AT91SAM9G15-EK

Atmel | SMART SAM9 MPUs SAM9G15 / SAM9G25 / SAM9G35 / SAM9X25 / SAM9X35 Evaluation Kit USER GUIDE Introduction This User Guide introduces the Evaluation Kit and describes the development and debugging capabilities running on Atmel ® | SMART SAM9 ARM ® -based Embedded MPUs as listed below:  SAM9G15  SAM9G25  SAM9X25  SAM9G35  SAM9X35 The User Guide pertains to the following Evaluation Kit references:  SAM9G15-EK  SAM9G25-EK  SAM9X25-EK  SAM9G35-EK  SAM9X35-EK Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 Contents     Board ̶ One EK board ̶ One of the five available CPU modules (CM) SAM9G15-CM SAM9G35-CM SAM9X35-CM SAM9G25-CM SAM9X25-CM ̶ One optional DM board featured in SAM9G15, SAM9G35, SAM9X35 kits only. Power supply ̶ Universal input AC/DC power supply with US, Europe and UK plug adapters ̶ One 3V Lithium Battery type CR1225 Cables ̶ One serial RS232 cable ̶ One micro A/B-type USB cable ̶ One RJ45 crossed cable A Welcome Letter Board Photo (Display module is optional) 2 SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 Related Documents Title Reference SAM9G15 Datasheet Atmel lit° 11052 SAM9G25 Datasheet Atmel lit° 11032 SAM9X25 Datasheet Atmel lit° 11054 SAM9G35 Datasheet Atmel lit° 11053 SAM9X35 Datasheet Atmel lit° 11055 Comment These documents provide technical support for each of the Atmel ARM-based Embedded MPU products supported by these Evaluation Kits. The datasheets can be found on www.atmel.com at the SAM9G MPU and SAM9X MPU product sections. SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 3 Table of Contents Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 Related Documents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 Table of Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 1. Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 1.1 1.2 2. Power Up . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 2.1 2.2 2.3 3. 4 Power Up the Board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 Sample Code and Technical Support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 Recovery Procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 Hardware Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 3.1 3.2 3.3 3.4 4. Kit Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 Board Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 Computer Module (CM). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 EK Board Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28 Optional Display Module (DM) Board Hardware . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 82 Revision History . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 87 SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 1. Specifications 1.1 Kit Specifications Unpack and inspect the kit carefully. Contact your local Atmel distributor, should there be issues concerning the contents of the kit. Figure 1-1. 1.2 Unpacked Evaluation Kit Board Specifications Table 1-1. Evaluation Kit Specifications Characteristics Specifications Clock speed 400 MHz PCK, 133 MHz MCK Ports Ethernet, USB, RS232, DBGU, JTAG, CAN, Audio, SD Card Board supply voltage 5 VDC from connector Temperature - operating -10° to +50° C - storage -40° to +85° C Relative humidity 0 to 90% (non condensing) Dimensions EK (Evaluation Kit) CM (Computer Module) DM (Display Module) RoHS status 165 mm x 135 mm 67.6 mm x 35 mm 135 mm x 80 mm Compliant SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 5 2. Power Up 2.1 Power Up the Board Unpack the board taking care to avoid electrostatic discharge. Unpack the power supply, select the right power plug adapter corresponding to that of your country, and insert it in the power supply. Connect the power supply DC connector to the board and plug the power supply to an AC power plug. For SAM9G15, SAM9G35, SAM9X35 kits which contain LCD, the screen should light up and display the welcome page of a graphic demo. Click or touch icons displayed on the screen and enjoy the demo. For SAM9G25 and SAM9X25 which do not contain LCD, before power up, connect DBGU port J11 on the EK board (refer to Section 3.3.3.4 for details) to RS232 port on your computer through the RS232 cable provided with the kit. It is recommended to open a communication session under HyperTerminal. After power up, a commandline based demo runs that can be monitored on HyperTerminal window. 2.2 Sample Code and Technical Support After boot up, designers can run sample code or their own application, on the development kit. Users can download sample code and get technical support from the Atmel web site: http://www.atmel.com/products/at91/default.asp?category_id=163&family_id=605&source=global_nav Figure 2-1. Atmel Web Site Note: Different interfaces on the EK boards share the same connections to the CPU module. Therefore the actual usage depends on the CPU module featured in the evaluation kit. 6 SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 2.3 Recovery Procedure All EK boards have passed strict test procedures before shipment. These test procedures are contained in the SPI serial Flash in case users need to examine the boards again at any time. If the contents of the SPI serial Flash have been deleted, follow the instructions below to recover the state as it was when shipped by Atmel. 1. Go to the page on atmel.com for the EK being used. 2. Locate the EK Design & Manufacturing Files as shown in Figure 2-2. 3. Find the xxx-EK_test_12_public.zip, which is the file for Flash content burning. 4. Follow the step-by-step instructions in the file SAM9X5_EK_Test_Software to recover the content and to test each section of the boards. Figure 2-2. EK Design & Manufacturing Files SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 7 3. Hardware Overview 3.1 Introduction The Evaluation Kit is a fully-featured evaluation platform for the Atmel MPU. The Evaluation Kit enables users to extensively evaluate, prototype and create application-specific designs. The Evaluation Kit is a new platform architecture based on a Main Board (MB), a CPU Module (CM) equipped with one of the five processors and an optional Display Module (DM). The Evaluation Kit consists of three boards: 1. The CPU Module (CM) board, is a single-board computer that integrates all the core components and is mounted onto an application-specific carrier board (EK board). The CPU Module has specified pinouts based on the SODIMM200 connector. It provides the functional requirements for an embedded application. These functions include, but are not limited to, graphics, audio, mass storage, network and multiple serial and USB ports. A single SODIMM200 connector provides an interface for the carrier board to carry all the I/O signals to and from the CPU Module. 2. The Evaluation Kit board (EK Main Board) provides all the interface connectors required to attach the system to the application specific peripherals. This versatility allows the designer to create a densely packed solution, which results in a more reliable product while simplifying system integration. 3. The optional Display Module (DM) board integrates LCD, TouchScreen and QTouch® technology. Table 3-1 lists the features provided on the Evaluation Kit: 8 SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 Table 3-1. Evaluation Kit Features Supported Modules Expansion Slot Product Name SO-DIMM200 Processor Options SAM9G15 SAM9G25 SAM9G35 SAM9X25 SAM9X35 MII/RMII Ethernet 10/100 w/PHY and three Led status ETH0 – X X X X RMII Ethernet 10/100 w/PHY and three Led status ETH1 – – – X – COM0 X X X X X RS232 four wires COM3 – X – X – RS232 two wires DBGU X X X X X CAN0 – – – X X CAN1 – – – X X 2 * USB 2.0 Host – X X X X X 1 * USB 2.0 Host/Device – X X X X X SMD Software Modem Device – X X X X X Memory Card Support µSD Card Slot Onboard HSMCI0 X X X X X MMC/MMC+/SD/SDIO/CE-ATA HSMCI1 X X X X X ISI – – – X – – – LCD + Touch Screen 24-bit Output Mode – X – X – X ZigBee® – – X X X X X SPI – – X X X X X TWI – – X X X X X DEBUG JTAG Test Access Port – X X X X X LAN RS232 four wires/RS485 Shared interface USART/UART CAN CAN interface Shared interface USB SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 9 3.2 Computer Module (CM) 3.2.1 CM Board Overview The CM board is the CPU module at the heart of the system. It connects to the EK board through a SO-DIMM200 interface. It carries the processor and external memories. The CM board serves as a minimal CPU sub-system. All five processors:SAM9G15, SAM9G25, SAM9X25,SAM9G35 and SAM9X35 share the same CM circuitry with minor configuration settings. Note: There are three CM boards from three different manufacturers. The five processors are implemented as shown in Table 3-2 below: Table 3-2. CM Board Implementation Manufacturer & Module kind SAM9G15-CM SAM9G25-CM SAM9G35-CM SAM9X25-CM SAM9X35-CM mfg 1 x – x – – mfg 2 – – – x x mfg 3 x x x x x The three CM boards share the same circuitry design but with different designator information and PCB layouts. The circuitry reference in this guide, for common design parts, refers to schematics from SAM9G25-CM (mfg 3). All the other schematics are provided in Section 3.2.6 ”Schematics”. Figure 3-1. 10 Board Architecture SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 3.2.2 Equipment List The CM board is built around the integration of an ARM926-based microcontroller (BGA217 package) with external memory and optional Ethernet PHYsical Layer Transceiver. 3.2.2.1 Devices Following is the list of the CM board components:  One SAM9 Embedded MPU from the list below ̶ SAM9G15 ̶ SAM9G25 ̶ SAM9G35 ̶ SAM9X25 ̶ SAM9X35  12 MHz crystal  32.768 KHz crystal  1 Gbit DDR2 memory  2 Gits NAND Flash memory with Chip Selection control switch  32 Mbits SPI Serial Flash with Chip Selection control switch  512 Kbits EEPROM  1 Kbyte 1-Wire EEPROM  On-board power regulation  Two user LEDs  Optional PHY 3.2.2.2 Interface Connection  SODIMM200 card edge interface  Configuration Items Dual ON/OFF switch for NAND Flash and SPI serial Flash Chip Select connection 3.2.2.3 Figure 3-2. CM Board Layout Commented NAND Flash DDR2 SDRAM Sodimm200 card edge SAM9 chip PHY SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 11 3.2.3 Function Blocks 3.2.3.1 Processor The CM Board is equipped with an Atmel ARM-based embedded MPU, as listed below, in a 217-ball BGA package. The five devices share an identical footprint. All five share the same CM Board PCB with minor configuration differences. The five devices are:  SAM9G15  SAM9G25  SAM9G35  SAM9X25  SAM9X35 As different interfaces can be defined using the same pins, it depends on the actual configuration of the CPU as to which functions are in fact available to the EK board. Refer to Section 3.2.4.1 ”Chip Identification” for details. The processor runs at a nominal frequency of 400 MHz for the core and 133 MHz for the system bus. The peripheral configuration possibilities and implementation requirements of the CM are dependent on the module's chipset. Two configuration resistors are implemented on board in order to select the mode of configuration. 3.2.3.2 Clock Circuitry The CM includes 3 clock sources:  Two are alternatives for the processor main clock  One crystal and one crystal oscillator are used for the Ethernet MII/RMII chip Table 3-3. Main Components Associated with the Clock Systems Quantity 3.2.3.3 Description Component assignment 1 Crystal for Internal Clock, 12 MHz Y1 1 Crystal for RTC Clock, 32.768 kHz Y2 1 Oscillator for Ethernet Clock RMII, 50 MHz Y3 Reset Circuitry The reset sources for the CM board are: 12  Power on reset  Push button reset (Push button is equipped on EK board)  JTAG reset from an in-circuit emulator (JTAG interface is equipped on EK board) SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 3.2.3.4 Power Supplies The CM Board is driven by +3V3 input power rail from the EK board through the SODIMM200 connector. The CM Board embeds all the necessary power rails required for the micro processor. When additional voltages are required, for example VDDCORE, they are generated on board from the 3.3V supply. The detailed power supply requirements for any given module are specified within the corresponding product documentation. The following table summarizes the power specifications. Table 3-4. Power Rails Associated with the Systems Nominal Name Powers Component 3.3v VDDNF the NAND Flash I/O and control, D16-D32 and multiplexed SMC lines From SODIMM200 connector 3.3v VDDIOP0 Partial Peripheral I/O lines From SODIMM200 connector 3.3v VDDIOP1 Partial Peripheral I/O lines From SODIMM200 connector 3.0v VDDBU the Slow Clock oscillator, the internal 32 kHz RC, the internal 12 MHz RC and a part of the System Controller From SODIMM200 connector 3.3v VDDUTMII the USB device and host UTMI+ interface From SODIMM200 connector 3.3v VDDOSC the Main Oscillator cells From SODIMM200 connector 3.3v VDDANA the Analog to Digital Converter From SODIMM200 connector 1.8v VDDIOM the External Memory Interface I/O lines on-board 1.0v VDDUTMIC DC Supply UDPHS and UHPHS UTMI+ Core on-board 3.3v VDDPLLUTMI DC Supply UDPHS and UHPHS UTMI+ Interface From SODIMM200 connector 1.0v VDDPLLA the PLLA cell on-board 1.0v VDDCORE the core, including the processor, the embedded memories and the peripherals on-board 3.0V or 3.3V configurable ADVREF ADC Reference voltage From SODIMM200 connector SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 13 Figure 3-3. CM Power Supply +3V3 4 MN3 AS1301EHT-adj IN L2 3 LX VDDCORE 2.2uH 3D16 EN C11 22pF 5 FB 2 PWR_EN1 GND C10 4.7uF MN1 AS1301EHT-adj IN C1 4.7uF 1 C3 4.7uF C8 100nF EN L1 3 LX VDDIOM 2.2uH 3D16 C9 22pF 5 FB 2 PWR_EN C12 10uF C7 100nF R4 59K 1% GND 4 R2 39.2K 1% C6 100nF R1 118K 1% C13 100nF C2 10uF C14 100nF C15 100nF R3 59K 1% 1 B2 2 VDDNF C4 100nF 120 OHM@100MHZ C5 100nF L5 10uH/150mA VDDUTMII C38 100nF R22 1R C39 4.7uF C40 100nF L6 10uH/150mA VDDOSC C41 100nF C42 100nF R25 1R C43 4.7uF IN OUT EN NR L4 10uH/150mA +1V 5 VDDPLLA C16 1uF 4 C32 100nF R17 C33 100nF 1R C18 10nF 2 C17 PWR_EN3 1uF MN4 TPS71710DCK GND 1 C34 4.7uF ADVREF ADVREF VDDUTMIC C35 100nF C30 100nF VDDBU VDDBU C36 1uF C37 100nF VDDIOP0 VDDANA L3 VDDIOP0 VDDANA 10uH/150mA C20 100nF C21 100nF R10 C27 100nF VDDIOP1 1R VDDIOP1 C23 100nF 14 C28 4.7uF SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 C25 100nF C26 100nF 3.2.3.5 Memory The Device serial processor features a DDR/SDR memory interface and an External Bus Interface (EBI) to enable interfacing to a wide range of external memories and to almost any kind of parallel peripheral. The External Bus Interface (EBI) is connected to two kinds of memory devices:  One 1 Gbyte DDR2 SDRAM  One 2 Gbytes (or 4 Gbytes depending on supplier) NAND Flash SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 15 16 Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 PD0/NANDOE PD1/NANDWE PD2/A21/NANDALE PD3/A22/NANDCLE PD4/NCS3 PD5/NWAIT PD6/D16 PD7/D17 PD8/D18 PD9/D19 PD10/D20 PD11/D21 PD12/D22 PD13/D23 PD14/D24 PD15/D25/A20 PD16/D26/A23 PD17/D27/A24 PD18/D28/A25 PD19/D29/NCS2 PD20/D30/NCS4 PD21/D31/NCS5 MN2E SAM9x5_LBGA217 - PIOD NRD NWR0/NWRE NWR1/NBS1 NWR3/NBS3/DQM3 NCS0 NCS1/SDCS SDWE SDCKE SDA10 SDCK #SDCK RAS CAS DQM0 DQM1 DQS0 DQS1 A0/NBS0 A1/NBS2/DQM2/NWR2 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 A16/BA0 A17/BA1 A18/BA2 A19 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 MN2F SAM9x5_LBGA217 - EBI EBI_SDWE EBI_SDCKE EBI_SDA10 EBI_SDCK EBI_NSDCK A12 B12 C8 D11 C11 P13 R14 R13 P15 P12 P14 N14 R15 M14 N16 N17 N15 K15 M15 L14 M16 L16 L15 K17 J17 K16 J16 D9 C9 C7 A8 PD0 PD1 PD2 PD3 PD4 PD5 PD6 PD7 PD8 PD9 PD10 PD11 PD12 PD13 PD14 PD15 PD16 PD17 PD18 PD19 PD20 PD21 (NANDOE) (NANDWE) (NANDALE) (NANDCLE) (NANDCS) NCS0 EBI_NCS1_SDCS EBI_RAS EBI_CAS B11 C10 B9 B8 EBI_DQM0 EBI_DQM1 EBI_DQS0 EBI_DQS1 EBI_A13 EBI_A14 EBI_A15 EBI_A16 EBI_A17 EBI_A18 EBI_A2 EBI_A3 EBI_A4 EBI_A5 EBI_A6 EBI_A7 EBI_A8 EBI_A9 EBI_A10 EBI_A11 EBI_D0 EBI_D1 EBI_D2 EBI_D3 EBI_D4 EBI_D5 EBI_D6 EBI_D7 EBI_D8 EBI_D9 EBI_D10 EBI_D11 EBI_D12 EBI_D13 EBI_D14 EBI_D15 A10 B10 A11 A9 J15 H16 H15 H17 G17 G16 F17 E17 F16 G15 G14 F15 D17 C17 E16 D16 C16 B17 E15 E14 D14 D15 A16 B16 A17 B15 C14 B14 A15 C15 D12 C13 A14 B13 A13 C12 EBI_NCS1_SDCS R38 SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] PD0 PD1 PD2 PD3 PD4 PD6 (NANDOE) (NANDWE) (NANDALE) (NANDCLE) (NANDCS) (NANDR/B) 1 0R 0R 0R 0R 0R 0R 8 7 6 5 8 7 6 5 PD3 R40 PD2 R43 PD0 R44 PD1 R41 C64 104 C62 104 NAND_FSH_D0 NAND_FSH_D1 NAND_FSH_D2 NAND_FSH_D3 NAND_FSH_D4 NAND_FSH_D5 NAND_FSH_D6 NAND_FSH_D7 VDDNF VDDNF R39 1.5K 1% R34 1.5K 1% DDR2_NCS1 B3 F3 DDR2_DQM1 DDR2_DQM0 R49 DNP 470K 0R 470K 470K 0R 0R 0R 0R WP RB CLE ALE RE WE CE F7 E8 DDR2_DQS0 EBI_A15 B7 A8 DDR2_DQS1 7 1 2 3 4 5 6 10 11 14 15 20 23 24 35 21 22 38 19 MT29F2G08AAD N.C1 N.C2 N.C3 N.C4 N.C5 N.C6 N.C7 N.C8 N.C9 N.C10 N.C11 N.C12 N.C13 N.C14 DNU1 DNU2 DNU3 WP R/B CLE ALE RE WE CE MN11 RFU1 RFU2 RFU3 RFU4 RFU5 UDM LDM LDQS LDQS UDQS UDQS WE CAS RAS CS CK CK CKE ODT VSS VSS VSS_N.C VSS_N.C VCC VCC VCC_N.C VCC_N.C I/O0 I/O1 I/O2 I/O3 I/O4 I/O5 I/O6 I/O7 I/O8_N.C I/O9_N.C I/O10_N.C I/O11_N.C I/O12_N.C I/O13_N.C I/O14_N.C I/O15_N.C VSSQ VSSQ VSSQ VSSQ VSSQ VSSQ VSSQ VSSQ VSSQ VSSQ VSSDL VSS VSS VSS VSS VSS VREF VDDQ VDDQ VDDQ VDDQ VDDQ VDDQ VDDQ VDDQ VDDQ VDDQ VDDL VDD VDD VDD VDD VDD A0 DQ0 DDR2 SDRAM A1 DQ1 A2 MT47H64M16HR DQ2 A3 DQ3 A4 DQ4 A5 DQ5 A6 DQ6 A7 DQ7 A8 DQ8 A9 DQ9 A10 DQ10 A11 DQ11 A12 DQ12 DQ13 BA0 DQ14 BA1 DQ15 BA2 MN5 16 17 8 18 9 A2 E2 R3 R7 R8 K3 L7 K7 L8 J8 K8 K2 DDR2_SDWE NANDOE NANDWE NANDALE NANDCLE NANDCS NANDR_B R46 PD5 R42 R47 R48 DDR2_NCS1 DDR2_SDWE DDR2_SDCKE DDR2_CAS DDR2_RAS DDR2_SDCK DDR2_NSDCK DDR2_SDCK DDR2_NSDCK DDR2_SDCKE DDR2_RAS DDR2_CAS L2 L3 L1 EBI_A16 EBI_A17 EBI_A18 K9 M8 M3 M7 N2 N8 N3 N7 P2 P8 P3 M2 P7 R2 EBI_A2 EBI_A3 EBI_A4 EBI_A5 EBI_A6 EBI_A7 EBI_A8 EBI_A9 EBI_A10 EBI_A11 EBI_SDA10 EBI_A13 EBI_A14 DDR2_DQM0 DDR2_DQM1 DDR2_DQS0 DDR2_DQS1 DDR2_D0 DDR2_D1 DDR2_D2 DDR2_D3 DDR2_D4 DDR2_D5 DDR2_D6 DDR2_D7 DDR2_D8 DDR2_D9 DDR2_D10 DDR2_D11 DDR2_D12 DDR2_D13 DDR2_D14 DDR2_D15 SW1A SWITCH-2-1.27mm 1 4 C63 4.7uF R33 1R RR17A RR17B RR17C RR17D RR16A RR16B RR16C RR16D PD4 R50 R51 R52 R53 R54 R55 1 2 3 4 1 2 3 4 10uH 150mA 27R 27R 7 8 6 5 8 6 7 5 5 7 8 7 6 5 8 6 ON PD6 PD7 PD8 PD9 PD10 PD11 PD12 PD13 PD[5..21] {3,5} C61 4.7uF L7 27R R36 R37 EBI_SDCK EBI_NSDCK VDDIOM 27R 27R R32 R35 EBI_SDWE EBI_SDCKE 27R 27R R30 R31 27R 27R 27R 27R EBI_RAS EBI_CAS RR1B RR1A RR2C RR1D RR2A RR1C RR2B RR2D RR3D RR4B RR4A RR3B RR3C RR4D RR3A RR4C R26 R27 R28 R29 2 1 3 4 1 3 2 4 4 2 1 2 3 4 1 3 EBI_DQM0 EBI_DQM1 EBI_DQS0 EBI_DQS1 EBI_D0 EBI_D1 EBI_D2 EBI_D3 EBI_D4 EBI_D5 EBI_D6 EBI_D7 EBI_D8 EBI_D9 EBI_D10 EBI_D11 EBI_D12 EBI_D13 EBI_D14 EBI_D15 13 36 25 48 12 37 34 39 29 30 31 32 41 42 43 44 26 27 28 33 40 45 46 47 A7 B2 B8 D2 D8 E7 F2 F8 H2 H8 J7 A3 E3 J3 N1 P9 J2 A9 C1 C3 C7 C9 E9 G1 G3 G7 G9 J1 A1 E1 J9 M9 R1 G8 G2 H7 H3 H1 H9 F1 F9 C8 C2 D7 D3 D1 D9 B1 B9 100nF 100nF 100nF 100nF 100nF C60 100nF C50 C51 C52 C53 C54 C55 C56 C57 C58 C59 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF C49 100nF C44 C45 C46 C47 C48 C65 100nF VDDNF C66 100nF NAND FLASH NAND_FSH_D0 NAND_FSH_D1 NAND_FSH_D2 NAND_FSH_D3 NAND_FSH_D4 NAND_FSH_D5 NAND_FSH_D6 NAND_FSH_D7 DDR2 SDRAM DDR_VREF VDDIOM DDR2_D0 DDR2_D1 DDR2_D2 DDR2_D3 DDR2_D4 DDR2_D5 DDR2_D6 DDR2_D7 DDR2_D8 DDR2_D9 DDR2_D10 DDR2_D11 DDR2_D12 DDR2_D13 DDR2_D14 DDR2_D15 Figure 3-4. CM Board External Memory 3.2.3.6 Serial Peripheral Interface (SPI) Controller The serial processor provides two high-speed Serial Peripheral Interface (SPI) controllers. One port is used to interface with the on-board serial Flash. Figure 3-5. SPI VDDIOP0 R56 470K PA12 PA11 PA13 SW1B SWITCH-2-1.27mm 2 3 0R 0R 0R 1 (SPI0_NPCS0) ON 2 PA14 (SPI0_MOSI) R57 (SPI0_MIS0) R58 (SPI0_SPCK) R59 5 2 6 MN7 AT25DF321 SI SO SCK VCC WP HOLD CS GND 3.2.3.7 8 3 7 VDDIOP0 C69 100nF 4 Two Wire Interface (TWI) The serial processor has a full speed (400 kHz) master/slave TWI Serial Controller. The controller is mostly compatible with industry standard I2C and SMBus Interfaces. This port is used to interface with the on-board Serial EEPROM, ISI, QTouch device and audio codec interface. Figure 3-6. TWI VDDIOP0 VDDIOP0 R61 4.7K PA31 PA30 R62 4.7K (TWCKO) (TWDO) VDDIOP0 C70 100nF 3.2.3.8 VDDIOP0 R63 10K MN8 AT24C512BN-SH25-B 6 1 A0 2 5 SCL SDA A1 3 A3 8 VCC 4 GND R64 DNP 7 WP 1-Wire EEPROM The Evaluation Kit uses a 1-Wire device as “firmware label” to store the information such as chip type, manufacturer’s name, production date etc. Figure 3-7. 1-Wire Device VDDANA R65 1.5K 0R 2 IO NC1 NC2 NC3 NC4 GND R66 3 4 5 6 1 PB18 MN9 DS2431P+ 3.2.3.9 Optional PHY Some of the device modules provide a location for a 10/100 Ethernet MAC/PHY interface. For more information about the Ethernet controller device, refer to the Davicom DM9161 controller manufacturer's datasheet. SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 17 PB[0..18] DNP to remain single PHY connection on EK board 1 2 Y3 R70 10K 50MHz OE VSS OUT VDD 4 3 C71 100nF VDDANA R74 22R 42 7 6 5 26 27 28 29 22R E0_TXCK 2 RR13B 3 RR13C 4 RR13D 6 5 R73 PB4 E0_TX1 E0_TX0 E0_TXEN 3 RR14C 4 RR14D 34 37 17 18 19 20 21 22 PB10 PB9 PB7 E0_RX1 E0_RX0 7 TP27 SMD PB1 PB0 2 RR15B 10K R95 DNP 100nF 23 30 41 100nF 100nF VDDANA 39 24 25 32 36 35 16 38 R86 1.5K E0_RXDV VDDANA C79 C80 40 10 15 33 44 C81 0R REF_CLK/XT2 MN10 TXD3 TXD2 TXD1 TXD0 TX_EN TX_CLK/ISOLATE RXD3/PHY AD3 RXD2/PHY AD2 RXD1/PHY AD1 RXD0/PHY AD0 RX_CLK/10BTSER RX_DV/TESTMODE TX_ER/TXD4 RX_ER/RXD4/RPTR XT1 TX+ TX- RX+ RX- AVDDR AVDDR AVDDT AGND AGND AGND BGRESG N.C BGRES LEDMODE LED0/OP0 LED1/OP1 LED2/OP2 CABLESTS/LINKSTS DM9161AEP COL/RMII CRS/PHY AD4 MDC MDIO MDINTR DISMDIX DVDD DVDD DVDD DGND DGND DGND PWRDWN RESET 43 7 8 3 1 C74 C73 100nF 100nF 4 2 100nF 0R AVDDT C77 R97 6.8K R96 9 5 6 46 47 45 48 31 11 12 13 14 B1 AVDDT + C76 10uF GND_ETH 10KX4 RR9 VDDANA BLM21BD222TN1 + C75 10uF R98 10K R71 100nF R84 C72 R72 49.9R 1% 49.9R 1% TP28 SMD R83 49.9R 1% 49.9R 1% C78 100nF GND_ETH GND_ETH ETH0_TX+ ETH0_TX- ETH0_RX+ ETH0_RX- LED0 LED1 LED2 Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 PB3 RR8 10KX4 R94 6 8 7 8 VDDANA R99 R100 0R 8 7 6 5 1 2 3 4 DNP 4.7K 10K R91 R92 R93 3 RR15C 1 RR14A 2 RR14B 1 RR15A 8 7 6 5 E0_RXER E0_MDC E0_MDIO E0_INTR 1 2 3 4 PB2 PB6 PB5 PB8 8 7 6 5 RR7 10KX4 1 2 3 4 NRST VDDANA + C82 10uF GND_ETH SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] 18 Ethernet Figure 3-8. 3.2.3.10 SODIMM200 Interface The CM board uses SODIMM200 card edge connector to interface with the EK board. Figure 3-9. SODIMM200 Interface on CM Board +3V3 C83 10uF HHSDPC HHSDMC HHSDMB HHSDPB DIBP DIBN HHSDMA HHSDPA VDDNF NANDOE NANDALE NANDCS NANDR_B PD8 PD10 PD12 PD14 PD16 PD18 PD20 VDDIOP0 PA0 PA2 PA4 PA11 PA13 PA8 PA22 PA31 PA16 PA18 PA20 PA5 PA10 PA25 PA27 PA29 VDDIOP1 PC0 PC2 PC4 PC7 PC9 PC11 PC12 PC14 PC17 PC19 PC21 PC22 PC24 PC26 PC29 PC31 PB0 PB2 PB4 PB6 PB8 PB9 PB11 PB13 PB15 PB17 PB18 ETH0_TX+ ETH0_TXETH0_RX+ ETH0_RX- VDDANA VDDBU C84 1uF +3V3 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 81 83 85 87 89 91 93 95 97 99 101 103 105 107 109 111 113 115 117 119 121 123 125 127 129 131 133 135 137 139 141 143 145 147 149 151 153 155 157 159 161 163 165 167 169 171 173 175 177 179 181 183 185 187 189 191 193 195 197 199 J1 VCC_3V3 VCC_3V3 GND USBC_DP USBC_DM GND USBB_DM USBB_DP GND DIBP DIBN GND USBA_DM USBA_DP GND RFU1 RFU3 RFU5 RFU7 RFU9 VCC_3V3 VCC_3V3 VBAT JTAGSEL WKUP SHDN BMS nRST nTRST TDI TCK TMS TDO RTCK PWR_EN RFU2 RFU4 RFU6 RFU8 RFU10 GND GND RFU11 RFU12 RFU13 RFU14 RFU15 RFU16 RFU17 RFU18 GND GND RFU19 RFU20 RFU21 RFU22 RFU23 RFU24 RFU25 RFU26 VDDNF VDDNF PD0 PD1 PD2 PD3 PD4 PD5 PD6 PD7 PD8 PD9 NC GND PD10 PD11 PD12 PD13 PD14 PD15 PD16 PD17 PD18 PD19 PD20 PD21 VDDIOP0 VDDIOP0 PA0 PA1 PA2 PA3 PA4 GND PA11 PA12 PA13 PA14 GND PA7 PA8 PA21 PA22 PA23 PA31 PA30 GND PA15 PA16 PA17 PA18 PA19 PA20 GND PA5 PA6 PA10 PA9 GND PA24 PA25 PA26 PA27 PA28 PA29 GND VDDIOP1 VDDIOP1 PC0 PC1 PC2 PC3 PC4 PC5 GND PC6 PC7 PC8 PC9 PC10 PC11 GND PC12 PC13 PC14 PC15 GND PC16 PC17 PC18 PC19 PC20 PC21 GND PC22 PC23 PC24 PC25 PC26 PC27 GND PC28 PC29 PC30 PC31 SELCONFIG0 VDDANA VDDANA PB0 PB1 PB2 PB3 PB4 PB5 PB6 PB7 PB8 GNDANA PB9 PB10 PB11 PB12 PB13 PB14 PB15 PB16 PB17 GNDANA PB18 ADVREF GND LED0 ETH0_TX+ LED1 ETH0_TXLED2 ETH0_RX+ AVDDT ETH0_RXGND_ETH 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 82 84 86 88 90 92 94 96 98 100 102 104 106 108 110 112 114 116 118 120 122 124 126 128 130 132 134 136 138 140 142 144 146 148 150 152 154 156 158 160 162 164 166 168 170 172 174 176 178 180 182 184 186 188 190 192 194 196 198 200 JTAGSEL WKUP SHDN BMS NRST NTRST TDI TCK TMS TDO RTCK PWR_EN VDDNF C85 4.7uF PD5 PD7 PD9 NANDWE NANDCLE PD11 PD13 PD15 PD17 PD19 PD21 VDDIOP0 PA1 PA3 C86 4.7uF PA12 PA14 PA7 PA21 PA23 PA30 PA15 PA17 PA19 PA6 PA9 PA24 PA26 PA28 VDDIOP1 PC1 PC3 PC5 PC6 PC8 PC10 C87 4.7uF PC13 PC15 PC16 PC18 PC20 +3V3 PC23 PC25 PC27 PC28 PC30 VDDANA R101 DNP PB1 PB3 PB5 PB7 ADVREF PB10 PB12 PB14 PB16 R102 0R C88 1uF R101 only if G15, G35, X35 LED0 LED1 LED2 R102 only if G25, X25 AVDDT PIO 200-pin SODIMM GND_ETH SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 19 3.2.4 Configuration 3.2.4.1 Chip Identification The CM board may be equipped with any of the five processors, all sharing an identical BGA217 footprint. There are two resistors on the CM board for the purpose of identifying which of the five is the one actually mounted. The tables below show in detail how the CM board, relative to different processors, determines the dedicated “SELCONFIG” logic. Table 3-5. Resistor SAM9G15 SAM9G25 SAM9G35 SAM9X25 SAM9X35 R49 – – – Populated Not Populated R50 – – – Not Populated Populated R87 Populated – Populated – – R88 Not Populated – Not Populated – – R101 Populated Not Populated Populated Not Populated Populated R102 Not Populated Populated Not Populated Populated Not Populated Table 3-6. Module Configuration Identification SAM9G15 module SAM9G35 module SAM9X35 module SAM9G25 module SAM9X25 module R101 Populated Populated Populated Not Populated Not Populated R102 Not Populated Not Populated Not Populated Populated Populated (SODIMM200 pin 166) High High High Low Low EK USART3 Not Selected Not Selected Not Selected Selected Selected Setting ETH1 Not Selected Not Selected Not Selected Not Selected Selected LCD Selected Selected Selected Not Selected Not Selected CM Setting DM Setting 20 Resistor Identification SELCONFIG SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 3.2.4.2 Boot Configuration In order to use the SAM-BA boot, users must ensure that JP9 (BMS configuration) on the board is open, so that the embedded ROM code runs and searches for a bootable device. For more details, refer to the product datasheet. To make the processor boot from SAM-BA, the external memory devices cannot be bootable. All three CM boards from different vendors feature a de-select function of the Chip Select signal on NAND and SPI serial Flash. To boot from software, users may erase the bootable content within NAND and SPI serial Flash to launch a SAMBA boot. A hardware disconnection of the Chip Select signal is not necessary. Table 3-7. Boot Configuration Board Vendor Designation Default Setting SW1A (1,4) ON SW1B (2,3) ON Feature 1. Default ON to select NAND Flash 2. Set to OFF to deselect the NAND Flash Embest CM 1. Default ON to select SPI serial Flash 2. Set to OFF to deselect the SPI serial Flash 1. Default select NAND Flash always J1 J1 DNP R17 R17 populated 2. Users need to dismount R17, mount J1 as 2.54mm jumper to ease frequent changes 3. Close J1 to select NAND Flash Open J1 to deselect NAND Flash Ronetix CM 1. Default select SPI serial Flash always J2 J2 DNP R24 R24 populated 2. Users need to dismount R24, mount J2 as 2.54mm jumper to ease frequent changes 3. Close J2 to select SPI serial Flash Open J2 to deselect SPI serial Flash 1. By default, P2 is closed to select NAND Flash P2 P2 normal close 2. Open P2 to deselect NAND Flash R90 R90 DNP 3. Mounting R90 as 0-ohm always selects NAND Flash R15 R15 populated Cogent CM Figure 3-10. 1. Default select SPI serial Flash always 2. Dismount R15 to deselect SPI serial Flash SW1A and SW1B Position on Embest Modules SW1B SW1A SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 21 3.2.5 Connectors Figure 3-11. 22 CM Board Dimensions SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 A B C HHSDMB HHSDPB HHSDMC HHSDPC DIBN DIBP {5} {5} {5} {5} {5} {5} BMS HHSDMA HHSDPA {5} {5} {5} PWR_EN {5} 5 R7 R8 R23 R24 R19 R20 VDDIOP0 R11 C1 4.7uF 1 4 27R 27R 39R 39R R16 6.8K 100K 39R 39R PWR_EN EN IN U17 P9 B7 U15 U14 T15 T14 FB LX P11 R11 M17 L17 P17 R17 P16 R16 C31 10pF MN1 AS1301EHT-adj GND 2 D +3V3 2.2uH 3D16 C9 22pF DIBP DIBN HFSDMC HFSDPC HHSDMB HHSDPB HFSDMB HFSDPB VBG BMS TST HHSDMA HHSDPA HFSDMA HFSDPA TP20 SMD TP17 SMD 4 R3 59K 1% R1 118K 1% TP14 SMD MN2G SAM9x5_LBGA217 - INTERFACE 5 3 L1 C2 10uF VDDIOM VDDANA +1V +3V3 SHDN WKUP NRST NTRST TDI TMS TCK RTCK TDO JTAGSEL XOUT32 XIN32 XOUT XIN D8 A7 P10 T11 T9 U11 U10 R10 T10 D7 A5 A6 U12 T12 R6 DNP +3V3 TP2 SMD TP21 SMD TP18 SMD TP15 SMD R18 Y2 +3V3 C10 4.7uF C19 SHDN WKUP R21 100K VDDBU 20pF VDDNF VDDIOP1 FB LX 3 1 2.2uH PWR_EN 3 5 3 {5} {5} {4,5} R14 100K 3 TP22 SMD TP19 SMD TP16 SMD R15 100K VDDIOP0 C17 1uF +3V3 SHDN WKUP NRST R13 100K VDDIOP0 100K VDDIOP0 NRST NTRST TDI TMS TCK RTCK TDO R12 DNP VDDBU C29 20pF 20pF 32.768 kHz C24 20pF EN IN MN3 AS1301EHT-adj Y1 12MHz 1 4 C22 1 4 4 2 3 GND 2 5 1 2 EN IN NR OUT MN4 TPS71710DCK 3D16 L2 GND {5} {5} {5} {5} {5} {5} +1V C41 100nF +3V3 C38 100nF +3V3 NTRST TDI TMS TCK RTCK TDO +1V 1 C16 1uF +3V3 C12 10uF B2 2 TP1 SMD VDDNF C3 4.7uF C28 4.7uF C43 4.7uF L6 10uH/150mA C39 4.7uF 1R R25 1R R22 C34 4.7uF L4 10uH/150mA 10uH/150mA L3 C20 100nF VDDIOP0 120 OHM@100MHZ L5 10uH/150mA C32 100nF C27 100nF VDDANA {5} C18 10nF R4 59K 1% R2 39.2K 1% JTAGSEL 4 5 C11 22pF VDDCORE 1R 2 TP7 SMD R17 1R R10 C21 100nF C13 100nF VDDIOM C6 100nF 2 C30 100nF C36 1uF VDDBU +1V C25 100nF C4 100nF C14 100nF C7 100nF C42 100nF C40 100nF C37 100nF TP11 SMD C35 100nF ADVREF C33 100nF C26 100nF C23 100nF VDDIOP1 C5 100nF C15 100nF C8 100nF T13 U16 B5 A4 R12 T17 C6 H4 P7 J14 K14 D10 D13 F14 H14 K8 K9 - POWER Title: U13 B6 T16 D6 M4 P6 H9 H10 J9 J10 H8 J8 K10 MBC-SAM9X5 1 Date: Thursday, November 04, 2010 Document Number: AT91SAM9G45-I&POWER GNDOSC GNDBU GNDUTMI GNDANA GNDIOP GNDIOP GNDIOM GNDIOM GNDIOM GNDIOM GNDCORE GNDCORE GNDCORE Draw By: Zhu Xueliang Size: A3 VDDOSC VDDUTMII VDDBU ADVREF VDDPLLA VDDUTMIC VDDANA VDDIOP1 VDDIOP0 VDDNF VDDNF VDDIOM VDDIOM VDDIOM VDDCORE VDDCORE VDDCORE MN2A SAM9X5_LBGA217 1 SHDN WKUP NRST TDO Sheet: 1 of 5 Rev: A TP13 SMD TP12 SMD TP10 SMD TP9 SMD TP8 SMD TP6 SMD RTCK TP5 SMD TCK TP4 SMD TP3 SMD TMS TDI NTRST A B C D Figure 3-12. 2 3.2.6 Schematics CM Board Schematics – 1 of 5 SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 23 24 Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] A B C D EBI_SDWE EBI_SDCKE EBI_SDA10 EBI_SDCK EBI_NSDCK A12 B12 C8 D11 C11 P13 R14 R13 P15 P12 P14 N14 R15 M14 N16 N17 N15 K15 M15 L14 M16 L16 L15 K17 J17 K16 J16 D9 C9 C7 A8 PD0 PD1 PD2 PD3 PD4 PD5 PD6 PD7 PD8 PD9 PD10 PD11 PD12 PD13 PD14 PD15 PD16 PD17 PD18 PD19 PD20 PD21 (NANDOE) (NANDWE) (NANDALE) (NANDCLE) (NANDCS) NCS0 EBI_NCS1_SDCS EBI_RAS EBI_CAS B11 C10 B9 B8 EBI_DQM0 EBI_DQM1 EBI_DQS0 EBI_DQS1 EBI_A13 EBI_A14 EBI_A15 EBI_A16 EBI_A17 EBI_A18 EBI_A2 EBI_A3 EBI_A4 EBI_A5 EBI_A6 EBI_A7 EBI_A8 EBI_A9 EBI_A10 EBI_A11 EBI_D0 EBI_D1 EBI_D2 EBI_D3 EBI_D4 EBI_D5 EBI_D6 EBI_D7 EBI_D8 EBI_D9 EBI_D10 EBI_D11 EBI_D12 EBI_D13 EBI_D14 EBI_D15 A10 B10 A11 A9 J15 H16 H15 H17 G17 G16 F17 E17 F16 G15 G14 F15 D17 C17 E16 D16 C16 B17 E15 E14 D14 D15 A16 B16 A17 B15 C14 B14 A15 C15 D12 C13 A14 B13 A13 C12 NCS0 PD[5..21] 4 PD0 PD1 PD2 PD3 PD4 PD6 R38 (NANDOE) (NANDWE) (NANDALE) (NANDCLE) (NANDCS) (NANDR/B) PD6 PD7 PD8 PD9 PD10 PD11 PD12 PD13 {3,5} TP24 SMD EBI_NCS1_SDCS R36 R37 R32 R35 EBI_SDWE EBI_SDCKE EBI_SDCK EBI_NSDCK R30 R31 R26 R27 R28 R29 2 1 3 4 1 3 2 4 4 2 1 2 3 4 1 3 EBI_RAS EBI_CAS EBI_DQM0 EBI_DQM1 EBI_DQS0 EBI_DQS1 EBI_D0 EBI_D1 EBI_D2 EBI_D3 EBI_D4 EBI_D5 EBI_D6 EBI_D7 EBI_D8 EBI_D9 EBI_D10 EBI_D11 EBI_D12 EBI_D13 EBI_D14 EBI_D15 4 27R 27R 27R 27R 27R 27R 27R 27R 27R 27R 27R RR17A RR17B RR17C RR17D RR16A RR16B RR16C RR16D R50 R51 R52 R53 R54 R55 1 2 3 4 1 2 3 4 RR1B RR1A RR2C RR1D RR2A RR1C RR2B RR2D RR3D RR4B RR4A RR3B RR3C RR4D RR3A RR4C 7 8 6 5 8 6 7 5 5 7 8 7 6 5 8 6 0R 0R 0R 0R 0R 0R 8 7 6 5 8 7 6 5 1 NAND_FSH_D0 NAND_FSH_D1 NAND_FSH_D2 NAND_FSH_D3 NAND_FSH_D4 NAND_FSH_D5 NAND_FSH_D6 NAND_FSH_D7 PD4 DDR2_NCS1 DDR2_SDCK DDR2_NSDCK DDR2_SDWE DDR2_SDCKE DDR2_RAS DDR2_CAS DDR2_DQM0 DDR2_DQM1 DDR2_DQS0 DDR2_DQS1 DDR2_D0 DDR2_D1 DDR2_D2 DDR2_D3 DDR2_D4 DDR2_D5 DDR2_D6 DDR2_D7 DDR2_D8 DDR2_D9 DDR2_D10 DDR2_D11 DDR2_D12 DDR2_D13 DDR2_D14 DDR2_D15 SW1A SWITCH-2-1.27mm 4 3 3 NANDOE NANDWE NANDALE NANDCLE NANDCS NANDR_B ON 5 PD0/NANDOE PD1/NANDWE PD2/A21/NANDALE PD3/A22/NANDCLE PD4/NCS3 PD5/NWAIT PD6/D16 PD7/D17 PD8/D18 PD9/D19 PD10/D20 PD11/D21 PD12/D22 PD13/D23 PD14/D24 PD15/D25/A20 PD16/D26/A23 PD17/D27/A24 PD18/D28/A25 PD19/D29/NCS2 PD20/D30/NCS4 PD21/D31/NCS5 MN2E SAM9x5_LBGA217 - PIOD NRD NWR0/NWRE NWR1/NBS1 NWR3/NBS3/DQM3 NCS0 NCS1/SDCS SDWE SDCKE SDA10 SDCK #SDCK RAS CAS DQM0 DQM1 DQS0 DQS1 A0/NBS0 A1/NBS2/DQM2/NWR2 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 A16/BA0 A17/BA1 A18/BA2 A19 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 MN2F SAM9x5_LBGA217 - EBI 5 {5} {5} {5} {5} {5} {5} VDDNF VDDNF R46 PD5 R42 R47 R48 PD3 R40 PD2 R43 PD0 R44 PD1 R41 L2 L3 L1 EBI_A16 EBI_A17 EBI_A18 A2 E2 R3 R7 R8 EBI_A15 R49 DNP 470K 0R 470K 470K WP RB 1 2 3 4 5 6 10 11 14 15 20 23 24 35 21 22 38 19 7 16 17 8 18 9 B3 F3 DDR2_DQM1 DDR2_DQM0 CLE ALE RE WE CE F7 E8 DDR2_DQS0 0R 0R 0R 0R K3 L7 K7 DDR2_CAS DDR2_RAS B7 A8 L8 DDR2_NCS1 DDR2_DQS1 J8 K8 DDR2_SDCK DDR2_NSDCK DDR2_SDWE K2 DDR2_SDCKE K9 M8 M3 M7 N2 N8 N3 N7 P2 P8 P3 M2 P7 R2 EBI_A2 EBI_A3 EBI_A4 EBI_A5 EBI_A6 EBI_A7 EBI_A8 EBI_A9 EBI_A10 EBI_A11 EBI_SDA10 EBI_A13 EBI_A14 MT29F2G08AAD N.C1 N.C2 N.C3 N.C4 N.C5 N.C6 N.C7 N.C8 N.C9 N.C10 N.C11 N.C12 N.C13 N.C14 DNU1 DNU2 DNU3 WP R/B CLE ALE RE WE CE MN11 RFU1 RFU2 RFU3 RFU4 RFU5 UDM LDM LDQS LDQS UDQS UDQS WE CAS RAS CS CK CK CKE ODT BA0 BA1 BA2 VSSQ VSSQ VSSQ VSSQ VSSQ VSSQ VSSQ VSSQ VSSQ VSSQ VSSDL VSS VSS VSS VSS VSS VREF VDDQ VDDQ VDDQ VDDQ VDDQ VDDQ VDDQ VDDQ VDDQ VDDQ VDDL VDD VDD VDD VDD VDD DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 2 2 VSS VSS VSS_N.C VSS_N.C VCC VCC VCC_N.C VCC_N.C I/O0 I/O1 I/O2 I/O3 I/O4 I/O5 I/O6 I/O7 I/O8_N.C I/O9_N.C I/O10_N.C I/O11_N.C I/O12_N.C I/O13_N.C I/O14_N.C I/O15_N.C A0 DDR2 SDRAM A1 A2 MT47H64M16HR A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 MN5 13 36 25 48 12 37 34 39 29 30 31 32 41 42 43 44 26 27 28 33 40 45 46 47 A7 B2 B8 D2 D8 E7 F2 F8 H2 H8 J7 A3 E3 J3 N1 P9 J2 A9 C1 C3 C7 C9 E9 G1 G3 G7 G9 J1 A1 E1 J9 M9 R1 G8 G2 H7 H3 H1 H9 F1 F9 C8 C2 D7 D3 D1 D9 B1 B9 C65 100nF VDDNF 100nF 100nF 100nF 100nF 100nF C50 C51 C52 C53 C54 C55 C56 C57 C58 C59 C63 4.7uF R33 1R L7 10uH 150mA C64 104 C62 104 MBC-SAM9X5 R39 1.5K 1% DDR_VREF R34 1.5K 1% 1 Date: Thursday, November 04, 2010 Document Number: AT91SAM9G45-II&DDR2&NAND FLASH Title: NAND FLASH C61 4.7uF VDDIOM DDR2 SDRAM Draw By: Zhu Xueliang Size: A3 C66 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF 100nF C49 100nF C44 C45 C46 C47 C48 C60 100nF NAND_FSH_D0 NAND_FSH_D1 NAND_FSH_D2 NAND_FSH_D3 NAND_FSH_D4 NAND_FSH_D5 NAND_FSH_D6 NAND_FSH_D7 DDR_VREF VDDIOM DDR2_D0 DDR2_D1 DDR2_D2 DDR2_D3 DDR2_D4 DDR2_D5 DDR2_D6 DDR2_D7 DDR2_D8 DDR2_D9 DDR2_D10 DDR2_D11 DDR2_D12 DDR2_D13 DDR2_D14 DDR2_D15 1 Sheet: 2 of 5 Rev: A TP23 SMD A B C D Figure 3-13. CM Board Schematics – 2 of 5 1 5 PB0/E0_ERX0/RTS2 PB1/E0_ERX1/CTS2 PB2/E0_ERXER/SCK2 PB3/E0_ERXDV/SPI0_NPCS3 PB4/E0_ETXCK/TWD2 PB5/E0_EMDIO/TWCK2 PB6/E0_EMDC PB7/E0_ETXEN PB8/E0_ETXER PB9/E0_ETX0/PCK1 PB10/E0_ETX1/PCK0 PB11/E0_ETX2/PWM0 PB12/E0_ETX3/PWM1 PB13/E0_ERX2/PWM2 PB14/E0_ERX3/PWM3 PB15/E0_ERXCK PB16/E0_ECRS PB17/E0_ECOL PB18/IRQ/ADTRG MN2C SAM9x5_LBGA217 - PIOB PA0/TXD0/SPI1_NPCS1 PA1/RXD0/SPI0_NPCS2 PA2/RTS0/MCI1_DA1/E0_ETX0 PA3/CTS0/MCI1_DA2/E0_ETX1 PA4/SCK0/MCI1_DA3/E0_ETXER PA5/TXD1/CANTX1 PA6/RXD1/CANRX1 PA7/TXD2/SPI0_NPCS1 PA8/RXD2/SPI1_NPCS0 PA9/DRXD/CANRX0 PA10/DTXD/CANTX0 PA11/SPI0_MISO/MCI1_DA0 PA12/SPI0_MOSI/MCI1_CDA PA13/SPI0_SPCK/MCI1_CK PA14/SPI0_NPCS0 PA15/MCI0_DA0 PA16/MCI0_CDA PA17/MCI0_CK PA18/MCI0_DA1 PA19/MCI0_DA2 PA20/MCI0_DA3 PA21/TIOA0/SPI1_MISO PA22/TIOA1/SPI1_MOSI PA23/TIOA2/SPI1_SPCK PA24/TCLK0/TK PA25/TCLK1/TF PA26/TCLK2/TD PA27/TIOB0/RD PA28/TIOB1/RK PA29/TIOB2/RF PA30/TWD0/SPI1_NPCS3/E0_EMDC PA31/TWCK0/SPI1_NPCS2/E0_ETXEN MN2B SAM9x5_LBGA217 - PIOA PC0/LCDDAT0/ISI_D0/TWD1 PC1/LCDDAT1/ISI_D1/TWCK1 PC2/LCDDAT2/ISI_D2/TIOA3 PC3/LCDDAT3/ISI_D3/TIOB3 PC4/LCDDAT4/ISI_D4/TCLK3 PC5/LCDDAT5/ISI_D5/TIOA4 PC6/LCDDAT6/ISI_D6/TIOB4 PC7/LCDDAT7/ISI_D7/TCLK4 PC8/LCDDAT8/ISI_D8/UTXD0 PC9/LCDDAT9/ISI_D9/URXD0 PC10/LCDDAT10/ISI_D10/PWM0 PC11/LCDDAT11/ISI_D11/PWM1 PC12/LCDDAT12/ISI_PCK/TIOA5 PC13/LCDDAT13/ISI_VSYNC/TIOB5 PC14/LCDDAT14/ISI_HSYNC/TCLK5 PC15/LCDDAT15/ISI_MCK/PCK0 PC16/LCDDAT16/E1_RXER/UTXD1 PC17/LCDDAT17//URXD1 PC18/LCDDAT18/E1_TX0/PWM0 PC19/LCDDAT19/E1_TX1/PWM1 PC20/LCDDAT20/E1_RX0/PWM2 PC21/LCDDAT21/E1_RX1/PWM3 PC22/LCDDAT22/TXD3 PC23/LCDDAT23/RXD3 PC24/LCDDISP/RTS3 PC25//CTS3 PC26/LCDPWM/SCK3 PC27/LCDVSYNC/E1_TXEN/RTS1 PC28/LCDHSYNC/E1_CRSDV/CTS1 PC29/LCDDEN/E1_TXCK/SCK1 PC30/LCDPCK/E1_MDC PC31/FIQ/E1_MDIO/PCK1 MN2D SAM9x5_LBGA217 - PIOC D3 D4 D2 E4 D1 E3 B3 C2 C5 C1 B2 A3 B4 A2 C4 C3 A1 B1 D5 L3 P1 L4 N4 T3 R1 R4 R3 P4 U3 T1 U1 T2 T4 U2 U4 P5 R5 U5 T5 U6 T6 R6 U7 T7 T8 R7 P8 U8 R9 R8 U9 E2 F4 F3 H2 E1 G4 F2 F1 G1 G3 G2 H3 J3 L2 H1 J2 J1 L1 K2 N3 K1 M3 P3 J4 K3 M2 P2 M1 K4 N1 R2 N2 PB0 PB1 PB2 PB3 PB4 PB5 PB6 PB7 PB8 PB9 PB10 PB11 PB12 PB13 PB14 PB15 PB16 PB17 PB18 PA0 PA1 PA2 PA3 PA4 PA5 PA6 PA7 PA8 PA9 PA10 PA11 PA12 PA13 PA14 PA15 PA16 PA17 PA18 PA19 PA20 PA21 PA22 PA23 PA24 PA25 PA26 PA27 PA28 PA29 PA30 PA31 PC0 PC1 PC2 PC3 PC4 PC5 PC6 PC7 PC8 PC9 PC10 PC11 PC12 PC13 PC14 PC15 PC16 PC17 PC18 PC19 PC20 PC21 PC22 PC23 PC24 PC25 PC26 PC27 PC28 PC29 PC30 PC31 4 4 PB[0..18] {5,6} PA[0..31] {6} PC[0..31] {6} PA14 {3,6} 3 PD[5..21] TP25 SMD TP26 SMD PA10 3 PA9 2 SW1B NHDS-2 2 A B C D 5 DRXD DTXD 3 PD21 PB18 PB18 PA31 PA30 PA12 PA11 PA13 (TWCKO) (TWDO) R66 (SPI0_NPCS0) *R *R *R 2 CS SI SO SCK GND WP HOLD VCC MN7 AT25DF321 8 4 3 7 4 GND WP 7 MN8 AT24C512BN-SH25-B 1 SCL A0 2 SDA A1 3 A3 8 VCC 6 5 2 IO NC1 NC2 NC3 NC4 MN9 DS2431P+ 3 4 5 6 3 2 R69 470R R68 100K R67 470R LED D2 D1 red Blue 1-WIRE EEPROM R65 1.5K VDDANA Q1 IRLML2502 1 0R 1 5 2 6 SERIAL EEPROM C70 100nF R62 4.7K VDDIOP0 VDDIOP0 R61 4.7K VDDIOP0 R56 470K SERIAL FLASH *R: Refer to the BOM (SPI0_MOSI) R57 (SPI0_MIS0) R58 (SPI0_SPCK) R59 VDDIOP0 2 GND ON 1 SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 Title: SAM9X5-CM 1 Date: Wednesday, July 20, 2011 Document Number: FLASH,EEPROM,1-WIRE,LED Draw By: Zhu Xueliang Size: A3 +3V3 R64 DNP R63 10K VDDIOP0 C69 100nF VDDIOP0 1 Rev: B Sheet: 4 of 6 A B C D Figure 3-14. CM Board Schematics – 3 of 5 25 Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] A B C {3,5} 6 8 7 8 3 RR15C 1 RR14A 2 RR14B 1 RR15A E0_RXER E0_MDC E0_MDIO E0_INTR PB2 PB6 PB5 PB8 5 {1,5} 7 2 RR15B E0_RXDV PB3 Install as need to alter PHYaddress, must override internal pullup on SAM9x5 6 5 7 6 5 3 RR14C 4 RR14D 2 RR13B 3 RR13C 4 RR13D 22R E0_RX1 E0_RX0 E0_TX1 E0_TX0 E0_TXEN PB10 PB9 PB7 R73 PB1 PB0 E0_TXCK PB4 NRST VDDANA RR7 10KX4 4 8 7 6 5 1 2 3 4 PB[0..18] 8 7 6 5 1 2 3 4 RR8 10KX4 2 1 VSS 50MHz OE Y3 R70 10K VDD OUT VDDANA 3 4 DNP 4.7K 10K R91 R92 R93 D 10K R94 4 DNP R95 5 R86 TP27 SMD R74 R99 0R 100nF 100nF C81 100nF VDDANA C80 1.5K 22R C79 C71 100nF VDDANA RESET PWRDWN DGND DGND DGND DVDD DVDD DVDD DISMDIX MDC MDIO MDINTR R100 0R 3 ETHERNET + C82 10uF BGRESG AGND AGND AGND AVDDT AVDDR AVDDR RX- RX+ TX- TX+ XT1 GND_ETH N.C BGRES LEDMODE LED0/OP0 LED1/OP1 LED2/OP2 CABLESTS/LINKSTS DM9161AEP COL/RMII CRS/PHYAD4 TX_ER/TXD4 RX_ER/RXD4/RPTR RX_CLK/10BTSER RX_DV/TESTMODE RXD3/PHYAD3 RXD2/PHYAD2 RXD1/PHYAD1 RXD0/PHYAD0 TXD3 TXD2 TXD1 TXD0 TX_EN TX_CLK/ISOLATE REF_CLK/XT2 MN10 VDDANA 40 10 15 33 44 23 30 41 39 24 25 32 36 35 16 38 34 37 26 27 28 29 17 18 19 20 21 22 42 3 C74 45 48 31 11 12 13 14 47 5 6 46 R97 6.8K R96 AVDDT C77 2 9 C73 1 4 3 8 7 43 0R 100nF 100nF 100nF + C75 10uF 10K R98 2 10KX4 2 + C76 10uF AVDDT GND_ETH RR9 VDDANA BLM21BD222TN1 B1 8 7 6 5 26 1 2 3 4 R71 R83 49.9R 1% TP28 SMD 49.9R 1% Draw By: Zhu Xueliang Size: A3 GND_ETH {5} Title: MBC-SAM9X5 {5} {5} {5} {5} ETH0_RX- LED0 LED1 LED2 {5} ETH0_RX+ ETH0_TX- {5} ETH0_TX+ 1 Date: Thursday, November 04, 2010 Document Number: ETHERNET 49.9R 1% R84 49.9R 1% R72 100nF C78 100nF GND_ETH C72 1 Rev: A Sheet: 4 of 5 A B C D Figure 3-15. CM Board Schematics – 4 of 5 A B C D PB[0..18] PC[0..31] {3} PA[0..31] {3,4} {3} 5 5 PC0 PC1 PC2 PC3 PC4 PC5 PC6 PC7 PC8 PC9 PC10 PC11 PC12 PC13 PC14 PC15 PC16 PC17 PC18 PC19 PC20 PC21 PC22 PC23 PC24 PC25 PC26 PC27 PC28 PC29 PC30 PC31 PB0 PB1 PB2 PB3 PB4 PB5 PB6 PB7 PB8 PB9 PB10 PB11 PB12 PB13 PB14 PB15 PB16 PB17 PB18 PA0 PA1 PA2 PA3 PA4 PA5 PA6 PA7 PA8 PA9 PA10 PA11 PA12 PA13 PA14 PA15 PA16 PA17 PA18 PA19 PA20 PA21 PA22 PA23 PA24 PA25 PA26 PA27 PA28 PA29 PA30 PA31 VDDIOP1 VDDIOP0 {4} {4} {4} {4} {2} {2} {2} {2} {1} {1} ETH0_TX+ ETH0_TXETH0_RX+ ETH0_RX- 4 NANDOE NANDALE NANDCS NANDR_B HHSDMA HHSDPA DIBP DIBN HHSDMB HHSDPB {1} {1} {1} {1} HHSDPC HHSDMC {1} {1} 4 PB0 PB2 PB4 PB6 PB8 PB9 PB11 PB13 PB15 PB17 PB18 PC29 PC31 PC17 PC19 PC21 PC22 PC24 PC26 PC7 PC9 PC11 PC12 PC14 PC0 PC2 PC4 PA25 PA27 PA29 PA16 PA18 PA20 PA5 PA10 PA8 PA22 PA31 PA0 PA2 PA4 PA11 PA13 PD10 PD12 PD14 PD16 PD18 PD20 PD8 VDDANA VDDNF C83 10uF +3V3 41 43 45 47 49 51 53 55 57 59 61 63 65 67 69 71 73 75 77 79 81 83 85 87 89 91 93 95 97 99 101 103 105 107 109 111 113 115 117 119 121 123 125 127 129 131 133 135 137 139 141 143 145 147 149 151 153 155 157 159 161 163 165 167 169 171 173 175 177 179 181 183 185 187 189 191 193 195 197 199 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 VCC_3V3 VCC_3V3 VBAT JTAGSEL WKUP SHDN BMS nRST nTRST TDI TCK TMS TDO RTCK PWR_EN RFU2 RFU4 RFU6 RFU8 RFU10 PIO 200-pin SODIMM 3 GND GND RFU11 RFU12 RFU13 RFU14 RFU15 RFU16 RFU17 RFU18 GND GND RFU19 RFU20 RFU21 RFU22 RFU23 RFU24 RFU25 RFU26 VDDNF VDDNF PD0 PD1 PD2 PD3 PD4 PD5 PD6 PD7 PD8 PD9 NC GND PD10 PD11 PD12 PD13 PD14 PD15 PD16 PD17 PD18 PD19 PD20 PD21 VDDIOP0 VDDIOP0 PA0 PA1 PA2 PA3 PA4 GND PA11 PA12 PA13 PA14 GND PA7 PA8 PA21 PA22 PA23 PA31 PA30 GND PA15 PA16 PA17 PA18 PA19 PA20 GND PA5 PA6 PA10 PA9 GND PA24 PA25 PA26 PA27 PA28 PA29 GND VDDIOP1 VDDIOP1 PC0 PC1 PC2 PC3 PC4 PC5 GND PC6 PC7 PC8 PC9 PC10 PC11 GND PC12 PC13 PC14 PC15 GND PC16 PC17 PC18 PC19 PC20 PC21 GND PC22 PC23 PC24 PC25 PC26 PC27 GND PC28 PC29 PC30 PC31 SELCONFIG0 VDDANA VDDANA PB0 PB1 PB2 PB3 PB4 PB5 PB6 PB7 PB8 GNDANA PB9 PB10 PB11 PB12 PB13 PB14 PB15 PB16 PB17 GNDANA PB18 ADVREF GND LED0 ETH0_TX+ LED1 ETH0_TXLED2 ETH0_RX+ AVDDT ETH0_RXGND_ETH VCC_3V3 VCC_3V3 GND USBC_DP USBC_DM GND USBB_DM USBB_DP GND DIBP DIBN GND USBA_DM USBA_DP GND RFU1 RFU3 RFU5 RFU7 RFU9 J1 3 42 44 46 48 50 52 54 56 58 60 62 64 66 68 70 72 74 76 78 80 82 84 86 88 90 92 94 96 98 100 102 104 106 108 110 112 114 116 118 120 122 124 126 128 130 132 134 136 138 140 142 144 146 148 150 152 154 156 158 160 162 164 166 168 170 172 174 176 178 180 182 184 186 188 190 192 194 196 198 200 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 +3V3 GND_ETH VDDANA VDDNF VDDBU C85 4.7uF AVDDT PB10 PB12 PB14 PB16 PB1 PB3 PB5 PB7 PC23 PC25 PC27 PC28 PC30 PC13 PC15 PC16 PC18 PC20 PC1 PC3 PC5 PC6 PC8 PC10 PA6 PA9 PA24 PA26 PA28 PA12 PA14 PA7 PA21 PA23 PA30 PA15 PA17 PA19 PA1 PA3 PD11 PD13 PD15 PD17 PD19 PD21 PD5 PD7 PD9 C84 1uF LED0 LED1 LED2 {2} {2} {1} {1} {1} {1} {1,4} {1} {1} {1} {1} {1} {1} {1} {4} {4} {4} C88 1uF ADVREF C87 4.7uF VDDIOP1 C86 4.7uF VDDIOP0 NANDWE NANDCLE JTAGSEL WKUP SHDN BMS NRST NTRST TDI TCK TMS TDO RTCK PWR_EN 2 2 R102 0R R101 DNP +3V3 Title: MBC-SAM9X5 PD[5..21] 1 Date: Thursday, November 04, 2010 Document Number: AT91SAM9G45-II Draw By: Zhu Xueliang Size: A3 PD5 PD7 PD8 PD9 PD10 PD11 PD12 PD13 PD14 PD15 PD16 PD17 PD18 PD19 PD20 PD21 1 {2,3} Rev: A Sheet: 5 of 5 A B C D Figure 3-16. CM Board Schematics – 5 of 5 SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 27 3.3 EK Board Description 3.3.1 EK Board Overview The EK board serves as the main board that carries the CPU module. It features all necessary peripherals and interfaces for processor evaluation. Figure 3-17. 3.3.2 Commented EK Board Layout Equipment List Based on the processor installed on the CM board, the EK board is equipped with the following interfaces or peripherals: 3.3.2.1 Devices List of the EK board peripherals: 28  Two EMAC PHY  One Audio codec  Two high speed MCI Card interfaces  Two CAN transceivers  Three RS232 ports with level translator features: DBGU, USART0 and USART3  One Smart DAA port  Two USB host ports  One USB host/device port  On-board power regulation SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16  LCD/ISI extension interface  ZigBee interface  One-wire device  Board Interface Connection Main power supply (J4)  One SODIMM200 socket (CON1)  USB A Host/Device, support USB host/device using a type micro AB connector (J20)  USB B Host, support USB host using a type A connector (J19, upper)  USB C Host, support USB host using a type A connector (J19, lower)  DBGU (RX and TX only) connected to a 9-way male RS232 connector (J11)  USART1 (RX, TX, RTS, CTS) connected to a 9-way male RS232 connector (J8)  USART3 (RX, TX, RTS, CTS) connected to a 9-way male RS232 connector (J12)  JTAG, 20 pin IDC connector (J9)  MicroSD connector (J6)  SD/MMC connector (J7)  Headphone (J15), line-in (J13)  Image sensor connector (J21)  DM board connection for QTouch and TFT LCD display with Touch Screen and backlight (J21, J22)  DAA connecter RJ11 6P4C type (J16)  CAN bus connectors RJ12 6P6C type (CON2, CON3)  ZigBee connector (J10)  Three IO expansion ports (J1, J2, J3)  Test points, various test points are located throughout the board  Push Button Switches Reset, board reset (BP1)  Wake up, push button to bring the processor out of low power mode (BP2) 3.3.2.2 3.3.2.3 3.3.3 Function Blocks 3.3.3.1 Processor The Evaluation Kit board may be used with any of the Core Modules:  SAM9G15  SAM9G25  SAM9G35  SAM9X25  SAM9X35 SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 29 Figure 3-18. SODIMM Interface on EK Board 3V3 USBC_DP USBC_DM USBB_DM USBB_DP DIBP DIBN USBA_DM USBA_DP 3V3 CON1 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 VCC1 VCC3 GND1 USBC_DP USBC_DM GND3 USBB_DM USBB_DP GND4 DIBP DIBN GND5 USBA_DM USBA_DP GND6 RFU1 RFU3 RFU5 RFU7 RFU9 VCC2 VCC4 VBAT JTAGSEL WKUP SHDN BMS nRST nTRST TDI TCK TMS TDO RTCK PWR_EN RFU2 RFU4 RFU6 RFU8 RFU10 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 VDDIOP0 R83 4.7k VBAT JP9 f or BMS Conf ig: When Open,BMS=1: Boot on embedded ROM When Close,BMS=0: Boot on External memory JP9 WAKE UP SHDN BMS 1 NRST NTRST TDI TCK TMS TDO RTCK PWR_EN 2 SIP2 JTAG KEY VDDNF PD0 PD2 PD4 PD6 PD8 PD10 PD12 PD14 PD16 PD18 PD20 PA0 PA2 PA4 PA11 PA13 (MCI1_CD) ZB_RSTN EN5V_HDA# EN5V_HDC# VDDIOP0 (MCI1_DA1) (MCI1_DA3) (MCI1_DA0) (MCI1_CK) PA8 PA22 PA31 PA16 PA18 PA20 PA5 PA10 PA25 PA27 PA29 PD10 PD12 PD14 PD16 PD18 PD20 TXD0 RTS0 SPI1_NPCS1 PA0 ZB_IRQ1 TWCK0 SPI1_MOSI PA8 PA22 PA31 PA16 PA18 PA20 PA5 PA10 (MCI0_CDA) (MCI0_DA1) (MCI0_DA3) CANTX1 CANTX0 PA2 PA4 PA11 PA13 DTXD PA25 PA27 PA29 TF RD RF VDDIOP1 PC0 PC2 PC4 ISI_D0 ISI_D2 ISI_D4 LCDDAT0 LCDDAT2 LCDDAT4 PC0 PC2 PC4 PC7 PC9 PC11 PC12 PC14 ISI_D7 ISI_D9 ISI_D11 ISI_PCK ISI_HSYNC LCDDAT7 LCDDAT9 LCDDAT11 LCDDAT12 LCDDAT14 PC7 PC9 PC11 PC12 PC14 LCDDAT17 LCDDAT19 LCDDAT21 LCDDAT22 LCDDISP LCDPWM PC17 PC19 PC21 PC22 PC24 PC26 LCDDEN PC29 PC31 PC17 PC19 PC21 PC22 PC24 PC26 PC29 PC31 VDDANA PB0 PB2 PB4 PB6 PB8 PB9 PB11 PB13 PB15 PB17 PB18 E1_TX1 E1_RX1 E1_INTR TXD3 RTS3 E1_TXCK E1_MDIO E0_RX0 E0_RXER E0_TXCK E0_MDC E0_INTR E0_TX0 AD0_XP AD2_YP AD4_LR ONE_WIRE ETH0_TX+ ETH0_TXETH0_RX+ ETH0_RX- OVCUR_USB PB0 PB2 PB4 PB6 PB8 PB9 PB11 PB13 PB15 PB17 PB18 41 43 45 47 49 51 53 55 57 59 61 63 65 67 69 71 73 75 77 79 81 83 85 87 89 91 93 95 97 99 101 103 105 107 109 111 113 115 117 119 121 123 125 127 129 131 133 135 137 139 141 143 145 147 149 151 153 155 157 159 161 163 165 167 169 171 173 175 177 179 181 183 185 187 189 191 193 195 197 199 42 GND7 GND8 44 RFU11 RFU12 46 RFU13 RFU14 48 RFU15 RFU16 50 RFU17 RFU18 52 GND9 GND10 54 RFU19 RFU20 56 RFU21 RFU22 58 RFU23 RFU24 60 RFU25 RFU26 62 VDDNF1 VDDNF2 64 PD0/NANDOE PD1/NANDWE 66 PD2/A21/NANDALE PD3/A22/NANDCLE 68 PD4/NCS3 PD5/NWAIT 70 PD6/D16 PD7/D17 72 PD8/D18 PD9/D19 74 NC GND11 76 PD10/D20 PD11/D21 78 PD12/D22 PD13/D23 80 PD14/D24 PD15/D25/A20 82 PD16/D26/A23 PD17/D27/A24 84 PD18/D28/A25 PD19/D29/NCS2 86 PD20/D30/NCS4 PD21/D31/NCS5 88 VDDIOP0_0 VDDIOP0_1 90 PA0/TXD0/SPI1_NPCS1 PA1/RXD0 92 PA2/RTS0/MCI1_DA1/E0_ETX0 PA3/CTS0/MCI1_DA2/E0_ETX1 94 PA4/SCK0/MCI1_DA3/E0_ETXER GND12 96 PA11/SPI0_MISO/MCI1_DA0 PA12/SPI0_MOSI/MCI1_CDA 98 PA13/SPI0_SPCK/MCI1_CK PA14/SPI0_NPCS0 100 GND13 PA7/TXD2 102 PA8/TIOA0/SPI1_MISO PA21/RXD2/SPI1_NPCS0 104 PA22/TIOA1/SPI1_MOSI PA23/TIOA2/SPI1_SPCK 106 PA31/TWCK0/SPI1_NPCS2/E0_ETXEN PA30/TWD0/SPI1_NPCS3/E0_EMDC 108 GND14 PA15/MCI0_DA0 110 PA16/MCI0_CDA PA17/MCI0_CK 112 PA18/MCI0_DA1 PA19/MCI0_DA2 114 PA20/MCI0_DA3 GND16 116 PA5/TXD1/CANTX1 PA6/RXD1/CANRX1 118 PA10/DTXD/CANTX0 PA9/DRXD/CANRX0 120 GND15 PA24/TCLK0/TK 122 PA25/TCLK1/TF PA26/TCLK2/TD 124 PA27/TIOB0/RD PA28/TIOB1/RK 126 PA29/TIOB2/RF GND17 128 VDDIOP1_0 VDDIOP1_1 130 PC0/LCDDAT0/ISI_D0/TWD1 PC1/LCDDAT1/ISI_D1/TWCK1 132 PC2/LCDDAT2/ISI_D2/TIOA3 PC3/LCDDAT3/ISI_D3/TIOB3 134 PC4/LCDDAT4/ISI_D4/TCLK3 PC5/LCDDAT5/ISI_D5/TIOA4 136 GND18 PC6/LCDDAT6/ISI_D6/TIOB4 138 PC7/LCDDAT7/ISI_D7/TCLK4 PC8/LCDDAT8/ISI_D8/UTXD0 140 PC9/LCDDAT9/ISI_D9/URXD0 PC10/LCDDAT10/ISI_D10/PWM0 142 PC11/LCDDAT11/ISI_D11/PWM1 GND19 144 PC12/LCDDAT12/ISI_PCK/TIOA5 PC13/LCDDAT13/ISI_VSYNC/TIOB5 146 PC14/LCDDAT14/ISI_HSYNC/TCLK5 PC15/LCDDAT15/ISI_MCK 148 GND20 PC16/LCDDAT16/E1_RXER/UTXD1 150 PC17/LCDDAT17/URXD1 PC18/LCDDAT18/E1_TX0/PWM0 152 PC19/LCDDAT19/E1_TX1/PWM1 PC20/LCDDAT20/E1_RX0/PWM2 154 PC21/LCDDAT21/E1_RX1/PWM3 GND21 156 PC22/LCDDAT22/TXD3 PC23/LCDDAT23/RXD3 158 PC24/LCDDISP/RTS3 PC25/CTS3 160 PC26/LCDPWM/SCK3 PC27/LCDVSYNC/E1_TXEN/RST1 162 GND22 PC28/LCDHSYNC/E1_CRSDV/CTS1 164 PC29/LCDDEN/E1_TXCK/SCK1 PC30/LCDPCK/E1_MDC 166 PC31/FIQ/E1_MDIO/PCK1 SELCONFIG 168 VDDANA_0 VDDANA_1 170 PB0/E0_RX0/RTS2 PB1/E0_RX1/CTS2 172 PB2/E0_RXER/SCK2 PB3/E0_RXDV/SPI0_NPCS3 174 PB4/E0_TXCK/TWD2 PB5/E0_MDIO/TWCK2 176 PB6/E0_MDC/AD7 PB7/E0_TXEN/AD8 178 PB8/E0_TXER/AD9 GNDANA1 180 PB9/E0_TX0/PCK1/AD10 PB10/E0_TX1/PCK0/AD11 182 PB11/E0_TX2/PWM0/AD0 PB12/E0_TX3/PWM1/AD1 184 PB13/E0_RX2/PWM2/AD2 PB14/E0_RX3/PWM3/AD3 186 PB15/E0_RXCK/AD4 PB16/E0_CRS/AD5 188 PB17/E0_COL/AD6 GNDANA2 190 PB18/IRQ/ADTRG ADVREF 192 GND23 LED0 194 ETH0_TX+ LED1 196 ETH0_TXLED2 198 ETH0_RX+ AVDDT 200 ETH0_RXGND_ETH VDDNF PD1 PD3 PD5 PD7 PD9 PD11 PD13 PD15 PD17 PD19 PD21 PA1 PA3 PA12 PA14 PA7 PA21 PA23 PA30 PA15 PA17 PA19 PD5 PD9 ZB_SLPTR PD11 PD13 PD15 PD17 PD19 PD21 (MCI1_DA2) PA1 PA3 (MCI0_CD) EN5V_HDB# VDDIOP0 RXD0 CTS0 (MCI1_CDA) ZB_IRQ0 SPI1_MISO SPI1_SPCK TWD0 PA6 PA9 PA24 PA26 PA28 DRXD (MCI0_DA0) (MCI0_CK) (MCI0_DA2) CANRX1 CANRX0 TK TD RK VDDIOP1 LCDDAT1 LCDDAT3 LCDDAT5 LCDDAT6 LCDDAT8 LCDDAT10 PC13 PC15 PC16 PC18 PC20 LCDDAT13 ISI_VSYNC LCDDAT15 ISI_MCK E1_RXER LCDDAT16 E1_TX0 LCDDAT18 E1_RX0 LCDDAT20 PC13 PC15 PC16 PC18 PC20 PC23 PC25 PC27 PC28 PC30 LCDDAT23 RXD3 CTS3 LCDVSYNC LCDHSYNC LCDPCK PC23 PC25 PC27 PC28 PC30 SELCONFIG VDDANA PB1 PB3 PB5 PB7 ISI_D1 ISI_D3 ISI_D5 ISI_D6 ISI_D8 ISI_D10 PB1 PB3 PB5 PB7 PB10 PCK0 PB12 PB14 PB16 VBUS_SENSE PC1 PC3 PC5 PC6 PC8 PC10 E1_TXEN E1_CRSDV E1_MDC E0_RX1 E0_RXDV E0_MDIO E0_TXEN E0_TX1 AD1_XM AD3_YM PB10 PB12 PB14 PB16 ADVREF ETH0_LED0 ETH0_LED1 ETH0_LED2 ETH0_AVDDT ETH0_GND SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 PA6 PA9 PA24 PA26 PA28 PC1 PC3 PC5 PC6 PC8 PC10 1612618-4 30 PA12 PA14 PA7 PA21 PA23 PA30 PA15 PA17 PA19 3.3.3.2 Power Supplies The EK Board features one adjustable LDO. It accepts DC 5V power input and outputs a regulated +3.3V to most other circuits on the board through four 3.3V rails.  VDDPIO0  VDDPIO1  VDDANA  VDDISI This LDO is enabled through a dual FET scheme. The processor can assert SHDN (which is a VDDBU- powered I/O) to shut down the LDO to enter the so-called backup mode. The regulator on CM board is also shut down by the action of the SHDN signal. If the 3V battery is mounted on J5, both CM and EK boards can be woken up by action on the BP2 button, which drives the WKUP signal (also a VDDBU-powered I/O). JP4 1 C4 100n 3 3V3 D1 GND ADJ VOUT NC 8 7 6 5 R2 R5 15k J5 BAT54CLT1G C8 1u 47k 10n C9 10u 1 C5 SIP2 2 VBAT VDDIOP1 L17 220ohm at 100MHz 1 2 VDDIOP0 L16 220ohm at 100MHz 1 2 D2 Red 470R R3 L1 220ohm at 100MHz 1 2 3V3 2 VOUT = 0.8V x (Rtop + Rbottom)/Rbottom 1 VDDANA L2 220ohm at 100MHz 1 2 VDDISI EK Board Power Management 2 C7 1u PGOOD EN VIN VDD C6 10u SHDN SIP2 FORCE POWER ON JP5 100n C57 1 15p 1 C10 5 Q1 6 Si1563EDH 2 PWR_EN# R4 100k C120 1u 2 R7 10k 3 4 R8 10k POWER_EN 5V 5V PWR_EN R25 10k 1 Q6 IRLML2402 3 2 3V3 C22 1u Place C22 near MN3.pin2 R1 100k 1 2 3 4 MN3 RT9018A EP 3V3 9 Figure 3-19. SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 31 There is another 3.3V rail, VDDNF, supplied from the CM board. VDDNF is set to 3.3V in the current CM design. The processors also support a 1.8V NAND Flash device, in which case VDDNF is set to 1.8V. In order to avoid potential voltage conflict on user-defined applications, a level shifter is inserted between the PIO lines on VDDNF rail and the 3.3V application. Figure 3-20. Level Shifter For VDDNF Rail VDDNF 3V3 MN18 1 2 3 4 5 6 7 8 9 10 11 12 C118 100n PD17 PD16 PD20 PD19 PD18 VCCA VCCB1 DIR VCCB2 A1 OE A2 B1 A3 B2 A4 B3 A5 B4 A6 B5 A7 B6 A8 B7 GND1 B8 GND2 GND3 24 23 22 21 20 19 18 17 16 15 14 13 C119 100n EN5V_HDC# EN5V_HDB# EN5V_HDA# ZB_SLPTR ZB_RSTN SN74AVC8T245PWR 3.3.3.3 JTAG/ICE Software debug is accessed by a standard 20-pin JTAG connection. This allows connection to a standard USB-toJTAG in-circuit emulator such as SAM-ICE™. Figure 3-21. JTAG Interface VDDIOP0 VDDIOP0 2 4 6 8 10 12 14 16 18 20 R47 R48 R49 100k 100k 100k 100k DNP DNP DNP DNP VDDIOP0 J9 BR20-H 32 R46 1 3 5 7 9 11 13 15 17 19 R54 DNP R50 0R R51 0R 0R NTRST TDI TMS TCK RTCK TDO NRST NTRST TDI TMS TCK RTCK TDO NRST R58 0R DNP SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 DBGU The UART is connected to the DB-9 male socket through an RS-232 Transceiver (TXD and RXD only). A jumper, JP11, is used to select DBGU or CAN0 between IO (PA9, PA10) sharing scheme. Close JP11 to select DBGU. DBGU Com Port VDDIOP0 VDDIOP0 2 MN8 17 C1+ C30 100n R60 100k 100k 7 C2- R67 VDDIOP0 R71 R73 SEL_CAN 0R 13 0R 10 C33 C38 100n 100n 15 8 T2 J11 1 6 2 7 3 8 4 9 5 14 R1 10 DRXD VT1 11 PA9 3 V+ 6 12 DTXD GND 4 5 C1C2+ C36 100n PA10 C31 100n 100k 9 R2 1 EN 18 SD ADM3222ARW R72 11 R59 VCC 16 2 Figure 3-22. 0R PWR_EN EARTH_RS232 JP11 SIP2 1 3.3.3.4 SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 33 3.3.3.5 USART The USART0 and USART3 are used as serial communication ports. Both USARTs are buffered with an RS-232 Transceiver (TXD, RXD and handshake CTS/RTS control) and connected to the DB-9 male socket. The software must assign the appropriate PIO pins to enable the USART function. The USART3 is only supported by SAM9G25 and SAM9X25 processors. The RS-232 Transceiver for USART3 is enabled by the signal SELCONFIG comprised of a pull down resistor on CM board. Ref to Section 3.4.1 ”DM Board Overview” for details. Figure 3-23. USART Com Port VDDIOP0 R22 R23 R24 MN4 C13 C14 4.7u 100n 3 23 C15 100n 1 C18 100n 21 19 47k PA2 PA0 RTS0 TXD0 R27 R28 0R 0R PA3 PA1 CTS0 RXD0 R30 R31 0R 0R 47k 5 47k 7 8 9 VCC C1+ GND C1- V+ C2+ V- C2- SD C3+ EN C3- T1IN T2IN T3IN 10 11 12 6 2 100n C17 100n 24 C19 100n 22 18 17 16 15 14 13 R1IN R2IN R3IN RTSC0 TXDC0 R29 0R CTSC0 RXDC0 ADM3312EARU L5 220ohm at 100MHz 1 2 EARTH_RS232 VDDIOP1 VDDIOP1 R61 R62 R63 R64 MN9 C28 C29 4.7u 100n 3 23 C35 100n 1 C37 100n 21 19 47k SELCONFIG PC24 PC22 RTS3 TXD3 R65 R66 0R 0R PC25 PC23 CTS3 RXD3 R69 R70 0R 0R 47k 47k 47k 5 7 8 9 10 11 12 VCC C1+ GND C1- V+ C2+ V- C2- SD C3+ EN C3- T1IN T2IN T3IN T1OUT T2OUT T3OUT R1OUT R2OUT R3OUT R1IN R2IN R3IN 6 C32 100n C34 100n C39 100n 20 2 4 24 22 18 17 16 15 14 13 RTSC3 TXDC3 R68 0R CTSC3 RXDC3 ADM3312EARU SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 J12 1 6 2 7 3 8 4 9 5 11 (only for SAM9G25/SAM9X25) 10 USART3 34 J8 1 6 2 7 3 8 4 9 5 4 T1OUT T2OUT T3OUT R1OUT R2OUT R3OUT C16 20 11 VDDIOP0 10 USART0 EARTH_RS232 3.3.3.6 USB Ports The Evaluation Kit features three USB communication ports: Port A Host High Speed (EHCI) and Full Speed (OHCI) multiplexed with USB Device High speed Micro AB connector, J20 Port B Host High Speed (EHCI) and Full Speed (OHCI) standard type A connector, J19 upper port Port C Host Full speed OHCI only standard type A connector, J19 lower port All three USB Host ports are equipped with 500 mA high-side power switch for self-powered and bus-powered applications. The USB device port features VBUS insert detection function through the resistor ladder R138 and R139. Refer to the embedded MPU product datasheet for detailed programming information. For datasheet reference numbers and titles, see “Related Documents” . Figure 3-24. USB Port (A) 3V3 USB A HOST/DEVICE INTERFACE R137 47k L14 1 5V_INTER 8 2 5V C107 100n 7 + C106 220ohm at 100MHz C108 33u 100n L15 1 6 5 2 + C110 220ohm at 100MHz 33u C109 100n MN15 OUTA ENA IN FLGA GNG FLGB OUTB ENB 1 ACTIVE LOW LCD_DETECT# 2 3 PB17 OVCUR_USB 4 EN5V_HDA# AIC1526-0GS 3V3 R138 7 (VBUS_SENSE) R140 47k 1 2 3 4 5 USBA_DM USBA_DP (IDUSBA) 6 VBUS DM DP ID GND PB16 R139 47k C111 15p J20 SHD EARTH_USB 82k G3515-09010101-00 EARTH_USB Figure 3-25. USB Port (B & C) USB HOST B&C INTERFACE USBB_DP USBB_DM L12 1 8 2 5V C102 100n C101 100n + C103 33u L13 1 C105 100n J19 7 220ohm at 100MHz + C104 33u 2 220ohm at 100MHz 6 5 MN14 OUTA ENA IN FLGA GNG FLGB OUTB ENB 1 EN5V_HDB# 2 3 4 OVCUR_USB PB17 EN5V_HDC# AIC1526-0GS Dual USB A A1 A2 A3 A4 B1 B2 B3 B4 A B 1 2 L21 220ohm at 100MHz 1 2 EARTH_USB USBC_DM USBC_DP 3 4 EARTH_USB SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 35 3.3.3.7 Ethernet 10/100 (EMAC) Port Except for SAM9G15, the processor has two 10/100 Mbps Ethernet Mac Controllers. EMAC SAM9G15 SAM9G35 SAM9X35 SAM9G25 SAM9X25 – RMII RMII MII MII + RMII The EK board is equipped with two Davicom DM9161AEP PHYs for each Ethernet port. Both PHY Transceivers are configured as RMII mode. Both PHY transceivers have an RJ45 port with embedded transformer and threestatus LEDs. By default, the ETH0 interface is implemented on the EK board. Additionally, for monitoring and control purposes, an LED functionality is carried on the RJ45 connectors to indicate activity, link, and speed status information for the respective ports. 36 SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 PB6 PB5 PB8 PB1 PB0 PB3 PB2 PB10 PB9 PB7 1 2 3 4 R219 R220 R221 E0_MDC E0_MDIO E0_INTR 22R RR17 1 2 3 4 8 7 6 5 22R NRST 22R 22R 22R 8 7 6 5 22R RR18 R218 E0_RX1 E0_RX0 E0_RXDV E0_RXER E0_TX1 E0_TX0 E0_TXEN E0_TXCK 0R RR8 10k RR7 10k JP12 VDDANA 3 4 RR6 10k VDDANA R105 VDD OUT 8 7 6 5 1 2 3 4 PB4 VSS 50MHz OE 8 7 6 5 1 2 3 4 2 1 Y1 8 7 6 5 1 2 3 4 2 EARTH_ETH0 C87 10u 10V RESET 0R PWRDWN DGND DGND DGND DVDD DVDD DVDD DISMDIX MDC MDIO MDINTR BGRESG AGND AGND AGND AVDDT AVDDR AVDDR RX- RX+ TX- TX+ XT1 ETH0_GND N.C BGRES LEDMODE LED0/OP0 LED1/OP1 LED2/OP2 CABLESTS/LINKSTS DM9161AEP COL/RMII CRS/PHY AD4 TX_ER/TXD4 RX_ER/RXD4/RPTR RX_CLK/10BTSER RX_DV/TESTMODE RXD3/PHY AD3 RXD2/PHY AD2 RXD1/PHY AD1 RXD0/PHY AD0 TXD3 TXD2 TXD1 TXD0 TX_EN TX_CLK/ISOLATE REF_CLK/XT2 MN12 C79 2 100n 100n FULL DUPLEX R114 6.8k R113 0R ETH0_GND 45 48 31 11 12 13 14 47 5 6 46 E0_AVDDT 9 C82 100n C77 1 4 3 8 7 43 R171 R172 R173 RR9 10k 0R 0R 0R 2 D7 ETH0_GND VDDANA 2 C81 10u 10V 2200R L10 R177 ETH0_GND C80 10u 10V 1 E0_AVDDT (Not available for SAM9G15) ETH0 R119 40 10 15 33 44 23 30 41 VDDANA 0R 100n 100n R117 39 24 25 32 36 35 16 38 34 37 26 27 28 29 VDDANA 100n 1.5k C85 C86 42 17 18 19 20 21 0R DNP 22 0R C84 R112 R108 R106 C75 100n VDDANA L19 220ohm at 100MHz 1 2 1 10k 1 VDDANA 0R DNP 0R DNP 0R DNP R168 470R C83 100n R111 49.9R R109 49.9R ETH0_LED2 ETH0_LED1 ETH0_LED0 EARTH_ETH0 0R R182 C78 100n 0R 0R R179 R181 0R R178 Optional PHY Embedded on CM board R174 R175 R176 Red R110 49.9R 0R R107 49.9R C76 100n 11 10 5 J17 1nF Right LED Left LED 8 RD- 6 CT 7 RD+ 2 TD- 3 CT 1 TD+ 4 0R 0R 0R 0R 0R DNP DNP DNP DNP DNP ETH0_AVDDT ETH0_TX+ ETH0_TXETH0_RX+ ETH0_RX- Optional PHY Embedded on CM board 75 75 R116 R115 75 75 3 6 RX+ RX- 470R 470R 8 7 5 4 2 TX- EARTH_ETH0 J0026D21B TX+ 1 VDDANA RJ45 ETHERNET CONNECTOR R180 R183 R184 R185 R186 Place close to J17 16 9 R104 8 7 6 5 1 2 3 4 15 12 Figure 3-26. ETH0 Port SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 37 Ethernet 1 is only available for SAM9X25. The PHY on Ethernet 1 is enabled by the SELCONFIG signal from a pull-down resistor on the CM board. Refer to Section 3.4.1 ”DM Board Overview” for detail. Some pins (PC16, PC20, PC21, PC28, PC26 and PC29) are configured as Ethernet 1 input from PHY for SAM9X25, whereas they are configured as LCD data pins on other processors. An IO buffer MN17 is inserted in series with these signals to prevent the LCD from being disturbed by unknown status of the PHY device. 38 SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 PC30 PC31 PC26 PC21 PC20 PC28 PC16 1 2 3 4 1 2 3 4 SELCONFIG PC29 PC19 PC18 PC27 E1_TXCK E1_INTR E1_RXER 1 2 3 4 5 6 7 8 9 10 0R 74AC244SC GND OE1 I0 O4 I1 O5 I2 O6 I3 O7 MN17 C100 10u 10V R136 VDDIOP1 E1_CRSDV E1_RX0 L20 220ohm at 100MHz 1 2 8 7 6 5 8 7 6 5 E1_RX1 EARTH_ETH1 22R RR12 22R RR10 SELCONFIG 8 7 6 5 E1_INTR SELCONFIG E1_TXCK E1_MDC E1_MDIO E1_INTR 20 19 18 17 16 15 14 13 12 11 VDDIOP1 GND_ETH1 VCC OE2 O0 I4 O1 I5 O2 I6 O3 I7 E1_TXCK E1_TX1 E1_TX0 E1_TXEN C114 100n VDDIOP1 E1_RXER RR13 10k NRST SELCONFIG RR14 10k RR15 10k 0R JP13 VDDIOP1 R133 0R R125 R122 47k R134 100n 100n 1.5k 100n C99 42 OUT VDD 40 10 15 33 44 23 30 41 VDDIOP1 39 24 25 32 36 35 16 38 34 37 26 27 28 29 17 18 19 20 21 0R DNP 22 0R VSS 50MHz OE Y2 C98 2 1 C97 VDDIOP1 R128 E1_CRSDV E1_RX1 E1_RX0 R121 8 7 6 5 1 2 3 4 1 2 3 4 8 7 6 5 1 2 3 4 22R RR11 8 7 6 5 1 2 3 4 2 1 10k C88 100n RESET PWRDWN DGND DGND DGND DVDD DVDD DVDD DISMDIX MDC MDIO MDINTR BGRESG AGND AGND AGND AVDDT AVDDR AVDDR RX- RX+ TX- TX+ XT1 N.C BGRES LEDMODE LED0/OP0 LED1/OP1 LED2/OP2 CABLESTS/LINKSTS DM9161AEP COL/RMII CRS/PHY AD4 TX_ER/TXD4 RX_ER/RXD4/RPTR RX_CLK/10BTSER RX_DV/TESTMODE RXD3/PHY AD3 RXD2/PHY AD2 RXD1/PHY AD1 RXD0/PHY AD0 TXD3 TXD2 TXD1 TXD0 TX_EN TX_CLK/ISOLATE REF_CLK/XT2 MN13 3 4 VDDIOP1 C92 2 100n 100n 45 48 31 11 12 13 14 47 5 6 46 R130 6.8k R129 0R E1_AVDDT 9 C95 100n C90 1 4 3 8 7 43 2200R L11 C93 10u 10V 1 2 R124 49.9R C89 100n 1 Red EARTH_ETH1 2 D8 FULL DUPLEX RR16 10k VDDIOP1GND_ETH1 C96 100n C91 100n 75 75 470R VDDIOP1 Right LED Left LED R169 11 10 5 4 8 RD- 6 CT 7 RD+ 2 TD- 3 CT 1nF J18 J0026D21B R132 R131 75 75 2 3 6 TX- RX+ RX- 470R 470R 8 7 5 4 1 TX+ EARTH_ETH1 VDDIOP1 RJ45 ETHERNET CONNECTOR 1 TD+ GND_ETH1 GND_ETH1 R127 49.9R E1_AVDDT R123 49.9R E1_AVDDT R126 49.9R C94 10u 10V ETH1 (Only availabel for SAM9X25) 16 9 R120 8 7 6 5 1 2 3 4 15 12 Figure 3-27. ETH1 Port SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 39 40 2 1 Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] C61 470p 1 AUDIO_GND 3 2 R162 R91 47k C60 C59 0R DNP 470p C44 C121 22p 220uF/10V 220uF/10V AUDIO_GND AUDIO_GND 470p C41 AUDIO_GND R90 47k L7 220ohm at 100MHz 1 2 AUDIO_GND 5.6K R81 AUDIO_GND 5.6K R80 R78 5.6K L6 220ohm at 100MHz 1 2 C62 470p AUDIO_GND C43 470p L4 220ohm at 100MHz 1 2 22R DNP L3 R74 220ohm at 100MHz 5.6K 1 2 PCK0 + 4 STEREO_3.5mm J15 5 HEADPHONE C42 4 3 470p STEREO_3.5mm J13 AUDIO_GND 5 LINE_IN PB10 R164 R164 near SODIMM R162 near CODEC 2 100n 18 C55 LHPOUT 9 OSC AUDIO_GND 15 AGND RHPOUT MICBIAS MICIN 10 17 1u RLINEIN 19 C52 LLINEIN 20 ROUT 13 XTO 26 LOUT XTI/MCLK 12 CLKOUT 2 MN10 Y3 12.288MHz 25 1u 3 C49 1 C122 22p 11 HPGND 100n 0R 33R 28 C115 10u VDDIOP0 R88 R89 100n 10u 10u 100n RK TK TD TF RD RF 100n 10u PA28 PA24 PA26 PA25 PA27 PA29 AUDIO_GND AUDIO_GND R79 4.7k VDDIOP0 C116 100n R165 0R AUDIO_GND C117 100n VCC_DAC L18 220ohm at 100MHz 1 2 0R 0R R77 4.7k 10u 100n IIS of Audio Interface in Slave Mode C56 C53 10u C51 C50 C47 C48 C46 C45 C40 DGND R86 R87 C54 VCC_DAC VDDIOP0 TWI_addr TWD0 TWCK0 R76 10k 3 4 5 6 7 16 8 14 27 1 21 22 23 24 R75 10k CSB = 1: addr=0011011 BCLK DACDAT DACLRC ADCDAT ADCLRC VMID HPVDD AVDD DCVDD DBVDD MODE CSB SDIN SCLK WM8731SEDS MODE = 0: 2-wire MPU mode for 9x5 TWI interface PA30 PA31 Figure 3-28. 4 3.3.3.8 Audio The Evaluation Kit includes a WM8731 CODEC for digital sound input and output. This interface includes audio jacks for line audio input (J13) and headphone line output (J15). The SAM9 processor is configured in IIS slave mode to interface with the WM8731 Codec. The IIS master mode is also possible for evaluation by populating R162/R164 and removing the crystal Y3. Audio Interface + 3.3.3.9 1-Wire EEPROM The EK board also features a 1-Wire device acting as a “firmware label” to store information like chip type, manufacturer’s name, production date etc. Figure 3-29. 1-Wire on EK VDDANA R144 1.5k R145 ONE_WIRE PB18 2 0R 1 MN16 I/O GND NC1 NC2 NC3 NC4 3 4 5 6 DS2431P 3.3.3.10 CAN Bus Two boards, the SAM9X35-EK and SAM9X25-EK, feature two Controller Area Network (CAN) ports with transceiver. CAN0 uses the same IOs (PA9, PA10) as the DBGU. A jumper, JP11, is used to select either of the interfaces.  Open JP11 to select the CAN function.  Close JP11 to select the DBGU function. A 3-state output buffer, MN19 is inserted in series with the output channels of the CAN transceiver, which share IOs with the DBGU. This is necessary because the CAN transceiver does not feature 3-state outputs. Figure 3-30. CAN on EK JP7 (only for SAM9X35/SAM9X25) PA10 CANTX0 1 PA9 R21 10k 8 R20 0R 1 5 SEL_CAN 2 CANRX0 3 MN19 OE VCC A Y 5 VDDIOP0 1 MN5 4 RS D CANH CANL EN VCC R GND SIP2 7 6 3 120R 3V3 5V VDDIOP0 2 SN65HVD234DR 4 R19 2 CON2 1 2 3 4 5 6 CAN0 MJM0606GE06-H C20 100n C21 10u GND SN74LVC1G126DBV JP8 1 MN6 PA5 CANTX1 VDDIOP0 PA6 CANRX1 R32 10k 8 R33 0R 1 R35 5 10k R37 0R 4 RS D CANH CANL EN VCC R GND 2 SIP2 7 6 3 120R VDDIOP0 2 SN65HVD234DR R34 3V3 5V CON3 1 2 3 4 5 6 CAN1 MJM0606GE06-H C23 100n C24 10u SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 41 DIBP DIBN 0R R167 150pF C71 0R R166 0R can be replaced by bead to improve EMI 150pF C72 4 1 LAN0066-50 3 TX1 2 C70 47pF DAA_GND C73 100n DVDD DAA_GND C66 100n DAA_GND C65 100n DVDD DIBP DIBN AVDD PWR DAA_GND C74 100n 1 14 16 2 15 TEST 13 7 8 9 10 6 11 5 R93 0805 6.81M R99 1 DAA_GND R102 110R MMBAT42 Q3 100R 1 DAA_GND 6.81M DAA_GND 100V C68 47n 100n 237K R94 C67 CX20548-11Z GPIO TXF TXO EIF EIO RXI EIC TAC RAC 4 0805 D3 MMBD3004S-7-F 2 R100 3.01R 1% 1 MMBAT42 DAA_GND Q2 C69 10n D5 MMBD3004S-7-F 1 2 1 3 3 MN11 R92 3 2 3 2 12 VC 3 Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 EP 17 3 2 2 R103 9R1 1% 1206 Q4 MMBAT42 1 3 R101 3.01R 1% 1 2 L9 220ohm at 100MHz 1 L8 220ohm at 100MHz 1 2 1 42 2 MMBAT42 Q5 470p C64 470p C63 R96 280R 1% 1206 R95 280R 1% 1206 TB3100M-13-F D4 R97 280R 1% 1206 RJ11 R98 280R 1% 1206 MJM0606GE06-H J16 1 2 3 4 5 6 Figure 3-31. 2 3.3.3.11 Telephone Interface The Evaluation Kit features a smart DAA (Data Access Arrangement) chip to drive an analog telephone line on RJ11 6P4C port (J16). Telephone Interface SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] 3.3.3.12 SD/MMC Interface The EK board has two high-speed MultiMedia Card Interfaces (MCI). The first interface is used as a 4-bit interface (MCI0), connected to a MicroSD card slot. The second interface is used as a 4-bit interface (MCI1), connected to an SD/MMC card slot. The memory card is not included in the Evaluation Kit. Please note that the power is connected to VCC, which is 3.3 volts. Figure 3-32. SD/MMC Interface VDDNF VDDIOP0 R10 R11 R12 R13 R9 10k R14 10k 68k 68k 68k 68k PA17 PA16 PA20 PA19 RR1 1 2 3 4 (MCI0_DA1) (MCI0_DA0) (MCI0_CK) 1 2 3 4 (MCI0_CDA) (MCI0_DA3) (MCI0_DA2) RR2 8 7 6 5 C11 100n 27R VDDIOP0 JP6 1 R15 R16 R17 R18 2 PA13 PA12 PA4 PA3 PJS008-2110-0 9 RR3 10k 1 2 3 4 68k 68k 68k 68k PA2 PA11 11 12 13 14 VDDNF SIP2 PD14 Micro SD J6 10 8 SW2 7 6 5 4 3 2 1 27R 8 7 6 5 SW1 PA18 PA15 (MCI0_CD) 8 7 6 5 PD15 (MCI1_WP) (MCI1_CD) (MCI1_CK) RR4 27R 1 8 2 7 3 6 4 5 (MCI1_CDA) (MCI1_DA3) (MCI1_DA2) 1 2 3 4 (MCI1_DA1) (MCI1_DA0) 8 RR5 7 27R 6 5 8 7 6 5 4 3 2 1 9 3V3 C12 100n J7 DAT1 DAT0 VSS CLK VDD VSS CMD DAT3 DAT2 CD WP GND GND SH SH 10 11 12 13 14 15 7SDCN-B0-0101-F SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 43 3.3.3.13 ZigBee The EK board has a 10-pin male connector for the Atmel RZ600 ZigBee module. DNP 0 Ohm resistors have been implemented in series with the PIO lines that are used elsewhere in the design. Thereby, enable their individual disconnections, should a conflict occur in user application. Figure 3-33. ZigBee Interface DNP DNP DNP DNP PD16 ZB_IRQ1 SPI1_NPCS1 SPI1_MISO ZB_RSTN PA13 PA0 PA21 R52 R56 R55 R82 1 3 5 7 9 0R 0R 0R 0R J10 DNP DNP 2 4 6 8 10 R53 R57 HD2X05 C25 15p 3.3.3.14 0R 0R C26 2.2n ZB_IRQ0 PD17 SPI1_MOSI SPI1_SPCK 2 1 JP10 C27 DNPDNP 2.2u PA7 ZB_SLPTR PA22 PA23 3V3 LED Indicators The EK board has three LED indicators for purposes shown below: Table 3-8. LED Indicators Reference Color Function D2 Red 3v3 Power indicator D7 Red ETH0 Full Duplex D8 Red ETH1 Full Duplex Refer to Section 3.3.3.2 ”Power Supplies” and Section 3.3.3.7 ”Ethernet 10/100 (EMAC) Port” for details. 3.3.3.15 Expansion Ports Most GPIOs are routed to expansion ports J1, J2, J3. All I/Os of the MPU Image Sensor Interface (ISI) are routed to connectors J21. The LCD and touch screen interfaces are routed to connectors J21, J22. Figure 3-34. I/O Expansion 3V3 5V 3V3 JP1 3V3 44 3V3 5V JP3 1 3 1 3 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 J1 HD2X20-HH 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 J2 HD2X20-HH 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 J3 HD2X20-HH 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 PA16 PA17 PA18 PA19 PA20 PA21 PA22 PA23 PA24 PA25 PA26 PA27 PA28 PA29 PA30 PA31 PC0 PC1 PC2 PC3 PC4 PC5 PC6 PC7 PC8 PC9 PC10 PC11 PC12 PC13 PC14 PC15 3V3 2 2 3 2 PA0 PA1 PA2 PA3 PA4 PA5 PA6 PA7 PA8 PA9 PA10 PA11 PA12 PA13 PA14 PA15 5V JP2 1 PC16 PC17 PC18 PC19 PC20 PC21 PC22 PC23 PC24 PC25 PC26 PC27 PC28 PC29 PC30 PC31 3V3 PB0 PB1 PB2 PB3 PB4 PB5 PB6 PB7 PB8 PB9 PB10 PB11 PB12 PB13 PB14 PB15 3V3 3V3 SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 PB16 PB17 PB18 PD14 PD15 PD16 PD17 PD18 PD19 PD20 PD21 3V3 Figure 3-35. LCD and ISI Expansion 3V3_LCD 3V3 R5 R6 J2 0R DNP 0R DNP CHANGE# ZB_IRQ0 TWCK0 LCDDAT1 LCDDAT3 LCDDAT5 LCDDAT7 LCDDAT9 LCDDAT11 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 TWD0 LCDDAT15 LCDDAT13 LCDDAT14 LCDDAT12 LCDDAT0 LCDDAT2 LCDDAT4 LCDDAT6 LCDDAT8 LCDDAT10 TSM-115-01-L-DV-A 5V_INTER LCDDAT16 LCDDAT18 LCDDAT20 LCDDAT22 LCDDISP LCDVSY NC LCDDEN AD0_XP AD2_Y P AD4_LR SELCONFIG R22 0R 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 J3 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 LCDDAT17 LCDDAT19 LCDDAT21 LCDDAT23 LCDPWM LCDHSY NC LCDPCK AD1_XM AD3_Y M R19 0R LCD_DETECT R23 ONE_WIRE 0R TSM-120-01-L-DV-A 3.3.4 Configuration This section describes the PIO usage, the jumpers, the test points and the solder drops of the EK board. 3.3.4.1 JTAG/ICE Configuration Table 3-9. 3.3.4.2 JTAG/ICE Designation Default Setting Feature R50 Not Populated Disables the ICE NTRST input R51 Populated Enables the ICE RTCK return. R94 must be opened R54 Populated Enables the ICE NRST input R58 Not Populated Disables TCK RTCK local loop Boot Mode Select Configuration Table 3-10. BMS Designation Default Setting JP9 Open Feature Default to boot on embedded ROM Close to boot on external memory SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 45 3.3.4.3 Force Power ON Configuration Table 3-11. 3.3.4.4 Force Power ON Designation Default Setting JP5 Close Default Setting JP6 Close MCI1 write protect selected Open to disable protection Select DBGU or CAN Designation Default Setting JP11 Close Feature Default to select DBGU Open to select CAN0 Codec IIS Configuration Codec IIS Designation Default Setting Feature R162, R164 Not Populated IIS master mode, clock the codec by PCK0 C121, C122, Y3 Populated IIS slaver mode, clock the codec by external crystal Designation Default Setting Feature R180, R183, R184, R185, R185, R186, R174, R175, R176 Not Populated Populated to select the PHY channel on CM. Channel on EK must be cut if select the PHY on CM. R177, R178, R179, R181, R182, R218, R171, R172, R173 Populated Selection of PHY channel on EK ETH0 Configuration Table 3-15. 46 Feature Selection between DBGU and CAN Table 3-14. 3.3.4.7 Open to feature SHDN function Write Protection on MCI1 Designation Table 3-13. 3.3.4.6 Keep on-board regulator always on White Protection Configuration on MCI1 Table 3-12. 3.3.4.5 Feature ETH0 SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 3.3.4.8 Table 3-16. PIO Usage PIO A Pin Assignment and Signal Description Signal Alternate Periph A Periph B Periph C Module CM EK PA0 – TXD0 SPI1_NPCS1 – TXD0/ ZigBee USART0 shared with ZigBee PA1 – RXD0 SPI0_NPCS2 – RXD0 USART0 PA2 – RTS0 MCI1_DA1 E0_ETX0 RTS0/ MCI1 USART0 shared with MCI1 PA3 – CTS0 MCI1_DA2 E0_ETX1 CTS0/ MCI1 USART0 shared with MCI1 PA4 – SCK0 MCI1_DA3 E0_ETXER MCI1 – PA5 – TXD1 CANTX1 – CAN1 – PA6 – RXD1 CANRX1 – CAN1 – PA7 – TXD2 SPI0_NPCS1 – – ZB_IRQ0 PA8 – RXD2 SPI1_NPCS0 – – Serial Flash PA9 – – CANRX0 – DBGU+CAN0 DBGU shared with CAN0 PA10 – – CANTX0 – DBGU+CAN0 DBGU shared with CAN0 PA11 – SPI0_MISO MCI1_DA0 – MCI1 – PA12 – SPI0_MOSI MCI1_CDA – MCI1 – PA13 – SPI0_SPCK MCI1_CK – MCI1 ZB_IRQ1 PA14 – SPI0_NPCS0 – – – MCI0 PA15 – MCI0_DA0 – – – MCI0 PA16 – MCI0_CDA – – – MCI0 PA17 – MCI0_CK – – – MCI0 PA18 – MCI0_DA1 – – – MCI0 PA19 – MCI0_DA2 – – – MCI0 PA20 – MCI0_DA3 – – – Serial Flash PA21 – TIOA0 SPI1_MISO – ZigBee Serial Flash PA22 – TIOA1 SPI1_MOSI – ZigBee Serial Flash PA23 – TIOA2 SPI1_SPCK – ZigBee SSC PA24 – TCLK0 TK – – SSC PA25 – TCLK1 TF – – SSC PA26 – TCLK2 TD – – SSC PA27 – TIOB0 RD – – SSC PA28 – TIOB1 RK – – SSC PA29 – TIOB2 RF – – SSC PA30 – TWD0 SPI1_NPCS3 E0_EMDC – TWD0 PA31 – TWCK0 SPI1_NPCS2 E0_ETXEN – TWCK0 SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 47 Table 3-17. PIO B Pin Assignment and Signal Description Signal Alternate Periph A Periph B Periph C Module CM EK PB0 – E0_RX0 RTS2 – ETH0 – PB1 – E0_RX1 CTS2 – ETH0 – PB2 – E0_RXER SCK2 – ETH0 – PB3 – E0_RXDV SPI0_NPCS3 – ETH0 – PB4 – E0_TXCK TWD2 – ETH0 – PB5 – E0_MDIO TWCK2 – ETH0 – PB6 AD7 E0_MDC – – ETH0 – PB7 AD8 E0_TXEN – – ETH0 – PB8 AD9 E0_TXER – – ETH0_INTR – PB9 AD10 E0_TX0 PCK1 – ETH0 – PB10 AD11 E0_TX1 PCK0 – ETH0 – PB11 AD0xp E0_TX2 PWM0 – – TSC PB12 AD1xm E0_TX3 PWM1 – – TSC PB13 AD2yp E0_RX2 PWM2 – – TSC PB14 AD3ym E0_RX3 PWM3 – – TSC PB15 AD4lr E0_RXCK – – – TSC PB16 AD5 E0_CRS – – – VBUS_SENSE (USB) PB17 AD6 E0_COL – – – OVCUR_USB (Open drain) IRQ ADTRG – USER_LED1# ONE_WIRE PB18 48 SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 Table 3-18. PIO C Pin Assignment and Signal Description Signal Alternate Periph A Periph B Periph C Module CM EK f (LCD) EK f (ISI+IO) PC0 – LCDDAT0 ISI_D0 TWD1 – LCDDAT0 ISI_D0 PC1 – LCDDAT1 ISI_D1 TWCK1 – LCDDAT1 ISI_D1 PC2 – LCDDAT2 ISI_D2 TIOA3 – LCDDAT2 ISI_D2 PC3 – LCDDAT3 ISI_D3 TIOB3 – LCDDAT3 ISI_D3 PC4 – LCDDAT4 ISI_D4 TCLK3 – LCDDAT4 ISI_D4 PC5 – LCDDAT5 ISI_D5 TIOA4 – LCDDAT5 ISI_D5 PC6 – LCDDAT6 ISI_D6 TIOB4 – LCDDAT6 ISI_D6 PC7 – LCDDAT7 ISI_D7 TCLK4 – LCDDAT7 ISI_D7 PC8 – LCDDAT8 ISI_D8 UTXD0 – LCDDAT8 ISI_D8 PC9 – LCDDAT9 ISI_D9 URXD0 – LCDDAT9 ISI_D9 PC10 – LCDDAT10 ISI_D10 PWM0 – LCDDAT10 ISI_D10 PC11 – LCDDAT11 ISI_D11 PWM1 – LCDDAT11 ISI_D11 PC12 – LCDDAT12 ISI_PCK TIOA5 – LCDDAT12 ISI_PCK PC13 – LCDDAT13 ISI_VSYNC TIOB5 – LCDDAT13 ISI_VSYNC PC14 – LCDDAT14 ISI_HSYNC TCLK5 – LCDDAT14 ISI_HSYNC PC15 – LCDDAT15 ISI_MCK PCK0 SSC LCDDAT15 ISI_MCK/PCK0 PC16 – LCDDAT16 E1_RXER UTXD1 – LCDDAT16 E1_RXER PC17 – LCDDAT17 – URXD1 – LCDDAT17 – PC18 – LCDDAT18 E1_TX0 PWM0 – LCDDAT18 E1_TX0 PC19 – LCDDAT19 E1_TX1 PWM1 – LCDDAT19 E1_TX1 PC20 – LCDDAT20 E1_RX0 PWM2 – LCDDAT20 E1_RX0 PC21 – LCDDAT21 E1_RX1 PWM3 – LCDDAT21 E1_RX1 PC22 – LCDDAT22 TXD3 – – LCDDAT22 TXD3 PC23 – LCDDAT23 RXD3 – – LCDDAT23 RXD3 PC24 – LCDDISP RTS3 – – LCDDISP RTS3 PC25 – – CTS3 – – – CTS3 PC26 – LCDPWM SCK3 – Eth1_Intr1 LCDPWM – PC27 – LCDVSYNC E1_TXEN RTS1 – LCDVSYNC E1_TXEN PC28 – LCDHSYNC E1_CRSDV CTS1 – LCDHSYNC E1_CRSDV PC29 – LCDDEN E1_TXCK SCK1 – LCDDEN E1_TXCK PC30 – LCDPCK E1_MDC – – LCDPCK E1_MDC PC31 – FIQ E1_MDIO PCK1 – – E1_MDIO SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 49 Table 3-19. PIO D Pin Assignment and Signal Description Signal Alternate Periph A Periph B Periph C Module CM EK PD0 – NANDOE – – Nand Flash – PD1 – NANDWE – – Nand Flash – PD2 – A21/NANDALE – – Nand Flash – PD3 – A22/NANDCLE – – Nand Flash – PD4 – NCS3 – – CS NAND Flash – PD5 – NWAIT – – NAND_RD/BY – PD6 – D16 – – Nand Flash – PD7 – D17 – – Nand Flash – PD8 – D18 – – Nand Flash – PD9 – D19 – – Nand Flash – PD10 – D20 – – Nand Flash MCI0_CD (switch) PD11 – D21 – – Nand Flash MCI1_CD (switch) PD12 – D22 – – Nand Flash ZB_RSTN PD13 – D23 – – Nand Flash ZB_SLPTR PD14 – D24 – – – EN5V_HDA# PD15 – D25 A20 – – EN5V_HDB# PD16 – D26 A23 – – EN5V_HDC# PD17 – D27 A24 – – – PD18 – D28 A25 – – – PD19 – D29 NCS2 – – – PD20 – D30 NCS4 – – – PD21 – D31 NCS5 – POWR_LED – 50 SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 3.3.5 Connectors 3.3.5.1 Power Supply Figure 3-36. Power Supply Connector J4 Table 3-20. Power Supply Connector J2 Signal Description 3.3.5.2 Pin Mnemonic Signal description 1 Center +5V 2 – GND 3 – Floating SODIMM Card Edge Socket The Evaluation Kit uses a SODIMM200 standard connector for CM board interfacing. Please note that this is not an industry standard pin-out and that it is unlikely to be compatible with off-the-shelf SODIMM cards. Figure 3-37. Table 3-21. Function SODIMM200 Socket CON1 SODIMM200 CON1 Signal Descriptions Type x5 pad name Front Side SODIMM 200 x5 pad name A – B Type Function Back Side VCC 3V3 – POWER OUTPUT 1 – 2 POWER OUTPUT – VCC 3V3 VCC 3V3 – POWER OUTPUT 3 – 4 POWER OUTPUT – VCC 3V3 GND – – 5 – 6 POWER OUTPUT VBAT – USBC_DP I/O USB Data Positive 7 – 8 – SYSC JTAGSEL USBC_DM I/O USB Data Negative 9 – 10 – SYSC WKUP GND – – 11 – 12 – SYSC SHDN USBB_DM I/O USB Data Negative 13 – 14 – SYSC BMS USBB_DP I/O USB Data Positive 15 – 16 – SYSC nRST SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 51 Table 3-21. SODIMM200 CON1 Signal Descriptions (Continued) Function Type x5 pad name SODIMM 200 x5 pad name Type Function GND – – 17 – 18 – SYSC nTRST DIBP I/O – 19 – 20 – RSTJTAG TDI DIBN I/O – 21 – 22 – RSTJTAG TCK GND – – 23 – 24 – RSTJTAG TMS USBA_DM I/O USB Data Negative 25 – 26 – RSTJTAG TDO USBA_DP I/O USB Data Positive 27 – 28 – RSTJTAG RTCK GND – – 29 – 30 – – PWR_EN RFU – RFU 31 – 32 RFU – RFU RFU – RFU 33 – 34 RFU – RFU RFU – RFU 35 – 36 RFU – RFU RFU – RFU 37 – 38 RFU – RFU RFU – RFU 39 – 40 RFU – RFU KEY GND – – 41 – 42 – – GND RFU – RFU 43 – 44 RFU – RFU RFU – RFU 45 – 46 RFU – RFU RFU – RFU 47 – 48 RFU – RFU RFU – RFU 49 – 50 RFU – RFU GND – – 51 – 52 – – GND RFU – RFU 53 – 54 RFU – RFU RFU – RFU 55 – 56 RFU – RFU RFU – RFU 57 – 58 RFU – RFU RFU – RFU 59 – 60 RFU – RFU 61 – 62 VDDNF POWER DOMAIN FROM CM VDDNF PD0 GPIO D NANDOE 63 – 64 NANDWE GPIO D PD1 PD2 GPIO D A21/NANDALE 65 – 66 A22/NANDCLE GPIO D PD3 PD4 GPIO D NCS3 67 – 68 NWAIT GPIO D PD5 PD6 GPIO D D16 69 – 70 D17 GPIO D PD7 PD8 GPIO D D18 71 – 72 D19 GPIO D PD9 GND – – 73 – 74 – – GND PD10 GPIO D D20 75 – 76 D21 GPIO D PD11 PD12 GPIO D D22 77 – 78 D23 GPIO D PD13 PD14 GPIO D D24 79 – 80 D25/A20 GPIO D PD15 PD16 GPIO D D26/A23 81 – 82 D27/A24 GPIO D PD17 PD18 GPIO D D28/A25 83 – 84 D29/NCS2 GPIO D PD19 PD20 GPIO D D30/NCS4 85 – 86 D31/NCS5 GPIO D PD21 87 – 88 VDDIOP0 52 POWER DOMAIN FROM CM POWER OUTPUT POWER OUTPUT SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 VDDIOP0 Table 3-21. SODIMM200 CON1 Signal Descriptions (Continued) Function Type x5 pad name x5 pad name Type Function PA0 GPIO A TXD0/SPI1-NPCS1 89 – 90 RXD0/SPI0-NPCS2 GPIO A PA1 PA2 GPIO A MCI1_DA1/E0_ETX0 91 – 92 CTS0/ MCI1_DA2/ E0_ETX1 GPIO A PA3 PA4 GPIO A SCK0/MCI1_DA3/ E0_ETXER 93 – 94 – – GND PA11 GPIO A SPI0_MISO/ MCI1_DA0 95 – 96 SPI0_MOSI/ MCI1_CDA GPIO A PA12 PA13 GPIO A SPI0_SPCK/ MCI1_CK 97 – 98 SPI0_NPCS0 GPIO A PA14 GND – – 99 – 100 TXD2/ SPI0_NPCS1 GPIO A PA7 PA8 GPIO A RXD2/SPI1_NPCS0 101 – 102 TIOA0 /SPI1_MISO GPIO A PA21 PA22 GPIO A TIOA1/SPI1_MOS1 103 – 104 TIOA2/ SPI1_SPCK GPIO A PA23 PA31 GPIO A TWCK0/SPI1_NPCS 2/E0_ETXEN 105 – 106 TWD0/ SPI1_NPCS3/ E0_EMDC GPIO A PA30 GND – – 107 – 108 MCI0_DA0 GPIO A PA15 PA16 GPIO A MCI0_CDA 109 – 110 MCI0_CK GPIO A PA17 PA18 GPIO A MCI0_DA1 111 – 112 MCI0_DA2 GPIO A PA19 PA20 GPIO A MCI0_DA3 113 – 114 – – GND PA5 GPIO A TXD1/CANTX1 115 – 116 RXD1/CANRX1 GPIO A PA6 PA10 GPIO A DTXD/CANTX0 117 – 118 DRXD/CANRX0 GPIO A PA9 GND – – 119 – 120 TCLK0/TK GPIO A PA24 PA25 GPIO A TCLK1/TF 121 – 122 TCLK2/TD GPIO A PA26 PA27 GPIO A TIOB0/RD 123 – 124 TIOB1/RK GPIO A PA28 PA29 GPIO A TIOB2/RF 125 – 126 – – GND 127 – 128 VDDIOP1 POWER OUTPUT SODIMM 200 POWER OUTPUT VDDIOP1 PC0 GPIO C LCDDAT0/ISI_D0 129 – 130 LCDDAT1 GPIO C PC1 PC2 GPIO C LCDDAT2/ISI_D2 131 – 132 LCDDAT3 GPIO C PC3 PC4 GPIO C LCDDAT4 133 – 134 LCDDAT5 GPIO C PC5 GND – – 135 – 136 LCDDAT6 GPIO C PC6 PC7 GPIO C LCDDAT7 137 – 138 LCDDAT8 GPIO C PC8 PC9 GPIO C LCDDAT9 139 – 140 LCDDAT10 GPIO C PC10 PC11 GPIO C LCDDAT11 141 – 142 – – GND PC12 GPIO C LCDDAT12 143 – 144 LCDDAT13 GPIO C PC13 PC14 GPIO C LCDDAT14 145 – 146 LCDDAT15 GPIO C PC15 GND – – 147 – 148 LCDDAT16 GPIO C PC16 PC17 GPIO C LCDDAT17 149 – 150 LCDDAT18 GPIO C PC18 PC19 GPIO C LCDDAT19 151 – 152 LCDDAT20 GPIO C PC20 SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 53 Table 3-21. SODIMM200 CON1 Signal Descriptions (Continued) Function Type x5 pad name x5 pad name Type Function PC21 GPIO C LCDDAT21 153 – 154 – – GND PC22 GPIO C LCDDAT22 155 – 156 LCDDAT23 GPIO C PC23 PC24 GPIO C LCDDISP 157 – 158 – GPIO C PC25 PC26 GPIO C LCDPWM 159 – 160 LCDVSYNC GPIO C PC27 GND – – 161 – 162 LCDHSYNC GPIO C PC28 PC29 GPIO C LCDDEN 163 – 164 E1_MDC GPIO C PC30 PC31 GPIO C E1_MDIO 165 – 166 – – SELCONFIG 167 – 168 VDDANA POWER OUTPUT SODIMM 200 POWER OUTPUT VDDANA PB0 GPIO B E0_RX0 169 – 170 E0_RX1 GPIO B PB1 PB2 GPIO B E0_RXER 171 – 172 E0_RXDV GPIO B PB3 PB4 GPIO B E0_TXCK 173 – 174 E0_MDIO GPIO B PB5 PB6 GPIO B E0_MDC 175 – 176 E0_TXEN GPIO B PB7 PB8 GPIO B E0_TXER 177 – 178 GNDANA – – PB9 GPIO B E0_TX0 179 – 180 E0_TX1 GPIO B PB10 PB11 GPIO B E0_TX2 181 – 182 E0_TX3 GPIO B PB12 PB13 GPIO B E0_RX2 183 – 184 E0_RX3 GPIO B PB14 PB15 GPIO B E0_RXCK 185 – 186 E0_CRS GPIO B PB16 PB17 GPIO B E0_COL 187 – 188 GNDANA – – PB18 GPIO B IRQ 189 – 190 GND – – 191 – 192 – ETH LED0 ETH0_TX+ ETH – 193 – 194 – ETH LED1 ETH0_TX- ETH – 195 – 196 – ETH LED2 ETH0_RX+ ETH – 197 – 198 – ETH AVDDT ETH0_RX- ETH – 199 – 200 – – GND_ETH 54 POWER OUTPUT SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 POWR_REF 3.3.5.3 JTAG/ICE Connector Figure 3-38. Table 3-22. Pin JTAG J9 JTAG/ICE Connector J13 Signal Descriptions Mnemonic Description 1 VTref. 3.3V power This is the target reference voltage. It is used to check if the target has power, to create the logic-level reference for the input comparators, and to control the output logic levels to the target. It is normally fed from VDD on the target board and must not have a series resistor. 2 Vsupply. 3.3V power This pin is not connected in SAM-ICE. It is reserved for compatibility with other equipment. Connect to VDD or leave open in target system. signal that resets the target JTAG Reset. Output from SAM-ICE to the Reset signal on the target JTAG port. Typically connected to nTRST on the target CPU. This pin is normally pulled HIGH on the target to avoid unintentional resets when there is no connection. 4 GND Common ground 5 TDI TEST DATA INPUT - Serial data output line, sampled on the rising edge of the TCK signal. JTAG data input of target CPU. It is recommended that this pin is pulled to a defined state on the target board. Typically connected to TDI on target CPU. 6 GND Common ground 7 TMS TEST MODE SELECT JTAG mode set input of target CPU. This pin should be pulled up on the target. Typically connected to TMS on target CPU. Output signal that sequences the target's JTAG state machine, sampled on the rising edge of the TCK signal. 8 GND Common ground 9 TCK TEST CLOCK - Output timing signal, for synchronizing test logic and control register access. JTAG clock signal to target CPU. It is recommended that this pin is pulled to a defined state on the target board. Typically connected to TCK on target CPU. 10 GND Common ground 11 RTCK - Input Return test clock signal from the target. Some targets must synchronize the JTAG inputs to internal clocks. To assist in meeting this requirement, a returned and retimed TCK can be used to dynamically control the TCK rate. SAM-ICE supports adaptive clocking which waits for TCK changes to be echoed correctly before making further changes. Connect to RTCK if available, otherwise to GND. 12 GND Common ground 13 TDO JTAG TEST DATA OUTPUT - Serial data input from the target. JTAG data output from target CPU. Typically connected to TDO on target CPU. 14 GND Common ground 15 nSRST RESET Active-low reset signal. Target CPU reset signal. 16 GND Common ground 17 RFU This pin is not connected in SAM-ICE. 3 nTRST TARGET RESET - Active-low output SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 55 Table 3-22. JTAG/ICE Connector J13 Signal Descriptions (Continued) Pin Mnemonic Description 18 GND Common ground 19 RFU This pin is not connected in SAM-ICE. 20 GND Common ground 3.3.5.4 USB Type A Dual Port Figure 3-39. USB Type A Dual Port J19 Table 3-23. USB Type A Dual Port J19 Signal Descriptions Pin Mnemonic Description A1 Vbus – USB_A 5V power A2 DM – USB_A Data minus A3 DP – USB_A Data plus A4 GND Common ground B1 Vbus – USB_A 5V power B2 DM – USB_A Data minus B3 DP – USB_A Data plus B4 GND Common ground Mechanical pins 56 Shield SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 3.3.5.5 3.3.5.6 USB Micro AB Figure 3-40. USB USB Host/Device Micro AB Connector J20 Table 3-24. USB USB Host/Device Micro AB Connector J20 Signal Descriptions Pin Mnemonic Description 1 Vbus 5v power 2 DM Data minus 3 DP Data plus 4 ID On the Go Identification 5 GND Common ground DBGU Figure 3-41. DBGU Connector J11 Table 3-25. DBGU Connector J11 Signal Descriptions Pin Mnemonic Description 1, 4, 6, 9 – NO CONNECTION 2 RXD (RECEIVED DATA) RS232 serial data output signal 3 TXD (TRANSMITTED Data) RS232 serial data input signal 5 GND Common ground 7 RTS (REQUEST TO SEND) NO USED 8 CTS (CLEAR TO SEND) NO USED Mechanical pins – Shield SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 57 3.3.5.7 RS232 Connector with RTS/CTS Handshake Support Figure 3-42. Table 3-26. USART Connector J12, J13 USART Connector J12 Signal Descriptions Pin Mnemonic PIO Description 1, 4, 6, 9 – – NO CONNECTION 2 RXD (RECEIVED DATA) PA1 RS232 serial data output signal 3 TXD (TRANSMITTED Data) PA0 RS232 serial data input signal 5 GND – Common ground 7 RTS (REQUEST TO SEND) PA2 Active-positive RS232 input signal 8 CTS (CLEAR TO SEND) PA3 Active-positive RS232 output signal Mechanical pins – – Shield Table 3-27. USART Connector J13 Signal Descriptions Pin Mnemonic PIO Description 1, 4, 6, 9 – – NO CONNECTION 2 RXD (RECEIVED DATA) PC23 RS232 serial data output signal 3 TXD (TRANSMITTED Data) PC22 RS232 serial data input signal 5 GND – Common ground 7 RTS (REQUEST TO SEND) PC24 Active-positive RS232 input signal 8 CTS (CLEAR TO SEND) PC25 Active-positive RS232 output signal Mechanical pins – – Shield 58 SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 3.3.5.8 3.3.5.9 DAA RJ11 Socket (6P4C) Figure 3-43. DAA RJ11 Socket J16 Table 3-28. DAA RJ11 Socket J16 Signal Descriptions Pin Mnemonic Description 1, 2, 5, 6 – NO CONNECTION 3 RAC RING side of ordinary telephone line 4 TAC TIP side of ordinary telephone line CAN RJ12 Socket (6P6C) Figure 3-44. CAN RJ12 Socket CON2, CON3 Table 3-29. DAA RJ11 Socket J16 Signal Descriptions Pin Mnemonic Description 1 3V3 POWER PIN 2 5V POWER PIN 4 CANL CAN bus differential pair 5 CANH CAN bus differential pair 4, 6 GND Common ground SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 59 3.3.5.10 MicroSD MCI0 Figure 3-45. MicroSD Socket J6 Table 3-30. MicroSD Socket J6 Signal Descriptions 3.3.5.11 Pin Mnemonic Description 1 DAT2 Data Bit 2 2 CD/DAT3 Card Detect/Data Bit 3 3 CMD Command Line 4 VCC Supply Voltage 3.3V 5 CLK Command Line 6 VSS Common ground 7 DAT0 Data Bit 0 8 DAT1 Data Bit 1 9 SW1 No use, grounded 10 CARD DETECT CARD DETECT SD/MMC MCI1 Figure 3-46. Table 3-31. SD/MMC Socket J7 SD Socket J7 Signal Descriptions Signal SD Card MMC Card Pin Mnemonic PIO 1 MCI1_DA2 PA3 2 MCI1_DA3 PA4 3 MCI1_CDA PA12 4 VDDIOP0 5 MCI1_CK 6 GND 60 1-Bit Mode 4-Bit Mode Not Used Read Wait (RW) Data Line DAT2 or Read Wait (RW) Reserved Not Used Data Line DAT3 Command/Response Supply Voltage (3.3-volts) VDDIOP0 PA13 Clock Ground SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 Table 3-31. SD Socket J7 Signal Descriptions (Continued) Signal SD Card MMC Card 1-Bit Mode 4-Bit Mode Pin Mnemonic PIO 7 MCI1_DA0 PA11 8 MC1_DA1 PA2 9 GND 10 MCI1_CD 11 WP Write Protect Detect, connects to jumper JP6 12 GND Ground 13 GND Ground 14 GND Ground 15 GND Ground 3.3.5.12 Data Line DAT0 Not Used Interrupt (IRQ) Data Line DAT1 or Interrupt (IRQ) Ground PD14 Card Detect, configured as GPIO, Power domain VDDNF Ethernet RJ45 Socket J17, J18 Figure 3-47. Ethernet RJ45 Socket J17, J18 Table 3-32. DAA RJ11 Socket J16 Signal Descriptions Pin Mnemonic Description 1 TX+ DIFFERENTIAL OUTPUT PLUS 2 TX- DIFFERENTIAL OUTPUT MINUS 3 RX+ DIFFERENTIAL INPUT PLUS 4 Reserved – 5 Reserved DIFFERENTIAL INPUT MINUS 6 RX- – 7 Reserved – 8 Reserved – SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 61 3.3.5.13 ZigBee Socket J10 Figure 3-48. Table 3-33. ZigBee Socket J10 ZigBee Socket J10 Signal Descriptions Signal Name Function Reset /RST Port – Pin Pin 1 2 Signal Name Port – Misc. Function – Option on misc. port set by OR or solder shunts  EEprom for MAC address, cap array settings and serial number  TST: test mode activation  CLKM: RF chip clock output Interrupt Request IRQ – 3 4 – SLP_TR SLP_TR – SPI chip select /SEL – 5 6 – MOSI SPI MOSI – SPI MISO MISO – 7 8 – SCLK SPI CLK – Power Supply GND GND 9 10 VCC VCC VCC Voltage range: 1.8v to 5.5v, regulated to 3.3v 3.3.5.14 62 LCD/ISI Socket J21 Figure 3-49. LCD/ISI Socket J21 Table 3-34. LCD/ISI Socket J21 Signal Descriptions LCD ISI Pin Num Pin Num ISI LCD 3V3 3V3 1 2 GND GND VDDISI VDDISI 3 4 GND GND ZB_IRQ0 ZB_IRQ0 5 6 – ZB_IRQ1 TWCK0 TWCK0 7 8 – TWD0 GND GND 9 10 ISI_MCK LCDDAT15 GND GND 11 12 ISI_VSYNC LCDDAT13 GND GND 13 14 ISI_HSYNC LCDDAT14 GND GND 15 16 ISI_PCK LCDDAT12 GND GND 17 18 ISI_D0 LCDDAT0 SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 Table 3-34. 3.3.5.15 LCD/ISI Socket J21 Signal Descriptions (Continued) LCD ISI Pin Num Pin Num ISI LCD LCDDAT1 ISI_D1 19 20 ISI_D2 LCDDAT2 LCDDAT3 ISI_D3 21 22 ISI_D4 LCDDAT4 LCDDAT5 ISI_D5 23 24 ISI_D6 LCDDAT6 LCDDAT7 ISI_D7 25 26 ISI_D8 LCDDAT8 LCDDAT9 ISI_D9 27 28 ISI_D10 LCDDAT10 LCDDAT11 ISI_D11 29 30 GND GND LCD/TSC Socket J22 Figure 3-50. LCD/TSC Socket J22 Table 3-35. LCD/TSC Socket J22 Signal Descriptions LCD Pin Num Pin Num LCD 5V 5V_INTER 1 2 GND GND 5V 5V_INTER 3 4 GND GND LCDDAT16 – 5 6 – LCDDAT17 LCDDAT18 – 7 8 – LCDDAT19 LCDDAT20 – 9 10 – LCDDAT21 LCDDAT22 – 11 12 – LCDDAT23 GND GND 13 14 GND GND LCDDISP – 15 16 – LCDPWM LCDCSYNC – 17 18 – LCDHSYNC LCDDEN – 19 20 – LCDPCK GND GND 21 22 GND GND AD0_XP TSC 23 24 TSC AD1_XM AD2_YP TSC 25 26 TSC AD3_YM AD4_LR TSC 27 28 – ONE_WIRE GND GND 29 30 GND GND SPI1_MISO – 31 32 – SPI1_MOSI SPI1_SPCK – 33 34 – SPI1_NPCS1 EN_PWRLCD SELCONFIG 35 36 LCD_DETECT LCD_DETECT# PD16 – 37 38 – PD17 GND GND 39 40 GND GND SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 63 3.3.5.16 64 IO Expansion Port J1 Figure 3-51. IO Expansion Socket J1 Table 3-36. Expansion Socket J1 Signal Descriptions PIO Power Pin Num Pin Num Power PIO – 3V3, or 5V 1 2 3V3, or 5V – – GND 3 4 GND – PA0 – 5 6 – PA16 PA1 – 7 8 – PA17 PA2 – 9 10 – PA18 PA3 – 11 12 – PA19 PA4 – 13 14 – PA20 PA5 – 15 16 – PA21 PA6 – 17 18 – PA22 PA7 – 19 20 – PA23 PA8 – 21 22 – PA24 PA9 – 23 24 – PA25 PA10 – 25 26 – PA26 PA11 – 27 28 – PA27 PA12 – 29 30 – PA28 PA13 – 31 32 – PA29 PA14 – 33 34 – PA30 PA15 – 35 36 – PA31 – GND 37 38 GND – – 3V3 39 40 3V3 – SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 3.3.5.17 IO Expansion Port J2 Figure 3-52. IO Expansion Socket J2 Table 3-37. Expansion Socket J1 Signal Descriptions PIO Power Pin Num Pin Num Power PIO – 3V3, or 5V 1 2 3V3, or 5V – – GND 3 4 GND – PC0 – 5 6 – PC16 PC1 – 7 8 – PC17 PC2 – 9 10 – PC18 PC3 – 11 12 – PC19 PC4 – 13 14 – PC20 PC5 – 15 16 – PC21 PC6 – 17 18 – PC22 PC7 – 19 20 – PC23 PC8 – 21 22 – PC24 PC9 – 23 24 – PC25 PC10 – 25 26 – PC26 PC11 – 27 28 – PC27 PC12 – 29 30 – PC28 PC13 – 31 32 – PC29 PC14 – 33 34 – PC30 PC15 – 35 36 – PC31 – GND 37 38 GND – – 3V3 39 40 3V3 – SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 65 3.3.5.18 66 IO Expansion Port J3 Figure 3-53. IO Expansion Socket J3 Table 3-38. Expansion Socket J1 Signal Descriptions PIO Power Pin Num Pin Num Power PIO – 3V3, or 5V 1 2 3V3, or 5V – – GND 3 4 GND – PB0 – 5 6 – PB16 PB1 – 7 8 – PB17 PB2 – 9 10 – PB18 PB3 – 11 12 – – PB4 – 13 14 – – PB5 – 15 16 – – PB6 – 17 18 – – PB7 – 19 20 – – PB8 – 21 22 – PD14 PB9 – 23 24 – PD15 PB10 – 25 26 – PD16 PB11 – 27 28 – PD17 PB12 – 29 30 – PD18 PB13 – 31 32 – PD19 PB14 – 33 34 – PD20 PB15 – 35 36 – PD21 – GND 37 38 GND – – 3V3 39 40 3V3 – SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 5 PIO C PIO B&D PIO CONNECTOR PIO CONNECTOR Sheet 3 PIO A C O N N E C T O R S O D I M M PIO A,...D SmartDAA ICE USB A,B,C ANALOG Reference 3V VBAT 3V3 INPUT PIO CONNECTOR A B C D 5 Sheet 4 4 Sheet 10 RJ 45 10/100 FAST ETH0 Sheet 14 ISI HE 14 POWER SUPPLY LCD INTERFACE HE 14 5V 4 Sheet 11 RJ 45 USER INTERFACE ANALOG 3V Sheet 13 Sheet 13 10/100 FAST EHT1 Battery Sheet 4 3 AUDIO ONE WIRE EEPROM Sheet 8 IN USBB HOST & DEVICE HOST USBA OUT Sheet 12 3 HOST USBC HE10 PIO A,...D Sheet 6 ICE INTERFACE 2 RJ11 Sheet 5 CARD READER CARD READER Sheet 6 ZIGBEE INTERFACE CAN1 CAN0 Sheet 7 COM3 COM1 DBGU SmartDAA Sheet 9 2 RS232 RJ11 HE10 MMC SD SDIO SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 B A SCALE REV 1/1 MODIF. DES. DATE Derek 11-Oct-10 Derek 10-JUN-10 X.X X.X B REV. VER. 1 1 14 SHEET DATE XX-XXX-XX XX-XXX-XX This agreement is our property. Reproduction and publication without our written authorization shall expose offender to legal proceedings. BLOCK Diagram AT91SAM9x5-EK 1 A B C D Figure 3-54. MMC SD SDIO 3.3.6 Schematics EK Board Schematics 67 68 SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 A B C D 2010.07 2010.10 A B SECOND RELEASED ORIGINAL RELEASED NOTE 3.3V or 5V selection for J2 1-2 1-2 OPEN CLOSE CLOSE JP9 JP4 JP5 JP12 JP13 JP14 10 11 13 1-2 CLOSE CLOSE CLOSE USB Interface Miscellaneous 12 13 PC10 PC11 PC12 PC13 PC14 PC15 PCK0 AD0_XP AD1_XM AD2_YP AD3_YM AD4_LR E0_TX1 PB10 PB11 PB12 PB13 PB14 PB15 TD RD RK RF TWD0 TWCK0 PA26 PA27 PA28 PA29 PA31 5 PA30 3 PC9 E0_TX0 PB9 4 PC8 E0_INTR PB8 PA15 MCI0_DA0 PC7 E0_TXEN PB7 SPI1_SPCK TF PA24 PA14 ZB_IRQ1 MCI1_CK MCI1_CDA PA12 PA13 MCI1_DA0 CANTX0 DTXD PA10 PA11 CANRX0 DRXD PA9 TK PA23 ZB_IRQ0 PA7 ISI_D9 ISI_D8 ISI_D7 ISI_D6 ISI_D5 ISI_D4 ISI_D3 ISI_D2 ISI_D1 ISI_D0 R164,R162 R187 PC28 PC27 LCDDAT15 ISI_MCK PC31 LCDDAT14 ISI_HSYNC PC30 LCDDAT13 ISI_VSYNC PC29 LCDDAT12 ISI_PCK LCDDAT11 ISI_D11 PC26 PC25 PC24 PC23 PC22 PC21 PC20 PC19 PC18 PC17 PC16 PIOC USAGE LCDPCK LCDDEN LCDHSYNC LCDVSYNC LCDPWM LCDDISP LCDDAT23 LCDDAT22 LCDDAT21 LCDDAT20 LCDDAT19 LCDDAT18 LCDDAT17 LCDDAT16 PD21 PD5 PD11 PD10 PD9 PD8 PD7 2 E1_MDIO E1_MDC E1_TXCK MCI1_CD MCI0_CD PD14 PD15 PD13 EN5V_HDC# EN5V_HDB# EN5V_HDA# SCALE REV 1/1 MODIF. 1 DES. DATE Derek 11-Oct-10 Derek 10-JUN-10 X.X X.X B REV. VER. 1 2 14 SHEET DATE XX-XXX-XX XX-XXX-XX This agreement is our property. Reproduction and publication without our written authorization shall expose offender to legal proceedings. DESCRIBE B A USAGE ZB_SLPTR ZB_RSTN AT91SAM9x5-EK PD20 PD6 PD19 PD18 PD17 PD16 PIOD PD4 USAGE PD3 PD2 PD1 PD0 PIOD E1_CRSDV PD12 E1_TXEN E1_INTR CTS3 RTS3 RXD3 TXD3 E1_RX1 E1_RX0 E1_TX1 E1_TX0 E1_RXER Optional clock input to WM8371(MN10) Optional for Qtouch2 Optional clock input to TX_CLK(ETH1) Optional ETH0 extended R125 Optional clock input to TX_CLK(ETH0) Optional TCK and RTCK R58 R174,R175,R176,R180,R183,R184,R185,R186 Disconnect NTRST signal R50 R108 Optional Zigbee Optional Pull UP at EK BOARD R46, R47,R48,R49 FUNCTION R52, R53,R55,R56,R57,R82,JP10 REFERENCE LCDDAT10 ISI_D10 LCDDAT9 LCDDAT8 LCDDAT7 LCDDAT6 PC6 E0_MDC PB6 SPI1_MOSI LCDDAT5 PC5 E0_MDIO PB5 LCDDAT4 SPI1_MISO LCDDAT3 PA25 PA22 CANRX1 PA6 PA8 PA21 CANTX1 LCDDAT2 E0_TXCK PB4 PC3 USAGE PC2 E0_RXDV PB3 MCI0_DA3 PIOC 8 3 11 10 6 PAGE PC4 ONE_WIRE PB18 E0_RXER PB2 MCI1_DA3 MCI0_DA2 PA20 MCI1_DA2 CTS0 MCI0_DA1 PA19 MCI1_DA1 RTS0 VBUS_SENSE OVCUR_USB PB17 USART3 SAM9G15 SAM9G35 SAM9X35 SAM9G25 SAM9X25 DEFAULT NO POPULATE PARTS QTouch TSC LCD RS232 ISI CAN1 CAN0 Shared DBGU RMII USART0 RS232 Audio ETH1 Conexant LCDDAT1 USAGE SubD9 HSMCI1 ZigBee DDR2 / Flash Shared USART0 DBGU RMII EBI HSMCI0 Jtag USB ETH0 SAM9x5 Config (2) "DNP" means the component is not populated by default (1) Resistance Unit: "K" is "Kohm", "R" is "Ohm LCDDAT0 PIOB 2 SCHEMATICS CONVENTIONS PC1 USAGE PB16 MCI0_CK 3 PC0 PIOB VDDNF VDDIOP1 E0_RX1 PA3 PA5 TP7 4 E0_RX0 PA2 PA18 TP6 4 VDDIOP0 3V3 PB1 PA17 RXD0 PA4 TP5 4 GND FUNCTION 5V PB0 USAGE MCI0_CDA PIOA SPI1_NPCS1 PA16 TXD0 ADVREF input selection MDIX ON/OFF(ETH1) MDIX ON/OFF(ETH0) DEBUG and CAN0 selection PA1 PIOA USAGE CAN1 diff termination select Zigbee Power on/off select PA0 PIO MUXING LCD&ISI ETH1 11 14 ETH0 USART0,USART3,Debug port 7 10 Zigbee,Can Interface,JTAG 6 AUDIO HSMCI 5 SmartDAA POWER SUPPLY 4 8 SODIMM 3 9 Describe 2 DESCRIPTION Block Diagram 1 PAGE TABLE OF CONTENTS JP11 OPEN JP10 CAN0 diff termination select CLOSE CLOSE JP7 MCI1 write protect select CLOSE Force power on function Backup supply on/off JP6 JP8 TP4 4 REFERENCE TP1, TP2 TP3 4 4 PAGE TEST POINT Default boot on embedded ROM,Close boot on external memory 3.3V or 5V selection for J3 3.3V or 5V selection for J1 1-2 JP2 FUNCTION JP3 DEFAULT 4 JP1 REFERENCE 7 6 5 4 3 PAGE JUMPER and SOLDERDROP DATA REV REVISION HISTORY 5 A B C D SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 69 A B C D PA25 PA27 PA29 PC0 PC2 PC4 PC7 PC9 PC11 PC12 PC14 PC17 PC19 PC21 PC22 PC24 PC26 PC29 PC31 VDDANA PB0 PB2 PB4 PB6 PB8 PB9 PB11 PB13 PB15 PB17 PB18 {8} {8} {8} {14} {14} {14} {14} {14} {14} {14} {14} {14} {11,14} {11,14} {7,14} {7,14} {11,14} {11,14} {11} {10} {10} {10} {10} {10} {10} {14} {14} {14} {12} {13,14} PA16 PA18 PA20 PA5 PA10 {5} {5} {5} {6} {6,7} {6,7,14} {5,7} {5} {5} {5,6,14} {6,14} {8,14} PA0 PA2 PA4 PA11 PA13 {5} {12,14} {12} {12} PA8 PA22 PA31 PD10 PD12 PD14 PD16 PD18 PD20 5 {12} {12} {9} {9} {12} {12} {12} {12} 5 {10} {10} {10} {10} ONE_WIRE E0_RX0 E0_RXER E0_TXCK E0_MDC E0_INTR E0_TX0 E1_TXCK E1_MDIO E1_INTR E1_TX1 E1_RX1 TF RD RF CANTX1 CANTX0 (MCI0_CDA) (MCI0_DA1) (MCI0_DA3) (MCI1_DA1) (MCI1_DA3) (MCI1_DA0) (MCI1_CK) USBA_DM USBA_DP DIBP DIBN USBB_DM USBB_DP USBC_DP USBC_DM ETH0_TX+ ETH0_TXETH0_RX+ ETH0_RX- AD0_XP AD2_YP AD4_LR OVCUR_USB LCDDEN PB0 PB2 PB4 PB6 PB8 PB9 PB11 PB13 PB15 PB17 PB18 PC29 PC31 PC17 PC19 PC21 PC22 PC24 PC26 LCDDAT17 LCDDAT19 LCDDAT21 LCDDAT22 LCDDISP LCDPWM TXD3 RTS3 PC7 PC9 PC11 PC12 PC14 LCDDAT7 LCDDAT9 LCDDAT11 LCDDAT12 LCDDAT14 ISI_D7 ISI_D9 ISI_D11 ISI_PCK ISI_HSYNC PC0 PC2 PC4 PA25 PA27 PA29 PA16 PA18 PA20 PA5 PA10 PA8 PA22 PA31 PA0 PA2 PA4 PA11 PA13 LCDDAT0 LCDDAT2 LCDDAT4 VDDIOP1 SPI1_MOSI ZB_IRQ1 SPI1_NPCS1 PD10 PD12 PD14 PD16 PD18 PD20 PD0 PD2 PD4 PD6 PD8 ISI_D0 ISI_D2 ISI_D4 DTXD TWCK0 TXD0 RTS0 VDDIOP0 ZB_RSTN EN5V_HDA# EN5V_HDC# (MCI1_CD) VDDNF 3V3 4 41 43 45 47 49 51 53 55 57 59 61 63 65 67 69 71 73 75 77 79 81 83 85 87 89 91 93 95 97 99 101 103 105 107 109 111 113 115 117 119 121 123 125 127 129 131 133 135 137 139 141 143 145 147 149 151 153 155 157 159 161 163 165 167 169 171 173 175 177 179 181 183 185 187 189 191 193 195 197 199 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 4 KEY VCC2 VCC4 VBAT JTAGSEL WKUP SHDN BMS nRST nTRST TDI TCK TMS TDO RTCK PWR_EN RFU2 RFU4 RFU6 RFU8 RFU10 3 GND7 GND8 RFU11 RFU12 RFU13 RFU14 RFU15 RFU16 RFU17 RFU18 GND9 GND10 RFU19 RFU20 RFU21 RFU22 RFU23 RFU24 RFU25 RFU26 VDDNF1 VDDNF2 PD0/NANDOE PD1/NANDWE PD2/A21/NANDALE PD3/A22/NANDCLE PD4/NCS3 PD5/NWAIT PD6/D16 PD7/D17 PD8/D18 PD9/D19 NC GND11 PD10/D20 PD11/D21 PD12/D22 PD13/D23 PD14/D24 PD15/D25/A20 PD16/D26/A23 PD17/D27/A24 PD18/D28/A25 PD19/D29/NCS2 PD20/D30/NCS4 PD21/D31/NCS5 VDDIOP0_0 VDDIOP0_1 PA0/TXD0/SPI1_NPCS1 PA1/RXD0 PA2/RTS0/MCI1_DA1/E0_ETX0 PA3/CTS0/MCI1_DA2/E0_ETX1 PA4/SCK0/MCI1_DA3/E0_ETXER GND12 PA11/SPI0_MISO/MCI1_DA0 PA12/SPI0_MOSI/MCI1_CDA PA13/SPI0_SPCK/MCI1_CK PA14/SPI0_NPCS0 GND13 PA7/TXD2 PA8/TIOA0/SPI1_MISO PA21/RXD2/SPI1_NPCS0 PA22/TIOA1/SPI1_MOSI PA23/TIOA2/SPI1_SPCK PA31/TWCK0/SPI1_NPCS2/E0_ETXEN PA30/TWD0/SPI1_NPCS3/E0_EMDC GND14 PA15/MCI0_DA0 PA16/MCI0_CDA PA17/MCI0_CK PA18/MCI0_DA1 PA19/MCI0_DA2 PA20/MCI0_DA3 GND16 PA5/TXD1/CANTX1 PA6/RXD1/CANRX1 PA10/DTXD/CANTX0 PA9/DRXD/CANRX0 GND15 PA24/TCLK0/TK PA25/TCLK1/TF PA26/TCLK2/TD PA27/TIOB0/RD PA28/TIOB1/RK PA29/TIOB2/RF GND17 VDDIOP1_0 VDDIOP1_1 PC0/LCDDAT0/ISI_D0/TWD1 PC1/LCDDAT1/ISI_D1/TWCK1 PC2/LCDDAT2/ISI_D2/TIOA3 PC3/LCDDAT3/ISI_D3/TIOB3 PC4/LCDDAT4/ISI_D4/TCLK3 PC5/LCDDAT5/ISI_D5/TIOA4 GND18 PC6/LCDDAT6/ISI_D6/TIOB4 PC7/LCDDAT7/ISI_D7/TCLK4 PC8/LCDDAT8/ISI_D8/UTXD0 PC9/LCDDAT9/ISI_D9/URXD0 PC10/LCDDAT10/ISI_D10/PWM0 PC11/LCDDAT11/ISI_D11/PWM1 GND19 PC12/LCDDAT12/ISI_PCK/TIOA5 PC13/LCDDAT13/ISI_VSYNC/TIOB5 PC14/LCDDAT14/ISI_HSYNC/TCLK5 PC15/LCDDAT15/ISI_MCK GND20 PC16/LCDDAT16/E1_RXER/UTXD1 PC17/LCDDAT17/URXD1 PC18/LCDDAT18/E1_TX0/PWM0 PC19/LCDDAT19/E1_TX1/PWM1 PC20/LCDDAT20/E1_RX0/PWM2 PC21/LCDDAT21/E1_RX1/PWM3 GND21 PC22/LCDDAT22/TXD3 PC23/LCDDAT23/RXD3 PC24/LCDDISP/RTS3 PC25/CTS3 PC26/LCDPWM/SCK3 PC27/LCDVSYNC/E1_TXEN/RST1 GND22 PC28/LCDHSYNC/E1_CRSDV/CTS1 PC29/LCDDEN/E1_TXCK/SCK1 PC30/LCDPCK/E1_MDC PC31/FIQ/E1_MDIO/PCK1 SELCONFIG VDDANA_0 VDDANA_1 PB0/E0_RX0/RTS2 PB1/E0_RX1/CTS2 PB2/E0_RXER/SCK2 PB3/E0_RXDV/SPI0_NPCS3 PB4/E0_TXCK/TWD2 PB5/E0_MDIO/TWCK2 PB6/E0_MDC/AD7 PB7/E0_TXEN/AD8 PB8/E0_TXER/AD9 GNDANA1 PB9/E0_TX0/PCK1/AD10 PB10/E0_TX1/PCK0/AD11 PB11/E0_TX2/PWM0/AD0 PB12/E0_TX3/PWM1/AD1 PB13/E0_RX2/PWM2/AD2 PB14/E0_RX3/PWM3/AD3 PB15/E0_RXCK/AD4 PB16/E0_CRS/AD5 PB17/E0_COL/AD6 GNDANA2 PB18/IRQ/ADTRG ADVREF GND23 LED0 ETH0_TX+ LED1 ETH0_TXLED2 ETH0_RX+ AVDDT ETH0_RXGND_ETH 1612618-4 VCC1 VCC3 GND1 USBC_DP USBC_DM GND3 USBB_DM USBB_DP GND4 DIBP DIBN GND5 USBA_DM USBA_DP GND6 RFU1 RFU3 RFU5 RFU7 RFU9 CON1 3 42 44 46 48 50 52 54 56 58 60 62 64 66 68 70 72 74 76 78 80 82 84 86 88 90 92 94 96 98 100 102 104 106 108 110 112 114 116 118 120 122 124 126 128 130 132 134 136 138 140 142 144 146 148 150 152 154 156 158 160 162 164 166 168 170 172 174 176 178 180 182 184 186 188 190 192 194 196 198 200 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 DRXD TWD0 LCDDAT13 LCDDAT15 LCDDAT16 LCDDAT18 LCDDAT20 LCDDAT23 PC13 PC15 PC16 PC18 PC20 PC23 PC25 PC27 PC28 PC30 2 ETH0_LED0 {10} ETH0_LED1 {10} ETH0_LED2 {10} ETH0_AVDDT {10} ETH0_GND {10} E0_TX1 PB10 PCK0 PB12 PB14 PB16 VBUS_SENSE E1_TXEN E1_CRSDV E1_MDC E1_RXER E1_TX0 E1_RX0 TK TD RK CANRX1 CANRX0 (MCI0_DA0) (MCI0_CK) (MCI0_DA2) (MCI1_CDA) E0_RX1 E0_RXDV E0_MDIO E0_TXEN AD1_XM AD3_YM RXD3 CTS3 ISI_VSYNC ISI_MCK ISI_D1 ISI_D3 ISI_D5 ISI_D6 ISI_D8 ISI_D10 ZB_SLPTR (MCI1_DA2) SIP2 JTAG 1 JP9 PC13 PC15 PC16 PC18 PC20 PC1 PC3 PC5 PC6 PC8 PC10 PA6 PA9 PA24 PA26 PA28 PA12 PA14 PA7 PA21 PA23 PA30 PA15 PA17 PA19 PA1 PA3 PD11 PD13 PD15 PD17 PD19 PD21 PD9 PD5 {14} {14} {11,14} {11,14} {11,14} {14} {14} {14} {14} {14} {14} {6} {6,7} {8} {8} {8} {6,14} {6,14} {6,14} {8,14} {5} {5} {5} {5} {7} {5,7} {5} {12,14} {12} 3V3 3V3 {13} {8,10} {14} {14} {12} 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 JP1 1 3 JP2 JP3 1/1 PD14 PD15 PD16 PD17 PD18 PD19 PD20 PD21 PB16 PB17 PB18 5V PC16 PC17 PC18 PC19 PC20 PC21 PC22 PC23 PC24 PC25 PC26 PC27 PC28 PC29 PC30 PC31 5V PA16 PA17 PA18 PA19 PA20 PA21 PA22 PA23 PA24 PA25 PA26 PA27 PA28 PA29 PA30 PA31 5V DES. DATE Derek 11-Oct-10 Derek 10-JUN-10 J3 HD2X20-HH 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 3 J2 HD2X20-HH 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 3 J1 HD2X20-HH 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 MODIF. 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 1 3V3 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 1 3V3 SCALE REV B A PB0 PB1 PB2 PB3 PB4 PB5 PB6 PB7 PB8 PB9 PB10 PB11 PB12 PB13 PB14 PB15 PC0 PC1 PC2 PC3 PC4 PC5 PC6 PC7 PC8 PC9 PC10 PC11 PC12 PC13 PC14 PC15 PA0 PA1 PA2 PA3 PA4 PA5 PA6 PA7 PA8 PA9 PA10 PA11 PA12 PA13 PA14 PA15 1 3V3 1 This agreement is our property. Reproduction and publication without our written authorization shall expose offender to legal proceedings. SODIMM AT91SAM9x5-EK ADVREF PB10 PB12 PB14 PB16 PC23 {7,14} PC25 {7} PC27 {11,14} PC28 {11,14} PC30 {11,14} SELCONFIG {7,11,14} VDDANA PB1 {10} PB3 {10} PB5 {10} 3V3 PB7 {10} 2 JP9 for BMS Config: When Open,BMS=1: Boot on embedded ROM When Close,BMS=0: Boot on External memory PB1 PB3 PB5 PB7 LCDVSYNC LCDHSYNC LCDPCK LCDDAT1 LCDDAT3 LCDDAT5 LCDDAT6 LCDDAT8 LCDDAT10 R83 4.7k VDDIOP0 {6,10,11,13} {6} {6} {6} {6} {6} {6} {4,7} SPI1_MISO RXD0 CTS0 NRST NTRST TDI TCK TMS TDO RTCK PWR_EN VDDIOP1 SPI1_SPCK ZB_IRQ0 {4,13} WAKE UP {13} SHDN {4} VBAT VDDIOP0 EN5V_HDB# (MCI0_CD) VDDNF PC1 PC3 PC5 PC6 PC8 PC10 PA6 PA9 PA24 PA26 PA28 PA12 PA14 PA7 PA21 PA23 PA30 PA15 PA17 PA19 PA1 PA3 PD11 PD13 PD15 PD17 PD19 PD21 PD1 PD3 PD5 PD7 PD9 BMS 3V3 2 2 2 2 SHEET 3 14 B DATE XX-XXX-XX XX-XXX-XX REV. VER. X.X X.X 3V3 3V3 3V3 A B C D Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] A B C {3} 100n C57 SHDN SIP2 FORCE POWER ON JP5 5 2 R7 10k 3 4 Z6 Bumpon Z8 Bumpon 5V R8 10k Z7 Bumpon Z9 Bumpon C6 10u 3 1 Z17 4 Bumpon CB PGOOD EN VIN VDD MN3 RT9018A PSG CG1 CG2 CG3 B MN2 BNX002-01 C7 1u 1 2 3 4 R1 100k 3V3 4 C22 1u Place C22 near MN3.pin2 POWER_EN 2 ADHESIVE FEET 15p 1 C10 5 5V {3,7} C3 100n MN1 ZEN056V230A16LS 3 5V_INPUT 1 PWR_EN R4 100k C120 1u Q1 6 Si1563EDH PWR_EN# 2 R25 10k 3V3 Q6 IRLML2402 3 1 1 3 2 DC POWER JACK 5V/2A Input J4 5 EP 9 D 1 2 GND ADJ VOUT NC 4 5 6 2 8 7 6 5 C2 33u C1 100n 3 C8 1u 47k R2 R5 15k 10n C5 C9 10u VOUT = 0.8V x (Rtop + Rbottom)/Rbottom + 5V 3 J5 2 D1 3 1 2 X.X X.X DES. DATE 1 4 14 B DATE SHEET REV. VER. A B C D {3,13} XX-XXX-XX XX-XXX-XX TP7 Derek 11-Oct-10 Derek 10-JUN-10 TP6 TP5 TP4 TP3 VDDNF {14} VBAT VDDIOP1 1 This agreement is our property. Reproduction and publication without our written authorization shall expose offender to legal proceedings. POWER SUPPLY 3V3 5V 2 VDDISI SIP2 JP4 VDDIOP0 1/1 MODIF. SCALE REV B A TP2 TP1 VDDIOP1 L17 220ohm at 100MHz 1 2 VDDIOP0 L16 220ohm at 100MHz 1 2 VDDANA L2 220ohm at 100MHz 1 2 C4 100n 3V3 L1 220ohm at 100MHz 1 2 BAT54CLT1G AT91SAM9x5-EK D2 Red 470R R3 3V3 1 2 1 2 70 SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 71 A B C D PA16 PA20 PA19 {3} {3} {3} PA2 PA11 {3} {3} {3,7} PA12 PA4 PA3 {3,6,14} PA13 {3,7} {3} PD14 PA17 {3} {3} PA18 PA15 PD15 {3} {3} {3} 5 5 RR2 1 2 3 4 RR1 1 2 3 4 27R 8 7 6 5 27R 8 7 6 5 4 68k 68k 68k 68k R10 R11 R12 R13 SIP2 JP6 2 1 2 3 4 8 RR5 7 27R 6 5 RR4 27R 1 8 2 7 3 6 4 5 68k 68k 68k 68k R15 R16 R17 R18 4 RR4,RR5 near SODIMM place (MCI1_CDA) (MCI1_DA3) (MCI1_DA2) (MCI1_CK) (MCI1_DA1) (MCI1_DA0) (MCI1_WP) (MCI1_CD) 1 RR1,RR2 near SODIMM place (MCI0_CDA) (MCI0_DA3) (MCI0_DA2) (MCI0_CK) (MCI0_DA1) (MCI0_DA0) (MCI0_CD) R9 10k VDDNF VDDIOP0 R14 10k 3 VDDNF C11 100n VDDIOP0 8 7 6 5 3 3V3 1 2 3 4 C12 100n RR3 10k 9 J6 10 8 SW2 7 6 5 4 3 2 1 SW1 8 7 6 5 4 3 2 1 9 CD WP GND GND SH SH 10 11 12 13 14 15 1/1 MODIF. SCALE REV B A DES. DATE 2 1 SHEET 5 14 B DATE XX-XXX-XX XX-XXX-XX REV. VER. Derek 11-Oct-10 X.X Derek 10-JUN-10 X.X This agreement is our property. Reproduction and publication without our written authorization shall expose offender to legal proceedings. HSMCI AT91SAM9x5-EK 7SDCN-B0-0101-F DAT1 DAT0 VSS CLK VDD VSS CMD DAT3 DAT2 J7 11 12 13 14 SD/MMCPlus CARD INTERFACE - MCI1 PJS008-2110-0 Micro SD 1 SD/MMC CARD INTERFACE - MCI0 2 A B C D 72 SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 A B C D 5 5 PA9 {3,7} PA5 PA6 {3} {3} CANRX0 CANTX0 3 2 1 Y 2 4 6 8 10 12 14 16 18 20 CANTX1 CANRX1 VDDIOP0 4 R35 1 3 5 7 9 11 13 15 17 19 DNP 100k R47 R52 R56 R55 R82 1 3 5 7 9 DNP 100k R49 0R 0R 0R 0R 0R DNP 100k R48 DNP DNP DNP DNP 0R 0R R33 R37 10k 0R 10k R32 10k VDDIOP0 R20 R54 DNP 100k R46 VDDIOP0 PD16 ZB_IRQ1 SPI1_NPCS1 SPI1_MISO VDDIOP0 BR20-H J9 VDDIOP0 ICE INTERFACE {12} ZB_RSTN {3,5,14} PA13 {3,7,14} PA0 {3,14} PA21 5 4 SN74LVC1G126DBV GND A OE VCC MN19 ZIGBEE INTERFACE PA10 SEL_CAN {3,7} {7} R21 (only for SAM9X35/SAM9X25) CAN INTERFACE 4 GND VCC CANH CANL 2 3 7 6 GND VCC CANH CANL 2 3 7 6 R58 0R DNP R51 R50 DNP HD2X05 2 4 6 8 10 0R 0R C26 2.2n 0R 0R 3 2 C21 10u 120R R34 120R R19 NTRST TDI TMS TCK RTCK TDO NRST 2 1 JP10 C27 DNP DNP 2.2u {3} {3} {3} {3} {3} {3} {3,10,11,13} 3V3 ZB_IRQ0 PD17 SPI1_MOSI SPI1_SPCK C24 10u VDDIOP0 SIP2 JP8 100n C23 1 2 VDDIOP0 SIP2 JP7 C20 100n 1 NTRST TDI TMS TCK RTCK TDO NRST DNP DNP C25 15p R53 R57 SN65HVD234DR R EN D RS MN6 SN65HVD234DR R EN D RS MN5 J10 4 5 1 8 4 5 1 8 3 PA7 {3,14} ZB_SLPTR {12} PA22 {3,14} PA23 {3,14} 3V3 5V 3V3 5V MJM0606GE06-H 1 2 3 4 5 6 2 MJM0606GE06-H CON3 1 2 3 4 5 6 CON2 2 CAN1 CAN0 B A 1/1 MODIF. SCALE REV DES. DATE Derek 11-Oct-10 Derek 10-JUN-10 X.X X.X B REV. VER. 1 This agreement is our property. Reproduction and publication without our written authorization shall expose offender to legal proceedings. CAN & ICE & ZIGBEE AT91SAM9x5-EK 1 6 14 SHEET DATE XX-XXX-XX XX-XXX-XX A B C D SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 73 A B C 5 PA3 PA1 {3,5} {3} 0R 0R 0R 0R R27 R28 R30 R31 RTS0 TXD0 CTS0 RXD0 R23 47k R22 47k VDDIOP0 PC25 PC23 DEBUG PORT {3} {3,14} {3,11,14} SELCONFIG {3,14} PC24 {3,14} PC22 {6} SEL_CAN {3,6} PA9 PA10 4 0R 0R R69 R70 CTS3 RXD3 {3,6} 0R 0R R65 R66 RTS3 TXD3 47k VDDIOP0 DRXD R73 R71 C3- C3+ C2- C2+ C1- 10 0R JP11 SIP2 C1+ C2- SD 3 ADM3222ARW R2 V- V+ GND VCC R1 T2 T1 MN8 1 EN 13 0R 11 12 6 C3- C3+ C2- C2+ C1- C1+ 15 14 13 18 17 16 22 24 4 2 R1IN R2IN R3IN 18 9 14 8 15 7 3 16 17 ADM3312EARU R1OUT R2OUT R3OUT T1IN T2IN T3IN EN SD V- V+ GND 6 20 T1OUT T2OUT T3OUT R1IN R2IN R3IN T1OUT T2OUT T3OUT VCC MN9 4 5 C1C2+ 2 10 11 12 7 8 9 5 19 1 C36 100n 100k 3 23 3 C1+ ADM3312EARU R1OUT R2OUT R3OUT T1IN T2IN T3IN EN SD V- V+ 21 10 11 12 7 8 9 5 19 21 1 GND VCC MN4 100n C30 100n C37 3 23 100n 100n 4.7u C35 C29 C28 R67 100k DTXD R60 VDDIOP0 47k R64 100k 47k 47k R63 100n VDDIOP1 C18 100n 100n 4.7u C15 C14 C13 VDDIOP0 R59 R62 47k R24 R61 VDDIOP1 (only for SAM9G25/SAM9X25) USART3 PA2 PA0 {3,5} {3,6,14} USART0 4 R72 C38 C33 15 14 13 18 17 16 22 24 4 2 20 6 R29 C19 C17 C16 100n 100n C31 100n R68 C39 C34 C32 CTSC0 RXDC0 RTSC0 TXDC0 CTSC3 RXDC3 RTSC3 TXDC3 PWR_EN {3,4} 0R VDDIOP0 0R 100n 100n 100n 0R 100n 100n 100n 1 6 2 7 3 8 4 9 5 J11 J8 2 1 6 2 7 3 8 4 9 5 J12 L5 220ohm at 100MHz 1 2 EARTH_RS232 10 EARTH_RS232 1 6 2 7 3 8 4 9 5 11 2 EARTH_RS232 10 D 5 2 1 11 11 10 B A 1/1 MODIF. SCALE REV DES. DATE Derek 11-Oct-10 Derek 10-JUN-10 X.X X.X B REV. VER. 1 This agreement is our property. Reproduction and publication without our written authorization shall expose offender to legal proceedings. US RT USA T & DEBUG AT91SAM9x5-EK 1 7 14 SHEET DATE XX-XXX-XX XX-XXX-XX A B C D Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] A B C D 5 5 2 1 PB10 3 2 C61 470p 1 AUDIO_GND 4 STEREO_3.5mm J15 5 HEADPHONE C42 4 3 470p STEREO_3.5mm J13 AUDIO_GND 5 LINE_IN {3,10} R164 L7 220ohm at 100MHz 1 2 4 AUDIO_GND 5.6K R91 47k C60 C59 0R DNP 470p C44 C121 22p 220uF/10V 220uF/10V AUDIO_GND AUDIO_GND 470p C41 AUDIO_GND R90 47k AUDIO_GND 5.6K R81 R162 R164 near SODIMM R162 near CODEC R80 R78 5.6K L6 220ohm at 100MHz 1 2 C62 470p AUDIO_GND C43 470p L4 220ohm at 100MHz 1 2 22R DNP L3 R74 220ohm at 100MHz 5.6K 1 2 PCK0 4 3 LHPOUT 9 VDDIOP0 C115 10u OSC 0R 2 100n 0R 33R 28 AUDIO_GND C117 100n VCC_DAC 2 R88 R89 0R 0R R77 4.7k 100n 10u 10u 100n 10u RK TK TD TF RD RF PA28 PA24 PA26 PA25 PA27 PA29 AUDIO_GND AUDIO_GND R79 4.7k VDDIOP0 B A 1/1 DES. DATE Derek 11-Oct-10 Derek 10-JUN-10 {3,14} {3,14} MODIF. SCALE REV {3} {3} {3} {3} {3} {3} PA30 PA31 1 X.X X.X SHEET 1 8 14 B DATE XX-XXX-XX XX-XXX-XX REV. VER. This agreement is our property. Reproduction and publication without our written authorization shall expose offender to legal proceedings. AUDIO AT91SAM9x5-EK 100n 10u 100n DGND C56 C53 10u C51 C50 C47 C48 C46 C45 C40 IIS of Audio Interface in Slave Mode R86 R87 C54 VCC_DAC VDDIOP0 TWI_addr TWD0 TWCK0 3 4 5 6 7 16 8 14 27 1 21 22 23 24 R76 10k CSB = 1: addr=0011011 BCLK DACDAT DACLRC ADCDAT ADCLRC VMID HPVDD AVDD DCVDD DBVDD MODE CSB SDIN SCLK R75 10k MODE = 0: 2-wire MPU mode for 9x5 TWI interface WM8731SEDS L18 220ohm at 100MHz 1 2 11 HPGND C116 100n R165 AUDIO_GND 15 AGND RHPOUT MICBIAS MICIN 10 17 100n 18 RLINEIN C55 LLINEIN 1u 19 1u 20 ROUT 13 XTO 26 LOUT XTI/MCLK 25 12 CLKOUT MN10 Y3 12.288MHz 2 C52 3 C122 22p C49 1 3 2 4 74 + + A B C D SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 75 DIBP {3} A B DIBN {3} C D 0R R167 150pF C71 0R R166 5 0R can be replaced by bead to improve EMI 150pF C72 4 1 LAN0066-50 3 TX1 2 C70 47pF 4 DAA_GND C73 100n DVDD DAA_GND C66 100n DAA_GND C65 100n DVDD DIBP DIBN AVDD PWR TEST MN11 DAA_GND C74 100n 1 14 16 2 15 12 13 7 8 9 10 6 11 5 R93 6.81M R99 3 1 DAA_GND R102 110R MMBAT42 Q3 100R 1 DAA_GND 6.81M 0805 0805 DAA_GND 100V C68 47n 100n 237K R94 C67 CX20548-11Z GPIO TXF TXO EIF EIO RXI EIC TAC RAC 4 R92 D3 MMBD3004S-7-F 2 R100 3.01R 1% 1 MMBAT42 DAA_GND Q2 C69 10n D5 MMBD3004S-7-F 1 2 1 3 3 3 3 2 3 2 4 3 2 2 R103 9R1 1% 1206 Q4 MMBAT42 1 2 R101 3.01R 1% 1 2 L9 220ohm at 100MHz 1 L8 220ohm at 100MHz 2 1 2 1 2 5 VC 3 EP 17 3 2 MMBAT42 Q5 470p C64 470p C63 R96 280R 1% 1206 R97 280R 1% 1206 1 2 3 4 5 6 B A 1/1 MODIF. SCALE REV DES. DATE 1 9 14 B DATE SHEET REV. VER. Derek 11-Oct-10 X.X XX-XXX-XX Derek 10-JUN-10 X.X XX-XXX-XX R98 280R 1% 1206 This agreement is our property. Reproduction and publication without our written authorization shall expose offender to legal proceedings. SmartDAA AT91SAM9x5-EK RJ11 MJM0606GE06-H J16 R94,C68 should be placed near Pin6(RXI), and should be no vias on the RXI Net. R95 280R 1% 1206 TB3100M-13-F D4 1 A B C D Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 DIBP {3} SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] A B DIBN {3} C D 5 0R R167 150pF C71 0R R166 0R can be replaced by bead to improve EMI 150pF C72 4 1 LAN0066-50 3 TX1 2 C70 47pF 4 DAA_GND C73 100n DVDD DAA_GND C66 100n DAA_GND C65 100n DVDD DIBP DIBN AVDD PWR TEST MN11 DAA_GND C74 100n 1 14 16 2 15 12 13 7 8 9 10 6 11 5 R93 6.81M R99 3 1 DAA_GND R102 110R MMBAT42 Q3 100R 1 DAA_GND 6.81M 0805 0805 DAA_GND 100V C68 47n 100n 237K R94 C67 CX20548-11Z GPIO TXF TXO EIF EIO RXI EIC TAC RAC 4 R92 D3 MMBD3004S-7-F 2 R100 3.01R 1% 1 MMBAT42 DAA_GND Q2 C69 10n D5 MMBD3004S-7-F 1 2 1 3 3 3 3 2 3 2 4 3 2 2 R103 9R1 1% 1206 Q4 MMBAT42 1 2 R101 3.01R 1% 1 2 L9 220ohm at 100MHz 1 L8 220ohm at 100MHz 2 1 2 1 2 5 VC 3 EP 17 3 2 76 MMBAT42 Q5 470p C64 470p C63 R96 280R 1% 1206 R97 280R 1% 1206 1 2 3 4 5 6 B A 1/1 MODIF. SCALE REV DES. DATE 1 9 14 B DATE SHEET REV. VER. Derek 11-Oct-10 X.X XX-XXX-XX Derek 10-JUN-10 X.X XX-XXX-XX R98 280R 1% 1206 This agreement is our property. Reproduction and publication without our written authorization shall expose offender to legal proceedings. SmartDAA AT91SAM9x5-EK RJ11 MJM0606GE06-H J16 R94,C68 should be placed near Pin6(RXI), and should be no vias on the RXI Net. R95 280R 1% 1206 TB3100M-13-F D4 1 A B C D SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 77 A B C PB1 PB0 PB3 PB2 PB6 PB5 PB8 {3} {3} {3} {3} {3} {3} {3} PB10 PB9 PB7 {3,8} {3} {3} 8 R219 R220 R221 E0_MDC E0_MDIO E0_INTR 22R 22R 22R 8 7 6 5 8 7 6 5 22R {3,6,11,13} NRST 1 2 3 4 22R RR17 1 2 3 4 22R RR18 R218 E0_RX1 E0_RX0 E0_RXDV E0_RXER E0_TX1 E0_TX0 E0_TXEN E0_TXCK 7 RR8 10k JP12 VDDANA RR7 10k 0R RR6 10k VDDANA R105 3 4 8 7 6 5 1 2 3 4 PB4 OUT VDD 8 7 6 5 1 2 3 4 {3} VSS 50MHz OE 10k 8 7 6 5 1 2 3 4 2 1 Y1 R104 2 1 7 EARTH_ETH0 6 40 10 15 33 44 23 30 41 L19 220ohm at 100MHz 1 2 0R 100n 100n R117 39 24 25 32 36 35 16 38 34 37 26 27 28 29 VDDANA C85 1.5k 100n C86 42 17 18 19 20 21 0R DNP 22 0R C84 R112 R108 R106 C75 100n VDDANA 6 C87 10u 10V VDDANA RESET BGRESG AGND AGND AGND AVDDT AVDDR AVDDR RX- RX+ TX- TX+ XT1 0R 5 ETH0_GND N.C BGRES LEDMODE LED0/OP0 LED1/OP1 LED2/OP2 CABLESTS/LINKSTS DM9161AEP R119 PWRDWN DGND DGND DGND DVDD DVDD DVDD DISMDIX MDC MDIO MDINTR COL/RMII CRS/PHYAD4 TX_ER/TXD4 RX_ER/RXD4/RPTR RX_CLK/10BTSER RX_DV/TESTMODE RXD3/PHYAD3 RXD2/PHYAD2 RXD1/PHYAD1 RXD0/PHYAD0 TXD3 TXD2 TXD1 TXD0 TX_EN TX_CLK/ISOLATE REF_CLK/XT2 MN12 5 C79 2 100n 100n 45 48 31 11 12 13 14 47 5 6 46 ETH0_GND {3} FULL DUPLEX R114 6.8k R113 0R E0_AVDDT 9 C82 100n C77 1 4 3 8 7 43 4 R171 R172 R173 RR9 10k 0R 0R 0R 2 D7 ETH0_GND VDDANA 2 C81 10u 10V 2200R L10 R177 ETH0_GND C80 10u 10V 1 E0_AVDDT 4 1 0R DNP 0R DNP 0R DNP R168 470R VDDANA R111 49.9R R109 49.9R C76 100n C83 100n 2 1 ETH0_LED2 {3} ETH0_LED1 {3} ETH0_LED0 {3} EARTH_ETH0 0R R182 C78 100n 0R 3 0R 0R R181 R179 R178 11 10 5 J17 1nF DNP DNP DNP DNP DNP 75 75 ETH0_AVDDT {3} ETH0_TX+ {3} ETH0_TX- {3} ETH0_RX+ {3} ETH0_RX- {3} 6 RX- 470R 470R 8 7 5 4 3 RX+ 1/1 MODIF. SCALE REV B A R116 R115 75 75 2 TX- VDDANA DES. DATE Derek 11-Oct-10 Derek 10-JUN-10 EARTH_ETH0 J0026D21B TX+ 1 2 1 This agreement is our property. Reproduction and publication without our written authorization shall expose offender to legal proceedings. ETH0 AT91SAM9x5-EK Right LED Left LED 8 RD- 6 CT 7 RD+ 2 TD- 3 CT 1 TD+ 4 0R 0R 0R 0R 0R SHEET 10 14 B DATE XX-XXX-XX XX-XXX-XX REV. VER. X.X X.X Optional PHY Embedded on CM board RJ45 ETHERNET CONNECTOR R180 R183 R184 R185 R186 Place close to J17 (Only For SAM9G35/SAM9X35/SAM9G25/SAM9X25) Optional PHY Embedded on CM board R174 R175 R176 Red R110 49.9R 0R R107 49.9R 3 ETH0 16 9 D 8 8 7 6 5 1 2 3 4 15 12 A B C D Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 PC30 PC31 PC26 {3,14} {3} {3,14} SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] A B PC21 PC20 PC28 PC16 {3,7,14} SELCONFIG PC29 PC19 PC18 PC27 C {3,14} {3,14} {3,14} {3,14} {3,14} {3,14} {3,14} {3,14} 1 2 3 4 1 2 3 4 E1_TXCK 5 22R RR12 22R RR10 8 7 6 5 8 7 6 5 E1_INTR E1_RXER E1_CRSDV E1_RX0 E1_RX1 SELCONFIG 8 7 6 5 1 2 3 4 5 6 7 8 9 10 74AC244SC GND OE1 I0 O4 I1 O5 I2 O6 I3 O7 MN17 VCC OE2 O0 I4 O1 I5 O2 I6 O3 I7 E1_INTR SELCONFIG E1_TXCK E1_MDC E1_MDIO E1_INTR 20 19 18 17 16 15 14 13 12 11 VDDIOP1 E1_TXCK E1_TX1 E1_TX0 E1_TXEN C114 100n VDDIOP1 E1_RXER SELCONFIG RR14 10k 4 {3,6,10,13} NRST RR13 10k RR15 10k 0R JP13 VDDIOP1 R133 0R R120 47k R134 100n 100n C98 C99 100n C97 1.5k 3 BGRESG AGND AGND AGND AVDDT AVDDR AVDDR RX- RX+ TX- TX+ XT1 C100 10u 10V R136 VDDIOP1 N.C BGRES LEDMODE LED0/OP0 LED1/OP1 LED2/OP2 CABLESTS/LINKSTS DM9161AEP L20 220ohm at 100MHz 1 2 RESET PWRDWN DGND DGND DGND DVDD DVDD DVDD DISMDIX MDC MDIO MDINTR COL/RMII CRS/PHYAD4 TX_ER/TXD4 RX_ER/RXD4/RPTR RX_CLK/10BTSER RX_DV/TESTMODE RXD3/PHYAD3 RXD2/PHYAD2 RXD1/PHYAD1 RXD0/PHYAD0 TXD3 TXD2 TXD1 TXD0 TX_EN TX_CLK/ISOLATE C88 100n VDDIOP1 REF_CLK/XT2 MN13 3 4 3 EARTH_ETH1 40 10 15 33 44 23 30 41 VDDIOP1 39 24 25 32 36 35 16 38 34 37 26 27 28 29 R125 42 OUT 17 18 19 20 21 0R DNP 22 VSS VDD 10k 0R 2 50MHz Y2 1 OE R122 VDDIOP1 R128 E1_CRSDV E1_RX1 E1_RX0 R121 8 7 6 5 1 2 3 4 22R RR11 8 7 6 5 1 2 3 4 1 2 3 4 8 7 6 5 1 2 3 4 D 2 1 4 C92 2 100n 100n 0R 45 48 31 11 12 13 14 47 5 6 46 GND_ETH1 R130 6.8k R129 0R E1_AVDDT 9 C95 100n C90 1 4 3 8 7 43 2200R L11 C93 10u 10V 1 2 2 2 R169 11 1/1 MODIF. SCALE REV B A 470R VDDIOP1 Right LED Left LED 75 R132 R131 75 75 DES. DATE Derek 11-Oct-10 Derek 10-JUN-10 75 2 3 6 TX- RX+ RX- SHEET 11 14 1 B DATE XX-XXX-XX XX-XXX-XX VDDIOP1 REV. VER. X.X X.X 470R 470R 8 7 5 4 1 TX+ EARTH_ETH1 This agreement is our property. Reproduction and publication without our written authorization shall expose offender to legal proceedings. ETH1 5 4 8 RD- 6 CT 7 RD+ 2 TD- 3 CT 1nF J18 J0026D21B RJ45 ETHERNET CONNECTOR 1 TD+ 10 AT91SAM9x5-EK 1 Red EARTH_ETH1 FULL DUPLEX2 D8 RR16 10k C91 100n GND_ETH1 GND_ETH1 R127 49.9R VDDIOP1GND_ETH1 C96 100n E1_AVDDT R126 49.9R C94 10u 10V R124 49.9R E1_AVDDT R123 49.9R C89 100n (Only For SAM9X25) ETH1 1 16 9 5 8 7 6 5 1 2 3 4 15 12 78 A B C D SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 79 A B C D B A 1 2 3 4 EARTH_USB B1 B2 B3 B4 5 6 EARTH_USB EARTH_USB 7 {14} VBUS DM DP ID GND 1 2 3 4 5 G3515-09010101-00 J20 5V_INTER USB A HOST/DEVICE INTERFACE EARTH_USB L21 220ohm at 100MHz 1 2 A1 A2 A3 A4 Dual USB A J19 USB HOST B&C INTERFACE 5 SHD C109 100n C107 100n C105 100n C102 100n 2 L13 2 1 L14 2 220ohm at 100MHz 1 1 2 82k 4 5V R139 47k (VBUS_SENSE) + C110 220ohm at 100MHz 33u C111 15p R138 L12 + C106 220ohm at 100MHz C108 33u 100n L15 + C104 33u + C103 33u 1 220ohm at 100MHz 4 ENA ENB FLGB 3V3 {3} R140 47k PB16 ENB FLGB FLGA ENA 4 3 2 1 1 4 3 2 3 OVCUR_USB PB17 R137 47k {3} USBA_DM {3} USBA_DP {3} EN5V_HDA# 3V3 USBC_DM {3} USBC_DP {3} EN5V_HDC# PB17 USBB_DP {3} USBB_DM {3} EN5V_HDB# OVCUR_USB ACTIVE LOW AIC1526-0GS OUTB GNG IN OUTA MN14 FLGA 5 6 7 8 AIC1526-0GS OUTB GNG IN OUTA MN15 (IDUSBA) 5 6 7 8 C101 100n 5V 3 LCD_DETECT# {14} {3,14} {3,14} {3} {3} {3} 2 PD17 PD16 PD20 PD19 PD18 C118 100n 2 VDDNF 24 23 22 21 20 19 18 17 16 15 14 13 1/1 DES. DATE Derek 11-Oct-10 Derek 10-JUN-10 SHEET 12 14 1 B DATE XX-XXX-XX XX-XXX-XX REV. VER. X.X X.X ZB_SLPTR {6} ZB_RSTN {6} This agreement is our property. Reproduction and publication without our written authorization shall expose offender to legal proceedings. USB INTERFACE C119 100n EN5V_HDC# EN5V_HDB# EN5V_HDA# 3V3 MODIF. SCALE REV B A SN74AVC8T245PWR VCCA VCCB1 DIR VCCB2 A1 OE A2 B1 A3 B2 A4 B3 A5 B4 A6 B5 A7 B6 A8 B7 GND1 B8 GND2 GND3 MN18 AT91SAM9x5-EK 1 2 3 4 5 6 7 8 9 10 11 12 1 A B C D Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] A B C D VBAT BP2 BP1 {3,14} PB18 5 ONE_WIRE ONE WIRE EEPROM WAKE UP NRST {3,4} PUSH BUTTON 5 R145 R141 100k 4 3V3 4 0R 1 2 R144 1.5k VDDANA R142 1.5k NC1 NC2 NC3 NC4 DS2431P GND I/O MN16 {3,6,10,11} 3 4 5 6 3 WAKE UP {3} NRST 3 {3} C112 100n 3V 1/1 MODIF. SCALE REV B A C113 2.2u JP14 DES. DATE 2 1 SHEET 13 14 B DATE XX-XXX-XX XX-XXX-XX REV. VER. X.X X.X D6 LM4040BIM3-3.0+T R143 1.5k Derek 11-Oct-10 Derek 10-JUN-10 5V 1 This agreement is our property. Reproduction and publication without our written authorization shall expose offender to legal proceedings. Miscellaneous AT91SAM9x5-EK ADVREF 2 VDDANA ANALOG Reference 3V 2 1 3 80 A B C D SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 81 A B C D 4 PC24 PC27 PC29 PB11 PB13 PB15 {3,7} {3,11} {3,11} {3} {3} {3} 5 {3,6} PA21 {3,6} PA23 {3,7,11} SELCONFIG {3,12} PD16 PC16 PC18 PC20 PC22 PC1 PC3 PC5 PC7 PC9 PC11 {3,11} {3,11} {3,11} {3,7} {3} {3} {3} {3} {3} {3} {4} VDDISI {3,6} PA7 {3,8} PA31 DNP 0R 0R 0R 0R R156 R158 R160 R163 R187 0R 0R 0R 22R 22R 22R R208 R209 R210 R150 R152 R154 22R 22R 22R 22R PB18 0R 0R 0R 22R 22R 22R 22R 22R 22R R204 R205 R206 R207 {12} 5V_INTER R188 R189 R190 R191 R192 R193 R147 R146 4 LCDHSYNC SPI1_MISO SPI1_SPCK EN_PWRLCD AD0_XP AD2_YP AD4_LR LCDDISP LCDVSYNC LCDDEN LCDDAT16 LCDDAT18 LCDDAT20 LCDDAT22 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 J21 3 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 3 ESW-120-33-L-D J22 ESW-115-33-L-D 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 LCDDAT1 LCDDAT3 LCDDAT5 LCDDAT7 LCDDAT9 LCDDAT11 ZB_IRQ0 TWCK0 3V3 5V_INTER ISI_D1 ISI_D3 ISI_D5 ISI_D7 ISI_D9 ISI_D11 ISI only For SAM9G25 LCD only for SAM9G15/SAM9G35/SAM9X35 5 ISI_MCK ISI_VSYNC ISI_HSYNC ISI_PCK ISI_D0 ISI_D2 ISI_D4 ISI_D6 ISI_D8 ISI_D10 R157 R159 R161 R170 R151 R153 R155 R215 R216 R217 R211 R212 R213 R214 1/1 MODIF. SCALE REV B A 0R 0R 0R 0R 0R 0R 0R 22R 22R 22R 22R 22R 22R 22R R148 R149 R194 R195 R196 R197 R198 R199 R200 R201 R202 R203 {3} {3} {3,13} {3,11} {3,11} {3,11} {3} {3,11} {3,11} {3,7} PA13 PA30 PC15 PC13 PC14 PC12 PC0 PC2 PC4 PC6 PC8 PC10 DES. DATE 2 1 SHEET 14 14 B DATE XX-XXX-XX XX-XXX-XX A B C {3,5,6} D {3,8} {3} {3} {3} {3} {3} {3} {3} {3} {3} {3} REV. VER. X.X X.X PA22 {3,6} PA0 {3,6,7} LCD_DETECT# {12} PD17 {3,12} PB12 PB14 PB18 PC26 PC28 PC30 PC17 PC19 PC21 PC23 Derek 11-Oct-10 Derek 10-JUN-10 0R 0R 22R 22R 22R 22R 22R 22R 22R 22R 22R 22R 1 This agreement is our property. Reproduction and publication without our written authorization shall expose offender to legal proceedings. LCD & ISI AT91SAM9x5-EK SPI1_MOSI SPI1_NPCS1 AD1_XM AD3_YM ONE_WIRE LCDPCK LCDHSYNC LCDPWM LCDDAT17 LCDDAT19 LCDDAT21 LCDDAT23 LCD/TSC ZB_IRQ1 TWD0 LCDDAT15 LCDDAT13 LCDDAT14 LCDDAT12 LCDDAT0 LCDDAT2 LCDDAT4 LCDDAT6 LCDDAT8 LCDDAT10 LCD & ISI 2 3.4 Optional Display Module (DM) Board Hardware 3.4.1 DM Board Overview The optional DM board carries a 5.0" TFT LCD module with touch screen. The DM board also carries four QTouch pads. Figure 3-55. 3.4.2 DM Board Layout Equipment List The list of the DM board components follows: 3.4.3 3.4.3.1  One 5.0" TFT LCD module  LCD Back light driver  3.3V regulator  QTouch device  1-Wire device Function Blocks 3.3V Regulator The DM Board features its own LDO for local power regulation. It accepts DC 5V power from a 500 mA high-side power switch on the EK and outputs a regulated +3.3 V to most other circuits on the board. Figure 3-56. DM Board Power Supply 5V_INTER 1 2 3 SELCONFIG C12 10u 82 C13 100n 3V3_LCD MN3 C15 2.2u VIN VOUT 5 GND EN BY P 4 C10 10u C11 100n SPX3819 500mA capability SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 M1 5'' LCD, 800(H)×RGB×480(V) FL500WVR00-A0T FOXLINK PIN 45 PIN 1 J1 LED2+ LED2LED1+ LED1GND6 X1 Y1 X2 Y2 GND5 GND4 DE VSY NC HSY NC STB DOTCLK GND3 B7 B6 B5 B4 B3 B2 B1 B0 G7 G6 G5 G4 G3 G2 G1 G0 R7 R6 R5 R4 R3 R2 R1 R0 VCC2 VCC1 GND2 GND1 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 C5 100n X_RIGHT Y _LOW X_LEFT Y _UP C6 10u 3V3_LCD BLUE7 BLUE6 BLUE5 BLUE4 BLUE3 BLUE2 BLUE1 BLUE0 GREEN7 GREEN6 GREEN5 GREEN4 GREEN3 GREEN2 GREEN1 GREEN0 RED7 RED6 RED5 RED4 RED3 RED2 RED1 RED0 LCDPCK LCDDEN LCDVSY NC LCDHSY NC VLED+ VLED- RED[0..7] GREEN[0..7] BLUE[0..7] R1 R2 R3 R4 BLUE2 BLUE1 BLUE0 BLUE3 BLUE4 BLUE5 BLUE6 BLUE7 R7 10n DNP C1 RED2 RED1 RED0 RED3 RED4 RED5 RED6 RED7 GREEN1 GREEN0 GREEN2 GREEN3 GREEN4 GREEN5 GREEN6 GREEN7 10n DNP C4 0R 0R 0R 0R 10n DNP C3 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R R4 R42 R43 R3 R44 R46 R2 R47 R48 R1 R49 R50 R0 R51 R52 R53 R54 R55 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R DNP DNP DNP DNP DNP DNP DNP DNP DNP DNP DNP DNP DNP DNP DNP DNP R64 220K DNP R38 R37 G5 R24 R25 G4 R26 R27 G3 R28 R29 G2 R30 R32 G1 R34 R33 G0 R35 R36 R18 R20 R21 B4 R10 R8 B3 R11 R9 B2 R12 R13 B1 R14 R15 B0 R16 R17 27R 10n DNP C2 LCDDAT18 LCDDAT17 LCDDAT16 LCDDAT19 LCDDAT20 LCDDAT21 LCDDAT22 LCDDAT23 LCDDAT9 LCDDAT8 LCDDAT10 LCDDAT11 LCDDAT12 LCDDAT13 LCDDAT14 LCDDAT15 LCDDAT2 LCDDAT1 LCDDAT0 LCDDAT3 LCDDAT4 LCDDAT5 LCDDAT6 LCDDAT7 LCDDISP AD2_Y P AD1_XM AD3_Y M AD0_XP LCDDAT11 LCDDAT12 LCDDAT13 LCDDAT14 LCDDAT15 LCDDAT5 LCDDAT6 LCDDAT7 LCDDAT8 LCDDAT9 LCDDAT10 LCDDAT0 LCDDAT1 LCDDAT2 LCDDAT3 LCDDAT4 Figure 3-57. Conductors on TOP SIDE 3.4.3.2 TFT LCD with Touch Panel A 5" 800x480 LCD provides the DM with a low power display feature, back light unit and a touch panel, similar to that used on commercial PDAs. Graphics and text can be displayed on the dot matrix panel with up to 16 million colors by supplying 24-bit data signals (8bit x RGB by default) or 16-bit data signals (5+6+5bit x RGB in option). This allows the user to develop graphical user interfaces for a wide variety of end applications. Warning: Never connect/disconnect the LCD display from the board while the power supply is on. Doing so may damage both units. LCD with Touch Panel SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 83 3.4.3.3 Back Light The back light voltage is generated from a CP2122ST boost converter. It is powered directly by the DC 5V from the EK board. The back light level is controlled by a PWM signal generated from the MPU Device processor. Figure 3-58. Back Light Control L1 22uH 880mA 5V_INTER RB160M-60 60V/1A 5 4 LCDPWM 24.5V/40mA VLED+ D1 5V/217mA C7 10u 10V MN1 VIN SW GND SHDN# FB C9 2.2u 50V 1 2 3 CP2122ST 300mV VLED- R40 10k R41 7R5 2 x 7 LEDs Back Light 2*20mA, 24.5V 3.4.3.4 QTouch The DM board carries a QTouch device piloted through a TWI interface. It manages four capacitive touch buttons directly printed on the PCB. There are dual footprints for the QTouch device, and SOIC is the default mounted one. Figure 3-59. QTouch 3V3_LCD MN5 C16 3V3_LCD 3V3_LCD C14 R63 R56 R57 R58 DNPDNP 100n 9 14 13 12 11 10 9 8 R65 R66 R67 R68 KEY 4 KEY 3 KEY 2 KEY 1 R59 R60 R61 R62 4.7k DNP 4.7k DNP 4.7k DNP 4.7k DNP Thermal MODE(VSS) 16 17 1 2 3 4 5 21 8 84 VSS KEY 0 KEY 1 KEY 2 KEY 3 KEY 4 KEY 5 4.7k 4.7k 4.7k 4.7k QT1070_SOIC KEY 6 KEY 5 QT1070 KEY 4 NC5 DNP KEY 3 NC4 KEY 2 NC3 KEY 1 NC2 KEY 0 NC1 NC0 VSS 6 7 10 18 19 20 SCL SDA CHANGE RESET 11 15 12 14 13 VDD MODE(VSS) SDA RESET CHANGE SCL KEY 6 VDD MN4 10k 4.7k 4.7k 4.7k TWCK0 TWD0 CHANGE# RESET# 1 2 3 TWD0 RESET# 4 CHANGE# 5 6 TWCK0 7 100n SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 KEY K4 KEY K3 KEY K2 KEY K1 3.4.3.5 1-Wire The DM board also uses a 1-Wire device as “firmware label” to store the information such as chip type, manufacturer’s name, production date etc. Figure 3-60. 1-Wire on DM 3V3_LCD R45 4.7k ONE_WIRE MN2 1 2 3 4 NC1 NC2 DATA GND NC6 NC5 NC4 NC3 8 7 6 5 DS2433S SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 85 SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] A B C D M1 FOXLINK 4 5 CP2122ST SHDN# VIN MN1 L1 22uH 880mA SW GND FB 1 2 3 C13 100n 5 C15 2.2u 3 2 1 BYP VOUT 4 5 C10 10u RB160M-60 60V/1A D1 PIN 1 SPX3819 500mA capability EN GND VIN MN3 2*20mA, 24.5V 2 x 7 LEDs Back Light 5V_INTER R40 10k C12 10u SELCONFIG LCDPWM C7 10u 10V 5V/217mA 5V_INTER FL500WVR00-A0T 5'' LCD, 800(H)×RGB×480(V) PIN 45 Conductors on TOP SIDE 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 VLED- VLED+ C11 100n 3V3_LCD R41 7R5 300mV C9 2.2u 50V 24.5V/40mA J1 LED2+ LED2LED1+ LED1GND6 X1 Y1 X2 Y2 GND5 GND4 DE VSYNC HSYNC STB DOTCLK GND3 B7 B6 B5 B4 B3 B2 B1 B0 G7 G6 G5 G4 G3 G2 G1 G0 R7 R6 R5 R4 R3 R2 R1 R0 VCC2 VCC1 GND2 GND1 ONE_WIRE C5 100n R45 4.7k 1 2 3 4 3V3_LCD 3V3_LCD C6 10u BLUE7 BLUE6 BLUE5 BLUE4 BLUE3 BLUE2 BLUE1 BLUE0 GREEN7 GREEN6 GREEN5 GREEN4 GREEN3 GREEN2 GREEN1 GREEN0 RED7 RED6 RED5 RED4 RED3 RED2 RED1 RED0 LCDPCK 4 DS2433S R1 R2 R3 R4 8 7 6 5 RED[0..7] GREEN[0..7] BLUE[0..7] NC1 NC6 NC2 NC5 DATA NC4 GND NC3 MN2 X_RIGHT Y_LOW X_LEFT Y_UP LCDDEN LCDVSYNC LCDHSYNC VLED+ VLED- 4 BLUE2 BLUE1 BLUE0 BLUE3 BLUE4 BLUE5 BLUE6 BLUE7 R7 10n DNP C1 RED2 RED1 RED0 RED3 RED4 RED5 RED6 RED7 GREEN1 GREEN0 GREEN2 GREEN3 GREEN4 GREEN5 GREEN6 GREEN7 10n DNP C4 0R 0R 0R 0R 10n DNP C3 R18 R20 R21 R53 R54 R55 R4 R42 R43 R3 R44 R46 R2 R47 R48 R1 R49 R50 R0 R51 R52 R38 R37 G5 R24 R25 G4 R26 R27 G3 R28 R29 G2 R30 R32 G1 R34 R33 G0 R35 R36 B0 B1 B2 B3 R10 R8 R11 R9 R12 R13 R14 R15 R16 R17 27R B4 10n DNP C2 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R 0R DNP DNP DNP DNP DNP DNP DNP DNP DNP DNP DNP DNP DNP DNP DNP DNP R64 220K DNP 3 LCDDAT18 LCDDAT17 LCDDAT16 LCDDAT19 LCDDAT20 LCDDAT21 LCDDAT22 LCDDAT23 LCDDAT9 LCDDAT8 LCDDAT10 LCDDAT11 LCDDAT12 LCDDAT13 LCDDAT14 LCDDAT15 LCDDAT2 LCDDAT1 LCDDAT0 LCDDAT3 LCDDAT4 LCDDAT5 LCDDAT6 LCDDAT7 LCDDISP AD2_YP AD1_XM AD3_YM AD0_XP 3 LCDDAT11 LCDDAT12 LCDDAT13 LCDDAT14 LCDDAT15 LCDDAT5 LCDDAT6 LCDDAT7 LCDDAT8 LCDDAT9 LCDDAT10 LCDDAT0 LCDDAT1 LCDDAT2 LCDDAT3 LCDDAT4 3V3 10k 4.7k 4.7k 4.7k TWCK0 TWD0 CHANGE# RESET# R63 R56 R57 R58 DNP DNP 3V3_LCD 0R 6 7 10 18 19 20 15 12 14 13 AD0_XP AD2_YP AD4_LR J2 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 2 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 NC5 NC4 NC3 NC2 NC1 NC0 QT1070 DNP SCL SDA CHANGE RESET KEY6 KEY5 KEY4 KEY3 KEY2 KEY1 KEY0 100n 3V3_LCD C14 TSM-120-01-L-DV-A J3 2 0R 16 17 1 2 3 4 5 KEY4 R59 KEY3 R60 KEY2 R61 KEY1 R62 C16 LCD_DETECT R23 AD1_XM AD3_YM R19 LCDPWM LCDHSYNC LCDPCK LCDDAT17 LCDDAT19 LCDDAT21 LCDDAT23 TWD0 LCDDAT15 LCDDAT13 LCDDAT14 LCDDAT12 LCDDAT0 LCDDAT2 LCDDAT4 LCDDAT6 LCDDAT8 LCDDAT10 TSM-115-01-L-DV-A 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 MN4 LCDDISP LCDVSYNC LCDDEN LCDDAT16 LCDDAT18 LCDDAT20 LCDDAT22 5V_INTER ZB_IRQ0 TWCK0 1 3 5 7 9 11 13 15 17 LCDDAT1 19 LCDDAT3 21 LCDDAT5 23 LCDDAT7 25 LCDDAT9 27 LCDDAT11 29 0R DNP 0R DNP CHANGE# SELCONFIG R22 R5 R6 3V3_LCD 9 VDD MODE(VSS) 5 VSS 8 Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 Thermal 86 11 VSS KEY0 KEY1 KEY2 KEY3 KEY4 KEY5 14 13 12 11 10 9 8 B A 1/1 MODIF. SCALE REV R65 R66 R67 R68 1 KEY K4 KEY K1 KEY K2 KEY K3 DES. DATE 1 1 B DATE SHEET REV. VER. Derek 11-Oct-10 X.X XX-XXX-XX Derek 10-JUN-10 X.X XX-XXX-XX 4.7k 4.7k 4.7k 4.7k This agreement is our property. Reproduction and publication without our written authorization shall expose offender to legal proceedings. LCD BOARD AT91SAM9x5-EK XX-XXX-XX QT1070_SOIC VDD MODE(VSS) SDA RESET CHANGE SCL KEY6 MN5 4.7k DNP 4.7k DNP 4.7k DNP 4.7k DNP 1 2 3 TWD0 RESET# 4 CHANGE# 5 6 TWCK0 7 100n 3V3_LCD 0R ONE_WIRE 1 A B C D Figure 3-61. 21 3.4.4 Schematics DM Board Schematics 4. Revision History Table 4-1. Document Revision History Comments Replaced all occurrences of “DataFlash” with “serial Flash”. Updated Section 2.1 ”Power Up the Board” and Section 2.3 ”Recovery Procedure”. 11115B Deleted section “DevStart”. Updated Table 3-7 ”Boot Configuration”. Added Figure 3-10, ”SW1A and SW1B Position on Embest Modules”. Updated Figure 3-14, ”CM Board Schematics – 3 of 5”. 11115A First issue. SAM9G15/SAM9G25/SAM9G35/SAM9X25/SAM9X35 Evaluation Kit [USER GUIDE] Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16 87 ARM Connected Logo XXXXXX Atmel Corporation 1600 Technology Drive, San Jose, CA 95110 USA T: (+1)(408) 441.0311 F: (+1)(408) 436.4200 | www.atmel.com © 2016 Atmel Corporation. / Rev.: Atmel-11115B-ATARM-SAM9G15-SAM9G25-SAM9G35-SAMX25-SAM9X35-User-Guide_05-Feb-16. Atmel®, Atmel logo and combinations thereof, Enabling Unlimited Possibilities®, and others are registered trademarks or trademarks of Atmel Corporation in U.S. and other countries. ARM®, ARM Connected® logo, and others are the registered trademarks or trademarks of ARM Ltd. Other terms and product names may be trademarks of others. DISCLAIMER: The information in this document is provided in connection with Atmel products. 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