Справочник Пользователя для Aopen mx3w-ov
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Chapter 1
Overview
MX3W is a new generation Socket 370 based system board that utilizes Intel
810 AGPset on Micro ATX PCI/ISA platform. This AGPset is designed for
Celeron PPGA CPU, and supports new architectures such as high speed AGP
graphic port, PC100 SDRAM, AMR slot, Ultra DMA 33/66, Bus master IDE,
PCI 2.2 and USB port. It has two Dual in-line Memory Module (DIMM) slots
that allow to install PC100 SDRAMs and expand up to a maximum of 512MB.
Also, MX3W uses 4M bit Flash ROM BIOS to reserve for future new functions.
810 AGPset on Micro ATX PCI/ISA platform. This AGPset is designed for
Celeron PPGA CPU, and supports new architectures such as high speed AGP
graphic port, PC100 SDRAM, AMR slot, Ultra DMA 33/66, Bus master IDE,
PCI 2.2 and USB port. It has two Dual in-line Memory Module (DIMM) slots
that allow to install PC100 SDRAMs and expand up to a maximum of 512MB.
Also, MX3W uses 4M bit Flash ROM BIOS to reserve for future new functions.
In addition to the above features, MX3W also implements many special
features as follows.
features as follows.
Jumper-less Design Celeron PPGA VID signal and SMbus clock generator
provide CPU voltage auto-detection and allows the user to set the CPU
frequency through the CMOS setup, therefore no jumpers or switches are used.
The correct CPU information is saved into the EEPROM. With these
technologies, the disadvantages of the Pentium based jumper-less designs are
eliminated. There will be no worry of wrong CPU voltage detection and no need
to re-open the housing in case of CMOS battery loss. The only jumper left is to
clear the CMOS, which is a safety hook if you forget the password.
provide CPU voltage auto-detection and allows the user to set the CPU
frequency through the CMOS setup, therefore no jumpers or switches are used.
The correct CPU information is saved into the EEPROM. With these
technologies, the disadvantages of the Pentium based jumper-less designs are
eliminated. There will be no worry of wrong CPU voltage detection and no need
to re-open the housing in case of CMOS battery loss. The only jumper left is to
clear the CMOS, which is a safety hook if you forget the password.
Battery-less This motherboard implements EEPROM and a special circuit
(patent applied) that allows you to save your current CPU and CMOS Setup
configurations without the need of a battery. The RTC (real time clock) can also
keep running as long as the power cord is plugged. If you lose your CMOS data
by accident, you can just reload the CMOS configurations from EEPROM and
the system will recover as usual.
(patent applied) that allows you to save your current CPU and CMOS Setup
configurations without the need of a battery. The RTC (real time clock) can also
keep running as long as the power cord is plugged. If you lose your CMOS data
by accident, you can just reload the CMOS configurations from EEPROM and
the system will recover as usual.
ACPI Suspend to DRAM You can resume your original work directly from
DRAM without going through the Win98 booting process and run your
application again. Suspend to DRAM saves your current work into the system
memory.
DRAM without going through the Win98 booting process and run your
application again. Suspend to DRAM saves your current work into the system
memory.
ACPI Suspend to Hard Drive The conventional "Suspend to Hard Drive"
function is a private design of AOpen motherboards, the requirement to run it is
a BIOS revision and correct chipset that supports this function. However,
nowadays "Suspend to Hard Drive" has been become widely known as the "S4
function is a private design of AOpen motherboards, the requirement to run it is
a BIOS revision and correct chipset that supports this function. However,
nowadays "Suspend to Hard Drive" has been become widely known as the "S4