Advantech SOM-A2558 SOM Connector vendor table Vendor, CSB Mating Connector table Vendor

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User’s Manual for Advantech SOM-A2558 series module V1.00

SOM Connector vendor table

Connector

vendor

PN

AMI bus (X1)

Matsushita electric works,

AXK600335

 

LTD.

 

SOM-R200 (X2)

Standard Golden finger

-

 

200-pin

 

Feature extension bus

Matsushita electric works,

AXK600335

(X3)

LTD.

 

JP1

PXA255 JTAG pin header

-

JP2

SOM CPLD JTAG port

-

PS.JP1 & JP2 are 2.00 mm 6*1 pin-headers.

CSB Mating Connector table

Connector

vendor

PN

AMI bus (X1)

Matsushita electric works,

AXK500135

 

LTD.

 

SODIMM-200 (X2)

QUASAR SYSTEM INC.

CA0075-200N31

Feature extension bus

Matsushita electric works,

AXK500135

(X3)

LTD.

 

In advantech RISC SOM-A200 ultra low power series (SOM-A2552,

SOM-A2558 and SOM-A2558) all follow the same pin definition in X1,X2 and X3. So, users could design their own CSB to be compatible with all advantech RISC ultra low power series SOM easily. In this way, users’CSB will have powerful upgrade capability & option choice.

X1: AMI bus

AMI bus connector is PXA255 ARM bus. It includes complete system address lines, data lines, GPIOs (for interrupt source) and Chip select pins (nCS). Users could use this bus to extend any other IC controller on CSB to implement the function which SOM modules not provide. In order to keep the system bus signals well, every address lines and data lines are driven by buffers. Buffers’signals direction controls are implemented by CPLD.

X2: SODIMM-200 connector

Most I/O functions fog in X2. X2 includes PCMCIA/CF, T/S, Audio, system reset control, SOM system power input pins, I2C, USB host, USB client, RS-232 ports, RS-485 port, LCD out and PS/2 ports. Every I/O functions will be described in the following content in detail.

X3: Feature Extension connector

Advantech SOM-A200 series products use dual-chip or triple-chip design concepts. The companion chip’s I/O function will come out through the X3. In SOM-A2558 series, PCI, SD/MMC I/F is included in X3.

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Contents User’s Manual Copyright AcknowledgementsRevision History Version Date Reason SOM-A2558 series Design highlight SOM-A2558 series Architecture 1.1 IntroductionSOM-A200 architecture SOM-A2558 benefit SOM-A2558 series ApplicationTesting Set SOM-A2558 series design-in packageSOM-A255x series support CD includes Software Development ToolsRisc CE-Builder LCD-A057-STQ1-0 Optional itemLCD-A064-TTV1-0 Optional item LCD-A104-TTS1-0 Optional itemSOM-A2558 Block diagram SoC Intel XScale PXA255 introduction Enhance I/O chip Advantech EVA-C210 introductionSystem Memory CpldSystem Specifications SOM-A2558 standard product specification tableFCC/CE Mechanical Specification Power System Requirement Power ConsumptionSymbol Description Min Typ Max Input DC Operating ConditionsConnector Locations Assignments and DescriptionsSOM Connector vendor table Vendor CSB Mating Connector table VendorX2 SODIMM-200 connector X3 Feature Extension connectorPin Definition SODIMM-200 Pin Out TableJP1 PXA255 Jtag pin header Pin typeSASKTA15 SASKTA12SASKTA13 SASKTA10GND SASKTA25AC97EAPD AC97LINEINSASKT0VCC Pwren BatvccNDCIN SysvccSmbusdat UsbcpBuzzerout USBLINK5VUART3RTS UART2CTSUART3TXD UART2DTRVddena VeeenaVbkena USBN1UART4RXD UART5RTSUART4TXD UART5TXDFlmvsync CrtsdaLphsync ADDR15 ADDR14ADDR13 ADDR12ADDR20 ADDR22Bufrdy DATA15Bufsdclk BufsdckeADDR0 ADDR1DATA16 DATA17DATA18 DATA19Displayir PXAGP7LAN1IRQ UsbirqPXAGP84 PXAGP83DMAREQ1 Mbreq DMAACK1Mbgnt PCIAD0PCIAD2 PCIAD3PCIAD4 PCIAD5PCIAD16 PCIAD17PCIAD18 PCIAD19System Bus 2 COM USB 1.1 HostUSB 1.1 client 5 T/SAudio AC’97 Codec on board 7 SD/MMCCRT-out System Reset Interface Zoom Video ZV portPower-input Back-up power inputBuzzer Control Interface System Management Bus SM Bus interfaceData SOM-A2552 series don’t support PCI I/F

SOM-A2558 specifications

The Advantech SOM-A2558 represents a significant advancement in system-on-module (SOM) technology, designed to meet the needs of demanding applications in industries such as industrial automation, transportation, and smart cities. Featuring the Intel Apollo Lake processor, specifically the dual-core or quad-core options, the SOM-A2558 delivers an optimal blend of performance and efficiency.

At the core of the SOM-A2558 is the Intel Atom E3950 or E3940 processors, which enable robust processing capabilities while maintaining low power consumption. This is crucial for embedded systems that require continuous operation in energy-sensitive environments. The module supports up to 8GB of DDR4 memory, enhancing its multitasking abilities and enabling it to handle complex applications with ease.

One of the standout features of the SOM-A2558 is its extensive array of I/O options, including USB 3.0, UART, I2C, SPI, and GPIO. This versatility allows for seamless integration with various peripherals and sensors, making it ideal for IoT applications and industrial automation systems. The SOM also supports dual Gigabit Ethernet ports, providing high-speed network connectivity essential for real-time data transfer and communications.

In terms of graphics, the SOM-A2558 supports Intel HD Graphics, which enhances the visual performance for display applications. With integrated hardware-accelerated video decoding and support for 4K resolution, it is suitable for applications such as digital signage and multimedia processing.

Advantech has designed the SOM-A2558 for durability and reliability, featuring a wide operating temperature range from -40°C to 85°C, making it suitable for harsh environments. Additionally, the module's compact form factor ensures easy integration into various system designs, allowing developers to create tailored solutions without significant space constraints.

The SOM-A2558 also supports multiple storage options, including eMMC, SATA III, and M.2 interfaces, which provide flexibility for different storage needs and configurations. Its support for TPM 2.0 enhances security, a vital aspect for applications handling sensitive data.

In summary, the Advantech SOM-A2558 combines cutting-edge technology, extensive connectivity options, and robust performance to facilitate the development of innovative solutions across various sectors. Its features make it an excellent choice for developers looking to create reliable and efficient embedded systems.