Seco SBC-3.5-MX8X Owner's manual

Brand: Seco

Model: SBC-3.5-MX8X

Type: Owner's manual

VESTA

Single Board Computer

with the NXP i.MX 8X Processors

on 3.5” form factor

VESTA

Unauthorized use, duplication, or modification by any means without prior consent of SECO S.p.A. is prohibited.

Every effort has been made to ensure the accuracy of this manual. However, SECO S.p.A. accepts no responsibility for any inaccuracies, errors or omissions herein.

SECO S.p.A. reserves the right to change precise specifications without prior notice to supply the best product possible.

For further information on this module or other SECO products, but also to get the required assistance for any and possible issues, please contact us using the

dedicated web form available at http://www.seco.com (registration required).

Our team is ready to assist.

Revision

Date

Note

Ref

1.0

9th December 2021

First Official Release.

1.1

10th August 2022

Minor syntax corrections

1.2

31st August 2022

Electrical characteristics update

REVISION HISTORY

 
 VESTA 
VESTA User Manual - Rev. First Edition: 1.2 - Author: S.O. - Reviewed by R.Z. - Copyright © 2022 SECO S.p.A. 

INDEX 
   INTRODUCTION ................................................................................................................................................................................. 5 
1 Warranty ........................................................................................................................................................................................................................................ 6 
2 Information and assistance ............................................................................................................................................................................................................. 7 
3 RMA number request ..................................................................................................................................................................................................................... 7 
4 Safety ............................................................................................................................................................................................................................................ 8 
5 Electrostatic discharges ................................................................................................................................................................................................................. 8 
6 RoHS compliance .......................................................................................................................................................................................................................... 8 
7 Safety Policy .................................................................................................................................................................................................................................. 9 
8 Terminology and definitions .......................................................................................................................................................................................................... 10 
9 Reference specifications .............................................................................................................................................................................................................. 12 
  OVERVIEW ....................................................................................................................................................................................... 13 
1 Introduction .................................................................................................................................................................................................................................. 14 
2 Technical specifications ............................................................................................................................................................................................................... 15 
3 Electrical specifications ................................................................................................................................................................................................................ 16 
3.1 Power requirement ............................................................................................................................................................................................................... 16 
3.2 RTC Battery ......................................................................................................................................................................................................................... 16 
3.3 Power rails ........................................................................................................................................................................................................................... 17 
3.4 Power consumption ............................................................................................................................................................................................................. 17 
4 Mechanical specifications............................................................................................................................................................................................................. 18 
5 Block diagram .............................................................................................................................................................................................................................. 19 
  CONNECTORS ................................................................................................................................................................................ 20 
1 Introduction .................................................................................................................................................................................................................................. 21 
2 Connectors overview ................................................................................................................................................................................................................... 22 
2.1 Connector List ..................................................................................................................................................................................................................... 22 
2.2 Jumpers List ........................................................................................................................................................................................................................ 22 
3 Connectors description ................................................................................................................................................................................................................ 23 
3.1 Gigabit Ethernet connectors ................................................................................................................................................................................................. 23 
3.2 On board WiFi + BT modules ............................................................................................................................................................................................... 24 
3.3 Audio Interfaces ................................................................................................................................................................................................................... 24 
3.4 LVDS connector .................................................................................................................................................................................................................. 25 
3.5 Panel voltage selectors ........................................................................................................................................................................................................ 26 
3.6 eDP Connector .................................................................................................................................................................................................................... 27 

VESTA

3.3.7 Optional LED Driver Connector ............................................................................................................................................................................................. 28

3.3.8 I2C Touch Screen Connector ............................................................................................................................................................................................... 28

3.3.9 MIPI-CSI2 Connector ........................................................................................................................................................................................................... 29

3.3.10 USB Connectors.................................................................................................................................................................................................................. 30

3.3.11 Mini PCI-e Slot ..................................................................................................................................................................................................................... 32

3.3.12 CAN Connector ................................................................................................................................................................................................................... 33

3.3.13 Debug Uarts Connectors ..................................................................................................................................................................................................... 33

3.3.14 I/O Connectors .................................................................................................................................................................................................................... 34

3.3.15 JTAG Connector .................................................................................................................................................................................................................. 35

3.3.16 Power and Reset buttons ..................................................................................................................................................................................................... 35

3.3.17 Power and Reset Connector ................................................................................................................................................................................................ 35

APPENDICES ................................................................................................................................................................................... 36

4.1 Thermal Design ............................................................................................................................................................................................................................ 37

VESTA

• Warranty

• Information and assistance

• RMA number request

• Safety

• Electrostatic discharges

• RoHS compliance

• Safety Policy

• Terminology and definitions

• Reference specifications

VESTA

1.1 Warranty

This product is subject to the Italian Law Decree 24/2002, acting European Directive 1999/44/CE on matters of sale and warranties to consumers.

The warranty on this product lasts for 1 year.

Under the warranty period, the Supplier guarantees the buyer assistance and service for repairing, replacing or credit of the item, at the Supplier’s own discretion.

Shipping costs that apply to non-conforming items or items that need replacement are to be paid by the customer.

Items cannot be returned unless previously authorized by the supplier.

The authorization is released after completing the specific form available on the web-site https://www.seco.com/it/support/online-rma.html (RMA Online). The RMA

authorization number must be put both on the packaging and on the documents shipped with the items, which must include all the accessories in their original

packaging, with no signs of damage to, or tampering with, any returned item.

The error analysis form identifying the fault type must be completed by the customer and has must accompany the returned item.

If any of the above-mentioned requirements for RMA is not satisfied, the item will be shipped back and the customer will have to pay any and all shipping costs.

Following a technical analysis, the supplier will verify if all the requirements, for which a warranty service applies, are met. If the warranty cannot be applied, the

Supplier will calculate the minimum cost of this initial analysis on the item and the repair costs. Costs for replaced components will be calculated separately.

Warning!

All changes or modifications to the equipment not explicitly approved by SECO S.p.A. could impair the equipment’s functionalities and could

void the warranty.

VESTA

1.2 Information and assistance

What do I have to do if the product is faulty?

SECO S.p.A. offers the following services:

• SECO website: visit http://www.seco.com to receive the latest information on the product. In most of the cases it is possible to find useful information to

solve the problem.

• SECO Sales Representative: the Sales Rep can help to determine the exact cause of the problem and search for the best solution.

• SECO Help-Desk: contact SECO Technical Assistance. A technician is at disposal to understand the exact origin of the problem and suggest the correct

solution. E-mail: technical.se[email protected]

Fax (+39) 0575 350210

• Repair center: it is possible to send the faulty product to the SECO Repair Centre. In this case, follow this procedure:

o Returned items must be accompanied by an RMA Number. Items sent without the RMA number will be not accepted.

o Returned items must be shipped in an appropriate package. SECO is not responsible for damages caused by accidental drop, improper usage, or

customer neglect.

Note: Please have the following information before asking for technical assistance:

• Name and serial number of the product;

• Description of Customer’s peripheral connections;

• Description of Customer’s software (operative system, version, application software, etc.);

• A complete description of the problem;

• The exact words of every kind of error message encountered.

1.3 RMA number request

To request an RMA number, please visit SECO’s web- “Online RMA” and follow the procedure described.

An RMA Number will be sent within 1 working day (only for on-line RMA requests).

VESTA

1.4 Safety

The board uses only extremely-low voltages.

While handling the board, please use extreme caution to avoid any kind of risk or damages to electronic components.

1.5 Electrostatic discharges

The board, like any other electronic product, is an electrostatic sensitive device: high voltages caused by static electricity could damage some or all the devices

and/or components on-board.

1.6 RoHS compliance

The board is designed using RoHS compliant components and is manufactured on a lead-free production line. It is therefore fully RoHS compliant.

Always switch the power off, and unplug the power supply unit, before handling the board and/or connecting cables or other boards.

Avoid using metallic components - like paper clips, screws and similar - near the board when connected to a power supply, to avoid

short circuits due to unwanted contacts with other board components.

If the board has become wet, never connect it to any external power supply unit or battery.

Check carefully that all cables are correctly connected and that they are not damaged.

Whenever handling the board, ground yourself through an anti-static wrist strap. Placement of the board on an anti-static surface is

also highly recommended.

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1.7 Safety Policy

In order to meet the safety requirements of EN62368-1:2014 standard for Audio/Video, information and communication technology equipment, the board shall be:

- used exclusively with limited power sources, which cannot exceed 100W even in fault conditions;

- used along with CPU Heat-spreader/heatsinks designed according to the thermal characteristics indicated in the par. 2.2 and to the mechanical

characteristics indicated in par. 2.4.

- installed inside an enclosure compliant to all applicable requirements of the above-mentioned standard;

- installed in a way that prevents the access to the board from children

The manufacturer which includes the board in his end-user product shall:

- verify the compliance with B.2 and B.3 clauses of the EN62368-1 standard when the module works in its own final operating condition.

- provide an instructional safeguard against thermal injuries, according to clause 9.4.2 of the above mentioned standard. This instructional safeguard must be

placed both on end-user product’s User Manual and on the product itself (Danger Label, it must be placed near the CPU or its heatsink).

The board shall be powered by a Power Supply Unit separately approved and classified ES1/PS2 according to the requirements of IEC EN 62368-1.

VESTA

1.8 Terminology and definitions

API Application Program Interface, a set of commands and functions that can be used by programmers for writing software for specific Operating

Systems

CAN Bus Controller Area network, a protocol designed for in-vehicle communication.

DDR Double Data Rate, a typology of memory devices which transfer data both on the rising and on the falling edge of the clock.

eDP embedded Display Port, a type of digital video display interface developed especially for internal connections between boards and digital displays.

FFC/FPC Flexible Flat Cable / Flat Panel Cable

GbE Gigabit Ethernet

Gbps Gigabits per second

GND Ground

GPI/O General purpose Input/Output

I2C Bus Inter-Integrated Circuit Bus, a simple serial bus consisting only of data and clock line, with multi-master capability

I2S Bus Inter-Integrated Circuit Sound Bus, a serial bus used for connecting digital audio devices together

LPDDR4 Low Power DDR, 4th generation

LVDS Low Voltage Differential Signaling, a standard for transferring data at very high speed using inexpensive twisted pair copper cables, usually used for

video applications

Mbps Megabits per second

MMC/eMMC MultiMedia Card / embedded MMC, a type of memory card, having the same interface as the SD card. The eMMC is the embedded version of the

MMC. They are devices that incorporate the flash memories on a single BGA chip.

N.A. Not Applicable

N.C. Not Connected

OpenCL Open Computing Language, a software library based on C99 programming language, conceived explicitly to realise parallel computing using

Graphics Processing Units (GPU)

OpenVG Open Vector Graphics, an Open Source API dedicated to hardware accelerated 2D vector graphics

OS Operating System

OTG On-the-Go, a specification that allows to USB devices to act indifferently as Host or as a Client, depending on the device connected to the port.

PCI-e Peripheral Component Interface Express

PHY Abbreviation of Physical, it is the device implementing the Physical Layer of ISO/OSI-7 model for communication systems

PSU Power Supply Unit

VESTA

PWM Pulse Width Modulation

PWR Power

RGMII Reduced Gigabit Reduced Media Independent Interface, a standard interface between the Ethernet Media Access Control (MAC) and the Physical

Layer (PHY)

SD Secure Digital, a memory card type

SDHC Secure Digital Host Controller

SIM Subscriber Identity Module, a card which stores all data of the owner necessary to allow him accessing to mobile communication networks

SM Bus System Management Bus, a subset of the I2C bus dedicated to communication with devices for system management, like a smart battery and

other power supply-related devices

SNVS Secure non-volatile storage

SPI Serial Peripheral Interface, a 4-Wire synchronous full-duplex serial interface which is composed of a master and one or more slaves, individually

enabled through a Chip Select line

TBM To be measured

T/S Touch Screen

UIM User Identity Module, an extension of SIM modules.

USB Universal Serial Bus

uSDHC Ultra Secure Digital Host Controller

V_REF Voltage reference Pin

VESTA

1.9 Reference specifications

Here below it is a list of applicable industry specifications and reference documents.

Reference

Link

CAN Bus

https://www.iso.org/standard/63648.html

eDP

http://www.vesa.org

Gigabit Ethernet

https://www.ieee802.org/3/

I2C

https://www.nxp.com/docs/en/user-guide/UM10204.pdf

I2S

https://www.sparkfun.com/datasheets/BreakoutBoards/I2SBUS.pdf

LVDS

https://www.ti.com/lit/an/snla165/snla165.pdf and https://www.ti.com/lit/ug/snla187/snla187.pdf

MMC/eMMC

https://www.jedec.org/committees/jc-64

NXP i.MX 8X processors

i.MX 8X | Arm Cortex A35 | Cortex M4F | NXP

OpenGL

http://www.opengl.org

OpenVG

http://www.khronos.org/openvg

SM Bus

http://www.smbus.org/specs

USB 2.0 and USB OTG

https://www.usb.org/sites/default/files/usb_20_20190524.zip

Mini-PCI Express

PCISIG - Mini Card Electromechanical Specification Revision 2.1

VESTA

• Introduction

• Technical specifications

• Electrical specifications

• Mechanical specifications

• Block diagram

VESTA

2.1 Introduction

VESTA is a Single Board Computer in 3.5” form factor (which is 146 x 102mm) based on embedded NXP i.MX 8X Applications Processors, featuring ARM® Cortex®-

A35 processors, Dual- or Quad- Core + general purpose Cortex®-M4F processor, with frequencies up to 1.2GHz, which are ideal for applications requiring multimedia

capabilities.

Graphics features of the board are managed directly by NXP i.MX8X processor, which integrates a GC7000Lite GPU supporting the most common standards (i.e.

OpenGL 3.0; OpenGL ES 3.1; OpenCL 1.2; OpenVG 1.1; and others) and a distinct VPU for HW video decoding of the most common standards (i.e., H.265,

H.264, VP8, and others) also supporting H.264 encoding.

The processor has also an integrated Tensilica® HiFi 4 DSP audio processor for efficient execution of audio codecs and voice recognition and the board mounts

on-board a Texas Instrument TLV320 I2S Stereo Audio Codec, for high quality audio implementation.

The board is completed with up to 4GB LPDDR4-3200 32-bit bus memory directly soldered on board and one eMMC 5.1 Flash Drive with up to 64GB of capacity.

The board can support 24 bit Single/Dual Channel LVDS interface, and as a factory configuration option, one eDP interface is also available. Touch Screen drivers

can be interfaced using the dedicated USB or I2C header connectors.

The processor offers an RGMII interface which, through two dedicated TI DP83867 Ethernet Transceivers, allows the implementation of two Gigabit Ethernet

interfaces. While the first Gigabit Ethernet interface come standard with the board, the second one is optional.

The networking capabilities of this module are extended by an optional WiFi 802.11 a/b/g/n/ac + BT 5.0 NGFF module soldered on-board.

The board offers two USB 2.0 and one USB 3.0 standard Type-A connectors, an internal header with an additional USB 2.0 Host port dedicated to Touch Screen

driver connection, and an USB 2.0 OTG port on micro-AB connector for use in combination with Recovery mode.

A MIPI-CSI2, 4 lanes, is present for connection of a camera module, which is directly interfaced to the NXP i.MX8X processor Imaging Submodule.

An on board PCI-express port gen3 is present on a mini PCI-e connector to host a radio module or for expansion of peripherals.

Three internal connectors complete the functionalities of this board. On these connectors, managed as factory options, it is possible to find CAN ports, processors

debug UARTs and GPIOS.

The board is available both in commercial and in industrial temperature range.

Please refer to following chapter for a complete list of all peripherals integrated and characteristics.

2.2 Technical specifications

Processors

NXP i.MX 8X Family based on ARM® Cortex®-A35 cores + general purpose

Cortex®-M4F 264MHz processor:

• i.MX 8QuadXPlus - Full featured, 4x Cortex®-A35 cores, up to 1.2GHz

• i.MX 8DualXPlus - Full featured, 2x Cortex®-A35 cores, up to 1.2GHz

• i.MX 8QuadXPlus - 4x Cortex®-A35 cores, up to 1.2GHz no DSP

• i.MX 8DualXPlus - 2x Cortex®-A35 cores, up to 1.2GHz no DSP

Memory

Soldered Down LPDDR4 memory, 32-bit interface, up to 4GB

Graphics

Vivante GC7000Lite GPU supporting OpenGL 3.0; OpenGL ES 3.1; OpenCL

1.2; OpenVG 1.1.

Embedded VPU supporting:

• HW Decoding of HEVC/H.265, AVC/H.264, VP8

• HW Encoding of AVC/H.264

Video Interfaces

LVDS Single/Dual Channel connector and eDP connector (optional)

MIPI-CSI camera connector

Video Resolution

Up to 1920x1080p @ 60Hz

Mass Storage

Optional eMMC 5.1 Drive soldered on-board, up to 64GB

Networking

Up to 2x Gigabit Ethernet interface

Optional Shielded Ultra Small Dual Band WiFi 802.11 a/b/g/n/ac with Bluetooth

5.0 Module onboard

USB

2 x USB 2.0 Host ports on Type-A sockets

1 x USB 3.0 Host ports on Type-A socket

1 x USB 2.0 Host port header dedicated to Touch Screen driver connection

1 x USB OTG micro-AB connector for use in combination with Recovery mode

Audio

an integrated Tensilica® HiFi 4 DSP audio processor

Texas Instrument TLV320 I2S Stereo Audio Codec

TRRS Combo Audio Socket and on-board header connector

Serial ports

1x RS-232 (factory alternative to 4-wire UART)

1x RS-485 (factory alternative to 2-wire UART)

1x CAN port (factory option)

2x Debug UARTs

Other Interfaces

On I/O Connector:

• 1x PWM @3.3V

• 1x I2C interface @3.3V

• 2x ADC @1.8V

• 14x GPIOs @3.3V

• 2x GPIOs @3.3V (factory option)

• 1x GPIO @3.3V

miniPCI-e slot with x1 PCIe and USB 2.0 interface

On-board ultra-low power RTC

Watchdog

JTAG connector

Dedicated connector for I2C Touch Screen Controller Support

Optional Trust Secure Element

Power supply voltage: +12VDC or +24VDC (factory alternatives)

Operating temperature:

Commercial version 0°C ÷ +60°C **.

Industrial version: -40°C ÷ +85°C ** (limited to -30°C ÷ +85°C with WiFi/BT

module on-board)

Dimensions: -

Supported Operating Systems:

Yocto

Android (planned)

** Measured at any point of SECO standard heatsink for this product, during

any and all times (including start-up). Actual temperature will widely depend

on application, enclosure and/or environment. Upon customer to consider

application-specific cooling solutions for the final system to keep the

heatspreader temperature in the range indicated. Please also check

paragraph 4.1

2.3 Electrical specifications

Depending on voltage supply factory configuration, the board needs to be supplied only with an AC-to-12VDC (minimum power rating 60W) or AC-to-24VDC (minimum

power rating 65W) power supply with protective earth (appliance class I).

Any selected power supply will be required to be compliant with EMC standards EN55032 class B + EN55035 and FCC Part 15B class B.

It is possible to supply the module by using two different power connectors (factory alternatives).

The first possible power connector for VIN voltage is a standard 6.4mm (internal pin, diameter

2.5 mm) DC Power Jack CN27, type Wurth p/n 694108301002.

As an alternative, the possible power connector is a 2-pin PCB Terminal Block with front spring-

cage connection CN26, type PHOENIX CONTACT p/n 1990973 or equivalent.

2.3.1 Power requirement

When powering the board with a PSU with characteristics greater or equal to the one described in paragraph 2.3, please consider thoroughly the use scenario of

the board (i.e., which peripherals will be connected).

Since all the power must be supplied by a single external PSU, it must be cumulated the power consumption of the board itself with that of all external devices.

This way it is possible to calculate preliminarily if the PSU power rating can be sufficient for the cumulated power requirements or a more powerful PSU is required.

2.3.2 RTC Battery

The board is equipped with a low-power Real Time Clock on-board, a NXP PCF2123.

If the board is not equipped with an optional rechargeable battery, it will only be available a horizontal holder for a 3V coin cell lithium battery to supply the RTC.

The battery used is a not-rechargeable CR1225 Lithium coin-cell battery, with a nominal capacity of 48mAh, to supply such an RTC. The battery must be plugged

on the onboard battery holder CN9.

In case of exhaustion, the battery should only be replaced with devices of the same type. Always check the orientation before inserting and make sure that they are

aligned correctly and are not damaged or leaking.

Never allow the batteries to become short-circuited during handling.

Batteries supplied with the board are compliant to requirements of European Directive 2006/66/EC regarding batteries and accumulators. When putting out of order

SBC-C43, remove the batteries from the board in order to collect and dispose them according to the requirement of the same European Directive above mentioned.

Even when replacing the batteries, the disposal has to be made according to these requirements.

Power IN connector CN26/CN27

Signal

VIN

GND

CAUTION: handling batteries incorrectly or replacing with not-approved devices may present a risk of fire or explosion.

VESTA

2.3.3 Power rails

In all the tables contained in this manual, the power rails are named with the following meaning:

VIN: Power In voltage (in the range +12VDC ..+24VDC) directly coming from the Power Supply connectors CN26 or CN27

+12V_ALW: +12VDC power rail, directly generated from VIN power rail, immediately available when VIN voltage is applied.

+5V_ALW: +5VDC power rail, directly generated from VIN power rail, immediately available when VIN voltage is applied.

+3V3_ALW: +3.3VDC power rail, directly generated from VIN power rail, immediately available when VIN voltage is applied.

+5V_RUN: main +5VDC power rail generated by the on-board PMIC.

+3V3_RUN: main +3.3VDC power rail generated by the on-board PMIC.

+1V8_RUN: main +1.8VDC power rail generated by the on-board PMIC.

+1V5_RUN: main +1.5VDC power rail generated from +3V3_RUN by an on-board DCDC converter.

VRTC: 3V power rail for supplying the Ultra Low Power RTC

2.3.4 Power consumption

The power consumption has been measured on VIN power rail using a 24VDC source. For measurement, one configuration has been considered.

Configuration

Processor i.MX8QuadXPlus Full Featured;

RAM: 2GB LPDDR4;

Storage: 16GB eMMC;

Video Interface: eDP, LVDS + LED Driver;

Networking: 2x Gigabit LAN + WiFi with u.FL Antennas;

Expansion interfaces: 1x RS-232, 1x RS-485, 1x CAN

Other: Audio Codec

Commercial Temperature range

15.6” eDP display type BOE EV156FHM-N10 connected

Status

Average Value

(30s)

Peak Value

OS Boot

3.48W

0.145A

3.52W

0.147A

OS Boot and eDP display connected

6.792W

0.283A

0.335A

Stress test: Audio, Eth0, Eth1, Wifi

10.2W

0.425A

10.3W

0.429A

VESTA

2.4 Mechanical specifications

According to 3.5” form factor, board dimensions are: 147 x 101.6 mm (5.78” x 4.00”).

The printed circuit of the board is made of ten layers, some of them are ground planes, for disturbance rejection.

VESTA

2.5 Block diagram

Low Power RTC

RJ-45 GbE #0

RJ-45 GbE #1

Debug UART

A35

Memory

LPDDR4

LVDS

ETH PHY

Dual USB 2.0

Type-A

Debug UART

M4F

Camera

Connector

USB Hub

NXP i.MX8

QuadXPlus /

DualXPlus

Processor

SPI2

USB_OTG1

ENET0

MIPI-CSI

SAI_1

MIPI-DSI1

I2C1

T/S I2C

Connector

eMMC Drive

eMMC

miniPCI-e Slot

TRRSI2S Audio Codec Mic In

Headphone

I2C1 T/S USB

Connector

USB Recovery

Type micro-AB

USB_OTG2

I/O Expander

Trusted Secure

Element

I2C3

EEPROM

I/O Header

RS-232

Transceiver

UART0

I2C0

Coin Cell

Battery Holder

I/O Header

RS-485

Transceiver

LED Driver VLED Connector

PWM1

USB 3.0 Type-A

USB_SS3

Flash Q SPI

QSPI0

WiFi+BTLE

M.2 1216

eDP

Audio

Connector

MIPI-DSI0

u.FL Antenna

Connectors

Power Section

+12V / +24V +5Vdc

+12Vdc

+3.3Vdc

FACTORY

ALTERNATIVES

PCIe Clock

Generator

FACTORY ALTERNATIVES

UART3

UART2

JTAG

CAN

Transceiver

CAN Connector

FLEXCAN1

ENET1

VESTA

• Introduction

• Connectors overview

• Connectors description

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Seco SBC-3.5-MX8X Owner's manual

Brand: Seco

Model: SBC-3.5-MX8X

Type: Owner's manual

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