Intel MB899 JP2 CPU FSB Selectionreserved, JP5 LCD Panel Power Selection, JP7 Clear Cmos Setting

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INSTALLATIONS

JP2: CPU FSB Selection(reserved)

JP2

 

CPU FSB

533MHz

667MHz

JP5: LCD Panel Power Selection

JP3

 

LCD Panel Power

3.3V

5V

JP6: 1394 EPROM Write Selection

JP6

 

1394 EPROM

For EPROM Write

 

Normal

JP7: Clear CMOS Setting

 

JP4

Setting

 

Normal

 

Clear CMOS

JP8: CompactFlash Slave/Master Selection

JP8

 

CF Setting

Master

Slave

[

10

MB899 User’s Manual

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Contents Intel CoreTM 2 Duo CoreTM Duo/ Solo 945GM Version 1.0AAcknowledgments Table of Contents MB899 Mini ITX Motherboard Introduction Product DescriptionChecklist MB899 Specifications CPU FSBBoard Dimensions Installations Installing the CPU Installing the Memory LockSetting the Jumpers Jumper Locations on MB899 JP2 CPU FSB Selectionreserved JP5 LCD Panel Power SelectionJP7 Clear Cmos Setting JP6 1394 Eprom Write SelectionConnectors on MB899 Connector Locations on MB899 CN1 PS/2 Keyboard and PS/2 Mouse Connectors CN2, CN3 COM1 and VGA ConnectorFAN2 CPU Fan Power Connector IDE1 IDE Connector FDD1 Floppy Drive ConnectorJ2 Digital I/O J14 ATX Power Supply ConnectorJ1 IrDA Connector J3 System Function Connector Speaker Pins 1Reset Switch Pins 9 J7 COM2 Serial Port J8 Wake On LAN ConnectorJ6 USB5/6 Port Pin Header J11 LCD Backlight Connector J20 Compact Flash Connector PCI1 PCI Slot supports 2 Master J16 1394 ConnectorJ17 Front Audio Connector J18 PCI-Ex1 Slot J19 CD-In Pin HeaderCON1 Sdvo Port Connector SDVOCCLK+ SdvocclkHeaders and Connectors on MB899 Daughter Cards RED ID391 J2 DVI Connector This page is intentionally left blank Bios Setup Bios Introduction Bios SetupPhoenix AwardBIOS Cmos Setup Utility Standard Cmos Setup DateDrive a / Drive B TimeIDE Channel Master/Slave Video Halt OnHard Disk Boot Priority Advanced Bios FeaturesCPU Feature Virus WarningBoot Other Device Quick Power On Self TestFirst/Second/Third Boot Device Boot Up Floppy SeekSecurity Option Typematic Delay MsecApic Mode MPS Version Control for OSDram Timing Selectable Advanced Chipset FeaturesDram RAS# to CAS# Delay CAS Latency TimeVideo Bios Cacheable Precharge Delay tRASSystem Bios Cacheable On-Chip VGA SettingOnboard PCI-E LAN Panel ScalingPanel Number LAN PXE Option ROMIntegrated Peripherals OnChip IDE DeviceOnChip Primary/Secondary PCI IDE IDE HDD Block ModeOn-chip Primary PCI IDE Enabled IDE Primary/Secondary Master/Slave PIOKB Power on Password On-Chip Serial ATA SettingPower on Function Hot Key Power onPwron After PWR-Fail Uart Mode SelectOnboard Serial Port Power Management Power Management SetupRUN Vgabios if S3 Resume Acpi FunctionPower On by Ring Suspend ModeHDD Power Down Video Off MethodResume by Alarm Reload Global Timer EventsPNP/PCI Configurations PC Health Status Spread Spectrum Modulated Frequency/Voltage ControlAuto Detect PCI Clk Set Supervisor Password Load Fail-Safe DefaultsLoad Optimized Defaults Save & Exit SetupThis page is intentionally left blank Drivers Installation Intel Chipset Software Installation Utility Click IntelR Chipset Software Installation UtilityDrivers Installation VGA Drivers Installation Click IntelR I945GMChipset Family Graphics DriverImportant Note AC97 Codec Audio Driver Installation Click Realtek AC97 Codec Audio DriverLAN Drivers Installation Click Install Base Software to continueDriver Installation Appendix O Port Address MapInterrupt Request Lines IRQ Level FunctionWatchdog Timer Configuration Sample CodeAppendix OutportbW627EHFINDEXPORT, W627EHFLOCK W627EHFLOCK

MB899 specifications

The Intel MB899 is a sophisticated microcontroller unit designed primarily for automotive applications and industrial control systems. This versatile device is a part of Intel's broader strategy to provide robust and scalable solutions that cater to the demanding requirements of modern electronic systems. Featuring a mix of performance, power efficiency, and comprehensive connectivity options, the MB899 is well-suited for a variety of applications.

One of the standout features of the Intel MB899 is its powerful 32-bit RISC architecture, which allows for high-speed processing and efficient execution of complex algorithms. This architecture ensures that the microcontroller can handle intensive tasks with ease, making it ideal for applications such as engine control units and advanced driver-assistance systems.

The MB899 is equipped with an array of integrated peripherals, including ADCs (Analog-to-Digital Converters), multiple timers, and interfaces like CAN (Controller Area Network), LIN (Local Interconnect Network), and SPI (Serial Peripheral Interface). This extensive set of functionalities enables seamless communication and control in automotive environments, where real-time data handling is crucial.

Energy efficiency is a significant consideration in the design of the MB899. The microcontroller incorporates power-saving features that help reduce overall power consumption, making it suitable for battery-operated systems and applications where energy efficiency is critical. These features are especially important in vehicles, where reducing power draw can lead to improved fuel efficiency.

Another important characteristic of the Intel MB899 is its reliability and ruggedness. Designed to endure harsh environments, the microcontroller can operate in a wide temperature range and withstand vibrations and electromagnetic interference. This robustness makes it suitable for use in critical applications, where failure is not an option.

Moreover, the MB899 benefits from Intel’s commitment to security. With integrated security features, the microcontroller can support secure boot processes and protect against unauthorized access, thus ensuring the integrity of the applications running on it. This aspect is increasingly important in the context of connected vehicles and IoT devices, which are frequently targeted by cyber threats.

Overall, the Intel MB899 microcontroller stands out for its powerful performance, extensive connectivity options, energy efficiency, reliability, and security features. These traits make it an exceptional choice for automotive and industrial applications, reinforcing Intel's position in the competitive landscape of microcontroller technology.