 R106 COR104 COR105 COR106 VDDH_REG COR112 R112 PIR11201 PIC10602 GND PIR1 0 1 PIR1 0 2 COR1 0 COR1 PIR1 02 J5C L829-1J1T-43 VDDH_REG PIJ5015 ORA 15 10K 13 PIR10302 R110 COR103 10K PIR102 1 R109 R104 PIR10202 10K R111 27P 27P COR102 C101 C106 PIU14021 PIU1402 PIU1402 21 LED_ACT 10K R113 22 LED_1000 R105 2K37 24 LED_10_100 VDDH_REG AVDD33 VDD33 AVDDL AVDDL AVDDL DVDDL LX PIU1409 PIU140 PIU1402 PIU1403 PIU1405 PIU1406 PIU1408 PIU1409 17 8 41 NLTRD010P TRD_1_P NLTRD010N TRD_1_N NLTRD030N TRD_3_N NLTRD030P TRD_3_P NLTRD020N TRD_2_N NLTRD020P TRD_2_P NLTRD040P TRD_4_P PIC9802 100N GND C107 PIC108 2 GND 100N 1U 100N C99 GND PIC9 02 PIC1071 COC107 PIC108 1 COC108 PIC1072 C108 100N GND 10U 470R 500mA PIFB102 PIFB201 GND 1U 100N GND PIC104 2 PIC1052 C105 PIC104 1 COC104 PIC1051 COC105 C104 470R XXA PIFB202 1V1 100N GND PIC920 C92 COFB2 FB2 100N GND PIC10 2 C100 PIFB101 GNDCOFB1 FB1 PIC9702 C97 PIC9102 PIC9701 COC97 1V1 C91 PIC910 COC91PIC9201 COC92 1V1 PIC9801 COC98PIC9 01 COC99PIC10 1 COC100 C98 PIL102 VDDH_REG 4U7 GND PIL101 COL1 L1 GND PIU14041 27 PIU14027 PIU1408 14 3 PIU14014 PIU1403 PIU14017 NLTRD040N TRD_4_N GND 6 11 PIU14011 PIU1406 38 PIU14038 2 PIU1402 AR8035 COU14 U14 VDDIO_REG TRXP0 TRXN0 TRXP1 TRXN1 TRXP2 TRXN2 TRXP3 TRXN3 XM007657C 9 10 12 13 15 16 18 19 Figure 29: xCORE-200 Multichannel Audio Platform schematic (2 of 9) 3V3 C102 GND 10U GND 100N C103 PIC1021 COC102PIC1031 COC103 PIC102 PIC1032 3V3 TRD_4_N TRD_4_P TRD_3_N TRD_3_P TRD_2_N TRD_2_P TRD_1_N TRD_1_P C94 C95 1 2 GND 100N PIC9302 PIC9402 L829-1J1T-43 Sheet 2 of Sheet Name xC-200-MC-AUDIO-Ether.SchDoc 04/08/2015 Project Name xCORE-200 MC AUDIO 100N C96 Date 100N PIC9502 PIC9602 Size A3 100N TRD3+ TRCT3 TRD38 TRD4+ 7 PIJ507 TRCT4 9 PIJ509 TRD4PIJ508 PIJ502 PIJ501 3 PIJ503 4 TRD2+ 6 PIJ506 TRCT2 5 PIJ505 TRD2PIJ504 TRD1+ TRCT1 TRD1- COJ5A COJ5B COJ5C J5A PIC9301 COC93 PIC9401 COC94 PIC9501 COC95 PIC9601 COC96 C93 11 12 10 PIJ5010 PIJ5012 PIJ5011 9 Rev 2V0 xCORE-200 Multichannel Audio Platform 2v0 Hardware Manual 19/27 GND C125 GND 47U MIC5213 GND 3 NC EN PIU2103 2 PIU2102 OUT IN 47U GND COU21 U21 GND PIC13 02 1 PIU2101 GND GND PIC1320 1U 4U7 C133 3V3A GND 2U2 C128 5VA PIC13201 COC132PIC13 01 COC133 GND 100N PIC1302 C131 C124 1U GND PIC160 2 C160 PIC160 1 COC160 12V 120R 3A PIU2104 4 PIC102 PIC101 PIC1 01 PIC1 201 COR1 4 PIR1 402 5V 1U C130 GND PIC1302 1U COC134 C134 GND PIC13401 PIC13402 10U GND PIC1 20 PIC1301 COC130 10U GND PIC1 02 2V5 100U 100N 4 GND_4 9 PIU1509 GND_9 8 PIU1504 PIU1508 4U7 4U7 GND PIC1 901 PIC1 902 6 PIU1806 5 PIU1805 EN VIN_A PIU1802 PIU1807 GND VIN_SW ST1S06 PIU1804 4 PIR1 901 PIR1 902 GND COR1 9 2N2 C114 FB SW PIC1401 COC114 PIC1402 COU18 U18 6 PIU1506 5 PIU1505 3 1 PIU1503 PIU1501 EN VIN_A VIN_SW PIU1602 PIU1607 FB SW GND VREF = 0.8V VOUT = 0.8 x (1 + 4.7/18) = 1.01V 6 PIU1606 5 PIU1605 4 PIU1604 ST1S06 COU16 U16 VREF = 0.8V VOUT = 0.8 x (1 + 18/5.6) = 3.37V NL3V30PG 3V3_PG COC119 C119 5V GND PIC120 PIC1201 COC122 C122 5V COMP FB SW SS BOOT 7 EN COU15 U15 RT8293B VIN 2 PIU1507 GND COC117 C117 100K GND PIC1702 PIC1701 PIR1 401 COC110 COC111 COC112 C110 C111 C112 GND 5 PIU2105 PIC12501 COC125PIC12401 COC124PIC12801 COC128 PIC1250 PIC12402 PIC12802 C132 120R 500mA PIFB502 120R 3A GND SMBJ22A PID301 COD3 D3 PID302 B240A PIC1301 COC131 PIFB501 COFB5 FB5 3V3 GND 4U7 C126 PIC12601 COC126 PIC1260 PIFB401 PIFB402 PIC1092 COFB4 FB4 5V GND 100N PIC1091 3A COC109 C109 R114 PIU1502 R119 12V 1 PIU1601 2U2 2U2 PIR12 01 PIR12 02 PIR1 701 PIR1 702 PIR13101 PIR13102 PIR12801 PIR12802 PIR12601 PIR12602 PIR12 01 D4 COR1 5 COGND5 GND5 COGND6 GND6 COGND7 GND7 COGND4 GND4 PIR12901 22U COR123 GND PIGND601 PIGND701 PIGND501 PIGND401 PIGND301 PIGND101 PIGND201 GND PIC1201 PIC120 GND PIR12301 PIR12302 GND COC120 C120 1V0 GND PID702 PID701 PIR130 1 PIR130 2 CO3V3A 3V3A CO2V5 2V5 CO12V 12V CO5VA 5VA PI2V501 PI12V01 PI3V3A01 PI5VA01 PI1V001 PI5V01 PI3V301 GREEN GREEN CO5V 5V CO3V3 3V3 CO1V0 1V0 GND COD7 D7 PIC1230 22U COC123 C123 PIC12301 PIR12902 3V3 GND COR129 COR130 GND 22U 22U GND C116 C115 PID402 PIR1 501 PIR1 502 5V COD4 PIC1501 COC115PIC1 601 COC116 PID401 PIC1502 PIC1 602 COGND1 GND1 COGND2 GND2 COGND3 GND3 GND COR126 COR12 PIR12 02 GND PIL302 COR13 COR128 PIL402 GND COR12 COR1 7 PIL202 COL3 L3 3 PIU1603 PIL301 1 PIU1801 6U8 COL4 L4 PIL401 PIL201 PIU1803 3 PIC1 302 COL2 L2 100N PIC1 301 PID202 COC113 C113 1N4148W PID201 COD2 D2 R117 R121 PIFB302 33K GND GND_PAD 62K 11K8 PIFB301 R128 COFB3 FB3 R129 1K 1K PID101 2K2 PID102 4K7 PIF102 18K 5K6 18K R131 R122 R126 R115 R130 1K D1 COF1 F1COD1 R123 C129 PIC1290 1N PIR12701 PIR12702 PIR12401 3V3_PG GND 3 ENIN ADM1085 1 PIU1701 VIN COU17 U17 PIU1703 GND 5V 3V3 1V0 5VA3V3A2V5 12V GND COR127 COR124 PIR12402 1V0 GND 3 PIU2003 PIC12901 COC129 CD 5 INPUT 2 PIU2005 NCP303LSN30 COU20 U20 PIU2002 3V3 100N C118 4 PIU2004 5 2 15P GND PIC120 C121 PIR12501 PIR12502 PIC1201 COC121 COR125 3V3 3V3_PG POPOR POR 3 of 04/08/2015 Sheet Sheet Name xC-200-MC-AUDIO-Power.SchDoc Date Project Name xCORE-200 MC AUDIO GND PIU1702 PIU1705 4 PIU1704 6 PIU1706 3V3 PIR13201 PIR13202 Size A3 CEXT GND ENOUT VCC GND PIC1802 1 PIU2001 PIC1801 COC118 3V3 NC RST_OUT COR132 3V3 10K PIF101 3K9 10K 2 7 GND GND_PAD 2 7 R124 R127 R132 PJ-002A 1 PIJ601 3 PIJ603 2 PIJ602 10K XM007657C R125 Figure 30: xCORE-200 Multichannel Audio Platform schematic (3 of 9) COJ6 J6 9 Rev 2V0 xCORE-200 Multichannel Audio Platform 2v0 Hardware Manual 20/27 POSD4 SD4 POSD3 SD3 100N GND PIC720 C72 R87C PIR8703 3 R87D PIR8704 4 R91D PIR9104 4 R91C PIR9103 3 220R 470R PIR8502470R 8 470R PIR8708 7 470R PIR8707 PIR87066 470R PIR87055 470R 19 15 16 I2C ADDR = 0011000[R/W] PIU13015 PIU13016 GND 100N C77 PIC7 01 COC77 PIC7 02 18 PIU13018 GND 17 PIU13017 PIU13019 3V3A 43 PIU13043 0R 3 PIU1303 0R 2 PIU1302 0R 1 PIU1301 0R 48 PIU13048 47 PIU13047 46 PIU13046 45 PIU13045 44 PIU13044 0R 42 PIR9302 PIU13042 5 PIR8905 6 PIR8906 PIR89077 PIR89088 POSDA SDA PIR9301 COR93 R93 4 PIR8904 3 PIR8903 2 PIR8902 1 PIR8901 6 7 9 PIU1309 8 PIU1308 11 PIU13011 13 PIU13013 14 PIU13014 PIU1307 PIU1306 VLC RST_N SCL SDA AD0 DSD1 DSD2 DSD3 DSD4 DSD5 DSD6 DSD7 DSD8 DSD_SCLK VLS MCLK LRCLK SCLK SDIN1 SDIN2 SDIN3 SDIN4 CS4384 COU13 U13 POSCL SCL R89D R89C R89B COR89A COR89B COR89C COR89D R89A 5 470R PIR9105 6 470R PIR9106 7 470R PIR9107 PIR91088 470R PIR8402 PIR8302 GND PODAC0RST0N DAC_RST_N R91B PIR9102 2 PODSD7 DSD7 COR91D COR91A COR91B COR91C R91A PIR9101 1 PODSD8 DSD8 PODSD5 DSD5 PODSD6 DSD6 PIC7201 COC72 3V3A COR83 R83PIR8301 POMCLK MCLK COR84 R84PIR8401 POLRCLK LRCLK COR85 R85PIR8501 POSCLK SCLK COR87D COR87A COR87B COR87C R87A PIR8701 1 POSD1 SD1 R87B PIR8702 2 POSD2 SD2 GND 100N PIC6502 PIU1304 PIU1305 PIU130 PIU1302 PIU130 GND 5 1U 4 VD GND PIC6402 GND 31 PIC6501 M3(TST) 12 PIC6401 M4(TST) 10 PIU1302 32 1U NLAOUT4 AOUT4 34 NLAOUT8 AOUT8 25 24 22 41 PIU13040 TST_OUT 21 20 PIU13020 PIU13041 PIU13022 AOUT8 AOUT7 GND 1U 100N GND C79 C78 C80 C81 COC86 COR9 COR10 PIC8601 PIC8602 562R 562R PIC8502 2N2 C85 GND 2N2 C87 PIC8701 COC87 PIC8702 PIJ401 PIJ403 3 1 35RAPC7J AOUT6 AOUT5 AOUT4 AOUT3 AOUT2 AOUT1 J4B 2 PIJ402 GND PIC8501 COC85 GND PIR10002 COR100 R100 PIR10001 GND PIR10 1 PIR10102 GND PIR9 01 PIR9 02 PIR9802 COR98 R98 PIR9801 47U GND PIC8401 PIC8402 COC84 GND 100N PIC7801 COC78PIC7901 COC79 PIC80 1 COC80PIC810 COC81 PIC7802 PIC7902 PIC80 2 PIC8102 NLAOUT7 AOUT7 PIU13025 PIU13024 NLAOUT6 AOUT6 28 PIU13028 29 PIU13029 PIU13034 NLAOUT5 AOUT5 NLAOUT3 AOUT3 35 38 PIU13035 NLAOUT1 AOUT1 NLAOUT2 AOUT2 GND PIC6702 PIU13038 39 PIU13039 PIU13021 FILT+ MUTEC2 MUTEC1 AOUT8 AOUT7 AOUT6 AOUT5 AOUT4 AOUT3 AOUT2 AOUT1 GND 100N PIC6 02 C67 PIC6701 COC67 5VA PIC6 01 VQ VA COC66 C66 22U COC62 PIR9501 PIR9502 PIR9401 COR97 562R 2N2 COC74 C74 2N2 PIC7402 2N2 C76 PIC8302 Date Size A3 2N2 C83 PIC8301 COC83 GND PIR9602 2 1 04/08/2015 Sheet 4 of Sheet Name xC-200-MC-AUDIO-DAC.SchDoc Project Name xCORE-200 MC AUDIO 35RAPC7J COJ4A COJ4B J4A 5 6 PIJ406 PIJ405 7 PIJ407 8 PIJ408 PIJ404 4 35RAPC7J J3B PIJ301 3 PIJ303 PIJ302 GND PIC7601 COC76 PIC7602 6 35RAPC7J COJ3A COJ3B J3A PIJ306 GND PIC7401 GND PIR9402 COR96 R96 PIR9601 GND PIR9701 PIR9702 562R PIC7102 C71 PIC710 COC71 GND PIR9002 COR94 R94 562R 2N2 C69 4 7 8 5 PIJ305 PIJ308 PIJ307 PIJ304 GND PIC6901 COC69 PIC6902 GND PIR8602 COR90 R90 PIR9001 GND COR95 PIC8201 PIC8202 COC82 PIR9201 PIR9202 562R 2N2 GND PIR8102 COR86 R86 PIR8601 GND COR92 PIC7501 PIC7502 COC75 PIR8 01 PIR8 02 562R PIC6302 C63 PIC6301 COC63 GND PIR7902 COR81 R81 PIR8101 GND COR8 PIC7301 PIC7302 COC73 PIR8201 PIR8202 562R COR79 R79 PIR7901 GND COR82 PIC7001 PIC7002 COC70 PIR80 1 PIR80 2 GND PIC6801 PIC6802 COC68 COR80 PIC6201 PIC6202 R80 R82 R88 R92 R95 COC64 COC65 C64 C65 C84 C86 47K 47K 22U R99 R101 C62 C68 C70 C73 C75 C82 47K 22U 22U 22U 22U 47K 47K 47K 47K 22U 22U XM007657C R97 Figure 31: xCORE-200 Multichannel Audio Platform schematic (4 of 9) 47K 2V5 9 Rev 2V0 xCORE-200 Multichannel Audio Platform 2v0 Hardware Manual 21/27 35RAPC7J 2 GND GND PIJ201 PIJ203 3 1 PIJ202 J2B 35RAPC7J PIJ204 4 7 PIJ207 8 PIJ208 5 PIJ205 6 PIJ206 COJ2A COJ2B J2A PIR4701 PIR4702 PIR1 01 PIR1 02 COR29 GND COR1 100N GND PIR2901 PIR2902 100N 100N GND PIR6501 PIR6502 1U 5VA PIR5401 PIR5402 PIR5101 PIR3601 PIR3602 PIR3 01 PIR3 02 100N 1U PIR7201 PIR7202 PIR6901 GND COR72 COR69 PIR6902 PIC120 PIR30 1 PIR30 2 3 PIU403 PIC4601 3 PIU703 PIU702 2 U7A COU7A COU7B PIC4602 C57 PIR6 01 PIU704 GND C58 3 PIU903 PIU902 2 U9A COU9A COU9B 100U GND PIU708 5VA GND 100N GND 100U PIU408 5VA PIR3801 1 PIU701 GND PIU904 1 LMV722 PIU901 470P PIC4901 PIC4902 5VA PIR4001 5 PIU705 6 COR64 PIR6401 PIR6402 PIR4002 PIU706 U7B 91R PIR5801 PIR5802 5 PIU905 PIU906 6 U9B 91R PIR4201 PIC5401 PIR6001 7 LMV722 PIU907 470P PIC5402 PIR7001 91R PIR7002 R70 COR70 91R PIR3402 R34 COR34 PIR5202 PIR6002 COR60 R60 91R PIR1602 PIR2402 PIR3401 R52 COR52 PIR5201 C54 COC54634R LMV722 PIU707 PIR4202 R42 COR42 LMV722 634R COC42 C42 7 7 PIU407 470P PIC2001 PIC2002 470P PIR2401 COR24 R24 91R COR16 R16 PIR1601 COC20 C20 634R LMV722 7 PIU207 470P PIR602 COR6 R6 PIR601 634R COC8 C8 PIC802 PIC4201 PIC4202 5 PIU405 6 PIR2202 PIU406 U4B 91R R58 COR58 PIR5602 R56 COR56 PIR5601 PIR4601 PIR4602 PIR2801 PIR2802 PIC801 COR22 R22 PIR2002 PIR2201 COR40 R40 PIR3802 634R C49 COC49 COR46 470P COR28 COR38 R38 LMV722 1 PIU401 470P 634R C37 COC37 GND PIU40 5 PIU205 6 U2B PIR402 PIU206 COR20 R20 PIR2001 PIR10 1 91R COR4 R4 PIR401 634R COC15 C15 COR10 PIR10 2 PIC1501 PIC1502 LMV722 LMV722 PIU908 470P PIR202 COR2 R2 PIR201 634R COC3 C3 1 PIU201 PIC3701 PIC3702 100U 100N GND C29 C28 GND PIR6 02 2 PIU402 PIC5701 COC57PIC5801 COC58 PIC5702 PIC5802 COR6 PIU204 GND COU4A COU4B U4A 100U GND PIU208 PIC2801 COC28PIC2901 COC29 PIC2802 PIC2902 COR30 COC52 C52 5VA C12 3 COC45 COC46 C45 C46 PIR4801 PIR4802 GND PIC4502 PIC4501 COR48 PIC5202 PIC5201 GND 100N C50 1U GND COR36 COR3 PIC50 1 COC50 PIC50 2 5VA GND COR54 COR51 100N COC18 C18 5VA COC40 C40 PIR5102 PIC1 02 GND PIC1802 PIC1801 GND PIC1602 PIC160 C11 PIR1201 2 COU2A COU2B U2A PIU203 PIU202 PIC1 0 COC11PIC120 COC12 COR12 COC16 C16 5VA PIC4002 PIC4001 GND PIC3802 C38 PIR1801 PIR1802 PIR1501 PIR1502 GND COR18 COR15 PIR1202 COC6 C6 PIC601 1U 5VA PIC602 5VA 8 V+ V- PIC402 PIC3801 COC38 5VA COR65 GND COR47 R47 PIC301 PIC302 634R AIN4NLAIN40 2 3 1 GND PIJ101 PIJ103 PIJ102 J1B 35RAPC7J NLAIN40 AIN4+ AIN3NLAIN30 AIN3+ NLAIN30 NLAIN20 AIN2- 7 8 5 PIJ105 6 PIJ106 GND PIJ108 PIJ107 4 PIJ104 COJ1A COJ1B J1A 35RAPC7J NLAIN20 AIN2+ NLAIN10 AIN1- NLAIN10 AIN1+ R44 PIR4 01 PIR4 02 PIR801 GND PIR6201 PIR6202 1U PIR5301 100N C48 C43 PIR4501 PIR4502 PIC4302 100N GND 1U PIR7101 PIR7102 PIR6701 GND COR71 COR67 PIR6702 C25 PIR2701 PIC250 100N C26 C44 3 PIU603 2 PIU602 PIC4 02 C55 PIR6301 PIR6302 PIU604 GND C56 3 PIU803 2 PIU802 PIC5 02 100N GND PIC5602 100U GND PIU308 1 PIU601 470P PIU80 PIU804 COR25 LMV722 1 PIU801 470P 5 PIU605 6 U6B COR61 PIR6101 PIR6102 PIR3902 PIU606 PIR5701 5 PIU805 6 PIU806 U8B 91R PIR5702 PIR5901 7 LMV722 PIU807 470P PIC5301 PIC5302 PIR6801 91R PIR6802 R68 COR68 91R C31 100N C30 220U AIN8NLAIN80 AIN8+ NLAIN80 AIN7NLAIN70 NLAIN70 AIN7+ GND 1U C32 C33 100N PIC3201 COC32 PIC3 01 COC33 PIC320 PIC3 02 NLAIN60 AIN6- NLAIN60 AIN6+ NLAIN50 AIN5- NLAIN50 AIN5+ PIC30 1 COC30 PIC310 COC31 PIC30 2 PIC3102 GND PIR3202 COR32 R32 PIR5002 PIR5902 R59 COR59 91R PIR1402 PIR2302 PIR3201 COR50 R50 PIR5001 C53 COC53634R LMV722 PIU607 PIR4102 COR41 R41 PIR4101 7 7 LMV722 PIU307 470P C41 COC41634R 470P PIR2301 COR23 R23 91R COR14 R14 PIR1401 COC19634R C19 PIC1901 PIC1902 PIC4101 PIC4102 R57 COR57 PIR5502 R55 COR55 PIR5501 PIR4301 91R 5 PIU305 6 PIR2102 PIU306 U3B 91R 7 LMV722 PIU107 470P PIR502 COR5 R5 PIR501 COC7634R C7 PIC701 PIC702 COR21 R21 PIR2101 R39 COR39 PIR3901 634R C47 COC47 COR43 PIR4302 PIR3702 PIR2501 PIR2502 PIR1902 COR19 R19 COR37 R37 PIR3701 PIC4701 PIC4702 5VA 1 PIU301 LMV722 634R COC34 C34 GND PIU304 470P 5 PIU105 6 PIR302 PIU106 U1B 91R COR3 R3 PIR301 PIR1901 PIR701 PIR702 PIR102 634R COC13 C13 COR7 PIC1301 PIC1302 5VA LMV722 GND U8A COU8A COU8B 100U GND PIU608 5VA 1 PIU101 470P LMV722 PIC3401 PIC3402 100U GND PIC2602 PIC5 01 COC55PIC5601 COC56 COR63 3 2 PIU303 PIU302 COU6A COU6B U6A GND C51 COC51 5VA GND PIU104 PIC2501 COC25PIC2601 COC26 COR27 PIR2702 PIU108 COU3A COU3B U3A 100U PIC4301 COC43PIC4 01 COC44 COR45 PIC5102 PIC5101 GND PIC4802 PIR3501 PIR3502 PIR3101 GND COR35 COR31 PIC4801 COC48 5VA GND COR53 PIR5302 PIR4901 PIR4902 1U 5VA PIR3102 C10 GND COC17 C17 C39 COC39 5VA COR49 GND 100N PIC1702 PIC1701 PIC3902 PIC3901 GND 100N C35 100N GND PIC1402 C14 C9 PIR901 2 3 PIU103 PIU102 COU1A COU1B U1A COR1 R1 PIR101 634R COC1 C1 PIC101 PIC102 5VA PIC901 COC9PIC10 1 COC10 PIC902 PIC10 2 COR9 PIC1401 COC14 5VA PIC3501 COC35 PIC3502 GND PIR2601 PIR2602 PIR1701 PIR1702 PIR1301 PIR1302 GND COR17 COR13 5VA 1U PIR902 COC5 C5 PIC502 PIC501 GND COR26 5VA COR62 GND COR4 R8 GND COR8 PIR802 100N C2 PIC201 COC2 PIC20 5VA 8 V+ V- C4 634R PIC401 COC4 GND 100K R51 3K3 3K3 R33 R29 R15 100K R12 3K3 R11 100K R65 R54 100K 100K R18 3K3 3K3 100K R66 3K3 R69 R72 8 V+ V4 R36 R48 3K3 3K3 8 V+ V4 100K R30 100K 634R 3K3 3K3 R31 R10 634R R64 100K R9 3K3 4 8 V+ V4 R46 R28 634R R26 100K 100K R62 R13 R17 3K3 100K 100K R49 R53 3K3 100K R63 3K3 R67 R71 8 V+ V4 R35 R45 3K3 3K3 8 100K R27 100K 634R V+ V4 R7 634R R61 8 48 AIN1- 14 45 46 AIN5+ AIN5- 15 16 AIN7+ AIN7- AIN8- AIN8+ 44 AIN6- 18 PIC2 02 1U AIN8- AIN8+ AIN7- AIN7+ AIN6- AIN6+ AIN5- AIN5+ AIN4- AIN4+ AIN3- AIN3+ AIN2- AIN2+ AIN1- AIN1+ GND VQ REF_GND FILT+ U5 COU5 CS5368 PIU5018 17 PIU5017 PIU5016 PIU5015 PIU5044 43 AIN6+ PIU5043 PIU5046 PIU5045 12 PIU5012 11 PIU5011 AIN4- AIN4+ 13 PIU5014 AIN3- PIU5013 2 1 PIU502 PIU501 AIN3+ AIN2- PIU5048 47 PIU5047 PIU508 7 PIU507 5 PIU505 AIN1+ AIN2+ C22 GND PIU506 6 100N GND PIC210 C21 PIC210 COC21PIC2 01 COC22 5VA PIU504 PIU509 4 9 VA VA 4 8 V+ V4 R43 R25 634R PIU503 PIU501 PIU5019 PIU5029 PIU5032 GND GND GND GND GND GND PIU503 33 C23 1U VLS SCL SDA OVFL_N AD1 AD0 RST_N MDIV CLKMODE VLC GND PIC230 XTO XTI VX 100N GND 30 27 31 26 24 25 23 MCLK POMCLK GND 5 of 04/08/2015 Date Sheet Sheet Name xC-200-MC-AUDIO-ADC.SchDoc Size A2 GND PIU5022 22 21 PIU5021 9 GND Rev 2V0 100N C36 PIC3601 COC36 PIC3602 3V3A Project Name xCORE-200 MC AUDIO SCLK POSCLK 20 PIU5020 5VA PIU5023 SDOUT2 POSDOUT2 SDOUT3 POSDOUT3 POSDOUT4 SDOUT4 POLRCLK LRCLK SDOUT1 POSDOUT1 PIU5025 PIU5024 PIU5026 PIU5031 PIU5027 PIU5030 28 PIU5028 I2C ADDR = 1001100[R/W] POADC0RST0N ADC_RST_N OVFL_N POOVFL0N POSCL SCL POSDA SDA PIU5039 GND 100N C27 PIC2702 PIC2701 COC27 3V3A PIU5040 39 40 36 PIU5036 37 PIU5037 38 PIU5038 41 PIU5041 42 PIU5042 34 PIU5034 35 PIU5035 GND PIC240 C24 3V3A PIC2301 COC23PIC2401 COC24 SDOUT1/TDM SDOUT2 SDOUT3/TDM_N SDOUT4 LRCLK/FS SCLK MCLK VD XM007657C 3 10 19 29 32 Figure 32: xCORE-200 Multichannel Audio Platform schematic (5 of 9) 5VA xCORE-200 Multichannel Audio Platform 2v0 Hardware Manual 22/27 PIX102 24M ABLS PIX101 COX1 X1 POMCLK0FSEL MCLK_FSEL 1 PIU1101 8 3V3 GND 100N C61 PIC610 COC61 PIC6102 GND CLK1 XOUT PIU1108 XIN CLK0 NC PIU1106 6 VDD FSEL 7 PIU1107 PL611-01-N12 COU11 U11 POI2C0SCL I2C_SCL POI2C0SDA I2C_SDA POPLL0SYNC PLL_SYNC 2 GND PIU1102 4 3 PIU1104 PIU1103 5 PIU1105 3V3 NL24M 6 33R PIR7801 COR78 R78 PIR7802 GND XTO XTI/REF_CLK PIR7701 33R PIR7702 COR77 R77 GND AUX_OUT PO24M0CLK 24M_CLK CS2100-CP 7 PIU1007 PIU1006 VD CLK_OUT 100N C59 PIC5901 COC59 PIC5902 3V3 GND 10 PIU10010 SDA/CDIN 9 PIU1009 SCL/CCLK 8 PIU1008 AD0/CS_N CLK_IN COU10 U10 PIU1005 5 I2C ADDR = 1001110[R/W] 24M XM007657C 3V3 GND 2 PIU1002 4 PIU1004 3 PIU1003 1 PIU1001 10K COR73 R73 GND PIR7301 PIR7302 I1 I0 S GREEN COD5 D5 COR1 6 PIR1 601 PID502 PID501 PIR1 602 3V3 1 0 2 PIU1202 4 PIU1204 5 PIU1205 PLL LOCK GND Q VCC 100N C60 GND NC7SZ157 1 PIU1201 3 PIU1203 6 PIU1206 COU12 U12 PIC60 2 PIC60 1 COC60 3V3 1K Figure 33: xCORE-200 Multichannel Audio Platform schematic (6 of 9) R116 POPLL0SELECT PLL_SELECT POMCLK0SPDIF MCLK_SPDIF POAUDIO0MCLK AUDIO_MCLK POMCLK0XCORE MCLK_XCORE 6 of 04/08/2015 Date Sheet Sheet Name xC-200-MC-AUDIO-Clock.SchDoc Size A4 Project Name xCORE-200 MC AUDIO 33R PIR7602 COR76 R76 PIR7601 GND 33R 33R PIR7502 COR75 R75 PIR7501 PIR7402 NLMCLK0OUT MCLK_OUTCOR74 R74 PIR7401 3V3 9 Rev 2V0 xCORE-200 Multichannel Audio Platform 2v0 Hardware Manual 23/27 GND PIC16401 GND PIR16202 PIR16302 PIR16201 PIR16301 GND 1 2 PIU2902 4 11 PIU29012 3V3 PIU2903 GND PID3001 PID3101 MBR120VLSFT PID3102 COD31 D31 USB MICRO B GND NLUSB0B0D0N 2 USB_B_D_N NLUSB0B0D0P 3 USB_B_D_P 4 PIJ1104 POUSB0ID USB_ID 5 PIJ1105 PIJ1102 PIJ1103 7 8 100N COR201 GND PIR20101 PIR20102 COC173 C173 GND PIC17302 PIC17301 PIR15201 PIR15202 PIR15901 PIR15902 PIR15701 USB_B_D_N USB_B_D_P NLUSB0A0D0P USB_A_D_P 1 6 USB_SEL1 S1 S2 USB A USB_A VBUS DM DP GND COJ10 J10 C B A GND Y VCC 2 3V3 GREEN 2 3 4 PIJ1004 6 C176 1N GND GND USB_A_D_N USB_A_D_P PIC17601 COC176 PIC17602 GND PIJ1006 5 PIJ1005 PIJ1003 PIJ1002 1 PIJ1001 PIC17101 PIC17102 CO 17 D9 SHOWS USB MICRO B SELECTED D28 SHOWS USB A SELECTED D29 IS NOT USED VBUS_OUT COR15 R151 COD28 D28 GND PIU3802 4 PIU3804 5 PIU3805 USB_SEL0 USB_SEL1 LEDS SHOW SELECTED USB PORT NC7SZ11 PIU3806 3 PIU3803 PIU3801 3V3 22U GND PIC16302 C163 COU38 U38 22U GND PIC1620 C162 5V_OUT PIC16201 COC162PIC16301 COC163 USB_SEL0 PIR15301 R153 PIR15702 COR153 PIR15302 6U8 33K PIL502 COL5 L5 PIL501 100N GND COR159 COR157 PIC15902 PID802 COC159 C159 1N4148W PID801 COD8 D8 PIC15901 NLUSB0A0D0N USB_A_D_N 2N2 GND COR152 PIC1602 C161 PIC1601 COC161 VBUS_IN PIU2909 PIU2908 PIU2907 9 HSD310 HSD3+ PIU29010 HSD2HSD2+ 5 6 PIU2906 6 5 PIU2506 PIU2505 3 1 PIU2503 PIU2501 PIU2905 FSUSB63 MBR120VLSFT PID3002 COMP FB SW BOOT COU29 U29 HSD1HSD1+ GND_4 GND_9 SS EN VIN COD30 D30 SEL[0] SEL[1] DD+ VBUS_OUT PIU29011 PIU2904 PIU2901 1 PIJ1101 GND COR162COR163 VBUS DD+ ID GND USB_MICROB PIC17501 COC175 PIJ1108 PIJ1107 SH 7 SH 8 SH 9 PIJ1109 SH 10 PIJ11010 SH 11 PIJ11011 SH 6 PIJ1106 1N NLUSB0SEL0 USB_SEL0 NLUSB0SEL1 USB_SEL1 COJ11 J11 POUSB0SEL1 USB_SEL1 POUSB0SEL0 USB_SEL0 PIC17502 GND 100N C166 PIC1601 COC166 PIC1602 4 9 PIU2509 PIU2504 8 PIU2508 Vfb = 0.8V Vout = 0.8 x (1 + 66/12) = 5.2V POUSB0D0N USB_D_N POUSB0D0P USB_D_P C175 1U GND PIC16402 VBUS Out Power Supply 10U GND PIC15802 PIC15702 10U PIC15801 COC157 COC158 COC164 C157 C158 C164 PID2801 PIR15101 PID2802 PIR15102 1K COR154 PIR150 1 PID902 PID901 PIR150 2 PID2901 PIR15401 PID2902 GND GREEN COD9 D9 COR150 GREEN PIR15402 GND PIR19 01 PIR19 02 COR19 COR20 1U 100N GND C169 C168 GND COD29 D29 5 PIR20 1 PIR20 02 GND POVBUS0OUT0EN VBUS_OUT_EN 8 6 PIU2708 PIU2706 2 PIU2702 NLI0OVR0N I_OVR_N PIC1902 COR16 COR160 GND PIR16 01 PIR16102 PIR160 1 PIR160 2 3V3 PIC1902 4U7 C191 GND 100N C190 33P COR198 PIU2803 PIU2801 PIR19701 PIR19702 PIC16702 PIT 201 TL431A COTP2 OVERV_N 100N C167 PIC16701 COC167 COU28 U28 GND 2PIU2802 COR197 3V3 PIU3703 3 6 I_OVR_N NLOVERV0N OVERV_N C B A GND Y VCC 2 4 PSU_EN 3V3 GND PIU3702 PIU3704 5 PIU3705 7 of Date Sheet Sheet Name xC-200-MC-AUDIO-USB.SchDoc 04/08/2015 Size A3 Project Name xCORE-200 MC AUDIO NC7SZ11 PIU3706 1 PIU3701 COU37 U37 VBUS Out Logic VBUS Out Overvoltage Protection Trip Point = (10+11)/10 x 2.5V = 5.25V GND PIR19801 PIR19802 PIR19601 COC189 C189 GND PIC18902 PIC18901 COR196 PIR19602 VBUS_OUT VBUS_OUT_EN PIC1901 COC190 PIC1901 COC191 VBUS_OUT PIR19501 PIR19502 3V3 COR195 GND PITP10 COTP1 NLVBUS0OUT0EN VBUS_OUT_EN OUT GND MIC2042 OUT ON_N 3 PIU2703 ISET IN FAULT_N PIU2701 1 4 PIU2704 7 PIU2707 IN COU27 U27 PIU2705 PIC16801 COC168 PIC16901 COC169 Ilim (min) = 2.908A PIC16802 PIC16902 5V_OUT VBUS OUT Current Limit 10K RT8293B 33K 1K COU25 U25 33K 12K 7 PIU2507 R157 R159 2 R199 PIC15701 10K 10K R162 R163 12 VCC GND 3 0R PIU2502 R201 C171 R154 R150 R152 100K 100N 1K 1K 118R 11K 10K TP1 10K 10K NLPSU0EN PSU_EN R200 R195 R160 R161 R196 R198 R197 1 3 XM007657C TP2 Figure 34: xCORE-200 Multichannel Audio Platform schematic (7 of 9) 12V 9 Rev 2V0 xCORE-200 Multichannel Audio Platform 2v0 Hardware Manual 24/27 POLED0ROW03 LED_ROW_3 POLED0ROW02 LED_ROW_2 POLED0ROW01 LED_ROW_1 POLED0ROW00 LED_ROW_0 PIR203 1 PIR203 2 R203 COR204 3V3 10K PIR204 1 PIR20402 COR205 3V3 PIR205 1 PIR20502 COR206 3V3 PIR206 1 PIR206 2 2 2 PIQ502 PIQ402 PIQ301 PIQ401 PIQ501 GND 2U2 C165 PIC16501 COC165 PIC16502 3V3 2 PIQ302 PIQ201 BSS84 COR16 COD10 D10 COR165 BSS84 PIQ5033 BSS84 COQ5 Q5 PIQ403 3 COD22 D22 COR168 COD18 D18 COR167 COQ4 COD14 Q4 D14 PIQ303 3 COQ3 Q3 PIQ2033 BSS84 PIR16801 PID2 02 PID2 01 PIR16802 PID1801 PIR16701 PID1802 PIR16702 PIR16 01 PID1402 PID1401 PIR16 02 PIR16501 PID10 2 PID10 1 PIR16502 470R 470R S 1 G S 1 G S R204 10K R205 10K R206 10K D D 1 G S 1 G D D R165 R166 R167 R168 COR203 POLED0C COR149 G 1PIQ601 BSS138 GND PIQ602S PIR190 1 PID2302 PID2301 PIR190 2 PID1901 PIR18701 PID1902 PIR18702 PIR15801 PID1502 PID1501 PIR15802 PIR14901 PID1 02 PID1 01 PIR14902 470R POLED0C 1 COQ6 Q6 PIQ603D GREENCOD23 D23 COR190 GREENCOD19 D19 COR187 GREENCOD15 D15 COR158 GREENCOD11 D11 3 2 470R 470R LED_COL_0 R149 R158 R187 R190 470R 470R 470R LED_COL_1 COQ2 Q2 COR15 G 1PIQ701 BSS138 GND PIQ702S PIR19 01 PID2402 PID2401 PIR19 02 PID20 1 PIR18 01 PID20 2 PIR18 02 PIR18501 PID1602 PID1601 PIR18502 PIR15 01 PID1202 PID1201 PIR15 02 POLED0C 2 COQ7 Q7 PIQ703D GREENCOD24 D24 COR19 GREENCOD20 D20 COR18 GREENCOD16 D16 COR185 GREENCOD12 D12 3 2 470R 470R 470R R155 R185 R188 R191 2 PIQ202 COR156 G 1PIQ801 BSS138 GND PIQ802S PIR19201 PID2502 PID2501 PIR1920 PID2101 PIR18901 PID2102 PIR18902 PIR18601 PID1702 PID1701 PIR18602 PIR15601 PID1302 PID1301 PIR15602 470R POLED0C 3 COQ8 Q8 PIQ803D GREENCOD25 D25 COR192 GREENCOD21 D21 COR189 GREENCOD17 D17 COR186 GREENCOD13 D13 3 2 470R LED_COL_2 R156 R186 R189 R192 470R 470R 470R XM007657C LED_COL_3 Figure 35: xCORE-200 Multichannel Audio Platform schematic (8 of 9) G 1PIQ901 PIQ902S BSS138 COQ9 Q9 PIQ903D GND GREEN GREEN GREEN GREEN 3 2 3V3 8 of 04/08/2015 Date Sheet Sheet Name xC-200-MC-AUDIO-LEDA.SchDoc Size A4 Project Name xCORE-200 MC AUDIO 9 Rev 2V0 xCORE-200 Multichannel Audio Platform 2v0 Hardware Manual 25/27 J17 COJ17 RCJ-017 GND PIJ1701B 1C PIJ1701C PIJ1701A 1A 1B 2 PIJ1702 COR18 R181 PIR18 02 91R GND PIR18 01 D27 COD27 GND PID2701 PID2702 PIC18602 PIC18601 CO 186 C186 COR172 R172 PIR17201 PIR17202 GND 820R PIR18401 PIR18402 GND COR184 PIR17902 R179 COR179 PIR17901 3V3 GND 100N PIR18201 PIR17802 470R 3 PIC1802 PIC1801 1 CP PIU3602 PIU3601 3V3 GND Q 5 GND 5 2 PIR18002 COAX_RX NLCOAX0RX 100N C184 GND PIU3502 4 PIU3504 PIU3505 PIC18401 COC184 PIC18402 GND 33R U36 COU36 FIN1002 Q 3V3 PIFB701 GND VCC 3V3 Q 2 PIU3402 4 PIU3404 3V3 COFB7 FB7 3V3 GND 5 PIJ1405 PIJ1404 4 3 2 PIJ1403 PIJ1402 PIJ1401 1 SDS-50J C180 220R COAXIAL_RX POCOAXIAL0RX CO 182 PIR17501 5 3V3 GND PIU3205 4 PIU3204 6 PIU3206 PIR17602 PIR17601 PIR17 01 PIR17 02 GND OPT_RX_PLR135 J18 COJ18 GND GND IN 100N GND PIC17802 C178 GND PIC18302 33P OUT GND 2 1 3 GND PIJ1802 PIJ1801 PIJ1803 GND VCC GND 2 1A 1B PIJ1601B 1C PIJ1601C PIJ1601A GND Y VCC PIR18301 0R 3V3 GND PIR17102 POMIDI0RX MIDI_RX OPTICAL_RX POOPTICAL0RX 220R OPT_RX NLOPT0RX 470R XXA PIR17101 COR171 R171 3V3 PIFB802 3 PIU3103 4 PIU3104 5 PIU3105 PIR18302 R183 COR183 GND 100N C185 PIC18501 COC185 PIC18502 PIFB801 FB8 COFB8 J16 COJ16 RCJ-017 NC7SZ125 A OE_N COU31 U31 2 PIU3102 PIJ1602 PIC18301 COC183 C183 1 PIU3101 PIC17801 COC178 3V3 OPT_TX_PLT133 COR176 COR17 PIR17502 GND VCC COJ15 J15 PIJ1501 1 3 PIJ1503 PIJ1502 2 PIR170 1 PIR170 2 3V3 COR170 MIDI Out COMECH15 MECH15 SCREW, M2X6 COMECH16 MECH16 SCREW, M2X6 GND VO VCC R175 COR175 100N GND PIC18202 PIC18201 470R 500mA DET PIC1801 COC180 PIC1802 PIJ1409 PIJ1408 PIJ1407 PIJ1406 NC K PIFB702 PIU3203 3 2 PIU3202 A COU32 U32 PC900V0NIPXF 1 PIU3201 COJ14 J14 COD26 D26 PIU3405 R180 COR180 C GND Q VCC D PIU3605 PIR18001 5 PIR17301 PIR17302 PIR17402 NC7SZ175 PIU3501 1 COR173 U35 COU35 D 3 C_N 6 C PIU3503 C188 COC188 100N D 75R PIU3506 3V3 PIU3604 4 CP D C_N NC7SZ175 PIU3401 PIU3403 3 PIU3406 6 GND PIR17401 PID2601 PID2602 3V3 COR174 R174 3V3 PIR16902 1N4148W 220R COR169 R169 PIR16901 COU34 U34 PIU3303 3 4 PIU3304 3PIU3603 3V3 GND Y 5 PIU3305 5 PIJ1305 4 PIJ1304 GND PIR18202 R182 COR182 470R R178 COR178 PIR17801 PIC18701 COC187 PIC18702 C187 Digital Audio Out MCLK GND 100N C181 1 VCC PIC1801 COC181 PIC1802 3V3 MCLK NLMCLK GND 100N C179 PIC17901 COC179 PIC17902 3V3 NC7SZ125 A 2 PIU3302 COU33 U33 OE_N 1 PIU3301 COAXIAL_TX POCOAXIAL0TX POMCLK0DIO MCLK_DIO 6 7 PIJ1306 PIJ1307 PIJ1308 PIJ1309 8 9 PIJ1303 75R 2 PIJ1302 R170 PIJ1301 R173 3V3 10K POOPTICAL0TX OPTICAL_TX POMIDI0TX MIDI_TX 100N 7 6 C182 MIDI In R184 9 8 100N COMECH13 MECH13 SCREW, M2X6 COMECH14 MECH14 SCREW, M2X6 470R R176 220R SDS-50J 1 2 220R XM007657C R177 Figure 36: xCORE-200 Multichannel Audio Platform schematic (9 of 9) 220R COJ13 J13 GND 100N C177 PIC1701 COC177 PIC1702 3V3 Sheet 9 of 04/08/2015 Date Project Name xCORE-200 MC AUDIO Sheet Name xC-200-MC-AUDIO-DIG.SchDoc Size A2 9 Rev 2V0 xCORE-200 Multichannel Audio Platform 2v0 Hardware Manual 26/27 PESD0603-240 xCORE-200 Multichannel Audio Platform 2v0 Hardware Manual 19 27/27 RoHS and REACH The xCORE-200 Multichannel Audio Platform complies with appropriate RoHS2 and REACH regulations and is a Pb-free product. The xCORE-200 Multichannel Audio Platform is subject to the European Union WEEE directive and should not be disposed of in household waste. Alternative requirements may apply outside of the EU. 20 Version history Date Description 2015/5/14 First board release, 2v0 hardware 2016/4/1 Minor typographical corrections =========== ============================== Copyright © 2016, All Rights Reserved. Xmos Ltd. is the owner or licensee of this design, code, or Information (collectively, the “Information”) and is providing it to you “AS IS” with no warranty of any kind, express or implied and shall have no liability in relation to its use. Xmos Ltd. makes no representation that the Information, or any particular implementation thereof, is or will be free from any claims of infringement and again, shall have no liability in relation to any such claims. XM007657C