Intel IXD1110 manual Intel IXF1110 CPU Daughter Card

Page 13

IXD1110 Demo Board

4.0CPU Daughter Card

The IXD1110 demo board uses the Embedded Planet* RPX Classic LF (CLLF_BW31), a single- board computer that uses the Motorola* MPC860 CPU. This card attaches to the underside of the board and is used to interface with the IXF1110 CPU interface. Figure 3 provides a top-level view of the CPU daughter card.

Figure 3. Intel® IXF1110 CPU Daughter Card

RJ-45 #1 10Mbps

Ethernet Connection

CPU Daughter

Card

IP Address located on

the side of the connector

Not Used

RJ-45 #2 Serial

Connection

The IXF1110 software requires the proper connections to the daughter card as follows:

Note: For full operation of the IXF1110 software, RJ-45 #1 and #2 (see Figure 3) must be connected to a PC.

RJ-45 #1 (10 Mbps Ethernet): Requires the following connection (this connection gives access to the GUI):

CAT5-UTP cable (connected to the CPU daughter card)

Network port on a PC (connected to the CAT5-UTP cable), installed with IXF1110 software

RJ-45 #2 (Serial): Requires a connection that gives access to the HyperTerminal interface of the IXF1010 software (refer to Section 5.2, “Installing the IXF1110 Software” on page 16 for complete setup information).

Table 2 provides the DB-9–to–RJ-45 connector pinout for connection to a PC COM port. Only three pins are used for the DB-9–to–RJ-45 connector.

Table 2. Pinout for DB-9–to–RJ-45 Connector

RJ-45 Pin Number

DB-9 Pin Number

 

 

4

5

 

 

5

3

 

 

6

2

 

 

Development Kit Manual

13

Document Number: 250807

Revision Number: 003

Revision Date: June 27, 2003

Image 13
Contents Development Kit Manual Intel IXD1110 Demo BoardDevelopment Kit Manual Contents Tables FiguresRevision History Contents About This Kit IntroductionAdditional Equipment Required About The IXD1110 Demo Board FeaturesComponent Description Intel IXD1110 Demo Board Principal ComponentsFpga Quick Start SetupTypical Test Setup Typical Test SetupIntel IXF1110 CPU Daughter Card CPU Daughter CardIXF1110 Register Modifications on Startup CPU FpgaPC Requirements IXF1110 SoftwareChanging the IP Address of the CPU Daughter Card Optional Installing the IXF1110 SoftwareDram OK Reset Jumper JP2 Optional ConfigurationsJtag Test Signals Jtag Test Signals JP1IXF1110 LED Behavior LEDsTest Points Reset Test PointsIXF1110 Input Clock Test Points Gbic Test PointsMictor Connector Test Points Sheet 1 Mictor ConnectorsGbic Test Points Sheet 2 Mictor Connector Test Points Sheet 2 Power and Ground Test PointsPower Test Points Sheet 1 Test Point Symbol DescriptionGround Test Points Power Test Points Sheet 2Unused Test Points Unused Test PointsTest Points Description IXD1110 Demo Board Power Revision A1 SchematicsDigital Power 2.5 Digital Power1.8GND Analog Power Intel IXD1110 Analog PowerControl I2C Data MODDEF3 MODDEF0 I2CDATA3I2CDATA4IXF0 I2CDATA4AC9 AB9I2CDATA6 MODDEF6SerDes/GBIC Port IXD1110MODDEF9 L1 I2CDATA9IXF0SPI-4 Phase 2 TX SPI-4 Phase 2 RXIXD1110 SPI4-2 Srclk SERSrclr RclkIXF1110 & CPU Interfaces Power+2.5V +3.3VConnectors GND GND GND GND GND CLK0 CLK1 CLK3GND CLK2 Intel IXD1110 Demo Board Bill of Materials Rev. A1 Bill of MaterialsReference Designator Description Manufacturer Part Number Misc Bottom Testpoint

IXD1110 specifications

The Intel IXD1110 is an advanced integrated circuit that serves as a highly efficient and versatile solution for various communication and data processing applications. Built on Intel's cutting-edge technology, the IXD1110 showcases enhanced performance characteristics tailored for modern industrial and embedded systems.

One of the most notable features of the IXD1110 is its robust processing capability. Designed to support high-speed data transfer, this device operates with a clock frequency of up to 500 MHz. Such a high processing speed ensures that the IXD1110 can handle data-heavy applications with ease, making it an ideal choice for real-time data processing tasks.

In terms of connectivity, the IXD1110 boasts multiple communication interfaces. It supports Ethernet, SPI, and I2C protocols, allowing seamless integration into various system architectures. The Ethernet interface ensures high-bandwidth connectivity, giving developers the flexibility to connect the IXD1110 to both wired and wireless networks. This opens up possibilities for IoT (Internet of Things) applications, where reliable and fast communication is critical.

Another standout feature of the IXD1110 is its low-power consumption, which is a significant consideration for embedded systems and battery-powered devices. Intel has implemented advanced power management technologies in the IXD1110, enabling it to operate efficiently while minimizing energy usage. This characteristic not only extends the lifespan of the devices it powers but also reduces overall operational costs.

The IXD1110 also includes advanced security features, catering to the growing demand for secure processing in connected devices. Integrated hardware security mechanisms help safeguard against vulnerabilities and attacks, ensuring data integrity and protecting sensitive information.

Additionally, the IXD1110 is designed for scalability, allowing developers to adapt the device to a wide range of applications, from automotive systems to industrial automation. Its flexible architecture accommodates future upgrades and enhancements, making it a long-term investment for companies looking to future-proof their systems.

In conclusion, the Intel IXD1110 stands out with its high processing speeds, versatile connectivity options, low power consumption, advanced security features, and scalability. These attributes make it a compelling choice for organizations looking to leverage cutting-edge technology in their communication and data processing systems. As industries continue to evolve towards greater connectivity and automation, the IXD1110 is positioned as a key enabler in this technological transformation.