JARLTECH Touch POS 8670 User Manual

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JARLTECH

ISO 9002 Certified

Lead with technology

Win customers with

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User Operation

Manual

© Jarltech International Inc. 2004.

All rights reserved.

Under the copyright laws, this manual may not be copied, in whole or in part,
without the written consent of Jarltech.

Every effort has been made to ensure that the information in this manual is
accurate. Jarltech is not responsible for printing or clerical errors.

Jarltech International Inc.
3F, No. 1, Lane 538, Chung Cheng Road, Hsin Tien, Taipei, Taiwan

This equipment has been tested and found to comply with the limits for Class A
digital device. Pursuant to Part 15 of the FCC Rules. These limits are designed
to provide reasonable protection against harmful interference in a residential
installation. This equipment generates, uses, and if not installed and used in
accordance with the instructions may cause harmful 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 correct interference by one or more of the following
measures:

- Reorient or relocate the receiving antenna.

- Increase the separation between the equipment and 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. This
booklet is available from the U.S. government Printing Office, Washington, DC
20402, Stock NO.004-000-00345-4.

Caution
Any changes of modifications not expressly approved by the grantee of this
device could void the user authority to operate the equipment.

Operation is subject to the following two conditions:

(1) This device may not cause harmful interference.
(2) This device must accept any interference received including interference
that may cause undesired operation.

Chapter 1 Introduction

Note:

It is better for you to keep the carton and the packing material in case you
might need them for packing or moving in the future.

1-1 Description

Jarltech’s 8670 Terminal is an excellent tool designed for small foot-print
display applications. 8670 Terminal offers an onboard NS Geode
GX1-233/300 processor, plus support for Ethernet network functions onboard
features include TFT LCD, a 128M Compact-Flash™ card. With the 586-level
NS Geode processor mounted directly on board, upgrade and system
configuration is much more convenient as is the benefits of fan less operation
in temperatures up to 60° C (140° F). This teminal is a feature-packed,
586-level, hassle-free solution for space critical applications.
The 8670 Terminal complies with the "Green Function" standard and
supports three types of power saving features: Normal, Doze, and Sleep
modes. The display type configuration is done through software. A single
Flash chip holds the system BIOS and the VGA BIOS. This minimizes the
number of chips and eases configuration. You can change the display BIOS
simply by programming the Flash chip. If you need any additional functions,
8670 Terminal has a PC/104 connector for future upgrades.
And The 8670 terminal has a 8-wire resistor touch screen. It made the input
operation more flexible coordinate with special software.

1-2 Hardware Descriptions

1-2-1 Mainboard

Jarltech industry level main-board

Display chip onboard: NS –CX5530A ,1-4M shared

system memory ,Set in BIOS

Ethernet chip onboard: Realtech 8139C PCI PnP
10/100 Base-T Ethernet
Bundled with popular software drivers, the Ethernet
interface allows great flexibility to work with all major
networking operating systems including Novell
NetWare v2.x, v3.x, v4.x, Microsoft LAN Manager,
Win3.1, Win NT, Win95, IBM LAN Server, SCO UNIX
or other ODI, NDIS and Packet drive compliant
operating

Audio chip onboard: AC 97 codec with surround

V

sound,Microsoft direct Sound 3D audio supported
32-bit sound blaster TM and sound blaster
TM pro compatible
Full duplex operation for simultaneous record and
playback
Internal MIC-in,LINE-in ,Speaker-out interface
reserved

1-2-2 CPU

Onboard Gx-1 233MHz or Gx-1 300MHz,Supports

windows NT ,windows98/95,Linux,MS-DOS
operations environment

1-2-3 System memory:

128M standard
Onboard 144Pin SODIMM socket .support to

16M,32M,64M,128M,Max256M modules

1-2-4 Main store device:

128M Compact Flash card
It also supports IDE interface Compact Flash Card

1-2-5 Display specifications:

Display

• 10.4" TFT LCD display

Resolution

Display Area

Display Color

Contrast Ratio

Brightness

iewing Angle

Stand Angle Adjust able

Input Signal

Control Button

• SVGA 800 x 600

• 211.2 (H) x 158.4 (V) mm

• 262K

• 250 : 1 (Typical )

• 150 cd/m2

• @CR=10:1(R/L/U/D): 45 / 45 / 15 / 35

• from 45 degree to 90 degree

• R.G.B Analog 0.7Vp-p / 75 ohm

• Screen On/Off, “A”(Programming),

“M”(Save Brightness) , LCD Bright Up,
Down, Reset1/Reset2

Power Consumption

• 25W( Max.) / Standby 4W

Environmental

• Temperature 0~40℃

• Humidity :Less than 85%

1-2-6 Physical Features

Physical Dimension Including stand 27 ( L ) x 18.5 (W) x 27 ( H )
cm

Weight 3.5 Kgs

1-2-7 Satety and EMI

Safety & EMI FCC-B, CE

1-2-8 Integrated Options

Built-in 10.4” 8 wire resistor Touch screen mouse

Built-in ISO standard all track keyboard wedge magnetic stripe
reader

Built-in smart keyboard wedge ibutton key reader with Dallas
Ibutton key

Chapter2 Installation

2-1. Before unpacking

It’s very important to locate the 8670 terminal in suitable environment.
The surface for placing the 8670 terminal should be stable and level.

Make sure the place has good ventilation, is out of direct sunlight, away from
source of excessive dust, dirt, heat, water, moisture and vibration.
Convenience for connecting the 8670 terminal to the related facilities should be
well considered too.

2-2.Checking package

There are the following parts in the package:
a: 1 piece main 8670 terminal
b: 1 piece power
c: 1 piece extend power cable
d: 1 piece V cable with mouse and keyboard adapter
e: 1 piece driver CD

If the five parts are ready you may start connecting your teminal.

2-3. Connecting the 8670 terminal

2-3-1 know the parts
at first please know the parts. It make you

a: figture1 is the power

avoid possible mistake

b: figture 2 is the power cable

figture 1

figture 2

c: figture 3 is the mouse and keyboard V type cable

figture 3

d: figture 4 is the main 8670 terminal front and flank view :

MSR

Card Reader

iBUTTON

figture 4

figture 5

COM1COM2USB COM3

e: figture 5 is the back view of 8670 without the card reader and ibutton

2-4 know the connect ports
The figture6 show all the ports at the hind of the 8670 terminal

Ethernet Mouse and Keyboard

Power

2-5 Link all the parts together
Link all the parts as figture 7

Connect to

mouse

figture 7

Connect to

Keyboard

Connect the V type cable on the mouse and keyboard socket
Connect the power on the power socket
After connecting to the mouse and the Keyboard on the V type cable .You can
power on the power switch on the side of the teminal.as figture8

Power switch

figture 8

And then you can setup the BIOS features of the terminal as your need

Chapter3 BIOS SETTING

After power on the 8670 terminal you can press del to enter the BIOS
setting .The system BIOS used in 8670 is Award Plug and Play BIOS. The
8670 terminal contains a single 2MB Flash EPROM and supports power-on
modification of the system

3.1 System test and initialization

These routines test and initialize board hardware. If the routines

encounter an error during the tests, you will either hear a few short beeps

or see an error message on the screen. There are two kinds of errors:

fatal and non-fatal. The system can usually continue the boot up

sequence with non-fatal errors. Non-fatal error messages usually appear

on the screen along with the following instructions:

press <F1> to RESUME

Write down the message and press the F1 key to continue the bootup

sequence.

3-1-1 System configuration verification

These routines check the current system configuration against the
values stored in the board’s CMOS memory. If they do not match, the
program outputs an error message. You will then need to run the
BIOS setup program to set the configuration information in memory.
There are three situations in which you will need to change the
CMOS settings:

1. You are starting your system for the first time

2. You have changed the hardware attached to your system

3. The CMOS memory has lost power and the configuration
information has been erased.
The 8670 terminal' s CMOS memory has an integral lithium
battery backup. The battery backup should last ten years in
normal service, but when it finally runs down, you will need to
replace the complete unit.

3-2 Award BIOS setup

Award’s BIOS ROM has a built-in Setup program that allows users
to modify the basic system configuration. This type of information is
stored in battery-backed CMOS RAM so that it retains the Setup
information when the power is turned off.

Power on the computer and press <Del> immediately. This will allow
you to enter Setup.

CMOS SETUP UTILITY

AWARD SOFTWARE, INC.

STANDARD CMOS SETUP
BIOS FEATURES SETUP
CHIPSET FEATURES SETUP
POWER MANAGEMENT SETUP
PNP/PCI CONFIGURATION
LOAD BIOS DEFAULTS
LOAD SETUP DEFAULTS

Esc : Quit F10 : Save & Exit Setup
↑ ↓ → ← : Select Item (Shift) F2 : Change Color

Follow the prompt you can config each item as your requirement.

Chapter4 installing system dirver

4-1 System Drivers Installation

This session introduces the ways to install the drivers under
Windows/98SE and windows/NT ,and linux platforms for system
peripherals,such like VGA display, Touch Panel, Ethernet, ……..etc..
For more details about installation under each platform , please refer
the document files on each attached driver diskette.

The detail should be added in the future

INTEGRATED PERIPHERALS
SUPERVISOR PASSWORD
USER PASSWORD
IDE HDD AUTO DETECTION
SAVE & EXIT SETUP
EXIT WITHOUT SAVING

Chapter 5:jump setting of the mainboard

5-1 navigating the mainboard

May it helpful to you for hardware maintaining if you can know some special

jumper setting of the main board .Figure 9 and Figture10 which is the
the up and back placement of the mainboard . It issues all the positions
of the useful jumpers

Figture9

Figture 10

5-2 jumper setting

The 8670mainboard is configured to match the needs of your application
by proper jumper settings. The following tables show the correct jumper
settings for the onboard devices.

Jumper Default Setting Jumper Setting

JP1
JP2

JP5

JP8
JP9
JP10
JP11
JP13, JP15
JP14, JP16

Watchdog Trigger Disabled Open
Flat Panel Connector Voltage Selection:

Flat Panel Signal Level at 5.0V

Compact Flash IDE Mode for Master/Slave Selector
Setting: Slave

Clear CMOS Jumper: Normal Short 1-2
COM2 RS232/422/485 Settings: RS-232 Short 1-2
COM2 RS232/422/485 Settings: RS-232 Short 3-5, 4-6
COM2 RS232/422/485 Settings: RS-232 Short 3-5, 4-6
Serial Port with +5V/+12V Power Setting Short (3-5,4-6)

Short 1-2

Open

5-2-1 Watchdog Function Setting: JP1

T

he watchdog timer is an indispensable feature of the 8670 mainboard. It has
a sensitive error detection function and a report function. When the CPU
processing comes to a halt, the watchdog can generates a resets the CPU.

Watchdog Function Settings

Reset system when Watchdog
triggered

Disabled

Short 2-3

Open (default)

5.2.2 Serial Ports Settings: JP9, JP10, JP11

The 8670 mainboard provides 4 onboard serial ports, 3 x RS-232 and 1 x
RS-232/422/485. The corresponding jumper settings are shown on the
following table. If COM2 is to be set to RS-422/485, the following jumpers have
to be set correctly.

Options
JP9 JP10 JP11

RS-232 (default)
RS-422
RS-485

Settings

Short 1-2 Short 3-5, 4-6 Short 3-5, 4-6
Short 3-4 Short 1-3, 2-4 Short 1-3, 2-4
Short 5-6, 7-8 Short 1-3, 2-4 Short 1-3, 2-4

5.2.3 CMOS Clear Jumper: JP8

Options Settings

Clear CMOS
Normal

Short 2-3
Short 1-2 (default)

5.2.4 Flat Panel Connector Voltage Selection: JP2

8670mainboard supports +3.3V or +5V for flat panel connector, with voltage
selection completed by setting: JP2

VDDM of LCD1 connector JP2

5 V

3.3 V Short 2-3

Short 1-2 (default)

5.2.5 Compact Flash IDE Mode Selection: JP5

8670 mainboard Compact Flash IDE Mode for Master/Slave selection
completed by setting: JP5

CF IDE Mode JP5

Master Short
Slave Open (default)

5.2.6 Serial Ports +5V and +12V Power Selection: JP13, JP15, JP14, JP16

The four COM ports have +5V/+12V power capability on Pin 1 (+5V) and Pin 8
(+12V) or Pin 9 (+12V), depending on the jumper selection. The RS-232’s pin
assignments are listed.

JP13 (COM1), JP15 (COM2), JP14 (CO M3), JP16 (COM4)

JP13, JP15, JP14, JP16

Short 3-5 (default) Pin 1 Pin 1 Pin 1 Pin 1 Data Carrier Detect (DCD)
Short 4-6 (default) Pin 9 Pin 8 Pin8 Pin 8 Ring Indicator (RI)
Short 1-3 (5V) Pin 1 Pin 1 Pin 1 Pin 1 Power for 5V
Short 2-4 (12V) Pin 9 Pin 8 Pin 8 Pin 8 Power for 12V

COM1 COM2 COM3 COM4 Description

The onboard connectors link the 8670 mainboard to external devices. The
following table lists the function of each connector on the 8670 mainboard.
Corresponding pin assignments are described in append

Connector Description

J1 IrDA Connector
U25 CompactFlash Socket
LCD1 Flat Panel Connector
IDE1 IDE Connector
CON1 Parallel Port

JP6
FDD1 FDC Connector
LAN1 Ethernet Connector (1st)
KBMS1 K/B and PS/2 Connector
COM1 COM1
COM2 COM2
COM3 COM3
COM4 COM4
VGA1 CRT Connector
USB1,USB2 USB Connector
J2 Main Power Connector (+5V,+12V)
CN1 8 Bit Digital I/O Connector
PC104-1 PC/104 Connector
PC104-2 PC/104 Connector
SOMIMM1 SODIMM Socket
JP7 HDD LED
JP4 Hardware Reset

Power LED

JP3 Audio Connector

Appendix I: connetctors pin Assignment

1:IDE Interface Connector

The 8670 terminal builds in 1 channel, able to support 2 IDE drives, PCI bus
enhanced IDE controller which can support master/slave mode and post write
transaction mechanisms with 64-byte buffer, and master data transaction.

IDE1: IDE Connector Pin Assignment

Pin Description Pin Description

1
3
5
7
9
11
13
15
17
19

Reset #
Data 7
Data 6
Data 5
Data 4
Data 3
Data 2
Data 1
Data 0
GND

2
4
6
8
10
12
14
16
18
20

GND
Data 8
Data 9
Data 10
Data 11
Data 12
Data 13
Data 14
Data 15
No connector

21
23
25
27
29
31

33
35
37
39
41
43

INPACK
IOW #
IOR #
IOCHRDY
DACK
Interrupt

IRQ14
SA1
SA0
HDC CS0 #
HDD Active #
+5V
GND

22
24
26
28
30
32

34
36
38
40
42
44

GND
GND
GND
GND
GND
WP

PDIAG
SA2
HDC CSI #
No connector
+5V
No connector

2:LCD1 is a 44-pin, dual-in-line header for flat panel connection. The following table is the pin

assignments for the the flat panel connector

Pin Description Pin Description

1 No connector 2 +12VM
3 GND 4 GND

5 VDDM 6 VDDM
7 No connector 8 GND
9 No connector 10 No connector
11 B0 (P2) 12 B1 (P3)
13 B2 (P4) 14 B3 (P5)
15 B4 (P6) 16 B5 (P7)
17 No connector 18 No connector
19 G0 (P10) 20 G1 (P11)
21 G2 (P12) 22 G3 (P13)
23 G4 (P14) 24 G5 (P15)
25 No connector 26 No connector
27 R0 (P18) 28 R1 (P19)
29 R2 (P20) 30 R3 (P21)
31 R4 (P22) 32 R5 (P23)
33 GND 34 GND
35 FPCLK 36 FPVSYNC

(FLM)

37 FPDISP 38 FPHSYNC

(LP)

39 GND 40 FPENABKL
41 GND 42 No connector
43 No connector 44 VDDM

3:USB Connector

There are two USB connectors allow installation of USB devices. USB1 is a
single standard USB connector. USB1 is 4-pin header connector. The
following table shows the pin outs of the USB

4 Keyboard and PS/2 Mouse Connector

KBMS1 is a DIN connector for PS/2 keyboard connection.

5:Ethernet Connector

The RJ-45 connector (Ethernet port) is used for Ethernet. To connect the
8670 terminal to a hub, just plug one end of the cable into the Ethernet socket
and connect the other end of the cable to a hub.

6 Power Input Connectors

J2 is the +5V/+12V power input connector of the 8670 terminal mainboard.
The 8670 terminal mainboard needs +5V for normal operation.

1
2
3

+12V
GND
GND

4

+5V

7 HDD LED Connector

JP7: 2 Pin connector for HDD LED communication.

Pin Description

1
2

LED+
LED-

8 Power LED Connector

JP6: 2 Pin connector for Power LED communication.

Pin Description

1
2

LED+
LED-

9 Hardware Reset Connector

JP4: 2 Pin connector for Hardware Reset communication.

Pin Description

1
2

Signal
GND

10 Audio Connector

JP3: 10 Pin connector for Audio communication.

Pin Description

1
3
5
7
9
2,4,6,8,10

Mic Signal
Left Line Input Signal
Right Line Input Signal
Left Audio Output Signal
Right Audio Output Signal
GND

Appendix Ⅱ

1 Digital I/Os

The board is equipped with a 8-channel digital I/O connector CN1 that meets a
system’s customary automation control needs. The digital I/O can be
configured to control the cash drawer, or to sense the warning signal of an
Uninterrupted Power System (UPS), or to perform the store security control.
The digital I/O is controlled via software

I/O Software Programming

The Digital I/O on the the board is not an isolated type.

Output Address Bit Output Address Bit

Out-0 123h 0 In-0 123h 0
Out-1 123h 1 In-1 123h 1
Out-2 123h 2 In-2 123h 2
Out-3 123h 3 In-3 123h 3

Out-4 123h 4 In-4 123h 4
Out-5 123h 5 In-5 123h 5
Out-6 123h 6 In-6 123h 6
Out-7 123h 7 In-7 123h 7

Example program;

Out 123h, 03h Out-0, Out-1 Turn On Out-2, Out-3 Turn Off
Out 123h, 0Ah Out-0, Out-2 Turn Off Out-1, Out-3 Turn On

Example program;

If INPUT 123 is (1011), then INPUT-2 is “0”
If INPUT 123 is (1100), then INPUT-0 & 1 are “0”
** The INPUT signal has to be TTL signal

Appendix Ⅲ InterruptController Map

The8670 terminal mainboard is a fully PC compatible control board. It consists
of 16 ISA interrupt request lines and 4 of the 16 can be either ISA or PCI. The
mapping list of the 16 interrupt request lines is shown below;

NMI Parity check error

IRQ0
IRQ1
IRQ2

IRQ3
IRQ4
IRQ5
IRQ6
IRQ7
IRQ8
IRQ9
IRQ10
IRQ11
IRQ12
IRQ13
IRQ14
IRQ15

System timer output
Keyboard
Interrupt rerouting from

IRQ8 through IRQ15
Serial port #2
Serial port #1
Audio port
Floppy disk controller
Parallel port #1
Real time clock
Reserved
Serial port #3
Serial port #4
PS/2 mouse
Math co-processor
Primary IDE channel
Reserved

Appendix Ⅳ:I/O Address Map

I/O Address Map Descriptio n

000-01F DMA Controller #1
020-021 Interrupt Controller # 1,

Master

022-023 Chipset addres s
040-05F System Timer
060-06F Standard 101/102 keyboard

Controller

070-07F Real time Clock, NMI

Controller

080-0BF DMA Page Register
0A0-0BF Interrupt Controller # 2
0C0-0DF DMA Controller # 2
0F0-0FF Math Coprocessor
170-1FF VIR BUS Master PCI IDE

Controller

220-22F Audio 16bit sound
2E8-2EF Serial Port 4
2F8-2FF Serial Port 2
378-37F Parallel Printer Port 1
3B0-3DF Cyrix Graphic Adapter
3E8-3EF Serial Port 3
3F0-3F7 Floppy Disk Controller
3F8-3FF Serial Port 1

120 Watch dog timer enable
121 Watch dog timer disable
PNP audio I/O map range from 220~250H (16 bytes)
MPU-401 select from 300~330H (2 bytes)

Appendix Ⅴ Integrated Options

Our 8670 teminal provides the following device for your choice to

comply with your application.

1:Built-in 10.4” 8 wire resistor Touch screen mouse
Touch resistive touch screens are more than 99 percent
accurate . It includes one of the fastest resistive controllers on
the market – capable of signature capture.
And it offers high transmission, low reflection, and low haze to
accommodate various lighting conditions
it supports alternative stylus – fingernail, credit card, gloved-hand
– as well as finger input
it is nearly impervious to grease, dirt, water, harsh contaminants,
and chemicals. Using a choice of gasket materials,

2:Built-in ISO standard all track keyboard wedge magnetic stripe
reader
This built-in device can read
ISO single track: track 1, track 2, track 3 ,
ISO double tracks:tarck1&2 , track 2&3；
ISO all tracks: track1&2&3
all serials magnetic cards .
This decide by the type of magnetic head installed
The magnetic head life is up to 300,000 passes

3: Built-in smart keyboard wedge ibutton key reader with Dallas
Ibutton key

This smart device is an innovative iButton reader which offers
excellent data security for identification and control of the
equipment. It is capable of reading all Dallas iButton memory
chip. The reader may be operated in keyboard wedge mode and
it is suitable for use in applications where personal security is
desired such as POS system, payment system, computer control,
file control, equipment control, access control, time attendance
system and information collection. Unattended

Keyboard wedge interface for use with IBM PC compatible and

PS/2.