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CY32xx PSoX (‏3)


  PICKIT 1 PIC starter kit 8/14-pin FLASH
Part Number: DV164101 The PICkit 1 Flash Starter Kit is a low-cost development kit with an easy-to-use interface for programming Microchips 8-/14-pin Flash family of microcontrollers. This starter kit is designed to help you get up to speed quickly using PIC® microcontrollers. The kit provides everything needed to program, evaluate and develop applications using Microchips powerful 8-/14-pin Flash family of microcontrollers. Instructions are provided in a series of seven tutorials that cover I/O, Interrupts, A/D Converters, Comparators, Data Tables and Timers. All source code files for the tutorials are furnished. Package Contents: PICkit 1 Circuit Board with 8-pin PIC12F675 PICkit 1 Flash Starter Kit CD-ROM, including the HI-TECH PICC LITE C Compiler MPLAB® Integrated Development Environment CD-ROM Software and Hardware Tips n Tricks for 8-pin Flash PIC Microcontrollers Booklet USB Interface Cable PICkit Classic V1.74 supports these mid-range Flash PIC® microcontrollers: - PIC12F629, 635, 675, 683, - PIC16F630, 636, 676, - PIC16F684, 685, 687, 688, 689, 690, 785 - PIC16F913, 914, 916, 917, 946
  AVR Dragon debugger/programmerare
AVR Dragon sätter en ny standard för lågpris utvecklingsverktyg. AVR Dragon stödjer alla programmeringsmoder för AVR-familjen. Det inkluderar också komplett emuleringsstöd för kretsar med upp till 32kB FLASH-minne. Programmeringsinterface: - In system programming (ISP) - High voltage serial programming - Parallell programming - JTAG programming Emulerings(debug) interface: - JTAG - DebugWIRE AVR Dragon strömförsörjs via USB-porten och kan även spänningsmata ett externt målsystem. AVR Studio on-line hjälp innehåller den senaste informationen och en lista på alla kretsar som stöds.
  ARM JTAG wiggler för parallellport
Interface för att ansluta LPC och ARM-processor via JTAG till PC för programmering och debugging- s.k wiggler. Anslutning mot målsystem är en 2x10-pol kontakt enligt ARM standard. Anslutning mot PC är en 25-pol D-SUB. Program LPC21xx, Atmel AT91, STMicroelectronics STR7 Parts, and other (not tested) ARM flash microcontrollers Uses ARM's standard 2x10 pin JTAG connector No external power supply required - all power is taken from the target board Compatible with Rowley's CrossConnect, IAR EWARM and GCC (OCD) software for programming, real time emulation, debugging, step by step program execution, breakpoints, memory dump etc. Everything a high priced emulator can do and more! IAR EWARM - unlimited assembler code size or in C with 16K limit for all LPC21xx ARM microcontrollers Works with free GCC C compiler and Insight tool chain and debugger. Anslutning 1 - VREF 2 - VTARGET 3 - NTRST 4 - GND 5 - TDI 6 - GND 7 - TMS 8 - GND 9 - TCK 10 - GND 11 - RTCK 12 - GND 13 - TDO 14 - GND 15 - RST 16 - GND 17 - DBGRQ 18 - GND 19 - DBGACK 20 - GND
  ATSTK600-SOIC socket+adapter
The STK600-SOIC package contains a socket board and adapter boards for SOIC devices, and is an expansion module for STK600. ATSTK600 must be bought separately
  Utvecklingskort 40-pin AVR
Prototype board for 40 pin Atmel ATMega microcontrollers with power supply circuit, 8MHz crystal oscillator circuit, RS232 port, reset IC, status LED, and 10 pin STK ICSP port. * FR-4, 1.5 mm (0.062"), green solder mask, white silkscreen component print * Four mounting holes 3.3 mm (0.13") * ICSP 5x2 pin connector for in-circuit programming with AVR Programmers * Voltage regulator +5V, 7805 and filtering capacitors * Quartz crystal oscillator circuit 8Mhz * Reset IC ZM33064 * Status LED connected to PB0 via removable jumper * Power plug-in jack * DIL40 microcontroller socket * RS232 DB9 female connector * RS232 MAX232 interface circuit with Tx, Rx, CTS, DTR/RTS signals * Extension slot on every uC pin * Grid 100 mils * GND bus * Vcc bus Dimensions: 100x80 mm (3.9x3.15")
  JTAG-USB Programmeringskabel
The JTAG-USB cable allows you to use your PC to connect to a JTAG scan chain or to access an SPI interface on a board equipped with the appropriate 6-pin header. In this way, you can program devices on Digilent programmable logic boards using the Digilent Adept Suite. You can also program AVR micrcontrollers on Digilent embedded control boards using the Digilent AVR programmer application. Details: Low-cost JTAG configuration solution Connects to the USB port of a PC, and to a standard 6-pin JTAG programming header Can be used with Digilent Adept Suite & AVR Device Programmer software Can program devices that have a JTAG voltage of 1.8V or greater
  JTAG Programmeringskabel
Low-cost JTAG configuration solution Intended for use with Digilent FPGA boards. (Not intended for use with Digilent AVR boards) Connects directly to the parallel port of a PC, and to a standard 6-pin JTAG programming header Can program devices that have a JTAG voltage of 1.8V or greater
  CoolRunner-II CPLD Starter Board
A complete tool box to help designers develop the latest CPLD designs! The CoolRunner-II CPLD starter board is the perfect platform for the evaluation and implemention of designs using a high performance, low-power CPLD. Targeted Applications include intelligent handheld devices, remote monitoring, wireless interfacing, and glue logic across any number of industries. Board Highlights: DataGATE switch allows designers to easily evaluate a unique power option that permits input signal blocking, stops input switching and significantly reduces power consumption, extending battery life. Four 12-pin Pmod ports allow designers to easily add functions such as analog-to-digital conversion, servo motor interface, serial flash, RS232 serial channel, accelerometers, temperature sensors, and more. See our Pmod page for a complete list of modules. Note: The CoolRunner-II Starter Board requires a USB A -> mini B cable for power & configuration (not included). IC:Xilinx® CoolRunner-II CPLD (XC2C256-TQ144) Connector(s):4 x 12-pin Pmod connectors USB 2.0 port for power, programming, & data transfer
  ARM-USB-OCD-H 3-in-1 ARM debgger/programmer hi-speed
FEATURES First on market three-in-one USB JTAG debugger - offers JTAG + RS232 (full modem signals supported) port + power supply all in one compact device High speed USB 2.0 JTAG dongle interface, can be used with all ARM devices for programming and debugging. uses ARM's standard 2x10 pin JTAG connector supports ARM targets working in voltage range 1.65 5.0 V DC supports adaptive clocking RTCK software supported by OpenOCD (open source) debugger adds virtual RS232 port to your computer with all modem signals like: DTR, DSR, DCD, RTS, CTS, Rx, Tx Can be used as power supply to your target board with 5V USB source current is limited with resettable fuse at 300mA, at the different output voltage the maximum current is different: 5V/200mA, note that this also depend on your USB host current capabilities, if other USB devices are attached to your computer or if the laptop is running on batteries these figures may be different and depend on your computer USB host. Downloadable Windows installer for full featured and open source tools as alternative to the commercial ARM development packages: GCC C compiler, openOCD debugger and Eclipse IDE. Works with IAR EW-ARM 5.50 or newer Dimensions 50x40 mm (2x1.6") + 20 cm (8") JTAG cable + 30 cm (12") power supply cable FAQ: Q: Can I use ARM-USB-OCD-H with EW-ARM? A: IAR supports GDB and works with ARM-USB-OCD-H Q: I use Windows XP x64, how I can update the USB drivers? A: FTDI have x64 drivers on their web, download them and use our ARM-USB-OCD PID: 0x0003, VID: 0x15BA to install the drivers. Q: how to install ARM-USB-OCD-H to work with CrossWorks: Use: "Generic FTD2232" target interface 1. Right click on a blank space in the targets window and select "New Target Interface > Generic FT2232 Device". 2. Right click on the new target interface and select "Properties" - set the following properties: Connected LED Inversion Mask 0x0000 Connected LED Mask = 0x0800 nSRST Inversion Mask = 0x0200 nSRST Mask = 0x0200 nTRST Inversion Mask = 0x0000 nTRST Mask = 0x0100 Output Pins = 0x0F1B Output Value = 0x0D08 Running LED Inversion Mask = 0x0000 Running LED Mask = 0x0800 It is recommended to use LibUSB drivers instead of FTDI PID: 0x002B VID: 0x15BA In CrossWorks 1.7 there are Target interfaces for Olimex JTAGs, note that RTCK is not used with FT2232 design so your JTAG clock should not exceed 1/6 of your target MCU clock or the JTAG will lock up, start with JTAG divider 10 and decrease until you are able to debug to find your own value for your target. Q: Can I debug high voltage targets with ARM-USB-OCD-H? A: ARM-USB-OCD-H is not isolated, but you can use USB-ISO isolator device to protect your PC while debugging high voltage targets.
  JTAG-SMT2 surface mounting module
Liten JTAG-modul för ytmontering. JTAG-SMT2 är kompatibel med Xilinx tools och är för programmering/debugging av Xilinx FPGAs Se datablad för närmare specifikationer
  ZYBO SoC board
The ZYBO (Zynq Board) is a feature-rich, ready-to-use, entry-level embedded software and digital circuit development platform built around the smallest member of the Xilinx Zynq-7000 family, the Z-7010. The Z-7010 is based on the Xilinx All Programmable System-on-Chip (AP SoC) architecture, which tightly integrates a dual-core ARM Cortex-A9 processor with Xilinx 7-series Field Programmable Gate Array (FPGA) logic. When coupled with the rich set of multimedia and connectivity peripherals available on the ZYBO, the Zynq Z-7010 can host a whole system design. The on-board memories, video and audio I/O, dual-role USB, Ethernet and SD slot will have your design up-and-ready with no additional hardware needed. Additionally, six Pmod connectors are available to put any design on an easy growth path. The ZYBO provides an ultra-low cost alternative to the ZedBoard for designers that don't require the high-density I/O of the FMC connector, but still wish to leverage the massive processing power and extensibility of the Zynq AP SoC architecture. The ZYBO is compatible with Xilinxs new high-performance Vivado Design Suite as well as the ISE/EDK toolset. These toolsets meld FPGA logic design with embedded ARM software development into an easy to use, intuitive design flow. They can be used for designing systems of any complexity, from a complete operating system running multiple server applications in tandem, down to a simple bare-metal program that controls some LEDs. For systems that require an operating system, Digilent provides an out-of-the-box Linux solution specifically targeted to run on the ZYBO, complete with documentation describing how best to mold it to suite your purposes. These Xilinx tools and Linux solution are all available to use at no additional cost with the ZYBO. The Z-7010 features include: * 650Mhz dual-core Cortex-A9 processor * DDR3 memory controller with 8 DMA channels * High-bandwith peripheral controllers: 1G Ethernet, USB 2.0, SDIO * Low-bandwidth peripheral controller: SPI, UART, I2C * Reprogrammable logic equivalent to Artix-7 FPGA * 28K logic cells * 240KB Block RAM * 80 DSP slices * On-chip dual channel, 12-bit, 1 MSPS analog-to-digital converter (XADC) The ZYBO offers the following on-board ports and peripherals: * ZYNQ XC7Z2010-1CLG400C * 512MB x32 DDR3 w/ 1050Mbps bandwidth * Dual-role (Source/Sink) HDMI port * 16-bits per pixel VGA output port * Trimode (1Gbit/100Mbit/10Mbit) Ethernet PHY * MicroSD slot (supports Linux file system) * OTG USB 2.0 PHY (supports host and device) * External EEPROM (programmed with 48-bit globally unique EUI-48/64 compatible identifier) * Audio codec with headphone out, microphone and line in jacks * 128Mb Serial Flash w/ QSPI interface * On-board JTAG programming and UART to USB converter * GPIO: 6 pushbuttons, 4 slide switches, 5 LEDs * Six Pmod connectors (1 processor-dedicated, 1 dual analog/digital)
2 195.00