Portwell WADE-8075, WADE-8076 User Manual

WADE-8075/WADE-8076

Mini-ITX Board

User's Manual

Version 1.0b

Copyright © Portwell, Inc., 2010. All rights reserved.

All other brand names are registered trademarks of their respective owners.

Preface

Table of Contents

How to Use This Manual

Chapter 1 System Overview.......................................................................................................1-1

1.1 Introduction ....................................................................................................... 1-1

1.2 Check List........................................................................................................... 1-1

1.3 Product Specification........................................................................................ 1-2

1.3.1 Mechanical Drawing................................................................................ 1-5

1.4 System Architecture.......................................................................................... 1-7

Chapter 2 Hardware Configuration ...........................................................................................2-1

2.1 Jumper Setting................................................................................................... 2-1

2.2 Connector Allocation........................................................................................ 2-4

Chapter 3 System Installation....................................................................................................3-1

3.1 Intel Atom D525 CPU....................................................................................... 3-1

3.2 Main Memory.................................................................................................... 3-1

3.3 Installing the Single Board Computer............................................................ 3-2

3.3.1 Chipset Component Driver .................................................................... 3-2

3.3.2 Intel® Integrated Graphics Controller.................................................. 3-2

3.3.3 On-board Gigabit Ethernet Controller.................................................. 3-2

3.3.4 Audio Controller...................................................................................... 3-3

3.4 Clear CMOS Operation .................................................................................... 3-3

3.5 WDT Function ................................................................................................... 3-3

3.6 GPIO.................................................................................................................... 3-5

Chapter 4 BIOS Setup Information............................................................................................4-1

4.1 Entering Setup -- Launch System Setup ........................................................ 4-1

4.2 Main .................................................................................................................... 4-2

4.3 Advanced ........................................................................................................... 4-3

4.4 Chipset.............................................................................................................. 4-17

4.5 Boot ................................................................................................................... 4-21

4.6 Security ............................................................................................................. 4-23

4.7 Save & Exit ....................................................................................................... 4-24

Chapter 5 Troubleshooting........................................................................................................5-1

5.1 Hardware Quick Installation........................................................................... 5-1

5.2 BIOS Setting ....................................................................................................... 5-2

5.3 FAQ ..................................................................................................................... 5-3

Appendix A

Appendix B

Preface

How to Use This Manual

The manual describes how to configure your WADE-8075 WADE-8076 system board
to meet various operating requirements. It is divided into five chapters, with each
chapter addressing a basic concept and operation of Single Host Board.

Chapter 1: System Overview. Presents what you have in the box and give you an
overview of the product specifications and basic system architecture for this series
model of single host board.

Chapter 2: Hardware Configuration. Show the definitions and locations of Jumpers
and Connectors that you can easily configure your system.

Chapter 3: System Installation. Describes how to properly mount the CPU, main
memory and Compact Flash to get a safe installation and provides a programming
guide of Watch Dog Timer function.

Chapter 4: BIOS Setup Information. Specifies the meaning of each setup parameters,
how to get advanced BIOS performance and update new BIOS. In addition, POST
checkpoint list will give users some guidelines of trouble-shooting.

Chapter 5: Troubleshooting. Provide various of useful tips to quickly get
WADE-8075 WADE-8076 running with success. As basic hardware installation has
been addressed in Chapter 3, this chapter will basically focus on system integration
issues, in terms of backplane setup, BIOS setting, and OS diagnostics.

The content of this manual is subject to change without prior notice. These changes
will be incorporated in new editions of the document. The vendor may make
supplement or change in the products described in this document at any time.

System Overview

WADE-8075 / WADE-8076 User’s Manual 1-1

Chapter 1

System Overview

1.1 Introduction

Powell Inc., a world-leading innovator in the Industrial PC (IPC) market and a
member of the Intel

®

Communications Alliance, has launched its new WADE-8075
series in response to market demand for a simplified embedded system board (ESB)
that combines a smaller footprint, lower power consumption, robust computing
power and with longevity support.

Built with Intel’s latest ICH8M chipset, WADE-8075 series take advantage of the
Intel® Atom™ single (N455) or dual-core (D525) processors.
WADE-8075/WADE-8076 also features 24-bit LVDS display, fan less design and
built-in DC 12V input.

WADE-8075 and WADE-8076’s ability to drive two displays simultaneously makes
them particularly suitable for lottery and gaming applications. They are also ideal
for applications such as point-of-sale (POS), medical, digital signage, kiosks and
surveillance security monitoring.

1.2 Check List

The WADE-8075/WADE-8076 package should cover the following basic items

9 One WADE-8075/WADE-8076 Mini-ITX Main Board
9 One SATA Cable
9 One SATA Cable with power
9 One I/O Shield bracket
9 One Installation Resources CD-Title

If any of these items is damaged or missing, please contact your vendor and keep all
packing materials for future replacement and maintenance.

System Overview

WADE-8075 / WADE-8076 User’s Manual 1-2

1.3 Product Specification

z Main Processor

WADE-8075

- Support Intel

®

Atom™ D525 dual-core processor

- CPU clock speed: 1.8GHz

WADE-8076

- Support Intel

®

Atom™ N455 single-core processor

CPU clock speed: 1.67GHz

z Chipset

Intel ICH8M chipset

z System BIOS

uEFI BIOS

z Main Memory

WADE-8075

Two 204-pin DDR3 SODIMM socket support up to 4GB single channel 800MHz

WADE-8076

One 204-pin DDR3 SODIMM socket support up to 2GB single channel 800MHz

z Expansion Interface

One PCI and One PCI-Express x 1 slots, Mini-PCIe socket with USB and PCIEx1
signal

z SATA Interface

One SATA port
Two SATA ports with power

z Serial Port

Support three RS232 powered ports and one RS232/422/485 powered ports

z USB Interface

Support six USB (Universal Serial Bus) ports, four on rear I/O and two on board

header for internal devices

z PS/2 Mouse and Keyboard Interface

One header for keyboard and mouse

z Audio Interface

Connector for Mic-In, Line-In/out and Line-Out with header

z Watch Dog Timer

- Support WDT function through software programming for enable/disable

and interval setting

- General system reset

z On board VGA

- Intel® GMA 3150

- Resolution up to 2048 * 1536@ 60 Hz

- Intel® Dynamic Video Memory Technology support 4.0

System Overview

WADE-8075 / WADE-8076 User’s Manual 1-3

z On board LVDS

- Dual Channel 24-bit(WADE-8075) /Single Channel 18-bit LVDS(WADE-8076)

- Resolution 1280*1024

- Intel® GMA 3150

- Intel® Dynamic Video Memory Technology support 4.0

z On-board Ethernet LAN

Two Gigabit Ethernet (10/100/1000 Mbits/sec) LAN ports using RTL8111D.

z High Drive GPIO

On-board programmable 16-bit Digital I/O interface

z Cooling Fans

Support one 3-pin power connector for CPU cooler and one 3-pin power

connector for system fan

z System Monitoring Feature

Monitor system temperature and major power sources.

z Outline Dimension (L x W)

170mm(6.69’’) x 170mm(6.69’’)

z Power Requirements

Configuration

CPU Type

Intel® Atom™ CPU D525 @1.8GHz L2:1MB FSB:800MHz

SBC BIOS

Portwell,Inc. WADE-8075/WADE-8076 BIOS Rev.:R1.00.E0

Memory

Transcend DDR3 1066 2GB (ELPIDA J1108BDBG-DJ-F)

VGA Card

Onboard Intel® Luna Pier Graphics

VGA Driver

Intel® Graphics Accelerator Version 6.14.10.5134

LAN Card

Onboard Realtek RTL8111D GBE LAN

LAN Driver

Realtek PCIe GBE Family Controller Version 5.726.512.2009

Audio Card

Onboard Realtek ALC888 Audio

Audio Driver

Realtek high Definition Audio Version 5.10.05296

Chip Driver

Intel® Chipset Device Software Version 9.1.1.1019

SATA HDD

Seagate ST380815AS 160GB

Power Supply

Portwell,Inc APH-3020

Item Power ON

Full Loading

10Min

Full Loading

30Min

DC+12V 2.34 2.65 2.73

USB Loading Test 4.95 V/ 495 mA

System Overview

WADE-8075 / WADE-8076 User’s Manual 1-4

z Operating Temperature

0 °C ~ 60 °C

z Storage temperature

-20 ~ 80 °C

z Relative Humidity

0% ~ 90%, non-condensing

System Overview

WADE-8075 / WADE-8076 User’s Manual 1-5

1.3.1 Mechanical Drawing

System Overview

WADE-8075 / WADE-8076 User’s Manual 1-6

System Overview

WADE-8075 / WADE-8076 User’s Manual 1-7

1.4 System Architecture

All of details operating relations are shown in WADE-8075/WADE-8076 System
Block Diagram.

WADE-8075/WADE-8076 System Block Diagram

Hardware Configuration

WADE-8075 / WADE-8076 User’s Manual 2-1

Chapter 2

Hardware Configuration

This chapter indicates jumpers’, headers’ and connectors’ locations. Users may find
useful information related to hardware settings in this chapter. The default settings
are indicated with a star sign (Ì).

2.1 Jumper Setting

For users to customize WADE-8075/WADE-8076’s features. In the following
sections, Short means covering a jumper cap over jumper pins; Open or NC (Not
Connected) means removing a jumper cap from jumper pins. Users can refer to
Figure 2-1 for the Jumper allocations.

Figure 2-1 Top side

Hardware Configuration

WADE-8075 / WADE-8076 User’s Manual 2-2

Figure 2-2 Solder side

Hardware Configuration

WADE-8075 / WADE-8076 User’s Manual 2-3

The jumper settings are schematically depicted in this manual as follows:

JP2: LCD Panel Light Enable Voltage Setup

JP2 Function

1-2 Short 3.3V Level Ì
2-3 Short 5V Level

JP3: Compact flash card Master/Slave Setup

JP3 Function

1-2 open Slave Ì

1-2 Short Master

JP4: CMOS Clear

JP4 Function

1-2 Short Normal Operation Ì
2-3 Short Clear CMOS Contents

JP5: Reserve for LVDS 18bit to 24 bit debug port

JP7: LVDS for 18 to 24 bits mode adjust(Part2)

JP7 Function

1-2 open, 3-4 open, 5-6 open 24bit 2CH panel
1-2 open, 3-4 short, 5-6 open 24bit 1CH panel (Open LDI mode)
1-2 short, 3-4 short, 5-6 open 24bit 1CH panel (SPWG mode)
1-2 open, 3-4 open, 5-6 short 18bit 1CH panel

JP8: Panel power select

JP8 Function

2-4 short 3.3V Ì
4-6 short 5V
3-4 short 12V

Hardware Configuration

WADE-8075 / WADE-8076 User’s Manual 2-4

JP11:COM3 RS232/RS422/RS485 Jumper Select

JP11 Function

5-6,9-11,10-12,15-17,16-18 Short RS-232 Ì
3-4,7-9,8-10,13-15,14-16,21-22 Short RS-422
1-2,7-9,8-10,19-20 Short RS-485

JP14/JP15/JP16/JP17: COM1,COM2,COM3,COM4 Jumper select

Pin No. Signal Description

1-2 short +5V
3-4 short RI# Ì
5-6 short +12V

2.2 Connector Allocation

I/O peripheral devices are connected to the interface connectors.

Connector Function List

Connector Function Remark

J1 PCI-E X1
J2 SATA PORT 3 CONNECTOR

SATA1/SATA2 SATA PORT 1/2 CONNECTOR

J3 BIG 4 PIN POWER CONNECTOR output
J4 CPU FAN CONNECTOR

J5 SATA POWER CONNECTOR DC output for SATA

HD
J6 RESERVE CONNECTOR
J7 SO-DIMM 2 CONNECTOR WADE-8076 N/A

J8 TPM MODULE CONNECTOR

J9 SO-DIMM 1 CONNECTOR

J11 SYSTEM FAN CONNECTOR

J12 FRONT PANEL CONNECTOR

J13 PCI SLOT

J14 LVDS CONNECTOR

J15/J16 GPIO CONNECTOR
J17 RESERVE FOR LPC DEBUG PORT

J18 USB CONNECTOR
J19 PS/2 KB/MS CONNECTOR

J20 COM4 CONNECTOR
J21/J22 SMALL 4 PIN CONNECTOR DC Input

Hardware Configuration

WADE-8075 / WADE-8076 User’s Manual 2-5

It can’t be use with J25 at

the same time
J23 AUDIO(D-SUB)
J24 COM1/COM2(D-SUB)

J25 DC-JACK DC Input

J26 COMPACT FLASH SLOT

J27 MINI PCI-E CONNECTOR

VGA_COM1 VGA/COM3 (D-SUB)

LAN_USB1/LA
N_USB2

LAN/USB(D-SUB)

JP1 INVERTER CONNECOTR

JP9 CASE OPEN CONNECTOR

JP10 LAN2 LINK/ACTIVE LED

CONNECTOR

JP12 LAN1 LINK/ACTIVE LED AND

10/100/1G LED CONNECTOR

JP13 LAN2 10/100/1G LED CONNECTOR

JP18 Audio Pin Header

JP19 Hard disk LED

Pin Assignments of Connectors

J1: PCI-EX1 PIN ASSIGNMENT

J2: SATA Connector

Pin No. Signal Description

1 GND
2 TX+
3 TX­4 GND
5 RX­6 RX+
7 GND

Hardware Configuration

WADE-8075 / WADE-8076 User’s Manual 2-6

SATA1/SATA2: SATA Connector

Pin No. Signal Description

S1 GND
S2 TX+
S3 TX­S4 GND
S5 RX­S6 RX+
S7 GND

Power:SATA Connector

Pin No. Signal Description

P1 3.3V
P2 3.3V
P3 3.3V
P4 GND
P5 GND
P6 GND
P7 5V
P8 5V

P9 5V
P10 GND
P11 Reserve
P12 GND
P13 12V
P14 12V
P15 12V

J3: Big 4 pin power connector (out put)

Pin No. Signal Description

1 12V
2 GND
3 GND
4 5V

J4: CPU Fan Connector

Pin No. Signal Description

1 GND
2 PWM
3 SENSE

Hardware Configuration

WADE-8075 / WADE-8076 User’s Manual 2-7

J5: SATA power output connector

Pin No. Signal Description

1 12V
2 GND
3 GND
4 5V

J7/J9: DDR3 SO-DIMM Connector

J8: TPM Pin Header

PIN No. Signal Description PIN No.

Signal Description

1 PCLK_TPM 2 GND
3 LFRAME# 4 NC
5 PLT_RST# 6 VCC
7 LAD3 8 LAD2

9 VCC3 10 LAD1
11 LAD0 12 GND
13 SMB_CLK 14 SMB_DATA
15 3V_DUAL 16 SERIRQ

17 GND 18 NC

19 LPCPD# 20 NC

J11: System Fan Connector

Pin No. Signal Description

1 GND
2 PWM
3 SENSE

J12: Front panel connector

PIN No. Signal Description PIN No. Signal Description

1 +3.3V Standby (Suspend

LED)

2 SUSLED Signal

3 +3.3V Power (Power LED) 4 GND
5 GND 6 RESET Signal
7 Power Button Signal 8 GND

Hardware Configuration

WADE-8075 / WADE-8076 User’s Manual 2-8

J13: PCI Slot

J14: LVDS Connector

For WADE-8076 18 bits

Pin Signal Name Pin Signal Name

2 VDD 1 VDD
4 LCD1DO0- 3 LCD1DO0+
6 LCD1DO1- 5 LCD1DO1+

8 LCD1DO2- 7 LCD1DO2+
10 N/C 9 N/C
12 LCD1CLK- 11 LCD1CLK+
14 LDATA1 13 LCLK1
16 Ground 15 Ground
18 N/C 17 N/C
20 N/C 19 N/C
22 N/C 21 N/C
24 N/C 23 N/C

26 N/C 25 N/C
28 N/C 27 N/C

30 N/C 29 N/C

For WADE-8075 24 bits

Pin Signal Name Pin Signal Name

2 VDD 1 VDD

4 LCD1DO0- 3 LCD1DO0+

6 LCD1DO1- 5 LCD1DO1+

8 LCD1DO2- 7 LCD1DO2+
10 LCD1DO3- 9 LCD1DO3+
12 LCD1CLK- 11 LCD1CLK+

14 LDATA1 13 LCLK1
16 Ground 15 Ground
18 LCD2DO0- 17 LCD2DO0+
20 LCD2DO1- 19 LCD2DO1+
22 LCD2DO2- 21 LCD2DO2+
24 LCD2DO3- 23 LCD2DO3+

26 LCD2CLK- 25 LCD2CLK+
28 N/C 27 N/C

30 Ground 29 Ground

Hardware Configuration

WADE-8075 / WADE-8076 User’s Manual 2-9

J15: GPIO pin Connector

PIN No. Signal Description PIN No. Signal Description

1 GPIO1 2 GPIO5

3 GPIO2 4 GPIO6

5 GPIO3 6 GPIO7

7 GPIO4 8 GPIO8

9 GND 10 5V

J16: GPIO pin Connector

PIN No. Signal Description PIN No. Signal Description

1 GPIO9 2 GPIO13

3 GPIO10 4 GPIO14

5 GPIO11 6 GPIO15

7 GPIO12 8 GPIO16

9 GND 10 5V

J18: USB Connector

PIN No. Signal Description PIN No. Signal Description

1 5V_DUAL 2 5V_DUAL

3 D- 4 D-

5 D+ 6 D+

7 GND 8 GND

9 KEY 10 GND

J19: PS2 Keyboard/Mouse Connector

Pin No. Signal Description

1 Keyboard Clock
2 Mouse Data
3 Keyboard data
4 Keyboard 5V Power
5 Mouse Clock
6 Gnd

J20 COM4 CONNECTOR

PIN No. Signal Description PIN No. Signal Description

1 DCD#6 2 DSR#6

3 RXD#6 4 RTS#6

5 TXD#6 6 CTS#6

7 DTR#6 8 RI#6

9 GND 10 NC

Hardware Configuration

WADE-8075 / WADE-8076 User’s Manual 2-10

J21/J22: Small 4 pin Power input connector (It can’t be use with J25 at the same
time)

Pin No. Signal Description

1 GND
2 GND
3 +12V
4 +12V

J23: Audio Jack(D-SUB)

J24: COM Port(D-SUB)

J25: DC Jack(DC input)

J26: Compact Flash Socket

J27: Mini-PCI-E Socket

LAN_USB1/LAN_USB2:LAN/USB(D-SUB)

JP1: LVDS Inverter Connector

Pin No. Signal Description

1 +5V
2 GND
3 +12V
4 GND
5 LCD BL EN

JP9: Case Open Connector

Pin No. Signal Description

1 Case Open Signal
2 GND

JP10: LAN2 Active/Link LED Connector

Pin No. Signal Description

1 Link Signal ­2 Active Signal-

JP12: LAN1 Active/Link 10/100/1G LED Connector

Pin No. Signal Description

1 Link Signal ­2 Active Signal­3 100 Signal­4 1G Signal-

Hardware Configuration

WADE-8075 / WADE-8076 User’s Manual 2-11

JP13: LAN2 10/100/1G LED Connector

Pin No. Signal Description

1 100 Signal ­2 1G Signal-

JP18: Audio Connector

Pin No. Signal Description

1 Line out Left
2 Gnd
3 Line out Right
4 Gnd

JP19: Hard disk LED Connector

Pin No. Signal Description

1 +5V
2 Hard disk signal -

System Installation

WADE-8075 / WADE-8076 User’s Manual 3-1

Chapter 3

System Installation

This chapter provides you with instructions to set up your system. The additional
information is enclosed to help you set up onboard PCI device and handle Watch
Dog Timer (WDT) and operation of GPIO in software programming.

3.1 Intel Atom D525 CPU

- Intel® Atom D525 Processor (1M Cache, 1.8GHz, Max TDP 13 Watts)

3.2 Main Memory

WADE-8075 provide 2 x 204pin SO-DIMM sockets which supports single channel 800
DDR3-SDRAM as main memory, Non-ECC (Error Checking and Correcting),
non-register functions. The maximum memory can be up to 4GB. Memory clock and
related settings can be detected by BIOS via SPD interface.

For system compatibility and stability, do not use memory module without brand.
Memory configuration can be set to either one double-sided DIMM in one DIMM
socket or two single-sided SO-DIMM in both sockets.

Beware of the connection and lock integrity from memory module to socket. Inserting
improperly it will affect the system reliability.

Before locking, make sure that all modules have been fully inserted into the card
slots.

Note:

To insure the system stability, please do not change any of DRAM parameters in
BIOS setup to modify system the performance without acquired technical
information.

System Installation

WADE-8075 / WADE-8076 User’s Manual 3-2

3.3 Installing the Single Board Computer

To install your WADE-8075 into standard chassis or proprietary environment, please
perform the following:

Step 1 : Check all jumpers setting on proper position

Step 2 : Install and configure CPU and memory module on right position
Step 3 : Place WADE-8075 into the dedicated position in the system
Step 4 : Attach cables to existing peripheral devices and secure it

WARNING

Please ensure that SBC is properly inserted and fixed by mechanism.

Note:

Please refer to section 3.3.1 to 3.3.7 to install INF/VGA/LAN/Audio drivers.

3.3.1 Chipset Component Driver

WADE-8075 uses state-of-art Intel®D525 CPU. It’s a new chipset that some old
operating systems might not be able to recognize. To overcome this compatibility
issue, for Windows Operating Systems such as Windows XP, please install its INF
before any of other Drivers are installed. You can find very easily this chipset
component driver in WADE-8075 CD-title.

3.3.2 Intel® Integrated Graphics Controller

WADE-8075 uses Intel® Luna Pier integrated graphic chipset to gain an outstanding
graphic performance. WADE-8075 supports VGA, LVDS (18bit or 24bit) dual display.
This combination makes WADE-8075 an excellent piece of multimedia hardware.

Drivers Support

Please find the Graphic drivers in the WADE-8075 CD-title. Drivers support,
Windows XP/Vista/Win7.

3.3.3 On-board Gigabit Ethernet Controller

Drivers Support

Please find Realtek 8111D LAN driver in /Ethernet directory of WADE-8075 CD-title.
The drivers support Windows XP/Vista/Win7.

System Installation

WADE-8075 / WADE-8076 User’s Manual 3-3

3.3.4 Audio Controller

Please find Realtek ALC888 (High Definition Audio driver) form WADE-8075
CD-title. The drivers support Windows XP/Vista/Win7.

3.4 Clear CMOS Operation

The following table indicates how to enable/disable Clear CMOS Function hardware
circuit by putting jumpers at proper position.

JP4: CMOS Clear

J

P4 Function

1-2 Short

Normal Operation Ì

2-3 Short

Clear CMOS Contents

3.5 WDT Function

The Watchdog Timer of motherboard consists of 8-bit programmable time-out
counter and a control and status register.

WDT Controller Register

There are two PNP I/O port addresses that can be used to configure WDT.

2Eh: EFIR (Extended Function Index Register, for identifying CR index number)
2Fh: EFDR (Extended Function Data Register, for accessing desired CR)

WDT Control Mode Register

The working algorithm of the WDT function can be simply described as a counting
process. The Time-Out Interval can be set through software programming. The
availability of the time-out interval settings by software or hardware varies from
boards to boards.

WADE-8075 allows users to control WDT through dynamic software programming.
The WDT starts counting when it is activated. It sends out a signal to system reset or
to non-maskable interrupt (NMI), when time-out interval ends. To prevent the
time-out interval from running out, a re-trigger signal will need to be sent before the
counting reaches its end. This action will restart the counting process. A well-written
WDT program should keep the counting process running under normal condition.
WDT should never generate a system reset or NMI signal unless the system runs into
troubles.

System Installation

WADE-8075 / WADE-8076 User’s Manual 3-4

The related Control Registers of WDT are all included in the following sample
program that is written in C language. User can fill a non-zero value into the
Time-out Value Register to enable/refresh WDT. System will be reset after the
Time-out Value to be counted down to zero. Or user can directly fill a zero value into
Time-out Value Register to disable WDT immediately. To ensure a successful
accessing to the content of desired Control Register, the sequence of following
program codes should be step-by-step run again when each register is accessed.

Additionally, there are maximum 2 seconds of counting tolerance that should be
considered into user’ application program. For more information about WDT, please
refer to Winbond W83627UHG data sheet.

There are two PNP I/O port addresses that can be used to configure WDT,

1) 0x2E:EFIR (Extended Function Index Register, for identifying CR index number)

2) 0x2F:EFDR (Extended Function Data Register, for accessing desired CR)

WDT Control Command Example

// Enter Extended Function Mode
outp(0x002E, 0x87);
outp(0x002E, 0x87);
// Enable Pin 77 as WDTO#
// Select Logic Device 8
outp(0x002E, 0x07);
outp(0x002F, 0x08);
// Active Logic Device 8
outp(0x002E, 0x30);
outp(0x002F, 0x01);
// Select Count Mode
outp(0x002E, 0xF5);
outp(0x002F, (inp(0x002F) & 0xF7) | ( Count-mode Register & 0x08));
// Specify Time-out Value
outp(0x002E, 0xF6);
outp(0x002F, Time-out Value Register );
// Disable WDT reset by keyboard/mouse interrupts
outp(0x002E, 0xF7);
outp(0x002F, 0x00);
// Exit Extended Function Mode
outp(0x002E, 0xAA);

System Installation

WADE-8075 / WADE-8076 User’s Manual 3-5

Definitions of Variables:

Value of Count-mode Register :

1) 0x00 -- Count down in seconds (Bit3=0)

2) 0x08 -- Count down in minutes (Bit3=1)
Value of Time-out Value Register :

1) 0x00 -- Time-out Disable

2) 0x01~0xFF -- Value for counting down

3.6 GPIO

The motherboard provides 16 input / output ports that can be individually
configured to perform a simple basic I/O function.

GPIO Pin Assignment

The WADE-8075 provides 16 input/output ports that can be individually configured
to perform a simple basic I/O function. Users can configure each individual port to
become an input or output port by programming register bit of I/O Selection. To
invert port value, the setting of Inversion Register has to be made. Port values can be
set to read or write through Data Register.
The GPIO port is located on J15 & J16 shown as follows. Please note: DO NOT

SHORT-CIRCUIT PIN 9 AND 10 OF J15 & J16!

The control for the GPIO signals is handled through a separate 2-byte I/O space.

System Installation

WADE-8075 / WADE-8076 User’s Manual 3-6

J15 Ping Defines

PIN No. Signal Description PIN No. Signal Description

1 GPIO9 2 GPIO13
3 GPIO10 4 GPIO14
5 GPIO11 6 GPIO15
7 GPIO12 8 GPIO16
9 Ground 10 +5V

J16 Ping Defines

PIN No. Signal Description PIN No. Signal Description

1 GPIO1 2 GPIO5
3 GPIO2 4 GPIO6
5 GPIO3 6 GPIO7
7 GPIO4 8 GPIO8
9 Ground 10 +5V

GPIO Control Command Example (C Language)

#include <stdio.h>
#include <conio.h>
#include <dos.h>

#define Superio2_Addr 0x2E
// #define DEBUG 1

void enter_Superio2_CFG(void)
{
outportb(Superio2_Addr, 0x87);
outportb(Superio2_Addr, 0x87);
}

void exit_Superio2_CFG(void)
{
outportb(Superio2_Addr, 0xAA);
}

void Set_CFG2(unsigned char Addr2,unsigned char Value2)
{
unsigned char d2;

System Installation

WADE-8075 / WADE-8076 User’s Manual 3-7

outportb(Superio2_Addr, Addr2);
delay(2);
outportb(Superio2_Addr +1, Value2);
#ifdef DEBUG
d2 = inportb(Superio2_Addr+1);
printf("\nWrite %x to CR%x, read back is:%x",Value2,Addr2,d2);
#endif /*DEBUG*/
delay(2);
}

unsigned char Get_CFG2(unsigned char Addr2)
{
unsigned char d2;
outportb(Superio2_Addr, Addr2);
delay(2);
d2 = inportb(Superio2_Addr+1);
#ifdef DEBUG
printf("\nGet data %x from CR%x",d2,Addr2);
#endif /*DEBUG*/
delay(2);
return(d2);
}

int main(void)
{

unsigned char d2;
unsigned char LD0830_S, LD08E0_S, LD08E1_S, LD08E2_S, LD08E3_S,
LD08E4_S, LD08E5_S, LD08E6_S, LD08E7_S;
unsigned char LD0930_S, LD09E0_S, LD09E4_S, LD09E5_S, LD09E6_S,
LD09E7_S;
unsigned char Test_Group_1, Test_Group_2;
printf("\n------------------------------------------------------------------------");
printf("\n- PEB-2770/2780 GPIO TEST Program R1.0 -");
printf("\n------------------------------------------------------------------------");
printf("\n Please short the following pins with 2.00mm-pitched jumper on
J13");
printf("\n P.S: SIO: W83627UHG, Winbond");
printf("\n GP24(J16 PIN 1)----GP51(J16 PIN 2)");
printf("\n GP23(J16 PIN 3)----GP52(J16 PIN 4)");
printf("\n GP22(J16 PIN 5)----GP53(J16 PIN 6)");
printf("\n GP50(J16 PIN 7)----GP54(J16 PIN 8)");
printf("\n GND (J16 PIN10)****VCC (J16 PIN 9)");

System Installation

WADE-8075 / WADE-8076 User’s Manual 3-8

printf("\n");
printf("\n GP55(J15 PIN 1)----GP61(J15 PIN 2)");
printf("\n GP56(J15 PIN 3)----GP62(J15 PIN 4)");
printf("\n GP57(J15 PIN 5)----GP63(J15 PIN 6)");
printf("\n GP60(J15 PIN 7)----GP64(J15 PIN 8)");
printf("\n GND (J15 PIN10)****VCC (J15 PIN 9)");
printf("\n\n Starting...");

enter_Superio2_CFG(); // 87 87
/* CR2A B7 = 1 selet GPIO Port 1*/
d2 = Get_CFG2(0x2A);
d2 = (d2 & 0x7F) | 0x80;
Set_CFG2(0x2A, d2);

/* IO test loop 1 */
/* Set GPIO Port 5 Enable */
Set_CFG2(0x07, 0x08); /* Select logic device 08*/
LD0830_S = Get_CFG2(0x30); /* Backup the value */
Set_CFG2(0x30, 0x06); /* Enable GPIO Port 5 and GPIO Port
6*/
Set_CFG2(0x07, 0x09); /* Select logic device 09*/
LD0930_S = Get_CFG2(0x30); /* Backup the value */
Set_CFG2(0x30, 0x02); /* Enable GPIO Port 2*/

//-------------------------------------------------------------------------------------------------------­// GPIO24->51
// GPIO23->52
// GPIO22->53
// GPIO50->54
//
// GPIO55->61
// GPIO56->62
// GPIO57->63
// GPIO60->64
//-------------------------------------------------------------------------------------------------------­ /* Set GPIO Port 2 */
Set_CFG2(0x07, 0x09);
LD09E4_S = Get_CFG2(0xE4); /* Backup the value */
Set_CFG2(0xE4, (LD09E4_S & 0xE3) ); /* Set the GPIO 22, 23, 24 to
output */

/* Set GPIO Port 5 of Superio2 Enable */
Set_CFG2(0x07, 0x08); /* Select logic device 08*/
LD09E0_S = Get_CFG2(0xE0); /* Backup the value */

System Installation

WADE-8075 / WADE-8076 User’s Manual 3-9

Set_CFG2(0xE0, 0x1E); /* Set the GPIO 50, 55, 56, 57 to output.
GPIO 51, 52, 53, 54 to input */
LD08E4_S = Get_CFG2(0xE4); /* Backup the value */
Set_CFG2(0xE4, (LD08E4_S & 0x1E) ); /* Set the GPIO 60 to output.
GPIO 61, 62, 63, 64 to input*/

delay(2);

Set_CFG2(0x07, 0x09);
LD09E5_S = Get_CFG2(0xE5); /* Backup the value */
Set_CFG2(0xE5, (LD09E5_S | 0x14) ); /* Set the GPIO 22, 23, 24 to
High */

Set_CFG2(0x07, 0x08); /* Select logic device 08*/
LD08E1_S = Get_CFG2(0xE1); /* Backup the value */
Set_CFG2(0xE1, ((LD08E1_S & 0x00) | 0xA0) ); /* Set th GPIO 50, 55,
56, 57 to High */
LD08E5_S = Get_CFG2(0xE5); /* Backup the value */
Set_CFG2(0xE5, (LD08E5_S & 0xFE) ); /* Set the GPIO 60 to High*/

delay(100);
Set_CFG2(0x07, 0x08); /* Select logic device 08*/
Test_Group_1 = Get_CFG2(0xE1); /* get GPIO Port 5 data */
Test_Group_2 = Get_CFG2(0xE5); /* get GPIO Port 6 data */
printf("\n Test_Group_1 = %x", Test_Group_1);
printf("\n Test_Group_2 = %x", Test_Group_2);

//printf("\n%x",d2);
if ( (Test_Group_1 & 0xAA) == 0xAA ){
printf("\n GPIO[24,23,22,50]->[51,52,53,54] test ok!");
}
else{
printf("\n GPIO[24,23,22,50]->[51,52,53,54] test fail!");
}

if ( (Test_Group_2 & 0x0A) == 0x0A) {
printf("\n GPIO[55,56,57,60]->[61,62,63,64] test ok!");
}
else {
printf("\n GPIO[55,56,57,60]->[61,62,63,64] test fail!");
}
Set_CFG2(0x07, 0x09);
Set_CFG2(0xE0, LD09E0_S);
Set_CFG2(0x30, LD0930_S);

System Installation

WADE-8075 / WADE-8076 User’s Manual 3-10

Set_CFG2(0x07, 0x08);
Set_CFG2(0x30, LD0830_S);

return(0);
}

BIOS Setup Information

WADE-8075 / WADE-8076 User’s Manual 4-1

Chapter 4

BIOS Setup Information

WADE-8075 uses AMI BIOS structure stored in Flash ROM. These BIOS has a built-in
Setup program that allows users to modify the basic system configuration easily. This
type of information is stored in CMOS RAM so that it is retained during power-off
periods. When system is turned on, WADE-8075 communicates with peripheral
devices and checks its hardware resources against the configuration information
stored in the CMOS memory. If any error is detected, or the CMOS parameters need
to be initially defined, the diagnostic program will prompt the user to enter the
SETUP program. Some errors are significant enough to abort the start up.

4.1 Entering Setup -- Launch System Setup

Power on the computer and the system will start POST (Power On Self Test) process.
When the message below appears on the screen, press <Del> key will enter BIOS
setup screen.

Press <Del> to enter SETUP

If the message disappears before responding and still wish to enter Setup, please
restart the system by turning it OFF and On or pressing the RESET button. It can be
also restarted by pressing <Ctrl>, <Alt>, and <Delete> keys on keyboard
simultaneously.

Press <F1> to Run SETUP or Resume

The BIOS setup program provides a General Help screen. The menu can be easily
called up from any menu by pressing <F1>. The Help screen lists all the possible keys
to use and the selections for the highlighted item. Press <Esc> to exit the Help screen.

BIOS Setup Information

WADE-8075 / WADE-8076 User’s Manual 4-2

4.2 Main

Use this menu for basic system configurations, such as time, date etc.

BIOS Information, Memory Information

These items show the firmware and memory specifications of your system. Read
only.

System Time

The time format is <Hour> <Minute> <Second>. Use [＋] or [－] to configure system
Time.

System Date

The date format is <Day>, <Month> <Date> <Year>. Use [＋] or [－] to configure
system Date.

BIOS Setup Information

WADE-8075 / WADE-8076 User’s Manual 4-3

4.3 Advanced

Use this menu to set up the items of special enhanced features.

Launch PXE OpROM

Enable of Disable Boot Option for Legacy Network Devices.

Choices: Disabled, Enabled.

Launch Storage OpROM

Enable of Disable Boot Option for Legacy Mass Storage devices.

Choices: Disabled, Enabled.

BIOS Setup Information

WADE-8075 / WADE-8076 User’s Manual 4-4

PCI Subsystems Settings

PCI ROM Priority

Choices: Legacy ROM, EFI Compatible ROM.

PCI Latency Timer

Choices: 32 PCI, 64 PCI, 96 PCI, 128 PCI, 160 PCI, 192 PCI, 224 PCI, 248 PCI Bus
Clocks.

VGA Palette Snoop

Choices: Disabled, Enabled.

PERR# Generation

Choices: Disabled, Enabled.

SERR# Generation

Choices: Disabled, Enabled.

BIOS Setup Information

WADE-8075 / WADE-8076 User’s Manual 4-5

Relaxed Ordering

Choices: Disabled, Enabled.

Extended Tag

Choices: Disabled, Enabled.

No Snoop

Choices: Disabled, Enabled.

Maximum Payload

Choices: Auto, 128 Bytes, 256 Bytes, 512 Bytes, 1024 Bytes, 2048 Bytes, 4096 Bytes.

Maximum Read Request

Choices: Auto, 128 Bytes, 256 Bytes, 512 Bytes, 1024 Bytes, 2048 Bytes, 4096 Bytes.

ASPM Support

Choices: Disabled. Auto, Force L0.

Extended Synch

Choices: Disabled, Enabled.

ACPI Settings

BIOS Setup Information

WADE-8075 / WADE-8076 User’s Manual 4-6

Enable ACPI Auto Configuration

Choices: Enabled, Disabled.

Enable Hibernation

Choices: Enabled, Disabled.

ACPI Sleep State

Choices: Suspend Disabled, S1 (CPU Stop Clock), S3 (Suspend to RAM).

CPU Configuration

These items show the advanced specifications of your CPU. Read only.

Hyper-Threading

Choices: Disabled, Enabled.

Core-Multi Processing

Choices: Disabled, Enabled.

BIOS Setup Information

WADE-8075 / WADE-8076 User’s Manual 4-7

Execute Disable Bit

XP can prevent certain classes of malicious buffer overflow attacks when combined
with a supporting OS (Windows Server 2003 SP1, Windows XP SP2, SuSE Linux 9.2,
RedHat Enterprise 3 Update 3.).

Choices: Disabled, Enabled.

Limit CPUID Maximum

Disabled for Windows XP.
Choices: Disabled, Enabled.

C-States

Enable or Disable C2 and above
Choices: Disabled, Enabled.

IDE Configuration

The IDE Devices Configuration.

BIOS Setup Information

WADE-8075 / WADE-8076 User’s Manual 4-8

ATA/IDE configuration

Select ATA/IDE Configuration.
Choices: Disabled, Compatible, Enhanced.

Configure SATA as

Select a configuration for SATA Controller.

Choices: IDE, AHCI.

HDD Acoustic Power Management

Option to Enable or Disable HDD Acoustic Power Management.

Choices: Disabled, Enabled.

DiPM

Option to Enable or Disable DiPM.
Choices: Disabled, Enabled.

Intel IGD SWSCI OpRegion

These option contains all the Intel® IGD setting for graphic output.

BIOS Setup Information

WADE-8075 / WADE-8076 User’s Manual 4-9

DVMT Mode

Select DVMT Mode/Fixed Mode.

Choices: Fixed Mode, DVME Mode.

DVMT/FIXED Memory

Choices: 128M, 256MB, Maximum.

IGD – Boot Type

Select the Video Device which will be activated during POST.
Choices: VBIOS Default, CRT, LFP, CRT+LFP, TV, CRT+LFP-SDVO, EFP, TV-SDVO,
CRT+LFP-SDVO, CRT+EFP, CRT+TV+LFP.

LCD Panel Type

Choices: 800x600 LVDS, 1024x768 LVDS, 1280x1024 LVDS, 1400x1050
LVDS1 ,1400x1050 LVDS2, 1600x1200 LVDS, 1280x768 LVDS, 1680x1050 LVDS,
1920x1200 LVDS, 1280x800 LVDS, 1280 x600 LVDS, 2048X1536 LVDS.

Panel Scaling

Choices: Auto, Force Scaling, Off, Maintain Aspect Ratio.

GMCH BLC Control

Choices: PWM-Inverted, GMBus-Inverted, PWM-Normal, GMBus Normal.

BIA Control

Choices: VBIOS Default, Disabled, Level 1, Level 2, Level 3, Level 4, Level 5

Spread Spectrum clock Chip

Hardware: Spread is controlled by Chip.
Software: Spread is controlled by BIOS.

Choices: Off, Hardware, Software.

TV1 Standard

Choices: VBIOS Default, NTSC_M, NTSC_M_J, NTSC_433, PAL_B, PAL_G, PAL_D,
PAL_H, PAL_I, PAL_M, PAL_N, SECAM_L, SECAM_B, SECAM_D,
SECAM_G,SECAM_H,SECAM_K, HDTV_STD_SMPTE_240M_1080i59,.
HDTV_STD_SMPTE_240M_1080i60, HDTV_STD_SMPTE_295M_1080i50,
HDTV_STD_SMPTE_295M_1080p50, HDTV_STD_SMPTE_296M_720p50,
HDTV_STD_SMPTE_296M_720p60, HDTV_STD_CEAEIA_7702A_480p60,
HDTV_STD_CEAEIA_7702A_480i60.

BIOS Setup Information

WADE-8075 / WADE-8076 User’s Manual 4-10

TV2 Standard

Choices: VBIOS Default, NTSC_M, NTSC_M_J, NTSC_433, PAL_B, PAL_G, PAL_D,
PAL_H, PAL_I, PAL_M, PAL_N, SECAM_L, SECAM_B, SECAM_D,
SECAM_G,SECAM_H,SECAM_K, HDTV_STD_SMPTE_240M_1080i59,.
HDTV_STD_SMPTE_240M_1080i60, HDTV_STD_SMPTE_295M_1080i50,
HDTV_STD_SMPTE_295M_1080p50, HDTV_STD_SMPTE_296M_720p50,
HDTV_STD_SMPTE_296M_720p60, HDTV_STD_CEAEIA_7702A_480p60,
HDTV_STD_CEAEIA_7702A_480i60.

Active LFP

Select the Active LFP Configuration.
No LVDS: VBIOS does not enable LVDS.
Int-LVDS: VBIOS enables LVDS driver by Integrated encoder.
SDVO LVDS: VBIOS enables LVDS driver by SDVO encoder.
eDP: LVDS Driven by Int-DisplayPort encoder.

Choices: No LVDS, Int-LVDS, SDVO LVDS, eDP.

USB Configuration

BIOS Setup Information

WADE-8075 / WADE-8076 User’s Manual 4-11

Legacy USB Support

Set to [Enabled] if you need to use any USB 1.1/2.0 device in the operating system
that does not support or have any USB 1.1/2.0 driver installed, such as DOS and SCO
Unix.

Choices: Disabled, Enabled, Auto.

EHCI Hand-Off

This is a workaround for OSes without EHCI hand-off support. The EHCI ownership
change should claim by EHCI driver.

Choices: Disabled, Enabled.

USB transfer time-out

The Time-out value for Control, Bulk, and Interrupt transfers.

Choices: 1 sec, 5 sec, 10 sec, 20 sec.

Device Reset time-out

Choices: 10 sec, 20 sec, 30 sec, 40 sec.

Device Power-up delay

Choices: Auto, Manual.

BIOS Setup Information

WADE-8075 / WADE-8076 User’s Manual 4-12

W83627UHG Super IO Configuration

W83627UHG Serial Port 1 Configuration

BIOS Setup Information

WADE-8075 / WADE-8076 User’s Manual 4-13

Serial Port

Choices: Disabled, Enabled.

Change Settings

Choices: Auto. IO=3F8h; IRQ=4, IO=3F8h; IRQ=3,4,5,6,7,10,11,12, IO=2F8h;
IRQ=3,4,5,6,7,10,11,12, IO=3E8h; IRQ=3,4,5,6,7,10,11,12, IO=2E8h;
IRQ=3,4,5,6,7,10,11,12.

W83627UHG Serial Port 2 Configuration

Serial Port

Choices: Disabled, Enabled.

Change Settings

Choices: Auto. IO=2F8h; IRQ=3, IO=3F8h; IRQ=3,4,5,6,7,10,11,12, IO=2F8h;
IRQ=3,4,5,6,7,10,11,12, IO=3E8h; IRQ=3,4,5,6,7,10,11,12, IO=2E8h;
IRQ=3,4,5,6,7,10,11,12.

Device Mode

Choices: Standard Serial Port Mode, IrDA Mode, ASK-IR Mode.

BIOS Setup Information

WADE-8075 / WADE-8076 User’s Manual 4-14

Power Loss Function

Choices: Power off, Power On, Power Last State.

W83627UHG Serial Port 3 Configuration

Serial Port

Choices: Disabled, Enabled.

Change Settings

Choices: Auto. IO=3E8h; IRQ=7, IO=3F8h; IRQ=7,10,11,12, IO=2F8h; IRQ=7,10,11,12,
IO=3E8h; IRQ=7,10,11,12, IO=2E8h; IRQ=7,10,11,12;IO=2E0h; IRQ=7,10,11,12;
IO=2F0h; IRQ=7,10,11,12.

BIOS Setup Information

WADE-8075 / WADE-8076 User’s Manual 4-15

W83627UHG Serial Port 4 Configuration

Serial Port

Choices: Disabled, Enabled.

Change Settings

Choices: Auto. IO=2E8h; IRQ=7, IO=3F8h; IRQ=7,10,11,12, IO=2F8h; IRQ=7,10,11,12,
IO=3E8h; IRQ=7,10,11,12, IO=2E8h; IRQ=7,10,11,12;IO=2E0h; IRQ=7,10,11,12;
IO=2F0h; IRQ=7,10,11,12.

BIOS Setup Information

WADE-8075 / WADE-8076 User’s Manual 4-16

H/W Monitor

BIOS Setup Information

WADE-8075 / WADE-8076 User’s Manual 4-17

4.4 Chipset

This menu controls the advanced features of the onboard Host Bridge and South
Bridge.

Memory Frequency and Timing

BIOS Setup Information

WADE-8075 / WADE-8076 User’s Manual 4-18

DRAM Frequency

Select DRAM frequency.

Choices: Auto, 667 Mhz, 800 Mhz.

Auto DRAM Timing

Enable/Disable to configure DRAM Timing by SPD.

Choices: Disabled, Enabled.

OnChip VGA Configuration

Share Memory Size

Select Share Memory Size.

Choices: Disabled, 1 MB, 8MB.

BIOS Setup Information

WADE-8075 / WADE-8076 User’s Manual 4-19

Multi-Monitor Support

Enable the Multi-Monitor Mode.

Choices: Disabled, Enabled.

Initate Graphic Adapter

Select which graphics controller to use as the primary boot device.

Choices: IGD, PCI/IGD, PCI/PEG, PEG/IGD, PEG/PCI.

South Bridge

HD Audio Controller

Choices: Disabled, Enabled.

USB Function

Choices: Disabled, 2 USB Ports, 4 USB Ports, 6 USB Ports, 8 USB Ports, 10 USB Ports.

USB 2.0(EHCI) Support

Choices: Disabled, Enabled.

BIOS Setup Information

WADE-8075 / WADE-8076 User’s Manual 4-20

SMBus Controller

Choices: Disabled, Enabled.

GbE Controller

Choices: Disabled, Enabled.

PCI Express Port 0

Choices: Auto, Enabled, Disabled.

Port 0 IOxAPIC

Choices: Auto, Enabled, Disabled.

PCI Express Port 1

Choices: Auto, Enabled, Disabled.

Port 1 IOxAPIC

Choices: Auto, Enabled, Disabled.

PCI Express Port 2

Choices: Auto, Enabled, Disabled.

Port 2 IOxAPIC

Choices: Auto, Enabled, Disabled.

PCI Express Port 3

Choices: Auto, Enabled, Disabled.

Port 3 IOxAPIC

Choices: Auto, Enabled, Disabled.

PCI Express Port 4

Choices: Auto, Enabled, Disabled.

Port 4 IOxAPIC

Choices: Auto, Enabled, Disabled.

PCI Express Port 5

Choices: Auto, Enabled, Disabled.

Port 5 IOxAPIC

Choices: Auto, Enabled, Disabled.

PCI-Exp. High Priority Port

Select a PCI Express High Priority Port.

Choices: Disabled, Port0, Port1, Port2, Port3, Port4,Port5.

BIOS Setup Information

WADE-8075 / WADE-8076 User’s Manual 4-21

High Precision Timer

Enable or Disable the High Precision Event Timer.

Choices: Disabled, Enabled.

SLP_S4 Assertion Width

Choices: 1-2, 2-3. 3-4, 4-5 seconds.

4.5 Boot

Use this menu to specify the priority of boot devices.

Setup Prompt Timeout

Number of seconds to wait for setup activation key. 65535(0Xffff) means indefinite
waiting.

Choices: 1-65535.

BIOS Setup Information

WADE-8075 / WADE-8076 User’s Manual 4-22

Bootup Num-Lock State

This setting is to set the Num Lock status when the system is powered on. Setting to
[On] will turn on the Num Lock key when the system is powered on. Setting to [Off]
will allow users to use the arrow keys on the numeric keypad.

Choices: On, Off.

Quiet Boot

This BIOS feature determines if the BIOS should hide the normal POST messages
with the motherboard or system manufacturer's full-screen logo. When it is enabled,
the BIOS will display the full-screen logo during the boot-up sequence, hiding
normal POST messages.

When it is disabled, the BIOS will display the normal POST messages, instead of the
full-screen logo.

Please note that enabling this BIOS feature often adds 2-3 seconds of delay to the
booting sequence. This delay ensures that the logo is displayed for a sufficient
amount of time. Therefore, it is recommended that you disable this BIOS feature for a
faster boot-up time.

Choices: Disabled, Enabled.

Fast Boot

Enabling this setting will cause the BIOS power-on self test routine to skip some of its
tests during boot up for faster system boot.

Choices: Disabled, Enabled.

GateA20 Active
Choices: Upon Request, Always.

Option ROM Messages

This item is used to determine the display mode when an optional ROM is initialized
during POST. When set to [Force BIOS], the display mode used by AMI BIOS is used.
Select [Keep Current] if you want to use the display mode of optional ROM.

Choices: Force BIOS, Keep Current.

BIOS Setup Information

WADE-8075 / WADE-8076 User’s Manual 4-23

Interrupt 19 Capture

Interrupt 19 is the software interrupt that handles the boot disk function. When
enabled, this BIOS feature allows the ROM BIOS of these host adaptors to "capture"
Interrupt 19 during the boot process so that drives attached to these adaptors can
function as bootable disks. In addition, it allows you to gain access to the host
adaptor's ROM setup utility, if one is available.

When disabled, the ROM BIOS of these host adaptors will not be able to "capture"
Interrupt 19. Therefore, you will not be able to boot operating systems from any
bootable disks attached to these host adaptors. Nor will you be able to gain access to
their ROM setup utilities.

Choices: Disabled, Enabled.

4.6 Security

Use this menu to set supervisor and user passwords.

BIOS Setup Information

WADE-8075 / WADE-8076 User’s Manual 4-24

Administrator Password

Administrator Password controls access to the BIOS Setup utility. These settings
allow you to set or change the supervisor password.

User Password

User Password controls access to the system at boot. These settings allow you to set or
change the user password.

4.7 Save & Exit

This menu allows you to load the BIOS default values or factory default settings into

the BIOS and exit the BIOS setup utility with or without changes.

Save Changes and Reset

Exit System Setup and save your changes to CMOS. Pressing <Enter> on this item

asks for confirmation: Save configuration and reset.

Discard Changes and Exit

Abandon all changes and exit the Setup Utility.

BIOS Setup Information

WADE-8075 / WADE-8076 User’s Manual 4-25

Restore Defaults

Use this menu to load the default values set by the SBC manufacturer specifically for
optimal performance of the SBC.

Save as User Defaults

Save all changes and considers as User’s default.

Restore User Defaults

Restore the setting according to User’s default.

Troubleshooting

WADE-8075 / WADE-8076 User’s Manual 5-1

Chapter 5

Troubleshooting

This chapter provides a few useful tips to quickly get WADE-8075 running with
success. As basic hardware installation has been addressed in Chapter 2, this chapter
will primarily focus on system integration issues, in terms of BIOS setting, and OS
diagnostics.

5.1 Hardware Quick Installation

ATX Power Setting
DC 12V Power Input

WADE-8075 supports DC12V input only.

Troubleshooting

WADE-8075 / WADE-8076 User’s Manual 5-2

5.2 BIOS Setting

It is assumed that users have correctly adopted modules and connected all the
devices cables required before turning on ATX power. CPU, CPU Fan, 204-pin DDR3
SDRAM, keyboard, mouse, floppy drive, SATA hard disk , device power cables, ATX
accessories are good examples that deserve attention. With no assurance of properly
and correctly accommodating these modules and devices, it is very possible to
encounter system failures that result in malfunction of any device.

To make sure that you have a successful start with WADE-8075, it is recommended,
when going with the boot-up sequence, to hit “DEL” key and enter the BIOS setup
menu to tune up a stable BIOS configuration so that you can wake up your system far
well.

Loading the default optimal setting
When prompted with the main setup menu, please scroll down to “Restore
Defaults”, press “Enter” and “Y” to load in default optimal BIOS setup. This will

force your BIOS setting back to the initial factory configuration. It is recommended to
do this so you can be sure the system is running with the BIOS setting that Portwell
has highly endorsed. As a matter of fact, users can load the default BIOS setting any
time when system appears to be unstable in boot up sequence.

Improper disable operation

There are too many occasions where users disable a certain device/feature in one
application through BIOS setting. These variables may not be set back to the original
values when needed. These devices/features will certainly fail to be detected.

When the above conditions happen, it is strongly recommended to check the BIOS
settings. Make sure certain items are set as they should be. These include the COM1/
COM2 ports, USB ports, external cache, on-board VGA and Ethernet.

It is also very common that users would like to disable a certain device/port to
release IRQ resource. A few good examples are

Disable COM1 serial port to release IRQ #4
Disable COM2 serial port to release IRQ #3

Etc…

Troubleshooting

WADE-8075 / WADE-8076 User’s Manual 5-3

A quick review of the basic IRQ mapping is given below for your reference.

IRQ# Description

IRQ #0

System Timer

IRQ #1

Keyboard Event

IRQ #2

Usable IRQ

IRQ #3

COM2

IRQ #4

COM1

IRQ #5

Usable IRQ

IRQ #6

Diskette Event

IRQ #7

Usable IRQ

IRQ #8

Real-Time Clock

IRQ #9

Usable IRQ

IRQ #10

Usable IRQ

IRQ #11

Usable IRQ

IRQ #12

IBM Mouse Event

IRQ #13

Coprocessor Error

IRQ #14

Hard Disk Event

IRQ #15

Usable IRQ

It is then very easy to find out which IRQ resource is ready for additional peripherals.
If IRQ resource is not enough, please disable some devices listed above to release
further IRQ numbers.

5.3 FAQ

Installation Problem
Question: I forget my password of system BIOS, what am I supposed to do?

Answer: You can simply short 2-3 pins on JP4 to clean your password.

Note:
Please visit our technical web site at
http://www.portwell.com.tw
For additional technical information, which is not covered in this manual, you can
mail to tsd@mail.portwell.com.tw or you can also send mail to our sales, they will be
very delighted to forward them to us.

Troubleshooting

WADE-8075 / WADE-8076 User’s Manual 5-4

System Memory Address Map

Each On-board device in the system is assigned a set of memory addresses, which
also can be identical of the device. The following table lists the system memory
address used.

Memory Area Size Description

0000-003F 1K Interrupt Area

0040-004F

0.3K BIOS Data Area

0050-006F

0.5K System Data

0070-0E2E

54K DOS

0E2F-0F6B

5K Program Area

0F6C-9EBF

573K

【Available】

First Meg -- Conventional memory end at 635K --

9EC0-9FFF

5K Extended BIOS Area

A000-AFFF

64K VGA Graphics

B000-B7FF

32K Unused

B800-BFFF

32K VGA Text

C000-CD9F

54K Video ROM

CDA0-EFFF

137K Unused

F000-FFFF

64K System ROM

Troubleshooting

WADE-8075 / WADE-8076 User’s Manual 5-5

Interrupt Request Lines (IRQ)

Peripheral devices can use interrupt request lines to notify CPU for the service
required. The following table shows the IRQ used by the devices on board.

IRQ# Current Use Default Use

IRQ 0

System ROM System Timer

IRQ 1

System ROM Keyboard Event

IRQ 2

【Unassigned】

Usable IRQ

IRQ 3

System ROM COM2

IRQ 4

System ROM COM1

IRQ 5

【Unassigned】

Usable IRQ

IRQ 6

System ROM Diskette Event

IRQ 7

【Unassigned】

Usable IRQ

IRQ 8

System ROM Real-Time Clock

IRQ 9

【Unassigned】

Usable IRQ

IRQ 10

【Unassigned】

Usable IRQ

IRQ 11

【Unassigned】

Usable IRQ

IRQ 12

System ROM IBM Mouse Event

IRQ 13

System ROM Coprocessor Error

IRQ 14

System ROM Hard Disk Event

IRQ 15

【Unassigned】

Usable IRQ