DFI KS200, KS202 User Manual

KS200/202

Touch Panel PC

User’s Manual

A23230340

1

Chapter 1 Introduction

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Copyright

FCC and DOC Statement on Class B

This publication contains information that is protected by copyright. No part of it may be re­produced in any form or by any means or used to make any transformation/adaptation without
the prior written permission from the copyright holders.

This publication is provided for informational purposes only. The manufacturer makes no
representations or warranties with respect to the contents or use of this manual and specifi­cally disclaims any express or implied warranties of merchantability or fitness for any particu­lar purpose. The user will assume the entire risk of the use or the results of the use of this
document. Further, the manufacturer reserves the right to revise this publication and make
changes to its contents at any time, without obligation to notify any person or entity of such
revisions or changes.

Changes after the publication’s first release will be based on the product’s revision. The web­site will always provide the most updated information.

© 2013. All Rights Reserved.

Trademarks

Product names or trademarks appearing in this manual are for identification purpose only and
are the properties of the respective owners.

This equipment has been tested and found to comply with the limits for a Class B digital
device, pursuant to Part 15 of the FCC rules. These limits are designed to provide reason­able protection against harmful interference when the equipment is operated in a residential
installation. This equipment generates, uses and can radiate radio frequency energy and, if not
installed and used in accordance with the instruction manual, may cause harmful interference
to radio communications. However, there is no guarantee that interference will not occur in a
particular installation. If this equipment does cause harmful interference to radio or television
reception, which can be determined by turning the equipment off and on, the user is encour­aged to try to correct the interference by one or more of the following measures:

• Reorient or relocate the receiving antenna.

• Increase the separation between the equipment and the receiver.

• Connect the equipment into an outlet on a circuit different from that to which the receiver
is connected.

• Consult the dealer or an experienced radio TV technician for help.

Notice:

1. The changes or modifications not expressly approved by the party responsible for compli-

ance could void the user’s authority to operate the equipment.

2. Shielded interface cables must be used in order to comply with the emission limits.

Chapter 1 Introduction

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Table of Contents

Copyright .............................................................................................................2

Trademarks ........................................................................................................2

FCC and DOC Statement on Class B .....................................................2

About this Manual ..........................................................................................4

Warranty ..............................................................................................................4

Static Electricity Precautions ......................................................................4

Safety Measures ..............................................................................................4

Safety Precautions ..........................................................................................5

About the Package .........................................................................................5

Chapter 1 - Introduction .............................................................................6

Overview .......................................................................................................6

Key Features ................................................................................................7

Specifications ...............................................................................................8

Getting the Know the KS200/202 ........................................................ 10

Mechanical Dimensions ........................................................................... 11

Appendix A - Software Support .............................................................21

Chapter 2 - Installation ................................................................ 12

Connecting Cables to Terminal Blocks ...............................................12

Chapter 3 - Ports and Connectors .............................................. 13

Top Panel I/O Port ...................................................................................13

Bottom Panel I/O Ports ..........................................................................14

Chapter 4 - Mounting Options ................................................................ 18

Wall Mount .................................................................................................18

Panel Mount ...............................................................................................19

Chapter 1 Introduction

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About this Manual

Static Electricity Precautions

An electronic file of this manual is included in the CD. To view the user’s manual in the CD, in­sert the CD into a CD-ROM drive. The autorun screen (Main Board Utility CD) will appear. Click
“User’s Manual” on the main menu.

Warranty

1. Warranty does not cover damages or failures that arised from misuse of the product,
inability to use the product, unauthorized replacement or alteration of components and
product specifications.

2. The warranty is void if the product has been subjected to physical abuse, improper in­stallation, modification, accidents or unauthorized repair of the product.

3. Unless otherwise instructed in this user’s manual, the user may not, under any circum­stances, attempt to perform service, adjustments or repairs on the product, whether in or
out of warranty. It must be returned to the purchase point, factory or authorized service
agency for all such work.

4. We will not be liable for any indirect, special, incidental or consequencial damages to the
product that has been modified or altered.

It is quite easy to inadvertently damage your PC, system board, components or devices even
before installing them in your system unit. Static electrical discharge can damage computer
components without causing any signs of physical damage. You must take extra care in han­dling them to ensure against electrostatic build-up.

1. To prevent electrostatic build-up, leave the system board in its anti-static bag until you are
ready to install it.

2. Wear an antistatic wrist strap.

3. Do all preparation work on a static-free surface.

4. Hold the device only by its edges. Be careful not to touch any of the components, contacts

or connections.

5. Avoid touching the pins or contacts on all modules and connectors. Hold modules or con
nectors by their ends.

Important:

Electrostatic discharge (ESD) can damage your processor, disk drive and other components.
Perform the upgrade instruction procedures described at an ESD workstation only. If such a sta­tion is not available, you can provide some ESD protection by wearing an antistatic wrist strap
and attaching it to a metal part of the system chassis. If a wrist strap is unavailable, establish
and maintain contact with the system chassis throughout any procedures requiring ESD protec­tion.

Safety Measures

To avoid damage to the system:

• Use the correct AC input voltage range.

Chapter 1 Introduction

To reduce the risk of electric shock:

• Unplug the power cord before removing the system chassis cover for installation or servic-

ing. After installation or servicing, cover the system chassis before plugging the power cord.
Battery:

• Danger of explosion if battery incorrectly replaced.

• Replace only with the same or equivalent type recommend by the manufacturer.

• Dispose of used batteries according to local ordinance.

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Safety Precautions

About the Package

• Use the correct DC input voltage range.

• Unplug the power cord before removing the system chassis cover for installation or servic­ing. After installation or servicing, cover the system chassis before plugging the power cord.

• Danger of explosion if battery incorrectly replaced.

• Replace only with the same or equivalent type recommend by the manufacturer.

• Dispose of used batteries according to local ordinance.

• Keep this system away from humidity.

• Place the system on a stable surface. Dropping it or letting it fall may cause damage.

• The openings on the system are for air ventilation to protect the system from overheating.
DO NOT COVER THE OPENINGS.

• Place the power cord in such a way that it will not be stepped on. Do not place anything on
top of the power cord. Use a power cord that has been approved for use with the system
and that it matches the voltage and current marked on the system’s electrical range label.

• If the system will not be used for a long time, disconnect it from the power source to avoid
damage by transient overvoltage.

• If one of the following occurs, consult a service personnel:

- The power cord or plug is damaged.

- Liquid has penetrated the system.

- The system has been exposed to moisture.

The package contains the following items. If any of these items are missing or damaged,
please contact your dealer or sales representative for assistance.

• 1 Touch Panel PC

• 1 Poron foam

• 3 Terminal blocks

• 1 19V Power adapter

• 1 CD disk includes: Manual

• 1 Quick Installation Guide

Optional Items

• Wall Mount kit

• Panel Mount kit

• Power Cord
The board and accessories in the package may not come similar to the information listed

above. This may differ in accordance to the sales region or models in which it was sold. For
more information about the standard package in your region, please contact your dealer or
sales representative.

- The system is not working properly.

- The system dropped or is damaged.

- The system has obvious signs of breakage.

• The unit uses a three-wire ground cable which is equipped with a third pin to ground the
unit and prevent electric shock. Do not defeat the purpose of this pin. If your outlet does
not support this kind of plug, contact your electrician to replace the outlet.

• Disconnect the system from the DC outlet before cleaning. Use a damp cloth. Do not use
liquid or spray detergents for cleaning.

Chapter 1 Introduction

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Chapter 1 - Introduction

Overview

Chapter 1

KS200

KS202

Chapter 1 Introduction

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Key Features

• TI® AM3517 Sitara ARM Cortex-A8

• 7" WVGA Touch Screen Fanless Panel PC

• 512MB DDR2 onboard

• 512MB NAND Flash onboard

KS200 KS202

SD/MMC
LAN
COM
USB
GPIO

1 SD/MMC card socket
1 LAN port
2 COM ports
2 Type A USB 2.0/1.1 ports
12-bit GPIO connector

Chapter 1

Open Frame

Chapter 1 Introduction

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Specifications
KS200

Chapter 1

Processor System

Memory

LCD and
Touch Screen

Storage

Ethernet

Audio
COM

USB

GPIO
Power

Environment

•

TI® AM3517 Sitara ARM Cortex-A8
512MB DDR2 onboard

•

- 4 DDR2 64Mx16 RAM
7” (800x480) WVGA TFT touch screen LCD

•

• Supports touch screen

®

TSC2004 touch screen controller

- TI

• 400 NITS

• 4-Wire Resistive type
1 SD/MMC card socket

•

• 512MB NAND Flash

- Samsung K9F4G08U0D fl ash memory 512Mx 8bit (512MB)
LAN8710 10/100Mbps LAN chip

•

• 1 LAN port

• Supports 10BASE-T and 100BASE-T
1 Line-out

•

1 RS232/422/485 COM port

•

• 1 RS232 COM port
1 TUSB1210 USB transceiver

•

• 2 Type A USB 2.0/1.1 ports

• 12-bit GPIO connector

• Power input voltage

- 14~30Vdc (+/-5%) input

• Temperature

- Operating: -20oC ~ 65oC (The power adapter only supports -20oC ~ 40oC)

- Storage: -30oC ~ 80oC

• Relative Humidity

- 95% RH at 65oC, 1 week

• Corrosion

- 4 periods of 7 days at 65oC with 90-95% relative humidity after 2 hours salt

spray or waiver

I/O Ports

Front Panel
Protection

Construction

Mounting

Dimensions

Weight

OS Support

Certifi cation

•

Front

- 1 Power LED

• Top

- 1 SD/MMC card socket

• Bottom

- 12-bit GPIO (2 7-pole terminal blocks)

- 1 Line-out

- 1 DB-9 RS232 COM

- 1 RJ45 10/100Mbps LAN with LEDs

- 2 USB 2.0 (Type A)

- 1 DB-9 RS232/422/485 COM

- 1 DC-in (2-pole Phoenix terminal block)

- 1 power switch

•

IP65 (Dust Tight; Water Proof protection)

•

Aluminum front bezel, Rugged metal housing

•

Wall mount (VESA 75x75)

• Panel mount (Mounting clamp)

•

235mm x 150mm x 40.8mm (W x H x D)

•

2.10 kg

•

Windows CE 6.0

• Linux 2.6.x

• CE

• FCC Class B

• Compliant with IEC 60945 (Protected B)

Chapter 1 Introduction

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Specifications
KS202

Chapter 1

Processor System

Memory

LCD and
Touch Screen

Storage

Ethernet

Audio
COM

USB

GPIO
Power

Environment

•

TI® AM3517 Sitara ARM Cortex-A8
512MB DDR2 onboard

•

- 4 DDR2 64Mx16 RAM
7” (800x480) WVGA TFT touch screen LCD

•

• Supports touch screen

®

TSC2004 touch screen controller

- TI

• 400 NITS

• 4-Wire Resistive type
1 SD/MMC card socket

•

• 512MB NAND Flash

- Samsung K9F4G08U0D fl ash memory 512Mx 8bit (512MB)
LAN8710 10/100Mbps LAN chip

•

• 1 LAN port

• Supports 10BASE-T and 100BASE-T
1 Line-out

•

1 RS232/422/485 COM port

•

• 1 RS232 COM port
1 TUSB1210 USB transceiver

•

• 2 Type A USB 2.0/1.1 ports

• 12-bit GPIO connector

• Power input voltage

- 14~30Vdc (+/-5%) input

• Temperature

- Operating: -20oC ~ 65oC (The power adapter only supports -20oC ~ 40oC)

- Storage: -30oC ~ 80oC

• Relative Humidity

- 95% RH at 65oC, 1 week

• Corrosion

- 4 periods of 7 days at 65oC with 90-95% relative humidity after 2 hours salt

spray or waiver

I/O Ports

Front Panel
Protection

Construction

Mounting
Dimensions

Weight

OS Support

Certifi cation

•

Front

- 1 Power LED

• Top

- 1 SD/MMC card socket

• Bottom

- 12-bit GPIO (2 7-pole terminal blocks)

- 1 Line-out

- 1 DB-9 RS232 COM

- 1 RJ45 10/100Mbps LAN with LEDs

- 2 USB 2.0 (Type A)

- 1 DB-9 RS232/422/485 COM

- 1 DC-in (2-pole Phoenix terminal block)

- 1 power switch

•

IP65 (Dust Tight; Water Proof protection)

•

Aluminum front bezel, Rugged metal housing

•

VESA 75x75

•

230.40mm x 142.32mm x 35.8mm (W x H x D)

•

1.90 kg

• Windows CE 6.0

• Android 2.1

• Linux 2.6.x

• CE

• FCC Class B

• Compliant with IEC 60945 (Protected B)

Chapter 1 Introduction

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Getting to Know the KS200/202

Chapter 1

Front View

Power LED

Power LED

Indicates the power status of the system.

Top View

SD/MMC

Indicates to insert and SD and MMC.

SD/MMC

Bottom View

12-bit GPIO

COM Ports

Used to connect serial devices.

USB Ports

Used to connect USB 2.0/1.1 devices.

LAN Port

Used to connect the system to a local area network.

GPIO

Supports 12-bit digital output and input.

Line-out

Used to connect to a speaker.

DC-in

Used to plug a power adapter.

RS232 COM USB 14-30V DC-in

Line-Out LAN

Power Switch

RS232/422/485 COM

Chapter 1 Introduction

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Mechanical Dimensions

Chapter 1

KS200

214.60

Top View

235.00

Front View

Bottom View

150.00

40.80

KS202

214.60

Top View

230.40

221.00

190.00

Ø3.50

133.00

142.32

90.00

Left View

20.99

4.49

Right ViewLeft View

154.40 (V,A FOR T/P)

153.00 (A,A FOR T/P)

90.00

190.00

Front View

95.00

20.20

65.85

92.04 (A,A FOR T/P)

11.20

20.20

Bottom View

35.80

125.60

93.40(V,A FOR T/P)

Right View

Chapter 1 Introduction

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Chapter 2

Chapter 2 - Installation

Connecting Cables to Terminal Blocks

Important:

When installing the touch panel PC, make sure the power is off. Failure to turn off, may cause
severe damage to the system.

1. Insert the cable end of the power adaptor to the terminal block. To firmly fix the cable into
the terminal block, use a screwdriver to clamp down the wires to the screw that is in the
terminal block.

Terminal block

Wire

Power adapter cable

2. Plug the terminal block into the DC-in connector and then tighten the screws to secure the
terminal block in place.

DC-in
connector

Screws

+ -

White Wire

Black Wire

Chapter 2 Installation

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Chapter 3 - Ports and Connectors

Top Panel I/O Port

SD/MMC

Chapter 3

SD/MMC

The front panel I/O port consist of the following:

• 1 SD/MMC slot

SD/MMC

This expansion port is used to insert a Secure Digital (SD) or Multimedia Card (MMC) device.
Aside from storing data files, an SD card is also capable of storing powerful software applica­tions.

Chapter 3 Ports and Connectors

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Chapter 3

Bottom Panel I/O Ports

RS232 COM USB 14-30V DC-in

Line-Out LAN

12-bit GPIO

The bottom panel I/O ports consist of the following:

• 1 12-bit GPIO

• 1 Line-Out jack

• 1 RS232 COM port

• 1 RS232/422/485 COM port

• 1 LAN port

• 2 USB ports

Power Switch

RS232/422/485 COM

GPIO

8 14

17

The Digital I/O connector provides powering-on function to an external device that is con­nected to this connector.

Pin Pin Assignment Pin Pin Assignment

1

2

3
4
5
6
7

GPIO-OUT1

GPIO-OUT2
GPIO-OUT3
GPIO-OUT4
GPIO-OUT5
GPIO-OUT6

5V_VCC

10
11
12
13
14

8

9

GPIO-IN1

GPIO-IN2
GPIO-IN3
GPIO-IN4
GPIO-IN5
GPIO-IN6

GND

Chapter 3 Ports and Connectors

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Chapter 3

Line-out

This jack is used to connect a headphone or external speakers.

RS232 COM 1

COM 1 is fixed at RS232.

DCD

TXD

RXD

12345

6897

RTS

DSR

DTR

CTS

COM 1: RS232

GND

RI

Chapter 3 Ports and Connectors

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Chapter 3

RS232/422/485 COM 2

COM 2:

RS232/422/485

GND

TXD

DCD

RXD

DTR

1234

5

6897

RI

RTS

CTS

DSR

COM 2

RX+

RX-

1234

6897

N.C.

N.C.

TX-

TX+

5

N.C.

GND

N.C.

DATA+

DATA-

1234

6897

N.C.

N.C.

N.C.

N.C.

5

N.C.

LAN Port

The LAN port allows the system board to connect to a local area network by means of a net­work hub.

GND

N.C.

Chapter 3 Ports and Connectors

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Chapter 3

USB Ports

USB 1-2

USB allows data exchange between your computer and a wide range of simultaneously acces­sible external Plug and Play peripherals.

The system board is equipped with two onboard USB 2.0/1.1 ports (USB 1-2).

Chapter 3 Ports and Connectors

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Chapter 4 - Mounting Options

Wall Mount

Chapter 4

3. Attach the other bracket (wall mount bracket 2) to the rear of the Panel PC.

The wall mount kit includes the following:

• 2 Wall mount brackets

• Bracket screws

Wall mount bracket 1 Wall mount bracket 2

1. Select a place on the wall where you will mount the Panel PC.

2. Use the provided mounting screws to attach “wall mount bracket 1” to the wall.

Mounting screw

Wall mount bracket 1

Mounting screw

Wall mount bracket 2

Hooks

4. Using the hooks on “bracket 2”, slide the Panel PC to “bracket 1”.

Wall mount bracket 2

Wall mount bracket 1

5. Tighten the screw to hold the assembly in place.

Chapter 4 Mounting Options

Mounting screw

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Chapter 4

Panel Mount

The panel mounting kit includes the following:

• 6 mounting clamps

1. Select a place on the panel where you will mount the Panel PC.

2. Cut out a shape on the panel that corresponds to the Panel PC’s rear dimensions

(217.6mm x 128.6mm).

Chapter 4 Mounting Options

128.60

217.60

3. Stick the poron foam on the rear panel.

Poron foam

Poron foam

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4. Slide the Panel PC through the hole until it is properly fi tted against the panel.

5. Position the mounting clamps along the rear edges of the Panel PC, fi tting them into the slits
that are around the Panel PC.

Chapter 4

Mounting
clamp

White plastic
cap

6. The fi rst and second clamps must be positioned and secured diagonally prior to mounting the
rest of the clamps. Tighten the clamp’s screw using an electric screwdriver until the white
plastic cap touches the panel. Do not over tighten the screws to prevent damaging the Panel
PC. The illustration below shows all clamps properly mounted.

Slit for mounting
the clamp

Panel wall

128.60

217.60

Chapter 4 Mounting Options

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Appendix A - Software Support
CD Source

Standard

Demo Image

SD Card

MLO

EBOOTSD.nb0

NK.bin

NAND

XLDRNAND.bin

EBOOTND.bin

Appendix A

XLDRNAND.BIN

The initial bootstrap loader is located in a single file called XLDRNAND.BIN. This file also uses
the proprietary Microsoft .BIN file format. The bootloader understands this file format and the
unique XLDR storage requirements in NAND Flash.

EBOOTNAND.BIN

The primary bootloader is located in a single file called EBOOTNAND.BIN. This file also uses
the proprietary Microsoft .BIN file format. When the bootloader detects this file, it properly
programs itself after the XLDR region in the reserved portion of NAND Flash.

NK.BIN

The operating system image is located in a single file called NK.BIN. NK.BIN is structured in a
proprietary Microsoft file format containing data records. This file cannot be executed directly
by the CPU nor can it generally be programmed directly into flash. However the bootloader
is designed to understand this format and it parses the data and copies it to the correct
destination in memory. NK.BIN is the file that Platform Builder will download to the bootloader
running on the TS200.

NK.bin

Tool

TI SDCard Utility

Manual

User Guide

MLO

The initial bootstrap loader is located in a single file called XLDRSD.nb0. The build process
creates the MLO file from the XLDRSD.nb0. This file is the SD boot version of xldr.

EBOOTSD.nb0

The build process also creates the EBOOTSD.NB0 file. This file is the exact representation of
EBOOT as it must appear in memory. This file is used with MLO when booting from SD Card.

The bootloader will copy the OS image to its destination in RAM and then jump to the image
entry point. At that point control has passed from the bootloader to the initialization routines
in the operating system image. The build process will optionally create a second operating
system image file called NK.NB0. This file will only be created if the correct options are
defined in the config.bib configuration file. NK.NB0 is an exact copy of the operating system
image as it should exist in memory. For more detail descriptions on the Windows CE system,
images refers to official Microsoft Windows CE documentations.

Appendix A Software Support

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Appendix A

BSP (Board Support Package)

BSP

BSP Source Code

Demo Image

Project

Tool

TI SDCard Utility

Manual

User Guide

AM35x_BSP

COMMON_TI_V1

SD Boot

NAND Boot

AM35x_OSDesign

Bootloader (EBOOT)

The TS200 board boots from Flash memory using the internal boot ROM of the AM3517 ARM
Cortex-A8 processor. The bootloader architecture consists of an initial bootstrap loader called
the XLDR and a secondary loader called EBOOT. The internal boot ROM performs a minimum
hardware setup, and then copies the XLDR from the first good block of Flash memory to a
fixed location in internal SRAM. The boot ROM then jumps to the entry point of the XLDR.

The XLDR is a BSP specific bootstrap loader whose function is to do basic hardware initial­ization and copy the second stage, full featured EBOOT from Flash memory into RAM for
execution. The XLDRsize is limited by the size of internal SRAM and does not implement any
features other than what are needed for bootstrap.

Serial User Interface

EBOOT supports a user interface over the serial port exposed on the TS200 as shown in the
following table through a RS232 connector. The actual physical CPU UART corresponding to
this connector is configured to run with the following configuration:

• 115200 baud

• 8 data bits

• 1 stop bit

• No parity

Note:

DFI RS232 standard cable (NO.332-7530404-000) or the following same specifications
cable.

Appendix A Software Support

RS232 Cable Pin Assignments

DB9 Connector (RS232) PC Side DB9 Connector (RS232) Product Side
Femal Femal

3

7

2

1

6

22

8

5

4

9

162738495

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Appendix A

You can see counter strings in terminal. Please press “space” within 5 seconds, it will be
shown EBOOT main menu.

Main Menu

[1] Show Current Setings
[2] Select Boot Device
[3] Select KITL (Debug) Device
[4] Network Settings
[5] SDCard Settings
[6] Set Device ID
[7] Save Settings
[8] Flash Management
[9] Enable/Disable OAL Retail Messages
[a] Select Display Resolution
[0] Exit and Continue

Selction:

Show Current Settings

This menu option provides a summary of the current bootloader configuration parameters.
These include the current bootloader and OS kernel debug transport, device name, bootloader/
kernel network configuration, and Ethernet MAC address.

Note:

The settings shown are current values and have not necessarily been saved to
novolatile storage. If modified configuration parameters are not manually saved to
flash the changes are lost on a reboot.

Select Boot Device

Network Settings

This menu option configures various network settings used by the bootloader and kernel trans­ports. On TS200, MAC address of Internal EMAC is obtained from read only register. When
booting from NAND, this MAC address can be changed and saved in NAND.

The default network configuration uses DHCP, and therefore requires a DHCP server to be
present on the subnet. Note that this network configuration applies only to bootloader and
OS kernel KITL network communications. The regular Ethernet NDIS miniport driver has a
completely independent configuration.

SDCard Settings

This menu option is only available with SD bootloader. This option allows you to change the
kernel filename (default: nk.bin) that the bootloader should use to load the kernel.

Flash Management

This menu option provides a mechanism to manage the Flash memory on the platform. Flash
blocks can be reserved, erased, etc. These options are primarily available for diagnostic pur­poses and should not need to be used during development.

Enable/Disable OAL Retail Messages

This menu option enables/disables output of RetailMessages (strings printed using RETAILMSG
API) onto the serial port. This is used only for NON-KITL builds. For KITL builds, the retail
messages are sent to the Platform builder window.

Select Display Resolution

This menu option lets the user select which display mode to use: LCD. The selected value is
used by bootloader and the kernel to display content. This menu option eliminates the need
for different bootloader/kernel for different display resolutions. (default : LCD 800x480)

This menu option configures the bootloader to load the OS image from the specified source.
The options include downloading an OS image from Platform Builder over Ethernet (default),
USB RNDIS, SD Card or loading the image from the OS partition on NAND Flash. The available
choices depend on whether its SD or NAND version of EBOOT.

Select Debug Device

This menu option configures the KITL transport that will be used in a KITL enabled OS image.
The options include Ethernet (default) or USB RNDIS.

Appendix A Software Support

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Appendix A

Running Demo Images

• For basic demo, use the NK_demo.bin image and rename it to NK.bin. This step is needed

because by default EBOOT looks for a filename called NK.bin as the kernel image.

• For SD boot. Follow the steps mentioned here.

• For NAND boot. Follow the steps mentioned here.

• To test other variants of kernel images provided in demo package, please rename the file

named ”NK_xxx.bin” to “NK.bin” and use this file with the steps described above.

SD Card

Write the OS image to an SD card using a PC card reader:

1. Format the SD card with a FAT32 file system using the “TI SDCard boot Utility” provided

in the release.

2. Execute “TI SDCard boot Utility” (in the Tool folder) to create a boottable SD card.

• Select the corresponding disks of SD card reader.

• Select the file named “MLO” from folder “..\Demo Image\SD boot” in “Second Step”.

• Select the file named “EBOOTSD.nb0, logo.bmp” from folder “..\Demo Image\SD boot” in

“Third Step”.

• Press the “processed“ button. It will copy all the files that you need to SD card.

Configure EBOOT to boot the image from SD card:

1. Insert the SD card into the SD slot on the TS200.

2. Use the switch setting as below on the TS200 to boot from SD card.

SW3 Switch Position

1 2 3 4 5 6

ON OFF OFF ON OFF OFF

3. Power on or reset the TS200. Use your serial terminal application to access the EBOOT

menu. You can see counter strings in terminal. Please press “SPACE” in 5 seconds.

4. Boot device is set to SD Card by default.

5. Exit the menus to boot the CE image from the SD card using option 0.

6. Please wait a moment while the image is read and booted.

NAND Flash

The OS Image could be burned into NAND flash from the SD card.

1. The SD card is in the boottable state. Copy the files “logo.nb0, XLDRNAND.bin, EBOOTND.

bin and NK.bin” into the SD card from “..\Demo Image\NAND boot”.

Configure EBOOT to boot the image from the SD card:

1. Insert the SD card into the SD slot on the TS200.

2. Use the following switch setting on the TS200 to boot from the SD card.

SW3 Switch Position

1 2 3 4 5 6

ON OFF OFF ON OFF OFF

3. Power on or reset the TS200. Use the applicaion of serial terminal to access the EBOOT
menu. You can see counter strings in terminal. Please press “SPACE” within 5 seconds.

4. Check and modify the selection “[2] Select Boot Device” that is selected “[3] NK from
SDCard FILE”.

5. Download logo.nb0, XLDRNAND.bin, EBOOTND.bin

• Select [5] “SD Card Settings”.

• Select [2] “Enter Filename”. Type the file name “EX:logo.nb0” in the terminal and press

enter.

• Select [0] “Exit and Continue” back to main menu.

• Select [0] “Exit and Contnue” will download files that you selected.

• Reboot TS200, and following the steps to download each files.

6. Download NK.bin

• Select [8] “Flash Management”.

• Select [8] “Enable flashing NK.bin”.

• Type “Y” in the terminal and press enter.

• Select [0] “Exit and Continue” will back to main menu.

• Select [0] “Exit and Continue” will download files.

• Until boot in WinCE desk.

7. Use the following switch setting on the TS200 to boot from NAND.

SW3 Switch Position

1 2 3 4 5 6

OFF OFF OFF OFF OFF OFF

Appendix A Software Support

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How to update WinCE Image

Load OS image through SD card. Please follow the flow below:

1. Please prepare a SD card (the capacity must be more than 64MB), and insert your card into

the computer.

2. Execute “TI SDCard boot Utility” (in Tool folder) to create a boottable SD card.

• Select the corresponding disks of SD card reader.

• Select the file named “MLO” from folder “..\Demo Image\SD boot” in “Second Step”.

• Select the file named “EBOOTSD.nb0, logo.bmp” from folder “..\Demo Image\SD boot” in

“Third Step”.

• Press the “processed“ button. It will copy all the files that you need to SD card.

3. The SD card is bootable now. Copy the file named “log.nb0, XLDRNAND.bin, EBOOTND.bin

and NK.bin” to SD card from “..\Demo Image\NAND boot”.

4. Open the terminal and set the following section “COM Port, 115200/8/None/1/None”.

Connect RS232 cable to COM1 of TS200.

5. Check DIP Switch(SW3). PIN1 and PIN4 must be “NO”, and others are “OFF”. After inserting

the SD card, you can turn on the TS200 power.

6. Check and modify the selection “[2] Select Boot Device” that is selected “[3] NK from SD

card FILE”.

Appendix A

Demo Application Program

DFI provides some Application Programs in TS200, including the following items:

− GPIO

− UART

− Watch dog (WDT)

AP path: My Device\Windows\.

GPIO

TS200 provides 12 GPIO Pins. (Six are the Input Pins; six are the Output Pins)

Path : My Device\Windows\GPIO_GUI

7. You can see counter strings in terminal. Please press “space” in 5 seconds, and follow the

steps below:

Download logo.nb0, XLDRNAND.bin, EBOOTND.bin:

• Select [5] “SD Card Settings”.

• Select [2] “Enter Filename”. Type the file name “EX: logo.nb0” in the terminal and press enter.

• Select [0] ”Exit and Continue” back to main menu.

• Select [0] “Exit and Continue” will download the selected files.

• Reboot TS200, and follow the steps to download each file.

Download NK.bin:

• Select [8] “Flash Management”.

• Select [8] “Enable flashing NK.bin”.

• Type “y” in the terminal and press enter.

• Select [0] “Exit and Continue” will back to main menu.

• Select [0] “Exit and Continue” will download files.

• Until boot in WinCE desk, reboot TS200.

Appendix A Software Support

Application Program Description

DIGITAL INPUT – Show the state of the six pins. If the input signal to High (5V), the AP
will show “1”. If the input signal to Low, the AP will show “0”.
DIGITAL OUTPUT - Set the state of the six output pins. If the output signal is High (5V),
please set “1” in AP. If the output signal is Low, please set “0” in AP.

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Appendix A

UART

TS200 provides 2 UART COM Ports. COM1 only supports RS232, and COM2 supports three
mode selections (RS232/RS485/RS422).

Path : My Device\Windows\UART_GUI

Application Program Description

Baud Rate – Set Baud Rate
Baud Rate range : 4800 ~ 230400
default : 115200
Stop Bits – Set Stop Bit

• 1

• 1.5 (default)

• 2

Flow Control – Set Flow Control mode

• Xon/Xoff

• Hardware

• None

Open – Open the specified UART COM PORT.
Close – Close the specified UART COM PORT.
Transceiver – Enter the data to be transferred.
Receiver – Display the received data.

Watchdog (WDT)

The TS200 BSP has a watchdog timer used to automatically reset the CPU if it is not periodi­cally refreshed by software, which happens in case of a software deadlock.

Connect Using – Set the COM Port

• COM1 (default)

• COM2

DataBits – Set the Data Bits

• 5

• 6

• 7

• 8 (default)

Parity – Set the Parity bit

• Evan

• Odd

• None (default)

• Mark

• Space

Set Mode – Set UART mode (COM2 only)

• RS232 (default)

• RS485

• RS422

Appendix A Software Support

Application Program Description

Current Timer – Show the counting time
Set Timer Value – Set WDT counter value
Refresh each – Set how long to clear time counter. “Refresh each” to be smaller than
“Set Timer Value”. Can be set not to perform.
Start WDT – Enable WDT count
Stop WDT – Disable WDT count.
Current Time – When the WDT is started. Display the counting time of seconds.

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