-
Embest SBC2410-I Single Board Computer
The Embest SBC2410-I Single Board Computer (SBC) is based on the Samsung S3C2410A ARM9 CPU, which is able to run at 200+MHz internally off an external 12MHz crystal. Taking advantage of all features of S3C2410, the board supports additionally a multiplicity of onboard peripherals including a serial Flash, 32M or 64Mbytes Nor Flash, 64M or 128M bytes SDRM, 2-channel USB Host and 1-channel USB Device, 2 RS232, bluetooth communication port, LCD&TSP, keypad interface, SD card interface, buzzer, battery backed RTC, reset buttons and offers expansion connectors with full processor bus interface and I/O signals and can thus be easily adapted to specific interface requirements.
-
Embest SBC2410-II Single Board Computer
The SBC2410-II is another full-featured single board computer (SBC) using the Samsung S3C2410x processor released by Embest Company. The 16/32-bit S3C2410 processor is based upon the ARM920T architecture and can operate at 200MHz. It contains a memory management unit making it a suitable platform for stand alone applications, embedded real time operating systems and complex operating systems such as Linux or WinCE.
-
Embest SBC2410-III Single Board Computer
The SBC2410-III is a more cost-effective application-ready board integrating Samsung's ARM9 S3C2410A System on Chip with an ultra-compact kernel board mounted directly on top of a carrier board.
-
Embest Mini2410-I Processor Card
The Embest Mini2410-I™ processor card is designed specially to be the heart of your next embedded design. The tiny board integrates Samsung's S3C2410X processor, which is based on an ARM920T core with integrated MMU. The processor card takes use of all common features of S3C2410 and the connection between the processor card and your carrierboard is through DIMM 200-pin. 16-bit data bus, I/O and all other hardware interfaces all expand via DIMM 200-pin. The fully expansion can be used adapted to customer requirements.
-
Embest Mini2410-II Processor Card
The Embest Mini2410-II™ processor card is another processor card based on Samsung's S3C2410 processor. It has a super tiny design measuring only 58mm by 36mm. The memory system of the board is mainly including 32M SDRAM and 64M Nand Flash. The processor card extends the basic features of S3C2410. Other peripherals like LAN, Audio, AD, SPI, Uart, USB, I2C, RTC and all hardware interfaces are extended through two 2.0mm space 56-pin biserial dip connectors. A developer's kits with Embest Mini2410-II processor card are able to run on Linux and Windows CE OS. The tiny board would be an ideal single board computer to be the heart of your embedded design.
-
Embest Mini44b0 Processor Card
The Embest Mini44B0™ processor card is designed especially for user's special integration. The tiny board integrates Samsung's S3C44B0x processor, which is based on a 16/32-bit ARM7TDMI RISC processor. The architectural enhancements of ARM7TDMI include the Thumb decompressor, an on-chip ICE breaker debug support and a 32-bit hardware multiplier. The processor card takes full advantage of the integrated on-chip functions and the peripherals of S3C44B0x. Users can connect the processor card and your carrierboard through DIMM 200-pin. 16-bit data bus, I/O and all other hardware interfaces all expand via DIMM 200-pin. The fully expansion can be used adapted to customer requirements.
-
Embest LPCEB2000-S Processor Board
LPCEB2000-S is an industrial-oriented processor board designed around Philips LPC2129/2114/2119/ 2124/2194 ARM7TDMI-S, 32-bit, 60MHz microcontroller. This board has various peripherals which are accessible via pin-headers on the edge, that means you have tremendous flexibility to extend the system to interface with your peripherals. User can embed this processor board in your design, and form a complete hardware system, it will speed your development process and reduce the product cost.
-
Embest LPCEB2000-A Processor Board
LPCEB2000-A is a core processing board design extends the basic feature of Philips LPC2131/2132/2138 which is based on a 16/32-bit ARM7TDMI-S microcontroller up to operate at 60MHz. With more advanced embedded peripherals and its extensible pin-headers on the edge, you have tremendous flexibility to extend the system to drive the most demanding applications. User can mount this processor board directly on top of your designed expansion board to form a complete hardware system, it will speed up your development process and reduce the product cost.
-
Embest LPCEB2000-B Processor Board
LPCEB2000-B processor board is a 16/32-bit ARM7TDMI-S based industrial-oriented core computer to be your next embedded design. The tiny board is built around Philips LPC2292/2210/2212/ 2214/2290/2294 microcontroller which is able to operate at up to 60MHz. It has extended the basic features of the core with more advanced embeded peripherals via pin-headers on the edge. Integration of the processor board into customer specific design, users can fully use it to develop and drive the most demanding applications. The processor board will shorten your product time to the market and reduce the product cost.
-
Silicon Laude MRAM8051 Development Kit
The MRAM8051 Development Kit provides a simple yet versatile platform for exploring, designing, and developing limitless customized MRAM8051 microcontroller applications. The kit includes the OLED FPGA card, pre-programmed with the Silicon Laude MRAM8051 microcontroller core and OLED demo software providing a synthesizable netlist library, example top-level Verilog RTL source code for Actel ProASIC3, Axcelerator, and RTAX FPGAs, and royalty-free license for use in same or use in Tekmos, Inc. merged ASICs and gate arrays. The netlist library is compatible with Actel Libero Gold and Platinum FPGA design environment software.
-
ActiveWire-USB
The ActiveWire-USB is a PC board with an EZ-USB, plus drivers and example application code that enables you to do basic I/O without having to write a driver or firmware. Drivers for Windows, Linux, and more available.
-
DLP Design USB
Dual Channel USB Adapters, Evaluation boards, Development boards, PC boards with a PIC and FTDI's USB chip
-
SoC Platform for 8051 Processors
These days modern FPGAs offer enough programmable logic to be able to implement complete processors and peripherals, including RAM, around an 8051 microcontroller core. For these System-on-Chip (SoC) solutions, Hitex offers a FPGA development platform, which together with examples of hardware designs and the DProbeHS in-circuit emulator, forms a complete package for software development.
-
PICDEM NET
The PICDEM.net™ demonstration board is an Internet/Ethernet demonstration board using the PIC16F877 microcontroller and TCP/IP firmware. The board supports any 40-pin DIP device that conforms to the standard pin out used by the PIC16F877 or PIC18C452.
-
USBmicro Products
The U401/421 provides a simple digital i/o interface for the PC. Sixteen i/o lines from the microcontroller are provided. Commands can be sent to the U401/421 that change the i/o lines from input to output. I/o lines can be individually selected as inputs or outputs. The U401/421 supports commands to read the ports, and if the ports are set to output, to write to the ports.
-
USBSIMM SimmStick Development
This device provides a method to interface various circuit designs to the Universal Serial Bus now present in all new PCs. The USBSIMM card is intended for prototype and limited production use. Compliance with the SimmStick(tm) format provides the benefit of quick and easy adaptation to the other SimmStick(tm) products. The USBSIMM card will allow rapid product development without the initial cost of USB development tools.
-
USB I2C/IO
The USB I2C/IO interface board provides a simple, "drop-in", solution for customers that need to connect hardware to a P.C. The board provides 20 bits of user-configurable digital I/O, a 90Kbps I2C interface, and an 8 bit wide data bus for fast FIFO transfers.
-
USBee Experimenter's Boards
These tiny experimenter's boards are ideal for students or designer's that need to get up and running with USB immediately. With a mini-B USB connector on one end and signal pin headers on the other, these simple boards will instantly USB enable your design. Then using the USBee Toolbuilder source code that is included you can write your own Visual Basic PC application to control and monitor the signal pins on the board. It's as simple as 1,2,3.
-
I/O-Warrior
IO-Warrior is a family of generic I/O controllers for the USB. It offers simple I/O as well as more complex functions like IIC or LCD control. The SDK has support for MacOS, Linux and Windows.
-
Embedded Linux Development Kit (ELDK)
Complete cross development toolchain (ELDK) for PPC, ARM and MIPS processors consisting only of free software.
-
QuickUSB Plug-In Module
The quickest way to add high-speed USB 2.0 to your product is with QuickUSB®. Since all the USB functionality is in the QuickUSB module, you don't need to learn USB to add a high-speed USB 2.0 interface to your product. Simply connect your product's data interface to the QuickUSB target interface ports then call the QuickUSB Library functions to communicate with your product. QuickUSB is based on the Cypress CY7C68013-128AC EZ-USB FX2 microcontroller
-
Software Defined Radio Development (SDR) Kit
The SMT8096 development platform supports the design and development of a wide range of radio and waveform applications. It can be used for prototyping military and public safety communication radios, third and fourth generation wireless telephone systems and for high-speed data acquisition applications. The kit supports Windows® and Linux environments and includes full integration and compatibility with The MathWorks simulation and DSP/VHDL code generation tools.
- Leverage scalable system configuration for diverse product lines
- Support rich functionality with expandable solution
- Decrease time to market with rapid build and simulation
-
Starter Kit
The following boards are for test and demonstration purposes only. They have been designed primarily to test and demonstrate our software, and they can be used to get familiar with our software. We can ship them with demonstration software which is "ready-to-go". However, these boards may also be used to get familiar with the microcontroller and the other development tools such as the debugging software and the "C"-compiler. Complete schematic is included.
-
SPARTAN-II FPGA Board with USB 2.0 Interface
USB2FPGA is a SPARTAN-II FPGA board with integrated USB 2.0 interface and 1 MByte SRAM (15 ns access-time). It can be used as development platform or as an OEM board for job-lot production.
-
Sandgate II-P DVK - WiFi VoIP Ref Design
Sophia Systems Sandgate II-P Development Board is the first WiFi VoIP reference design based on the Intel® PXA270 processor available in the market. This reference board enables you to develop the software at the same time as the hardware is being developed, greatly reducing your overall system development time. With the Intel® PXA270 processor installed, the Sandgate II-P reference design includes all the peripherals necessary for the development of WiFi VoIP devices. The Sandgate II-P DVK's compact design makes for an excellent design base for your actual system.
-
Sandgate II-G DVK
Sophia Systems Sandgate II-G Development Board supports the Intel® PXA270 processor with the Intel® 2700G multimedia accelerator. This reference board enables you to develop the software at the same time as the hardware is being developed, greatly reducing your overall system development time. With the Intel® PXA270 processor installed, the Sandgate II-G reference design includes all the peripherals necessary for the development of PDA/Hand-held devices. The addition of the Intel® 2700G multimedia accelerator makes it a perfect enabling kit for handheld multimedia devices. The Sandgate II-G DVK's compact design makes for an excellent design base for your actual system.
-
Sandgate II DVK
Sophia Systems' own Sandgate II Development Board supports the Intel® PXA270 Applications Processor. This reference board enables you to develop the software at the same time as the hardware is being developed, greatly reducing your overall system development time. With the Intel® PXA270 Applications Processor installed, the Sandgate II reference designincludes all the peripherals necessary for the development of PDA/Hand-held devices and provides an excellent design base for your actual system.
-
Sandgate DVK
Sophia Systems' own Sandgate Development Board supports the Intel® PXA255 Applications Processor. This reference board enables you to develop the software at the same time as the hardware is being developed, greatly reducing your overall system development time. With the Intel® PXA255 Applications Processor installed, the Sandgate Development Board includes the peripherals necessary for the development of PDA/Hand-held devices and provides an excellent design base for the actual system. The CD-ROM included with the board provides a board support package for Windows®CE NET™. A JTAG port is provided on the board which connects to the serial port on the PC, this can be used for download programs in FLASH memory (JFLASH included, emulator not required), or debugging code. A schematic, part list, CPLD code (source and binary) are all included so development and customization is not a problem.
-
IAR KickStart™ Kit
IAR KickStart Kit will help you to a flying start; it contains all the necessary hardware and software and allows you to design, implement and test your applications directly on the chip. Whether you are a novice or seasoned developer, you will find the development kit a tremendous time-saver with its programming examples and flash programming tools available from IAR Embedded Workbench.
-
x86 runtime kit
The QNX® Neutrino® x86 Runtime Kit provides a single installation CD for performing pristine installs of the QNX Neutrino RTOS on a wide variety of x86 hardware platforms. Customers can easily take advantage of QNX Neutrino, including its dynamic scalability and exceptional fault tolerance -- through an off-the-shelf configuration that directly supports end users and simplifies deployment for Value Added Resellers (VARs) and System Integrators (SIs).
-
LadderWORK
LadderWORK is the easiest way to create automation control programs. Use of LadderWORK is immediate. With the use of the mouse only, you simply place functional objects in your worksheet , connect the components with wires and configure the components property. Microprocessor assembler code will be generated at the simply push of the BUILD button. LadderWORK software integrate a powerful schematic editor with multi view feature and context-sensitive help.
-
Seaweed Systems
Seaweed Systems, Inc. is a complete graphics solution provider for embedded systems with hardware, software, and service offerings. Seaweed Systems is a one-stop shop for organizations developing devices that display both 2D and 3D graphics. Seaweed Systems knows OpenGL® software, and it understands how graphics interfaces apply in embedded-system contexts — including how they interact with applications, operating systems, hardware platforms, graphics devices, and even chip firmware.
-
Microcross GX-Linux™
Microcross GX-Linux™ features a complete embedded Linux development platform for Cogent Single Board Computers that includes a GNU X-Tools™ Toolsuite, Visual X-Tools™ IDE, Visual GDB debugger, GDB Server, Linux v2.6.x BSP, uClibc library for embedded development, filesystem, BusyBox utilities, and drivers for a feature-rich, board-level capability including serial I/O, TCP/Ethernet, USB host, Compact Flash, real-time clock, PCI (if processor supports it), Video (if processor supports it), audio (if processor supports it) and touch screen (if processor supports it). Microcross offers two platform solutions geared to anyone's budget and needs: Standard or Professional. Above all competing solutions, GX-Linux™ offers structure and uniformity, flexibility to modify, and a guarantee to build out-of-the-box and run on the target board -- Embedded Linux Made Easy.
-
Cadence RF SiP Design Methodology Kit
The Cadence® RF SiP Methodology Kit accelerates the application of advanced EDA technologies to system-in-package (SiP) designs for Radio Frequency (RF)/wireless applications. It provides methodologies that maximize design productivity and predictability for customers leveraging the advantages of SiP implementation. An integrated set of SiP design products built around proven methodologies—demonstrated on a segment representative design—enables complete front-to-back SiP design and implementation.
-
Cadence functional Verification Kit for ARM
Jointly developed by Cadence and ARM, the Cadence® Functional Verification Kit for ARM offers a comprehensive verification solution specifically for engineers developing ARM® processor-based designs. The Kit contains ARM processor-based verification methodology and flows, a reference design platform, verification process automation (VPA) technology, and reusable verification IP. The proven Incisive® Plan-to-Closure Methodology from Cadence has been tailored specifically to ARM processor-based designs.
-
Cadence AMS Methodology Kit
The Cadence® AMS Methodology Kit addresses analog/mixed-signal design challenges across some of today's most competitive markets, including wireless, wired networking, and personal entertainment electronics. The Kit delivers a verified methodology, enabling IP, and consulting, all of which is demonstrated on an end-to-end mixed-signal design example.
-
Cadence Optimization Methodology Kit for ARM Processors
The Cadence® Optimization Methodology Kit for ARM Processors massively simplifies the implementation techniques used to achieve higher performance, lower power and less area (PPA) for ARM-based designs. The kit couples expert service and support with industry-leading Cadence Encounter RTL Compiler global synthesis, First Encounter virtual prototyping and ARM's Artisan/TSMC 0.13m SageX and TSMC 90G libraries. With this package, customers can achieve specified PPA levels and substantial reductions in development time required for hardening ARM processor cores. The Cadence Optimization Methodology Kit for ARM Processors has been designed to provide significant low power optimization enhancements to the ARM-Cadence Reference Methodology.
-
Cadence RF Design Methodology Kit
The Cadence RF Design Methodology Kit helps shorten product development cycle time by increasing silicon predictability and enabling greater RF design productivity. It demonstrates advanced methodologies for intelligently managing RLCK parasitics, inductance synthesis and modeling, and linking system-level design with IC design. The kit also comprises methodologies that enable designers to accurately, yet rapidly verify complete designs that include system-level digital, analog base-band, and RF circuitry.
-
ENEA Element
Element is an application development framework (ADF) and high-availability (HA) middleware for distributed telecom, datacom, automotive, industrial control and medical instrumentation applications. Element provides communications services that make it easy to develop complex distributed applications spanning multiple processors and operating systems. Element also provides instrumentation, fault management, upgrade management, and shelf management services that make it easy to monitor, provision, service, upgrade, and fine tune distributed networks.
|
