Intel MB900-R user manual Connector Locations on MB900 -R

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INSTALLATIONS

Connector Locations on MB900 -R

 

ATX1: 24-pin ATX Power Connector

13

ATX2: ATX 12V Power Connector

13

MB900-R Edge Connectors

13

CN1: PS/2 Keyboard and PS/2 Mouse Connectors

14

CN2, J2, J7, J8: COM1/2/3/4 Serial Ports

14

CN3: Parallel Port Connector

15

CN4: VGA CRT Connector

15

CN5: Audio Connector

16

CN6: 10/100 RJ-45 and USB0/1 Connector

16

CN7: GbE RJ-45 and USB2/3 Connector

16

CN11, CN10: SATA0/1 Connector

16

J1: Digital I/O Connector (4 in, 4 out)

17

J3: Audio Front Header

17

J5: USB4/USB5 Connector

17

J6: USB6/USB7 Connector

17

J9: Wake On LAN Connector

18

J10: System Function Connector

18

J11: IrDA Connector

18

FAN1: CPU Fan Power Connector

18

FAN2, FAN3, FAN4: Fan Power Connectors

19

IDE1: Primary IDE Connectors

19

PCIE_1: x16 PCI Express Slot

19

PCIE_2: x1 PCI Express Slot

19

PCI1, PCI5: PCI Slots

19

CN12: CF Socket

19

J12: SMBus

19

 

 

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MB900-R User’s Manual

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Contents USER’S Manual VersionAcknowledgments Table of Contents This page is intentionally left blank Checklist IntroductionMB900-R Specifications CPU FSBBoard Dimensions Installations Installing the CPU ATX Power Installation Installing the MemorySetting the Jumpers Jumper Locations on MB900-R JP6 Clear Cmos Contents JP4 IDE DMA Mode SettingJP1, JP2, JP3 RS232/422/485 COM2 Selection JP7 CF Socket Master / Slave Selection Connectors on MB900-R Connector Locations on MB900 -R ATX1 24-pin ATX Power Connector ATX2 ATX 12V Power ConnectorCN1 PS/2 Keyboard and PS/2 Mouse Connectors CN2, J2, J7, J8 COM1/2/3/4 Serial PortsCN3 Parallel Port Connector CN4 VGA CRT ConnectorTX+ J1 Digital I/O Connector 4 in, 4 out J5 USB4/USB5 ConnectorJ6 USB6/USB7 Connector J3 Audio Front HeaderJ9 Wake On LAN Connector J10 System Function ConnectorJ11 IrDA Connector FAN1 CPU Fan Power ConnectorFAN2, FAN3, FAN4 Fan Power Connectors IDE1 Primary IDE ConnectorsWatchdog Timer Configuration Sample CodeSetW627EHFLD0x08 UnlockW627EHF OutportbW627EHFINDEXPORT, REG OutportbW627EHFDATAPORT, Data LockW627EHF Switch to logic device Bios Setup Bios Introduction Bios SetupPhoenix AwardBIOS Cmos Setup Utility Standard Cmos Setup DateIDE Channel Master/Slave TimeDrive a / Drive B Video Halt OnAdvanced Bios Features CPU FeatureHard Disk Boot Priority Virus WarningQuick Power On Self Test First/Second/Third Boot DeviceBoot Other Device Boot Up Floppy SeekTypematic Delay Msec Apic ModeSecurity Option MPS Version Control for OSAdvanced Chipset Features Dram RAS# to CAS# DelayDram Timing Selectable CAS Latency TimePrecharge Delay tRAS System Bios CacheableVideo Bios Cacheable On-Chip VGA SettingIntegrated Peripherals OnChip IDE DeviceIDE HDD Block Mode IDE DMA Transfer AccessOn-chip Primary PCI IDE Enabled OnChip Primary/Secondary PCI IDEOn-Chip Serial ATA Setting Power on FunctionKB Power on Password Hot Key Power onOnboard Serial Port Uart Mode SelectPwron After PWR-Fail Power Management Setup RUN Vgabios if S3 ResumePower Management Acpi FunctionSuspend Mode HDD Power DownPower On by Ring Resume by AlarmReload Global Timer Events PNP/PCI Configurations Temperatures/Voltages CPU Warning TemperaturePC Health Status Frequency/Voltage Control CPU Clock RatioAuto Detect PCI Clk Spread Spectrum ModulatedLoad Fail-Safe Defaults Load Optimized DefaultsSet Supervisor Password Save & Exit SetupDrivers Installation Intel 945G Chipset Software Installation Utility Drivers Installation Intel 945G Chipset Graphics Driver Realtek Codec Audio Driver Installation Marvell 88E8052 LAN Drivers Installation Intel PRO LAN Drivers Installation This page is intentionally left blank Appendix O Port Address MapInterrupt Request Lines IRQ Level Function

MB900-R specifications

The Intel MB900-R is an advanced embedded microcontroller designed for a variety of applications that require high performance, low power consumption, and robust connectivity options. Specifically built to cater to the needs of industrial automation, motor control, and IoT devices, the MB900-R series boasts a range of features that enhance its versatility and usability.

One of the standout characteristics of the MB900-R is its powerful multi-core architecture. It often integrates several cores, enabling it to handle simultaneous tasks efficiently. This feature is particularly beneficial in applications that require real-time processing and quick responsiveness.

The device is built on Intel's modern manufacturing processes, which ensure exceptional energy efficiency. This makes the MB900-R suitable for battery-operated devices and applications where power conservation is critical. Its low thermal output contributes to reliability, even under heavy loads, which is essential for long-term deployment in industrial environments.

In terms of connectivity, the MB900-R offers a variety of interfaces, including SPI, I2C, UART, and Ethernet. Such capabilities facilitate seamless integration with numerous sensors and other peripherals, making it highly adaptable to different use cases. Furthermore, the microcontroller supports various wireless communication protocols, such as Bluetooth and Wi-Fi, enabling developers to create connected applications for the Internet of Things.

Moreover, the MB900-R series includes advanced security features, which are increasingly important in today’s connected landscape. With built-in encryption and secure boot processes, the device ensures data integrity and protection against unauthorized access, catering to sectors where data security is paramount.

The robust toolchain and software compatibility provided by Intel makes it easier for developers to create, debug, and deploy applications quickly. With support for multiple programming languages and development environments, the MB900-R allows for flexibility in coding, ensuring that developers can utilize the best tools for their specific needs.

Overall, the Intel MB900-R microcontroller exemplifies cutting-edge design and technology in embedded systems, making it an ideal choice for a wide range of high-performance, low-power applications across industries, including automotive, industrial, and consumer electronics. Its efficient architecture, extensive connectivity options, security features, and developer-friendly ecosystem position it as a vital component in the smart devices of tomorrow.