DP159RSBEVM

User's Guide SLLU224B – August 2015 – Revised March 2018 DP159RSB Evaluation Module This document describes how to use and configure the DP159RSBEVM along with recommendations for system hardware implementation. These recommendations are only guidelines and it is the designer’s responsibility to consider all system characteristics and requirements. Engineers should refer to the datasheet for technical details such as device operation, terminal description, and so forth. 1 2 3 4 5 6 7 Contents Overview ...................................................................................................................... 2 1.1 What is the DP159? ................................................................................................ 2 1.2 What is the DP159RSBEVM? ..................................................................................... 2 1.3 What is Included in the DP159RSBEVM? ....................................................................... 2 1.4 DP159RSBEVM Board ............................................................................................. 3 Hardware Description ....................................................................................................... 3 2.1 Video Connectors for DP159 Ports ............................................................................... 4 2.2 Enable/Reset ........................................................................................................ 4 2.3 Power ................................................................................................................. 4 2.4 Jumper Configuration .............................................................................................. 5 2.5 Component Population Configuration ............................................................................ 6 2.6 Local I2C Access Through J5 ..................................................................................... 6 2.7 Local I2C Access Through USB Interface via TUSB3410 .................................................... 7 2.8 Rsadj Potentiometer .............................................................................................. 10 Quick Start Guide .......................................................................................................... 10 References .................................................................................................................. 10 EVM Bill of Materials ....................................................................................................... 11 EVM Schematics .......................................................................................................... 13 EVM Layout ................................................................................................................. 20 List of Figures 1 DP159RSBEVM Board...................................................................................................... 3 2 DP159RSBEVM Block Diagram ........................................................................................... 3 3 Register Status / Control Tab .............................................................................................. 7 4 Eye Scan Tab ................................................................................................................ 8 5 Sample Eyescan at HDMI2.0 Raw ........................................................................................ 9 6 Sample Eyescan at HDMI2.0 Interpreted................................................................................. 9 7 HDMI Input Connectors 8 9 10 11 12 13 14 15 16 ................................................................................................... DP159RSB .................................................................................................................. HDMI TX Connector ....................................................................................................... DP159RSBEVM Select Options .......................................................................................... Reset ........................................................................................................................ 1.1- and 3.3-V Regulators ................................................................................................ TUSB3410................................................................................................................... Layer 1 (Top) ............................................................................................................... Layer 2 (GND) .............................................................................................................. Layer 3 (Power) ............................................................................................................ 13 14 15 16 17 18 19 20 20 21 Aardvark is a trademark of Total Phase, Inc. All other trademarks are the property of their respective owners. SLLU224B – August 2015 – Revised March 2018 Submit Documentation Feedback Copyright © 2015–2018, Texas Instruments Incorporated DP159RSB Evaluation Module 1 Overview www.ti.com 19 ............................................................................................................ Layer 5 (GND) .............................................................................................................. Layer 6 (Bottom)............................................................................................................ 1 Jumper Settings .............................................................................................................. 5 2 Aardvark I2C (J5) Pin-Out ................................................................................................... 6 3 DP159 Target I2C Address ................................................................................................. 7 4 DP159RSBEVM Bill of Materials ......................................................................................... 11 17 18 Layer 4 (Power) 21 22 22 List of Tables 1 Overview 1.1 What is the DP159? The DP159 is a Dual-Mode DisplayPort to Transition Minimized Differential Signal (TMDS) retimer supporting Digital Video Interface (DVI) 1.0 and High Definition Multimedia Interface (HDMI) 1.4b and 2.0 output signals. The DP159 supports the Dual-Mode Standard version 1.1 type 1 and type 2 through the DDC link. The DP159 supports data rates up to 6 Gbps per data lane to support UltraHD (4K x 2K / 60 Hz) 8 bits per color high resolution video and HDTV with 16-bit color depth at 1080p (1920 x 1080 / 60 Hz). The DP159 can automatically configure itself as a redriver at data rates < 1.0 Gbps or as a retimer above this data rate. 1.2 What is the DP159RSBEVM? The DP159RSBEVM is a PCB created to help customers evaluate the DP159 device for video applications. This EVM can also be used as a hardware reference design for implementation of the DP159 in the RSB package. PCB design/layout files can be provided upon request to provide PCB design illustrations of the routing/placement rules. Please note that the EVM design supports both the standard DP159 application and a DP159-thru-HDMI application, so it contains many components that would not be needed by a typical DP159 application. A separate reference design specific to the DP159 is available for customers. 1.3 What is Included in the DP159RSBEVM? The major components of the EVM are as follows: • DP159RSB • Standard DP sink connector (connects to source) • Standard HDMI source connector (connects to sink) • DC power regulators • I2C programming interface for external I2C host connection • USB interface (I2C utility available) 2 DP159RSB Evaluation Module SLLU224B – August 2015 – Revised March 2018 Submit Documentation Feedback Copyright © 2015–2018, Texas Instruments Incorporated Overview www.ti.com 1.4 DP159RSBEVM Board Figure 1 illustrates the DP159RSBEVM board. Figure 1. DP159RSBEVM Board 2 Hardware Description Figure 2 shows the DP159RSBEVM block diagram. USB2 Connector 5-V DONGLE 5-V to 3.3-V LDO TUSB3410 AARDVARK Connector 3.3-V to 1.1-V LDO SCL_CTL SDA_CTL TMDS_D2P/N IN1P/N IN2P/N TMDS_D1P/N DP159 (40-Pin RSB) TMDS_D0P/N IN3P/N TMDS_CLKP/N AUXP/N DDC_SCL/SDA HDMI Connector DP Connector Top IN0P/N 100-Ω differential impedance for HDMI and DP differential pairs. Figure 2. DP159RSBEVM Block Diagram SLLU224B – August 2015 – Revised March 2018 Submit Documentation Feedback Copyright © 2015–2018, Texas Instruments Incorporated DP159RSB Evaluation Module 3 Hardware Description 2.1 www.ti.com Video Connectors for DP159 Ports The EVM has a DP connection for the source and a HDMI connection for the sink. J2 is a standard DP connector (Molex 47272-0001). P2 is a standard HDMI connector (Molex 4715-10001). There is a third video connection on the board for a HDMI source (P1), this function is not installed on the DP159RSBEVM. 2.2 Enable/Reset There are three device enable/reset options to use with the EVM: A. Supervisor circuitry option This is the default configuration on the DP159RSBEVM. The enable (EN) signal is held low until the power good (PG) from the 3.3-V voltage regulator reaches a stable high-voltage level then released high. B. RC timing option C26 external capacitor and internal resistor are used to control the EN ramp time after the device is powered on. C26 is a Do Not Install (DNI option) by default. C26 needs to be installed and R77 needs to be uninstalled to enable this option. C. External control option A push button (SW1) is provided for manual control of the DP159’s EN/OE input. 2.3 Power A DC power jack (J9) to accept a 5-V wall power adapter is provided on the EVM. The DC power jack (CUI Inc. PJ-202AH) has an inner diameter of 2.1 mm and an outer diameter of 5.5 mm. The tip of the +5V power supply must be positive. A +5-V power supply of at least 1.5 A that meets the given requirements can be used to power the DP159RSBEVM. Power is provided to the EVM from the 5-V wall power adapter when SW2 is set to position 1. CAUTION Care should be taken to not plug in any power source higher than the configured voltage (5 V). Alternately, it is possible to power the EVM by connecting a USB Micro cable from J13 to a USB host and setting SW2 to position 3. 4 DP159RSB Evaluation Module SLLU224B – August 2015 – Revised March 2018 Submit Documentation Feedback Copyright © 2015–2018, Texas Instruments Incorporated Hardware Description www.ti.com 2.4 Jumper Configuration Jumpers are provided to operate the device/EVM in different configurations. Table 1 lists the jumper settings. Table 1. Jumper Settings Jumper Signal Name Description Default Config J1 HPD_SRC JP 1-2 for DP159 thru HDMI NC JP 2-3 NOT USED NC for DP159 J3 JP 1-2 for I2C ENABLE I2_EN_PIN NC JP 2-3 for PIN STRAP NC – PIN STRAP (internal pulldown) J4 JP 1-2 for USB IF TO I2C SCL JP 1-2: USB I2C Interface 2 JP 2-3 for EXT IF TO I C NC – N/A J6 JP 1-2 for USB IF TO I2C SDA JP 1-2: USB I2C Interface 2 JP 2-3 for EXT IF TO I C NC – N/A J7 HDMI_SEL_TEST_A1 JP 1-2 for: NC 2 • I C Addr bit A1 = 1, when I2C_EN = H • Test mode, when I2C_EN = L JP 2-3 for: • I2C Addr bit A1 = 0, when I2C_EN = H • Normal mode, when I2C_EN = L NC for weak internal pulldown (normal mode) J8 VSADJ JP 1-2 for 6.5 kΩ JP 1-2: Default of 6.5 kΩ JP 2-3 for adjustable resistance NC – N/A J10 SLEW_CTL JP 1-2 for fastest data rate NC JP 2-3 for 20 ps slow NC for 40 ps slow J12 EQ_SEL_A0 JP 1-2 for: NC • I2C Addr bit A0 = 1, when I2C_EN = H • Fixed EQ at 14 dB, when I2C_EN = L JP 2-3 for: • I2C Addr bit A0 = 0, when I2C_EN = H • Fixed EQ at 7.5 dB, when I2C_EN = L NC for adaptive EQ J15 PRE_SEL JP 1-2 NOT USED JP 2-3 JP 2-3 for –2.5 dB NC for 0 dB SLLU224B – August 2015 – Revised March 2018 Submit Documentation Feedback Copyright © 2015–2018, Texas Instruments Incorporated DP159RSB Evaluation Module 5 Hardware Description 2.5 www.ti.com Component Population Configuration To allow the DP159RSBEVM to support both the default DP input as well as a HDMI test input, there are many components that need to be removed, placed, or modified depending on the board configuration. Here’s a summary of the default component configuration for the DP159RSBEVM. In addition, the unused HDMI receptacle is depopulated. Function Differential Pair - IN Differential Pair - HDMI IN SDA / SCL - HDMI Differential Pair - DP IN SDA / SCL / HPD - DP Pullup Differential Pair HDMI IN 2.5.1 Reference Designator C11, C12, C13, C14, C15, C16, C24, C25 R14, R15, R18, R19, R20, R21, R22, R23 R16, R17, R24, R25, R134, R135 R112, R109, R111, R108, R110, R107, R106, R105 R33, R31, R32 (R126, R136, R140, R141 - snoop) R1, R2, R3, R4, R6, R7, R8, R9 DP159RSBEVM populated with 0.1 µF not populated not populated populated with 0 Ω populated with 0 Ω populated, but not connected HPD Snoop Option To accommodate systems that do not properly resend DDC commands after HPD goes low, we have implemented a HPD snoop mode on the DP159RSBEVM. This mode allows the HPD line to be routed around the DP159, but remain connected to the DP159 on the sink side to allow the DP159 to snoop its state. This snoop mode is disabled by default on the DP159RSBEVMs. • Pop R131, no pop R129, R130, R139 for HPD on • No pop R131, pop R129, R130, R139 for HPD snoop only 2.5.2 DDC Snoop Option – not Available for DP159RSB REV B To accommodate systems that do not properly support clock stretching on the DDC lines, we have implemented a snoop mode on the DP159RSBEVM. This mode allows the DDC lines to be routed around the DP159RSB, but remain connected to the DP159RSB on the sink side to allow the DP159RSB to snoop the DDC traffic. This snoop mode is disabled by default on the DP159RSB REV B1 EVMs. • Pop R126, R136, R140, R141. No pop R31, R32 – DP159RSB, DDC snoop only • Pop R31, R32. No pop R126, R136, R140, R141- DP159RSB, DDC on 2.6 Local I2C Access Through J5 Access to DP159’s local I2C signals is provided via the J5 input connector. Note that I2C signal levels should be at 3.3 V when I2C interface is accessed through the connector. A standalone external I2C host can be connected via J5 for debug and control purposes. An example of an external I2C Host controller is the Total Phase Aardvark™ I2C/SPI Host Adapter (Total Phase Part#: TP240141). Sample scripts for this I2C Host controller are provided by request. Table 2. Aardvark I2C (J5) Pin-Out J5 pin # 6 Description J5 pin # Description 1 SCL_CTL 2 GND 3 SDA_CTL 4 NC 5 NC 6 NC 7 NC 8 NC 9 NC 10 GND DP159RSB Evaluation Module SLLU224B – August 2015 – Revised March 2018 Submit Documentation Feedback Copyright © 2015–2018, Texas Instruments Incorporated Hardware Description www.ti.com 2 Table 3. DP159 Target I C Address (1) DP159 I2C Target Address (1) 2.7 Bit 7 (MSB) Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 A6 A5 A4 A3 A2 A1 A0 1 0 1 1 1 1 0 Bit 0 (W/R) 0/1 The target I2C address for DP159 can be modified by the EVM jumper settings. Local I2C Access Through USB Interface via TUSB3410 Access to DP159’s local I2C signals is also provided through the TUSB3410 on the DP159RSBEVM using a USB TI Utility called Eye Scan. To use the utility: • Install the Eye Scan software from Texas Instruments • J6 must be set to SDA – SDA_USB • J4 must be set to SCL – SCL_USB • Attach USB micro cable to J13 and to the host computer NOTE: The USB connection should be made prior to installing any DP or HDMI cables. • Start the Eye Scan software Figure 3 shows the Register Status / Control tab. Figure 3. Register Status / Control Tab Confirm that the SN65DP149/159/TMDS171/181 Interface is present and selected at the top. If it is not, check the USB connection and confirm that the driver is loaded in Device Manager. It may take a moment for the USB driver to load, if the DP159RSB does not appear, hit the Refresh button. This tab can be used to read and write the status and control registers of the device. SLLU224B – August 2015 – Revised March 2018 Submit Documentation Feedback Copyright © 2015–2018, Texas Instruments Incorporated DP159RSB Evaluation Module 7 Hardware Description www.ti.com Figure 4 shows the Eye Scan tab. Figure 4. Eye Scan Tab To run an Eye Scan, select the Eye Scan tab, select the relevant lanes, and press scan. Note that Eye Scan cannot be performed when the device is in retimer mode, it does not function in redriver mode. 8 DP159RSB Evaluation Module SLLU224B – August 2015 – Revised March 2018 Submit Documentation Feedback Copyright © 2015–2018, Texas Instruments Incorporated Hardware Description www.ti.com Note that at HDMI 2.0 speeds there is a bug that causes invalid eyescan results. Results that look like this: Figure 5. Sample Eyescan at HDMI2.0 Raw Should be interpreted as this: Figure 6. Sample Eyescan at HDMI2.0 Interpreted SLLU224B – August 2015 – Revised March 2018 Submit Documentation Feedback Copyright © 2015–2018, Texas Instruments Incorporated DP159RSB Evaluation Module 9 Hardware Description 2.8 www.ti.com Rsadj Potentiometer The default Rsadj value on the DP159RSBEVM is 6.5 kΩ. The optimal value for an application may vary from 4.7 kΩ to 7 kΩ. To allow customers to test the effects of various Rsadj values, there is a potentiometer on the EVM at R76. The Rsadj value can be varied by turning the knob and setting J8 to [2,3]. 3 Quick Start Guide The following steps provide quick start instructions: 1. Connect USB cable from J13 to a USB host, set SW2 to 3. LED D2 should light up. Option: Apply 5-V power to J9, set SW2 to 1. LED D2 should light up. 2. If using external I2C adapter instead of pin straps, please configure the DP159 at this step using J5 or through the USB interface. 3. Plug in a DP source using a standard DP cable into J2 (Standard DP connector). 4. Plug in an HDMI video sink device into P2 (standard HDMI connector) using a standard HDMI cable. 5. Video output on HDMI sink should be observed. 4 References 1. 2. 3. 4. 10 DP159 Data Sheet Aardvark Adapter User Manual High-Definition Multimedia Interface Specification Version 1.4b. High-Definition Multimedia Interface Specification Version 2.0. DP159RSB Evaluation Module SLLU224B – August 2015 – Revised March 2018 Submit Documentation Feedback Copyright © 2015–2018, Texas Instruments Incorporated EVM Bill of Materials www.ti.com 5 EVM Bill of Materials Table 4 lists the DP159RSBEVM BOM. Table 4. DP159RSBEVM Bill of Materials Item Qty Reference Part PCB Footprint Manufacturer Part Number 1 2 C1,C52 1 uF 603 Taiyo Yuden LMK107B7105KA-T 2 12 C9,C10,C17,C18,C19, C21,C23,C29,C40, C46,C59,C60 0.1uF 402 Yageo CC0402KRX5R6BB104 3 5 C8,C20,C35,C36,C57 10uF 805 TDK C2012X5R1A106K125AB 63 1 C31 10uF 805 TDK C2012X5R1C106K085AC 4 8 C11,C12,C13,C14,C15, C16,C24,C25 0.1uF 201 TDK C0603X5R0J104M 5 5 C22,C37,C41,C42,C47 0.01uF 402 6 1 C26 - DNI DNI_200nF 402 7 1 C27 18pF 402 AVX 04025A180JAT2A 8 1 C28 220pF 402 9 1 C30 220uF 7343 Kemet T491D227K016AT 10 1 C34 3.3 nF 402 11 1 C32 22uF 805 12 2 C39,C58 2.2uF 805 13 0 C38,R14,R15,R16,R17, R18,R19,R20,R21,R22, R23,R24,R25,R34,R87, R92,R93,R104,R120, R123,R125,R134,R135, R129,R130,R139,R126, R136,R140,R141 DNI 402 / 201 14 2 C45,C49 22pF 402 15 2 C50,C51 33pF 402 16 1 D1 Zener 6V SOT23 Diodes Inc. MMBZ5233B-FDICT-ND 17 1 D2 LED Green 0805 805 Lite On LTST-C171GKT 18 1 JP1 JUMPER HDR_THVT_1x2_100 19 9 J1,J3,J4,J6,J7,J8,J10,J12 HDR3X1 M .1 ,J15 HDR_THVT_1x3_100 3M 961103-6404-AR 20 1 J2 Display_Port_Connector_S ink_0 DISPLAYPORT Molex 47272-0001 21 1 J5 Header 5x2 0.1" thru-hole con_thvt_shrd_2x5_100_m 3M N2510-6002-RB 22 1 J9 2.1 mm x 5.5 mm PJ-202AH CUI Inc. PJ-202AH (PJ-002AH) 23 1 J13 USB Micro B USB Micro B FCI 10103592-0001LF 24 12 LP5,LP6,LP7,LP8,LP9, LP10,LP11,LP12,LP13, LP15,LP16,LP17 LP TESTLOOP KOBIKONN 151-103-RC 25 1 L1 2.2 uH 1008 TDK VLS252010ET-2R2M 26 1 L2 1 uH 1008 TDK NLCV25T-1R0M-EFR 27 4 L3, L4, L5, L6 CHOKE 805 Murata DLW21SN900HQ2L 28 1 P1 - DNI HDMI_IN CON_HDMI_RT_19_0p50mm Molex 471510001 29 1 P2 HDMI_OUT CON_HDMI_RT_19_0p50mm Molex 471510001 30 2 Q1,Q2 FDV301N_NFET_8V SOT23 Fairchild Semiconductor FD301N 31 8 R1,R2,R3,R4,R6,R7,R8, R9 50 201 32 1 R5 100 402 33 6 R10,R11,R99,R100,R101 ,R121 1K 402 34 3 R12,R27,R81 100K 402 35 1 R13 10 402 36 12 R31,R32,R33,R105,R106 ,R107,R108,R109,R110, R111,R112,R124 0 201 SLLU224B – August 2015 – Revised March 2018 Submit Documentation Feedback Copyright © 2015–2018, Texas Instruments Incorporated DP159RSB Evaluation Module 11 EVM Bill of Materials www.ti.com Table 4. DP159RSBEVM Bill of Materials (continued) 12 Item Qty Reference Part PCB Footprint 37 6 R28,R29,R45,R46,R58, R59 2K 402 Manufacturer Part Number 38 7 R77,R80,R83,R84,R89, R122,R131 0 402 39 1 R30 1M 402 40 10 R57,R60,R63,R64,R65, R66,R67,R68,R69,R70 65K 402 41 1 R75 6.5K 402 42 1 R76 PTV09 10K POT THRUHOLE 43 3 R78,R98,R102 10K 402 BOURNS PTV09A-4015F-B103 44 2 R79,R88 4.7K 402 45 1 R82 500 402 46 1 R85 750K 402 47 1 R86 240K 402 48 1 R90 1.87K 402 49 1 R91 4.99K 402 50 1 R94 1.5K 402 51 2 R95,R96 33 201 52 1 R103 15K 402 53 1 R115 47K 402 54 1 SW1 PB_SWITCH 55 1 SW2 3POS_SPDT SW_MOM_2NO OMRON B3SN-3012P THRUHOLE_3POS NKK Switches 56 1 U10 MS13ANW03 DP159RSB 40_RSB TI 57 1 58 1 U3 TPS3808G30DBVT 6DBV TI TPS3808G30DBVT U4 TPS62150A RGT16 TI 59 TPS62150ARGTT 1 U6 TPS61240 6DRV TI TPS61240DRVT 60 1 U5 TPS74201RGWT RGW20 TI TPS74201RGWT 61 1 U7 TUSB3410 LQFP32 TI TUSB3410VF 62 1 U8 24LC256 8SOIC ON Semiconductor CAT24C256W 64 1 U16 TPD2E001 drl_5pin TI TPD2E001 65 1 Y1 12 MHz Crystal ECX-32 ECS Inc. ECS-120-20-33-TR DP159RSB Evaluation Module SLLU224B – August 2015 – Revised March 2018 Submit Documentation Feedback Copyright © 2015–2018, Texas Instruments Incorporated EVM Schematics www.ti.com 6 EVM Schematics Figure 7 through Figure 13 show the DP159RSBEVM schematics. Figure 7. HDMI Input Connectors SLLU224B – August 2015 – Revised March 2018 Submit Documentation Feedback DP159RSB Evaluation Module Copyright © 2015–2018, Texas Instruments Incorporated 13 EVM Schematics www.ti.com VDD_1P1V VCC_3P3V SLEW_CTL PAGE6 OE PAGE2 SCL_SRC PAGE2 SDA_SRC PAGE5 SDA_SNK PAGE4 HDMI_SDA_SRC PAGE2,3 SCL_SNK PAGE4 HDMI_SCL_SRC PAGE2,3 VCC_3P3V 0.1uF 10 C25 IN_CLKN 11 C10 0.1uF 0.1uF 31 32 SCL_SNK OUT_CLKP IN_CLKN C9 VDD4 33 34 SLEW-CTL SDA_SNK 35 36 GND2 OE VCC2 SCL_SRC 37 38 39 40 IN_CLKP VCC1 0.1uF HDMI_SEL/A1 OUT_CLKN 30 29 28 27 26 25 24 23 OUT_D2P PAGE4 OUT_D2N PAGE4 HPD_SNK PAGE4 OUT_D1P PAGE4 OUT_D1N PAGE4 OUT_D0P PAGE4 OUT_D0N PAGE4 HDMI_SEL#_TEST_A1 22 21 OUT_CLKP PAGE4 OUT_CLKN PAGE4 VDD_1P1V PAGE5 C17 C18 C19 0.1uF 0.1uF 0.1uF VDD3 IN_CLKP OUT_D0N I2C_EN/GPIO VDD2 9 C24 IN_D0N 20 8 19 0.1uF VSADJ I2C_EN_PIN OUT_D0P EQ_SEL/A0 IN_D0N PAGE5 OUT_D1N IN_D0P 18 7 C16 IN_D1N PRE_SEL 6 0.1uF OUT_D1P 17 0.1uF C15 PAGE2 PAGE2 5 C14 IN_D1P 16 IN_D0P HPD_SNK GND1 IN_D1N PAGE2 0.1uF HPD_SRC 15 PAGE2 4 C13 OUT_D2N SDA_CTL IN_D1P OUT_D2P IN_D2N SCL_CTL PAGE2 3 IN_D2P 14 HPD_SRC 2 0.1uF R131 0 VDD1 PAGE2 0.1uF C12 13 IN_D2N 12 IN_D2P PAGE2 PAGE2 1 C11 PAGE2 SDA_SRC PAD VDD5 U10 41 C8 10uF C20 10uF C21 C22 C23 0.1uF 0.01uF 0.1uF BOARD_5V DP159RSB R130 DNI 0402 5% PAGE5 SCL_CTL PAGE5 SDA_CTL PAGE2 HPD_SRC_CONN R129 DNI HPD_SNK PAGE4 Pop R131, no pop R129, R130 for HPD on No pop R131, pop R129, R130 for HPD snoop only PAGE5 PRE_SEL PAGE5 EQ_SEL_A0 VSADJ PAGE5 Figure 8. DP159RSB 14 DP159RSB Evaluation Module SLLU224B – August 2015 – Revised March 2018 Submit Documentation Feedback Copyright © 2015–2018, Texas Instruments Incorporated EVM Schematics www.ti.com BOARD_5V Pop 2K resistors on R45, R46 for DP159 thru HDM, DDC on Pop 47K resistors on R45, R46 for DP159 thru HDMI, DDC snoop only Pop 2K resistors on R45, R46 for DP159 20 21 Case1 Case2 Case3 Case4 22 23 HDMI TX R45 2K 0402 5% R46 2K 0402 5% P2 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 HDMI_OUT HDMI OUT 1 2 DLW21SN900HQ2L L3 4 3 1 2 L4 4 3 DLW21SN900HQ2L 1 2 L5 4 1 2 L6 4 3 3 DLW21SN900HQ2L DLW21SN900HQ2L OUT_D2P PAGE3 OUT_D2N OUT_D1P PAGE3 PAGE3 OUT_D1N OUT_D0P PAGE3 PAGE3 OUT_D0N PAGE3 OUT_CLKP PAGE3 BOARD_5V OUT_CLKN PAGE3 HDMI_CEC_SNK PAGE2 SPDIF_IN PAGE2 SCL_SNK SDA_SNK HPD_SNK PAGE3 PAGE3 PAGE3 LP13 LP12 LP11 LP10 Figure 9. HDMI TX Connector SLLU224B – August 2015 – Revised March 2018 Submit Documentation Feedback DP159RSB Evaluation Module Copyright © 2015–2018, Texas Instruments Incorporated 15 EVM Schematics www.ti.com BOARD_5V Pop 2K resistors on R45, R46 for DP159 thru HDM, DDC on Pop 47K resistors on R45, R46 for DP159 thru HDMI, DDC snoop only Pop 2K resistors on R45, R46 for DP159 20 21 Case1 Case2 Case3 Case4 22 23 HDMI TX R45 2K 0402 5% R46 2K 0402 5% P2 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 1 L3 4 2 DLW21SN900HQ2L 3 1 2 L4 4 3 DLW21SN900HQ2L 1 2 L5 4 1 2 L6 4 3 HDMI_OUT HDMI OUT DLW21SN900HQ2L 3 DLW21SN900HQ2L OUT_D2P PAGE3 OUT_D2N OUT_D1P PAGE3 PAGE3 OUT_D1N OUT_D0P PAGE3 PAGE3 OUT_D0N PAGE3 OUT_CLKP PAGE3 BOARD_5V OUT_CLKN PAGE3 HDMI_CEC_SNK PAGE2 SPDIF_IN PAGE2 SCL_SNK SDA_SNK HPD_SNK PAGE3 PAGE3 PAGE3 LP13 LP12 LP11 LP10 Figure 10. DP159RSBEVM Select Options 16 DP159RSB Evaluation Module SLLU224B – August 2015 – Revised March 2018 Submit Documentation Feedback Copyright © 2015–2018, Texas Instruments Incorporated EVM Schematics www.ti.com VCC_3P3V J3 1 2 3 HI I2C_EN_PIN LO I2C_EN_HI Three place switches - hi, lo, no connect Sampled at POR R57 65K 0402 5% VCC_3P3V I2C_EN_PIN I2C_EN_LO PAGE3 R60 65K 0402 5% HDR3X1 M .1 R58 2K 0402 5% DEFAULT VSADJ POT J4 PAGE3 SCL_CTL SCL_CTL_USB PAGE8 1 3 5 7 9 J6 J15 1 2 3 HI PRE_SEL LO PRE_SEL_HI SDA_USB SDA SDA_AAR SDA_CTL 1 2 3 SDA_CTL_USB HDR3X1 M .1 PRE_SEL PRE_SEL_LO HDR3X1 M .1 PAGE3 VSADJ PAGE8 PAGE3 R76 R115 47K 0402 5% J5 HDR3X1 M .1 R63 65K 0402 5% 1 2 3 HDR3X1 M .1 1 2 3 SCL_USB SCL SCL_AAR VCC_3P3V R75 6.5K 0402 1% J8 R59 2K 0402 5% PTV09 10K POT 2 4 6 8 10 Header 5x2 0.1" thru-hole AARDVARK I2C PAGE3 AARDVARK CONNECTOR R64 65K 0402 5% VCC_3P3V VCC_3P3V VCC_3P3V J12 HI EQ_SEL_A0 LO 1 2 3 EQ_SEL_HI R68 65K 0402 5% EQ_SEL_A0 EQ_SEL_LO HDR3X1 M .1 J10 PAGE3 R70 65K 0402 5% HI SLEW_CTL LO 1 2 3 SLEW_CTL_HI R65 65K 0402 5% SLEW_CTL SLEW_CTL_LO HDR3X1 M .1 J7 PAGE3 HI HDMI_SEL#/TEST/A1 LO R67 65K 0402 5% 1 2 3 HDR3X1 M .1 R66 65K 0402 5% HDMI_SEL#_TEST_A1 PAGE3 R69 65K 0402 5% Figure 11. Reset SLLU224B – August 2015 – Revised March 2018 Submit Documentation Feedback DP159RSB Evaluation Module Copyright © 2015–2018, Texas Instruments Incorporated 17 EVM Schematics www.ti.com WALL - OFF - USB 5V SW2 3POS - SPDT 3.3V BUCK REGULATOR - 4V to 17V input BOARD_3P3V 1 2 3 USB_5V VCC_3P3V LP5 J9 BOARD_IN 2 3 1 L1 U4 T + C30 220uF C31 10uF 9 EN PVIN2 PVIN1 AVIN PG FB SS/TR 17 C34 3.3 nF SW1 SW2 SW3 PGND2 PGND1 AGND S 13 12 11 10 VOS PAD 14 16 15 6 PWRIN_SW FSW DEF 1 2 3 3.3V R84 0 2.2 uH 4 R85 750K 0402 1% R81 100K 0402 5 7 REG_PG PAGE6 C32 22uF FB_3PT3V 8 TPS62150A R83 0 0402 R120 DNI R86 240K 0402 1% 0402 BOARD_3P3V BOARD_5V 5.0V BOOST U6 6 L2 5 BOARD_3P3V 1 uH BOARD_1P1V BOARD_3P3V U5 C35 10uF 4 5 6 7 8 R88 4.7K 0402 5% EN1P2 10 11 IN1 IN2 IN3 IN4 PG OUT1 OUT2 OUT3 OUT4 BIAS EN FB 0.01uF SS1P2 15 NC1 NC2 NC3 NC4 NC5 NC6 GND PAD C37 SS DNI 2 3 4 13 14 17 12 21 TPS74201RGWT C38 9 REG_PG GND L VOUT EN FB 1 2 3 R82 500 0402 5% PAD 1.1V LDO REGULATOR VIN 7 R87 DNI 0402 5% TPS61240 VDD_1P1V LP6 1 20 19 18 C58 2.2uF C57 10uF D2 LED Green 0805 BOARD PWR 1.1V R89 16 FB_1PT2V R90 1.87K 0402 1% 0 LP7 C36 10uF R91 4.99K 0402 1% LP8 LP9 GND GND Figure 12. 1.1- and 3.3-V Regulators 18 DP159RSB Evaluation Module SLLU224B – August 2015 – Revised March 2018 Submit Documentation Feedback Copyright © 2015–2018, Texas Instruments Incorporated EVM Schematics www.ti.com USB_5V BOARD_3P3V +1V8 BOARD_3P3V VCC1 VCC2 U7 U16 J13 10 9 4 BOARD_3P3V TPD2E001 6 1 2 3 4 5 7 22pF C49 R94 1.5K 5 R95 R96 7 6 33 33 22pF 33pF C45 Y1 X2 26 C41 0.01uF C42 0.01uF DM0 DP0 TEST1 TEST0 24 23 +1V8 C46 0.1uF R98 10K 0402 5% C47 0.01uF X2 1 2 4 3 X1 27 BOARD_3P3V 33pF R122 C59 0.1uF U8 A0 Vcc A1 WP A2 SCL Vss SDA PUR C50 USB Micro B 1 2 3 4 C40 0.1uF 8 7 6 5 R99 1K 0402 5% C51 12 MHz 11 10 0 R100 1K 0402 5% 2 JP1 24LC256 R121 1K 0402 5% 32 31 1 PAGE5 SCL_CTL_USB PAGE5 SDA_CTL_USB 30 29 R101 1K 1 2 BOARD_3P3V 9 R103 15K 0402 5% DTR RTS SOUT/IR_SOUT SIN/IR_SIN X1/CLKI RI/CP DCD DSR CTS 21 20 19 17 16 15 14 13 SCL SDA BOARD_3P3V P3_0 CLKOUT 22 P3_1 P3_3 P3_4 WAKEUP 12 R102 10K 0402 5% VREGEN SUSP RESET TUSB3410 GND1 GND2 GND3 11 S3 S1 VBUS S6 DM DP S5 ID GND S4 S2 DNI 8 18 28 8 IO2 NC GND IO1 2 3 C60 0.1uF VCC 5 1 R93 4 DNI VDD1V8 R92 3 25 C39 2.2uF RSTIn C52 1 uF Figure 13. TUSB3410 SLLU224B – August 2015 – Revised March 2018 Submit Documentation Feedback DP159RSB Evaluation Module Copyright © 2015–2018, Texas Instruments Incorporated 19 EVM Layout 7 www.ti.com EVM Layout Figure 14 through Figure 19 illustrate the DP159RSBEVM PCB layouts. Figure 14. Layer 1 (Top) Figure 15. Layer 2 (GND) 20 DP159RSB Evaluation Module SLLU224B – August 2015 – Revised March 2018 Submit Documentation Feedback Copyright © 2015–2018, Texas Instruments Incorporated EVM Layout www.ti.com Figure 16. Layer 3 (Power) Figure 17. Layer 4 (Power) SLLU224B – August 2015 – Revised March 2018 Submit Documentation Feedback Copyright © 2015–2018, Texas Instruments Incorporated DP159RSB Evaluation Module 21 EVM Layout www.ti.com Figure 18. Layer 5 (GND) Figure 19. Layer 6 (Bottom) 22 DP159RSB Evaluation Module SLLU224B – August 2015 – Revised March 2018 Submit Documentation Feedback Copyright © 2015–2018, Texas Instruments Incorporated Revision History www.ti.com Revision History NOTE: Page numbers for previous revisions may differ from page numbers in the current version. Changes from A Revision (October 2015) to B Revision ............................................................................................... Page • Added text and Figure 5 and Figure 6 .................................................................................................. 9 Revision History Changes from Original (August 2015) to A Revision ..................................................................................................... Page • • • Changed the following rows in the Jumper Settings table: J1, J2, J15. ........................................................... 5 Changed Qty and Reference columns in Item 13 and 36 of the DP159RSBEVM Bill of Materials table. ................... 11 Changed HDMI Input Connectors schematic image. ............................................................................... 13 SLLU224B – August 2015 – Revised March 2018 Submit Documentation Feedback Copyright © 2015–2018, Texas Instruments Incorporated Revision History 23 STANDARD TERMS FOR EVALUATION MODULES 1. Delivery: TI delivers TI evaluation boards, kits, or modules, including any accompanying demonstration software, components, and/or documentation which may be provided together or separately (collectively, an “EVM” or “EVMs”) to the User (“User”) in accordance with the terms set forth herein. 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