Atmel | SMART SAMA5D4...
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SMART
Atmel | SMART SAMA5D4 Series
SAMA5D4 Xplained Ultra Evaluation Kit
USER GUIDE
Introduction
This user guide introduces the Atmel® SAMA5D4 Xplained Ultra evaluation kit(SAMA5D4-XULT) and describes the development and debugging capabilities forapplications running on the Atmel | SMART SAMA5D4 ARM® Cortex®-A5-basedembedded microprocessor unit (eMPU).
Scope
This guide provides details on the SAMA5D4-XULT. It is made up of four mainsections:
Section 1. describes the evaluation kit content and its main features.
Section 2. provides instructions to power up the SAMA5D4-XULT board.
Section 3. provides an overview of the SAMA5D4-XULT board.
Section 4. describes the SAMA5D4-XULT board components.
Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
Kit Contents
The SAMA5D4-XULT includes:
Board
One SAMA5D4-XULT board
Cables
One Micro-AB type USB cable
Welcome letter
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Table of Contents
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
Scope . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
Kit Contents. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
Table of Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
1. Evaluation Kit Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
1.1 Electrostatic Warning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
1.2 Power Supply Warning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
2. Power Source . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
2.1 Power up the Board. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
2.2 Sample Code and Technical Support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
3. Hardware Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
3.1 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
3.2 Equipment List. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
3.3 Board Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
4. Board Components . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
4.1 Board Overview. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
4.2 Function Blocks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
4.3 PIO Usage and Interface Connectors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41
4.4 SAMA5D4-XULT Board Schematics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57
5. Revision History . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 72
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1. Evaluation Kit Specifications
1.1 Electrostatic Warning
1.2 Power Supply Warning
Table 1-1. Evaluation Kit Specifications
Characteristic Specifications
Board SAMA5D4-XULT
Board supply voltageUSB powered
5VDC from optional jack connector or from “Arduino shield”
TemperatureOperating 0°C to +70°C
Storage -40°C to +85°C
Relative Humidity 0 to 90% (non-condensing)
Dimensions: Main board 135 × 88 × 20 mm
RoHS status Compliant
Board Identification SAMA5D4-XULT
WARNINGESD-Sensitive Electronic Equipment!
The evaluation kit is shipped in a protective anti-static package. The board system must not be subject to high electrostatic potentials.
We strongly recommend using a grounding strap or similar ESD protective device when handling the board in hostile ESD environments (offices with synthetic carpet, for example). Avoid touching the component pins or any other metallic element on the board.
Electrostaticsensitivedevice
WARNINGHardware Power Supply Limitation
Using a power adapter greater than 5Vcc (e.g., the 12Vcc power adapters from other kits such as Arduino kits) may damage the board.
WARNINGHardware Power Budget
Using the USB as the main power source (max. 500 mA) is acceptable only with the use of the on-board peripherals and low-power LCD extension.
When external peripheral or add-on boards need to be powered, we recommend the use of an external power adapter connected to the J4 DC jack (can provide up to 1.2A on the 3.3V node).
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2. Power Source
Several options are available to power up the SAMA5D4-XULT board.
The board can be:
USB-powered through the USB Micro-AB connector (J11 - default configuration).
Powered through an external AC-to-DC adapter connected via a 2.1 mm center-positive plug into the optional power jack of the board (J4). The recommended output voltage range of the power adapter is 5V at 2A.
Powered through the Arduino shield.
Powered through the USB Micro-AB connector on the Atmel Embedded Debugger (EDBG) interface (J20).
2.1 Power up the Board
Unpack the board, taking care to avoid electrostatic discharge. Connect the USB Micro-AB cable to the connector(J11). Then connect the other end of the cable to a free USB port of your PC.
2.2 Sample Code and Technical Support
After boot up, you can run some sample code or your own application on the development kit. You can downloadsample code and get technical support from the Atmel website.
Linux software and demos can be found on the website Linux4SAM.
WARNINGUnlike Arduino Uno boards, the SAMA5D4-XULT board runs at 3.3V. The maximum voltage that the I/O pins can tolerate is 3.3V. Providing higher voltages (e.g., 5V) to an I/O pin could damage the board.
Table 2-1. Electrical Characteristics
Electrical Parameter Values
Input voltage 5 VCC
Maximum Input voltage (limits) 6 VCC
Max DC 3v3 current available 1.2A
I/O Voltage 3.3V only
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3. Hardware Overview
3.1 Introduction
The Atmel SAMA5D4-XULT is a fully-featured evaluation platform for the Atmel SAMA5D4 series ARM-basedembedded microprocessor units (eMPU). It allows users to extensively evaluate, prototype and create application-specific designs.
3.2 Equipment List
The SAMA5D4-XULT board is based on the integration of an ARM Cortex-A5-based microprocessor with externalmemory, one Ethernet physical layer transceiver, two SD/MMC interfaces, two host USB ports and one deviceUSB port, one 24-bit RGB LCD and HDMI interface and debug interfaces.
Seven headers, compatible with Arduino R3 (Uno, Due) and two Xplained headers are available for various shieldconnections.
3.3 Board Features
Table 3-1. Board Specifications
Characteristics Specifications
Dimensions (L x W x H) 135 × 88 × 20 mm
Processor SAMA5D44 (361-ball BGA package), 16x16 mm body, pitch 0.8 mm
OscillatorsMPU, EDBG: 12 MHz quartzRTC: 32.768 kHzPHY: 25 MHz
Main Memory2 x DDR2 2 Gb 16 Meg x 16 x 8 banks (total 4 Gbit = 512 MB)1 x SLC NAND Flash 4 Gb 8-bit data (total 4 Gbit = 512 MB)
Accessory memoriesOne optional Serial EEPROM SPIOne EEPROM with Mac Address and Serial Number
SD/MMCOne 4-bit SD card connectorOne 4-bit Micro-SD card connector
USBTwo USB Hosts with power switchOne Micro-AB USB device
Display
One LCD interface connector, LCD TFT Controller with overlay, alpha-blending, rotation, scaling and color space conversion
One HDMI interface and connector
Ethernet One Ethernet PHY (RMII 10/100MHz)
Debug portOne JTAG interface connectorOne EDBG interfaceOne serial DBGU interface (3v3 level)
Expansion connectorArduino R3 compatible set of connectorsXPRO set of connectors
Board supply voltage5V from USB, power jack, and Arduino shieldOn-board power regulation by PMIC
Battery On-board battery socket
User interfaceReset, Wake-up and free user push buttonOne red user/power LEDOne blue user LED
4. Board Components
4.1 Board Overview
The fully-featured SAMA5D4-XULT board integrates multiple peripherals and interface connectors, as shown inFigure 4-1.
Figure 4-1. SAMA5D4-XULT Board Overview
ATSAMA5D44 CU
1427C AP6R245.00A ARM
EDBG
J17 PIO Expansion
2Gb DDR2 Memory
2Gb DDR2 Memory
4Gb Nand Flash Memory
System Buttons
EDBG LCD Connector
HDMI Driver & Interface
10/100 Ethernet
J18 PIO Expansion
Free User Push Button
ADC Inputs and CAN Interfaces
Debug Interface
SAMA5D44
Voltages and Reset Interface
ADC Inputs Expansion
Optional Supply Input
USB A DeviceSupply Input
SPI Interface
J19 PIO Expansion
J15 PIO Expansion
EDBG Interface
JTAG Interface
XPLAINED PROExpansion
G
1P
ATS
1
USB Host InterfacesU
H
L tor
D
F
AD
S
n
PLAINED PROExpansion Jn
J
y
ut
y
4
s
e
n
G
ceut
ce
e
XEx
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Table 4-1 describes the interface connectors on the SAMA5D4-XULT.
Table 4-1. SAMA5D4-XULT Board Interface Connectors
Connector Interfaces to
J4 Main power supply
J11 USB A Device. Supports USB device using a type Micro-AB connector
J16 USB Host B and C. Supports USB host using a stacked type A connector
J1 Serial DBGU (3.3V level)
J13 JTAG, 20 pin IDC connector
J20 EDBG USB connector
J9 Micro-SD connector
J24 SD/MMC connector
J12 Ethernet ETH0
J2Expansion connector with all LCD controller signals for display module connection (QTouch®, TFT LCD display with touchscreen and backlight)
J5 HDMI connector type A
BAT1 CR1225 Battery holder
J6, J7, J8, J14, J15, J17, J18, J19
Expansion connectors with Arduino R3 compatible PIO signals
J21, J22, J23 Expansion connectors Xplained
J3 JTAG EDBG (not populated)
J10 PIOBU extension (not populated)
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4.2 Function Blocks
4.2.1 Processor
The Atmel® | SMART SAMA5D4 Series is a high-performance, power-efficient ARM® Cortex®-A5 processor MPUcapable of running up to 600 MHz. It integrates the ARM NEON™ SIMD engine for accelerated signal processing,multimedia and graphics as well as a 128 KB L2-Cache for high system performance. The device features theARM TrustZone® enabling a strong security perimeter for critical software, as well as several hardware securityfeatures. The device also features advanced user interface and connectivity peripherals.
The SAMA5D4 devices have three software-selectable low-power modes: Idle, Ultra Low-power, and Backup. InIdle mode, the processor is stopped while all other functions can be kept running at normal operating busfrequency. In Ultra Low-power mode, the processor is stopped while all other functions can be kept running atminimum operating bus frequency. In Backup mode, only the real-time clock, real-time timer, backup SRAM,backup registers, and wake-up logic are running.
The SAMA5D4 features an internal multi-layer bus architecture associated with 32 DMA channels to sustain thehigh bandwidth required by the processor and the high-speed peripherals. The device supportsDDR2/LPDDR/LPDDR2 and SLC/MLC NAND Flash memory with 24-bit ECC.
The comprehensive peripheral set includes a 720p hardware video decoder, an LCD controller with overlays forhardware-accelerated image composition, a resistive touch screen function, and a CMOS sensor interface.Connectivity peripherals include a dual 10/100 Ethernet MAC with IEEE1588, three HS USB ports, UARTs, SPIsand I2Cs.
Security features includes an "on-the-fly" encryption-decryption process from the external DDR memory, tamperdetection pins, secure storage of critical data, an integrity check monitor (ICM) to detect modification of thememory contents and a secure boot. The product also includes a dedicated coprocessor for public keycryptography such as RSA and elliptic curves algorithms (ECC), as well as AES, 3DES, SHA function and TRNG.These features permit to protect the system against counterfeiting, to safeguard sensitive data, authenticate safeprogram or secure external data transfers.
The SAMA5D4 series is optimized for control panel/HMI applications needing video playback and applications thatrequire high levels of connectivity in the industrial and consumer market. Its security features make the SAMA5D4well suited for secure gateways or for the IoT.
4.2.2 Power Supply Topology and Power Distribution
4.2.2.1 Power Lines
Refer to the Power Supplies and Power Supply Connections tables in the SAMA5D4 datasheet.
4.2.2.2 Power-up and Power-down Considerations
Power-up and power-down considerations are described in section “Power Considerations” of the SAMA5D4Series datasheet.
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4.2.2.3 SAMA5D44 Power Supplies Summary
Notes: 1. Both VDDIOP and VDDANA must rise at the same time due to internal constraints.
Table 4-2. SAMA5D44 Power Supplies
NameVoltage Range, Nominal
AssociatedGround Powers
VDDCORE 1.62–1.98V, 1.8V GNDCORE
Regulator that generates core power supply on VCCCORE
10 µF decoupling capacitor is to be connected to VCCCORE
MUST BE ESTABLISHED AFTER VDDIOP OR AT THE SAME TIME
VCCCORE 1.1–1.32V, 1.2V GNDCORE Core
VDDIODDR1.70–1.90V, 1.8V
GNDIODDRDDR2 Interface I/O lines
1.14–1.30V, 1.2V LP-DDR2 Interface I/O lines
VDDIOM1.65–1.95V, 1.8V
3.0–3.6V, 3.3VGNDIOM NAND and HSMC Interface I/O lines
VDDIOP (1) 3.0–3.6V, 3.3V GNDIOPPeripherals I/O lines
MUST BE ESTABLISHED PRIOR TO VDDCORE
VDDBU 1.88–2.12V, 2V GNDBUSlow Clock oscillator, the internal 64 kHz RC and a part of the System Controller
MUST BE ESTABLISHED FIRST
VDDUTMIC 1.1–1.32V, 1.2V GNDUTMIUSB device and host UTMI+ core and the UTMI PLL
MUST be connected to VCCCORE
VDDUTMII 3.0–3.6V, 3.3V GNDUTMI USB device and host UTMI+ interface
VDDPLLA 1.1–1.32V, 1.2V GNDPLLPLLA cell
MUST be connected to VCCCORE
VDDOSC 3.0–3.6V GNDOSC Main Oscillator cell
VDDANA(1) 3.0–3.6V, 3.3V GNDANAAnalog parts
MUST be connected to VDDIOP with filtering
VDDFUSE 2.25–2.75V, 2.5V GNDFUSEFuse box for programming
VDDFUSE must be 2.5V or 0V and must not be left floating
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4.2.2.4 ACT8865 Power Management IC
The ACT8865 is a complete, cost-effective and highly-efficient ActivePMU™ power management solution,optimized to provide a single-chip power solution and voltage sequencing for Atmel SAMA5D3/SAMA5D4 andSAM9 series MPUs. It also meets the control requirements of these devices.
The ACT8865 features three step-down DC/DC converters and four low-noise, low-dropout linear regulators.
Figure 4-2. Board Power Management
Supply Group Configuration
The ACT8865 provides:
All power supplies required by the SAMA5D44 device:
1.8V VDDCORE
1.8V VDDIODDR
2.0V VDDBU
3.3V VDDIOP, VDDIOM, VDDANA, VDDUTMII
2.5V VDDFUSE
Power supplies to external chips on the main board:
1.2V HDMI
3.3V Ethernet PHY, HDMI, EDBG
WARNINGThere is a known error on the ACT8865 I²C implementation. The port must be shut off after configuration or problems may occur with devices using the same I²C channel, e.g., TM43xx LCD display.
Refer to the ACT8865 datasheet at www.active-semi.com for more details.
VDDREF
PWRHLD
PWRHLD
VDDREF
VDDCORE
VDDIODDR
VCC_1V8
1V2_HDMI
VCC_3V3
VCC_3V3
FUSE_2V5
VDDANA
VCC_5V
VOUT6
VDDIOP
VDDIOM
VDDUTMII
VDDIODDR_MPU
VCC_2V
VOUT7
VCC_EDBG
SHDN[9]
WKUP[9]
PMIC_IRQ_PE25[9]
PMIC_TWCK3_PC26[8]PMIC_TWD3_PC25[8]
NRST_3V3[10,12,14,15]
(3V3)
(1V8)
(2V5)
Place TP13 and TP14 to Bottom.
WAKE UP
RESETBP3 Tact SwitchBP3 Tact Switch
Q1IRLML2502
Q1IRLML2502
1
3
2
C1754.7uFC1754.7uF
C2510uFC2510uF
R17 1KR17 1K
TP13SMDTP13SMD
C1764.7uFC1764.7uF
L4 2.2uHL4 2.2uH
R22 0RR22 0R
C144.7uFC144.7uF
R54 0RR54 0R
U2 ACT8865QI305-TU2 ACT8865QI305-T
VP131VP226VP316
VDDREF23
VSEL20
NC118
PWREN17
nPBSTAT13
nIRQ12
nRSTO11
PWRHLD10
SCL21SDA22
REFBP32
nPBIN9
INL45 5INL67 6
SW1 30OUT1 1
SW2 27OUT2 24
SW3 15OUT3 19
OUT4 3
OUT5 4
OUT6 7
OUT7 8
GA
2
GP
129
GP
228
GP
314
EP
33
NC225
C3100nFC3100nF
L7
180ohm at 100MHz
L7
180ohm at 100MHz
1 2
R78 0RR78 0R
R18
10K
R18
10K
JP4DNP(Header 1X2)
JP4DNP(Header 1X2)
1 2
C2410uFC2410uF
R2 49.9K 1%R2 49.9K 1%
C164.7uFC164.7uF
C110uFC110uF
L26
180ohm at 100MHz
L26
180ohm at 100MHz
1 2
JP2DNP(Header 1X2)
JP2DNP(Header 1X2)
1 2L1 2.2uHL1 2.2uH
C10DNP(100nF)C10DNP(100nF)
C124.7uFC124.7uF
L24
180ohm at 100MHz
L24
180ohm at 100MHz
1 2
C1942.2uFC1942.2uF
C1902.2uFC1902.2uF
L3 2.2uHL3 2.2uH
R1100K 1%R1100K 1%
TP14SMDTP14SMD
C210uFC210uF
C184.7uFC184.7uF
R55 1R 1%R55 1R 1%
C2710uFC2710uF
R410 0RR410 0R
C410nFC4
10nF
R19
10K
R19
10K
L19
180ohm at 100MHz
L19
180ohm at 100MHz
1 2
BP2 Tact SwitchBP2 Tact Switch
C2610uFC2610uF
C6 100nFC6 100nF
C5 DNP(100nF)C5 DNP(100nF)
C1874.7uFC1874.7uF
JP5DNP(Header 1X2)
JP5DNP(Header 1X2)
1 2
C17747nFC17747nF
R1649.9K 1%R1649.9K 1%
JP3DNP(Header 1X2)
JP3DNP(Header 1X2)
1 2
L6
180ohm at 100MHz
L6
180ohm at 100MHz
1 2
C191uFC191uF
C2810uFC2810uF
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4.2.2.5 Power Options
There are several power options for the SAMA5D4-XULT board.
The power sources are selected by a set of 0R resistors. The USB-powered operation is the default configuration.It comes from the USB device port connected to a PC or a 5V DC supply. The USB supply is sufficient to power theboard in most applications. It is important to note that when the USB supply is used, the USB Host ports do notfunction. If USB Host ports are required for the application, it is recommended that a DC supply be used.
Figure 4-3 provides the schematics of power options.
Figure 4-3. Input Powering Scheme Option
Note: USB-powered operation eliminates additional wires and batteries. It is the preferred mode of operation for any project that requires only a 5V source at up to 500 mA.
4.2.2.6 Wall Supply Source
A wall supply can be used to provide power to the board. A regulated 5V DC supply of at least 2A is required. IfUSB ports and expansion headers are used, a rating of 3A is preferred. A 2.1 mm plug with a center-hotconfiguration is required.
If the USB host ports or expansion board Arduino shields are used, additional current is necessary.
If the DC load required is greater than 500 mA per port, a higher current supply must be used.
4.2.2.7 Backup Power Supply
The SAMA5D4-XULT board requires a battery (3V lithium battery type CR1225 or equivalent) in order topermanently power the backup part of the SAMA5D4 device (refer to SAMA5D4 Series data sheet).
To avoid losing data and saved registers, the board must be powered on when replacing the battery.
Figure 4-4. VBAT Powering Scheme Option
4.2.2.8 Power Supply Control
In the ACT8865, three DCDCs (1.8V, 1.2V, 3.3V) and two LDO outputs are available.
All ACT8865 outputs can be controlled by the TWI interface through software.
The three DCDCs outputs can be enabled or disabled by the SAMA5D44 SHDN output:
SHDN = 0: The DCDCs output is disabled.
SHDN = 1: The DCDCs output is enabled.
VCC_5VVCC_5V_IN
USB_VBUS_5V[10]
EXP_5V[15]
EDBG_USB_VBUS_5V[14]
5V/2A Input
R400100K 1%R400100K 1%
R407100K 1%R407100K 1%
C2322uFC2322uF
R408 DNP(0R)R408 DNP(0R)
C1711uFC1711uF
U16
NCP349MNAETBG
U16
NCP349MNAETBG
IN1
FLAG 3EN6
OUT1 4
GND2
OUT2 5IN_pad7
R403100K 1%R403100K 1%
Q5IRLML6402
Q5IRLML6402
1
32
R401 DNP(0R)R401 DNP(0R)
R409 0RR409 0R
C21100nFC21100nF
Q8IRLML6402
Q8IRLML6402
1
3 2
C170100nFC170100nF
R402 0RR402 0R
Q7IRLML6402
Q7IRLML6402
1
32
J4
DNP(DC Jack)
J4
DNP(DC Jack)
1
23
Q6IRLML6402
Q6IRLML6402
1
3 2
VDDBU_3V
VDDBU_2VVCC_2V
VCC_5V
EXP_VBAT[15]
C64100nFC64100nF
U13
NCP4682DSQ20T1G
U13
NCP4682DSQ20T1G
VIN4
GND2
CE1
VOUT 3
R333 DNP(0R)R333 DNP(0R)D11
BAT54C
D11
BAT54C
31
2
JP6DNP(Header 1X2)
JP6DNP(Header 1X2)
1 2
C85100nFC85100nF
C1091uFC1091uF
C821uFC821uF
BAT1
Battery Holder_3V
BAT1
Battery Holder_3V
VC
C1
GN
D2
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12
Two push buttons are also available:
Wakeup push button: When pressed, the ACT8865 power outputs are restarted if the ACT8865 is in shutdown mode.
Reset push button: When pressed, the ACT8865 transfers the reset signal to NRST_3V3, and then to NRST_2V for the MPU by using a resistor divider.
4.2.3 Reset Circuitry
The reset sources for SAMA5D4-XULT board are:
Power-on reset from the Power Management Unit (PMIC)
Push button reset BP3
External reset from Arduino connectors
JTAG or EDBG reset from an in-circuit emulator
Figure 4-5. Reset/Wakeup and Shutdown Control
4.2.4 Clock Circuitry
The SAMA5D4-XULT board includes four clock sources:
Two clocks are alternatives for the SAMA5D44 processor (12 MHz, 32 kHz)
One crystal oscillator used for the Ethernet RMII chip (25 MHz)
One crystal oscillator used for the EDBG (12 MHz)
Figure 4-6. Clock Circuitry
PWRHLD
PWRHLD
VDDREF
SHDN[9]
PMIC_TWCK3_PC26[8]PMIC_TWD3_PC25[8]
WAKE UP
RESETBP3 Tact SwitchBP3 Tact Switch
Q1IRLML2502
Q1IRLML2502
1
3
2
R17 1KR17 1K
TP13SMDTP13SMD
PWRHLD10
SCL21SDA22
REFBP32
nPBIN9
GA
2
GP
129
GP
228
GP
314
EP
33
R2 49.9K 1%R2 49.9K 1%
C10DNP(100nF)C10DNP(100nF)
R1100K 1%R1100K 1%
TP14SMDTP14SMD
C410nFC4
10nF
BP2 Tact SwitchBP2 Tact Switch
C6 100nFC6 100nF
C5 DNP(100nF)C5 DNP(100nF)
C17747nFC17747nF
R1649.9K 1%R1649.9K 1%
EDBG_XIN
EDBG_XOUT
C1520pFC1520pF
Y1
12MHz CL=15pF
Y1
12MHz CL=15pF
1 4
32C13
20pF
C13
20pF
R31 DNP(1M)R31 DNP(1M)ETH0_XI
ETH0_XOC153
20pF
C153
20pF
C152 20pFC152 20pF
R375DNP(1M)R375DNP(1M)
Y4
25MHz CL=20pF
Y4
25MHz CL=20pF
123 4
XOUT32
XIN32
XIN
XOUT
C3220pFC3220pF
C3320pFC3320pF
R206 DNP(1M)R206 DNP(1M)
C3920pFC3920pF Y2
32.768KHz CL=12.5pF
Y2
32.768KHz CL=12.5pF
1
23
4
R223 DNP(1M)R223 DNP(1M)
Y3
12MHz CL=15pF
Y3
12MHz CL=15pF
1 4
32C3820pFC3820pF
13SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
4.2.5 Memory
4.2.5.1 Memory Organization
The SAMA5D4 features a DDR/SDR memory interface and an External Bus Interface (EBI) to permit interfacing toa wide range of external memories and to almost any kind of parallel peripheral.
This section describes the memory devices that equip the SAMA5D4-XULT board.
4.2.5.2 DDR2/SDRAM
Two DDR2/SDRAM (MT47H128M16 - 2 Gb - 16 Meg x 16 x 8 banks) are used as main system memory. The board provides 4 Gb on-board, soldered DDR2 (double data rate) SDRAM. The memory bus is 32 bits wide and operates with a frequency of up to 176 MHz.
Figure 4-7. DDR2
MPU_DDR2_A0MPU_DDR2_A1MPU_DDR2_A2MPU_DDR2_A3MPU_DDR2_A4MPU_DDR2_A5MPU_DDR2_A6MPU_DDR2_A7MPU_DDR2_A8MPU_DDR2_A9MPU_DDR2_A10MPU_DDR2_A11MPU_DDR2_A12MPU_DDR2_A13
MPU_DDR2_BA0MPU_DDR2_BA1MPU_DDR2_BA2
MPU_DDR2_CSnMPU_DDR2_RASnMPU_DDR2_CASnMPU_DDR2_WEn
MPU_DDR2_CK+
MPU_DDR2_CKEn
DDR2_VREF
MPU_DDR2_DM0MPU_DDR2_DM1
MPU_DDR2_DQS0+MPU_DDR2_DQS0-
MPU_DDR2_DQS1+MPU_DDR2_DQS1-
MPU_DDR2_DQS2+MPU_DDR2_DQS2-
MPU_DDR2_DQS3+MPU_DDR2_DQS3-
MPU_DDR2_DM3MPU_DDR2_DM2
MPU_DDR2_A0MPU_DDR2_A1MPU_DDR2_A2MPU_DDR2_A3MPU_DDR2_A4MPU_DDR2_A5MPU_DDR2_A6MPU_DDR2_A7MPU_DDR2_A8MPU_DDR2_A9MPU_DDR2_A10MPU_DDR2_A11MPU_DDR2_A12MPU_DDR2_A13
MPU_DDR2_BA0MPU_DDR2_BA1MPU_DDR2_BA2
MPU_DDR2_CSnMPU_DDR2_RASnMPU_DDR2_CASnMPU_DDR2_WEn
MPU_DDR2_CKEn
MPU_DDR2_CK+
MPU_DDR2_CK-
MPU_DDR2_CK-
DDR2_VREF
MPU_DDR2_CK+MPU_DDR2_CK-
MPU_DDR2_DQ0MPU_DDR2_DQ1MPU_DDR2_DQ2MPU_DDR2_DQ3MPU_DDR2_DQ4MPU_DDR2_DQ5MPU_DDR2_DQ6MPU_DDR2_DQ7MPU_DDR2_DQ8MPU_DDR2_DQ9MPU_DDR2_DQ10MPU_DDR2_DQ11MPU_DDR2_DQ12MPU_DDR2_DQ13MPU_DDR2_DQ14MPU_DDR2_DQ15
MPU_DDR2_DQ16MPU_DDR2_DQ17MPU_DDR2_DQ18MPU_DDR2_DQ19MPU_DDR2_DQ20MPU_DDR2_DQ21MPU_DDR2_DQ22MPU_DDR2_DQ23MPU_DDR2_DQ24MPU_DDR2_DQ25MPU_DDR2_DQ26MPU_DDR2_DQ27MPU_DDR2_DQ28MPU_DDR2_DQ29MPU_DDR2_DQ30MPU_DDR2_DQ31
VDDIODDR
VDDIODDR
VDDIODDR
VDDIODDR
DDR2
R171 0RR171 0R
C53100nFC53100nF
R347DNP(100R 1%)R347DNP(100R 1%)
U7
MT47H128M16RT-25E:C
U7
MT47H128M16RT-25E:C
A0M8A1M3A2M7A3N2A4N8A5N3A6N7A7P2A8P8A9P3
BA0L2BA1L3BA2L1
VD
D1
A1
VD
D2
E1
VD
D3
J9V
DD
4M
9V
DD
5R
1
VD
DQ
1A
9V
DD
Q2
C1
VD
DQ
3C
3V
DD
Q4
C7
VS
S1
A3
VS
S2
E3
VS
S3
J3V
SS
4N
1V
SS
5P
9
VSSDLJ7
VS
SQ
1A
7V
SS
Q2
B8
VS
SQ
3D
2V
SS
Q4
D8
VS
SQ
5E
7
RFU_R3 R3
DQ0 G8DQ1 G2DQ2 H7DQ3 H3DQ4 H1DQ5 H9DQ6 F1DQ7 F9
A10M2A11P7A12R2
LDQS F7LDQS E8
UDQS B7UDQS A8
DQ8 C8DQ9 C2
DQ10 D7DQ11 D3DQ12 D1DQ13 D9DQ14 B1DQ15 B9
VD
DQ
5C
9V
DD
Q6
E9
VD
DQ
7G
1V
DD
Q8
G3
VD
DQ
9G
7
VS
SQ
6F2
VS
SQ
7F8
VS
SQ
8H
2V
SS
Q9
H8
A13R8
NC_E2 E2NC_A2 A2
CKJ8CKK8CKEK2
CSL8RASK7CASL7WEK3
ODTK9
VREFJ2
LDM F3UDM B3
VD
DQ
10G
9
VDDLJ1 RFU_R7 R7
VS
SQ
10B
2
U4
MT47H128M16RT-25E:C
U4
MT47H128M16RT-25E:C
A0M8A1M3A2M7A3N2A4N8A5N3A6N7A7P2A8P8A9P3
BA0L2BA1L3BA2L1
VD
D1
A1
VD
D2
E1
VD
D3
J9V
DD
4M
9V
DD
5R
1
VD
DQ
1A
9V
DD
Q2
C1
VD
DQ
3C
3V
DD
Q4
C7
VS
S1
A3
VS
S2
E3
VS
S3
J3V
SS
4N
1V
SS
5P
9
VSSDLJ7
VS
SQ
1A
7V
SS
Q2
B8
VS
SQ
3D
2V
SS
Q4
D8
VS
SQ
5E
7
RFU_R3 R3
DQ0 G8DQ1 G2DQ2 H7DQ3 H3DQ4 H1DQ5 H9DQ6 F1DQ7 F9
A10M2A11P7A12R2
LDQS F7LDQS E8
UDQS B7UDQS A8
DQ8 C8DQ9 C2
DQ10 D7DQ11 D3DQ12 D1DQ13 D9DQ14 B1DQ15 B9
VD
DQ
5C
9V
DD
Q6
E9
VD
DQ
7G
1V
DD
Q8
G3
VD
DQ
9G
7
VS
SQ
6F2
VS
SQ
7F8
VS
SQ
8H
2V
SS
Q9
H8
A13R8
NC_E2 E2NC_A2 A2
CKJ8CKK8CKEK2
CSL8RASK7CASL7WEK3
ODTK9
VREFJ2
LDM F3UDM B3
VD
DQ
10G
9
VDDLJ1 RFU_R7 R7
VS
SQ
10B
2
R341 0RR341 0R
C136100nFC136100nF
C54100nFC54100nF
C158100nFC158100nF
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14
4.2.5.3 DDR_CALP and DDR_CALN Analog Inputs
Two specific analog inputs, DDR_CALP and DDR_CALN, are used to calibrate all DDR I/Os.
Figure 4-8. DDR_CALP and DDR_CALN Analog Inputs
4.2.5.4 NAND Flash
One 512 MB NAND Flash is connected to the processor.
Figure 4-9. NAND Flash
Table 4-3. DDR_CALN and DDR_CALP
Memory Type CALP Pull-down CALN Pull-up
DDR2 200 ohm 200 ohm
LPDDR2 240 ohm 240 ohm
MPU_DDR2_BA2MPU_DDR2_BA1MPU_DDR2_BA0
DDR2_VREF
VDDIODDRR244 200R 1%R244 200R 1%
R243 200R 1%R243 200R 1%
DDR_BA1D14DDR_BA2G13
DDR_BA0C15
DDR_CALNC19DDR_CALPB19
DDR_VREFK12
C97100nFC97100nF
NAND_CLE_PC18NAND_ALE_PC17NAND_REn_PC13NAND_WEn_PC14
NAND_IO0_PC5NAND_IO1_PC6NAND_IO2_PC7NAND_IO3_PC8NAND_IO4_PC9NAND_IO5_PC10NAND_IO6_PC11NAND_IO7_PC12
NAND_CEn_PC15
NAND_RDY_PC16
3V3_NAND3V3_NANDVCC_3V3
3V3_NAND
(NAND_WPn)
Nand FlashR288
DNP(100K 1%)
R288
DNP(100K 1%)
R283
10K
R283
10K
R286100K 1%
R286100K 1%
R287 0RR287 0R
C44100nFC44100nF
R285100K 1%
R285100K 1%
U9
MT29F4G08ABAEAWP:E
U9
MT29F4G08ABAEAWP:E
WE18
N.C66
VCC_2 37
CE9
RE8
N.C1120
WP19
N.C55
N.C11N.C22N.C33N.C44
N.C1221N.C1322N.C1423N.C1524
R/B7
N.C18 26N.C19 27N.C20 28
I/O0 29
VCC_3 34
N.C1635 VSS_2 36
DNU1 38
VCC_4 39
VCC_1 12
VSS_1 13
ALE17
N.C811 N.C710
N.C914N.C1015
CLE16
VSS_3 25
N.C21 33
I/O1 30
I/O3 32I/O2 31
DNU2 47
N.C24 46N.C23 45
I/O7 44I/O6 43I/O5 42I/O4 41
N.C22 40
VSS_4 48
C43100nFC43100nF
C45100nFC45100nF
C41100nFC41100nF
R282 0RR282 0R
15SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
4.2.5.5 CS Disable
The SAMA5D44 device boots according to the following sequence:
1. D CARD connected on MCI1
2. Optional Dataflash connected on NPCS0 SPI0
3. 8-bit NAND Flash connected to D0–D7
In this sequence, the first device found with bootable contents is selected as the boot source. The others aredisregarded.
On-board jumpers (JP7, JP8) control the selection (CS#) of the on-board bootable memory components (NANDFlash and Serial DataFlash) using a non-inverting 3-state buffer.
Figure 4-10. CS Disable
The rule of operation is:
JP7 = OFF (default) → enable normal boot from NAND Flash (or serial DataFlash if mounted)
JP7 = ON → booting from optional serial DataFlash or NAND Flash is disabled
JP8 (optional) also controls the serial DataFlash if mounted.
Refer to the SAMA5D4 Series datasheet for more information on standard boot strategies and sequencing.
4.2.6 Additional Memories
4.2.6.1 Serial Data Flash (optional)
The SAMA5D44 provides two high-speed Serial Peripheral Interface (SPI) controllers. One port is used tointerface with the optional on-board serial DataFlash.
The four main signals used in the SPI are Clock, Data In, Data Out, and Chip Select. The SPI is a serial interfacesimilar to the I2C bus interface but with three main differences:
It operates at a higher speed.
Transmit and receive data lines are separate.
Device access is chip select-based instead of address-based.
Figure 4-11. Optional Serial DataFlash
NAND_CEn_PC15NAND_NCS3_PC15
AT25_SPI0_CS0_PC3AT25_SPI0_NCPS0_PC3
VCC_3V3Nand & SPI Flash CS
BOOT_DIS
SPI Flash CS
NAND Flash CSThe jumper JP7 must be populated near the reset button
C42100nFC42100nF
JPR7JUMPERJPR7
JUMPER
C40100nFC40100nFR
279
10K
R27
910
K
R284 0RR284 0R
VCC
GND
U10
NL17SZ126DFT2G
VCC
GND
U10
NL17SZ126DFT2G
1
2
3
4
5
JP8DNP(Header 1X2)
JP8DNP(Header 1X2)
1 2
JPR8DNP(JUMPER)
JPR8DNP(JUMPER)
JP7Header 1X2
JP7Header 1X2
1 2
VCC
GND
U8
NL17SZ126DFT2G
VCC
GND
U8
NL17SZ126DFT2G
1
2
3
4
5
AT25_SPI0_MOSI_PC1AT25_SPI0_MISO_PC0AT25_SPI0_SPCK_PC2
AT25_SPI0_CS0_PC3
VCC_3V3
SPI Flash
C34100nFC34100nF
R211 100K 1%R211 100K 1%
U5
DNP(AT25DF321A)
U5
DNP(AT25DF321A)
HOLD 7
GND 4
VCC 8
CS1
SCK6
SI5SO2
WP 3
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16
4.2.6.2 Serial EEPROM with Unique MAC Address
The SAMA5D4-XULT board embeds one Atmel AT24MAC402/602 EEPROM using a TWI0 interface.
The AT24MAC402/602 provides 2048 bits of Serial Electrically-Erasable Programmable Read-Only Memory(EEPROM) organized as 256 words of eight bits each and is accessed via an I2C-compatible (2-wire) serialinterface. In addition, the AT24MAC402/602 incorporates an easy and inexpensive method to obtain a globallyunique MAC or EUI address (EUI-48 or EUI-64).
The EUI-48/64 addresses can be assigned as the actual physical address of a system hardware device or node, orit can be assigned to a software instance. These addresses are factory-programmed by Atmel and permanentlywrite-protected in an extended memory block located outside of the standard 2-Kbit memory array.
In addition, the AT24MAC402/602 provides the value-added feature of a factory-programmed, guaranteed unique128-bit serial number located in the extended memory block (same area as the EUI address values).
The EEPROM device is used as a “soft label” to store board information such as chip type, manufacture name andproduction date, using the last two 16-byte blocks in memory.
Figure 4-12. EEPROM
WARNING The information contained in these blocks should not be modified.
EEPROM_WP
EEPROM_WP
VCC_3V3VCC_3V3_EEPROM
VCC_3V3_EEPROMVCC_3V3_EEPROM
EEPROM_TWD0_PA30 [7]
EEPROM_TWCK0_PA31 [7]
EEPROM
C161 100nFC161 100nF
R39
9D
NP
(10K
)R
399
DN
P(1
0K)
U15
AT24MAC402-MAHM-T
U15
AT24MAC402-MAHM-T
A01
A12
A23
GND4
VCC 8
WP 7
SCL 6
SDA 5
R37
210
KR
372
10K
R397
0R
R397
0R
R398 0RR398 0R
17SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
4.2.7 High-Speed Multimedia Card Interface (HSMCI)
4.2.7.1 Multimedia Card Interface (MCI)
The SAMA5D4-XULT board has two high-speed Multimedia Card interfaces (MCIs) that support the multimediacard (MMC) Specification V4.3, the SD Memory Card Specification V2.0 and the SDIO V1.1 specification:
MCI0 interface based on a 7-pin interface (clock, command, 4-bit data, power lines).
MCI1 Interface based on a 7-pin interface (clock, command, 4-bit data, power lines).
4.2.7.2 HSMCI Card Connector
A standard MMC/SD card (push and click type) connector, connected to MCI1, is mounted on the top side of theboard. It features a push-lock / push-eject mechanism and a card detection switch.
A micro SD card (push and click type) connector, connected to MCI0, is mountable as an option on the bottom sideof the board.
Figure 4-13. HSMCI0 & HSMCI1VCC_3V3VDD_MCI1
VCC_3V3
VCC_3V3
MCI1_PWR_PE4 [9]
MCI0_DA0_PC6[8]
MCI0_CK_PC4[8]
MCI0_DA3_PC9[8]
MCI0_CDA_PC5[8]
MCI0_DA2_PC8[8]MCI0_DA1_PC7[8]
MCI1_DA0_PE20[9]MCI1_DA1_PE21[9]
MCI1_DA2_PE22[9]MCI1_DA3_PE23[9]MCI1_CDA_PE19[9]
MCI1_CK_PE18[9]
MCI1_CD_PE3[9]
MCI0_CD_PE2[9]
(MCI0_DA0)
Micro SD CARD INTERFACE - MCI0
(MCI1_CD)
(MCI1_WP)
SD/MMCPlus CARD INTERFACE - MCI1
(MCI1_DA1)(MCI1_DA0)
(MCI1_CK)
(MCI1_CDA)(MCI1_DA3)(MCI1_DA2)
(MCI0_DA1)
(MCI0_CK)(MCI0_CDA)
(MCI0_DA3)(MCI0_DA2)
(MCI0_CD)
J9
DNP(MicroSD Card Connector)
J9
DNP(MicroSD Card Connector)
DAT07DAT18DAT21DAT32
VDD4VSS6
CD9PGND10
PGND_1 11PGND_2 12PGND_3 13
NC_1 14NC_2 15
CMD3CLK5
Q4IRLML6402Q4IRLML6402
1
3 2
R3960R R3960R
R33
768
KR
337
68K
R34
410
KR
344
10K
R17
268
KR
172
68K
J24
SD Card Connector
J24
SD Card Connector
8
5
76
43219
141516
13121110
R14
168
KR
141
68K
R357
DNP(4.7K)
R357
DNP(4.7K)
R19
410
KR
194
10K
R34
068
KR
340
68K
R16
3D
NP
(68K
)R
163
DN
P(6
8K)
R348100K 1%R348100K 1%
R13
868
KR
138
68K
R16
668
KR
166
68K
C14110uFC14110uF
C2910uFC2910uF
R39
068
KR
390
68K
C144100nFC144100nF
R38
610
KR
386
10K
R39
268
KR
392
68K
R14
210
KR
142
10K
C30100nFC30100nF
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18
4.2.8 Communication Interfaces
The SAMA5D4-XULT board is equipped with EMAC and USB Host/Device communication interfaces.
4.2.8.1 Ethernet 10/100 (EMAC) Port
The SAMA5D4-XULT board contains a MICREL PHY device (KSZ8081) operating at 10/100 Mb/s. The boardsupports RMII interface modes. The Ethernet interface consists of two pairs of low-voltage differential pair signalsdesignated from GRX± and GTX± plus control signals for link activity indicators. These signals can be used toconnect to a 10/100 Base-T RJ45 connector integrated on SAMA5D4-XULT board.
Additionally, for monitoring and control purposes, LED functionality is carried on the RJ45 connectors to indicateactivity, link, and speed status information.
For more information about the Ethernet controller device, refer to the MICREL KSZ8081RN controllermanufacturer's datasheet.
Figure 4-14. Ethernet
ETH0_LED0
ETH0_LED0
ETH0_XI
ETH0_XO
TX+TX+
ETH0_XI
ETH0_XO
ETH0_LED1ETH0_LED1
TX-
RX+
RX-RX-
RX+
TX-
ETH0_VDD
ETH0_VDDEARTH_ETH0
EARTH_ETH0
GND_ETH0
ETH0_VDD
VCC_3V3 ETH0_VDD
GND_ETH0EARTH_ETH0ETH0_VDDA
ETH0_VDDA
ETH0_VDD
NRST_3V3 [4,10,14,15]
G0_RX0_PB8 [7]
G0_TX0_PB12 [7]
G0_RX1_PB9 [7]
G0_TXEN_PB2 [7]
G0_RXER_PB7 [7]G0_RXDV_PB6 [7]
G0_TX1_PB13 [7]
G0_IRQ_PE1 [9]G0_MDIO_PB17 [7]G0_MDC_PB16 [7]
G0_TXCK_PB0 [7]
10Base-T/100Base-TX
ETH0
LINK
ACT
Terminal Resistor close to output sideRouting top or bottom
100 ohms differential traceimpedance
top/bot
top/bot
top/bot
top/bot
1
2
3
6
4
5
7
8
75
75
75 75
1nF
TD+
TD-
CT
NC
RD-
CT
TX+
TX-
RX+
RX-
RD+
Left Green LED Right yellow LED
J12 RJ45 Connector1
2
3
6
4
5
7
8
75
75
75 75
1nF
TD+
TD-
CT
NC
RD-
CT
TX+
TX-
RX+
RX-
RD+
Left Green LED Right yellow LED
J12 RJ45 Connector
1
2
7
8
3
6
5
4
9101112
1314
1516
C126 100nFC126 100nF
C138100nFC138100nF
R358
1K
R358
1K
C116 2.2uFC116 2.2uF
C147100nFC147100nF
R36
110
KR
361
10K
R382
1K
R382
1K
R215 0RR215 0R
L21180ohm at 100MHz
L21180ohm at 100MHz
1 2
R393 0RR393 0R
C10610uFC10610uF
C153
20pF
C153
20pF
R38
010
KR
380
10K
C152 20pFC152 20pF
C16010uFC16010uF
R35110KR35110K
C35100nFC35100nF
R3836.49K 1% R3836.49K 1%
R36
810
KR
368
10K
R226 470RR226 470R
R35
010
KR
350
10K
R230 470RR230 470R
R34
910
KR
349
10K
R38
110
KR
381
10K
R37
910
KR
379
10K
R37
810
KR
378
10K
R375DNP(1M)R375DNP(1M)
R35210KR35210K
Y4
25MHz CL=20pF
Y4
25MHz CL=20pF
123 4
U14
KSZ8081RNB
U14
KSZ8081RNB
RXC/B-CAST_OFF 19
CRS/CONFIG1 29COL/CONFIG0 28
TXD1 25TXD0 24TXEN 23
RXD3/PHYAD0 13RXD2/PHYAD1 14RXD1/PHYAD2 15RXD0/DUPLEX 16
RXDV/CONFIG2 18RXER/ISO 20
MDC 12MDIO 11
INTRP/NAND 21
VDDA_3V3 3
VDDIO 17
RESET 32
TXP7
TXM6
RXP5
RXM4
VDD_1V22
GND1PADDLE33TXC22TXD226TXD327REXT10
XO8
XI9
LED0/NWAYEN30LED1/SPEED31
C37100nFC37100nF
L22180ohm at 100MHz
L22180ohm at 100MHz
1 2
R364 39RR364 39R
19SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
4.2.8.2 USB Host/Device A, B & C
The SAMA5D4-XULT board features three USB communication ports:
USB Host B/C High- and Full-speed Interface
Two USB host stacked type A connectors.
USB Host/Device A Interface
One USB device standard micro-AB connector. This port has a VBUS detection function made through the resistor ladder R218 and R214.
Figure 4-15. USB Host & Device Interface
The two USB Host ports are equipped with 500 mA high-side power switch for self-powered and bus-poweredapplications.
5V_USBC5V_USBB
EARTH_USB_A EARTH_USB_A
EARTH_USB_B/C
EARTH_USB_B/C
USB_VBUS_5V [4]
USBA_VBUS_PE31 [9]
USBA_DM [9]USBA_DP [9]
USBC_DM [9]USBC_DP [9]
USBB_DM[9]USBB_DP[9]
USB AUSB B & C
J7_USB_A_Upper J7_USB_B_LowerR218 100K 1%R218 100K 1%
VBUS
SHD
DMDPID
GND
J11MicroUSB AB Connector
VBUS
SHD
DMDPID
GND
J11MicroUSB AB Connector
12345
8 6
11 7
9
10
A
B
J16USB Connector
A
B
J16USB Connector
5
8
67
9 10
1234
1112
R214200KR214200K
L12180ohm at 100MHz
L12180ohm at 100MHz
1 2L15
180ohm at 100MHzL15
180ohm at 100MHz1 2
C3620pFC3620pF
5V_USBC
5V_USBB
VCC_5V
USBB_EN5V_PE11 [9]
USBC_EN5V_PE14 [9]
USB_OVCUR_PE0 [9]
ENA and ENB Active High
C6510uFC6510uF
C4910uFC4910uF
C63100nFC63100nF
L16180ohm at 100MHz
L16180ohm at 100MHz
1 2
C68100nFC68100nF
L18180ohm at 100MHz
L18180ohm at 100MHz
1 2 U12
SP2526A-1EN-L
U12
SP2526A-1EN-L
ENA 1
FLGA 2
ENB 4
OUTA8
GNG6 FLGB 3
IN7
OUTB5
C48100nFC48100nF
SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
20
4.2.9 LCD TFT Interface
4.2.9.1 LCD
The SAMA5D4 provides 24 bits of data and control signals to the LCD interface. Other signals are used to controlthe LCD and are available on connector J2: TWI, SPI, 2 GPIOs for interrupt, 1-Wire and power supply lines.
4.2.9.2 LCD Expansion Header
J2 is a 1.27mm pitch 50-pin header; it gives access to the LCD signals.
Figure 4-16. LCD Expansion Header Interface
4.2.9.3 LCD Power
In order to operate correctly out of the processor with various LCD modules, two voltage lines are available: 3.3Vand 5 VCC (default), both selected by 0R resistors R416 and R417.
Figure 4-17. LCD Power
NRST_3V3
VCC_5V VCC_3V3
LCD_ID_PE15[9]
LCD_DAT6_PA6[7]LCD_DAT7_PA7[7]
LCD_DAT14_PA14[7]LCD_DAT15_PA15[7]
LCD_DAT23_PA23[7]LCD_DAT22_PA22[7]
LCD_DEN_PA29[7]LCD_HSYNC_PA27[7]LCD_VSYNC_PA26[7]LCD_PCK_PA28[7]
LCD_TWCK0_PA31[7]LCD_TWD0_PA30[7]LCD_DISP_PA25[7]
LCD_PWM_PA24[7]
LCD_PE9[9]LCD_PE10[9]
AD0_XP_PC27[8]LCD_SPI1_NPCS2_PB23[7]
AD1_XM_PC28[8]LCD_SPI1_MISO_PB18[7]
AD2_YP_PC29[8]LCD_SPI1_MOSI_PB19[7]
AD3_YM_PC30[8]LCD_SPI1_SPCK_PB20[7]
EDBG_ID_01[14]
LCD_DAT0_PA0[7]LCD_DAT1_PA1[7]LCD_DAT2_PA2[7]LCD_DAT3_PA3[7]
LCD_DAT5_PA5[7]LCD_DAT4_PA4[7]
LCD_DAT11_PA11[7]LCD_DAT10_PA10[7]LCD_DAT9_PA9[7]LCD_DAT8_PA8[7]
LCD_DAT12_PA12[7]LCD_DAT13_PA13[7]
LCD_DAT17_PA17[7]LCD_DAT16_PA16[7]
LCD_DAT19_PA19[7]LCD_DAT18_PA18[7]
LCD_DAT21_PA21[7]LCD_DAT20_PA20[7]
(LCDDAT0)
(LCDDAT6)(LCDDAT5)(LCDDAT4)
(LCDDAT3)(LCDDAT2)(LCDDAT1)
(LCDDAT11)(LCDDAT10)(LCDDAT9)(LCDDAT8)
(LCDDAT7)
(LCDDAT16)
(LCDDAT15)(LCDDAT14)(LCDDAT13)(LCDDAT12)
(LCDDAT22)(LCDDAT21)(LCDDAT20)
(LCDDAT19)(LCDDAT18)(LCDDAT17)
(LCDDEN)(LCDHSYNC)(LCDVSYNC)(LCDPCK)
(LCDDAT23)
(IRQ1)(IRQ2)(LCDPWM)
(LCDDISP)
(ID_SYS)
LCD
R94 22RR94 22RR125 DNP(0R)R125 DNP(0R)
R126 DNP(0R)R126 DNP(0R)
R53 0RR53 0R
R416 DNP(0R)R416 DNP(0R)
R33 DNP(0R)R33 DNP(0R)
R95 22RR95 22R
R49 DNP(0R)R49 DNP(0R)
R75 DNP(0R)R75 DNP(0R)
R74 22RR74 22R
R417 0RR417 0R
R50 22RR50 22R
J2
50 Pin FPC Connector
J2
50 Pin FPC Connector
1234567891011121314151617181920212223242526272829303132333435363738394041424344454647484950
5251
R32 330RR32 330R
NRST_3V3
VCC_5V VCC_3V3 LCDR53 0RR53 0R
R416 DNP(0R)R416 DNP(0R)
R417 0RR417 0R J2J2
47484950
21SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
4.2.10 HDMI Transmitter Interface
The SAMA5D4-XULT board features the Silicon Image SiI9022ACUN device to convert video signals to the HDMIstandard.
It features the following:
Compliance
HDMI 1.2a, Simply HD, DVI 1.0
Digital Video Output
Integrated TMDS core
DTV resolution support - 480i/576i/480p/576p/720p/1080i/1080p
PC resolution support - VGA/XGA/SXGA/WSXGA/UXGA
Flexible interface to HD MPEG decoders
Integrated YCbCr → RGB conversion
4:2:2 → 4:4:4 up-converter
Digital Audio Output
DVD-Audio support through 4 x I2S inputs
Supports 2-ch 192 kHz or 8-ch 96 kHz
Supports IEC60958 2-ch PCM or IEC61937 compressed audio (Dolby Digital, DTS, etc.)
Industry-standard S/PDIF input, Integrated MCLK generator
Power Management
1.2V and 1.8V cores provide low-power operation
Flexible power-down modes
Figure 4-18. HDMI Interface
VCC_5V_HDMI
HDMI_SCL
HDMI_TCK+
HDMI_TD1+
HDMI_TCK-
HDMI_TD0-
SIL_TD1-
SIL_TCK+SIL_TCK-
SIL_TD0-
SIL_TD2+SIL_TD2-
SIL_TD1+
SIL_TD0+
HDMI_TD2-
SIL_TD0+
SIL_TD2+ HDMI_TD2+
HDMI_TD0+
SIL_TD1- HDMI_TD1-
SIL_TCK+
SIL_TD1+
SIL_TD0-
SIL_TD2-
SIL_TCK-
HDMI_HPD
HDMI_SDA
HDMI_TD2+HDMI_TD2-
HDMI_TD1+HDMI_TD1-
HDMI_TD0+HDMI_TD0-
HDMI_TCK+HDMI_TCK-
HDMI_SCLHDMI_SDA
HDMI_HPD
VCC_5V_HDMI
HDMI_TCK+
HDMI_TD0+
HDMI_TCK-
HDMI_TD0-
HDMI_TCK-HDMI_TCK+
HDMI_TD0-HDMI_TD0+
HDMI_TD1-HDMI_TD1+
HDMI_TD2-
HDMI_TD1+
HDMI_TD2+ HDMI_TD2+HDMI_TD2-
HDMI_TD1-
1V2_HDMI
1V2_HDMI
VCC_5V
VCC_3V33V3_HDMI
3V3_HDMI
3V3_HDMI
3V3_HDMI
3V3_HDMI
EARTH_HDMI
EARTH_HDMI
HDMI_INT_PA25[7]
HDMI_DAT11_PA11[7]
HDMI_DAT9_PA9[7]
HDMI_DAT12_PA12[7]
HDMI_DAT5_PA5[7]
HDMI_DAT7_PA7[7]HDMI_DAT8_PA8[7]
HDMI_DAT10_PA10[7]
HDMI_DAT3_PA3[7]HDMI_DAT4_PA4[7]
HDMI_DAT6_PA6[7]
HDMI_DAT0_PA0[7]HDMI_DAT1_PA1[7]HDMI_DAT2_PA2[7]
HDMI_DAT13_PA13[7]
HDMI_DAT22_PA22[7]HDMI_DAT23_PA23[7]
HDMI_DAT19_PA19[7]HDMI_DAT20_PA20[7]HDMI_DAT21_PA21[7]
HDMI_DAT16_PA16[7]HDMI_DAT17_PA17[7]HDMI_DAT18_PA18[7]
HDMI_DAT14_PA14[7]HDMI_DAT15_PA15[7]
HDMI_VSYNC_PA26[7]HDMI_HSYNC_PA27[7]
HDMI_PCK_PA28[7]
HDMI_DEN_PA29[7]
HDMI_TWD0_PA30[7]HDMI_TWCK0_PA31[7]
HDMI_TD0_PB28[7]
HDMI_TK0_PB27[7]HDMI_TF0_PB31[7]
HDMI_RST_PB15[7]
HDMI_MCK_PA24[7]
Close to SiI9022
HDMI Type A Connector
HDMI
Routing top or bottom
100 ohms differential traceimpedance
(PCK0)
Close to Pin56
IO_SEL: LOW=3.3V HIGH=1.8V
C184100nFC184100nF
C19110uFC19110uF
F11812L160/12
F11812L160/121 2
L8
DNP(WCM-2012HDMI-900T)
L8
DNP(WCM-2012HDMI-900T)
1
2 3
4
C20100nFC20100nF
C1741nFC1741nF
TP7
SMD
TP7
SMD
R406 1KR406 1K
R23 10KR23 10K
L11180ohm at 100MHz
L11180ohm at 100MHz
1 2
C1691nFC1691nF
R405 4.7KR405 4.7K
L9
DNP(WCM-2012HDMI-900T)
L9
DNP(WCM-2012HDMI-900T)
1
2 3
4
D5RB160M-60TR
D5RB160M-60TR
R29 0RR29 0R
L29
60ohm at 100MHz
L29
60ohm at 100MHz
1 2
L27
60ohm at 100MHz
L27
60ohm at 100MHz
1 2
L2860ohm at 100MHz
L2860ohm at 100MHz
1 2
D7
BTR6V8UD
D7
BTR6V8UD
123
456
7
89
10
C178100nFC178100nF
C186100nFC186100nF
R411 4.3K 1%R411 4.3K 1%
L10
DNP(WCM-2012HDMI-900T)
L10
DNP(WCM-2012HDMI-900T)
1
2 3
4
J5
HDMI A Connector
J5
HDMI A Connector
DAT2-3DAT2+1DAT2_S2
SCL15SDA16
DAT-6DAT+4DAT1_S5
+5V 18DDC/CEC 17
HPLG19
DAT0-9DAT0+7DAT0_S8
CLK+10CLK-12CLK_S11
MTG1 20
MTG2 21
MTG3 22
MTG4 23
CEC 13NC 14
R252.2K 1%
R252.2K 1%
C182100nFC182100nF
C183100nFC183100nF
R404 DNP(4.7K)R404 DNP(4.7K)
R30
68K
R30
68K
U3 SiI9022ACUNU3 SiI9022ACUN
D032D131D230D329D428D527
D234
D625D724D823D920D1019D1118D1217D1316D1415D1514D1613D1711D1810D199D208D217D226
CLK22
VSYNC35HSYNC34DE33
INT
52H
PD
54
SC
L1
SD
A2
EXT_SWING 56
IOVCC18_2 21IOVCC18_1 3
TXC+ 59TXC- 58
TX0+ 62TX0- 61
TX1+ 65TX1- 64
TX2+ 68TX2- 67
SCLK45
SPDIF36
CVCC12_1 5CVCC12_2 12
CVCC12_4 42
TMO
DE
55
MCLK38
LRCLK44
DD
CS
CL
49D
DC
SD
A48
I2S041I2S140I2S239I2S337
AGND_1 57
AVCC_2 66AVCC_1 60
IOVCC18_3 46
CE
C_D
50C
EC
_A71
CI2
CA
72
VD
DQ
70
AGND_2 63
IO_SEL 69
CVCC12_5 47CVCC12_6 53
CGND 43
RESETN51
CVCC12_3 26
ePA
D73
C185100nFC185100nF
C173100nFC173100nF
C180100nFC180100nF
C168100nFC168100nF
D2
TVS
D2
TVS
C16410uFC16410uF
C1721nFC1721nF
C165100nFC165100nF
D9
BTR6V8UD
D9
BTR6V8UD
123
456
7
89
10
C19710uFC19710uF
R27 10KR27 10K
L5
DNP(WCM-2012HDMI-900T)
L5
DNP(WCM-2012HDMI-900T)
1
2 3
4
D1
TVS
D1
TVS
D3
TVS
D3
TVS
R28 2.2K 1%R28 2.2K 1%
C167100nFC167100nF
R242.2K 1%R242.2K 1%
R130 0RR130 0R
R137 0RR137 0R
C1791nFC1791nF
R132 0RR132 0R
C18110uFC18110uF
C166100nFC166100nF
R133 1KR133 1K
R139 0RR139 0R
R134 0RR134 0R
R111 0RR111 0R
R264.7KR264.7K
R143 0RR143 0R
R135 0RR135 0R
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22
4.2.11 Indicators
There are two LEDs on the SAMA5D4-XULT board that can be controlled by the user:
The red LED provides an indication that power is supplied to the board and is controlled via software.
The blue LED is controlled via GPIO pins.
Figure 4-19. LED Indicators
4.2.12 Push Button Switches
The SAMA5D4-XULT features three push buttons:
One board Reset button (BP3). When pressed and released, it causes a power-on reset of the board.
One Wakeup push button to exit the processor from low-power mode (BP2).
One User momentary push button (BP1).
Figure 4-20. Push Buttons
4.2.13 Debug Interfaces
The SAMA5D4-XULT board includes a JTAG, a Debug serial COM port and an EDBG interface port, to providedebug level access to the SAMA5D4.
4.2.13.1 Debug JTAG
A 2x10-pin JTAG header is provided on the SAMA5D4-XULT board to facilitate the software development anddebugging by using various JTAG emulators. The interface signals have a voltage level of 3.3V.
Figure 4-21. JTAG Interface
PD30
LED_USER_PE15
VCC_3V3LED
LED_POWER_PD30 R144 100K 1%R144 100K 1%
TP19TP19
R140 470RR140 470R
R136 470RR136 470R
Q3
IRLML2502
Q3
IRLML2502
1
32
D10
BLUE
D10
BLUE
D8
RED
D8
RED
PE8
USER BUTTONPlace TP19 to Bottom
PB_USER_PE8
TP19SMDTP19SMD
IRLML2502IRLML2502
BP1 Tact SwitchBP1 Tact Switch
REDRED
PWRHLD
VDDREF
SHDN[9]
WAKE UP
RESETBP3 Tact SwitchBP3 Tact Switch
Q1IRLML2502
Q1IRLML2502
1
3
2
R17 1KR17 1K
TP13SMDTP13SMD
REFBP32
nPBIN9
GA
2
GP
129
GP
228
GP
314
EP
33
R2 49.9K 1%R2 49.9K 1%
C10DNP(100nF)C10DNP(100nF)
R1100K 1%R1100K 1%
TP14SMDTP14SMD
C410nFC4
10nF
BP2 Tact SwitchBP2 Tact Switch
C6 100nFC6 100nF
C5 DNP(100nF)C5 DNP(100nF)
C17747nFC17747nF
R1649.9K 1%R1649.9K 1%
VCC_3V3
VCC_3V3
NRST_3V3 [4,12,14,15]
TDI [7,14]
TDO [7,14]
TMS [7,14]TCK [7,14]
NTRST [7]
JTAGR217
100K 1%
R217
100K 1%
R224100K 1%R224100K 1%
R227100K 1%R227100K 1%
R259 0RR259 0R
J13
Header 2X10
J13
Header 2X10
12345678910111213151719
14161820
R235 0RR235 0R
R220 0RR220 0R
R222100K 1%R222100K 1%
23SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
4.2.13.2 DBGU
The SAMA5D4-XULT board has a dedicated serial port for debugging, which is accessible through the 6-pin maleheader J1. Various interfaces can be used as USB/Serial DBGU port bridge, such as FTDI TTL-232R USB to TTLserial cable or basic breakout board for the RS232/USB converter.
Figure 4-22. DBGU Interface
R13 and R14 are optional (not implemented) resistors that can be used for power selection. Power can bedelivered either by the SAMA5D4-XULT board or by the debug interface tool. To avoid malfunction between thedebug interface (e.g., FTDI) and the on-board power system, ensure that the voltage level selected corresponds toapplication requirements.
VCC_3V3 VCC_5V
DBGU_RTS3_PE24[9]
DBGU_CTS3_PE5[9]
DBGU_RXD3_PE16[9,14]DBGU_TXD3_PE17[9,14]
(CTS3)
(RTS3)
(TXD3)
DEBUG
(RXD3)
R15
DN
P(6
8K)
R15
DN
P(6
8K)
R10
DN
P(6
8K)
R10
DN
P(6
8K)
J1
Header 1X6
J1
Header 1X6
123456
R12
68K
R12
68K
R11
68K
R11
68K
R13
DN
P(0
R)
R13
DN
P(0
R)
R14
DN
P(0
R)
R14
DN
P(0
R)
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24
4.2.14 Embedded Debugger (EDBG) Interface
The Atmel Embedded Debugger (EDBG) (1) is an intuitive plug-and-play solution which adds full programming anddebugging support to embedded hardware kits containing Atmel microcontrollers. It enables seamless integrationbetween the target hardware and the Atmel Studio front end.
In addition to the Virtual COM port which provides a UART bridge to the target device, the EDBG provides a DataGateway Interface, through which the target device and host PC can communicate, facilitating high-levelapplication debugging, monitoring, graphing and logging of system information in real-time.
The EDBG is based on the Atmel UC3A4 high-performance low-power 32-bit AVR microcontroller running at up to60 MHz. The device includes an on-chip USB 2.0 high-speed hardware module with dedicated DMA channels,making it ideal for data communications.
By default, the EDBG is in Reset state and not usable. To use the EDBG interface, remove the jumper JP1. Toavoid any conflict with the debug signals, do not use the JTAG and EDBG at the same time.
Figure 4-23. EDBG Interface
1. Device and Ordering Information—The EDBG is a factory-programmed AT32UC3A4256J-C1UR standard microcontroller with ordering code AT32UC3A4256HHB-C1UR. For further information please contact [email protected].
EDBG_XIN
EDBG_XOUT
EDBG_USB_FS_DMEDBG_USB_FS_DP
EDBG_USB_DMEDBG_USB_VBUS_5V
TARGET_JTAG_NRST
EDBG_FORCE_BOOT
EDBG_CDC_UART_RXEDBG_CDC_UART_TX
ED
BG
_XIN
ED
BG
_XO
UT
TAR
GE
T_JT
AG
_TC
K
TAR
GE
T_JT
AG
_TM
STA
RG
ET_
JTA
G_T
DI
TARGET_JTAG_TCKTARGET_JTAG_TDO
TARGET_JTAG_TMSTARGET_JTAG_TDI
TARGET_JTAG_NRST
STATUS_LED_CTRLTARGET_RESET_SENSE
EDBG_JTAG_TCKEDBG_JTAG_TDIEDBG_JTAG_TDOEDBG_JTAG_TMS
EDBG_RESET_N
EDBG_JTAG_TCKEDBG_JTAG_TDOEDBG_JTAG_TMS
EDBG_JTAG_TDI
EDBG_USB_DP
EDBG_USB_DP
EDBG_USB_DM
EDBG_ID_01
EDBG_ID_04EDBG_ID_05
EDBG_ID_02
EDBG_ID_06
EDBG_ID_03
TAR
GE
T_JT
AG
_TD
O
EDBG_RESET_N
EDBG_ADC0
EDBG_RESET_N
ERASEEDBG_ID_07
EDBG_DGI_TWDEDBG_DGI_TWCK
VCC_EDBG
VCC_EDBGVCC_EDBG
VCC_EDBG
VCC_EDBG
EARTH_USB_EDBG
EARTH_USB_EDBG
VCC_EDBG
VCC_EDBG
VCC_5V
VCC_EDBG
EDBG_DGI_TWD[15]EDBG_DGI_TWCK[15]
EDBG_ID_01[10]
DBGU_RXD3_PE16[9,10]DBGU_TXD3_PE17[9,10]
TCK [7,10]TDO [7,10]
TMS [7,10]TDI [7,10]
NRST_3V3 [4,10,12,15]
NRST_3V3 [4,10,12,15]
EDBG_SPI_MISO [15]EDBG_SPI_MOSI [15]EDBG_SPI_SCK [15]EDBG_SPI_NCS [15]
EDBG_ID_04 [15]
EDBG_ID_05 [15]
EDBG_ID_06 [15]
EDBG_DGI_GPIO0[15]EDBG_DGI_GPIO1[15]EDBG_DGI_GPIO2[15]EDBG_DGI_GPIO3[15]
EDBG_USB_VBUS_5V [4]
EDBG_ID_02[15]EDBG_ID_03[15]
EDBG_ID_07 [15]
EDBG_USB_HS_DPEDBG_USB_HS_DM
EDBG_DGI_SDA
EDBG_DGI_SCL
POWER_LED_CTRL
EDBG
JTAG
(3V3)
EDBG_DIS
EDBG_TWI
Force s/n
C189
2.2uF
C189
2.2uF
R79 330RR79 330R
Q9Q91
3
2
C461nFC461nF C196
2.2uF
C196
2.2uF
R10
61K
R10
61K
C1520pFC1520pF
R413 0RR413 0R
R5 330RR5 330R
R104
100K 1%
R104
100K 1%
Q2Q21
3
2
R20 39RR20 39R
C193
100nF
C193
100nF
C71nFC71nF
L14180ohm at 100MHz
L14180ohm at 100MHz
1 2 JP1Header 1X2
JP1Header 1X2
1 2
C1110pFC1110pF
C195
100nF
C195
100nF
Y1
12MHz CL=15pF
Y1
12MHz CL=15pF
1 4
32
R80 330RR80 330R
TP6SMDTP6SMD
R7 330RR7 330R
R4200KR4200K
R6 330RR6 330R
TP2SMDTP2SMD
C13
20pF
C13
20pF
C471nFC471nF
JPR1JUMPERJPR1
JUMPERR8
10K
R8
10K
R10
21K
R10
21K
L13180ohm at 100MHz
L13180ohm at 100MHz
1 2
C22
2.2uF
C22
2.2uF
R10
51K
R10
51K
C9
100nF
C9
100nF
R13
147
0RR
131
470R
C188
100nF
C188
100nF
R107 330RR107 330R
R41
42.
2K 1
%R
414
2.2K
1%
R10
31K
R10
31K
C8
2.2uF
C8
2.2uF
R31 DNP(1M)R31 DNP(1M)
TP1SMDTP1SMD R101 0RR101 0R
R57 330RR57 330R
D4REDD4RED
R9
6.8K 1%
R9
6.8K 1%
C192100nFC192100nF
C17100nFC17100nF
R41
52.
2K 1
%R
415
2.2K
1%
J3
DNP(Header 2X5)
J3
DNP(Header 2X5)
1 23 45 67 89 10
D6BLUED6BLUE
GND
VCC
IO1
IO2
U11
PRTR5V0U2X
GND
VCC
IO1
IO2
U11
PRTR5V0U2X1 234
R21 39RR21 39R
U1 AT32UC3A4256J-C1URU1 AT32UC3A4256J-C1UR
PA00 / PA18G8PA01 / PA17G10PA02 / PX47E1PA03F9PA04E9PA05G9PA06 / PA13E8PA07 / PA19H10PA08F8
PA10C10PA11C9PA12 / PA25G7PA14 / PX11K7PA15 / PX45J7PA16E7PA20 / PX18H9PA21 / PX22K10PA22 / PX20H6PA23 / PX46G6PA24 / PX17J10
PA09D8
PA26 / PB05F7PA27A2PA28A1PA29B4PA30A4PA31C2
USB_VBUSA10DMHSA9DPHSA8
DMFSB9DPFSB8
USB_VBIASC7
VD
DA
NA
J6G
ND
AN
AH
8
VD
DIN
_1D
9
VD
DC
OR
EE
10G
ND
CO
RE
F10
VD
DIN
_2D
10G
ND
PLL
B10
VD
DIO
_1E
5V
DD
IO_2
B5
VD
DIO
_3J5
VD
DIO
_4B
6V
DD
IO_5
F2V
DD
IO_6
F6
GN
DIO
_1F5
GN
DIO
_2C
3G
ND
IO_3
H3
GN
DIO
_4E
2G
ND
IO_5
C8
GN
DIO
_6E
6
PC
00 /
PX
14K
5P
C01
K6
PC
02A
5P
C03
A6
PC
04B
7P
C05
A7
PB
00B
1P
B01
B2
PB
02B
3P
B03
C4
PB
04A
3P
B06
D7
PB
07D
6P
B08
C6
PB
09C
5P
B10
D5
PB
11C
1
PX00 G4PX01 G2PX02 G3PX03 J1PX04 H1PX05 G1PX06 F3PX07 F4PX08 E3PX09 E4PX10 D2PX12 D1PX13 D3
PX15 / PX32 K4PX16 / PX53 D4PX19 / PX59 F1
PX21 H2PX23 K1PX24 J2PX25 H4PX26 J3PX27 K2PX28 K3PX29 J4PX30 G5PX31 H5
RESET_N J9
TMS H7TDO J8TDI K8TCK K9
R3100K 1%R3100K 1%
VBUS
SHD
DMDPID
GND
J20MicroUSB AB Connector
VBUS
SHD
DMDPID
GND
J20MicroUSB AB Connector
12345
8 6
11 7
9
10
L2180ohm at 100MHz
L2180ohm at 100MHz
1 2
R11
01K
R11
01K
R10
91K
R10
91K
R56
100K
1%
R56
100K
1%
R41
247
0RR
412
470R
R10
81K
R10
81K
25SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
4.2.15 Expansion Ports
4.2.15.1 Arduino
Five 8-pin, one 6-pin, one 10-pin and one 36-pin headers (J6, J7, J8, J14, J15, J17, J18, J19) are provided on theSAMA5D4-XULT board to enable the PIO connection of various expansion cards. These headers’ physical andelectrical implementation match the Arduino R3 extension (“shields”) scheme.
Due to multiplexing, different signals can be provided on each pin.
Figure 4-24. Expansion Boards Connectors
NRST_3V3
VCC_3V3
VCC_3V3
EXP_5V
EXP_5V
EXP_PD23 [9]EXP_PD31 [9]
EXP_PD10[9]
EXP_PC24[8]
EXP_PE28[9]
EXP/XPRO_PB18 [7]
EXP/XPRO_PC2 [8]
EDBG_DGI_TWCK [14]
EXP_PD9 [9]
NRST_3V3[4,10,12,14]
EXP_PB1 [7]
EXP_PE7 [9]
EXP/XPRO_PE22 [9]
EXP_PC20[8]EXP_PC23 [8]
EXP_PE8 [9]EXP/XPRO_PB19 [7]
EXP_PD24[9]EXP_PB4[7]
EXP_PB10[7]EXP/XPRO_PB26[7]
EXP/XPRO_PE21 [9]
EXP/XPRO_PB21 [7]
EXP_PD25 [9]EXP_PB5 [7]
EXP/XPRO_PC3[8]EXP_PD26[9]
EXP/XPRO_PC26[8]
EXP_PB4 [7]
EXP/XPRO_PE18 [9]
EXP_PE23 [9]
EXP_PC19 [8]
EXP/XPRO_PC25 [8]
EXP_PE31 [9]EXP_PD27 [9]
EXP_PB22 [7]
EXP/XPRO_PE19 [9]
EXP/XPRO_PB30[7]
EXP/XPRO_PC0[8]
EXP/XPRO_PB15[7]EXP/XPRO_PB14[7]EXP/XPRO_PC1[8]
EXP_PD30[9]EXP_PD22[9]
EXP_PE20 [9]
EXP/XPRO_PC1 [8]
EXP/XPRO_PC26 [8]
EXP_PE15 [9]
EXP_VBAT[4]
EXP/XPRO_PE26 [9]EXP/XPRO_PE27 [9]
EXP_PD16 [9]EXP/XPRO_PD17 [9]
EXP_PD19 [9]EXP_PE13 [9]
EXP/XPRO_PD15 [9]
EDBG_DGI_TWD [14]
EXP_5V[4]
EXP_TWD0_PA30 [7]
EXP_PD12 [9]EXP/XPRO_PD13 [9]
EXP/XPRO_PC3 [8]
EXP_PD28[9]
EXP_PC22[8]
EXP_PD20[9]EXP_PE25[9]
EXP_PD29 [9]
EXP_PB1 [7]
EXP_PB3 [7]
EXP_PC4[8]EXP_PD8[9]
EXP/XPRO_PD11 [9]
EXP_PE0 [9]EXP_PD21 [9]
EXP/XPRO_PC25 [8]
EXP/XPRO_PB29[7]
AREF [7]
EXP/XPRO_PB27 [7]
EXP_PC21 [8]
EXP_PB3[7]
EXP_PD14[9]
EXP/XPRO_PB20 [7]
EXP/XPRO_PC0 [8]
EXP_PB11 [7]
EXP/XPRO_PC28[8]
EXP_PE5[9]EXP_PE24[9]
EXP_PB28[7]
EXP/XPRO_PC29[8]
EXP/XPRO_PC27[8]
EXP_PC31[8]EXP/XPRO_PC30[8]
EXP_PB31[7]
EXP_PE6 [9]
EXP_PD18[9]EXP_PE12[9]
EXP_TWCK0_PA31 [7]
EDBG_SPI_MISO[14]EXP/XPRO_PB18[7]
EDBG_SPI_SCK[14]EXP/XPRO_PB20[7]
EDBG_SPI_MOSI [14]EXP/XPRO_PB19 [7]
EXP/XPRO_PE30 [9]
EXP/XPRO_PE29 [9]
EDBG_SPI_NCS [14]
EDBG_DGI_GPIO0 [14]
EDBG_DGI_GPIO1 [14]
EDBG_DGI_GPIO2 [14]
EDBG_DGI_GPIO3 [14]
EDBG_ID_05 [14]
EDBG_ID_07 [14]
EDBG_ID_04[14]
EDBG_ID_06[14]
ExpansionBoardsConnectors
SPI1_MISO
ISOM_1IPSKCPS_1IPS
R328 0RR328 0R
R316 0RR316 0R
R387DNP(0R) R387DNP(0R)
J7
Socket 1X8
J7
Socket 1X8
12345678
R3380R R3380R
R363 DNP(0R)R363 DNP(0R)
J17
Socket 1X10
J17
Socket 1X10
12345678910
R298 DNP(330R)R298 DNP(330R)
R304 0RR304 0R
R238DNP(330R) R238DNP(330R)
R370 0RR370 0RR3660R R3660R
J18
Socket 1X8
J18
Socket 1X8
12345678
R3540R R3540R
R296 DNP(330R)R296 DNP(330R)
R232 0RR232 0R
R293 DNP(0R)R293 DNP(0R)
J6
Socket 1X8
J6
Socket 1X8
12345678
R301 0RR301 0R
R343 0RR343 0R
R291 DNP(330R)R291 DNP(330R)
R307 DNP(0R)R307 DNP(0R)
R297 0RR297 0R
R3230R R3230R
R391 DNP(0R)R391 DNP(0R)
R219100R 1% R219100R 1%
J19
Socket 1X8
J19
Socket 1X8
12345678
R3770R R3770R
R290 DNP(330R)R290 DNP(330R)
R2290R R2290R
R327DNP(0R) R327DNP(0R)
R233 DNP(330R)R233 DNP(330R)
R353 0RR353 0R
R24
2D
NP
(0R
)R
242
DN
P(0
R)
R3620R R3620R
R305 0RR305 0R
R225DNP(330R) R225DNP(330R)
R2360R R2360R
R309 0RR309 0R
R321 0RR321 0R
R317 0RR317 0R
R376 DNP(0R)R376 DNP(0R)
R299 DNP(0R)R299 DNP(0R)
R342DNP(0R) R342DNP(0R)
R313 DNP(0R)R313 DNP(0R)
R360 0RR360 0R
R326 DNP(0R)R326 DNP(0R)
R295 0RR295 0R
R322 DNP(330R)R322 DNP(330R)
R3890R R3890R
R306 DNP(0R)R306 DNP(0R)
R371DNP(0R) R371DNP(0R)
R319 0RR319 0R
R303 DNP(0R)R303 DNP(0R)
R294 0RR294 0R
R320 DNP(0R)R320 DNP(0R)
R365 DNP(0R)R365 DNP(0R)
R345DNP(0R) R345DNP(0R)
R324DNP(0R) R324DNP(0R)
R388 0RR388 0R
R302 DNP(0R)R302 DNP(0R)
R339 DNP(0R)R339 DNP(0R)
R292 0RR292 0R
R385DNP(0R) R385DNP(0R)
R216 100R 1%R216 100R 1%
R308 DNP(330R)R308 DNP(330R)
R318 DNP(0R)R318 DNP(0R)
R315 DNP(0R)R315 DNP(0R)
J14
Header 2X3
J14
Header 2X3
1 23 45 6
R359DNP(0R) R359DNP(0R)
R3250R R3250R
R289 0RR289 0R
R312 0RR312 0R
R346 DNP(0R)R346 DNP(0R)
J8
Socket 1X8
J8
Socket 1X8
12345678
R24
0D
NP
(0R
)R
240
DN
P(0
R)
R300 0RR300 0R
J15
Socket 2X18
J15
Socket 2X18
1 23 45 67 89 10
11 1213151719
14161820
21 2223 2425 2627 2829 3031 3233 3435 36
R384 0RR384 0R
R314 DNP(330R)R314 DNP(330R)
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26
4.2.15.2 Functions Available Through the Arduino Headers
The multiplexing of the SAMA5D44 I/Os (standard parallel I/O and up to three peripheral functions per pin) makesit possible to route alternate signals via Arduino extension headers. To enable these signals, SAMA5D44 PIOmultiplexing must be properly configured. For more details, refer to Section 4.3.15 of this document and thesection PIO Controller (PIO) in the SAMA5D4 Series datasheet.
In addition, on-board resistors may be unsoldered and moved to an alternate location to enable a differentconnection.
Table 4-5 to Table 4-11, together with the connector schematics, provide the alternate signals available for usewith Arduino connectors.
T I P
How to read the tables
For the example Figure 4-25 and Table 4-4 below, the information provided on alternate signals is read as follows:
Pin 3 of Jxx is normally connected to SAMA5D44 PD8 which has PCK0 as an alternate function.
By unsoldering R323 and soldering it on R324 footprint, pin 3 of J15 will be connected to SAMA5D44 PC4 which has SPI0_NPCS1, MCIO_CK and PCK1 as alternate functions.
Figure 4-25. Jxx Connector
Table 4-4. Jxx Connector Signals
Pin No. SAMA5D44 PIO Muxing Alternates On-board Alternates
3 PD8 PCK0 – – PC4 SPI0_NPCS1 MCI0_CK PCK1
EXP_5V
EXP_PC4[8]EXP_PD8[9]
R3230R R3230RR324DNP(0R) R324DNP(0R)
J15J15
13
27SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
Figure 4-26. J6 Connector
Table 4-5. J6 Connector Signals
Pin No. Signal On-board Alternates
1 EXP_VBAT – – – – – –
2 VCC_3V3 – – – – – –
3 NRST_3V3 – – – – – –
4 VCC_3V3 – – – – – –
5 EXP_5V – – – – – –
6 GND – – – – – –
7 GND – – – – – –
8 NC – – – – – –
VCC_3V3
NRST_3V3[4,10,12,14]
EXP_VBAT[4]
EXP_5V[4]
J6
Socket 1X8
J6
Socket 1X8
12345678
R216 100R 1%R216 100R 1%
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28
Figure 4-27. J7 Connector
Table 4-6. J7 Connector Signals
Pin No. SAMA5D44 PIO Muxing Alternates On-board Alternates
1 PB28 SPI2_NPCS3 TD0 PWMH1 – – – –
2 PC27 AD0 SPI0_NPCS1 PWML0 – – – –
3 PC28 AD1 SPI0_NPCS2 PWML1 – – – –
4 PC29 AD2 SPI0_NPCS3 PWMFI0 – – – –
5 PC30 AD3 – PWMH0 – – – –
6 PC31 AD4 – PWMH1 – – – –
7 PE24 NCS0 RTS3 – – – – –
8 PE5 A5 CTS3 – – – – –
EXP/XPRO_PC28[8]
EXP_PE5[9]EXP_PE24[9]
EXP_PB28[7]
EXP/XPRO_PC29[8]
EXP/XPRO_PC27[8]
EXP_PC31[8]EXP/XPRO_PC30[8]
J7
Socket 1X8
J7
Socket 1X8
12345678
29SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
Figure 4-28. J8 Connector
Table 4-7. J8 Connector Signals
Pin No. SAMA5D44 PIO Muxing Alternates On-board Alternates
1 PB30 TWCK2 RF0 – –
2 PB29 TWD2 RD0 PWML1 –
3 PB26 PCK0 RK0 PWMH0 –
4 PB10 G0_RX2 PCK2 PWML1 –
5 PC0 SPI0_MISO PWMH2 ISI_D8 No DAC available
6 PC1 SPI0_MOSI PWML2 ISI_D9 No DAC available
7 PB14 G0_TX2 SPI2_NPCS1 PWMH0 No CAN available
8 PB15 G0_TX3 SPI2_NPCS2 PWML0 No CAN available
EXP_PB10[7]EXP/XPRO_PB26[7]
EXP/XPRO_PB30[7]
EXP/XPRO_PC0[8]
EXP/XPRO_PB15[7]EXP/XPRO_PB14[7]EXP/XPRO_PC1[8]
EXP/XPRO_PB29[7]
J8
Socket 1X8
J8
Socket 1X8
12345678
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30
Figure 4-29. J14 Connector
NRST_3V3
VCC_3V3 EXP_5V
EDBG_SPI_MISO[14]EXP/XPRO_PB18[7]
EDBG_SPI_SCK[14]EXP/XPRO_PB20[7]
EDBG_SPI_MOSI [14]EXP/XPRO_PB19 [7]
SPI1_MISO
ISOM_1IPSKCPS_1IPS
R238DNP(330R) R238DNP(330R)
R232 0RR232 0R
R219100R 1% R219100R 1%
R2290R R2290RR233 DNP(330R)R233 DNP(330R)
R24
2D
NP
(0R
)R
242
DN
P(0
R)
R225DNP(330R) R225DNP(330R)
R2360R R2360R J14
Header 2X3
J14
Header 2X3
1 23 45 6
R24
0D
NP
(0R
)R
240
DN
P(0
R)
Table 4-8. J14 Connector Signals
Pin No. SAMA5D44 PIO Muxing Alternates On-board AlternatesEDBG
Alternate
1 PB18 SPI1_MISO D8 – – – – – DGI_SPI
2 5V – – – – – – – –
3 PB20 SPI1_SPCK D10 – – – – – DGI_SPI
4 PB19 SPI1_MOSI D9 – – – – – DGI_SPI
5 nRST – – – – – – – –
6 GND – – – – – – – –
31SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
Figure 4-30. J15 Connector
Table 4-9. J15 Connector Signals
Pin No. SAMA5D44 PIO Muxing Alternates On-board Alternates
1 5V – – – 5V – – –
2 5V – – – 5V – – –
3 PD8 PCK0 – – PC4 SPI0_NPCS1 MCI0_CK PCK1
4 PB27 SPI1_NPCS3 TK0 PWML0 – – – –
5 PB31 – TF0 – – – – –
6 PD29 SCK1 DIS – – – – –
7 PD14 CTS1 CDETB – – – – –
8 PD15 RTS1 SPI2_SPCK – – – – –
9 PE12 A12 TIOA1 PWMH2 PD18 – SENSE0 –
10 PE13 A13 TIOB1 PWML2 PD19 – SENSE1 –
11 PC20 ISI_D1 TF1 – – – – –
12 PC19 ISI_D0 TK1 – – – – –
EXP_5V
EXP_PD23 [9]EXP_PD31 [9]
EXP_PD10[9]
EXP_PC24[8]
EXP_PE28[9]
EXP_PD9 [9]
EXP_PB1 [7]
EXP_PC20[8]EXP_PC23 [8]
EXP_PD24[9]EXP_PB4[7] EXP_PD25 [9]
EXP_PB5 [7]
EXP/XPRO_PC3[8]EXP_PD26[9]
EXP/XPRO_PC26[8]
EXP_PC19 [8]
EXP/XPRO_PC25 [8]
EXP_PE31 [9]EXP_PD27 [9]
EXP_PD30[9]EXP_PD22[9]
EXP_PD19 [9]EXP_PE13 [9]
EXP/XPRO_PD15 [9]
EXP_PD28[9]
EXP_PC22[8]
EXP_PD20[9]EXP_PE25[9]
EXP_PD29 [9]EXP_PC4[8]EXP_PD8[9]
EXP/XPRO_PD11 [9]
EXP_PE0 [9]EXP_PD21 [9]
EXP/XPRO_PB27 [7]
EXP_PC21 [8]
EXP_PB3[7]
EXP_PD14[9]
EXP_PB11 [7]
EXP_PB31[7]
EXP_PD18[9]EXP_PE12[9]
EDBG_ID_05 [14]
EDBG_ID_07 [14]
EDBG_ID_04[14]
EDBG_ID_06[14]
R328 0RR328 0R
R387DNP(0R) R387DNP(0R)
R3380R R3380R
R363 DNP(0R)R363 DNP(0R)
R370 0RR370 0RR3660R R3660R
R3540R R3540R
R343 0RR343 0R
R3230R R3230R
R391 DNP(0R)R391 DNP(0R)
R3770R R3770R
R327DNP(0R) R327DNP(0R)
R353 0RR353 0R
R3620R R3620R
R376 DNP(0R)R376 DNP(0R)
R342DNP(0R) R342DNP(0R)
R360 0RR360 0R
R326 DNP(0R)R326 DNP(0R)
R3890R R3890R
R371DNP(0R) R371DNP(0R) R365 DNP(0R)R365 DNP(0R)
R345DNP(0R) R345DNP(0R)
R324DNP(0R) R324DNP(0R)
R388 0RR388 0R
R339 DNP(0R)R339 DNP(0R)
R385DNP(0R) R385DNP(0R)
R359DNP(0R) R359DNP(0R)
R3250R R3250R
R346 DNP(0R)R346 DNP(0R)
J15
Socket 2X18
J15
Socket 2X18
1 23 45 67 89 10
11 1213151719
14161820
21 2223 2425 2627 2829 3031 3233 3435 36
R384 0RR384 0R
SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
32
13 PC22 ISI_D3 RF1 – – – – –
14 PC21 ISI_D2 TD1 – – – – –
15 PC24 ISI_D5 RK1 PCK1 – – – –
16 PC23 ISI_D4 RD1 – – – – –
17 PC26 ISI_D7 TWCK3 UTXD1 – – – –
18 PC25 ISI_D6 TWD3 URXD1 – – – –
19 PE25 NCS1 SCK4 IRQ PD20 – SENSE2 –
20 PE0 A0/NBS0 MCI0_CDB CTS4 PD21 – SENSE3 –
21 PE28 NWAIT RTS4 A19 – – – –
22 PB1 G0_RXCK SCK2 ISI_PCK – – – –
23 PD30 – – – PD22 – SENSE4 –
24 PD31 SPI0_NPCS2 PCK1 – PD23 – SENSE5 –
25 PB3 G0_TXER CTS2 ISI_VSYNC – – – –
26 PB11 G0_RX3 RTS2 PWMH1 – – – –
27 PB4 G0_CRS RXD2 ISI_HSYNC PD24 – SENSE6 –
28 PB5 G0_COL TXD2 PCK2 PD25 – SENSE7 –
29 PD28 SCK0 – – – – – –
30 PD11 RTS0 SPI2_MISO – – – – –
31 PD10 CTS0 CDETA – – – – –
32 PD9 FIQ – – – – – –
33 PC3 SPI0_NPCS0 PWML3 ISI_D11 PD26 – SENSE8 –
34 PE31 ADTRG – – PD27 – SENSE9 –
35 GND – – – GND – – –
36 GND – – – GND – – –
Table 4-9. J15 Connector Signals (Continued)
Pin No. SAMA5D44 PIO Muxing Alternates On-board Alternates
33SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
Figure 4-31. J17 Connector
Table 4-10. J17 Connector Signals
Pin No. SAMA5D44 PIO Muxing Alternates On-board AlternatesEDBG
Alternate
10 PE30 DIBN UTXD0 TWCK1 PB4 G0_CRS RXD2 ISI_HSYNC DGI_TWI
9 PE29 DIBP URXD0 TWD1 PB3 G0_TXER CTS2 ISI_VSYNC DGI_TWI
8 AREF – – – – – – – –
7 GND – – – – – – – –
6 PB20 SPI1_SPCK D10 – PE6 A6 TIOA3 –
5 PB18 SPI1_MISO D8 – PE7 A7 TIOB3 PWMFI1 –
4 PB19 SPI1_MOSI D9 – PE8 A8 TCLK3 PWML3 –
3 PB21 SPI1_NPCS0 D11 – – – – – DGI_SPI
2 PE21 A23 TIOA4 MCI1_DA1 – – – – –
1 PE22 A24 TIOB4 MCI1_DA2 – – – – –
EXP/XPRO_PB18 [7]
EDBG_DGI_TWCK [14]
EXP_PE7 [9]
EXP/XPRO_PE22 [9]
EXP_PE8 [9]EXP/XPRO_PB19 [7]
EXP/XPRO_PE21 [9]
EXP/XPRO_PB21 [7]
EXP_PB4 [7]
EDBG_DGI_TWD [14]EXP_PB3 [7]AREF [7]
EXP/XPRO_PB20 [7]EXP_PE6 [9]
EXP/XPRO_PE30 [9]
EXP/XPRO_PE29 [9]
EDBG_SPI_NCS [14]
R316 0RR316 0R
J17
Socket 1X10
J17
Socket 1X10
12345678910
R307 DNP(0R)R307 DNP(0R)
R309 0RR309 0R
R321 0RR321 0R
R317 0RR317 0R
R313 DNP(0R)R313 DNP(0R)
R322 DNP(330R)R322 DNP(330R)
R319 0RR319 0RR320 DNP(0R)R320 DNP(0R)
R308 DNP(330R)R308 DNP(330R)
R318 DNP(0R)R318 DNP(0R)
R315 DNP(0R)R315 DNP(0R)
R312 0RR312 0RR314 DNP(330R)R314 DNP(330R)
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Figure 4-32. J18 Connector
Table 4-11. J18 Connector Signals
Pin No. SAMA5D44 PIO Muxing Alternates On-board AlternatesEDBG
Alternate
1 PE23 A25 TCLK4 MCI1_DA3 – – – – –
2 PE18 A18 TIOA5 MCI1_CK – – – – DGI_GPIO0
3 PE19 A19 TIOB5 MCI1_CDA – – – – DGI_GPIO1
4 PB22 SPI1_NPCS1 D12 – PC1 SPI0_MOSI PWML2 ISI_D9 –
5 PE20 A20 TCLK5 MCI1_DA0 – – – – DGI_GPIO2
6 PE15 A15 SCK3 TIOA0 – – – – DGI_GPIO3
7 PC26 ISI_D7 TWCK3 UTXD1 PB1 G0_RXCK SCK2 ISI_PCK –
8 PC25 ISI_D6 TWD3 URXD1 PC0 SPI0_MISO PWMH2 ISI_D8 –
EXP/XPRO_PE18 [9]
EXP_PE23 [9]
EXP_PB22 [7]
EXP/XPRO_PE19 [9]
EXP_PE20 [9]
EXP/XPRO_PC1 [8]
EXP/XPRO_PC26 [8]
EXP_PE15 [9]
EXP_PB1 [7]
EXP/XPRO_PC25 [8]EXP/XPRO_PC0 [8]
EDBG_DGI_GPIO0 [14]
EDBG_DGI_GPIO1 [14]
EDBG_DGI_GPIO2 [14]
EDBG_DGI_GPIO3 [14]R298 DNP(330R)R298 DNP(330R)
J18
Socket 1X8
J18
Socket 1X8
12345678
R296 DNP(330R)R296 DNP(330R)
R293 DNP(0R)R293 DNP(0R)
R301 0RR301 0R
R291 DNP(330R)R291 DNP(330R)
R297 0RR297 0R
R290 DNP(330R)R290 DNP(330R)
R299 DNP(0R)R299 DNP(0R)
R295 0RR295 0R
R294 0RR294 0R
R302 DNP(0R)R302 DNP(0R)
R292 0RR292 0R
R289 0RR289 0R
R300 0RR300 0R
35SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
Figure 4-33. J19 Connector
Table 4-12. J19 Connector Signals
Pin No. SAMA5D44 PIO Muxing Alternates On-board Alternates
1 PE27 NWR1/NBS1 TXD4 – – – – –
2 PE26 NCS2 RXD4 A18 – – – –
3 PD17 TXD1 SPI2_NPCS0 – – – – –
4 PD16 RXD1 DCENB – – – – –
5 PD13 TXD0 SPI2_MOSI – – – – –
6 PD12 RXD0 DCENA – – – – –
7 PA30 TWD0 – – PC3 SPI0_NPCS0 PWML3 ISI_D11
8 PA31 TWCK0 – – PC2 SPI0_SPCK PWMH3 ISI_D10
EXP/XPRO_PC2 [8]
EXP/XPRO_PE26 [9]EXP/XPRO_PE27 [9]
EXP_PD16 [9]EXP/XPRO_PD17 [9]
EXP_TWD0_PA30 [7]
EXP_PD12 [9]EXP/XPRO_PD13 [9]
EXP/XPRO_PC3 [8]
EXP_TWCK0_PA31 [7]
R304 0RR304 0R
J19
Socket 1X8
J19
Socket 1X8
12345678
R305 0RR305 0RR306 DNP(0R)R306 DNP(0R)
R303 DNP(0R)R303 DNP(0R)
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4.2.15.3 SAMA5D44 Peripheral Functions Available Through Arduino Headers
Table 4-13 provides details on access to the SAMA5D44 internal peripherals through the Arduino headers.
Note: Only one function at a time can be selected for each pin (refer to Section 4.3.15 in this document and the PIO controller section in SAMA5D4 Series datasheet).
Table 4-13. SAMA5D44 Peripheral Functions Available through the Arduino Headers
ConnectorSAMA5D44to Arduino
SystemFunction PCK ISI SSC SPI TWI
UART/USART ANALOG MISC
J14
PB18 – – – – SPI1_MISO – – – –
3v3/5v 3.3V/5V – – – – – – – –
PB20 – – – – SPI1_SPCK – – – –
PB19 – – – – SPI1_MOSI – – – –
nRST nRST – – – – – – – –
GND GND – – – – – – – –
J7
PB28 – – – TD0 SPI2_NPCS3 – – – PWMH1
PC27 – – – – SPI0_NPCS2 – – AD0 PWML0
PC28 – – – – SPI0_NPCS3 – – AD1 PWML1
PC29 – – – – – – – AD2 PWMFI0
PC30 – – – – – – – AD3 PWMH0
PC31 – – – – – – – AD4 PWMH1
PE24 – – – – – RTS3 – – –
PE5 – – – – – CTS3 – – –
J8
PB30 – – – RF0 – TWCK2 – – –
PB29 – – – RD0 – TWD2 – – PWML1
PB26 – PCK0 – RK0 – – – – PWMH0
PB10 – PCK2 – – – – – – PWML1
PC0 – – ISI_D8 – SPI0_MISO – – – PWMH2
PC1 – – ISI_D9 – SPI0_MOSI – – – PWML2
PB14 – – ISI_D10 – SPI0_SPCK – – – PWMH0
PB15 – – – – – – – – PWML0
J17
PE30 – – ISI_HSYNC – – TWCK1 RXD2 – –
PE29 – – ISI_VSYNC – – TWD1 CTS2 – –
AREF AREF – – – – – – – –
GND GND – – – – – – – –
PB20 – – – – SPI1_SPCK – – – TIOA3
PB18 – – – – SPI1_MISO – – – TIOB3
PB19 – – – – SPI1_MOSI – – – TCLK3
PB21 – – – – SPI1_NPCS0 – – – –
PE21 – – – – – – – – TIOA4
PE22 – – – – – – – – TIOB4
37SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
J18
PE23 – – – – – – – – TCLK4
PE18 – – – – – – – – TIOA5
PE19 – – – – – – – – TIOB5
PB22 – – ISI_D9 – SPI1_NPCS1 – – – –
PE20 – – – – SPI2_NPCS1 – – – TCLK5
PE15 – – – – SPI2_NPCS2 – – – TIOA0
PC26 – – ISI_D8 – – TWCK3 UTXD1 – PWMH2
PC25 – – ISI_PCK – – TWD3 URXD1 – –
J19
PE27 – – – – – – TXD4 – –
PE26 – – – – – – RXD4 – –
PD17 – – – – SPI2_NPCS0 – TXD1 – –
PD16 – – – – – – RXD1 – –
PD13 – – – – SPI2_MOSI – TXD0 – –
PD12 – – – – – – RXD0 – –
PA30 – – ISI_D11 – SPI0_NPCS0 TWD0 – – PWML3
PA31 – – ISI_D10 – SPI0_SPCK TWCK0 – – PWMH3
Table 4-13. SAMA5D44 Peripheral Functions Available through the Arduino Headers (Continued)
ConnectorSAMA5D44to Arduino
SystemFunction PCK ISI SSC SPI TWI
UART/USART ANALOG MISC
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J15
5V 5V – – – – – – – –
5V 5V – – – – – – – –
PD8 –PCK0/PC
K1– TK0 – – TXD2 – –
PB27 – – – TF0 SPI1_NPCS3 – – – PWML0
PB31 – – – – – – – – –
PD29 – – – – – – SCK1 – –
PD14 – – – – – TWD0 CTS1 – –
PD15 – – – – SPI2_SPCK TWCK0 RTS1 – –
PE12 – – – – – – – – PWMH2
PE13 – – – – – – – – PWML2
PC20 – – ISI_D1 TF1 – – – – –
PC19 – – ISI_D0 TK1 – – – – –
PC22 – – ISI_D3 RF1 – – – – –
PC21 – – ISI_D2 TD1 – – – – –
PC24 – PCK1 ISI_D5 RK1 – – – – –
PC23 – – ISI_D4 RD1 – – – – –
PC26 – – ISI_D7 – – TWCK3 UTXD1 – –
PC25 – – ISI_D6 – – TWD3 URXD1 – –
PE25 – – – – SPI0_MOSI – SCK4 – –
PE0 – – – – SPI0_MISO – CTS4 – –
PE28 – – – – SPI0_NPCS0 – RTS4 – –
PB1 – – – – SPI0_SPCK – SCK2 – –
PD30 – – – – – – – – –
PD31 – PCK1 – – SPI0_NPCS2 – – – –
PB3 – – – – – – CTS2 – –
PB11 – – – – – – RTS2 – PWMH1
PB4 – – – – – – RXD2 – –
PB5 – PCK2 – – – – TXD2 – –
PD28 – – – – – – SCK0 – –
PD11 – – – – – – RTS0 – –
PD10 – – – – – – CTS0 – –
PD9 – – – – – – – – –
PC3 – – ISI_D11 SPI0_NPCS0 – – – PWML3
PE31 – – – – – – – – –
GND GND – – – – – – – –
GND GND – – – – – – – –
Table 4-13. SAMA5D44 Peripheral Functions Available through the Arduino Headers (Continued)
ConnectorSAMA5D44to Arduino
SystemFunction PCK ISI SSC SPI TWI
UART/USART ANALOG MISC
39SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
4.2.15.4 XPRO
The SAMA5D4-XULT board embeds three connectors to interface Xplained PRO wings.
Figure 4-34. XPRO Connectors
The standard extension headers include common signals. These are male 20-pin/100-mil/right-angled headers(extension boards feature a female 20-pin straight header).
Figure 4-35. XPRO Extension Headers
EXP_5V
VCC_3V3
VCC_3V3
VCC_5V
VCC_3V3
EXP/XPRO_PB14[7]
EDBG_ID_03[14]
EXP/XPRO_PC1 [8]EXP/XPRO_PC0[8]
EXP/XPRO_PD17[9]
EXP/XPRO_PE30 [9]
EXP/XPRO_PD11[9]
EXP/XPRO_PE19 [9]
EXP/XPRO_PD13 [9]
EXP/XPRO_PB15 [7]
EXP/XPRO_PD15 [9]
EXP/XPRO_PE26[9] EXP/XPRO_PE27 [9]
EXP/XPRO_PE18[9]EXP/XPRO_PC29[8]
EXP/XPRO_PE29[9]
EXP/XPRO_PC30 [8]
EXP/XPRO_PB26[7]
EDBG_ID_02[14]
EXP/XPRO_PC3 [8]EXP/XPRO_PC2[8]
EXP/XPRO_PB21[7]
EXP/XPRO_PB30 [7]
EXP/XPRO_PB18[7]
EXP/XPRO_PE22 [9]
EXP/XPRO_PB19 [7]
EXP/XPRO_PB27 [7]
EXP/XPRO_PB20 [7]
EXP/XPRO_PC25[8] EXP/XPRO_PC26 [8]
EXP/XPRO_PE21[9]EXP/XPRO_PC27[8]
EXP/XPRO_PB29[7]
EXP/XPRO_PC28 [8]
SPI2_NPCS2
SPI2_MISOSPI2_NPCS0
SPI1_NPCS3
SPI1_MISOSPI1_NPCS0
XPRO Connectors
XPRO Power
XPRO EXT1
XPRO EXT2
ID02AD0TIOA4PWMH3PCK0TWD2URXD1
ID03AD2TIOA5PWMH2SPI2_NPCS1TWD1RXD4
TWCK1TXD4SPI2_MOSISPI2_SPCK
TWCK2UTXD1SPI1_MOSISPI1_SPCK
PWML3TIOB4
TIOB5PWML2
AD1
AD3
J21
DNP(Header 2X2)
J21
DNP(Header 2X2)
13
24
J23
DNP(Header 2X10)
J23
DNP(Header 2X10)
1 23 45 67 89 10
11 1213151719
14161820
J22
DNP(Header 2X10)
J22
DNP(Header 2X10)
1 23 45 67 89 10
11 1213151719
14161820
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4.3 PIO Usage and Interface Connectors
4.3.1 Power Supply
Figure 4-36. Power Supply Connector J4
Table 4-14. Power Supply Connector J4 Signal Description
Pin Mnemonic Signal Description
1 Center pin +5V
2 Spring blade GND
3 Fixing pin Floating
41SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
4.3.2 JTAG/ICE Connector
Figure 4-37. JTAG J13
Table 4-15. JTAG/ICE Connector J13 Signal Descriptions
Pin Mnemonic Signal Description
1 VTref. 3.3V power This is the target reference voltage (main 3.3V).
2 Vsupply. 3.3V powerThis pin is not connected in SAM-ICE™ and reserved for compatibility with other equipment. Connected to main 3.3V.
3nTRST TARGET RESET - Active-low output signal that resets the target
JTAG Reset. Output from SAM-ICE to control the Reset signal on the target system.
4 GND Common ground
5TDI TEST DATA INPUT - Serial data output line, sampled on the rising edge of the TCK signal
JTAG data input into target CPU
6 GND Common ground
7 TMS TEST MODE SELECT JTAG mode set input into target CPU
8 GND Common ground
9TCK TEST CLOCK - Output timing signal, for synchronizing test logic and control register access
JTAG clock signal into target CPU
10 GND Common ground
11RTCK - Input Return test clock signal from the target
Some targets having too slow system clock must synchronize the JTAG inputs to internal clocks. In present case such synchronization is unneeded and TCK merely looped back into RTCK.
12 GND Common ground
13TDO JTAG TEST DATA OUTPUT - Serial data input from the target
JTAG data output from 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.
18 GND Common ground
19 RFU This pin is not connected in SAM-ICE.
20 GND Common ground
1 3 5 7 9 11 13 15 17 19
2 4 6 8 10 12 14 16 18 20
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4.3.3 EDBG USB Type Micro-AB
Figure 4-38. EDBG USB Type Micro-AB Connector J20
4.3.4 USB Type A Dual Port
Figure 4-39. USB Type A Dual Port J16
Table 4-16. EDBG USB Type Micro-AB Connector J20 Signal Descriptions
Pin Mnemonic Signal Description
1 Vbus 5V power
2 DM Data minus
3 DP Data plus
4 ID On-the-go identification
5 GND Common ground
1 2 3 4 5
Table 4-17. USB Type A Dual Port J16 Signal Descriptions
Pin Mnemonic Signal 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
– Shield
43SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
4.3.5 USB Micro-AB
Figure 4-40. USB Host/Device Micro-AB Connector J11
4.3.6 DEBUG Connector
Figure 4-41. DEBUG Connector J1
Table 4-18. USB Host/Device Micro-AB Connector J11 Signal Descriptions
Pin Mnemonic Signal Description
1 Vbus 5V power
2 DM Data minus
3 DP Data plus
4 ID On-the-go identification
5 GND Common ground
1 2 3 4 5
Table 4-19. DEBUG Connector J1 Signal Descriptions
Pin Mnemonic PIO Signal Description
1 CTS3 PE5 Handshake input
2 TXD3 (Transmitted Data) PE17 RS232 serial data input signal
3 RXD3 (Received Data) PE16 RS232 serial data output signal
4 Power – 5V/3.3V (selected by resistors)
5 RTS3 PE24 Handshake output
6 GND – Common ground
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4.3.7 SD/MMC Plus MCI0
Figure 4-42. SD/MMC Socket J24
Table 4-20. SD/MMC Socket J24 Signal Descriptions
Pin Mnemonic PIO Signal Description
1 DAT3 PE23 Data Bit
2 CMD PE19 Command Line
3 VSS – Common ground
4 VCC – Supply Voltage 3.3V
5 CLK PE18 Clock / Command Line
6 CD PE3 Card Detect
7 DAT0 PE20 Data Bit
8 DAT1 PE21 Data Bit
9 DAT2 PE22 Data Bit
10 – Not connected Data Bit
11 – Not connected Data Bit
12 – Not connected Data Bit
13 – Not connected Data Bit
14 WP GND Write Protection (deactivated)
15 VSS – Common ground
16 VSS – Common ground
45SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
4.3.8 MicroSD MCI1
Figure 4-43. MicroSD Socket J9
4.3.9 Ethernet ETH0 RJ45 Socket J12
Figure 4-44. Ethernet RJ45 Socket J12
Table 4-21. MicroSD Socket J9 Signal Descriptions
Pin Mnemonic PIO Signal Description
1 DAT2 PC8 Data Bit 2
2 CD/DAT3 PC9 Card Detect / Data Bit 3
3 CMD PC5 Command Line
4 VCC – Supply Voltage 3.3V
5 CLK PC4 Clock / Command Line
6 VSS – Common ground
7 DAT0 PC6 Data Bit 0
8 DAT1 PC7 Data Bit 1
9 CD PE2 Card Detect
10 GND – Common ground
1 2 3 4 5 6 7 8
RJ-45
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4.3.10 LCD Connector J2
Figure 4-45. LCD Connector J2
Table 4-22. LCD Connector J2 Signal Descriptions
Pin Signal PIO Signal RGB Interface Function Alternate
1 ID_SYS PE15 / ID00 ID Extension module identification EDBG_ID_01
2 – GND GND GND –
3 LCDDAT0 PA0 D0 Data line –
4 LCDDAT1 PA1 D1 Data line –
5 LCDDAT2 PA2 D2 Data line –
6 LCDDAT3 PA3 D3 Data line –
7 – GND GND GND –
8 LCDDAT4 PA4 D4 Data line –
9 LCDDAT5 PA5 D5 Data line –
10 LCDDAT6 PA6 D6 Data line –
11 LCDDAT7 PA7 D7 Data line –
12 – GND GND GND –
13 LCDDAT8 PA8 D8 Data line –
14 LCDDAT9 PA9 D9 Data line –
15 LCDDAT10 PA10 D10 Data line –
16 LCDDAT11 PA11 D11 Data line –
17 – GND GND GND –
18 LCDDAT12 PA12 D12 Data line –
19 LCDDAT13 PA13 D13 Data line –
20 LCDDAT14 PA14 D14 Data line –
21 LCDDAT15 PA15 D15 Data line –
22 – GND GND GND –
23 LCDDAT16 PC14 D16 Data line –
24 LCDDAT17 PC13 D17 Data line –
25 LCDDAT18 PC12 D18 Data line –
26 LCDDAT19 PC11 D19 Data line –
27 – GND GND GND –
28 LCDDAT20 PC10 D20 Data line –
29 LCDDAT21 PC15 D21 Data line –
30 LCDDAT22 PE27 D22 Data line –
47SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
31 LCDDAT23 PE28 D23 Data line –
32 – GND GND GND –
33 LCDPCK PA28 PCLK Pixel clock –
34 LCDVSYNC PA26 VSYNC/CS Vertical sync –
35 LCDHSYNC PA27 HSYNC/WE Horizontal sync –
36 LCDDEN PA29 DATA_ENABLE/RE Data enable –
37 SPI1_SPCK PB20 SPI_SCK – AD3/YM PC30
38 SPI1_MOSI PB19 SPI_MOSI – AD2/YP PC29
39 SPI1_MISO PB18 SPI_MISO – AD1/XM PC28
40 SPI1_NPCS2 PB23 SPI_CS – AD0/XP PC27
41 LCDDISP PA25 ENABLE Display enable signal –
42 TWD0 PA30 TWI_SDA I2C data line (maXTouch®) –
43 TWCK0 PA31 TWI_SCL I2C clock line (maXTouch) –
44 GPIO PE9 IRQ1 maXTouch interrupt line –
45 GPIO PE10 IRQ2 Interrupt line for other I2C devices –
46 LCDPWM PA26 PWM Backlight control –
47 RESET – RESET Reset for both display and maXTouch –
48 Main_5v/3v3 VCC VCC 3.3V or 5V supply (0R) –
49 Main_5v/3v3 VCC VCC 3.3V or 5V supply (0R) –
50 GND GND GND GND –
Table 4-22. LCD Connector J2 Signal Descriptions (Continued)
Pin Signal PIO Signal RGB Interface Function Alternate
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4.3.11 HDMI Connector
Figure 4-46. HDMI Type A Female Connector J5
Table 4-23. HDMI Type A Female Connector J5 Signal Descriptions
Signal Pin No. Signal
TMDS Data 2+ 1 2 TMDS Data 2 Shield
TMDS Data 2- 3 4 TMDS Data 1+
TMDS Data 1 Shield 5 6 TMDS Data 1-
TMDS Data 0+ 7 8 TMDS Data 0 Shield
TMDS Data 0- 9 10 TMDS Clock +
TMDS Clock Shield 11 12 TMDS Clock -
CEC (not connected) 13 14 Not connected
SCL 15 16 SDA
GND 17 18 +5V
Hot Plug Detect 19 20 DDC/CEC (GND)
49SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
4.3.12 XPRO Power Connector
Figure 4-47. XPRO Power Connector J21
4.3.13 XPRO Ext1 Connector
Figure 4-48. XPRO Ext1 Connector J22
Note: 1. Used by the EDBG interface.
Table 4-24. XPRO Power Connector J21 Signal Descriptions
Signal Pin No. Signal
EXP_5V 1 2 GND
VCC_5V 3 4 VCC_3v3
1 3
2 4
1 3 5 7 9 11 13 15 17 19
2 4 6 8 10 12 14 16 18 20
Table 4-25. XPRO Ext1 Connector J22 Signal Descriptions
SAMA5D44
XPRO Signal Pin No. XPRO Signal
SAMA5D44
Function Pin Function Pin
ID02(1) EDBG(1) ID 1 2 GND – –
AD0 PC27 ADC(+) 3 4 ADC(-) PC28 AD1
TIOA4 PE21 GPIO 5 6 GPIO PE22 TIOBA4
PWMH3 PC2 PWM(+) 7 8 PWM(-) PC3 PWML3
PCK0 PB26 IRQ/GPIO 9 10 SPI_SS_B/GPIO PB27 SPI1_NPCS3
TWD2 PB29 TWI_SDA 11 12 TWI_SCL PB30 TWCK2
URXD1 PC25 UART_RX 13 14 UART_TX PC26 UTXD1
SPI1_NPCS0 PB21 SPI_SS_A 15 16 SPI_MOSI PB19 SPI1_MOSI
SPI1_MISO PB18 SPI_MISO 17 18 SPI_SCK PB20 SPI1_SPCK
– – GND 19 20 VCC 3v3 – –
SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
50
4.3.14 XPRO Ext2 Connector
Figure 4-49. XPRO Ext2 Connector J23
Note: 1. Used by the EDBG interface.
1 3 5 7 9 11 13 15 17 19
2 4 6 8 10 12 14 16 18 20
Table 4-26. XPRO Ext2 Connector J23 Signal Descriptions
SAMA5D44
XPRO Signal Pin No. XPRO Signal
SAMA5D44
Function Pin Function Pin
ID03(1) EDBG(1) ID 1 2 GND – –
AD2 PC29 ADC(+) 3 4 ADC(-) PC30 AD3
TIOA5 PE18 GPIO 5 6 GPIO PE19 TIOB5
PWMH2 PC0 PWM(+) 7 8 PWM(-) PC1 PWML2
SPI2_NPCS1 PB14 IRQ/GPIO 9 10 SPI_SS_B/GPIO PB15 SPI2_NPCS2
TWD1 PE29 TWI_SDA 11 12 TWI_SCL PE30 TWCK1
RXD4 PE26 UART_RX 13 14 UART_TX PE27 TXD4
SPI2_NPCS0 PD17 SPI_SS_A 15 16 SPI_MOSI PD13 SPI2_MOSI
SPI2_MISO PD11 SPI_MISO 17 18 SPI_SCK PD15 SPI2_SPCK
– – GND 19 20 VCC 3v3 – –
51SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
4.3.15 PIO Usage
The following tables provide the use of different PIO lines on the SAMA5D4-XULT, sorted by PIO lines.
Most of the signals can also be configured as either inputs or outputs from/to the processor.
Table 4-27. PIO A Pin Assignment and Signal Description
Power Rail I/O Type Primary SignalPeripheral A
SignalPeripheral B
SignalPeripheral C
Signal
VDDIOP GPIO PA0 LCDDAT0 – TMS
VDDIOP GPIO PA1 LCDDAT1 – –
VDDIOP GPIO_CLK PA2 LCDDAT2 G1_TXCK –
VDDIOP GPIO_CLK PA3 LCDDAT3 G1_RXCK –
VDDIOP GPIO PA4 LCDDAT4 G1_TXEN –
VDDIOP GPIO PA5 LCDDAT5 G1_TXER –
VDDIOP GPIO PA6 LCDDAT6 G1_CRS –
VDDIOP GPIO PA7 LCDDAT7 – –
VDDIOP GPIO PA8 LCDDAT8 – TCK
VDDIOP GPIO PA9 LCDDAT9 – –
VDDIOP GPIO PA10 LCDDAT10 G1_RXDV –
VDDIOP GPIO PA11 LCDDAT11 G1_RXER –
VDDIOP GPIO PA12 LCDDAT12 G1_RX0 –
VDDIOP GPIO PA13 LCDDAT13 G1_RX1 –
VDDIOP GPIO PA14 LCDDAT14 G1_TX0 –
VDDIOP GPIO PA15 LCDDAT15 G1_TX1 –
VDDIOP GPIO PA16 LCDDAT16 – NTRST
VDDIOP GPIO PA17 LCDDAT17 – –
VDDIOP GPIO PA18 LCDDAT18 G1_RX2 –
VDDIOP GPIO PA19 LCDDAT19 G1_RX3 –
VDDIOP GPIO PA20 LCDDAT20 G1_TX2 –
VDDIOP GPIO PA21 LCDDAT21 G1_TX3 –
VDDIOP GPIO PA22 LCDDAT22 G1_MDC –
VDDIOP GPIO PA23 LCDDAT23 G1_MDIO –
VDDIOP GPIO_CLK PA24 LCDPWM PCK0 –
VDDIOP GPIO PA25 LCDDISP TD0 –
VDDIOP GPIO PA26 LCDVSYNC PWMH0 SPI1_NPCS1
VDDIOP GPIO PA27 LCDHSYNC PWML0 SPI1_NPCS2
VDDIOP GPIO_CLK2 PA28 LCDPCK PWMH1 SPI1_NPCS3
VDDIOP GPIO PA29 LCDDEN PWML1 –
VDDIOP GPIO PA30 TWD0 – –
VDDIOP GPIO PA31 TWCK0 – –
SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
52
Table 4-28. PIO B Pin Assignment and Signal Description
Power Rail I/O Type Primary SignalPeripheral A
SignalPeripheral B
SignalPeripheral C
Signal
VDDIOP GPIO_CLK PB0 G0_TXCK – –
VDDIOP GPIO_CLK PB1 G0_RXCK SCK2 ISI_PCK
VDDIOP GPIO PB2 G0_TXEN – –
VDDIOP GPIO PB3 G0_TXER CTS2 ISI_VSYNC
VDDIOP GPIO PB4 G0_CRS RXD2 ISI_HSYNC
VDDIOP GPIO PB5 G0_COL TXD2 PCK2
VDDIOP GPIO PB6 G0_RXDV – –
VDDIOP GPIO PB7 G0_RXER – –
VDDIOP GPIO PB8 G0_RX0 – –
VDDIOP GPIO PB9 G0_RX1 – –
VDDIOP GPIO_CLK PB10 G0_RX2 PCK2 PWML1
VDDIOP GPIO PB11 G0_RX3 RTS2 PWMH1
VDDIOP GPIO PB12 G0_TX0 – –
VDDIOP GPIO PB13 G0_TX1 – –
VDDIOP GPIO PB14 G0_TX2 SPI2_NPCS1 PWMH0
VDDIOP GPIO PB15 G0_TX3 SPI2_NPCS2 PWML0
VDDIOP GPIO PB16 G0_MDC – –
VDDIOP GPIO PB17 G0_MDIO – –
VDDIOP GPIO PB18 SPI1_MISO D8 –
VDDIOP GPIO PB19 SPI1_MOSI D9 –
VDDIOP GPIO_CLK PB20 SPI1_SPCK D10 –
VDDIOP GPIO PB21 SPI1_NPCS0 D11 –
VDDIOP GPIO PB22 SPI1_NPCS1 D12 –
VDDIOP GPIO PB23 SPI1_NPCS2 D13 –
VDDIOP GPIO PB24 DRXD D14 TDI
VDDIOP GPIO PB25 DTXD D15 TDO
VDDIOP GPIO_CLK PB26 PCK0 RK0 PWMH0
VDDIOP GPIO PB27 SPI1_NPCS3 TK0 PWML0
VDDIOP GPIO PB28 SPI2_NPCS3 TD0 PWMH1
VDDIOP GPIO PB29 TWD2 RD0 PWML1
VDDIOP GPIO PB30 TWCK2 RF0 –
VDDIOP GPIO PB31 – TF0 –
53SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
Table 4-29. PIO C Pin Assignment and Signal Description
Power Rail I/O Type Primary SignalPeripheral A
SignalPeripheral B
SignalPeripheral C
Signal
VDDIOM GPIO PC0 SPI0_MISO PWMH2 ISI_D8
VDDIOM GPIO PC1 SPI0_MOSI PWML2 ISI_D9
VDDIOM GPIO_CLK PC2 SPI0_SPCK PWMH3 ISI_D10
VDDIOM GPIO PC3 SPI0_NPCS0 PWML3 ISI_D11
VDDIOM MCI_CLK PC4 SPI0_NPCS1 MCI0_CK PCK1
VDDIOM GPIO PC5 D0 MCI0_CDA –
VDDIOM GPIO PC6 D1 MCI0_DA0 –
VDDIOM GPIO PC7 D2 MCI0_DA1 –
VDDIOM GPIO PC8 D3 MCI0_DA2 –
VDDIOM GPIO PC9 D4 MCI0_DA3 –
VDDIOM GPIO PC10 D5 MCI0_DA4 –
VDDIOM GPIO PC11 D6 MCI0_DA5 –
VDDIOM GPIO PC12 D7 MCI0_DA6 –
VDDIOM GPIO PC13 NRD/NANDOE MCI0_DA7 –
VDDIOM GPIO PC14 NWE/NANDWE – –
VDDIOM GPIO PC15 NCS3 – –
VDDIOM GPIO PC16 NANDRDY – –
VDDIOM GPIO PC17 A21/NANDALE – –
VDDIOM GPIO PC18 A22/NANDCLE – –
VDDIOM GPIO PC19 ISI_D0 TK1 –
VDDIOM GPIO PC20 ISI_D1 TF1 –
VDDIOM GPIO PC21 ISI_D2 TD1 –
VDDIOM GPIO PC22 ISI_D3 RF1 –
VDDIOM GPIO PC23 ISI_D4 RD1 –
VDDIOM GPIO PC24 ISI_D5 RK1 PCK1
VDDIOM GPIO PC25 ISI_D6 TWD3 URXD1
VDDIOM GPIO PC26 ISI_D7 TWCK3 UTXD1
VDDANA GPIO_ANA PC27 AD0 SPI0_NPCS1 PWML0
VDDANA GPIO_ANA PC28 AD1 SPI0_NPCS2 PWML1
VDDANA GPIO_ANA PC29 AD2 SPI0_NPCS3 PWMFI0
VDDANA GPIO_ANA PC30 AD3 – PWMH0
VDDANA GPIO_ANA PC31 AD4 – PWMH1
SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
54
Table 4-30. PIO D Pin Assignment and Signal Description
PIOD Mode Secure
Primary SignalPeripheral A
SignalPeripheral B
SignalPeripheral C
SignalPower Rail I/O Type
VDDIOP GPIO_CLK PD8 PCK0 – –
VDDIOP GPIO PD9 FIQ – –
VDDIOP GPIO PD10 CTS0 CDETA –
VDDIOP GPIO PD11 RTS0 SPI2_MISO –
VDDIOP GPIO PD12 RXD0 DCENA –
VDDIOP GPIO PD13 TXD0 SPI2_MOSI –
VDDIOP GPIO PD14 CTS1 CDETB –
VDDIOP GPIO PD15 RTS1 SPI2_SPCK –
VDDIOP GPIO PD16 RXD1 DCENB –
VDDIOP GPIO PD17 TXD1 SPI2_NPCS0 –
VDDANA GPIO_ANA PD18 – SENSE0 –
VDDANA GPIO_ANA PD19 – SENSE1 –
VDDANA GPIO_ANA PD20 – SENSE2 –
VDDANA GPIO_ANA PD21 – SENSE3 –
VDDANA GPIO_ANA PD22 – SENSE4 –
VDDANA GPIO_ANA PD23 – SENSE5 –
VDDANA GPIO_ANA PD24 – SENSE6 –
VDDANA GPIO_ANA PD25 – SENSE7 –
VDDANA GPIO_ANA PD26 – SENSE8 –
VDDANA GPIO_ANA PD27 – SENSE9 –
VDDIOP GPIO_CLK PD28 SCK0 – –
VDDIOP GPIO_CLK PD29 SCK1 DIS –
VDDIOP GPIO PD30 – – –
VDDIOP GPIO_CLK PD31 SPI0_NPCS2 PCK1 –
55SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
Table 4-31. PIO E Pin Assignment and Signal Description
Power Rail I/O Type Primary SignalPeripheral A
SignalPeripheral B
SignalPeripheral C
Signal
VDDIOM MCI_CLK PE0 A0/NBS0 MCI0_CDB CTS4
VDDIOM EBI PE1 A1 MCI0_DB0 –
VDDIOM EBI PE2 A2 MCI0_DB1 –
VDDIOM EBI PE3 A3 MCI0_DB2 –
VDDIOM EBI PE4 A4 MCI0_DB3 –
VDDIOM EBI PE5 A5 CTS3 –
VDDIOM EBI PE6 A6 TIOA3 –
VDDIOM EBI PE7 A7 TIOB3 PWMFI1
VDDIOM EBI PE8 A8 TCLK3 PWML3
VDDIOM EBI PE9 A9 TIOA2 –
VDDIOM EBI PE10 A10 TIOB2 –
VDDIOM EBI PE11 A11 TCLK2 –
VDDIOM EBI PE12 A12 TIOA1 PWMH2
VDDIOM EBI PE13 A13 TIOB1 PWML2
VDDIOM EBI PE14 A14 TCLK1 PWMH3
VDDIOM EBI PE15 A15 SCK3 TIOA0
VDDIOM EBI PE16 A16 RXD3 TIOB0
VDDIOM EBI PE17 A17 TXD3 TCLK0
VDDIOM EBI PE18 A18 TIOA5 MCI1_CK
VDDIOM EBI PE19 A19 TIOB5 MCI1_CDA
VDDIOM EBI PE20 A20 TCLK5 MCI1_DA0
VDDIOM EBI PE21 A23 TIOA4 MCI1_DA1
VDDIOM EBI PE22 A24 TIOB4 MCI1_DA2
VDDIOM EBI PE23 A25 TCLK4 MCI1_DA3
VDDIOM EBI PE24 NCS0 RTS3 –
VDDIOM EBI PE25 NCS1 SCK4 IRQ
VDDIOM EBI PE26 NCS2 RXD4 A18
VDDIOM EBI PE27 NWR1/NBS1 TXD4 –
VDDIOM EBI PE28 NWAIT RTS4 A19
VDDIOP DIB PE29 DIBP URXD0 TWD1
VDDIOP DIB PE30 DIBN UTXD0 TWCK1
VDDIOP GPIO PE31 ADTRG – –
SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
56
4.4 SAMA5D4-XULT Board Schematics
This section contains the following schematics:
Block diagram
PIO Muxing Table
Power Supply
SAMA5D44 - Power
SAMA5D44 - DDR2
SAMA5D44 - PIOA and PIOB
SAMA5D44 - PIOC and Flash
SAMA5D44 - SYS, PIOD, and PIOE
JTAG, USB, DEBUG, and LCD
HDMI
Ethernet_ETH0_10/100M
HSMCI
EDBG
Expansion and XPRO Connectors
57SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
Figure 4-50. Block diagram
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
2 15A
XX
-XX
-XX
Xin
JQX
XX
Blo
ck D
iagr
am
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
2 15A
XX
-XX
-XX
Xin
JQX
XX
Blo
ck D
iagr
am
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
2 15A
XX
-XX
-XX
Xin
JQX
XX
Blo
ck D
iagr
am
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
USB
DEVICE
USB
Host
x2
Single
PMU
Solution
5V INPUT
USB A,B,C
HDMI
Connector
Reset
Force PwrOn
Push
Buttons
LCD
Connector
JTAG
EDBG
User LEDs
Push Buttons
PIO
SERIAL
DATA
FLASH
PIO A,...E
PIO A,...E
ATMEL
SAMA5D44
CORTEX(R)-A5 PROCESSOR
Expansion & XPRO Connectors
5V & 3V3
EBI
4Gb
DDR2
SDRAM
4Gb
NAND
FLASH
SD
CARD
Micro SD
CARD
10/100
FAST ETHERNET
ETH0
Power rails
VBAT
ANALOG Reference
MAC
Serial
EEPROM
USB
DEVICE
JTAG
Connector
Sheet 10
Sheet 15
Sheet 10
5V INPUT
Sheet 14
Sheet 11
Sheet 13
Sheet 13
Sheet 12
Sheet 8
Sheet 8
Sheet 8
Sheet 6
Sheet 9
Sheet 4
Sheet 4
Sheet 5: Power Part
Sheet 6: DDR2 CTL
Sheet 7: PIOA & PIOB
Sheet 8: PIOC & Flash
Sheet 9: SYS & PIOD & PIOE
Sheet 10
PIO C
SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
58
Figure 4-51. PIO Muxing Table
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
3 15A
XX
-XX
-XX
Xin
JQX
XX
PIO
Mux
ing
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
3 15A
XX
-XX
-XX
Xin
JQX
XX
PIO
Mux
ing
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
3 15A
XX
-XX
-XX
Xin
JQX
XX
PIO
Mux
ing
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
CTS
1TX
D0/
SPI2
_MO
SIR
XD
0R
TS0/
SP
I2_M
ISO
CTS
0FI
Q
TXD
1/SP
I2_N
PCS0
RX
D1
RTS
1/S
PI2
_SP
CK
US
B_O
VC
UR
/CTS
4
TIO
A3
DB
GU
_CTS
3M
CI1
_PW
RM
CI1
_CD
MC
I0_C
DG
0_IR
Q
US
BB
_EN
5VLC
D_I
RQ
2LC
D_I
RQ
1P
B_U
SE
R/T
CLK
3TI
OB
3
DBG
U_R
XD3
LED
_USE
R/L
CD
_ID
/TIO
A0
TIO
B1/
PW
ML2
TIO
A1/
PW
MH
2
TIO
B4/M
CI1
_DA2
TIO
A4/M
CI1
_DA1
TCLK
5/M
CI1
_DA0
TIO
B5/M
CI1
_CD
ATI
OA5
/MC
I1_C
KD
BGU
_TXD
3
RTS
4TX
D4
RX
D4
DB
GU
_RTS
3TC
LK4/
MC
I1_D
A3
SP
I0_N
PC
S2/
PC
K1
LED
_PO
WE
RU
SB
A_V
BU
SU
TXD
0/TW
CK1
UR
XD0/
TWD
1
PIOE
PIOE
PIOD
PIOD
US
BC
_EN
5V
SE
NS
E3
SE
NS
E4
SE
NS
E0
SC
K1
SE
NS
E1
SE
NS
E2
PD
31
SC
K0
PD
21
PD
16P
D17
PD
18P
D19
PD
20
PE
0
PE
7
PE
1P
E2
PE
3P
E4
PE
9P
E10
PE
11
PE
5P
E6
PE
12P
E13
PE
14P
E15
PE
8
PD
30
PD
23P
D24
PD
25P
D26
PD
22
PD
27P
D28
PD
29
PE
20P
E21
PE
16P
E17
PE
24P
E23
PE
25
PE
18P
E19
PE
31
PE
27P
E26
PE
28
PE
22
PE
30P
E29
PM
IC_I
RQ
/SC
K4
PD
8
PD
10
PD
12P
D13
PD
14
PD
11
PD
15
PD
9S
EN
SE
7S
EN
SE
6S
EN
SE
5P
CK
0
SE
NS
E9
SE
NS
E8
PIO
Mux
ing
& J
umpe
r set
ting
1 2 9 103 4 5 6 7 8 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50
ID_S
YS
LCD
DA
T1LC
DD
AT2
LCD
DA
T3
LCD
DA
T4LC
DD
AT5
LCD
DA
T6LC
DD
AT7
GN
D
GN
DLC
DD
AT8
LCD
DA
T9LC
DD
AT1
0LC
DD
AT1
1G
ND
LCD
DA
T12
LCD
DA
T13
LCD
DA
T14
LCD
DA
T15
GN
D
LCD
DA
T16
LCD
DA
T17
LCD
DA
T18
LCD
DA
T19
GN
D
LCD
DA
T20
LCD
DA
T21
LCD
DA
T22
LCD
DA
T23
GN
D
IRQ
2
TWD
0
LCD
VC
CV
CC
GN
D
LCD
DIS
P
LCD
VS
YN
C
LCD
DE
N
SPI1
_MIS
O/A
D1_
XM
SP
I1_S
PC
K/A
D3_
YM
LCD
DA
T0
Res
et
IRQ
1TW
CK
0
LCD
PW
M
LCD
HS
YN
C
LCD
PC
K
SP
I1_M
OS
I/AD
2_Y
P
SP
I1_N
PC
S2/
AD
0_X
P
GN
DLC
DD
AT1
LCD
DAT
0/JT
AG_T
MS
LCD
DA
T7LC
DD
AT6
LCD
DA
T5LC
DD
AT4
LCD
DA
T3LC
DD
AT2
LCD
DA
T12
LCD
DA
T11
LCD
DA
T10
LCD
DA
T9LC
DD
AT8/
JTAG
_TC
K
LCD
DA
T17
LCD
DAT
16/N
TRST
LCD
DA
T15
LCD
DA
T14
LCD
DA
T13
LCD
DA
T23
LCD
DA
T22
LCD
DA
T21
LCD
DA
T20
LCD
DA
T19
LCD
DA
T18
LCD
PC
KLC
DH
SY
NC
LCD
VS
YN
CLC
DD
ISP/
HD
MI_
INT
LCD
PW
M/H
DM
I_M
CK
SC
K2/
ISI_
PC
KG
0_TX
CK
TWC
K0
TWD
0LC
DD
EN
G0_
RXE
RG
0_R
XD
VTX
D2/
PCK2
RXD
2/IS
I_H
SYN
CC
TS2/
ISI_
VS
YN
CG
0_TX
EN
G0_
TX1
G0_
TX0
RTS
2/P
WM
H1
G0_
RX
1G
0_R
X0
G0_
MD
IOG
0_M
DC
SP
I2_N
PC
S2/
PW
ML0
/HD
MI_
RS
TS
PI2
_NP
CS
1/P
WM
H0
SP
I1_N
PC
S2
SP
I1_N
PC
S1
SP
I1_N
PC
S0
SP
I1_S
PC
KS
PI1
_MO
SI
SP
I1_M
ISO
SPI2
_NPC
S3/H
DM
I_TD
0/PW
MH
1S
PI1
_NP
CS
3/H
DM
I_TK
0/P
WM
L0P
CK
0/R
K0/
PW
MH
0JT
AG_T
DO
JTAG
_TD
I
SP
I0_M
ISO
/PW
MH
2/IS
I_D
8
PC
K2/
PW
ML1
HD
MI_
TF0
TWC
K2/
RF0
TWD
2/R
D0/
PW
ML1
MC
I0_C
DA
/NA
ND
_D0
MC
I0_C
K/P
CK
1S
PI0
_NP
CS
0/P
WM
L3/IS
I_D
11S
PI0
_SP
CK
/PW
MH
3/IS
I_D
10S
PI0
_MO
SI/P
WM
L2/IS
I_D
9
NA
ND
_NC
S3
NW
E/N
AN
D_W
EN
AN
D_R
E
NA
ND
_D6
NA
ND
_D5
MC
I0_D
A3/
NA
ND
_D4
MC
I0_D
A2/
NA
ND
_D3
MC
I0_D
A1/
NA
ND
_D2
MC
I0_D
A0/
NA
ND
_D1
AD
0_X
P/P
WM
L0
NA
ND
_CLE
NA
ND
_ALE
NA
ND
_RD
Y
NA
ND
_D7
AD
3_Y
M/P
WM
H0
AD
4/P
WM
H1
AD
2_Y
P/P
WM
FI0
AD
1_X
M/P
WM
L1
PIOA
PIOA
PIOC
PIOC
PIOB
PIOB
PA
17P
A18
PA
21P
A20
PA
19
PA
16
PA
24P
A23
PA
22
PA
27P
A26
PA
31
PA
25
PA
30P
A29
PA
28
PB
3P
B4
PB
0
PB
5P
B6
PB
7
PB
1P
B2
PB
13
PB
8
PB
12P
B11
PB
10P
B9
PB
15P
B14
PB
16P
B17
PB
18
PC
5
PC
0P
C1
PC
7P
C8
PC
9
PC
2P
C3
PC
4
PC
10P
C11
PC
12P
C13
PC
6
PC
14P
C15
PC
16P
C17
PC
19P
C20
PC
21
PC
29
PC
22P
C23
PC
24P
C25
PC
18
PC
31
PC
26P
C27
PC
28
PC
30
PB
19
PB
21
PB
29P
B28
PB
22P
B23
PB
24
PB
26
PB
30
PB
20
PB
31
PB
25
PB
27P
A11
PA
12
PA
6P
A7
PA
8P
A9
PA
10
PA
1P
A2
PA
3P
A4
PA
5
PA
0
PA
13P
A14
PA
15
ISI_
D2/
TD1
ISI_
D1/
TF1
ISI_
D0/
TK1
ISI_
D6/
TWD
3/U
RXD
1IS
I_D
5/R
K1/
PC
K1
ISI_
D4/
RD
1IS
I_D
3/R
F1
ISI_
D7/
TWC
K3/U
TXD
1
JP6
JP7
JUMPER DESCRIPTION
JP2
JP3
JP4
JP5
JP1
JP8
Dis
able
ED
BG
OP
EN
SH
OR
TI_
VC
C_3
V3
Mea
sure
men
tS
HO
RT
I_1V
2_H
DM
I Mea
sure
men
t
SH
OR
TI_
VD
DB
U M
easu
rem
ent
OP
EN
Dis
able
CS
SP
I&N
and
Flas
h M
emor
yD
NP
CS
SP
I Fla
sh M
emor
y
SH
OR
TI_
VD
DC
OR
E M
easu
rem
ent
SH
OR
TI_
VD
DIO
DD
R_M
PU
Mea
sure
men
t
EG
AS
UE
GA
SU
EGASU
EGASU
EGASU
EGASU
EGASU
EGASU
EGASU
EGASU
PART
DEFAULT
FUNCTION
59SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
Figure 4-52. Power Supply
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
VD
DR
EF
PW
RH
LD
PW
RH
LD
VD
DR
EF
VD
DB
U_3
V
VC
C_5
V
VD
DC
OR
E
VD
DIO
DD
R
VD
DB
U_2
V
VC
C_1
V8
1V2_
HD
MI VC
C_3
V3
VC
C_3
V3
FUS
E_2
V5 VD
DA
NA
VC
C_5
V
VO
UT6
VD
DIO
P
VD
DIO
M
VD
DU
TMII
VD
DIO
DD
R_M
PU
VC
C_2
V
VC
C_2
V
VC
C_3
V3
VO
UT7
VC
C_E
DB
G
VC
C_5
V
VC
C_5
V_I
N
SH
DN
[9]
WK
UP
[9]
PM
IC_I
RQ
_PE
25[9
]
PM
IC_T
WC
K3_
PC
26[8
]P
MIC
_TW
D3_
PC
25[8
]
NR
ST_
2V[9
]
NR
ST_
3V3
[10,
12,1
4,15
]
NR
ST_
3V3
[10,
12,1
4,15
]
US
B_V
BU
S_5
V[1
0]
EX
P_5
V[1
5]
ED
BG
_US
B_V
BU
S_5
V[1
4]
EX
P_V
BA
T[1
5]
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
4 15A
XX
-XX
-XX
Xin
JQX
XX
Pow
er S
uppl
y
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
4 15A
XX
-XX
-XX
Xin
JQX
XX
Pow
er S
uppl
y
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
4 15A
XX
-XX
-XX
Xin
JQX
XX
Pow
er S
uppl
y
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
(3V
3)
(1V
8)
(2V
5)
RES
ET
Pla
ce T
P13
and
TP
14 to
Bot
tom
.
WA
KE
UP
RES
ET5V/2
A In
put
BP
3Ta
ct S
witc
hB
P3
Tact
Sw
itch
R40
010
0K 1
%R
400
100K
1%
R40
710
0K 1
%R
407
100K
1%
C23 22
uFC
23 22uF
R40
8D
NP
(0R
)R
408
DN
P(0
R)
Q1
IRLM
L250
2Q
1IR
LML2
502
1
3 2
C17
11u
FC
171
1uF
C17
54.
7uF
C17
54.
7uF
U16
NC
P34
9MN
AE
TBG
U16
NC
P34
9MN
AE
TBG
IN1
FLA
G3
EN
6
OU
T14
GN
D2
OU
T25
IN_p
ad7
R18
8
110K
1%
R18
8
110K
1%
C64
100n
FC
6410
0nF
C25
10uF
C25
10uF
R17
1KR
171K
TP13
SM
DTP
13S
MD
C17
64.
7uF
C17
64.
7uF
L42.
2uH
L42.
2uH
R22
0RR
220R
C14
4.7u
FC
144.
7uF
U13
NC
P46
82D
SQ
20T1
G
U13
NC
P46
82D
SQ
20T1
G
VIN
4
GN
D2
CE
1
VO
UT
3
R54
0RR
540R
U2
AC
T886
5QI3
05-T
U2
AC
T886
5QI3
05-T
VP
131
VP
226
VP
316
VD
DR
EF
23
VS
EL
20
NC
118
PW
RE
N17
nPB
STA
T13
nIR
Q12
nRS
TO11
PW
RH
LD10
SC
L21
SD
A22
RE
FBP
32
nPB
IN9
INL4
55
INL6
76
SW
130
OU
T11
SW
227
OU
T224
SW
315
OU
T319
OU
T43
OU
T54
OU
T67
OU
T78
GA 2
GP1 29GP2 28GP3 14
EP 33
NC
225R40
310
0K 1
%R
403
100K
1%
C3
100n
FC
310
0nF
L7
180o
hm a
t 100
MH
z
L7
180o
hm a
t 100
MH
z
12
Q5
IRLM
L640
2Q
5IR
LML6
402
1
32
R78
0RR
780R
R40
1D
NP
(0R
)R
401
DN
P(0
R)
R16
1
4.7KR16
1
4.7K
R18 10KR18 10K
JP4
DN
P(H
eade
r 1X
2)JP
4D
NP
(Hea
der 1
X2)
12
C24
10uF
C24
10uF
R33
3D
NP
(0R
)R
333
DN
P(0
R)
PC
B1
SA
MA
5D4-
XU
LT P
CB
PC
B1
SA
MA
5D4-
XU
LT P
CB
R40
90R
R40
90R
R2
49.9
K 1
%R
249
.9K
1%
C16
4.7u
FC
164.
7uF
C1
10uF
C1
10uF
C21
100n
FC
2110
0nF
L26
180o
hm a
t 100
MH
z
L26
180o
hm a
t 100
MH
z
12
D11
BA
T54C
D11
BA
T54C
31 2
Q8
IRLM
L640
2Q
8IR
LML6
402
1
32
JP2
DN
P(H
eade
r 1X
2)JP
2D
NP
(Hea
der 1
X2)
12
C17
010
0nF
C17
010
0nF
R18
7
68K
R18
7
68K
R40
20R
R40
20R
Q7
IRLM
L640
2Q
7IR
LML6
402
1
32
L12.
2uH
L12.
2uH
C10
DN
P(1
00nF
)C
10D
NP
(100
nF)
C12
4.7u
FC
124.
7uF
L24
180o
hm a
t 100
MH
z
L24
180o
hm a
t 100
MH
z
12
C19
42.
2uF
C19
42.
2uF
C19
02.
2uF
C19
02.
2uF
J4
DN
P(D
C J
ack)
J4
DN
P(D
C J
ack)
1 23
L32.
2uH
L32.
2uH
R1
100K
1%
R1
100K
1%
TP14
SM
DTP
14S
MD
C2
10uF
C2
10uF
C18
4.7u
FC
184.
7uF
JP6
DN
P(H
eade
r 1X
2)JP
6D
NP
(Hea
der 1
X2)
12
C85
100n
FC
8510
0nF
R55
1R 1
%R
551R
1%
C27
10uF
C27
10uF
R41
00R
R41
00R
Q6
IRLM
L640
2Q
6IR
LML6
402
1
32
C4
10nF
C4
10nF
R19 10KR19 10K
C10
91u
FC
109
1uF
L19
180o
hm a
t 100
MH
z
L19
180o
hm a
t 100
MH
z
12
C82 1u
FC
82 1uF
BP
2Ta
ct S
witc
hB
P2
Tact
Sw
itch
C26
10uF
C26
10uF
C6
100n
FC
610
0nF
C5
DN
P(1
00nF
)C
5D
NP
(100
nF)
C18
74.
7uF
C18
74.
7uF
BA
T1
Bat
tery
Hol
der_
3V
BA
T1
Bat
tery
Hol
der_
3V
VCC1 GND 2
JP5
DN
P(H
eade
r 1X
2)JP
5D
NP
(Hea
der 1
X2)
12
C17
747
nFC
177
47nF
R16
49.9
K 1
%R
1649
.9K
1%
JP3
DN
P(H
eade
r 1X
2)JP
3D
NP
(Hea
der 1
X2)
12
L6
180o
hm a
t 100
MH
z
L6
180o
hm a
t 100
MH
z
12
C19 1u
FC
19 1uF
C28
10uF
C28
10uF
SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
60
Figure 4-53. SAMA5D44 - Power
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
VD
DU
TMIC
VD
DP
LLA
VD
DU
TMIC
VD
DP
LLA
VD
DO
SC
VD
DO
SC
GN
DU
TMI
GN
DU
TMI
VD
DB
U_2
V
VC
CC
OR
E_1
V2
VC
CC
OR
E_1
V2
VD
DC
OR
E
VD
DIO
DD
R_M
PU
VD
DIO
P
VD
DU
TMII
VD
DIO
M
FUS
E_2
V5
VD
DA
NA
VC
C_3
V3
FUS
E_2
V5
VC
C_5
V
VD
DB
U_2
V
VC
C_3
V3
VC
CC
OR
E_1
V2
VC
C_1
V8
VC
C_E
DB
G
VO
UT6
VO
UT7
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
5 15A
XX
-XX
-XX
Xin
JQX
XX
SA
MA
5D44
- Pow
er
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
5 15A
XX
-XX
-XX
Xin
JQX
XX
SA
MA
5D44
- Pow
er
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
5 15A
XX
-XX
-XX
Xin
JQX
XX
SA
MA
5D44
- Pow
er
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
POW
ER T
EST
POIN
TS
A c
oppe
r pla
nfo
r GN
DU
TMI c
over
all U
SB
com
pom
ents
C90
clo
se to
Pin
P14
of U
6.
(1V
8)
(1V
2)
(1V
8)
(3V
3)
(3V
3)
(3V
3)
(3V
3)
(3V
3)
(1V
2)
(1V
2)
(2V
5)
(2V
)
C13
510
0nF
C13
510
0nF
C11
910
0nF
C11
910
0nF
C11
710
0nF
C11
710
0nF
C91
100n
FC
9110
0nF
C10
710
0nF
C10
710
0nF C
128
100n
FC
128
100n
F
C13
110
uFC
131
10uF
C89
100n
FC
8910
0nF
TP9
SM
DTP
9S
MD
C16
310
uFC
163
10uF
C14
010
0nF
C14
010
0nF
C95
100n
FC
9510
0nF
C84
100n
FC
8410
0nF
C11
810
0nF
C11
810
0nF
C55
4.7u
FC
554.
7uF
C13
010
0nF
C13
010
0nF
C98
100n
FC
9810
0nF
C10
310
0nF
C10
310
0nF
TP16
SM
DTP
16S
MD
C11
01n
FC
110
1nF
TP4
SM
DTP
4S
MD
L25
60oh
m a
t 100
MH
zL2
560
ohm
at 1
00M
Hz
12
C78
100n
FC
7810
0nFC
162
10uF
C16
210
uF
C76
10uF
C76
10uF
L23
60oh
m a
t 100
MH
zL2
360
ohm
at 1
00M
Hz
12
TP10
SM
DTP
10S
MD
C11
110
0nF
C11
110
0nF
C10
410
0nF
C10
410
0nF
TP17
SM
DTP
17S
MD
C10
21n
FC
102
1nF
C12
210
0nF
C12
210
0nF
C13
710
0nF
C13
710
0nF
L20
10uH
_150
mA
L20
10uH
_150
mA
TP5
SM
DTP
5S
MD
C90
100n
FC
9010
0nF
C13
910
0nF
C13
910
0nF
C10
010
0nF
C10
010
0nF
C88
100n
FC
8810
0nF
C87
100n
FC
8710
0nF
C77
100n
FC
7710
0nF
C92
100n
FC
9210
0nF
TP12
SM
DTP
12S
MD
C12
110
0nF
C12
110
0nF
TP15
SM
DTP
15S
MD
R35
50R
R35
50R
C11
410
0nF
C11
410
0nF
C11
510
0nF
C11
510
0nF
R33
41R
1%
R33
41R
1%
C99
100n
FC
9910
0nF
C11
310
0nF
C11
310
0nF
C13
210
uFC
132
10uF
C93
100n
FC
9310
0nF
TP8
SM
DTP
8S
MD
C96
100n
FC
9610
0nF
C73
100n
FC
7310
0nF
C11
210
uFC
112
10uF
TP11
SM
DTP
11S
MD
C10
110
0nF
C10
110
0nF
TP3
SM
DTP
3S
MD
TP18
SM
DTP
18S
MD
C12
310
0nF
C12
310
0nF
C12
410
0nF
C12
410
0nF
U6D
SA
MA
5D44
A-C
U
U6D
SA
MA
5D44
A-C
U
VD
DB
UW
4G
ND
BU
W1
VD
DC
OR
E_1
G8
GN
DC
OR
E_1
H8
VC
CC
OR
E_1
J7
VD
DIO
DD
R_1
E10
GN
DIO
DD
R_1
F10
VD
DIO
M_1
N7
GN
DIO
M_1
M7
VD
DIO
P_1
L5G
ND
IOP
_1G
6
VD
DU
TMIC
V13
VD
DU
TMII_
1W
13G
ND
UTM
IP
13
VD
DP
LLA
W10
GN
DP
LLL7
GN
DO
SC
N13
VD
DO
SC
P14
VD
DA
NA
_1C
9G
ND
AN
A_1
C10
VD
DFU
SE
R14
GN
DFU
SE
R15
GN
DIO
P_2
J6G
ND
IOP
_3L6
GN
DIO
P_4
N6
VD
DIO
P_2
K6
VD
DIO
P_3
M6
VD
DIO
P_4
H7
VC
CC
OR
E_2
K7
GN
DIO
M_2
N8
VD
DIO
M_2
M8
GN
DC
OR
E_2
J8
VC
CC
OR
E_3
K8
GN
DC
OR
E_3
L8G
ND
CO
RE
_4D
9G
ND
CO
RE
_5F9
VC
CC
OR
E_4
L9
GN
DC
OR
E_6
M9
VD
DC
OR
E_2
N9
GN
DIO
M_3
P9
VD
DIO
M_3
R9
GN
DC
OR
E_7
B10
GN
DC
OR
E_8
D10
GN
DC
OR
E_9
L10
GN
DC
OR
E_1
0M
10V
CC
CO
RE
_5N
10
GN
DIO
DD
R_2
E11
GN
DIO
DD
R_3
G11
VC
CC
OR
E_6
J11
GN
DC
OR
E_1
1K
11G
ND
CO
RE
_12
M11
GN
DC
OR
E_1
3J1
2G
ND
CO
RE
_14
L12
VC
CC
OR
E_7
L11
VD
DA
NA
_2N
11
VD
DIO
DD
R_2
E12
VD
DIO
DD
R_3
H12
GN
DIO
M_4
M12
GN
DA
NA
_2N
12V
DD
AN
A_3
P12
GN
DIO
DD
R_4
C13
GN
DIO
DD
R_5
J13
VD
DIO
DD
R_4
K13
GN
DIO
DD
R_6
L13
VD
DIO
DD
R_5
M13
VD
DIO
DD
R_6
C14
VD
DIO
DD
R_7
F14
GN
DIO
DD
R_7
G14
GN
DIO
DD
R_8
C17
GN
DIO
DD
R_9
G17
GN
DIO
DD
R_1
0K
18
VD
DIO
DD
R_8
D17
VD
DIO
DD
R_9
H16
VD
DIO
DD
R_1
0K
17
VD
DIO
M_4
P15
VD
DU
TMII_
2W
17
GN
DC
OR
E_1
5V
18G
ND
CO
RE
_16
W18
GN
DS
C1
F7
GN
DS
CIO
G7
GN
DS
CA
B8
GN
DS
CIO
AC
8
GN
DS
CB
E8
GN
DS
CIO
BF8
GN
DM
S_1
A11
GN
DM
S_2
H11
C70
100n
FC
7010
0nF
C10
81n
FC
108
1nF
61SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
Figure 4-54. SAMA5D44 - DDR2
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
MP
U_D
DR
2_A
0M
PU
_DD
R2_
A1
MP
U_D
DR
2_A
2M
PU
_DD
R2_
A3
MP
U_D
DR
2_A
4M
PU
_DD
R2_
A5
MP
U_D
DR
2_A
6M
PU
_DD
R2_
A7
MP
U_D
DR
2_A
8M
PU
_DD
R2_
A9
MP
U_D
DR
2_A
10M
PU
_DD
R2_
A11
MP
U_D
DR
2_A
12M
PU
_DD
R2_
A13
MP
U_D
DR
2_B
A0
MP
U_D
DR
2_B
A1
MP
U_D
DR
2_B
A2
MP
U_D
DR
2_C
Sn
MP
U_D
DR
2_R
AS
nM
PU
_DD
R2_
CA
Sn
MP
U_D
DR
2_W
En
MP
U_D
DR
2_C
K+
MP
U_D
DR
2_C
KE
n
DD
R2_
VR
EF
MP
U_D
DR
2_D
M0
MP
U_D
DR
2_D
M1
MP
U_D
DR
2_D
QS
0+M
PU
_DD
R2_
DQ
S0-
MP
U_D
DR
2_D
QS
1+M
PU
_DD
R2_
DQ
S1-
MP
U_D
DR
2_D
QS
2+M
PU
_DD
R2_
DQ
S2-
MP
U_D
DR
2_D
QS
3+M
PU
_DD
R2_
DQ
S3-
MP
U_D
DR
2_D
M3
MP
U_D
DR
2_D
M2
MP
U_D
DR
2_A
0M
PU
_DD
R2_
A1
MP
U_D
DR
2_A
2M
PU
_DD
R2_
A3
MP
U_D
DR
2_A
4M
PU
_DD
R2_
A5
MP
U_D
DR
2_A
6M
PU
_DD
R2_
A7
MP
U_D
DR
2_A
8M
PU
_DD
R2_
A9
MP
U_D
DR
2_A
10M
PU
_DD
R2_
A11
MP
U_D
DR
2_A
12M
PU
_DD
R2_
A13
MP
U_D
DR
2_B
A0
MP
U_D
DR
2_B
A1
MP
U_D
DR
2_B
A2
MP
U_D
DR
2_C
Sn
MP
U_D
DR
2_R
AS
nM
PU
_DD
R2_
CA
Sn
MP
U_D
DR
2_W
En
MP
U_D
DR
2_C
KE
n
MP
U_D
DR
2_C
K+
MP
U_D
DR
2_C
K-
MP
U_D
DR
2_C
K-
DD
R2_
VR
EF
DD
R2_
VR
EF
MP
U_D
DR
2_D
Q0
MP
U_D
DR
2_D
Q1
MP
U_D
DR
2_D
Q2
MP
U_D
DR
2_D
Q3
MP
U_D
DR
2_D
Q4
MP
U_D
DR
2_D
Q5
MP
U_D
DR
2_D
Q6
MP
U_D
DR
2_D
Q7
MP
U_D
DR
2_D
Q8
MP
U_D
DR
2_D
Q9
MP
U_D
DR
2_D
Q10
MP
U_D
DR
2_D
Q11
MP
U_D
DR
2_D
Q12
MP
U_D
DR
2_D
Q13
MP
U_D
DR
2_D
Q14
MP
U_D
DR
2_D
Q15
MP
U_D
DR
2_D
Q16
MP
U_D
DR
2_D
Q17
MP
U_D
DR
2_D
Q18
MP
U_D
DR
2_D
Q19
MP
U_D
DR
2_D
Q20
MP
U_D
DR
2_D
Q21
MP
U_D
DR
2_D
Q22
MP
U_D
DR
2_D
Q23
MP
U_D
DR
2_D
Q24
MP
U_D
DR
2_D
Q25
MP
U_D
DR
2_D
Q26
MP
U_D
DR
2_D
Q27
MP
U_D
DR
2_D
Q28
MP
U_D
DR
2_D
Q29
MP
U_D
DR
2_D
Q30
MP
U_D
DR
2_D
Q31
MP
U_D
DR
2_D
QS
0+M
PU
_DD
R2_
DQ
S0-
MP
U_D
DR
2_D
QS
1+M
PU
_DD
R2_
DQ
S1-
MP
U_D
DR
2_D
QS
2+M
PU
_DD
R2_
DQ
S2-
MP
U_D
DR
2_D
QS
3+M
PU
_DD
R2_
DQ
S3-
MP
U_D
DR
2_D
M0
MP
U_D
DR
2_D
M1
MP
U_D
DR
2_D
M2
MP
U_D
DR
2_D
M3
MP
U_D
DR
2_B
A2
MP
U_D
DR
2_B
A1
MP
U_D
DR
2_B
A0
MP
U_D
DR
2_W
En
MP
U_D
DR
2_C
AS
nM
PU
_DD
R2_
RA
Sn
MP
U_D
DR
2_C
Sn
MP
U_D
DR
2_C
KE
n
MP
U_D
DR
2_C
K+
MP
U_D
DR
2_C
K-
MP
U_D
DR
2_A
13M
PU
_DD
R2_
A12
MP
U_D
DR
2_A
11M
PU
_DD
R2_
A10
MP
U_D
DR
2_A
9M
PU
_DD
R2_
A8
MP
U_D
DR
2_A
7M
PU
_DD
R2_
A6
MP
U_D
DR
2_A
5M
PU
_DD
R2_
A4
MP
U_D
DR
2_A
3M
PU
_DD
R2_
A2
MP
U_D
DR
2_A
1M
PU
_DD
R2_
A0
MP
U_D
DR
2_C
K+
MP
U_D
DR
2_C
K-
MP
U_D
DR
2_D
Q0
MP
U_D
DR
2_D
Q1
MP
U_D
DR
2_D
Q2
MP
U_D
DR
2_D
Q3
MP
U_D
DR
2_D
Q4
MP
U_D
DR
2_D
Q5
MP
U_D
DR
2_D
Q6
MP
U_D
DR
2_D
Q7
MP
U_D
DR
2_D
Q8
MP
U_D
DR
2_D
Q9
MP
U_D
DR
2_D
Q10
MP
U_D
DR
2_D
Q11
MP
U_D
DR
2_D
Q12
MP
U_D
DR
2_D
Q13
MP
U_D
DR
2_D
Q14
MP
U_D
DR
2_D
Q15
MP
U_D
DR
2_D
Q16
MP
U_D
DR
2_D
Q17
MP
U_D
DR
2_D
Q18
MP
U_D
DR
2_D
Q19
MP
U_D
DR
2_D
Q20
MP
U_D
DR
2_D
Q21
MP
U_D
DR
2_D
Q22
MP
U_D
DR
2_D
Q23
MP
U_D
DR
2_D
Q24
MP
U_D
DR
2_D
Q25
MP
U_D
DR
2_D
Q26
MP
U_D
DR
2_D
Q27
MP
U_D
DR
2_D
Q28
MP
U_D
DR
2_D
Q29
MP
U_D
DR
2_D
Q30
MP
U_D
DR
2_D
Q31
DD
R2_
VR
EF
VD
DIO
DD
R
VD
DIO
DD
R
VD
DIO
DD
R
VD
DIO
DD
R
VD
DIO
DD
R
VD
DIO
DD
R
VD
DIO
DD
R
VD
DIO
DD
R
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
6 15A
XX
-XX
-XX
Xin
JQX
XX
SA
MA
5D44
- DD
R2
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
6 15A
XX
-XX
-XX
Xin
JQX
XX
SA
MA
5D44
- DD
R2
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
6 15A
XX
-XX
-XX
Xin
JQX
XX
SA
MA
5D44
- DD
R2
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
DD
R2
Add
ress
, con
trol a
nd d
ata
trace
s m
ay n
ot e
xcee
d 1.
3 in
ches
(33.
0 m
m).
Add
ress
, con
trol a
nd d
ata
trace
s m
ust b
e le
ngth
-mat
ched
to w
ithin
0.1
inch
(2.5
4mm
).A
ddre
ss, c
ontro
l and
dat
a tra
ces
mus
t mat
ch th
e da
ta g
roup
trac
e le
ngth
s to
with
in 0
.25
inch
es (6
.35m
m).
Kee
p ne
ts a
s sh
ort a
s po
ssib
le, t
here
fore
, DD
R2
devi
ces
have
to b
e pl
aced
clo
se a
s po
ssib
le o
f SA
MA
5D44
The
layo
ut E
BI D
DR
2 s
houl
d us
e co
ntro
lled
impe
danc
e tra
ces
of Z
O=
50oh
m c
hara
cter
istic
impe
danc
e.
MC
U_D
DR
Rou
ting
top
or b
otto
m
100
ohm
s di
ffere
ntia
l tra
ceim
peda
nce
Rou
ting
top
or b
otto
m
100
ohm
s di
ffere
ntia
l tra
ceim
peda
nce
R17
10R
R17
10R
C53
100n
FC
5310
0nF
C15
910
0nF
C15
910
0nF
C14
32.
2uF
C14
32.
2uF
R34
7D
NP
(100
R 1
%)
R34
7D
NP
(100
R 1
%)
L17
10uH
_150
mA
L17
10uH
_150
mA
R24
420
0R 1
%R
244
200R
1%
C14
810
0nF
C14
810
0nF
C51
100n
FC
5110
0nF
C61
2.2u
FC
612.
2uF
C14
910
0nF
C14
910
0nF
C12
710
0nF
C12
710
0nF
U7
MT4
7H12
8M16
RT-
25E
:C
U7
MT4
7H12
8M16
RT-
25E
:C
A0
M8
A1
M3
A2
M7
A3
N2
A4
N8
A5
N3
A6
N7
A7
P2
A8
P8
A9
P3
BA
0L2
BA
1L3
BA
2L1
VDD1A1VDD2E1VDD3J9VDD4M9VDD5R1
VDDQ1A9VDDQ2C1VDDQ3C3VDDQ4C7
VSS1 A3VSS2 E3VSS3 J3VSS4 N1VSS5 P9
VS
SD
LJ7
VSSQ1 A7VSSQ2 B8VSSQ3 D2VSSQ4 D8VSSQ5 E7
RFU
_R3
R3
DQ
0G
8D
Q1
G2
DQ
2H
7D
Q3
H3
DQ
4H
1D
Q5
H9
DQ
6F1
DQ
7F9
A10
M2
A11
P7
A12
R2
LDQ
SF7
LDQ
SE
8
UD
QS
B7
UD
QS
A8
DQ
8C
8D
Q9
C2
DQ
10D
7D
Q11
D3
DQ
12D
1D
Q13
D9
DQ
14B
1D
Q15
B9
VDDQ5C9VDDQ6E9VDDQ7G1VDDQ8G3VDDQ9G7
VSSQ6 F2VSSQ7 F8VSSQ8 H2VSSQ9 H8
A13
R8
NC
_E2
E2
NC
_A2
A2
CK
J8C
KK
8C
KE
K2
CS
L8R
AS
K7
CA
SL7
WE
K3
OD
TK
9
VR
EF
J2
LDM
F3U
DM
B3
VDDQ10G9
VD
DL
J1R
FU_R
7R
7
VSSQ10 B2
R24
320
0R 1
%R
243
200R
1%
C81
100n
FC
8110
0nF
C15
010
0nF
C15
010
0nF
C75
100n
FC
7510
0nF
C79
100n
FC
7910
0nF
U4
MT4
7H12
8M16
RT-
25E
:C
U4
MT4
7H12
8M16
RT-
25E
:C
A0
M8
A1
M3
A2
M7
A3
N2
A4
N8
A5
N3
A6
N7
A7
P2
A8
P8
A9
P3
BA
0L2
BA
1L3
BA
2L1
VDD1A1VDD2E1VDD3J9VDD4M9VDD5R1
VDDQ1A9VDDQ2C1VDDQ3C3VDDQ4C7
VSS1 A3VSS2 E3VSS3 J3VSS4 N1VSS5 P9
VS
SD
LJ7
VSSQ1 A7VSSQ2 B8VSSQ3 D2VSSQ4 D8VSSQ5 E7
RFU
_R3
R3
DQ
0G
8D
Q1
G2
DQ
2H
7D
Q3
H3
DQ
4H
1D
Q5
H9
DQ
6F1
DQ
7F9
A10
M2
A11
P7
A12
R2
LDQ
SF7
LDQ
SE
8
UD
QS
B7
UD
QS
A8
DQ
8C
8D
Q9
C2
DQ
10D
7D
Q11
D3
DQ
12D
1D
Q13
D9
DQ
14B
1D
Q15
B9
VDDQ5C9VDDQ6E9VDDQ7G1VDDQ8G3VDDQ9G7
VSSQ6 F2VSSQ7 F8VSSQ8 H2VSSQ9 H8
A13
R8
NC
_E2
E2
NC
_A2
A2
CK
J8C
KK
8C
KE
K2
CS
L8R
AS
K7
CA
SL7
WE
K3
OD
TK
9
VR
EF
J2
LDM
F3U
DM
B3
VDDQ10G9
VD
DL
J1R
FU_R
7R
7
VSSQ10 B2
R34
10R
R34
10R
C67
100n
FC
6710
0nF
C69
100n
FC
6910
0nF
C58
1nF
C58
1nF
C13
610
0nF
C13
610
0nF
C72
100n
FC
7210
0nF
C15
710
0nF
C15
710
0nF
C71
100n
FC
7110
0nF
C60
1nF
C60
1nF
C54
100n
FC
5410
0nF
R33
11R
1%
R33
11R
1%
C12
510
0nF
C12
510
0nF
U6B
SA
MA
5D44
A-C
U
U6B
SA
MA
5D44
A-C
U
DD
R_A
0F1
5D
DR
_A1
F16
DD
R_A
2E
17D
DR
_A3
G15
DD
R_A
4B
18D
DR
_A5
C16
DD
R_A
6E
15D
DR
_A7
F17
DD
R_A
8F1
8D
DR
_A9
D19
DD
R_A
10E
18D
DR
_A11
D18
DD
R_A
12C
18D
DR
_A13
D16
DD
R_D
0L1
4D
DR
_D1
K16
DD
R_D
2K
15D
DR
_D3
K14
DD
R_D
4J1
8D
DR
_D5
J17
DD
R_D
6J1
5D
DR
_D7
H19
DD
R_D
8H
18D
DR
_D9
J14
DD
R_D
10G
18D
DR
_D11
H17
DD
R_D
12H
15D
DR
_D13
H14
DD
R_D
14G
16D
DR
_D15
E19
DD
R_D
16E
14D
DR
_D17
E13
DD
R_D
18H
13D
DR
_D19
F13
DD
R_D
20B
15D
DR
_D21
A14
DD
R_D
22D
12D
DR
_D23
B14
DD
R_D
24B
13D
DR
_D25
G12
DD
R_D
26B
12D
DR
_D27
C12
DD
R_D
28F1
1D
DR
_D29
C11
DD
R_D
30D
11D
DR
_D31
B11
DD
R_D
QS
0J1
9
DD
R_D
QS
1F1
9
DD
R_D
QS
2A
15
DD
R_D
QS
3A
12
DD
R_D
QS
N0
K19
DD
R_D
QS
N1
G19
DD
R_D
QS
N2
A16
DD
R_D
QS
N3
A13
DD
R_D
QM
0L1
6D
DR
_DQ
M1
J16
DD
R_D
QM
2D
13D
DR
_DQ
M3
F12
DD
R_C
SB
16
DD
R_C
LKA
18D
DR
_CLK
NA
19
DD
R_C
KE
D15
DD
R_R
AS
B17
DD
R_C
AS
A17
DD
R_W
EE
16
DD
R_B
A1
D14
DD
R_B
A2
G13
DD
R_B
A0
C15
DD
R_C
ALN
C19
DD
R_C
ALP
B19
DD
R_V
RE
FK
12
C52
100n
FC
5210
0nF
C15
810
0nF
C15
810
0nF
C15
64.
7uF
C15
64.
7uF
C14
610
0nF
C14
610
0nF
C74
100n
FC
7410
0nF
C13
410
0nF
C13
410
0nF
R32
92.
2K 1
%R
329
2.2K
1%
C59
100n
FC
5910
0nF
C13
310
0nF
C13
310
0nF
C15
410
0nF
C15
410
0nF
C86
2.2u
FC
862.
2uF
C62
4.7u
FC
624.
7uF
C80
100n
FC
8010
0nF
C66
100n
FC
6610
0nF
C50
100n
FC
5010
0nF
C12
010
0nF
C12
010
0nF
C57
100n
FC
5710
0nF
C31
2.2u
FC
312.
2uF
R33
02.
2K 1
%R
330
2.2K
1%
C15
510
0nF
C15
510
0nF
C14
51n
FC
145
1nF
C56
100n
FC
5610
0nF
C15
11n
FC
151
1nF
C14
210
0nF
C14
210
0nF
C97
100n
FC
9710
0nF
C83
100n
FC
8310
0nF
C12
910
0nF
C12
910
0nF
SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
62
Figure 4-55. SAMA5D44 - PIOA and PIOB
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
PA
14P
A15
PA
20P
A21
PA
0P
A1
PA
2P
A3
PA
4P
A5
PA
6P
A7
PA
8P
A9
PA
10P
A11
PA
12P
A13
PA
16P
A17
PA
18P
A19
PA
22P
A23
PA
28
PA
26P
A27
PA
1
PA
29
PA
3
PA
5
PA
6
PA
7
PA
8
PA
9
PA
0
PA
2
PA
10
PA
11
PA
12
PA
14
PA
15
PA
16
PA
17
PA
18
PA
19
PA
20
PA
21
PA
26
PA
13
PA
27
PA
28
PA
24P
A25
PA
30P
A31
PA
29
PA
25
PA
30
PA
4
PA
22
PA
23
PA
31
PB
26
PB
31
PB
27P
B28
PB
29P
B30
PB
20
PB
18P
B19
PB
15
PB
31
PB
28
PB
27
PB
15
PB
18
PB
19
PB
20
PB
26
PB
29
PB
30
PA
24
VC
C_3
V3
VD
DA
NA
VC
C_3
V3
HD
MI_
DA
T23_
PA
23[1
1]
HD
MI_
DA
T22_
PA
22[1
1]
HD
MI_
DA
T21_
PA
21[1
1]
HD
MI_
DA
T20_
PA
20[1
1]
HD
MI_
DA
T19_
PA
19[1
1]
HD
MI_
DA
T17_
PA
17[1
1]
HD
MI_
DA
T18_
PA
18[1
1]
HD
MI_
DA
T16_
PA
16[1
1]
HD
MI_
DA
T15_
PA
15[1
1]
HD
MI_
DA
T14_
PA
14[1
1]
HD
MI_
DA
T12_
PA
12[1
1]
HD
MI_
DA
T9_P
A9
[11]
HD
MI_
DA
T10_
PA
10[1
1]
HD
MI_
DA
T8_P
A8
[11]
HD
MI_
DA
T7_P
A7
[11]
HD
MI_
DA
T5_P
A5
[11]
HD
MI_
DA
T6_P
A6
[11]
HD
MI_
DA
T4_P
A4
[11]
HD
MI_
DA
T3_P
A3
[11]
HD
MI_
DA
T1_P
A1
[11]
HD
MI_
DA
T2_P
A2
[11]
HD
MI_
DA
T0_P
A0
[11]
TMS
[10,
14]
LCD
_HS
YN
C_P
A27
[10]
LCD
_DE
N_P
A29
[10]
LCD
_PC
K_P
A28
[10]
TCK
[10,
14]
HD
MI_
DA
T11_
PA
11[1
1]
NTR
ST
[10]
HD
MI_
DA
T13_
PA
13[1
1]
HD
MI_
VS
YN
C_P
A26
[11]
LCD
_VS
YN
C_P
A26
[10]
HD
MI_
HS
YN
C_P
A27
[11]
HD
MI_
PC
K_P
A28
[11]
HD
MI_
DE
N_P
A29
[11]
LCD
_TW
CK
0_P
A31
[10]
LCD
_TW
D0_
PA
30[1
0]
LCD
_DIS
P_P
A25
[10]
LCD
_DA
T0_P
A0
[10]
LCD
_DA
T1_P
A1
[10]
LCD
_DA
T2_P
A2
[10]
LCD
_DA
T3_P
A3
[10]
LCD
_DA
T4_P
A4
[10]
LCD
_DA
T5_P
A5
[10]
LCD
_DA
T6_P
A6
[10]
LCD
_DA
T7_P
A7
[10]
LCD
_DA
T8_P
A8
[10]
LCD
_DA
T9_P
A9
[10]
LCD
_DA
T10_
PA
10[1
0]
LCD
_DA
T11_
PA
11[1
0]
LCD
_DA
T12_
PA
12[1
0]
LCD
_DA
T13_
PA
13[1
0]
LCD
_DA
T14_
PA
14[1
0]
LCD
_DA
T15_
PA
15[1
0]
LCD
_DA
T16_
PA
16[1
0]
LCD
_DA
T17_
PA
17[1
0]
LCD
_DA
T18_
PA
18[1
0]
LCD
_DA
T19_
PA
19[1
0]
LCD
_DA
T20_
PA
20[1
0]
LCD
_DA
T21_
PA
21[1
0]
LCD
_DA
T22_
PA
22[1
0]
LCD
_DA
T23_
PA
23[1
0]
HD
MI_
TWD
0_P
A30
[11]
HD
MI_
TWC
K0_
PA
31[1
1]
EE
PR
OM
_TW
D0_
PA
30[8
]
EE
PR
OM
_TW
CK
0_P
A31
[8]
HD
MI_
INT_
PA
25[1
1]
EX
P_T
WC
K0_
PA
31[1
5]
EX
P_T
WD
0_P
A30
[15]
G0_
TX1_
PB
13[1
2]
EX
P_P
B3
[15]
EX
P_P
B4
[15]
G0_
MD
C_P
B16
[12]
EX
P_P
B5
[15]
G0_
MD
IO_P
B17
[12]
EX
P_P
B10
[15]
G0_
TXC
K_P
B0
[12]
TDI
[10,
14]
TDO
[10,
14]
AR
EF
[15]
G0_
RX
DV
_PB
6[1
2]G
0_R
XE
R_P
B7
[12]
G0_
RX
0_P
B8
[12]
G0_
TXE
N_P
B2
[12]
EX
P_P
B11
[15]
G0_
RX
1_P
B9
[12]
EX
P_P
B1
[15]
EX
P_P
B22
[15]
G0_
TX0_
PB
12[1
2]
EX
P/X
PR
O_P
B18
[15]
EX
P/X
PR
O_P
B19
[15]
EX
P/X
PR
O_P
B20
[15]
EX
P_P
B31
[15]
HD
MI_
TF0_
PB
31[1
1]
EX
P/X
PR
O_P
B27
[15]
EX
P_P
B28
[15]
HD
MI_
TD0_
PB
28[1
1]
HD
MI_
RS
T_P
B15
[11]
HD
MI_
TK0_
PB
27[1
1]
LCD
_SP
I1_M
ISO
_PB
18[1
0]
LCD
_SP
I1_M
OS
I_P
B19
[10]
LCD
_SP
I1_S
PC
K_P
B20
[10]
EX
P/X
PR
O_P
B15
[15]
LCD
_SP
I1_N
PC
S2_
PB
23[1
0]
EX
P/X
PR
O_P
B14
[15]
EX
P/X
PR
O_P
B21
[15]
EX
P/X
PR
O_P
B26
[15]
EX
P/X
PR
O_P
B29
[15]
EX
P/X
PR
O_P
B30
[15]
LCD
_PW
M_P
A24
[10]
HD
MI_
MC
K_P
A24
[11]
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
7 15A
XX
-XX
-XX
Xin
JQX
XX
SA
MA
5D44
- PIO
A &
PIO
B
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
7 15A
XX
-XX
-XX
Xin
JQX
XX
SA
MA
5D44
- PIO
A &
PIO
B
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
7 15A
XX
-XX
-XX
Xin
JQX
XX
SA
MA
5D44
- PIO
A &
PIO
B
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
PIO
A
PIO
B
TWI0
TWI2
R39
42.
2K 1
%R
394
2.2K
1%
R11
422
RR
114
22R
R41
22R
R41
22R
R70
22R
R70
22R
R36
939
RR
369
39R
R12
322
RR
123
22R
R98
22R
R98
22R
R62
22R
R62
22R
R17
422
RR
174
22R
R33
50R
R33
50R
R89
22R
R89
22R
R12
922
RR
129
22R
R44
22R
R44
22R
R10
022
RR
100
22R
R72
22R
R72
22R
R81
22R
R81
22R
R97
22R
R97
22R
R15
822
RR
158
22R
R11
622
RR
116
22R
R59
22R
R59
22R
R11
722
RR
117
22R
R46
22R
R46
22R
R73
22R
R73
22R
R36
22R
R36
22R
R14
822
RR
148
22R
R38
22R
R38
22R
R67
22R
R67
22R
R15
422
RR
154
22R
R12
722
RR
127
22R
R85
22R
R85
22R
U6E
SA
MA
5D44
A-C
U
U6E
SA
MA
5D44
A-C
UPB
0/G
0_TX
CK
C3
PB
1/G
0_R
XC
K/S
CK
2/IS
I_P
CK
A2
PB
2/G
0_TX
EN
B2
PB
3/G
0_TX
ER
/CTS
2/IS
I_V
SY
NC
C2
PB
4/G
0_C
RS
/RX
D2/
ISI_
HS
YN
CJ3
PB
5/G
0_C
OL/
TXD
2/P
CK
2H
2P
B6/
G0_
RX
DV
G2
PB
7/G
0_R
XE
RH
3P
B8/
G0_
RX
0F2
PB
9/G
0_R
X1
J2P
B10
/G0_
RX
2/P
CK
2/P
WM
L1F1
PB
11/G
0_R
X3/
RTS
2/P
WM
H1
K4
PB
12/G
0_TX
0D
2P
B13
/G0_
TX1
K3
PB
14/G
0_TX
2/S
PI2
_NP
CS
1/P
WM
H0
A1
PB
15/G
0_TX
3/S
PI2
_NP
CS
2/P
WM
L0E
2P
B16
/G0_
MD
CB
1P
B17
/G0_
MD
IOK
5P
B18
/SP
I1_M
ISO
/D8
K2
PB
19/S
PI1
_MO
SI/D
9C
1P
B20
/SP
I1_S
PC
K/D
10D
1P
B21
/SP
I1_N
PC
S0/
D11
L3P
B22
/SP
I1_N
PC
S1/
D12
G1
PB
23/S
PI1
_NP
CS
2/D
13H
1P
B24
/DR
XD
/D14
/TD
IE
1P
B25
/DTX
D/D
15/T
DO
J1P
B26
/PC
K0/
RK
0/P
WM
H0
M5
PB
27/S
PI1
_NP
CS
3/TK
0/P
WM
L0L2
PB
28/S
PI2
_NP
CS
3/TD
0/P
WM
H1
K1
PB
29/T
WD
2/R
D0/
PW
ML1
M3
PB
30/T
WC
K2/
RF0
M4
PB
31/T
F0L1
AD
CV
RE
FR
12
R15
122
RR
151
22R
R40
22R
R40
22R
R37
439
RR
374
39R
R12
122
RR
121
22R
R17
322
RR
173
22R
R17
722
RR
177
22R
R60
22R
R60
22R
R18
322
RR
183
22R
R88
22R
R88
22R
R14
922
RR
149
22R
R12
222
RR
122
22R
R82
22R
R82
22R
R11
522
RR
115
22R
R43
22R
R43
22R
R39
52.
2K 1
%R
395
2.2K
1%
R18
422
RR
184
22R
R64
22R
R64
22R
R45
22R
R45
22R
R12
422
RR
124
22R
R11
222
RR
112
22R
R37
22R
R37
22R
R66
22R
R66
22R
R17
822
RR
178
22R
R15
722
RR
157
22R
R99
22R
R99
22R
R92
22R
R92
22R
R12
022
RR
120
22R
R52
22R
R52
22R
R47
22R
R47
22R
R83
22R
R83
22R
R16
022
RR
160
22R
R61
22R
R61
22R
R86
22R
R86
22R
R87
22R
R87
22R
R17
622
RR
176
22R
R69
22R
R69
22R
R14
622
RR
146
22R
R48
22R
R48
22R
R37
339
RR
373
39R
U6A
SA
MA
5D44
A-C
U
U6A
SA
MA
5D44
A-C
U
PA
0/LC
DD
AT0
/TM
SA
7P
A1/
LCD
DA
T1F6
PA
2/LC
DD
AT2
/G1_
TXC
KE
6P
A3/
LCD
DA
T3/G
1_R
XC
KC
6P
A4/
LCD
DA
T4/G
1_TX
EN
D6
PA
5/LC
DD
AT5
/G1_
TXE
RB
6P
A6/
LCD
DA
T6/G
1_C
RS
A6
PA
7/LC
DD
AT7
E5
PA
8/LC
DD
AT8
/TC
KA
5P
A9/
LCD
DA
T9/G
1_C
OL
F4P
A10
/LC
DD
AT1
0/G
1_R
XD
VF5
PA
11/L
CD
DA
T11/
G1_
RX
ER
D5
PA
12/L
CD
DA
T12/
G1_
RX
0G
5P
A13
/LC
DD
AT1
3/G
1_R
X1
C5
PA
14/L
CD
DA
T14/
G1_
TX0
E4
PA
15/L
CD
DA
T15/
G1_
TX1
B5
PA
16/L
CD
DA
T16/
NTR
ST
H6
PA
17/L
CD
DA
T17
D4
PA
18/L
CD
DA
T18/
G1_
RX
2G
4P
A19
/LC
DD
AT1
9/G
1_R
X3
C4
PA
20/L
CD
DA
T20/
G1_
TX2
A3
PA
21/L
CD
DA
T21/
G1_
TX3
B4
PA
22/L
CD
DA
T22/
G1_
MD
CB
3P
A23
/LC
DD
AT2
3/G
1_M
DIO
A4
PA
24/L
CD
PW
M/P
CK
0H
5P
A25
/LC
DD
ISP
/TD
0F3
PA
26/L
CD
VS
YN
C/P
WM
H0/
SP
I1_N
PC
S1
E3
PA
27/L
CD
HS
YN
C/P
WM
L0/S
PI1
_NP
CS
2H
4P
A28
/LC
DP
CK
/PW
MH
1/S
PI1
_NP
CS
3G
3P
A29
/LC
DD
EN
/PW
ML1
J5P
A30
/TW
D0
D3
PA
31/T
WC
K0
J4
R76
1KR76
1K
R42
22R
R42
22R
R71
22R
R71
22R
R51
22R
R51
22R
R17
522
RR
175
22R
R18
122
RR
181
22R
R15
022
RR
150
22R
R63
22R
R63
22R
R36
7D
NP
(39R
)R
367
DN
P(3
9R)
R14
722
RR
147
22R
R90
22R
R90
22R
R18
022
RR
180
22R
R15
522
RR
155
22R
R96
22R
R96
22R
C94
100n
F
C94
100n
F
R18
222
RR
182
22R
R34
22R
R34
22R
R77
1KR77
1K
R11
322
RR
113
22R
R65
22R
R65
22R
R15
622
RR
156
22R
R11
922
RR
119
22R
R91
22R
R91
22R
R14
522
RR
145
22R
R84
22R
R84
22R
R11
822
RR
118
22R
R17
922
RR
179
22R
R35
22R
R35
22R
R12
822
RR
128
22R
R33
6D
NP
(0R
)R
336
DN
P(0
R)
R15
922
RR
159
22R
R18
622
RR
186
22R
R58
22R
R58
22R
R39
22R
R39
22R
R68
22R
R68
22R
R18
522
RR
185
22R
R93
22R
R93
22R
63SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
Figure 4-56. SAMA5D44 - PIOC and Flash
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
NA
ND
_CLE
_PC
18N
AN
D_A
LE_P
C17
NA
ND
_RE
n_P
C13
NA
ND
_WE
n_P
C14
NA
ND
_IO
0_P
C5
NA
ND
_IO
1_P
C6
NA
ND
_IO
2_P
C7
NA
ND
_IO
3_P
C8
NA
ND
_IO
4_P
C9
NA
ND
_IO
5_P
C10
NA
ND
_IO
6_P
C11
NA
ND
_IO
7_P
C12
PC
0P
C1
PC
2P
C3
NA
ND
_NC
S3_
PC
15
PC
26P
C25
NA
ND
_CE
n_P
C15
NA
ND
_NC
S3_
PC
15
PC
27
PC
29P
C30
AT2
5_S
PI0
_CS
0_P
C3
PC
3
PC
28
PC
2P
C4
NA
ND
_WE
n_P
C14
NA
ND
_ALE
_PC
17N
AN
D_C
LE_P
C18
NA
ND
_RD
Y_P
C16
PC
1
PC
0
PC
5P
C6
PC
7P
C8
PC
9P
C10
PC
11P
C12
PC
13N
AN
D_I
O0_
PC
5P
C5
NA
ND
_IO
1_P
C6
PC
6
NA
ND
_IO
2_P
C7
PC
7
NA
ND
_IO
3_P
C8
PC
8
NA
ND
_IO
4_P
C9
PC
9
NA
ND
_IO
5_P
C10
PC
10
NA
ND
_IO
6_P
C11
PC
11
NA
ND
_IO
7_P
C12
PC
12
NA
ND
_RE
n_P
C13
PC
13
AT2
5_S
PI0
_NC
PS
0_P
C3
NA
ND
_CE
n_P
C15
NA
ND
_RD
Y_P
C16
AT2
5_S
PI0
_MO
SI_
PC
1A
T25_
SP
I0_M
ISO
_PC
0A
T25_
SP
I0_S
PC
K_P
C2
AT2
5_S
PI0
_CS
0_P
C3
EE
PR
OM
_WP
EE
PR
OM
_WP
PC
4
PC
27
PC
28
PC
29
PC
30
AT2
5_S
PI0
_MIS
O_P
C0
AT2
5_S
PI0
_MO
SI_
PC
1
AT2
5_S
PI0
_SP
CK
_PC
2
AT2
5_S
PI0
_NC
PS
0_P
C3
PC
26
PC
25
VC
C_3
V3
VC
C_3
V3
3V3_
NA
ND
3V3_
NA
ND
VC
C_3
V3
3V3_
NA
ND
VC
C_3
V3
VC
C_3
V3_
EE
PR
OM
VC
C_3
V3_
EE
PR
OM
VC
C_3
V3_
EE
PR
OM
VC
C_3
V3
EE
PR
OM
_TW
D0_
PA
30[7
]
EE
PR
OM
_TW
CK
0_P
A31
[7]
PM
IC_T
WC
K3_
PC
26[4
]
PM
IC_T
WD
3_P
C25
[4]
EX
P/X
PR
O_P
C3
[15]
EX
P/X
PR
O_P
C2
[15]
EX
P/X
PR
O_P
C1
[15]
EX
P/X
PR
O_P
C0
[15]
MC
I0_C
K_P
C4
[13]
MC
I0_C
DA
_PC
5[1
3]
MC
I0_D
A0_
PC
6[1
3]
MC
I0_D
A1_
PC
7[1
3]
MC
I0_D
A2_
PC
8[1
3]
MC
I0_D
A3_
PC
9[1
3]
EX
P_P
C4
[15]
EX
P_P
C20
[15]
EX
P_P
C19
[15]
EX
P_P
C21
[15]
EX
P_P
C22
[15]
EX
P_P
C23
[15]
EX
P_P
C24
[15]
EX
P/X
PR
O_P
C25
[15]
EX
P/X
PR
O_P
C26
[15]
AD
1_X
M_P
C28
[10]
AD
0_X
P_P
C27
[10]
AD
2_Y
P_P
C29
[10]
AD
3_Y
M_P
C30
[10]
EX
P/X
PR
O_P
C27
[15]
EX
P/X
PR
O_P
C28
[15]
EX
P/X
PR
O_P
C29
[15]
EX
P/X
PR
O_P
C30
[15]
EX
P_P
C31
[15]
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
8 15A
XX
-XX
-XX
Xin
JQX
XX
SA
MA
5D44
- PIO
C &
FLA
SH
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
8 15A
XX
-XX
-XX
Xin
JQX
XX
SA
MA
5D44
- PIO
C &
FLA
SH
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
8 15A
XX
-XX
-XX
Xin
JQX
XX
SA
MA
5D44
- PIO
C &
FLA
SH
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
(PC
K1)
(NA
ND
_WPn
)
PIO
C
Nan
d Fl
ash
SPI F
lash
EEPR
OM
Nan
d &
SPI
Fla
sh C
S
TWI3
BO
OT_
DIS
SP
I Fla
sh C
S
NA
ND
Fla
sh C
STh
e ju
mpe
r JP
7 m
ust b
e po
pula
ted
near
the
rese
t but
ton
R20
422
RR
204
22R
C42
100n
FC
4210
0nF
R25
7D
NP
(0R
)R
257
DN
P(0
R)
R28
8
DN
P(1
00K
1%
)
R28
8
DN
P(1
00K
1%
)
JPR
7JU
MP
ER
JPR
7JU
MP
ER
R19
122
RR
191
22R
R26
222
RR
262
22R
R25
022
RR
250
22R
R28
3
10K
R28
3
10K
R28
610
0K 1
%R
286
100K
1%
R21
322
RR
213
22R
R19
722
RR
197
22R
R22
8D
NP
(0R
)R
228
DN
P(0
R)
R25
522
RR
255
22R
R28
70R
R28
70R
C16
110
0nF
C16
110
0nF
R25
62.
2K 1
%R
256
2.2K
1%
C44
100n
FC
4410
0nF
R20
339
RR
203
39R
R27
622
RR
276
22R
R20
122
RR
201
22R
R20
739
RR
207
39R
R26
022
RR
260
22R
C34
100n
FC
3410
0nF
R21
022
RR
210
22R
R17
022
RR
170
22R
C40
100n
FC
4010
0nF
R23
422
RR
234
22R
R20
522
RR
205
22R
R279 10KR279 10K
R19
522
RR
195
22R
R399 DNP(10K)R399 DNP(10K)
R20
822
RR
208
22R
R27
822
RR
278
22R
U15
AT2
4MA
C40
2-M
AH
M-T
U15
AT2
4MA
C40
2-M
AH
M-T
A0
1
A1
2
A2
3
GN
D4
VC
C8
WP
7
SC
L6
SD
A5
R24
922
RR
249
22R
R28
40R
R28
40R
R20
922
RR
209
22R
VC
C
GN
DU10
NL1
7SZ1
26D
FT2G
VC
C
GN
DU10
NL1
7SZ1
26D
FT2G
1 2 3
45
R27
722
RR
277
22R
R28
510
0K 1
%R
285
100K
1%
R372 10KR372 10K
R33
22.
2K 1
%R
332
2.2K
1%
U9
MT2
9F4G
08A
BA
EA
WP
:E
U9
MT2
9F4G
08A
BA
EA
WP
:E
WE
18
N.C
66
VC
C_2
37
CE
9
RE
8
N.C
1120
WP
19
N.C
55
N.C
11
N.C
22
N.C
33
N.C
44
N.C
1221
N.C
1322
N.C
1423
N.C
1524
R/B
7
N.C
1826
N.C
1927
N.C
2028
I/O0
29
VC
C_3
34
N.C
1635
VS
S_2
36
DN
U1
38
VC
C_4
39
VC
C_1
12
VS
S_1
13
ALE
17
N.C
811
N.C
710
N.C
914
N.C
1015
CLE
16
VS
S_3
25
N.C
2133
I/O1
30
I/O3
32I/O
231
DN
U2
47
N.C
2446
N.C
2345
I/O7
44I/O
643
I/O5
42I/O
441
N.C
2240
VS
S_4
48
R20
222
RR
202
22R
R21
110
0K 1
%R
211
100K
1%
U5
DN
P(A
T25D
F321
A)
U5
DN
P(A
T25D
F321
A)
HO
LD7
GN
D4
VC
C8
CS
1
SC
K6
SI
5S
O2
WP
3
R24
122
RR
241
22R
C43
100n
FC
4310
0nF
R23
7D
NP
(0R
)R
237
DN
P(0
R)
R16
922
RR
169
22R
R39
7
0RR39
7
0R
U6F
SA
MA
5D44
A-C
U
U6F
SA
MA
5D44
A-C
U
PC
0/S
PI0
_MIS
O/P
WM
H2/
ISI_
D8
V4
PC
1/S
PI0
_MO
SI/P
WM
L2/IS
I_D
9P
8P
C2/
SP
I0_S
PC
K/P
WM
H3/
ISI_
D10
V5
PC
3/S
PI0
_NP
CS
0/P
WM
L3/IS
I_D
11R
8P
C4/
SP
I0_N
PC
S1/
MC
I0_C
K/P
CK
1W
5P
C5/
D0/
MC
I0_C
DA
T8P
C6/
D1/
MC
I0_D
A0
W6
PC
7/D
2/M
CI0
_DA
1R
19P
C8/
D3/
MC
I0_D
A2
N15
PC
9/D
4/M
CI0
_DA
3U
8P
C10
/D5/
MC
I0_D
A4
V6
PC
11/D
6/M
CI0
_DA
5V
7P
C12
/D7/
MC
I0_D
A6
W7
PC
13/N
RD
/NA
ND
OE
/MC
I0_D
A7
V8
PC
14/N
WE
/NA
ND
WE
U9
PC
15/N
CS
3W
8P
C16
/NA
ND
RD
YV
9P
C17
/A21
/NA
ND
ALE
W9
PC
18/A
22/N
AN
DC
LEV
10P
C19
/ISI_
D0/
TK1
U14
PC
20/IS
I_D
1/TF
1V
11P
C21
/ISI_
D2/
TD1
U15
PC
22/IS
I_D
3/R
F1T1
5P
C23
/ISI_
D4/
RD
1U
16P
C24
/ISI_
D5/
RK
1/P
CK
1T1
6P
C25
/ISI_
D6/
TWD
3/U
RX
D1
V17
PC
26/IS
I_D
7/TW
CK
3/U
TXD
1R
16P
C27
/AD
0/S
PI0
_NP
CS
1/P
WM
L0U
12P
C28
/AD
1/S
PI0
_NP
CS
2/P
WM
L1T1
1P
C29
/AD
2/S
PI0
_NP
CS
3/P
WM
FI0
R13
PC
30/A
D3/
PW
MH
0T1
2P
C31
/AD
4/P
WM
H1
T13
JP8
DN
P(H
eade
r 1X
2)JP
8D
NP
(Hea
der 1
X2)
12
C45
100n
FC
4510
0nF
R20
022
RR
200
22R
C41
100n
FC
4110
0nF
R22
122
RR
221
22R
R19
622
RR
196
22R
R23
9D
NP
(0R
)R
239
DN
P(0
R)
JPR
8D
NP
(JU
MP
ER
)JP
R8
DN
P(J
UM
PE
R)
R19
022
RR
190
22R
R25
422
RR
254
22R
R23
122
RR
231
22R
R21
222
RR
212
22R
JP7
Hea
der 1
X2
JP7
Hea
der 1
X2
12
R28
20R
R28
20R
VC
C
GN
DU8
NL1
7SZ1
26D
FT2G
VC
C
GN
DU8
NL1
7SZ1
26D
FT2G
1 2 3
45
R39
80R
R39
80R
SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
64
Figure 4-57. SAMA5D44 - SYS, PIOD, and PIOE
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
PD
30
PE
31
PE
24
PE
8
PE
25
PE
19
PE
15
PE
5
PE
0
PE
21
PE
23P
E22
PE
20
PE
18
PE
15
PE
18
PE
21
PE
22
PE
5
PE
20
PE
0
PE
19
PE
23
PE
24
PE
25
PE
31
LED
_US
ER
_PE
15
PIO
BU
5
PIO
BU
0
PIO
BU
7
PIO
BU
2
XIN
XO
UT
XO
UT3
2X
IN32
PIO
BU
3
PIO
BU
0P
IOB
U1
PIO
BU
4P
IOB
U6
PIO
BU
2
PIO
BU
4
XO
UT3
2
XIN
32
XIN
XO
UT
PIO
BU
1
PIO
BU
5P
D30
LED
_US
ER
_PE
15
PE
8
PIO
BU
6P
IOB
U7
PIO
BU
3
PD
30
PE
8
PE
8
PD
30
EX
P/X
PR
O_P
E30
EX
P/X
PR
O_P
E29
VD
DB
U_2
V
GN
DU
TMI
VC
C_3
V3
VC
C_3
V3
EX
P_P
D8
[15]
EX
P_P
D9
[15]
EX
P_P
D10
[15]
EX
P_P
D12
[15]
EX
P_P
D14
[15]
EX
P_P
D16
[15]
EX
P_P
D18
[15]
EX
P_P
D19
[15]
EX
P_P
D20
[15]
EX
P_P
D21
[15]
EX
P_P
D22
[15]
EX
P_P
D23
[15]
EX
P_P
D24
[15]
EX
P_P
D25
[15]
EX
P_P
D26
[15]
EX
P_P
D27
[15]
EX
P_P
D28
[15]
EX
P_P
D29
[15]
EX
P_P
D31
[15]
EX
P_P
D30
[15]
EX
P_P
E13
[15]
DB
GU
_TX
D3_
PE
17[1
0,14
]D
BG
U_R
XD
3_P
E16
[10,
14]
G0_
IRQ
_PE
1[1
2]
US
BB
_EN
5V_P
E11
[10]
EX
P_P
E6
[15]
MC
I1_C
D_P
E3
[13]
US
BC
_EN
5V_P
E14
[10]
EX
P_P
E12
[15]
MC
I0_C
D_P
E2
[13]
MC
I1_P
WR
_PE
4[1
3]
EX
P_P
E7
[15]
EX
P_P
E15
[15]
LCD
_ID
_PE
15[1
0]
EX
P/X
PR
O_P
E18
[15]
EX
P/X
PR
O_P
E21
[15]
MC
I1_D
A1_
PE
21[1
3]
DB
GU
_CTS
3_P
E5
[10]
MC
I1_C
K_P
E18
[13]
EX
P/X
PR
O_P
E22
[15]
MC
I1_D
A2_
PE
22[1
3]
EX
P_P
E5
[15]
EX
P_P
E20
[15]
MC
I1_D
A0_
PE
20[1
3]
EX
P_P
E8
[15]
US
B_O
VC
UR
_PE
0[1
0]
EX
P/X
PR
O_P
E19
[15]
EX
P_P
E0
[15]
MC
I1_C
DA
_PE
19[1
3]
EX
P_P
E23
[15]
MC
I1_D
A3_
PE
23[1
3]
EX
P_P
E24
[15]
DB
GU
_RTS
3_P
E24
[10]
EX
P_P
E28
[15]
PM
IC_I
RQ
_PE
25[4
]E
XP
_PE
25[1
5]
US
BA
_VB
US
_PE
31[1
0]E
XP
_PE
31[1
5]
LCD
_PE
9[1
0]LC
D_P
E10
[10]
SH
DN
[4] N
RS
T_2V
[4]
WK
UP
[4]
US
BC
_DP
[10]
US
BC
_DM
[10]
US
BB
_DP
[10]
US
BB
_DM
[10]
US
BA
_DP
[10]
US
BA
_DM
[10]
EX
P/X
PR
O_P
E26
[15]
EX
P/X
PR
O_P
E27
[15]
EX
P/X
PR
O_P
E29
[15]
EX
P/X
PR
O_P
E30
[15]
EX
P/X
PR
O_P
D11
[15]
EX
P/X
PR
O_P
D13
[15]
EX
P/X
PR
O_P
D15
[15]
EX
P/X
PR
O_P
D17
[15]
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
9 15A
XX
-XX
-XX
Xin
JQX
XX
SA
MA
5D44
- SY
S &
PIO
D &
PIO
E
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
9 15A
XX
-XX
-XX
Xin
JQX
XX
SA
MA
5D44
- SY
S &
PIO
D &
PIO
E
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
9 15A
XX
-XX
-XX
Xin
JQX
XX
SA
MA
5D44
- SY
S &
PIO
D &
PIO
E
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
PIO
DPI
OE
LED
USE
R B
UTT
ON
top/
bot
top/
bot
top/
bot
top/
bot
top/
bot
top/
bot
Pla
ce T
P19
to B
otto
m
Rou
ting
US
B
Rou
ting
top
or b
otto
m
Max
trac
e-le
ngth
mis
mat
chbe
twee
n U
SB
sig
nals
pai
rssh
ould
be
no g
reat
er th
an 3
.8m
m
90 o
hms
diffe
rent
ial t
race
impe
danc
e
R&
Cas
clo
se a
s po
ssib
le
LED
_PO
WE
R_P
D30
PB
_US
ER
_PE
8
PB
_US
ER
_PE
8
LED
_PO
WE
R_P
D30
SYS
TWI1
R19
933
0RR
199
330R
U6G
SA
MA
5D44
A-C
U
U6G
SA
MA
5D44
A-C
U
PD
8/P
CK
0M
1P
D9/
FIQ
M2
PD
10/C
TS0/
CD
ETA
N2
PD
11/R
TS0/
SP
I2_M
ISO
N3
PD
12/R
XD
0/D
CE
NA
N1
PD
13/T
XD
0/S
PI2
_MO
SI
P3
PD
14/C
TS1/
CD
ETB
P2
PD
15/R
TS1/
SP
I2_S
PC
KN
4P
D16
/RX
D1/
DC
EN
BR
2P
D17
/TX
D1/
SP
I2_N
PC
S0
R3
PD
18/S
EN
SE
0T9
PD
19/S
EN
SE
1P
11P
D20
/SE
NS
E2
T10
PD
21/S
EN
SE
3P
10P
D22
/SE
NS
E4
U11
PD
23/S
EN
SE
5R
10P
D24
/SE
NS
E6
U10
PD
25/S
EN
SE
7R
11P
D26
/SE
NS
E8
U13
PD
27/S
EN
SE
9T1
4P
D28
/SC
K0
R1
PD
29/S
CK
1P
1P
D30
N5
PD
31/S
PI0
_NP
CS
2/P
CK
1P
5
R19
333
0RR
193
330R
C32
20pF
C32
20pF
C33
20pF
C33
20pF
R20
6D
NP
(1M
)R
206
DN
P(1
M)
R35
65.
62K
1%
R35
65.
62K
1%
R26
822
RR
268
22R
R15
222
RR
152
22R
C39
20pF
C39
20pF
R16
533
0RR
165
330R
Y2
32.7
68K
Hz
CL=
12.5
pF
Y2
32.7
68K
Hz
CL=
12.5
pF
1 234
R14
410
0K 1
%R
144
100K
1%
R31
12.
2K 1
%R
311
2.2K
1%
R24
822
RR
248
22R
TP19
SM
DTP
19S
MD
R25
122
RR
251
22R
R16
833
0RR
168
330R
R24
622
RR
246
22R
R27
422
RR
274
22R
R26
622
RR
266
22R
R26
922
RR
269
22R
R27
139
RR
271
39R
R14
047
0RR
140
470R
R25
222
RR
252
22R
C10
510
pFC
105
10pF
R28
022
RR
280
22R
R27
522
RR
275
22R
R24
5D
NP
(22R
)R
245
DN
P(2
2R)
R19
233
0RR
192
330R
R22
3D
NP
(1M
)R
223
DN
P(1
M)
R26
122
RR
261
22R
R13
647
0RR
136
470R
R15
322
RR
153
22R
Q3
IRLM
L250
2
Q3
IRLM
L250
2
1
32
D10
BLU
E
D10
BLU
E
R28
1D
NP
(22R
)R
281
DN
P(2
2R)
R25
322
RR
253
22R
Y3
12M
Hz
CL=
15pF
Y3
12M
Hz
CL=
15pF
14 3
2
R27
039
RR
270
39R
J10
DN
P(H
eade
r 2X
5)
J10
DN
P(H
eade
r 2X
5)
12
34
56
78
910
U6C
SA
MA
5D44
A-C
U
U6C
SA
MA
5D44
A-C
U
TST
P4
XIN
W12
XO
UT
V12
XIN
32W
2X
OU
T32
W3
SH
DN
T2
WK
UP
V3
NR
ST
T1
JTA
GS
EL
V2
VB
GW
11
HH
SD
PC
W16
HH
SD
MC
V16
HH
SD
PB
W15
HH
SD
MB
V15
HH
SD
PA
W14
HH
SD
MA
V14
TSTA
NA
_BU
U1
PIO
BU
0U
3P
IOB
U1
T3P
IOB
U2
T4P
IOB
U3
U4
PIO
BU
4P
6P
IOB
U5
T5P
IOB
U6
R4
PIO
BU
7U
5P
IOB
U8
R5
PIO
BU
9U
6P
IOB
U10
R6
PIO
BU
11T6
PIO
BU
12R
7P
IOB
U13
U7
PIO
BU
14P
7P
IOB
U15
T7
NC
_H10
H10
NC
_G10
G10
NC
_K10
K10
NC
_J10
J10
NC
_K9
K9
NC
_J9
J9N
C_H
9H
9N
C_G
9G
9
NC
_A8
A8
NC
_A10
A10
NC
_E7
E7
NC
_E9
E9
NC
_B7
B7
NC
_D8
D8
NC
_C7
C7
NC
_A9
A9
NC
_D7
D7
NC
_B9
B9
BP
1Ta
ct S
witc
hB
P1
Tact
Sw
itch
D8
RE
D
D8
RE
D
R16
222
RR
162
22R
R27
222
RR
272
22R
R16
733
0RR
167
330R
R16
433
0RR
164
330R
U6H
SA
MA
5D44
A-C
U
U6H
SA
MA
5D44
A-C
U
PE
0/A
0/N
BS
0/M
CI0
_CD
B/C
TS4
W19
PE
1/A
1/M
CI0
_DB
0U
17P
E2/
A2/
MC
I0_D
B1
T17
PE
3/A
3/M
CI0
_DB
2P
16P
E4/
A4/
MC
I0_D
B3
U18
PE
5/A
5/C
TS3
R17
PE
6/A
6/TI
OA
3V
19P
E7/
A7/
TIO
B3/
PW
MFI
1U
19P
E8/
A8/
TCLK
3/P
WM
L3T1
9P
E9/
A9/
TIO
A2
T18
PE
10/A
10/T
IOB
2N
14P
E11
/A11
/TC
LK2
R18
PE
12/A
12/T
IOA
1/P
WM
H2
P17
PE
13/A
13/T
IOB
1/P
WM
L2P
18P
E14
/A14
/TC
LK1/
PW
MH
3N
17P
E15
/A15
/SC
K3/
TIO
A0
N18
PE
16/A
16/R
XD
3/TI
OB
0M
15P
E17
/A17
/TX
D3/
TCLK
0N
19P
E18
/A18
/TIO
A5/
MC
I1_C
KP
19P
E19
/A19
/TIO
B5/
MC
I1_C
DA
N16
PE
20/A
20/T
CLK
5/M
CI1
_DA
0M
14P
E21
/A23
/TIO
A4/
MC
I1_D
A1
M18
PE
22/A
24/T
IOB
4/M
CI1
_DA
2M
19P
E23
/A25
/TC
LK4/
MC
I1_D
A3
L18
PE
24/N
CS
0/R
TS3
L19
PE
25/N
CS
1/S
CK
4/IR
QM
17P
E26
/NC
S2/
RX
D4/
A18
L15
PE
27/N
WR
1/N
BS
1/TX
D4
M16
PE
28/N
WA
IT/R
TS4/
A19
L17
PE
29/D
IBP
/UR
XD
0/TW
D1
V1
PE
30/D
IBN
/UTX
D0/
TWC
K1
U2
PE
31/A
DTR
GL4
R26
522
RR
265
22R
R26
722
RR
267
22R
R26
422
RR
264
22R
R26
322
RR
263
22R
R31
02.
2K 1
%R
310
2.2K
1%
R25
822
RR
258
22R
R18
9D
NP
(10K
)R
189
DN
P(1
0K)
R24
722
RR
247
22R
R19
833
0RR
198
330R
C38
20pF
C38
20pF
R27
322
RR
273
22R
65SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
Figure 4-58. JTAG, USB, DEBUG, and LCD
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
NR
ST_
3V3
5V_U
SB
C
5V_U
SB
C5V
_US
BB
5V_U
SB
B
VC
C_5
VV
CC
_3V
3
VC
C_3
V3
VC
C_5
V
VC
C_3
V3
VC
C_3
V3
EA
RTH
_US
B_A
VC
C_5
V
EA
RTH
_US
B_A
EA
RTH
_US
B_B
/C
EA
RTH
_US
B_B
/C
DB
GU
_RTS
3_P
E24
[9]
DB
GU
_CTS
3_P
E5
[9]
DB
GU
_RX
D3_
PE
16[9
,14]
DB
GU
_TX
D3_
PE
17[9
,14]
NR
ST_
3V3
[4,1
2,14
,15]
TDI
[7,1
4]
TDO
[7,1
4]
TMS
[7,1
4]TC
K[7
,14]
NTR
ST
[7]
LCD
_ID
_PE
15[9
]
LCD
_DA
T6_P
A6
[7]
LCD
_DA
T7_P
A7
[7]
LCD
_DA
T14_
PA
14[7
]LC
D_D
AT1
5_P
A15
[7]
LCD
_DA
T23_
PA
23[7
]LC
D_D
AT2
2_P
A22
[7]LC
D_D
EN
_PA
29[7
]LC
D_H
SY
NC
_PA
27[7
]LC
D_V
SY
NC
_PA
26[7
]LC
D_P
CK
_PA
28[7
]
LCD
_TW
CK
0_P
A31
[7]
LCD
_TW
D0_
PA
30[7
]LC
D_D
ISP
_PA
25[7
]
LCD
_PW
M_P
A24
[7]
LCD
_PE
9[9
]LC
D_P
E10
[9]
AD
0_X
P_P
C27
[8]
LCD
_SP
I1_N
PC
S2_
PB
23[7
]
AD
1_X
M_P
C28
[8]
LCD
_SP
I1_M
ISO
_PB
18[7
]
AD
2_Y
P_P
C29
[8]
LCD
_SP
I1_M
OS
I_P
B19
[7]
AD
3_Y
M_P
C30
[8]
LCD
_SP
I1_S
PC
K_P
B20
[7]
ED
BG
_ID
_01
[14]
LCD
_DA
T0_P
A0
[7]
LCD
_DA
T1_P
A1
[7]
LCD
_DA
T2_P
A2
[7]
LCD
_DA
T3_P
A3
[7]
LCD
_DA
T5_P
A5
[7]
LCD
_DA
T4_P
A4
[7]
LCD
_DA
T11_
PA
11[7
]LC
D_D
AT1
0_P
A10
[7]
LCD
_DA
T9_P
A9
[7]
LCD
_DA
T8_P
A8
[7]
LCD
_DA
T12_
PA
12[7
]LC
D_D
AT1
3_P
A13
[7]
LCD
_DA
T17_
PA
17[7
]LC
D_D
AT1
6_P
A16
[7]
LCD
_DA
T19_
PA
19[7
]LC
D_D
AT1
8_P
A18
[7]
LCD
_DA
T21_
PA
21[7
]LC
D_D
AT2
0_P
A20
[7]
US
B_V
BU
S_5
V[4
]
US
BB
_EN
5V_P
E11
[9]
US
BC
_EN
5V_P
E14
[9]
US
B_O
VC
UR
_PE
0[9
]
US
BA
_VB
US
_PE
31[9
]
US
BA
_DM
[9]
US
BA
_DP
[9]
US
BC
_DM
[9]
US
BC
_DP
[9]
US
BB
_DM
[9]
US
BB
_DP
[9]
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
10 15A
XX
-XX
-XX
Xin
JQX
XX
JTA
G &
US
B &
DE
BU
G &
LC
D
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
10 15A
XX
-XX
-XX
Xin
JQX
XX
JTA
G &
US
B &
DE
BU
G &
LC
D
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
10 15A
XX
-XX
-XX
Xin
JQX
XX
JTA
G &
US
B &
DE
BU
G &
LC
D
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
(CTS
3)
(RTS
3)
(LC
DD
AT0
)
(LC
DD
AT6
)(L
CD
DA
T5)
(LC
DD
AT4
)
(LC
DD
AT3
)(L
CD
DA
T2)
(LC
DD
AT1
)
(LC
DD
AT1
1)(L
CD
DA
T10)
(LC
DD
AT9
)(L
CD
DA
T8)
(LC
DD
AT7
)
(LC
DD
AT1
6)
(LC
DD
AT1
5)(L
CD
DA
T14)
(LC
DD
AT1
3)(L
CD
DA
T12)
(LC
DD
AT2
2)(L
CD
DA
T21)
(LC
DD
AT2
0)
(LC
DD
AT1
9)(L
CD
DA
T18)
(LC
DD
AT1
7)
(LC
DD
EN
)(L
CD
HS
YN
C)
(LC
DV
SY
NC
)(L
CD
PC
K)
(LC
DD
AT2
3)
(IRQ
1)(IR
Q2)
(LC
DP
WM
)
(LC
DD
ISP
)
(ID_S
YS
)
LCD
(TX
D3)
DEB
UG (R
XD
3)
JTA
G
USB
A USB
B &
CJ7
_US
B_A
_Upp
erJ7
_US
B_B
_Low
er
EN
A a
nd E
NB
Act
ive
Hig
h
Thro
ugh
Hol
es
R21
7
100K
1%
R21
7
100K
1%
MH
3P
THM
H3
PTH 1
MH
1P
THM
H1
PTH 1
R15 DNP(68K)R15 DNP(68K)
R94
22R
R94
22R
R21
810
0K 1
%R
218
100K
1%
R12
5D
NP
(0R
)R
125
DN
P(0
R)
R12
6D
NP
(0R
)R
126
DN
P(0
R)
R10 DNP(68K)R10 DNP(68K)
R53
0RR
530R
R41
6D
NP
(0R
)R
416
DN
P(0
R)
C65
10uF
C65
10uF
VBUS
SHD
DM DP IDGN
D
J11
Mic
roU
SB
AB
Con
nect
or
VBUS
SHD
DM DP IDGN
D
J11
Mic
roU
SB
AB
Con
nect
or
1 2 3 4 5
8
6
11
7
9 10
C49
10uF
C49
10uF
J1
Hea
der 1
X6
J1
Hea
der 1
X6
1 2 3 4 5 6
A B
J16
US
B C
onne
ctor
A B
J16
US
B C
onne
ctor
5 86 7
910
1 2 3 4
1112
R21
420
0KR
214
200K
L12
180o
hm a
t 100
MH
zL1
218
0ohm
at 1
00M
Hz
12
R12 68KR12 68K
R11 68KR11 68K
C63
100n
FC
6310
0nF
R22
410
0K 1
%R
224
100K
1%
R13 DNP(0R)R13 DNP(0R)
L16
180o
hm a
t 100
MH
zL1
618
0ohm
at 1
00M
Hz
12
R22
710
0K 1
%R
227
100K
1%
MH
2P
THM
H2
PTH 1
C68
100n
FC
6810
0nF
R33
DN
P(0
R)
R33
DN
P(0
R)
MH
4P
THM
H4
PTH 1
R95
22R
R95
22R
R25
90R
R25
90R
R49
DN
P(0
R)
R49
DN
P(0
R)
R75
DN
P(0
R)
R75
DN
P(0
R)
R74
22R
R74
22R
J13
Hea
der 2
X10
J13
Hea
der 2
X101
23
45
67
89
1011
1213 15 17 19
14 16 18 20
R23
50R
R23
50R
R41
70R
R41
70R
R50
22R
R50
22R
L15
180o
hm a
t 100
MH
zL1
518
0ohm
at 1
00M
Hz
12
C36
20pF
C36
20pF
R22
00R
R22
00R
L18
180o
hm a
t 100
MH
zL1
818
0ohm
at 1
00M
Hz
12
U12
SP
2526
A-1
EN
-L
U12
SP
2526
A-1
EN
-L
EN
A1
FLG
A2
EN
B4
OU
TA8
GN
G6
FLG
B3
IN7
OU
TB5
J2
50 P
in F
PC
Con
nect
or
J2
50 P
in F
PC
Con
nect
or
1234567891011121314151617181920212223242526272829303132333435363738394041424344454647484950
52 51
C48
100n
FC
4810
0nF
R14 DNP(0R)R14 DNP(0R)
R32
330R
R32
330R
R22
210
0K 1
%R
222
100K
1%
SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
66
Figure 4-59. HDMI
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
VC
C_5
V_H
DM
I
HD
MI_
SC
L
HD
MI_
TCK
+
HD
MI_
TD1+
HD
MI_
TCK
-
HD
MI_
TD0-
SIL
_TD
1-
SIL
_TC
K+
SIL
_TC
K-
SIL
_TD
0-
SIL
_TD
2+S
IL_T
D2-
SIL
_TD
1+
SIL
_TD
0+
HD
MI_
TD2-
SIL
_TD
0+
SIL
_TD
2+H
DM
I_TD
2+
HD
MI_
TD0+
SIL
_TD
1-H
DM
I_TD
1-
SIL
_TC
K+
SIL
_TD
1+
SIL
_TD
0-
SIL
_TD
2-
SIL
_TC
K-HD
MI_
HP
D
HD
MI_
SD
A
HD
MI_
TD2+
HD
MI_
TD2-
HD
MI_
TD1+
HD
MI_
TD1-
HD
MI_
TD0+
HD
MI_
TD0-
HD
MI_
TCK
+H
DM
I_TC
K-
HD
MI_
SC
LH
DM
I_S
DA
HD
MI_
HP
D
VC
C_5
V_H
DM
I HD
MI_
TCK
+
HD
MI_
TD0+
HD
MI_
TCK
-
HD
MI_
TD0-
HD
MI_
TCK
-H
DM
I_TC
K+
HD
MI_
TD0-
HD
MI_
TD0+
HD
MI_
TD1-
HD
MI_
TD1+
HD
MI_
TD2-
HD
MI_
TD1+
HD
MI_
TD2+
HD
MI_
TD2+
HD
MI_
TD2-
HD
MI_
TD1-
1V2_
HD
MI
1V2_
HD
MI
VC
C_5
V
VC
C_3
V3
3V3_
HD
MI
3V3_
HD
MI
3V3_
HD
MI
3V3_
HD
MI
3V3_
HD
MI
EA
RTH
_HD
MI
EA
RTH
_HD
MI
HD
MI_
INT_
PA
25[7
]
HD
MI_
DA
T11_
PA
11[7
]
HD
MI_
DA
T9_P
A9
[7] H
DM
I_D
AT1
2_P
A12
[7]
HD
MI_
DA
T5_P
A5
[7]
HD
MI_
DA
T7_P
A7
[7]
HD
MI_
DA
T8_P
A8
[7] H
DM
I_D
AT1
0_P
A10
[7]
HD
MI_
DA
T3_P
A3
[7]
HD
MI_
DA
T4_P
A4
[7]
HD
MI_
DA
T6_P
A6
[7]
HD
MI_
DA
T0_P
A0
[7]
HD
MI_
DA
T1_P
A1
[7]
HD
MI_
DA
T2_P
A2
[7] H
DM
I_D
AT1
3_P
A13
[7]
HD
MI_
DA
T22_
PA
22[7
]H
DM
I_D
AT2
3_P
A23
[7]
HD
MI_
DA
T19_
PA
19[7
]H
DM
I_D
AT2
0_P
A20
[7]
HD
MI_
DA
T21_
PA
21[7
]
HD
MI_
DA
T16_
PA
16[7
]H
DM
I_D
AT1
7_P
A17
[7]
HD
MI_
DA
T18_
PA
18[7
]
HD
MI_
DA
T14_
PA
14[7
]H
DM
I_D
AT1
5_P
A15
[7]
HD
MI_
VS
YN
C_P
A26
[7]
HD
MI_
HS
YN
C_P
A27
[7]
HD
MI_
PC
K_P
A28
[7]
HD
MI_
DE
N_P
A29
[7]
HD
MI_
TWD
0_P
A30
[7] H
DM
I_TW
CK
0_P
A31
[7]
HD
MI_
TD0_
PB
28[7
]
HD
MI_
TK0_
PB
27[7
]H
DM
I_TF
0_P
B31
[7]
HD
MI_
RS
T_P
B15
[7]
HD
MI_
MC
K_P
A24
[7]
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
11 15A
XX
-XX
-XX
Xin
JQX
XX
HD
MI
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
11 15A
XX
-XX
-XX
Xin
JQX
XX
HD
MI
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
11 15A
XX
-XX
-XX
Xin
JQX
XX
HD
MI
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
Clos
e to
SiI
9022
HD
MI T
ype
A C
onne
ctor
HD
MI
Rou
ting
top
or b
otto
m
100
ohm
s di
ffere
ntia
l tra
ceim
peda
nce
(PC
K0)
Clos
e to
Pin
56 IO_S
EL:
LOW=
3.3V
HI
GH=1
.8V
C18
410
0nF
C18
410
0nF
C19
110
uFC
191
10uF
F118
12L1
60/1
2F1
1812
L160
/12
12
L8
DN
P(W
CM
-201
2HD
MI-9
00T)
L8
DN
P(W
CM
-201
2HD
MI-9
00T)
123 4
C20
100n
FC
2010
0nF
C17
41n
FC
174
1nF
TP7
SM
D
TP7
SM
D
R40
61K
R40
61K
R23
10K
R23
10K
L11
180o
hm a
t 100
MH
zL1
118
0ohm
at 1
00M
Hz
12
C16
91n
FC
169
1nF
R40
54.
7KR
405
4.7K
L9
DN
P(W
CM
-201
2HD
MI-9
00T)
L9
DN
P(W
CM
-201
2HD
MI-9
00T)
123 4
D5
RB
160M
-60T
RD
5R
B16
0M-6
0TR
R29
0RR
290R
L29
60oh
m a
t 100
MH
z
L29
60oh
m a
t 100
MH
z
12
L27
60oh
m a
t 100
MH
z
L27
60oh
m a
t 100
MH
z
12
L28
60oh
m a
t 100
MH
zL2
860
ohm
at 1
00M
Hz
12
D7
BTR
6V8U
D
D7
BTR
6V8U
D
1 2 3 4 5678910
C17
810
0nF
C17
810
0nF
C18
610
0nF
C18
610
0nF
R41
14.
3K 1
%R
411
4.3K
1%
L10
DN
P(W
CM
-201
2HD
MI-9
00T)
L10
DN
P(W
CM
-201
2HD
MI-9
00T)
123 4
J5
HD
MI A
Con
nect
or
J5
HD
MI A
Con
nect
or
DA
T2-
3D
AT2
+1
DA
T2_S
2
SC
L15
SD
A16
DA
T-6
DA
T+4
DA
T1_S
5
+5V
18D
DC
/CE
C17
HP
LG19
DA
T0-
9D
AT0
+7
DA
T0_S
8
CLK
+10
CLK
-12
CLK
_S11
MTG
120
MTG
221
MTG
322
MTG
423
CE
C13
NC
14
R25
2.2K
1%
R25
2.2K
1%
C18
210
0nF
C18
210
0nF
C18
310
0nF
C18
310
0nF
R40
4D
NP
(4.7
K)
R40
4D
NP
(4.7
K)
R30 68KR30 68K
U3
SiI9
022A
CU
NU
3S
iI902
2AC
UN
D0
32D
131
D2
30D
329
D4
28D
527
D23
4
D6
25D
724
D8
23D
920
D10
19D
1118
D12
17D
1316
D14
15D
1514
D16
13D
1711
D18
10D
199
D20
8D
217
D22
6
CLK
22
VS
YN
C35
HS
YN
C34
DE
33
INT52 HPD54
SCL1SDA2
EX
T_S
WIN
G56
IOV
CC
18_2
21IO
VC
C18
_13
TXC
+59
TXC
-58
TX0+
62TX
0-61
TX1+
65TX
1-64
TX2+
68TX
2-67
SC
LK45
SP
DIF
36
CV
CC
12_1
5C
VC
C12
_212
CV
CC
12_4
42
TMODE 55
MC
LK38
LRC
LK44
DDCSCL49 DDCSDA48
I2S
041
I2S
140
I2S
239
I2S
337
AG
ND
_157
AV
CC
_266
AV
CC
_160
IOV
CC
18_3
46
CEC_D50 CEC_A71
CI2CA72
VDDQ 70
AG
ND
_263
IO_S
EL
69
CV
CC
12_5
47C
VC
C12
_653
CG
ND
43
RE
SE
TN51
CV
CC
12_3
26
ePAD 73
C18
510
0nF
C18
510
0nF
C17
310
0nF
C17
310
0nF
C18
010
0nF
C18
010
0nF
C16
810
0nF
C16
810
0nF
D2
TVS
D2
TVS
C16
410
uFC
164
10uF
C17
21n
FC
172
1nF
C16
510
0nF
C16
510
0nF
D9
BTR
6V8U
D
D9
BTR
6V8U
D
1 2 3 4 5678910
C19
710
uFC
197
10uF
R27
10K
R27
10K
L5
DN
P(W
CM
-201
2HD
MI-9
00T)
L5
DN
P(W
CM
-201
2HD
MI-9
00T)
123 4
D1
TVS
D1
TVS
D3
TVS
D3
TVS
R28
2.2K
1%
R28
2.2K
1%
C16
710
0nF
C16
710
0nF
R24
2.2K
1%
R24
2.2K
1%
R13
00R
R13
00R
R13
70R
R13
70R
C17
91n
FC
179
1nF
R13
20R
R13
20R
C18
110
uFC
181
10uF
C16
610
0nF
C16
610
0nF
R13
31K
R13
31K
R13
90R
R13
90R
R13
40R
R13
40R
R11
10R
R11
10R
R26
4.7K
R26
4.7K
R14
30R
R14
30R
R13
50R
R13
50R
67SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
Figure 4-60. Ethernet_ETH0_10/100M
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
ETH
0_LE
D0
ETH
0_LE
D0
ETH
0_X
I
ETH
0_X
O
TX+
TX+
ETH
0_X
I
ETH
0_X
O
ETH
0_LE
D1
ETH
0_LE
D1
TX-
RX
+
RX
-R
X-
RX
+
TX-
ETH
0_V
DD
ETH
0_V
DD
EA
RTH
_ETH
0E
AR
TH_E
TH0
GN
D_E
TH0
ETH
0_V
DD
VC
C_3
V3
ETH
0_V
DD
GN
D_E
TH0
EA
RTH
_ETH
0E
TH0_
VD
DA
ETH
0_V
DD
A
ETH
0_V
DD
NR
ST_
3V3
[4,1
0,14
,15]
G0_
RX
0_P
B8
[7]
G0_
TX0_
PB
12[7
]
G0_
RX
1_P
B9
[7]
G0_
TXE
N_P
B2
[7]
G0_
RX
ER
_PB
7[7
]G
0_R
XD
V_P
B6
[7]
G0_
TX1_
PB
13[7
]
G0_
IRQ
_PE
1[9
]G
0_M
DIO
_PB
17[7
]G
0_M
DC
_PB
16[7
]
G0_
TXC
K_P
B0
[7]
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
12 15A
XX
-XX
-XX
Xin
JQX
XX
Eth
erne
t_E
TH0_
10/1
00M
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
12 15A
XX
-XX
-XX
Xin
JQX
XX
Eth
erne
t_E
TH0_
10/1
00M
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
12 15A
XX
-XX
-XX
Xin
JQX
XX
Eth
erne
t_E
TH0_
10/1
00M
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
10B
ase-
T/10
0Bas
e-TX
ETH
0
LINK
ACT
Terminal Resistor close to output side
Rou
ting
top
or b
otto
m
100
ohm
s di
ffere
ntia
l tra
ceim
peda
nce
A
t the
De-
Ass
ertio
n of
Res
et:
P
HY
AD
D[2
:0]-p
in15
/14/
13: 0
01 =
1
CO
NFI
G[2
:0]-p
in18
/29/
28:0
01,R
MII
mod
e
Dup
lex
Mod
e-pi
n16:
1,H
alf D
uple
x
Isol
ate
Mod
e-pi
n20:
0,D
isab
le
Spe
ed M
ode-
pin3
1: 1
,100
Mbp
s
Nw
ay A
uto-
Neg
otia
tion-
p30:
1,E
nabl
e
top/
bot
top/
bot
top/
bot
top/
bot
1 2 3 6 4 5 7 8
75 75
7575
1nF
TD+
TD-CT NCRD-CT
TX+
TX-
RX+
RX-
RD+
Left
Gre
en L
ED
Righ
t ye
llow
LED
J12
RJ4
5 C
onne
ctor
1 2 3 6 4 5 7 8
75 75
7575
1nF
TD+
TD-CT NCRD-CT
TX+
TX-
RX+
RX-
RD+
Left
Gre
en L
ED
Righ
t ye
llow
LED
J12
RJ4
5 C
onne
ctor
1 2 7 83 6549
10
11
12
13 14 15 16
C12
610
0nF
C12
610
0nF
C13
810
0nF
C13
810
0nF
R35
8
1KR35
8
1K
C11
62.
2uF
C11
62.
2uF
C14
710
0nF
C14
710
0nF
R361 10KR361 10K
R38
2
1KR38
2
1K
R21
50R
R21
50R
L21
180o
hm a
t 100
MH
zL2
118
0ohm
at 1
00M
Hz
12
R39
30R
R39
30R
C10
610
uFC
106
10uF
C15
3 20pF
C15
3 20pF
R380 10KR380 10K
C15
220
pFC
152
20pF
C16
010
uFC
160
10uF
R35
110
KR
351
10K
C35
100n
FC
3510
0nF
R38
36.
49K
1%
R38
36.
49K
1%
R368 10KR368 10K
R22
647
0RR
226
470R
R350 10KR350 10K
R23
047
0RR
230
470R
R349 10KR349 10K
R381 10KR381 10K
R379 10KR379 10K
R378 10KR378 10K
R37
5D
NP
(1M
)R
375
DN
P(1
M)
R35
210
KR
352
10K
Y4
25M
Hz
CL=
20pF
Y4
25M
Hz
CL=
20pF
1
2 3
4
U14
KS
Z808
1RN
B
U14
KS
Z808
1RN
BRX
C/B
-CA
ST_
OFF
19
CR
S/C
ON
FIG
129
CO
L/C
ON
FIG
028
TXD
125
TXD
024
TXE
N23
RX
D3/
PH
YA
D0
13R
XD
2/P
HY
AD
114
RX
D1/
PH
YA
D2
15R
XD
0/D
UP
LEX
16R
XD
V/C
ON
FIG
218
RX
ER
/ISO
20
MD
C12
MD
IO11
INTR
P/N
AN
D21
VD
DA
_3V
33
VD
DIO
17
RE
SE
T32
TXP
7
TXM
6
RX
P5
RX
M4
VD
D_1
V2
2
GN
D1
PA
DD
LE33
TXC
22TX
D2
26TX
D3
27R
EX
T10
XO
8
XI
9
LED
0/N
WA
YE
N30
LED
1/S
PE
ED
31
C37
100n
FC
3710
0nF
L22
180o
hm a
t 100
MH
zL2
218
0ohm
at 1
00M
Hz
12
R36
439
RR
364
39R
SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
68
Figure 4-61. HSMCI
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
VC
C_3
V3
VD
D_M
CI1
VC
C_3
V3
VC
C_3
V3
MC
I1_P
WR
_PE
4[9
]
MC
I0_D
A0_
PC
6[8
]
MC
I0_C
K_P
C4
[8]
MC
I0_D
A3_
PC
9[8
]
MC
I0_C
DA
_PC
5[8
]
MC
I0_D
A2_
PC
8[8
]M
CI0
_DA
1_P
C7
[8]
MC
I1_D
A0_
PE
20[9
]M
CI1
_DA
1_P
E21
[9]
MC
I1_D
A2_
PE
22[9
]M
CI1
_DA
3_P
E23
[9]
MC
I1_C
DA
_PE
19[9
]
MC
I1_C
K_P
E18
[9]
MC
I1_C
D_P
E3
[9]
MC
I0_C
D_P
E2
[9]
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
13 15A
XX
-XX
-XX
Xin
JQX
XX
HS
MC
I
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
13 15A
XX
-XX
-XX
Xin
JQX
XX
HS
MC
I
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
13 15A
XX
-XX
-XX
Xin
JQX
XX
HS
MC
I
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
(MC
I0_D
A0)
Mic
ro S
D C
AR
D IN
TER
FAC
E - M
CI0
(MC
I1_C
D)
(MC
I1_W
P)
SD/M
MC
Plus
CA
RD
INTE
RFA
CE
- MC
I1
(MC
I1_D
A1)
(MC
I1_D
A0)
(MC
I1_C
K)
(MC
I1_C
DA
)(M
CI1
_DA
3)(M
CI1
_DA
2) (MC
I0_D
A1)
(MC
I0_C
K)
(MC
I0_C
DA
)
(MC
I0_D
A3)
(MC
I0_D
A2)
(MC
I0_C
D)
SD/M
icro
SD
CA
RD
J9
DN
P(M
icro
SD
Car
d C
onne
ctor
)
J9
DN
P(M
icro
SD
Car
d C
onne
ctor
)
DA
T07
DA
T18
DA
T21
DA
T32
VD
D4
VS
S6
CD
9P
GN
D10
PG
ND
_111
PG
ND
_212
PG
ND
_313
NC
_114
NC
_215
CM
D3
CLK
5
Q4
IRLM
L640
2Q
4IR
LML6
402
1
32
R39
60R
R39
60R
R337 68KR337 68K
R344 10KR344 10KR172 68KR172 68K
J24
SD
Car
d C
onne
ctor
J24
SD
Car
d C
onne
ctor
8 57 6 4 3 2 1 9
141516 13 12 11 10
R141 68KR141 68K
R35
7
DN
P(4
.7K
)
R35
7
DN
P(4
.7K
)
R194 10KR194 10K
R340 68KR340 68K
R163 DNP(68K)R163 DNP(68K)
R34
810
0K 1
%R
348
100K
1%
R138 68KR138 68K
R166 68KR166 68K
C14
110
uFC
141
10uF
C29
10uF
C29
10uF
R390 68KR390 68K
C14
410
0nF
C14
410
0nF
R386 10KR386 10K
R392 68KR392 68K
R142 10KR142 10K
C30
100n
FC
3010
0nF
69SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
Figure 4-62. EDBG
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
ED
BG
_XIN
ED
BG
_XO
UT
ED
BG
_US
B_F
S_D
ME
DB
G_U
SB
_FS
_DP
ED
BG
_US
B_D
ME
DB
G_U
SB
_VB
US
_5V
TAR
GE
T_JT
AG
_NR
ST
ED
BG
_FO
RC
E_B
OO
T
ED
BG
_CD
C_U
AR
T_R
XE
DB
G_C
DC
_UA
RT_
TX
EDBG_XINEDBG_XOUT
TARGET_JTAG_TCK
TARGET_JTAG_TMSTARGET_JTAG_TDI
TAR
GE
T_JT
AG
_TC
KTA
RG
ET_
JTA
G_T
DO
TAR
GE
T_JT
AG
_TM
STA
RG
ET_
JTA
G_T
DI
TAR
GE
T_JT
AG
_NR
ST
STA
TUS
_LE
D_C
TRL
TAR
GE
T_R
ES
ET_
SE
NS
E
ED
BG
_JTA
G_T
CK
ED
BG
_JTA
G_T
DI
ED
BG
_JTA
G_T
DO
ED
BG
_JTA
G_T
MS
ED
BG
_RE
SE
T_N
ED
BG
_JTA
G_T
CK
ED
BG
_JTA
G_T
DO
ED
BG
_JTA
G_T
MS
ED
BG
_JTA
G_T
DI
ED
BG
_US
B_D
P
ED
BG
_US
B_D
P
ED
BG
_US
B_D
M
ED
BG
_ID
_01
ED
BG
_ID
_04
ED
BG
_ID
_05
ED
BG
_ID
_02
ED
BG
_ID
_06
ED
BG
_ID
_03
TARGET_JTAG_TDO
ED
BG
_RE
SE
T_N
ED
BG
_AD
C0
ED
BG
_RE
SE
T_N
ER
AS
EE
DB
G_I
D_0
7
ED
BG
_DG
I_TW
DE
DB
G_D
GI_
TWC
K
VC
C_E
DB
G
VC
C_E
DB
GV
CC
_ED
BG
VC
C_E
DB
G
VC
C_E
DB
G
EA
RTH
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B_E
DB
G
EA
RTH
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B_E
DB
G
VC
C_E
DB
G
VC
C_E
DB
G
VC
C_5
V
VC
C_E
DB
G
ED
BG
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I_TW
D[1
5]E
DB
G_D
GI_
TWC
K[1
5]
ED
BG
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[10]
DB
GU
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D3_
PE
16[9
,10]
DB
GU
_TX
D3_
PE
17[9
,10]
TCK
[7,1
0]TD
O[7
,10]
TMS
[7,1
0]TD
I[7
,10]
NR
ST_
3V3
[4,1
0,12
,15]
NR
ST_
3V3
[4,1
0,12
,15]
ED
BG
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I_M
ISO
[15]
ED
BG
_SP
I_M
OS
I[1
5]E
DB
G_S
PI_
SC
K[1
5]E
DB
G_S
PI_
NC
S[1
5]
ED
BG
_ID
_04
[15]
ED
BG
_ID
_05
[15]
ED
BG
_ID
_06
[15]
ED
BG
_DG
I_G
PIO
0[1
5]E
DB
G_D
GI_
GP
IO1
[15]
ED
BG
_DG
I_G
PIO
2[1
5]E
DB
G_D
GI_
GP
IO3
[15]
ED
BG
_US
B_V
BU
S_5
V[4
]
ED
BG
_ID
_02
[15]
ED
BG
_ID
_03
[15]
ED
BG
_ID
_07
[15]
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
14 15A
XX
-XX
-XX
Xin
JQX
XX
ED
BG
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
14 15A
XX
-XX
-XX
Xin
JQX
XX
ED
BG
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
14 15A
XX
-XX
-XX
Xin
JQX
XX
ED
BG
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
ED
BG
_US
B_H
S_D
PE
DB
G_U
SB
_HS
_DM
ED
BG
_DG
I_S
DA
ED
BG
_DG
I_S
CL
PO
WE
R_L
ED
_CTR
L
EDB
G
JTA
G
(3V
3)
ED
BG
_DIS
EDB
G_T
WI
Forc
e s/
n
C18
9
2.2u
F
C18
9
2.2u
F
R79
330R
R79
330R
Q9
Q9
1
3 2
C46
1nF
C46
1nF
C19
6
2.2u
F
C19
6
2.2u
F
R1061K R1061K
C15
20pF
C15
20pF
R41
30R
R41
30R
R5
330R
R5
330R
R10
4
100K
1%
R10
4
100K
1%
Q2
Q2
1
3 2
R20
39R
R20
39R
C19
3
100n
F
C19
3
100n
F
C7
1nF
C7
1nF
L14
180o
hm a
t 100
MH
zL1
418
0ohm
at 1
00M
Hz
12
JP1
Hea
der 1
X2
JP1
Hea
der 1
X2
12
C11
10pF
C11
10pF
C19
5
100n
F
C19
5
100n
F
Y1
12M
Hz
CL=
15pF
Y1
12M
Hz
CL=
15pF
14 3
2
R80
330R
R80
330R
TP6
SM
DTP
6S
MD
R7
330R
R7
330R
R4
200K
R4
200K
R6
330R
R6
330R
TP2
SM
DTP
2S
MD
C13
20pF
C13
20pF
C47
1nF
C47
1nF
JPR
1JU
MP
ER
JPR
1JU
MP
ER
R8
10K
R8
10K
R1021K R1021K
L13
180o
hm a
t 100
MH
zL1
318
0ohm
at 1
00M
Hz
12
C22
2.2u
F
C22
2.2u
F
R1051K R1051K
C9
100n
F
C9
100n
F
R131 470RR131 470R
C18
8
100n
F
C18
8
100n
F
R10
733
0RR
107
330R
R4142.2K 1% R4142.2K 1%
R1031K R1031K
C8
2.2u
F
C8
2.2u
F
R31
DN
P(1
M)
R31
DN
P(1
M)
TP1
SM
DTP
1S
MD
R10
10R
R10
10R
R57
330R
R57
330R
D4
RE
DD
4R
ED
R9
6.8K
1%
R9
6.8K
1%
C19
210
0nF
C19
210
0nF
C17
100n
FC
1710
0nF
R4152.2K 1% R4152.2K 1%
J3
DN
P(H
eade
r 2X
5)
J3
DN
P(H
eade
r 2X
5)
12
34
56
78
910
D6
BLU
ED
6B
LUE
GNDVCC
IO1IO2
U11
PR
TR5V
0U2X
GNDVCC
IO1IO2
U11
PR
TR5V
0U2X
1
23
4
R21
39R
R21
39R
U1
AT3
2UC
3A42
56J-
C1U
RU
1A
T32U
C3A
4256
J-C
1UR
PA
00 /
PA
18G
8P
A01
/ P
A17
G10
PA
02 /
PX
47E
1P
A03
F9P
A04
E9
PA
05G
9P
A06
/ P
A13
E8
PA
07 /
PA
19H
10P
A08
F8
PA
10C
10P
A11
C9
PA
12 /
PA
25G
7P
A14
/ P
X11
K7
PA
15 /
PX
45J7
PA
16E
7P
A20
/ P
X18
H9
PA
21 /
PX
22K
10P
A22
/ P
X20
H6
PA
23 /
PX
46G
6P
A24
/ P
X17
J10
PA
09D
8
PA
26 /
PB
05F7
PA
27A
2P
A28
A1
PA
29B
4P
A30
A4
PA
31C
2
US
B_V
BU
SA
10D
MH
SA
9D
PH
SA
8
DM
FSB
9D
PFS
B8
US
B_V
BIA
SC
7VDDANA J6GNDANA H8
VDDIN_1 D9
VDDCORE E10GNDCORE F10
VDDIN_2 D10GNDPLL B10
VDDIO_1 E5VDDIO_2 B5VDDIO_3 J5VDDIO_4 B6VDDIO_5 F2VDDIO_6 F6
GNDIO_1 F5GNDIO_2 C3GNDIO_3 H3GNDIO_4 E2GNDIO_5 C8GNDIO_6 E6
PC00 / PX14K5PC01K6PC02A5PC03A6PC04B7PC05A7
PB00B1PB01B2PB02B3PB03C4PB04A3PB06D7PB07D6PB08C6PB09C5PB10D5PB11C1
PX
00G
4P
X01
G2
PX
02G
3P
X03
J1P
X04
H1
PX
05G
1P
X06
F3P
X07
F4P
X08
E3
PX
09E
4P
X10
D2
PX
12D
1P
X13
D3
PX
15 /
PX
32K
4P
X16
/ P
X53
D4
PX
19 /
PX
59F1
PX
21H
2P
X23
K1
PX
24J2
PX
25H
4P
X26
J3P
X27
K2
PX
28K
3P
X29
J4P
X30
G5
PX
31H
5
RE
SE
T_N
J9
TMS
H7
TDO
J8TD
IK
8TC
KK
9
R3
100K
1%
R3
100K
1%
VBUS
SHD
DM DP IDGN
D J20
Mic
roU
SB
AB
Con
nect
or
VBUS
SHD
DM DP IDGN
D J20
Mic
roU
SB
AB
Con
nect
or
1 2 3 4 5
8
6
11
7
9 10
L218
0ohm
at 1
00M
Hz
L218
0ohm
at 1
00M
Hz
12
R1101K R1101K
R1091K R1091K
R56 100K 1%R56 100K 1%
R412 470RR412 470R
R1081K R1081K
SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
70
Figure 4-63. Expansion and XPRO Connectors
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
EX
P_5
V
NR
ST_
3V3
VC
C_3
V3
VC
C_3
V3
VC
C_3
V3
VC
C_3
V3
VC
C_5
V
VC
C_3
V3
EX
P_5
V
EX
P_5
V
EX
P_P
D23
[9]
EX
P_P
D31
[9]
EX
P_P
D10
[9]
EX
P_P
C24
[8]
EX
P_P
E28
[9]
EX
P/X
PR
O_P
B18
[7]
EX
P/X
PR
O_P
C2
[8]
ED
BG
_DG
I_TW
CK
[14]
EX
P_P
D9
[9]
NR
ST_
3V3
[4,1
0,12
,14]
EX
P_P
B1
[7]
EX
P_P
E7
[9]
EX
P/X
PR
O_P
E22
[9]
EX
P_P
C20
[8]
EX
P_P
C23
[8]
EX
P_P
E8
[9]
EX
P/X
PR
O_P
B19
[7]
EX
P_P
D24
[9]
EX
P_P
B4
[7]
EX
P_P
B10
[7]
EX
P/X
PR
O_P
B26
[7]
EX
P/X
PR
O_P
E21
[9]
EX
P/X
PR
O_P
B21
[7]
EX
P_P
D25
[9]
EX
P_P
B5
[7]
EX
P/X
PR
O_P
C3
[8]
EX
P_P
D26
[9]
EX
P/X
PR
O_P
C26
[8]
EX
P_P
B4
[7]
EX
P/X
PR
O_P
E18
[9]
EX
P_P
E23
[9]
EX
P_P
C19
[8]
EX
P/X
PR
O_P
C25
[8]
EX
P_P
E31
[9]
EX
P_P
D27
[9]
EX
P_P
B22
[7]
EX
P/X
PR
O_P
E19
[9]
EX
P/X
PR
O_P
B30
[7]
EX
P/X
PR
O_P
C0
[8]
EX
P/X
PR
O_P
B15
[7]
EX
P/X
PR
O_P
B14
[7]
EX
P/X
PR
O_P
C1
[8]
EX
P_P
D30
[9]
EX
P_P
D22
[9]
EX
P_P
E20
[9]
EX
P/X
PR
O_P
C1
[8]
EX
P/X
PR
O_P
C26
[8]
EX
P_P
E15
[9]
EX
P_V
BA
T[4
]
EX
P/X
PR
O_P
E26
[9]
EX
P/X
PR
O_P
E27
[9]
EX
P_P
D16
[9]
EX
P/X
PR
O_P
D17
[9]
EX
P_P
D19
[9]
EX
P_P
E13
[9]
EX
P/X
PR
O_P
D15
[9]
ED
BG
_DG
I_TW
D[1
4]
EX
P_5
V[4
]
EX
P_T
WD
0_P
A30
[7]
EX
P_P
D12
[9]
EX
P/X
PR
O_P
D13
[9]
EX
P/X
PR
O_P
C3
[8]
EX
P_P
D28
[9]
EX
P_P
C22
[8]
EX
P_P
D20
[9]
EX
P_P
E25
[9]
EX
P_P
D29
[9]
EX
P_P
B1
[7]
EX
P_P
B3
[7]
EX
P_P
C4
[8]
EX
P_P
D8
[9]
EX
P/X
PR
O_P
D11
[9]
EX
P_P
E0
[9]
EX
P_P
D21
[9]
EX
P/X
PR
O_P
C25
[8]
EX
P/X
PR
O_P
B29
[7]
AR
EF
[7]
EX
P/X
PR
O_P
B27
[7]
EX
P_P
C21
[8]
EX
P_P
B3
[7]
EX
P_P
D14
[9]
EX
P/X
PR
O_P
B20
[7]
EX
P/X
PR
O_P
C0
[8]
EX
P_P
B11
[7]
EX
P/X
PR
O_P
C28
[8]
EX
P_P
E5
[9]
EX
P_P
E24
[9]
EX
P_P
B28
[7]
EX
P/X
PR
O_P
C29
[8]
EX
P/X
PR
O_P
C27
[8]
EX
P_P
C31
[8]
EX
P/X
PR
O_P
C30
[8]
EX
P_P
B31
[7]
EX
P_P
E6
[9]
EX
P_P
D18
[9]
EX
P_P
E12
[9]
EX
P_T
WC
K0_
PA
31[7
]
ED
BG
_SP
I_M
ISO
[14]
EX
P/X
PR
O_P
B18
[7]
ED
BG
_SP
I_S
CK
[14]
EX
P/X
PR
O_P
B20
[7]
ED
BG
_SP
I_M
OS
I[1
4]E
XP
/XP
RO
_PB
19[7
]
EX
P/X
PR
O_P
E30
[9]
EX
P/X
PR
O_P
E29
[9]
ED
BG
_SP
I_N
CS
[14]
ED
BG
_DG
I_G
PIO
0[1
4]
ED
BG
_DG
I_G
PIO
1[1
4]
ED
BG
_DG
I_G
PIO
2[1
4]
ED
BG
_DG
I_G
PIO
3[1
4]
ED
BG
_ID
_05
[14]
ED
BG
_ID
_07
[14]
ED
BG
_ID
_04
[14]
ED
BG
_ID
_06
[14]
EX
P/X
PR
O_P
B14
[7]
ED
BG
_ID
_03
[14]
EX
P/X
PR
O_P
C1
[8]
EX
P/X
PR
O_P
C0
[8]
EX
P/X
PR
O_P
D17
[9]
EX
P/X
PR
O_P
E30
[9]
EX
P/X
PR
O_P
D11
[9]
EX
P/X
PR
O_P
E19
[9]
EX
P/X
PR
O_P
D13
[9]
EX
P/X
PR
O_P
B15
[7]
EX
P/X
PR
O_P
D15
[9]
EX
P/X
PR
O_P
E26
[9]
EX
P/X
PR
O_P
E27
[9]
EX
P/X
PR
O_P
E18
[9]
EX
P/X
PR
O_P
C29
[8]
EX
P/X
PR
O_P
E29
[9]
EX
P/X
PR
O_P
C30
[8]
EX
P/X
PR
O_P
B26
[7]
ED
BG
_ID
_02
[14]
EX
P/X
PR
O_P
C3
[8]
EX
P/X
PR
O_P
C2
[8]
EX
P/X
PR
O_P
B21
[7]
EX
P/X
PR
O_P
B30
[7]
EX
P/X
PR
O_P
B18
[7]
EX
P/X
PR
O_P
E22
[9]
EX
P/X
PR
O_P
B19
[7]
EX
P/X
PR
O_P
B27
[7]
EX
P/X
PR
O_P
B20
[7]
EX
P/X
PR
O_P
C25
[8]
EX
P/X
PR
O_P
C26
[8]
EX
P/X
PR
O_P
E21
[9]
EX
P/X
PR
O_P
C27
[8]
EX
P/X
PR
O_P
B29
[7]
EX
P/X
PR
O_P
C28
[8]
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
15 15A
XX
-XX
-XX
Xin
JQX
XX
Exp
ansi
on &
XP
RO
Con
nect
ors
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
15 15A
XX
-XX
-XX
Xin
JQX
XX
Exp
ansi
on &
XP
RO
Con
nect
ors
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
RE
VD
ATE
MO
DIF
.D
ES
.D
ATE
VE
R.
SC
ALE
1/1
RE
V.
SH
EE
T
INIT
ED
ITAA
Rev
A
15 15A
XX
-XX
-XX
Xin
JQX
XX
Exp
ansi
on &
XP
RO
Con
nect
ors
29-A
ug-1
4
SA
MA
5D4-
XU
LT
Xin
JQ11
-Oct
-14
XX
XX
X-X
X-X
X
Expa
nsio
nB
oard
sC
onne
ctor
s
SP
I2_N
PC
S2
SP
I2_M
ISO
SP
I2_N
PC
S0
SP
I1_N
PC
S3
SP
I1_M
ISO
SP
I1_N
PC
S0
XPR
O C
onne
ctor
s
XPR
O P
ower
XPR
O E
XT1
XPR
O E
XT2
ID02
AD
0TI
OA
4P
WM
H3
PC
K0
TWD
2U
RX
D1
ID03
AD
2TI
OA
5P
WM
H2
SP
I2_N
PC
S1
TWD
1R
XD
4TW
CK
1TX
D4
SP
I2_M
OS
IS
PI2
_SP
CK
TWC
K2
UTX
D1
SP
I1_M
OS
IS
PI1
_SP
CK
PW
ML3
TIO
B4
TIO
B5
PW
ML2
AD
1
AD
3
SP
I1_M
ISO
IS
OM_1I
PS
KC
PS_1I
PS
R32
80R
R32
80R
R31
60R
R31
60R
R38
7D
NP
(0R
)R
387
DN
P(0
R)
J7
Soc
ket 1
X8
J7
Soc
ket 1
X8
1 2 3 4 5 6 7 8
R33
80R
R33
80R
R36
3D
NP
(0R
)R
363
DN
P(0
R)
J17
Soc
ket 1
X10
J17
Soc
ket 1
X1012345678910
R29
8D
NP
(330
R)
R29
8D
NP
(330
R)
R30
40R
R30
40R
R23
8D
NP
(330
R)
R23
8D
NP
(330
R)
R37
00R
R37
00R
J21
DN
P(H
eade
r 2X
2)
J21
DN
P(H
eade
r 2X
2)
1 32 4
R36
60R
R36
60R
J18
Soc
ket 1
X8
J18
Soc
ket 1
X81 2 3 4 5 6 7 8
R35
40R
R35
40R
R29
6D
NP
(330
R)
R29
6D
NP
(330
R)
R23
20R
R23
20R
R29
3D
NP
(0R
)R
293
DN
P(0
R)
J6
Soc
ket 1
X8
J6
Soc
ket 1
X8
1 2 3 4 5 6 7 8
R30
10R
R30
10R
R34
30R
R34
30R
R29
1D
NP
(330
R)
R29
1D
NP
(330
R)
R30
7D
NP
(0R
)R
307
DN
P(0
R)
R29
70R
R29
70R
R32
30R
R32
30R
R39
1D
NP
(0R
)R
391
DN
P(0
R)
R21
910
0R 1
%R
219
100R
1%
J19
Soc
ket 1
X8
J19
Soc
ket 1
X81 2 3 4 5 6 7 8
R37
70R
R37
70R
R29
0D
NP
(330
R)
R29
0D
NP
(330
R)
R22
90R
R22
90R
J23
DN
P(H
eade
r 2X
10)
J23
DN
P(H
eade
r 2X
10)
12
34
56
78
910
1112
13 15 17 19
14 16 18 20
R32
7D
NP
(0R
)R
327
DN
P(0
R)
R23
3D
NP
(330
R)
R23
3D
NP
(330
R)
R35
30R
R35
30R
R242 DNP(0R)R242 DNP(0R)
R36
20R
R36
20R
R30
50R
R30
50R
R22
5D
NP
(330
R)
R22
5D
NP
(330
R)
R23
60R
R23
60R
R30
90R
R30
90R
R32
10R
R32
10R
R31
70R
R31
70R
R37
6D
NP
(0R
)R
376
DN
P(0
R)
R29
9D
NP
(0R
)R
299
DN
P(0
R)
R34
2D
NP
(0R
)R
342
DN
P(0
R)
R31
3D
NP
(0R
)R
313
DN
P(0
R)
R36
00R
R36
00R
R32
6D
NP
(0R
)R
326
DN
P(0
R)
R29
50R
R29
50R
R32
2D
NP
(330
R)
R32
2D
NP
(330
R)
R38
90R
R38
90R
R30
6D
NP
(0R
)R
306
DN
P(0
R)
R37
1D
NP
(0R
)R
371
DN
P(0
R)
R31
90R
R31
90R
R30
3D
NP
(0R
)R
303
DN
P(0
R)
R29
40R
R29
40R
J22
DN
P(H
eade
r 2X
10)
J22
DN
P(H
eade
r 2X
10)
12
34
56
78
910
1112
13 15 17 19
14 16 18 20
R32
0D
NP
(0R
)R
320
DN
P(0
R)
R36
5D
NP
(0R
)R
365
DN
P(0
R)
R34
5D
NP
(0R
)R
345
DN
P(0
R)
R32
4D
NP
(0R
)R
324
DN
P(0
R)
R38
80R
R38
80R
R30
2D
NP
(0R
)R
302
DN
P(0
R)
R33
9D
NP
(0R
)R
339
DN
P(0
R)
R29
20R
R29
20R
R38
5D
NP
(0R
)R
385
DN
P(0
R)
R21
610
0R 1
%R
216
100R
1%
R30
8D
NP
(330
R)
R30
8D
NP
(330
R)
R31
8D
NP
(0R
)R
318
DN
P(0
R)
R31
5D
NP
(0R
)R
315
DN
P(0
R)
J14
Hea
der 2
X3
J14
Hea
der 2
X3
12
34
56
R35
9D
NP
(0R
)R
359
DN
P(0
R)
R32
50R
R32
50R
R28
90R
R28
90R
R31
20R
R31
20R
R34
6D
NP
(0R
)R
346
DN
P(0
R)
J8
Soc
ket 1
X8
J8
Soc
ket 1
X8
1 2 3 4 5 6 7 8
R240 DNP(0R)R240 DNP(0R)
R30
00R
R30
00R
J15
Soc
ket 2
X18
J15
Soc
ket 2
X18
12
34
56
78
910
1112
13 15 17 19
14 16 18 2021
2223
2425
2627
2829
3031
3233
3435
36
R38
40R
R38
40R
R31
4D
NP
(330
R)
R31
4D
NP
(330
R)
71SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
SAMA5D4 Xplained Ultra [USER GUIDE]Atmel-44005C-ATARM-SAMA5D4-Xplained-Ultra-User Guide_11-Aug-15
72
5. Revision History
In the tables that follow, the most recent version of the document appears first.
Table 5-1. SAMA5D4 Xplained Ultra User Guide Rev. 44005C Revision History
Doc. Date Changes
11-Aug-15
Updated Section 4.2.1 “Processor”
Modified Section 4.2.2.1 “Power Lines”
Modified Section 4.2.2.2 “Power-up and Power-down Considerations” (title and content)
Table 5-2. SAMA5D4 Xplained Ultra User Guide Rev. 44005B Revision History
Doc. Date Changes
28-Feb-15
Minor formatting and editorial changes throughout
Table 4-3 “DDR_CALN and DDR_CALP”: added column header “Memory Type”
Section 4.2.9.3 “LCD Power”: corrected “two voltage lines are available: 3.3V by default and 5 VCC” to read “two voltage lines are available: 3.3V and 5 VCC (default)”
Table 4-13 “SAMA5D44 Peripheral Functions Available through the Arduino Headers”: changed column header “SAMA5D4 to Arduino” to “SAMA5D44 to Arduino”; added column header “System Function”
Table 4-20 “SD/MMC Socket J24 Signal Descriptions”: defined mnemonic for pins 15 and 16 as “VSS”
Table 4-21 “MicroSD Socket J9 Signal Descriptions”: for pin 9, changed mnemonic from “CARD DETECT” to “CD”; for pin 10, changed mnemonic from “PGND” to “GND”
Table 5-3. SAMA5D4 Xplained Ultra User Guide Rev. 44005 Revision History
Doc. Rev. Changes
44005A First issue.
XX X XX XARM Connected Logo
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