ARTIK_530_Development_Kit_Contents ARTIK 710s Development Kit User Guide V1.0

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ARTIK 710s Development Kit Overview

Samsung Semiconductor, Inc.

ARTIK 710s Development Kit

Version History ................................................................................................................................................................... 2
ARTIK 710s Development Kit Contents ..............................................................................................................................3
ARTIK 710s Additional Documentation ..............................................................................................................................3
Additional Materials............................................................................................................................................................3
ARTIK 710s Development Kit Overview .............................................................................................................................4
Development Kit Block Diagram..................................................................................................................................5
ARTIK 710s Development Kit Interposer Board .................................................................................................................6
ARTIK 710s Interposer Board Interfaces ............................................................................................................................ 7
USB OTG ....................................................................................................................................................................... 7
HDMI ............................................................................................................................................................................. 7
Reset Pushbutton Switch........................................................................................................................................... 10
Power-Key Pushbutton Switch .................................................................................................................................. 10
Boot Mode DIP Switches............................................................................................................................................. 11
Interposer to Platform Board Connectors.................................................................................................................. 11
ARTIK 710s Development Kit Platform Board .................................................................................................................. 14
SD Card Interface....................................................................................................................................................... 15
Audio Interface........................................................................................................................................................... 15
USB Host 2.0 Interface................................................................................................................................................17
ARTIK JTAG ..................................................................................................................................................................17
Power Jack...................................................................................................................................................................17
Power Switch.............................................................................................................................................................. 18
GPIO Test Header Interface to I/O Expander Board ................................................................................................. 18
ARTIK 710s Development Kit I/O Expander Board ......................................................................................................... 20
I/O Expander Board Power Source............................................................................................................................ 21
ARTIK 710s Configuration................................................................................................................................................. 22
Selecting the Development Kit Power Source.......................................................................................................... 22
ARTIK 710s Development Kit Boot Mode Configuration...........................................................................................23
ARTIK 710s Software Configuration ..........................................................................................................................25
Powering On the ARTIK Development Kit ..........................................................................................................25
Windows Based Configuration ...........................................................................................................................25
Linux Based Configuration .................................................................................................................................28
Mechanical Specifications .............................................................................................................................................. 30

Samsung Semiconductor, Inc.

ARTIK 710s Development Kit

LIST OF FIGURES
Figure 1. ARTIK 710s Development Kit Contents ...............................................................................................................4
Figure 2. ARTIK 710s Development Platform System Block Diagram...............................................................................5
Figure 3. ARTIK 710s Interposer Board (Left - Top Side, Right - Bottom Side).................................................................6
Figure 4. Location of USB OTG Port on the Interposer Board .......................................................................................... 7
Figure 5. Location of HDMI Port on Interposer Board.......................................................................................................8
Figure 6. Location of LVDS Connection on the Interposer Board ....................................................................................8
Figure 7. Location of Ethernet Port on the Interposer Board............................................................................................9
Figure 8. Location of Antennas on the Interposer Board..................................................................................................9
Figure 9. Location of PWR_KEY Pushbutton Switch on the Interposer Board................................................................ 10
Figure 10. ARTIK 710s Development Kit Platform Board (Left - Bottom Side, Right - Top Side..................................... 14
Figure 11. Location of SD Card Interface on the Platform Board .................................................................................... 15
Figure 12. Location of the Audio Jack on the Platform Board......................................................................................... 15
Figure 13. Location of MIPI DSI Connector on the Platform Board ................................................................................ 16
Figure 14. Location of MIPI CSI Connector on the Platform Board ................................................................................ 16
Figure 15. Location of the USB2.0 Interface Ports on the Platform Board ......................................................................17
Figure 16. Location of the 5V DC Power Supply Jack on the Platform Board .................................................................17
Figure 17. Location of Power Switch on the Platform Board .......................................................................................... 18
Figure 18. ARTIK 710s Development Kit I/O Expander Board......................................................................................... 20
Figure 19. Location of Jumpers JP1 - JP4 on the Platform Board .................................................................................... 22
Figure 20. Location of Boot Configuration DIP Switches on the Interposer Board.......................................................23
Figure 21. ARTIK 710s Interposer and Platform Board Mechanical Specifications ....................................................... 30

Samsung Semiconductor, Inc.

ARTIK 710s Development Kit

VERSION HISTORY
Revision

Date

V1.0

November 30, 2017

Description
Initial draft of ARTIK 710s Development Kit Overview.

Samsung Semiconductor, Inc.

ARTIK 710s Development Kit

This document describes the ARTIK 710s Development Kit.

ARTIK 710S DEVELOPMENT KIT CONTENTS
The ARTIK 710s development kit consists of the following components:
•

ARTIK 710s Interposer board (contains ARTIK 710s module)

•

ARTIK 710s Platform board (connected to the Interposer board at the factory)

•

ARTIK 710s I/O Expander board (connects to the Platform board for I/O expansion)

•

Bluetooth/WiFi antenna (for general purpose wireless communication)

•

Zigbee antenna (for low-power, low-speed close proximity wireless communication)

Each of these components is described in the following subsections.

ARTIK 710S ADDITIONAL DOCUMENTATION
The following documents provide additional information on the ARTIK 710s development environment.
•

ARTIK 710s Data Sheet

•

ARTIK 710s Hardware User Guide

•

ARTIK 530s/710s System Design Guide

•

ARTIK PCB Design Guide

•

ARTIK 710s Interposer board schematics

•

ARTIK 710s Platform board schematics

•

ARTIK 710s I/O Expander board schematics

•

ARTIK 710s Bill of Materials

ADDITIONAL MATERIALS
Depending on the system environment, the following components may be required when interfacing to the ARTIK
710s Development Platform.
•

5V DC, 24W power supply for connecting to the DC power jack on the Platform board. Note that the 5V DC
jack is identical to a 12V DC jack. Ensure that the power supply is 5V, not 12V.

•

microUSB cable for connecting an external host or when transferring data over the USB OTG port.

•

USB-A cables for interfacing to one of two USB Host ports on the Platform board.

•

HDMI micro-to-standard cable for connection to an HDMI display.

•

Ethernet cable for direct connection to a local area network.

•

Connection to a local WiFi network via the Bluetooth/WiFi antenna on the Interposer board.

Samsung Semiconductor, Inc.

ARTIK 710s Development Kit

ARTIK 710S DEVELOPMENT KIT OVERVIEW
The ARTIK 710s Development Board consists of one Interposer Board, one Platform Board and one I/O Expander
board. The Interposer board includes the ARTIK 710s module which is soldered to the board at the factory.
The ARTIK 710s Development Platform is an affordable approach for developing an IoT solution. The ARTIK 710s
module is designed for IoT devices and it contains hardware functions based on a Linux® system. Some of hardware
functions include multimedia and network such as 802.11 and ZigBee®. In addition the ARTIK 710s Module has mass
storage capability.
Figure 1 shows the three boards that make up the ARTIK 710s Development Kit.

Figure 1. ARTIK 710s Development Kit Contents

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ARTIK 710s Development Kit

Development Kit Block Diagram
Figure 2 shows a system block diagram of the three boards in the ARTIK 710s module development platform and the
relative location of each interface.

I/O
Board

Platform Board
MIPI CSI

MIPI DSI

Interposer Board
XMIPICSI

XBOOT_CONFIG

XMIPIDSI

XRTC

Battery
Connector

Fuel Gauge

XUSB3

Power
Connectors

XMCU

AVR
AVR Reset
DC/DC
Conv

Mic, Speaker,
Headset,
Line Out

Audio
Codec

Dbg UART3,
MicroUSB

FT232
XUHOST0

PWM

PHY

I2S

UART3

HSIC

RJ45

Zigbee JTAG

XHSIC
_HUB

ARTIK
Module

WiFi/Bluetooth

Zigbee

XRESET

Pushbutton
Reset

XPWR_KEY

Pushbutton
Power Key

XUHOST1

LED's
XADC
XGPIO

GPIO

UART0

LVDS/LCD

XGMAC Ethernet

XSDO

ADC

I2C

XLVDS

5V, 3.3V, 1.8V

MicroSD

SPI

USB OTG

DC/DC
Conv

5V, 3.3V, 1.8V
5V

USB2.0

HDMI

VBAT_MAIN

Power Jack

USB2.0

HDMI
PHY

GPIO/I2C

ISP Conn
AVR GPIO

RTC

XHDMI

CHG

Batt Charger

Bootstrap
Switches (4)

XSPI0

SPI

XI2C0

I2C

XUART0

UART0

XPWM0

PWM

ARTIK JTAG

LED's

Figure 2. ARTIK 710s Development Platform System Block Diagram

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ARTIK 710s Development Kit

ARTIK 710S DEVELOPMENT KIT INTERPOSER BOARD
The ARTIK 710s Interposer Board interfaces are shown in Figure 3.

710s

Figure 3. ARTIK 710s Interposer Board (Left - Top Side, Right - Bottom Side)

The ARTIK 710s Development Platform contains the ARTIK 710s module that is soldered to the Interposer board.
Table 1shows the main features of the ARTIK 710s module. For more information on the ARTIK 710s module please
consult the ARTIK 710s module datasheet.

Table 1. ARTIK 710s Module Main Features

Feature

Description

CPU

Octa-core ARM Cortex A53 @ 1.4 GHz

GPU

3D graphics accelerator

Camera Interface

4-lane MIPI CSI up to 5M
(1920 x 1080 @ 30 fps)

Display interface

4-lane MIPI DSI and HDMI 1.4a (1920 x 1080p @ 60 fps), or
LVDS (1280 x 720p @ 60 fps)

Audio

Two I2S audio channels (input/output)

DRAM

1 GB DDR3

Flash

4 GB eMMC 4.5

Secure Element

Secure point to point authentication and data transfer

Trustware

Trusted execution environment

WLAN

IEEE 802.11a/b/g/n, dual-band SISO

Bluetooth

4.2 (BLE + Classic)

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ARTIK 710s Development Kit

Table 1. ARTIK 710s Module Main Features (Continued)

Feature

Description

802.15.

Zigbee/Thread

Power Management

PMIC, integrated into the ARTIK module.
Provides all power to the ARTIK 710s module.

Ethernet

10/100/1000Base-T MAC (external PHY required)

Analog and Digital I/O

GPIO, UART, I2C, SPI, USB host, USB OTG, HSIC, ADC, PWM, I2S, JTAG

ARTIK 710S INTERPOSER BOARD INTERFACES
The following subsections describe the various interfaces present on the ARTIK 710s Interposer board.

USB OTG
The Interposer board has one USB OTG connector located as can be seen in Figure 4. The USB OTG port can be
used to program the module.

Figure 4. Location of USB OTG Port on the Interposer Board

HDMI
The Interposer board has one HDMI 1.4a connector (Micro D-Type) located as can be seen in Figure 5. The following
video formats are supported:
•

480p/480i @59.94Hz/60Hz, 576p/576i@50Hz

•

720p/720i @50Hz/59.94Hz/60Hz

•

1080p/1080i @50Hz/59.94Hz/60Hz

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ARTIK 710s Development Kit

Figure 5. Location of HDMI Port on Interposer Board

LVDS
The Interposer board has one LVDS Interface containing 5x data channels and one clock channel, its location can be seen in Figure
6. The available maximum resolution is 1920 x 1080 @ 60fps.

Figure 6. Location of LVDS Connection on the Interposer Board

Ethernet
The Interposer board has one Ethernet Interface, its location are shown in Figure 7. The Ethernet interface is based on 802.3az2010 and is compliant with the Energy Efficient Ethernet (EEE) standard. The maximum theoretical speed of the interface is 1000
Mbps.

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ARTIK 710s Development Kit

Figure 7. Location of Ethernet Port on the Interposer Board

Antennas
If 802.11, Bluetooth®, or Zigbee functionality is required, two antennas are included as part of the ARTIK 710s Development Kit.
These antennas are attached to coaxial connectors on the Interposer board as shown in Table 2. More details on the antenna
specifications are shown in Figure 8.
Table 2. Antenna Specifications

Property

Description

Antenna Type

Dipole antenna

Antenna Peak Gain

+1.43 (2.4GHz)/ +0.91 (5GHz)

Frequency

2.4GHz, 5GHz (for 802.11, Bluetooth®, ZigBee®)

Connector Type

SMA-M

Antenna Size

108.7 mm

Figure 8. Location of Antennas on the Interposer Board

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ARTIK 710s Development Kit

Zigbee JTAG
The Interposer board contains a dedicated Zigbee JTAG connector. This connector is used only for debug of the onboard Zigbee controller in case the Flashing of firmware to the controller is required. As such, this connector cannot
be used for system debug.

Reset Pushbutton Switch
Reset of the ARTIK module is accomplished by depressing the RESET button located on the Interposer board. This
button is located near the RJ45 Ethernet jack right next to the PWR_KEY button shown in Figure 3. The button is
indicated as RESET on the silkscreen. When this button is depressed, the entire development platform is reset,
except for the power controller (PMIC) on the ARTIK module, and all data is lost.

Power-Key Pushbutton Switch
The PWR_KEY pushbutton switch located on the Interposer board performs the following functions:
•

System Power Up: Pressing and holding the PWR_KEY button until the red LED illuminates causes the system
to power-up the board.

•

System Power Down: Pressing and holding the PWR_KEY button until the red LED goes off causes the system
to turn off.

The location of the PWR_KEY pushbutton switch is shown in Figure 9.

Figure 9. Location of PWR_KEY Pushbutton Switch on the Interposer Board

The Interposer board also contains a 4-pin jumper (JP400) that allows the system to boot automatically once power
is applied, effectively bypassing the PWR_KEY button by grounding the AP_PWRKEY pin on the ARTIK module. This
jumper is located right next to the Reset button as shown on the Interposer board in Figure 9. When pins 1 and 3 of
this jumper are connected, the PWR_KEY LED turns on and boot-up commences once power is applied to the board.
When this jumper is inserted, pressing and holding the PWR_KEY button as described above is not required. Note
that pins 2 and 4 of this jumper are used for Zigbee JTAG and are not used for PWR_KEY purposes.

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ARTIK 710s Development Kit

Boot Mode DIP Switches
The Interposer board contains 4 DIP switches that are used to configure the system to boot from on-module eMMC
memory, SD card, or the USB OTG port. For more information, refer to the section entitled ARTIK 710s Development
Kit Boot Mode Configuration.

Interposer to Platform Board Connectors
Two HIROSE connectors are used to transfer signals between the Interposer and Platform boards. One connector
(CON700) contains 90 pins, and the second connector (CON701) contains 80 pins. The following tables show the
relationship between the connector pinout and pin names, and the associated module pin names and numbers.
Table 3. CON400 HIROSE Connector to ARTIK Module Pin Mapping

Left Side of Connector (odd numbered pins)

Right Side of Connector (even numbered pins)

Module Pin
Name

Module
Pin
Number

HIROSE
Connector
Name

HIROSE
Connector
Pin #

HIROSE
Connector
Name

Module
Pin
Number

Module Pin
Name

N/Aa

N/A

VDD_AP_IO_3P3

N/A

GND

N/A

AP_MIPICSI1_DN3

PA14

XMIPICSI1_DN3

XCAM_LDO_EN

PAK42

AP_GPA6

AP_MIPICSI1_DP3

PB14

XMIPICSI1_DP3

XCAM_STBY_1.8V

PAL42

AP_GPA3

N/A

GND

XCAM_RESET

PAL41

AP_GPA17

AP_MIPICSI1_DN2

PA13

XMIPICSI1_DN2

XCAM_SCL_1.8Vb

PAK10

AP_GPD2_SCL0

AP_MIPICSI1_DP2

PB13

XMIPICSI1_DP2

XCAM_SDA_1.8V

PAL10

AP_GPD2_SDA0

N/A

GND

N/A

AP_MIPICSI1_DN1

PA12

XMIPICSI1_DN1

XSD0_CDN

PAK37

AP_GPB16

AP_MIPICSI1_DP1

PB12

XMIPICSI1_DP1

XSD0_D1

PAK29

AP_SD0_D1

N/A

GND

XSD0_D0

PAL30

AP_SD0_D0

AP_MIPICSI1_DN0

PA11

XMIPICSI1_DN0

XSD0_CLK

PAK30

AP_SD0_CLK

AP_MIPICSI1_DP0

PB11

XMIPICSI1_DP0

XSD0_CMD

PAK28

AP_SD0_CMD

N/A

GND

XSD0_D3

PAL28

AP_SD0_D3

AP_MIPICSI1_DNCLK

PA10

XMIPICSI1_DNCLK

XSD0_D2

PAKL9

AP_SD0_D2

AP_MIPICSI1_DPCLK

PB10

XMIPICSI1_DPCLK

GND

N/A

GND

XCHG_INT

PAK41

AP_GPA10

AP_UART_TX4

PAK23

XUART0_TX

XCHG_SCL

PAK38

AP_GPA20

AP_UART_RX4

PAL23

XUART0_RX

XCHG_SDA

PAL40

AP_GPA19

N/A

GND

N/A

AP_UART_TX3

PAK22

XDEBUG_TXD

XFUEL_SCL

PA40

AP_GPA9

AP_UART_RX3

PAL22

XDEBUG_RXD

XFUEL_SDA

PA37

AP_GPA13

N/A

GND

XFUEL_INT

PAK19

AP_GPD28

AP_USBH_DP

PB36

XUHOST1_DP

GND

N/A

AP_USBH_DM

PA36

XUHOST1_DM

XSPI0_CS

PAL4

AP_GPC10_SPI2_CS

N/A

GND

XSPI0_CLK

PAK4

AP_GPC9_SPI2_CLK

N/A

XUHOST0_DP

XSPI0_MISO

PAK3

AP_GPC11_SPI2_MISO

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Table 3. CON400 HIROSE Connector to ARTIK Module Pin Mapping (Continued)

Left Side of Connector (odd numbered pins)

Right Side of Connector (even numbered pins)

Module Pin
Name

Module
Pin
Number

HIROSE
Connector
Name

HIROSE
Connector
Pin #

HIROSE
Connector
Name

Module
Pin
Number

Module Pin
Name

N/A

XUHOST0_DM

XSPI0_MOSI

PAL3

AP_GPC12_SPI2_MOSI

N/A

GND

N/A

AP_TMS

PAC2

XJTAG_TMS

XADC0

AP_ADC0

PY1

AP_TCK

PAC1

XJTAG_TCK

XADC1

AP_ADC1

PY2

AP_TDI

PAD2

XJTAG_TDI

XADC2

AP_ADC2

PAA1

AP_TDO

PAD1

XJTAG_TDO

XADC3

AP_ADC3

PAA2

AP_TNTRST

PAE1

XJTAG_RSTN

XADC4

AP_ADC4

PW1

N/A

GND

XADC5

AP_ADC5

PW2

AP_NRESET

PAG1

XRESET

GND

N/A

GND

XPWM0_OUT

PAK7

AP_GPC14_PWM2

VCC_3P3_SYS[4:1]

PAL18, 17
PAK18, 17

VSYS_IO_3P3

GND

N/A

GND

XI2C0_SCL

PAK9

AP_GPD4_SCL1

N/A

LCD2_ID

Xi2C0_SDA

PAL9

AP_GPD5_SDA1

N/A

N/C

GND

N/A

GND

N/A

AP_GPA16

PB41

XUHOST_VBUSCTRL

GND

N/A

GND

N/A

AP_GPB30

PP41

MICOM_INT

GND

N/A

a. N/A indicates that the connector pin does not connect to the ARTIK module.
b. All pins ending in ‘_1.8V’ pass through level translators in the Interposer board before connecting to the ARTIK module.

Table 4. CON401 HIROSE Connector to ARTIK Module Pin Mapping

Left Side of Connector (odd numbered pins)
Module Pin
Name

Module
Pin
Number

HIROSE
Connector
Name

HIROSE
Connector
Pin #

N/Aa

N/A

GND

Right Side of Connector (even numbered pins)
HIROSE
Module
HIROSE
Connector
Pin
Connector Name
Pin #
Number
2

GND
b

Module Pin
Name

N/A

PAL7

AP_GPD1_PWM0

AP_MIPIDSI1_DN3

PA20

XMIPIDSI1_DN3

XLCD_PMWOUT_1.8V

AP_MIPIDSI1_DP3

PB20

XMIPIDSI1_DP3

XLCD_RESET_1.8V

PAL34

AP_GPE30

N/A

GND

XLCD_GPIO_1.8V

PAK34

AP_GPC0

AP_MIPIDSI1_DN2

PA19

XMIPIDSI1_DN2

GND

N/A

AP_MIPIDSI1_DP2

PB19

XMIPIDSI1_DP2

XTSP_SCL_1.8V

PAK8

AP_GPD6_SCL2

N/A

GND

XTSP_SDA_1.8V

PAL8

AP_GPD7_SDA2

AP_MIPIDSI1_DN1

PB17

XMIPIDSI1_DN1

XTSP_RESET_1.8V

PAH41

AP_GPC25

AP_MIPIDSI1_DP1

PB18

XMIPIDSI1_DP1

GND

N/A

GND

XLCD1_GPIO1_1.8V

PAH42

AP_GPE31

AP_MIPIDSI1_DN0

PA17

XMIPIDSI1_DN0

XTSP1_GPIO1_1.8V

PAL35

AP_GPC27

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Table 4. CON401 HIROSE Connector to ARTIK Module Pin Mapping (Continued)

Left Side of Connector (odd numbered pins)

Right Side of Connector (even numbered pins)

Module Pin
Name

Module
Pin
Number

HIROSE
Connector
Name

HIROSE
Connector
Pin #

HIROSE
Module
HIROSE
Connector
Pin
Connector Name
Pin #
Number

AP_MIPIDSI1_DP0

PB17

XMIPIDSI1_DP0

XTSP_INT_1.8V

PAL36

AP_GPB22

N/A

GND

N/A

AP_MIPIDSI1_DNCLK

PA16

XMIPIDSI1_DNCLK

XAUDIO_SCL

PB39

AP_GPA4

AP_MIPIDSI1_DPCLK

PB16

XMIPIDSI1_DPCLK

XAUDIO_SDA

PB40

AP_GPA5

Module Pin
Name

N/A

GND

XAUDIO_IRQ

PAL33

AP_GPD8

AP_GPE0

PAL21

XGPIO0

GND

N/A

AP_GPE1

PAK21

XGPIO1

XAUDIO_I2S0_CDCLK

PAL2

AP_I2S0_MCLK

AP_GPE2

PAK20

XGPIO2

XAUDIO_I2S0_LRCLK

PAJ1

AP_I2S0_LRCLK

AP_GPB14

PAK37

XGPIO3

XAUDIO_I2S0_SCLK

PAK2

AP_I2S0_BCLK

AP_GPA14

PA39

XGPIO4

XAUDIO_I2S0_DIN

PAL1

AP_I2S0_DIN

AP_GPB9_I2SDIN1

PAL26

XGPIO5

XAUDIO_I2S0_DOUT

PAK1

AP_I2S0_DOUT

AP_GPA25

PAG2

XGPIO6

GND

N/A

AP_GPA0

PAH2

XGPIO7

BT_PCM_LRCLK

PAJ42

BT_PCM_LRCLK

AP_GPA26

PAH1

XGPIO8

BT_PCM_CLK

PAJ39

BT_PCM_CLK

AP_GP27

PAJ2

XGPIO9

BT_PCM_DOUT

PAJ41

BT_PCM_D_OUT

AP_AGP1

PAF2

XAGPIO0

BT_PCM_DIN

PAJ40

BT_PCM_D_IN

N/A

GND

N/A

AP_GPB11

PAG41

XMCU_SCL

GND

N/A

AP_GPB18

PAG42

XMCU_SDA

GND

N/A

GND

V_MAIN

PV42

VIN1c

VCC3P3_SYS[4:1]

PAL18, 17
PAK18, 17

VSYS_IO_3P3

V_MAIN

PV41

VIN2

N/A

VDD_EXT3P3_ALIVE

V_MAIN

PW42

VIN3

N/A

VDD_EXT3P3_ALIVE

V_MAIN

PW41

VIN4

N/A

VDD_EXT3P3

V_MAIN

PY42

VIN5

N/A

VDD_EXT3P3

V_MAIN

PY41

VIN6

N/A

VDD_EXT1P8_ALIVE

V_MAIN

PAA42

VIN7

N/A

VDD_EXT1P8_ALIVE

V_MAIN

PAA41

VIN8

N/A

VDD_EXT1P8

V_MAIN

PAB42

VIN9

N/A

VDD_EXT1P8

V_MAIN

PAB41

VIN10

a. N/A indicates that the particular connector pin does not connect to the ARTIK module.
b. All pins that end in ‘_1.8V’ connect to the ARTIK module through level translators on the Interposer board.
c. All VIN[10:1] pins are connected together at the ARTIK module and are collectively called V_MAIN.

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ARTIK 710S DEVELOPMENT KIT PLATFORM BOARD
The main components of the Platform board is shown in Figure 10.

Figure 10. ARTIK 710s Development Kit Platform Board (Left - Bottom Side, Right - Top Side

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SD Card Interface
The Platform board has one SD-CARD interface supporting SD3.0 located as shown in Figure 11.

Figure 11. Location of SD Card Interface on the Platform Board

Audio Interface
The Platform board has one 4-pin audio jack interface supporting stereo audio as shown in Figure 12.

Figure 12. Location of the Audio Jack on the Platform Board

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MIPI CSI/DSI Interface
The Platform board has one MIPI DSI and one MIPI CSI interface. The location of the DSI Display interface is shown in
Figure 13. The location of the MIPI CSI interface is shown in Figure 14.
The MIPI DSI interface can operate at a maximum resolution of WUXGA (1920 x 1200), whereas the MIPI CSI interface
can have a static resolution of 5M pixels or a dynamic resolution for video capturing of 1080P.

Figure 13. Location of MIPI DSI Connector on the Platform Board

Figure 14. Location of MIPI CSI Connector on the Platform Board

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USB Host 2.0 Interface
The Platform board has two USB 2.0 Interfaces. The location of these interfaces is shown in Figure 15.

Figure 15. Location of the USB2.0 Interface Ports on the Platform Board

ARTIK JTAG
The Platform board contains a JTAG port for communication with an external JTAG debugger. This connector is located right next
to the DC power jack.

Power Jack
The Platform board can receive power from the following two sources.
•

5V DC power jack

•

Battery

The 5V DC jack is located next to the Ethernet connector as shown in Figure 10. The battery connector is located next
to the power-on switch and can be connected as shown in Figure 16.

Figure 16. Location of the 5V DC Power Supply Jack on the Platform Board

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ARTIK 710s Development Kit

Power Switch
The power switch is used to distribute power from either the DC jack or the battery to the rest of the ARTIK 710s
development platform. When this switch is in the ON position, power is applied to the development platform, as well
as the internal power controller (PMIC) on the ARTIK module. However, pressing and holding the PWR_KEY
pushbutton switch is required to power up the ARTIK module. For more information, refer to the section entitled
Power-Key Pushbutton Switch. Figure 17 shows the location of the power switch on the Platform board.

Figure 17. Location of Power Switch on the Platform Board

GPIO Test Header Interface to I/O Expander Board
The Platform board has one 80-pin dual-row expansion header that is used to connect to the I/O Expansion board.
The pinout of this connector is shown in Table 5, along with a mapping to the ARTIK module pinout where
applicable. The pin assignments are noted on the silkscreen of the Platform board. The odd-numbered pins are
closest to the edge of the board.

Table 5. ARTIK 710s GPIO Expansion Header Pinout

ARTIK Module
Pin Name

Module
Pin
Number

Header Pin
Name

Header
Pin
Number

Header Pin
Name

N/Aa

N/A

GND

MICOM_GPIO2b

Module
ARTIK Module
Pin
Pin Name
Number
N/A

N/A

AP_GPE0

PAL21

XGPIO0

MICOM_GPIO3

N/A

AP_GPE1

PAK21

XGPIO1

MICOM_GPIO4

N/A

AP_GPE2

PAK20

XGPIO2

MICOM_GPIO5

N/A

AP_GPB14

PAK37

XGPIO3

MICOM_GPIO6

N/A

N/A
N/A

AP_GPA14

PA39

XGPIO4

MICOM_GPIO7

N/A

AP_GPB9_I2SDIN1

PAL26

XGPIO5

MICOM_GPIO8

N/A

AP_GPA25

PAG2

XGPIO6

MICOM_GPIO9

N/A

AP_GPA0

PAH2

XGPIO7

MICOM_GPIO10

N/A

AP_GPA26

PAH1

XGPIO8

MICOM_GPIO11

N/A

AP_GPA27

PAJ2

XGPIO9

MICOM_GPIO12

N/A

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Table 5. ARTIK 710s GPIO Expansion Header Pinout (Continued)

ARTIK Module
Pin Name

Module
Pin
Number

Header Pin
Name

Header
Pin
Number

Header Pin
Name

Module
ARTIK Module
Pin
Pin Name
Number

N/A

GND

MICOM_GPIO13

N/A

AP_AGP1

PAF2

XAGPIO0

MICOM_GPIO14

N/A

N/A
N/A

N/A

GND

MICOM_GPIO15

N/A

AP_GPC14_PWM2

PAK7

XPWM0_OUT

GND

N/A

GND

N/A

AP_UART_RX4

PAL23

XUART0_RX

GND

N/A

AP_UART_TX4

PAK23

XUART0_TX

GND

N/A

GND

N/A

AP_ADC0

PY1

XADC0

GND

N/A

AP_ADC1

PY2

XADC1

GND

N/A

AP_ADC2

PAA1

XADC2

GND

N/A

AP_ADC3

PAA2

XADC3

GND

N/A

AP_ADC4

PW1

XADC4

GND

N/A

AP_ADC5

PW2

XADC5

DC5V

N/A

DC5V

N/A

GND

AP_GPD4_SCL1

PAK9

XI2C0_SCL

VBAT_MAIN

AP_GPD5_SDA1

PAL9

XI2C0_SDA

VBAT_MAIN

N/A

GND

AP_VDDIO

N/A

AP_GPC10_SPI2_CS

PAL6

XSPI0_CS

AP_VDDIO

N/A

AP_GPC9_SPI2_CLK

PAK4

XSPI0_CLK

VDD_EXT1P8_ALIVE

N/A

AP_GPC11_SPI2_MISO

PAK3

XSPI0_MISO

VDD_EXT1P8_ALIVE

N/A

AP_GPC10_SPI2_MOSI

PAL5

XSPI0_MOSI

VDD_EXT1P8

N/A

GND

VDD_EXT1P8

N/A

MICOM_GPIO0

VDD_EXT3P3_ALIVE

N/A

MICOM_GPIO1

VDD_EXT3P3_ALIVE

N/A

GND

VDD_EXT3P3

N/A

VDD_EXT3P3

N/A

VDD_EXT5P0_1

N/A

GND

VDD_EXT5P0_1

N/A

a. An N/A designation indicates that the pin in question does not originate from the ARTIK module.
b. All pins that start with ‘MICOM_’ originate from the AVR MICOM device located on the Platform board. See the
Platform board schematics for more information.
c. All power pins (even pins 54 – 80) originate from DC/DC converter circuits on the Platform board. See the Platform
board schematics for more information.

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ARTIK 710S DEVELOPMENT KIT I/O EXPANDER BOARD
Figure 18 shows the highlights of the I/O Expander board. The I/O Expander board interfaces to the Platform board
using the 80-pin GPIO test header located at connector J701 as described abopve. The I/O Expander board contains
two additional 40-pin headers shown below that can be used to connect to external devices.
Table 6 and Table 7 show the pinouts of the J2 and J3 connectors respectively. Note that for the J3 connector, no
pins of this connector originate from the ARTIK module. Hence there is no connector pin to module pin mapping
shown.

Figure 18. ARTIK 710s Development Kit I/O Expander Board
Table 6. I/O Expander Board J2 Connector Pinout

ARTIK Module
Pin Name

Module
Pin
Number

Pin Name

Pin
Pin
Number Number

Pin Name

Module
Pin
Number

ARTIK Module
Pin Name

AP_ADC1

PY2

XADC1

GND

N/A

AP_ADC2

PAA1

XADC2

ADD_XGPIO0

PAL21

AP_GPE0

AP_ADC3

PAA2

XADC3

ADD_XGPIO1

PAK21

AP_GPE1

AP_ADC4

PW1

XADC4

ADD_XGPIO2

PAK20

AP_GPE2

AP_ADC5

PW2

XADC5

ADD_XGPIO3

PAK37

AP_GPB14

N/A

GND

ADD_XGPIO4

PA39

AP_GPA14

AP_GPD4_SCL1

PAK9

ADD_XI2C0_SCL

ADD_XGPIO5

PAL26

AP_GPB9_I2SDIN1

AP_GPD5_SDA1

PAL9

ADD_XI2C0_SDA

ADD_XGPIO6

PAG2

AP_GPA25

N/A

GND

ADD_XGPIO7

PAH2

AP_GPA0

AP_GPC10_SPI2_CS

PAL6

ADD_XSPI0_CS

ADD_XGPIO8

PAH1

AP_GPA26
AP_GPA27

AP_GPC9_SPI2_CLK

PAK4

ADD_XSPI0_CLK

ADD_XGPIO9

PAJ2

AP_GPC11_SPI2_MISO

PAK3

ADD_XSPI0_MISO

GND

N/A

AP_GPC10_SPI2_MOSI

PAL5

ADD_XSPI0_MOSI

ADD_XAGPIO0

PAF2

AP_AGP1

N/A

GND

N/A

ADD_XPWM0_OUT

PAK7

AP_GPC14_PWM2

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Table 6. I/O Expander Board J2 Connector Pinout (Continued)

Module
Pin
Number

Pin Name

N/A

MICOM_GPIO1

GND

N/A

GND

ADD_XUART0_RX

PAL23

AP_UART_RX4

N/A

ADD_XUART0_TX

PAK23

AP_UART_TX4

N/A

GND

N/A

GND

XADC0

PY1

AP_ADC0

ARTIK Module
Pin Name

Pin
Pin
Number Number

Pin Name

Module
Pin
Number

ARTIK Module
Pin Name

Table 7. I/O Expander Board J3 Connector

Pin Name

Pin Number

Pin Name

GND

MICOM_GPIO1

GND

MICOM_GPIO2

GND

MICOM_GPIO3

GND

MICOM_GPIO4

MICOM_GPIO5

MICOM_GPIO6

MICOM_GPIO7

MICOM_GPIO8

MICOM_GPIO9

MICOM_GPIO10

MICOM_GPIO11

MICOM_GPIO12

MICOM_GPIO13

MICOM_GPIO14

GND

DC5V
VBAT_MAIN
AP_VDDIO
VDD_EXT1P8_ALIVE
VDD_EXT1P8
VDD_EXT3P3_ALIVE
VDD_EXT3P3
VDD_EXT5P0_1

I/O Expander Board Power Source
Jumpers J20 and J21 are used to select the I/O power source (I2C, UART GPIO) or XGPIO of either, 1.8V, 3.3V or 5V.
Table 8 shows how to set the various jumpers to switch between power sources.
Table 8. Configuration of Power Jumpers J20 and J21

Interface

Power Source

Jumper Placement

I2C, UART, GPIO

DCDC_5V_1

Place Jumper J20 on pins 1 - 2

VDDEXT_33_OFF (default)

Place Jumper J20 on pins 3 - 4

VDDEXT_18_OFF

Place Jumper J20 on pins 5 - 6

DC5V

Place Jumper J21 on pins 1 - 2

VDD_EXT3P3_ALIVE (default)

Place Jumper J21 on pins 3 - 4

VDD_EXT1P8_ALIVE

Place Jumper J21 on pins 5 - 6

XGPIO

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The jumpers are located on the I/O Expander board as shown in Figure 18.

ARTIK 710S CONFIGURATION
This section discusses some of the configuration options of the ARTIK 710s development platform.

Selecting the Development Kit Power Source
The power source is selected using jumpers JP1 - JP4, located on J702 and J703 of the Platform board. When power
is provided from a DC-5V Adapter OR a Battery, all jumpers are in the 1-2 position. When power is provided from the
DC-5V Adapter and at the same time a battery is connected that is being charged (Battery Charging Mode), all
jumpers are in the 2-3 position.
When the jumpers JP1 - JP4 are in the 1-2 position, either a battery OR the DC-5V adapter can be connected, but
NEVER both at the same time. When the jumpers JP1-JP4 are in the 2-3 position, (Battery Charging Mode) both a
battery and the DC-5V Adapter can be connected at the same time.
Figure 19 shows the default settings and how to switch between the settings. When the ARTIK 710s Development
Board is used with an external power adapter make certain that you use a 5V, 5A adapter with a 2.1 x 5.5mm plug.

Figure 19. Location of Jumpers JP1 - JP4 on the Platform Board

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ARTIK 710s Development Kit

ARTIK 710s Development Kit Boot Mode Configuration
The ARTIK 710s Interposer board contains a 4-position DIP switch that is used to select the boot source. The location
of this switch is shown in Figure 20.

Figure 20. Location of Boot Configuration DIP Switches on the Interposer Board

The ARTIK 710s development platform provides numerous boot-up options for configuring the device. Boot devices
include a 4-GByte eMMC Flash memory device located inside the ARTIK module, as well as the microSD and USB
OTG connectors for external boot.
On initial power-up of the ARTIK platform, the eMMC memory may or may not have the latest version of the software
and hence may require an update. If an update is required, this can be accomplished by first loading the image
through either the microSD or USB OTG interfaces. The 4-position DIP switch described above is used to set the boot
priorities.
Table 9 shows the various boot options.
Table 9. Setting the Boot Priority Switches

SW402

eMMC Boot

SD Card Boot

USB OTG Boot

OFF

When power is applied, the board attempts to boot from one of three primary boot options as shown in the table
above depending on the DIP switch settings. If that option is not available, it will try and boot from the next option.
This concept is shown in the table below.

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Table 10. Boot Sequence and Status

Primary Boot
DIP Switch Settings
(SW402) Switches 1, 2, 4

Boot
Device

Boot Status

Secondary Boot
Boot
Device

Boot Status

Tertiary Boot
Boot
Device

Boot Status

OFF, OFF, OFF

eMMC

Pass/Fail.
If fail, secondary
boot source is
accessed

microSD

Pass/Fail.
If fail, tertiary boot
source is accessed

USB OTG

Pass/Fail.
If fail, contact
Samsung

OFF. OFF, ON

microSD

Pass/Fail.
If fail, secondary
boot source is
accessed

USB OTG

Pass/Fail.
If fail, contact
Samsung

N/A

ON, ON, X

USB OTG

Pass/Fail.
If fail, contact
Samsung

N/A

For example, when DIP switches 1, 2, and 4 are in the OFF position as shown above, the system first tries to boot from
on-board eMMc memory. If this boot fails the system searches for an SD Card to boot from. If booting from the SD
Card also fails, the system tries to boot from the USB OTG port.
When switches 1 - 2 are in the OFF positions and switch 4 is in the ON position, the system tries to boot from the
microSD card as its first option. If booting from an external source is required, such as when updating the software
for the on-board eMMC memory, booting from the SD card is the preferred option as no external host machine or
additional software is required. If this boot fails, the system attempts to boot from the USB OTG port. Note that when
the microSD card is selected as the primary boot option, no attempt will be made to boot from the eMMC memory.
When switches 1 - 2 are in the ON position, switches 3 and 4 are don’t care. In this case, only a boot from the USB
OTG port will be attempted. If this boot fails, no attempt is made to boot from either the microSD card or the eMMC
memory. Although the ARTIK development platform supports numerous USB ports, it only allows boot-up from the
USB OTG port. No other USB ports can be used to boot the system. This option is NOT recommended due to the
complexities required to write the boot image into the eMMC memory, including the requirement for connection to
a Linux host.
For more information on the boot process, refer to the document entitled ARTIK 710s System Design Guide.

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ARTIK 710s Development Kit

ARTIK 710s Software Configuration
This section describes the software configuration for the ARTIK 710s Development Kit in both the Windows and Linux
Operating environments. This section assumes that power has been applied to the development kit. If not, refer to
the section below. If the kit has already been powered up, select either the Windows- or Linux-Based configuration
sections below.

Powering On the ARTIK Development Kit
If power has not been applied, perform the following steps:
1.

Insert the power supply into the 5V - 12V power jack as shown in Figure 16.

2. Turn on the power switch as shown in Figure 17. To verify the switch is ON, turn the development kit over to
view the LED’s on the bottom of the Platform board. One or more LED’s should be illuminated.
3. After turning on the power switch, it may be necessary to press and hold the PWR_KEY pushbutton switch in
order to boot the ARTIK module. To check, locate the PWR_KEY button as shown in Figure 9. If the red LED
next to the PWR_KEY button is illuminated, the ARTIK module is on. If the LED is not on, press and hold the
PWR_KEY button until the LED comes on.
4. The module has now been powered-up.

Windows Based Configuration
When configuring the ARTIK development kit using Windows, it is necessary to determine the COM port number
associated with the development kit. The development kit communicates with the host machine via a micro-USB
cable. The micro-USB/UART port is located on the Platform board next to the speaker/headphone jack as shown in
Figure 10.

Determine the COM number
The COM number can be determined using the following procedure.
1.

At the lower left corner of the Windows main screen, click the Start button. Type in Device Manager and hit
Enter.

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2. Once the Device Manager window is open, plug the micro-USB cable into the micro-USB connector on the
ARTIK board. Check the COM number associated with the ARTIK board after connecting to the USB port. In
screen shot below the board is mapped to COM3.

Set up a PuTTY Terminal
3. Open or install a PuTTY console. If downloading of the console is required, it can be found at www.putty.org
and is a free download. Follow the instructions to download the PuTTY console. The following is an example
of the PuTTY configuration window.

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4. Set up the PuTTY console with the following parameters:
–

Serial line is the COM port number found previously as described above

–

Set speed to 115200

–

Set connection type to Serial

–

Name and save the session. That way it can be reopened later by double-clicking on the saved session
name

5. Click Open. Initially, the screen will be blank.

Reset the ARTIK Module
6. Reset the ARTIK development kit by pressing and holding the ARTIK module PWR_KEY button until the
PWR_KEY LED next to the button goes off. This LED which is located right next to the PWR_KEY button on the
Interposer board. Then press and hold the PWR_KEY button again until the LED comes back on. For the exact
location of this button, refer to Figure 3.

When prompted to log in, use the following:
–

–

password: root

After entering the login and password, the ARTIK development kit displays a Linux window similar to the one shown
below:

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Linux Based Configuration
When configuring the ARTIK development kit using Linux, follow the steps below.

Determine the Port Number
To obtain the port number, type in the following command at the Linux prompt and hit Enter.
$ dmseg | tail | grep tty

The following information is displayed:

Set up a Serial Console
Samsung recommends Linux users install one of the following free programs to provide a serial console for
communicating with the ARTIK development kit.
•

Screen (https://www.gnu.org/software/screen)

•

Minicom (https://alioth.debian.org/projects/minicom)

Follow the instructions below to install and run either program. All commands shown are entered at the command
prompt of the Linux host system, except as noted.
Installing the Screen Console Application
To install the Screen console, type in the following command at the Linux prompt and hit Enter.
$ sudo apt -get install screen

To login as Superuser, use the following command:
$ sudo screen /dev/ttyUSB0 115200 cs8 ixoff

Installing the Minicom Console Application
To install the Minicom console, type in the following command at the Linux prompt and hit Enter.
$ sudo apt -get install minicom

To configure the program, execute the following steps:
1.

Start Minicom in configuration mode.
$ sudo minicom -o -s

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2. Use the appropriate letter below to select which port settings to change. Hit Enter after making a selection.

3. Select the option ‘Save setup as dfl’ and then exit the Minicom screen

Reset the ARTIK Module
Reset the ARTIK development kit by pressing the Reset button located right next to the PWR_KEY button on the
Interposer board. For the exact location of this button, refer to Figure 3.

–

password: root

After entering the login and password, the ARTIK development kit displays a Linux window similar to the one shown
below:

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ARTIK 710s Development Kit

MECHANICAL SPECIFICATIONS
Figure 21 shows the mechanical specifications for the ARTIK 710s Interposer and Platform boards.

INTERPOSER BOARD

PLATFORM BOARD

Figure 21. ARTIK 710s Interposer and Platform Board Mechanical Specifications

Samsung Semiconductor, Inc.

ARTIK 710 Development Kit

LEGAL INFORMATION
INFORMATION IN THIS DOCUMENT IS PROVIDED IN CONNECTION WITH THE SAMSUNG ARTIK™ DEVELOPMENT KIT
AND ALL RELATED PRODUCTS, UPDATES, AND DOCUMENTATION (HEREINAFTER "SAMSUNG PRODUCTS"). NO
LICENSE, EXPRESS OR IMPLIED, BY ESTOPPEL OR OTHERWISE, TO ANY INTELLECTUAL PROPERTY RIGHTS IS
GRANTED BY THIS DOCUMENT. THE LICENSE AND OTHER TERMS AND CONDITIONS RELATED TO YOUR USE OF THE
SAMSUNG PRODUCTS ARE GOVERNED EXCLUSIVELY BY THE SAMSUNG ARTIK™ DEVELOPER LICENSE AGREEMENT
THAT YOU AGREED TO WHEN YOU REGISTERED AS A DEVELOPER TO RECEIVE THE SAMSUNG PRODUCTS. EXCEPT
AS PROVIDED IN THE SAMSUNG ARTIK™ DEVELOPER LICENSE AGREEMENT, SAMSUNG ELECTRONICS CO., LTD. AND
ITS AFFILIATES (COLLECTIVELY, "SAMSUNG") ASSUMES NO LIABILITY WHATSOEVER, INCLUDING WITHOUT
LIMITATION CONSEQUENTIAL OR INCIDENTAL DAMAGES, AND SAMSUNG DISCLAIMS ANY EXPRESS OR IMPLIED
WARRANTY, ARISING OUT OF OR RELATED TO YOUR SALE, APPLICATION AND/OR USE OF SAMSUNG PRODUCTS
INCLUDING LIABILITY OR WARRANTIES RELATED TO FITNESS FOR A PARTICULAR PURPOSE, MERCHANTABILITY, OR
INFRINGEMENT OF ANY PATENT, COPYRIGHT, OR OTHER INTELLECTUAL PROPERTY RIGHT.

Samsung Products are not intended for use in medical, life support, critical care, safety equipment, or similar
applications where product failure could result in loss of life or personal or physical harm, or any military or defense
application, or any governmental procurement to which special terms or provisions may apply.

This document and all information discussed herein remain the sole and exclusive property of Samsung. All brand
names, trademarks and registered trademarks belong to their respective owners. For updates or additional
information about Samsung ARTIK™, contact the Samsung ARTIK™ team via the Samsung ARTIK™ website at
www.artik.io.
Copyright © 2017 Samsung Electronics Co., Ltd.

All rights reserved. No part of this publication may be reproduced, stored in a retrieval system, or transmitted in any
form or by any means, electric or mechanical, by photocopying, recording, or otherwise, without the prior written
consent of Samsung Electronics.

SAMSUNG ELECTRONICS RESERVES THE RIGHT TO CHANGE PRODUCTS, INFORMATION AND SPECIFICATIONS WITHOUT NOTICE.
Products and specifications discussed herein are for reference purposes only. All information discussed herein is provided on an "AS IS" basis,
without warranties of any kind. This document and all information discussed herein remain the sole and exclusive property of Samsung
Electronics. No license of any patent, copyright, mask work, trademark or any other intellectual property right is granted by one party to the
other party under this document, by implication, estoppel or other-wise. Samsung products are not intended for use in life support, critical
care, medical, safety equipment, or similar applications where product failure could result in loss of life or personal or physical harm, or any
military or defense application, or any governmental procurement to which special terms or provisions may apply. For updates or additional
information about Samsung products, contact your nearest Samsung office. All brand names, trademarks and registered trademarks belong
to their respective owners.

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