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Datasheet For Hummingboard By Solidrun

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5 4 3 J7 CSI_D0M CSI_D0P CSI_D1M CSI_D1P D CSI_D2M CSI_D2P CSI_D3M CSI_D3P DSI_D1M DSI_D1P DSI_D0M DSI_D0P DSI_CLK0M DSI_CLK0P SPDIF_OUT UART1_TX_DATA UART1_RX_DATA USB_OTG_ID LVDS0_TX0_N LVDS0_TX0_P LVDS0_TX1_N LVDS0_TX1_P LVDS0_TX2_N LVDS0_TX2_P C LVDS0_CLK_N LVDS0_CLK_P 1 HummingBoard Schematics 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48 50 52 54 56 58 60 62 64 66 68 70 72 74 76 78 80 PCIE_RXM PCIE_RXP 2 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 43 45 47 49 51 53 55 57 59 61 63 65 67 69 71 73 75 77 79 CLK1_P CLK1_N J9 SR-uSOM-iMX6 connectivity Two out of three board to board only required by HummingBoard (J7 and J9) PCIE_TXM PCIE_TXP CSI_CLK0P CSI_CLK0M HDMI_D2P HDMI_D2M HDMI_D1P HDMI_D1M HDMI_D0P HDMI_D0M 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48 50 52 54 56 58 60 62 64 66 68 70 72 74 76 78 80 SATA_RXP SATA_RXN General notes 1. There are mainly two assembly options versions. Those versions are marked as base and pro 2. DNP stands for do not place. This is assembly option that means that this part is not assembled. 3. The 3.2V rail is important not to be 3.3V since the same rail is provided to SNVS where it's max AC characterstics is 3.3V. 4. L11 to L18 are initially designed ferrite beads for EMI filtering. But proven to be in the lab to be un-needed so they are replaced by 0603 0 ohm resistors and will be removed in further board spins. SATA_TXN SATA_TXP USB_OTG_DP USB_OTG_DN USB_HOST_DP USB_HOST_DN USB_H1_PWR_EN USB_OTG_PWR_EN ECSPI2_SS0 ECSPI2_SS1 HDMI_CLKP HDMI_CLKM HDMI_TX_CEC_LINE HDMI_TX_DDC_SCL HDMI_TX_DDC_SDA HDMI_HPD AUD5_TXC AUD5_TXD AUD5_TXFS AUD5_RXD CCM_CLKO1 CCM_CLKO2 POR_B USB_OTG_OC USB_H1_OC USB_OTG_CHD_B SD2_VSELECT USB_H1_VBUS C36 0.1UF DNP Place around four corners of SOM Can be mainly used as GND to GNDC coupling capacitors for EMI R27 is for DC coupling between GND and GNDC R27 LVDS0_TX3_P LVDS0_TX3_N SD2_CLK SD2_CMD SD2_DATA0 SD2_DATA1 SD2_DATA2 SD2_DATA3 SD2_CD_B 10M DNP DISP1_DATA03 DISP1_DATA02 DISP1_DATA06 DISP1_DATA01 DISP1_DATA05 DISP1_DATA04 DISP1_DATA00 PWM1_OUT GND C82 0.1UF DNP DF40C-80DS-0.4V(51) 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 43 45 47 49 51 53 55 57 59 61 63 65 67 69 71 73 75 77 79 MDI_TRXN3 MDI_TRXP3 ETH_TCT MDI_TRXN2 MDI_TRXP2 D MDI_TRXN1 MDI_TRXP1 USB_OTG_VBUS MDI_TRXN0 MDI_TRXP0 LED_10_100_LED_1000 LED_ACT C46 0.1UF DNP I2C3_SCL I2C3_SDA SD3_CLK SD3_CMD PWM2_OUT GND ECSPI2_MISO ECSPI2_MOSI ECSPI2_SCLK I2C1_SDA I2C1_SCL PWM3_OUT PWM4_OUT __NC__SPDIF_CLK_IN C63 0.1UF DNP NVCC_SD2 NVCC_SD3 VCC_3V2 GND NVCC_EIM0 VSNVS_3V0 C VIN_5V0 C83 0.1UF DNP GND C84 0.1UF DNP GND GND DF40C-80DS-0.4V(51) C26 0.1UF DNP C32 0.1UF DNP C33 0.1UF DNP C66 10uF GND GND 5V to 3.2v (base) GND GND GND 5V to 3.2v (pro) 5V micro USB DC in Notice assembly option Base - LDO is used Pro - DC-DC is used C31 is assembled in both base and pro in order to provide more capacitance for the 3.2v rail V_5V0 V_3V2 U13 B 4 C40 10UF L1 VIN LX B 1.5uH 5 PRO R13 73.2K PRO 1% PRO 8 GND PGOOD FB NVCC_SD3 6 VSNVS_3V0 V_DCJACK_IN F3 L8 90Ohm L6 90Ohm V_5V0 VBUS DSH1 D+ SH2 SH1 SH2 ID GND 10103594-0001LF 5 CON1 V_5V0 VIN_5V0 FUSE/SM D6 SMBJ5.0CA 1 1 13.0K PRO V_3V2 C44 560pF 4 L9 90Ohm PRO 2 90OHM 3 DNP C73 22uF DNP C72 22uF U8 3 L7 90Ohm C24 22uF BASE C69 470pF C70 1nF DNP 1 GND (E-Pad) Vin Vout 3 C23 10uF GND EN SS C64 33nF 309 BASE BASE GND C43 560pF PRO 560pF is important since it makes the 3.2V generation earlier than the i.MX6 uSOM processor and memory power rails PRO R22 A GND Copyright (c) 2014 SolidRun ltd. All Rights Reserved Size A3 Date: 3 2 NCP1117DT33G BASE 200 1% BASE 4 9 2 RT8070 R21 V_5V0 5 R16 24.0K PRO 1% L10 2 3 4 C74 470pF A COMP VCC_3V2 1 7 R14 RT C31 22UF 2 Title Rev 3.0 HummingBoard - Micro-SOM B2B and Power Supplies Monday, June 23, 2014 Sheet 1 1 of 6 5 4 3 SDIO 3.2v / 1.8v switch circuitry 2 VCC_3V2 1 micro SD connectors (assembly option of push-push type and hinged type) Hinged type can not be assembled with mSata connector. NVCC_SD2 0 SD2_VSELECT V_3V2 VCC_1P8 VCC_1P8 U2022 5 U505 3 Vin Vout 1 D 2 NC1 2 4 C520 10uF GND NO1 COM1 3 MUX V_SD C1610 1uF SEL1 LDO input capacitor is shared with USB hub filter 7 NC2 10 NO2 8 COM2 MUX SEL2 VCC GND 9 V_SD U19 CON_SD0_D2 1 CON_SD0_D3 2 CON_SD0_CMD3 4 CON_SD0_CLK 5 6 CON_SD0_D0 7 CON_SD0_D1 8 TS9011DCX R3011 2.2k CON_SD0_D0 CON_SD0_D1 CON_SD0_D2 CON_SD0_D3 CON_SD0_CMD CON_SD0_CLK SD0_CDn SD2_DATA0 SD2_DATA1 SD2_DATA2 SD2_DATA3 SD2_CMD SD2_CLK SD2_CD_B R2001 DNP VCC_3V2 1 6 Dual SPDT D2 CD/D3 CMD VDD CLK VSS1 D0 D1 D U18 G1 G2 G3 G4 Cd CON_SD0_D2 CON_SD0_D3 CON_SD0_CMD G1 G2 G3 G4 CON_SD0_CLK SD0_CDn 9 1 2 3 4 5 6 7 8 CON_SD0_D0 CON_SD0_D1 Micro SD push-push D2 CD/D3 CMD VDD CLK VSS1 D0 D1 G1 G2 G3 G4 G1 G2 G3 G4 Micro SD - Hinged DNP micro SD power on/off GPIO pin mapping - V_SD C D R3 Q1 TSM2323 G PWM2_OUT S V_3V2 26 pin header Pin | GPIO ------+-------7 | (1, 1) 11 | (3, 9) 12 | (3, 8) 13 | (3, 7) 15 | (3, 6) 16 | (7, 2) 18 | (7, 3) 22 | (3, 3) C85 10uF 0 DNP C V_3V2 J2 SPI and I2C can be also muxed to be GPIO R24 2.2k RESET button V_5V0 C50 22uF R3013 2.2k I2C3_SDA I2C3_SCL USB_OTG_ID DISP1_DATA00 DISP1_DATA02 DISP1_DATA03 ECSPI2_MOSI ECSPI2_MISO ECSPI2_SCLK SDA1 SCL1 GPIO_GCLK GPIO_GEN0 GPIO_GEN2 GPIO_GEN3 SPI_MOSI SPI_MISO SPI_SCLK 1 3 5 7 9 11 13 15 17 19 21 23 25 2 4 6 8 10 12 14 16 18 20 22 24 26 U1 C56 22uF DNP TXD0 RXD0 GPIO_GEN1 GPIO_GEN4 GPIO_GEN5 GPIO_GEN6 SPI_CE0_N SPI_CE1_N 1 1 2 2 POR_B DTSM-3 DISP1_DATA01 SD3_CMD SD3_CLK DISP1_DATA06 ECSPI2_SS0 ECSPI2_SS1 UART buffer (notice either U17 or U3 is assembled). R18 was initial 0 ohm and marked as DNP (to bypass the buffer in uart rx). But in case there is no pull up on the 26 pin header then the input of the buffer would float and sometimes generates noise in the uart rx. The workaround was to assemble R18 as 2.2kohm that forces a pullup in the 26 pin via i.MX6 pull up circuitry. HEADER 13x2/SM R5 RJ45 Connector 0 ETH_TCT B DNP B UART1_TX_DATA J10 VCC_3V2 U17 MDIO_P0 MDIO_N0 MDIO_P1 MDIO_N1 MDI_TRXP0 MDI_TRXN0 MDI_TRXP1 MDI_TRXN1 MDIO_P2 MDIO_N2 MDIO_P3 MDIO_N3 MDI_TRXP2 MDI_TRXN2 MDI_TRXP3 MDI_TRXN3 RJ45_SJ C47 1uF 1 2 3 4 5 6 7 8 9 10 S1 S2 P12N P13N 1 P1 P2 P3 P4 P5 P6 P7 P8 P9 P10 S1 S2 P12N P13N V_3V2 TXD0 RXD0 D3 PWR PWM1_OUT_AFTER_RES RN203 5 6 7 8 PWM1_OUT LED_ACT P11P P14P 3 4 3 2 1 OUT Y2 5 4 UART1_RX_DATA R18 2 IN A1 OUT Y1 GND VCC IN A2 OUT Y2 6 5 R312 200 DNP 3 C57 A IN A2 R4 10.0K 4.7K 1 1nF DNP VCC 6 U3 R314 10.0K C65 GND D2 ACT R310 200 DNP GigaBit Ethernet OUT Y1 Dual Buffer - NLX2G16 DNP 4x300 Ohm P11P P14P 2 IN A1 4 A R313 200 DNP DNP RJ45_SJ Dual Buffer - NLX2G16 33nF R17 0 DNP Copyright (c) 2014 SolidRun ltd. All Rights Reserved Size A3 Date: 5 4 3 2 Title Rev HummingBoard - 26 pin header, RJ45, uSD, reset and uart level shifter 3.0 Monday, June 23, 2014 Sheet 2 1 of 6 5 4 3 2 1 USB current limiter Internal dual USB connector HDMI Out USB_OTG_PWR_EN USB_H1_PWR_EN V_USB1 V_5V0 ESD protection and common mode chocke for differential lines. Notice that EMI analysis with HummingBoard shows that common mode chockes are not needed and can be safely replaced by only ESD protection devices. V_USB2 U9 Vbus in the internal header is connected directly to 5V. In future board spins this will be current limited by a poly fuse to 350mA. 1 4 C39 22uF 7 6 V_5V0 D ENA FLGA ENB FLGB IN OUTA GND OUTB 2 3 8 HDMI_HPD HDMI_SDA MIC2026-1YM C41 22uF C37 22uF 6 7 8 9 10 HDMI_SCL HDMI_CEC TMDS_CH2+/NC TMDS_CH2+ TMDS_CH2-/NC TMDS_CH2GND2 GND1 TMDS_CH1+/NC TMDS_CH1+ TMDS_CH1-/NC TMDS_CH1- J12 GPIO pin mapping - 2 4 6 8 USB_HUB_DN4 USB_HUB_DP4 1 3 5 7 USB_HUB_DN3 USB_HUB_DP3 V_USB1 HDMI_HPD HDMI_SDA HEADER 4x2/SM PRO V_USB2 TMDS1-_C TMDS1+_C FUSE/SM F1 HDMI_SCL HDMI_CEC D TMDS1TMDS1+ HDMI_D1M HDMI_D1P TMDS2TMDS2+ HDMI_D2M HDMI_D2P 1 2 3 4 5 TMDS2-_C TMDS2+_C DNP TMDS_CH1- TMDS_CH1-/NC TMDS_CH1+ TMDS_CH1+/NC GND1 GND2 TMDS_CH2- TMDS_CH2-/NC TMDS_CH2+ TMDS_CH2+/NC EMI4182 FUSE/SM 1 2 3 4 5 TMDS0-_C TMDS0+_C USB_OTG_VBUS TMDS_CH1- TMDS_CH1-/NC TMDS_CH1+ TMDS_CH1+/NC GND1 GND2 TMDS_CH2- TMDS_CH2-/NC TMDS_CH2+ TMDS_CH2+/NC USB_H1_VBUS V_USB1 10 9 8 7 6 TMDS1TMDS1+ 10 9 8 7 6 TMDSCLKTMDSCLK+ V_3V2 TMDS2TMDS2+ R15 10.0K U11 DNP TMDSCLK-_C TMDSCLK+_C EMI4182 D5 RB521CS-30 TMDS0TMDS0+ HDMI_3P3_CEC U15 Dual USB connector L15 0 TMDS0TMDS0+ HDMI_D0M HDMI_D0P V_5V0 F2 V_USB2 5 4 3 2 1 ESD7004MUTAG_NL Pin | GPIO ---------+-------OTG(ENA) | (3, 22) H1(ENB) | (1, 0) TMDSCLKTMDSCLK+ HDMI_CLKM HDMI_CLKP U14 5 HDMI_HPD HDMI_SDA HDMI_SCL HDMI_CEC HDMI_HPD HDMI_TX_DDC_SDA HDMI_TX_DDC_SCL HDMI_TX_CEC_LINE HDMI_CEC C C C79 L14 0 U5 11 12 13 14 470pF DNP C78 USB_OTG_DN USB_OTG_DP 470pF 21 22 23 24 RN1 DNP 1 2 USB_HOST_DN USB_HOST_DP 4 3 0 BASE 0 PRO 2 1 USB_HUB_DN1 USB_HUB_DP1 J11 USB0_VBUS USB0_DUSB0_D+ USB0_GND TMDS2+_C TMDS2-_C TMDS1+_C DNP TMDS0-_C TMDSCLK+_C 1nF C62 DNP C77 S1 S2 S3 S4 RN2 470pF DNP B TMDS1-_C TMDS0+_C C18 USB1_VBUS USB1_DUSB1_D+ USB1_GND L13 0 3 4 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 S1 S2 S3 S4 TMDSCLK-_C HDMI_CEC 33nF HDMI_SCL HDMI_SDA V_5V0 0 R20 DNP HDMI_HPD 2xUSB L18 0 TMDS Data2+ TMDS Data2S TMDS Data2TMDS Data1+ TMDS Data1S TMDS Data1TMDS Data0+ TMDS Data0S TMDS Data0TMDS CLK1+ TMDS CLK1S TMDS CLK1CEC Reserve SCL SDA DDC/CEC_GND S4 5V S3 HPD S2 S1 C45 1nF C71 DNP 33nF S4 S3 S2 S1 0 R26 HDMI Connector B V_3V2_FLTR C86 USB Hub V_3V2 R309 10.0K PRO 470pF CY7C65632 GND 8 9 10 11 12 13 14 649 R12 PRO V_3V2 VCC_D OVR#[3] OVR#[4] TEST RESET# DD+4 DD-4 21 20 19 18 17 16 15 USB Hub supply filter circuittry V_3V2 POR_B USB_HUB_DP4 USB_HUB_DN4 PRO Input to filter uses capacitor C23 PRO USB_HUB_DN3 USB_HUB_DP3 Y1 C38 8pF PRO 4 2 C27 0.1UF PRO C20 1uF PRO C28 0.1UF PRO C30 1uF PRO C29 0.1UF PRO GND A 1 V_3V2_FLTR FB1 BLM18PG121SN1D P USB_HUB_DN2 USB_HUB_DP2 DD-0 DD+0 DD-1 DD+1 VCC_A_5 DD-2 DD+2 GND 29 1 2 3 4 5 6 7 USB_HOST_DN USB_HOST_DP USB_HUB_DN1 USB_HUB_DP1 VREG VCC I2C_SDA OVR#[1] OVER#[2] GANG SELFPWR V_3V2_FLTR RREF VCC_A_9 XIN XOUT DD-3 DD+3 VCC_A_14 U7 28 27 26 25 24 23 22 DNP A Four of the following 4x0.1 are for pins 9 and 14 GND 3 12MHz PRO Copyright (c) 2014 SolidRun ltd. All Rights Reserved C35 8pF Size A3 PRO GND 5 Date: 4 3 2 Title Rev 3.0 HummingBoard - HDMI and USB Monday, June 23, 2014 Sheet 3 1 of 6 5 4 3 2 1 LVDS out D D Since there isn't a standard LVDS out connector, this design uses the Freescale Sabre SD LVDS display. V_3V2 C55 1uF PRO GND J6 USB_OTG_OC MIPI CSI-2 serial interface PWM3_OUT I2C1_SCL I2C1_SDA LVDS0_TX0_N LVDS0_TX0_P J8 CAM1_DN0 CAM1_DP0 CSI_D0M CSI_D0P C CAM1_DN1 CAM1_DP1 CSI_D1M CSI_D1P CSI_CLK0M CSI_CLK0P CAM_GPIO is GPIO(2, 10) CAM1_CN CAM1_CP CAM_GPIO CAM_CLK SCL1 SDA1 PWM4_OUT CCM_CLKO2 I2C1_SCL I2C1_SDA 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 S1 CABC_EN 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 DISP0_CONTRAST LVDS1_TX0_NEG LVDS1_TX0_POS 1 2 4 1 3 90OHMPRO 2 4 1 3 90OHMPRO 2 4 1 3 90OHMPRO 2 4 3 90OHMPRO L2 LVDS0_TX1_N LVDS0_TX1_P L3 LVDS0_TX2_N LVDS0_TX2_P L5 LVDS0_CLK_N LVDS0_CLK_P L4 LVDS1_TX1_NEG LVDS1_TX1_POS LVDS1_TX2_NEG LVDS1_TX2_POS LVDS1_CLK_NEG LVDS1_CLK_POS V_5V0 LVDS1_5V S2 V_3V2 C67 10uF ZIF 15/SM C19 1uF PRO GND GND I2C1_SCL I2C1_SDA USB_H1_OC B TP35 T401 DNP S1 31 C C68 DNP 1nF C54 32 DNP S2 33nF 0 R19 DNP LVDS CONN PRO LVDS_TOUCH_SCL GND GND LVDS_TOUCH_SDA CAP_TOUCH_INT B A A Copyright (c) 2014 SolidRun ltd. All Rights Reserved Size A3 Date: 5 4 3 2 Title Rev 3.0 HummingBoard - LVDS display out and MIPI CSI2 Monday, June 23, 2014 Sheet 4 1 of 6 5 4 3 2 1 Half size mini PCI express with optional sim card 3.3v to 1.5v LDO (for mini pci express) CON 6 SIM CARD V_3V2 PCIe_UIM_DATA PCIe_UIM_VPP V_3V2 V_1P5 V_3V2 6 5 4 V_1P5 I/O VPP GND J5 1 3 5 7 9 11 13 15 D U6 C25 10uF PRO 3 1 C17, C11, C15 and C16 are Low ESL 2 Vin Vout C21 10uF PRO GND R25 2.2k PRO CLK1_N CLK1_P C16 0.1UF PRO C15 0.1UF PRO PCIe_CREFCLKM PCIe_CREFCLKP TS9011ACX PRO PCIE_RXM PCIE_RXP PCIE_TXM PCIE_TXP C13 0 PRO C12 0 PRO C11 0.1UF PRO C17 0.1UF PRO R9 and R10 to be placed close to connector 17 19 21 23 25 27 29 31 33 35 37 39 41 43 45 47 49 51 PCIe_CRXM PCIe_CRXP PCIe_CTXM PCIe_CTXP R10 49.9 1% PRO R9 49.9 1% PRO GND C WAKE# Reserved1 Reserved2 CLKREQ# GND1 REFCLKREFCLK+ GND2 3.3V_1 GND7 1.5V_1 UIM_PWR UIM_DATA UIM_CLK UIM_RESET UIM_VPP Reserved/UIM_C8 GND8 Reserved/UIM_C4W_DISABLE# GND3 PERST# PERn0 +3.3Vaux PERp0 GND9 GND4 1.5V_2 GND5 SMB_CLK PETn0 SMB_DATA PETp0 GND10 GND6 USB_DReserved3 USB_D+ Reserved4 GND11 Reserved5 LED_WWAN# Reserved6 LED_WLAN# Reserved7 LED_WPAN# Reserved8 1.5V_3 Reserved9 GND12 Reserved10 3.3V_2 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48 50 52 DNP PCI3_UIM_CLK PCIe_UIM_RST PCIe_UIM_PWR 3 2 1 CLK RESET VCC CON501 D GND PCIe_UIM_PWR PCIe_UIM_DATA PCI3_UIM_CLK PCIe_UIM_RST PCIe_UIM_VPP msata_DISABLE DISP1_DATA05 R23 must be always assembled since this is a signature for HB 3.0 (vs. HB 1.0 and CuBox-i) R23 1.6K I2C1_SCL I2C1_SDA USB_HUB_DN2 USB_HUB_DP2 GND CON 2X26 MINI PCI EXPRESS PRO C msata (pro and can be used by i.MX6D and i.MX6Q) Infra red receiver Real time clock (pro) V_3V2 V_3V2 V_1P5 U16 V_3V2 J13 SATA_RXP SATA_RXN SATA_TXN SATA_TXP 10nF_25V 10nF_25V C58 C60 10nF_25V C59 10nF_25V C61 C58, C59, C60 and C61 are Low ESL 17 19 21 23 25 27 29 31 33 35 37 39 41 43 45 47 49 51 3.3V_1 GND7 1.5V_1 UIM_PWR UIM_DATA UIM_CLK UIM_RESET UIM_VPP Reserved/UIM_C8 GND8 Reserved/UIM_C4W_DISABLE# GND3 PERST# PERn0 +3.3Vaux PERp0 GND9 GND4 1.5V_2 GND5 SMB_CLK PETn0 SMB_DATA PETp0 GND10 GND6 USB_DReserved3 USB_D+ Reserved4 GND11 Reserved5 LED_WWAN# Reserved6 LED_WLAN# Reserved7 LED_WPAN# Reserved8 1.5V_3 Reserved9 GND12 Reserved10 3.3V_2 2 4 6 8 10 12 14 16 1 2 1 WAKE# Reserved1 Reserved2 CLKREQ# GND1 REFCLKREFCLK+ GND2 V_3V2 V_3V2 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48 50 52 msata_DISABLE R11 10.0K PRO C10 1uF PRO POR_B IR_RECEIVE DISP1_DATA04 I2C1_SCL I2C1_SDA IR receiver GPIO (DISP1_DATA04) is GPIO(3, 5) 3 QZ1 32.768KHZ R8 240 PRO U2 3 2 1 4 2 1 3 5 7 9 11 13 15 B GND PRO VCC OSCI VDD OSCO INT1 VBAT SCL VSS SDA 8 B 7 6 I2C1_SCL 5 I2C1_SDA PCF8523 PRO GND OUT J4 IRM-3638M3-X PRO 1 2 Header TH 50mil PRO GND CON 2X26 mSata PRO A A Copyright (c) 2014 SolidRun ltd. All Rights Reserved Size A3 Date: 5 4 3 2 Title Rev 3.0 HummingBoard - mini pcie, mSata, Infra red and RTC Monday, June 23, 2014 Sheet 5 1 of 6 5 4 3 2 1 SGTL5000 audio codec I2C1_SCL I2C1_SDA AUD5_TXD AUD5_RXD AUD5_TXC AUD5_TXFS CCM_CLKO1 C14 0.1UF D PRO PRO STERO_OUT_R 32 31 30 29 28 27 26 25 C49 U4 V_3V2 PRO STERO_OUT_L 100uF C6 0.1UF GND HP_R GND HP_VGND VDDA HP_L AGND NC NC VAG LINEOUT_R LINEOUT_L LINEIN_R LINEIN_L MIC MIC_BIAS 1 2 3 4 5 6 7 8 CTRL_MODE CTRL_ADR0_CS VDDD CTRL_CLK NC CTRL_DATA I2S_DIN I2S_DOUT 100uF C52 D SGTL5000_32QFN C GND 24 23 22 21 20 19 18 17 C53 0.1UF PRO 33 9 10 11 12 13 14 15 16 PRO V_3V2 I2S_SCLK I2S_LRCLK NC SYS_MCLK VDDIO NC CPFILT NC C C1 C2 MIC_IN 0.1UF PRO 0.1UF R1 PRO 2.2k PRO C3 0.1UF PRO LO_R LO_L DNP LI_R DNP LI_L DNP DNP B B Coax S/PDIF out Audio in/out connector J1 STERO_OUT_L C5 R2 RCA JACK C8 STERO_OUT_R P2 P3 SPDIF_OUT J3 C7 R7 33nF 150 47nF 0402 1 3 MIC_IN 10uF 0603 BASE 200 R6 120 L12 0 P1 PWM1_OUT_AFTER_RES C76 2 4 V_3V2 BASE BASE 2 3.5MM_AUDIO_JACK 470pF L11 0 D4 BAV99L DNP C75 A A 3 Notice the assembly option Base - simple PWM based mono tone base generator Pro - connect to SGTL5000 audio codec (in/out) BASE 1 470pF Copyright (c) 2014 SolidRun ltd. All Rights Reserved DNP Size A3 Date: 5 4 3 2 Title Rev 3.0 HummingBoard - Analog and digital audio Monday, June 23, 2014 Sheet 6 1 of 6