2024年9月26日发(作者：朱同甫)

MCIMXHDMICARD.

6SoloLite Evaluation Kit

Quick Start Guide

6SoloLite Evaluation Kit

Quick Start Guide

About the 6SoloLite Evaluation Kit

The 6SoloLite evaluation kit (EVK) offers a solid platform to evaluate the

6 series single-core applications processor built on ARM

®

Cortex

®

-A9 technology as

well as a reference for future designs. Key features of this platform include:

• 6SL single Cortex-A9

core operating up to 1 GHz

• 1 GB LPDDR2 (400 MHz)

• SPI NOR

• SD socket for external devices

• SD socket for boot code

• SD socket for Wi-Fi

®

and accessories

• eMMC expansion footprint

• Audio codec

2

• EPDC expansion port

• Parallel display port

• Port for CSI CMOS sensor (camera)

• SIM card slotButton matrix

• Ethernet

• Lithium battery charger

• USB host, USB OTG and USB to

UART ports

Getting Started

The 6SoloLite EVK includes the following items:

• Board: MCIMX6SLEVK

• Cables: Micro USB-B-2-USB-Type A male, V2.0

• Power supply: 100/240 V input, 5 V, 2.4 A output W/AC adaptor

• Documentation: Quick Start Guide (this document)

• Two SD cards: Programmed Android

™

3

Quick Start Guide

Get to Know the 6SoloLite EVK

PMIC on LED

Main Power

LED

Overvoltage LED

Parallel

Display

Port

Microphone

SIM Card Slot

Button

Matrix

Port for CSI

CMOS Sensor

(Camera)

EPDC

Expansion

Port

Figure 1: Front side of 6SoloLite EVK (top)

4

5 V Power

Jack

On/Off

Switch

Boot Mode

JTAG

Ethernet

Selection

USB to UART

Connector

Switch

Connector

Connector

Li Cell

Connectors

Boot

Selection

Switches

USB OTG

Headphone

Connector

USB Host

Speaker

Out

Mini PCIe

(Only USB

connection

is supplied

for Mini PCIe

connector)

eMMC

Expansion

Footprint

SD Socket for Wi-Fi

and SD Accessories

(SD3)

SD Socket for

Primary External

Card Slot (SD1)

SD Socket for

Boot Code

(SD2)

Figure 2: Back side of 6SoloLite EVK (bottom)

5

Quick Start Guide

Setting Up the Board

1

Insert SD

Card

Insert the supplied SD card into the SD2

card slot.

2

Set Up Boot

Switches

By default, boot switches are configured

to boot from SD2. If any other boot

source is desired, boot switches have

to be configured according to Table 1.

3

Connect USB to

UART Cable

Connect from USB to UART port (J26)

using a micro USB cable to PC. Once

the PC recognizes the virtual USB to

UART device, it can be seen it in your

PC Device Manager list.

6

Serial port configuration: 115.2 Kbaud, 8

data bits, 1 stop bit, no parity.

Note: The PC needs a driver to enable a

virtual COM port through the PC USB port.

Visit /drivers/ to

download the correct driver.

4

Connect EPDC or

Parallel Display

Connect by means of the IMXEBOOKDC3-E

board, which has to be connected to J12

and J13. For more information about this

board, please visit .

5

Connect

Power Display

Connect 5 V power supply into power jack

J6 and set SW14 to the On position.

Setting Up the Board (cont.)

The 6SoloLite EVK is compatible with the following daughter cards through the

LCD extension slot:

• MCIMX28LCD—LCD daughter card*

• MCIMXHDMICARD—HDMI daughter card

• IMXEBOOKDC3-E—EPD daughter card

* EVK does not natively support the resistive touchscreen on the LCD and HDMI cards. Use a USB

mouse to navigate when using the LCD or HDMI cards. Touch is supported on the EPDC card.

7

Quick Start Guide

The Android BSP is provided on two different SD cards, depending upon the display

daughter card used.

LCD/HDMI SD Card for Booting Android

The default boot mode configures the system to display the UI on the MCIMX28LCD

(sold separately).

To change the default configuration and enable the MCIMXHDMICARD daughter card

(sold separately), hit any key to stop u-boot from proceeding. Once prompt is visible,

the u-boot can be configured as follows:

For LCD boot up, type the following commands (as one line):

setenv bootargs console=ttymxc0,115200 init=/e=ttymxc0

panel=lcdsaveenvreset

For HDMI boot up, type the following commands (as one line):

setenv bootargs console=ttymxc0,115200 init=/e=ttymxc0

panel=hdmisaveenvreset

EPDC SD Card for Booting Android

The default settings should be used and no change is needed.

8

Boot Options and Switch Configuration

Table 1: Boot Options

S1_2

BOOT_MODE1

Boot from fuses

Serial downloader

Internal boot

Reserved

D

S1_1

BOOT_MODE0

0

1

0

1

0

0

1

1

Table 2: SW3 Configuration

SW3_8

BT_CFG1_0

SW3_7

BT_CFG1_1

SW3_6

BT_CFG1_2

SW3_5

BT_CFG1_3

SW3_4

BT_CFG1_4

SW3_3

BT_CFG1_5

SW3_2

BT_CFG1_6

SW3_1

BT_CFG1_7

SD1

SD2

SD3

SD4

eMMC

SPI NOR

X

*

D

**

**

**

**

X

X

*

*

*

*

*

X

*

*

*

*

*

X

*

*

*

*

*

1

0

0

0

0

1

1

1

1

1

1

1

0

0

0

0

0

0

0

*

*

*

X

X

None specified

Default configuration

*

Switch needs to be configured for high or low depending on the application needs.

Please check reference manual for boot configuration options.

**

1 = power cycle on power-up via SDa_RST_B (SD3_RST). 0 = no power cycle

9

Quick Start Guide

Boot Options and Switch Configuration (cont.)

Table 3: SW4 Configuration

SW4_8

BT_CFG2_0

SW4_7

BT_CFG2_1

SW4_6

BT_CFG2_2

SW4_5

BT_CFG2_3

SW4_4

BT_CFG2_4

SW4_3

BT_CFG2_5

SW4_2

BT_CFG2_6

SW4_1

BT_CFG2_7

SD1

SD2

SD3

SD4

eMMC

SPI NOR

D

*

*

*

*

*

X

X

X

X

X

*

X

X

X

X

X

*

X

0

1

0

1

1

X

0

0

1

1

0

X

1

1

1

1

0

X

*

*

*

*

1

X

*

*

*

*

1

X

Table 4: SW5 Configuration

SW5_8

BT_CFG4_0

SW5_7

BT_CFG4_1

SW5_6

BT_CFG4_2

SW5_5

BT_CFG4_3

SW5_4

BT_CFG4_4

SW5_3

BT_CFG4_5

SW5_2

BT_CFG4_6

SW5_1

BT_CFG4_7

SD1

SD2

SD3

SD4

eMMC

SPI NOR

X

X

D

X

X

X

X

X

0

X

X

X

X

X

0

X

X

X

X

X

1

X

X

X

X

X

0

X

X

X

X

X

0

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

0

None specified

Default configuration

*

Switch needs to be configured for high or low depending on the application needs.

Please check reference manual for boot configuration options.

**

1 = power cycle on power-up via SDa_RST_B (SD3_RST). 0 = no power cycle

10

Jumper and Solder Short Configuration

Table 5: Jumper and Solder Short Configuration

Reference

J16

Shunt Installation

1–2

2–3

Open

D

J17

J18

1–2

D

2–3

1–2

Open

D

1–2

D

SH12

2–3

1–2

D

2–3

1–2

D

2–3

Function

Use pins 1 and 2 to connect an external charger

Shunt 2–3 to experiment with USB charging

No charger

5 V rail supplied by PMIC (600 mA limited)

5 V rail supplied from wall adapter

Mini-PCIe connector J8 supply voltage connected

Mini-PCIe connector J8 supply voltage unconnected

MX_USB_HOST_D_P connected to USB type A connector

J10-USB_HOST_D_P

MX_USB_HOST_D_P connected to PCIE_USB_HOST_D_P

MX_USB_HOST_D_N connected to USB type A connector

J10-USB_HOST_D_N

MX_USB_HOST_D_N connected to PCIE_USB_HOST_D_N

0

SH13

SW14

Default configuration

Tips and Precautions

The 6SoloLite includes an overvoltage

protection circuit that will disconnect the

power supply from the system by opening

transistor Q1 in case the supply voltage

exceeds 5.5 V. The user must take into

account this is the maximum voltage that

can be plugged into J6.

Further Documentation

• MX6SL EVK schematics

• MX6SL EVK BOM

• MX6SL EVK gerber files

• MX6SL EVK reference manual

Complete documentation is available

at /6SLEVK.

11

Get Started

Download the installation software and documentation under

“Jump Start Your Design” at /6SLEVK.

Support

Visit the community at .

Warranty

Visit /warranty for complete

warranty information.

For more information, visit /iMX6series

Freescale and the Freescale logo are trademarks of Freescale Semiconductor,

Inc., Reg. U.S. Pat. & Tm. Off. All other product or service names are the

property of their respective owners. ARM and Cortex are registered trademarks

of ARM Limited (or its subsidiaries) in the EU and/or elsewhere. All rights

reserved. © 2012, 2014 Freescale Semiconductor, Inc.

Doc Number: IMX6SLEVKQSG REV 2 Agile Number: 926-27452 REV B

MCIMXHDMICARD.

2024年9月26日发(作者：朱同甫)

MCIMXHDMICARD.

6SoloLite Evaluation Kit

Quick Start Guide

6SoloLite Evaluation Kit

Quick Start Guide

About the 6SoloLite Evaluation Kit

The 6SoloLite evaluation kit (EVK) offers a solid platform to evaluate the

6 series single-core applications processor built on ARM

®

Cortex

®

-A9 technology as

well as a reference for future designs. Key features of this platform include:

• 6SL single Cortex-A9

core operating up to 1 GHz

• 1 GB LPDDR2 (400 MHz)

• SPI NOR

• SD socket for external devices

• SD socket for boot code

• SD socket for Wi-Fi

®

and accessories

• eMMC expansion footprint

• Audio codec

2

• EPDC expansion port

• Parallel display port

• Port for CSI CMOS sensor (camera)

• SIM card slotButton matrix

• Ethernet

• Lithium battery charger

• USB host, USB OTG and USB to

UART ports

Getting Started

The 6SoloLite EVK includes the following items:

• Board: MCIMX6SLEVK

• Cables: Micro USB-B-2-USB-Type A male, V2.0

• Power supply: 100/240 V input, 5 V, 2.4 A output W/AC adaptor

• Documentation: Quick Start Guide (this document)

• Two SD cards: Programmed Android

™

3

Quick Start Guide

Get to Know the 6SoloLite EVK

PMIC on LED

Main Power

LED

Overvoltage LED

Parallel

Display

Port

Microphone

SIM Card Slot

Button

Matrix

Port for CSI

CMOS Sensor

(Camera)

EPDC

Expansion

Port

Figure 1: Front side of 6SoloLite EVK (top)

4

5 V Power

Jack

On/Off

Switch

Boot Mode

JTAG

Ethernet

Selection

USB to UART

Connector

Switch

Connector

Connector

Li Cell

Connectors

Boot

Selection

Switches

USB OTG

Headphone

Connector

USB Host

Speaker

Out

Mini PCIe

(Only USB

connection

is supplied

for Mini PCIe

connector)

eMMC

Expansion

Footprint

SD Socket for Wi-Fi

and SD Accessories

(SD3)

SD Socket for

Primary External

Card Slot (SD1)

SD Socket for

Boot Code

(SD2)

Figure 2: Back side of 6SoloLite EVK (bottom)

5

Quick Start Guide

Setting Up the Board

1

Insert SD

Card

Insert the supplied SD card into the SD2

card slot.

2

Set Up Boot

Switches

By default, boot switches are configured

to boot from SD2. If any other boot

source is desired, boot switches have

to be configured according to Table 1.

3

Connect USB to

UART Cable

Connect from USB to UART port (J26)

using a micro USB cable to PC. Once

the PC recognizes the virtual USB to

UART device, it can be seen it in your

PC Device Manager list.

6

Serial port configuration: 115.2 Kbaud, 8

data bits, 1 stop bit, no parity.

Note: The PC needs a driver to enable a

virtual COM port through the PC USB port.

Visit /drivers/ to

download the correct driver.

4

Connect EPDC or

Parallel Display

Connect by means of the IMXEBOOKDC3-E

board, which has to be connected to J12

and J13. For more information about this

board, please visit .

5

Connect

Power Display

Connect 5 V power supply into power jack

J6 and set SW14 to the On position.

Setting Up the Board (cont.)

The 6SoloLite EVK is compatible with the following daughter cards through the

LCD extension slot:

• MCIMX28LCD—LCD daughter card*

• MCIMXHDMICARD—HDMI daughter card

• IMXEBOOKDC3-E—EPD daughter card

* EVK does not natively support the resistive touchscreen on the LCD and HDMI cards. Use a USB

mouse to navigate when using the LCD or HDMI cards. Touch is supported on the EPDC card.

7

Quick Start Guide

The Android BSP is provided on two different SD cards, depending upon the display

daughter card used.

LCD/HDMI SD Card for Booting Android

The default boot mode configures the system to display the UI on the MCIMX28LCD

(sold separately).

To change the default configuration and enable the MCIMXHDMICARD daughter card

(sold separately), hit any key to stop u-boot from proceeding. Once prompt is visible,

the u-boot can be configured as follows:

For LCD boot up, type the following commands (as one line):

setenv bootargs console=ttymxc0,115200 init=/e=ttymxc0

panel=lcdsaveenvreset

For HDMI boot up, type the following commands (as one line):

setenv bootargs console=ttymxc0,115200 init=/e=ttymxc0

panel=hdmisaveenvreset

EPDC SD Card for Booting Android

The default settings should be used and no change is needed.

8

Boot Options and Switch Configuration

Table 1: Boot Options

S1_2

BOOT_MODE1

Boot from fuses

Serial downloader

Internal boot

Reserved

D

S1_1

BOOT_MODE0

0

1

0

1

0

0

1

1

Table 2: SW3 Configuration

SW3_8

BT_CFG1_0

SW3_7

BT_CFG1_1

SW3_6

BT_CFG1_2

SW3_5

BT_CFG1_3

SW3_4

BT_CFG1_4

SW3_3

BT_CFG1_5

SW3_2

BT_CFG1_6

SW3_1

BT_CFG1_7

SD1

SD2

SD3

SD4

eMMC

SPI NOR

X

*

D

**

**

**

**

X

X

*

*

*

*

*

X

*

*

*

*

*

X

*

*

*

*

*

1

0

0

0

0

1

1

1

1

1

1

1

0

0

0

0

0

0

0

*

*

*

X

X

None specified

Default configuration

*

Switch needs to be configured for high or low depending on the application needs.

Please check reference manual for boot configuration options.

**

1 = power cycle on power-up via SDa_RST_B (SD3_RST). 0 = no power cycle

9

Quick Start Guide

Boot Options and Switch Configuration (cont.)

Table 3: SW4 Configuration

SW4_8

BT_CFG2_0

SW4_7

BT_CFG2_1

SW4_6

BT_CFG2_2

SW4_5

BT_CFG2_3

SW4_4

BT_CFG2_4

SW4_3

BT_CFG2_5

SW4_2

BT_CFG2_6

SW4_1

BT_CFG2_7

SD1

SD2

SD3

SD4

eMMC

SPI NOR

D

*

*

*

*

*

X

X

X

X

X

*

X

X

X

X

X

*

X

0

1

0

1

1

X

0

0

1

1

0

X

1

1

1

1

0

X

*

*

*

*

1

X

*

*

*

*

1

X

Table 4: SW5 Configuration

SW5_8

BT_CFG4_0

SW5_7

BT_CFG4_1

SW5_6

BT_CFG4_2

SW5_5

BT_CFG4_3

SW5_4

BT_CFG4_4

SW5_3

BT_CFG4_5

SW5_2

BT_CFG4_6

SW5_1

BT_CFG4_7

SD1

SD2

SD3

SD4

eMMC

SPI NOR

X

X

D

X

X

X

X

X

0

X

X

X

X

X

0

X

X

X

X

X

1

X

X

X

X

X

0

X

X

X

X

X

0

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

0

None specified

Default configuration

*

Switch needs to be configured for high or low depending on the application needs.

Please check reference manual for boot configuration options.

**

1 = power cycle on power-up via SDa_RST_B (SD3_RST). 0 = no power cycle

10

Jumper and Solder Short Configuration

Table 5: Jumper and Solder Short Configuration

Reference

J16

Shunt Installation

1–2

2–3

Open

D

J17

J18

1–2

D

2–3

1–2

Open

D

1–2

D

SH12

2–3

1–2

D

2–3

1–2

D

2–3

Function

Use pins 1 and 2 to connect an external charger

Shunt 2–3 to experiment with USB charging

No charger

5 V rail supplied by PMIC (600 mA limited)

5 V rail supplied from wall adapter

Mini-PCIe connector J8 supply voltage connected

Mini-PCIe connector J8 supply voltage unconnected

MX_USB_HOST_D_P connected to USB type A connector

J10-USB_HOST_D_P

MX_USB_HOST_D_P connected to PCIE_USB_HOST_D_P

MX_USB_HOST_D_N connected to USB type A connector

J10-USB_HOST_D_N

MX_USB_HOST_D_N connected to PCIE_USB_HOST_D_N

0

SH13

SW14

Default configuration

Tips and Precautions

The 6SoloLite includes an overvoltage

protection circuit that will disconnect the

power supply from the system by opening

transistor Q1 in case the supply voltage

exceeds 5.5 V. The user must take into

account this is the maximum voltage that

can be plugged into J6.

Further Documentation

• MX6SL EVK schematics

• MX6SL EVK BOM

• MX6SL EVK gerber files

• MX6SL EVK reference manual

Complete documentation is available

at /6SLEVK.

11

Get Started

Download the installation software and documentation under

“Jump Start Your Design” at /6SLEVK.

Support

Visit the community at .

Warranty

Visit /warranty for complete

warranty information.

For more information, visit /iMX6series

Freescale and the Freescale logo are trademarks of Freescale Semiconductor,

Inc., Reg. U.S. Pat. & Tm. Off. All other product or service names are the

property of their respective owners. ARM and Cortex are registered trademarks

of ARM Limited (or its subsidiaries) in the EU and/or elsewhere. All rights

reserved. © 2012, 2014 Freescale Semiconductor, Inc.

Doc Number: IMX6SLEVKQSG REV 2 Agile Number: 926-27452 REV B

MCIMXHDMICARD.