SOM-4463 Intel(R) AtomTM Processor N450/D510 ETX CPU Module Features Embedded Intel(R) AtomTM Processor N450 1.66 GHz single core/ D510 1.66 GHz dual-core + ICH8M Intel Gen 3.5 DX9, MPEG2 Decode in HW, multiple display: VGA, 18-bit LVDS Supports DDR2 SODIMM up to 2 GB Supports 4 PCI, 2 SATAII, 4 USB 2.0, ISA Supports embedded software APIs and Utilities Software APIs: Watchdog I2C SMBus H/W Monitor Brightness GPIO Backlight On/Off Utilities: BIOS flash Monitoring Flash Lock Embedded Security ID Specifications Form Factor CPU Processor System Memory Display Ethernet System Chipset BIOS Technology Max. Capacity Socket Chipset Graphic Engine LVDS VGA DVI TV Out SDVO Dual Display Chipset Speed WatchDog Timer Expansion I/O Power Environment Mechanical PATA SATA USB Audio GPIO COM FDD/LPT Power Type Power Supply Voltage Power Consumption (Idle) Power Consumption (Max, test with BurnIn Test) Operating Temperature Operating Humidity Dimensions ETX 3.0 Intel Atom N450 1.67 GHz (single core), 512 KB L2 Cache Intel Atom D510 1.67 GHz (dual core), 1 MB L2 Cache ICH8M AMI 16 Mbit Flash BIOS DDR2 667 MHz Up to 2 GB 1 x 200-pin SODIMM sockets Intel Atom N450 or Intel Atom D510 Intel Gen 3.5 DX9, MPEG2 Decode in HW 18-bit single channel LVDS Intel Atom N450 Single Core up to 1400 x 1050 (SXGA) Intel Atom D510 Dual Core up to 2048 x 1536 CRT + LVDS Realtek 8103EL 10/100 Mbps Ethernet 10/100 Mbps 256 level timer interval, from 0 to 255 sec or min setup by software, jumperless selection, generates system reset ISA, 4 PCI masters 1 x EIDE (UDMA 100) 2 x SATAII (300 MB/s) 4 x USB 2.0 ALC888 Audio 1-bit GPIO, 2-bit GPE 2 x COM Ports 1 x FDD or LPT ATX, AT +5 V (+5VSB is required for ATX power scheme) 4463N (1GB DDRII 667) +5 V @ 1.31 A 4463D (1GB DDRII 667) +5 V @ 1.87 A 4463N (1GB DDRII 667) +5 V @ 1.84 A 4463D (1GB DDRII 667) +5 V @ 2.58 A 0 ~ 60 C (32 ~ 140 F) 0% ~ 90% relative humidity, non-condensing 95 x 114 mm (3.74" x 4.5") Computer On Modules All product specifications are subject to change without notice Last updated : 30-Aug-2013 SOM-4463 Board Diagram Intel Atom N450/ D510 1.67 GHz FCBGA8 559P 22x22 mm Connector X1 Line-in Line-out Mic Audio Analog RGB Single LVDS Channel IrDA share with COM2 HD Codec ALC888 LPT / FDD Super I/O W83627DHG DMI Azalia COM x 2 Connector X3 One Channel DDR2 200pin SODIMM 667 MHz up to 2GB KB/MS USB 2.0 x 4 LPC BUS Intel ICH8M (82801HBM) mBGA676 31x31 mm Connector X2 PCI to ISA IT8888G ISA BUS PCIE X 1 LAN (RTL8103EL) Ethernet PRIMARY IDE SPI Bus SPI BIOS PCIE Connector 4 PCIE X1 Connector X4 PCI BUS SMBus SATA 7P Connector x2 SATA II x 2 Ordering Information Part No. CPU SOM-4463N-S6A1E SOM-4463D-S6A1E SOM-4463DZ-S6A1E SOM-4463DZ2-S6A1E SOM-4463NZ-S6A1E SOM-4463NZ2-S6A1E Atom N450 Atom D510 Atom D510 Atom D510 Atom N450 Atom N450 L2 Cache 512 KB 1 MB 1 MB 1 MB 512 KB 512 KB Chipset LVDS VGA ICH8M ICH8M ICH8M ICH8M ICH8M ICH8M 18-bit 18-bit 18-bit 18-bit 18-bit 18-bit Yes Yes Yes Yes Yes Yes Development Board Part No. SOM-DB4700-00A1E Description Development Board for ETX Rev.A1 1960049773T001 Description SOM-4463 CPU Module Utility CD Heatspreader Heatspreader for wide temperature product HD Audio Yes Yes Yes Yes Yes Yes PCI 4 4 4 4 4 4 USB 2.0 4 4 4 4 4 4 SATA SMBus 2 x SATAII 2 x SATAII 2 x SATAII 2 x SATAII 2 x SATAII 2 x SATAII 1 1 1 1 1 1 ATX Power Yes Yes Yes Yes Yes Yes AT Power Yes Yes Yes Yes Yes Yes Thermal Solution Passive Active Active Active Passive Passive Operating Temp. 0 ~ 60 C 0 ~ 60 C -20 ~ 80 C -40 ~ 85 C -20 ~ 80 C -40 ~ 85 C Optional Accessories Part No. 1960012091T00S 1750001980 Packing List Part No. 1960047537T001 10/100 LAN 1 1 1 1 1 1 Quantity 1 1 1 1 Description Semi-Heatsink 114 x 96 x 15 mm Semi-Cooler 114 x 96 x 15 mm Embedded OS OS Part No. WinCE 2070007811 Win XPE QNX 2070007912 Description CE 6.0 Pro Intel (852/855/915/945) 2COM V1.2 ENG XPE WES2009 Intel-Uniprocess V4.0 MUI2 V6.4.1 Online Download www.advantech.com/products Value-Added Software Services Software API: An interface that defines the ways by which an application program may request services from libraries and/or operating systems. Provides not only the underlying drivers required but also a rich set of user-friendly, intelligent and integrated interfaces, which speeds development, enhances security and offers add-on value for Advantech platforms. It plays the role of catalyst between developer and solution, and makes Advantech embedded platforms easier and simpler to adopt and operate with customer applications. Software APIs Control GPIO SMBus I2C Monitor General Purpose Input/Output is a flexible parallel interface that allows a variety of custom connections. It allows users to monitor the level of signal input or set the output status to switch on/off a device. Our API also provides Programmable GPIO, which allows developers to dynamically set the GPIO input or output status. SMBus is the System Management Bus defined by Intel(R) Corporation in 1995. It is used in personal computers and servers for low-speed system management communications. The SMBus API allows a developer to interface a embedded system environment and transfer serial messages using the SMBus protocols, allowing multiple simultaneous device control. I2C is a bi-directional two wire bus that was developed by Philips for use in their televisions in the 1980s. The I2C API allows a developer to interface with an embedded system environment and transfer serial messages using the I2C protocols, allowing multiple simultaneous device control. Display Watchdog Hardware Monitor Hardware Control A watchdog timer (WDT) is a device that performs a specific operation after a certain period of time if something goes wrong and the system does not recover on its own. A watchdog timer can be programmed to perform a warm boot (restarting the system) after a certain number of seconds. The Hardware Monitor (HWM) API is a system health supervision API that inspects certain condition indexes, such as fan speed, temperature and voltage. The Hardware Control API allows developers to set the PWM (Pulse Width Modulation) value to adjust fan speed or other devices; it can also be used to adjust the LCD brightness. Power Saving Make use of Intel SpeedStep technology to reduce power power consumption. The system will automatically adjust the CPU Speed depending on system loading. The Brightness Control API allows a developer to interface with an embedded device to easily control brightness. Brightness Control CPU Speed The Backlight API allows a developer to control the backlight (screen) on/off in an embedded device. System Throttling Backlight Refers to a series of methods for reducing power consumption in computers by lowering the clock frequency. These APIs allow the user to lower the clock from 87.5% to 12.5%. Software Utilities BIOS Flash The BIOS Flash utility allows customers to update the flash ROM BIOS version, or use it to back up current BIOS by copying it from the flash chip to a file on customers' disk. The BIOS Flash utility also provides a command line version and API for fast implementation into customized applications. Embedded Security ID The embedded application is the most important property of a system integrator. It contains valuable intellectual property, design knowledge and innovation, but it is easily copied! The Embedded Security ID utility provides reliable security functions for customers to secure their application data within embedded BIOS. Monitoring The Monitoring utility allows the customer to monitor system health, including voltage, CPU and system temperature and fan speed. These items are important to a device; if critical errors happen and are not solved immediately, permanent damage may be caused. All product specifications are subject to change without notice eSOS The eSOS is a small OS stored in BIOS ROM. It will boot up in case of a main OS crash. It will diagnose the hardware status, and then send an e-mail to a designated administrator. The eSOS also provides remote connection: Telnet server and FTP server, allowing the administrator to rescue the system. Flash Lock Flash Lock is a mechanism that binds the board and CF card (SQFlash) together. The user can "Lock" SQFlash via the Flash Lock function and "Unlock" it via BIOS while booting. A locked SQFlash cannot be read by any card reader or boot from other platforms without a BIOS with the "Unlock" feature. Last updated : 30-Aug-2013