dpASP DEVELOPMENT KITS

We have wide range of development kits based on FPAA/dpASP

  • Trainer Kit with two dpASPs (AN231E04) & 32bit PIC microcontroller with 40MHz clock, 512KB flash, 32KB data memory.
  • Standard USB serial interface & 5 pin header for programming microcontroller.
  • Two audio jacks for performing Audio Signal Processing.
  • On-board three 10K Ohm Potentiometer.
  • On-board ambient light sensor with light source.
  • Set of Terminal blocks to access the dpASP I/Os.
  • 1 number of general purposes IO, 1 number of general purpose input, 3 numbers of general purpose outputs. And all general purpose IOs, Input pins, Output pins accessed through terminal blocks from the board edge.
  • Provision to configure 1 or 2 dpASP chain, store configuration in Flash & also to electrically isolate Analog and Digital section.
  • Board size 180 x 120mm.
  • Supply requirement- single supply +5V to +7V.
  • FOUR AN231E04 dpASP with header pins and user selectable inter FPAA connections.
  • Serial (USB) interface that allows ”plug and play” connectivity using a standard serial cable between the development board and a PC running AnadigmDesigner®2 software.
  • SPI (or host processor) interface, allowing you to interface the dpASP directly to your own digital board
  • Includes pre-layed out options to add a "Rauch Filter" to FPAA Input's and smoothing filters to FPAA outputs
  • Large breadboard area for building your own specific interface circuitry PCB is pre-built with provision the addition resistor and capacitor which can be used for a Rauch filter at the input or output.
  • Easy choice of 1, 2, 3 or 4 FPAA's to be configured, to enable multi-chip system evaluation.
  • On-board 16-MHz or 40MHz clock source for FPAA Analog clock input.
  • Ideally suited to the development of embedded system, the board contains a 32bit 80Mhz (3rd Party) microcontroller, 5 pin access to re-program this uC, the board is prepared and wired for a standard 16x2 LCD (Not supplied).
  • The development board is supplied with four AN231E04 FPAA's you can use the board with AnadigmDesigner®2 software Version 2.8.0.1 or later to implement designs for any dpASP or FPAA in the 3.3volt family.
  • TWO AN231E04 dpASP with header pins and user selectable inter FPAA connections.
  • Serial (USB) interface that allows ”plug and play” connectivity using a standard serial cable between the development board and a PC running AnadigmDesigner®2 software.
  • SPI (or host processor) interface, allowing you to interface the dpASP directly to your own digital board.
  • Includes pre-layed out options to add a "Rauch Filter" to FPAA Input's and smoothing filters to FPAA outputs.
  • Large breadboard area for building your own specific interface circuitry PCB is pre-built with provision the addition resistor and capacitor which can be used for a Rauch filter at the input or output.
  • Easy choice of 1 or 2 FPAA's to be configured, to enable multi-chip system evaluation.
  • On-board 16-MHz or 40MHz clock source for FPAA Analog clock input.
  • Ideally suited to the development of embedded system, the board contains a 32bit 80Mhz (3rd Party) microcontroller, 5 pin access to re-program this uC, the board is prepared and wired for a standard 16x2 LCD (Not supplied).
  • The development board is supplied with two AN231E04 FPAA’s you can use the board with AnadigmDesigner®2 software Version 2.8.0.1 or later to implement designs for any dpASP or FPAA in the 3.3volt family.
  • AN231E04 dpASP with header pins.
  • Optional Rauch filter to level shift and prepare input signal, includes single-ended to differential conversion where needed.
  • Serial (USB) interface that allows ”plug and play” connectivity using a standard serial cable between the development board and a PC running AnadigmDesigner®2 software.
  • SPI (or host processor) interface, allowing you to interface the dpASP directly to your own digital board.
  • Large breadboard area for building your own specific interface circuitry PCB is pre-built with provision the addition resistor and capacitor which can for a Rauch filter at the input or output.
  • Daisy chain capability – allowing multiple boards to be connected to evaluate multi-chip systems.
  • On-board 16-MHz or 40MHz clock source for FPAA Analog clock input.
  • Ideally suited to the development of embedded system, the board contains a 32bit 80Mhz (3rd Party) microcontroller, 5 pin access to re-program this uC, the board is prepared and wired for a standard 16x2 LCD (Not supplied).
  • The development board is supplied with one AN231E04 FPAA’s you can use the board with AnadigmDesigner®2 software Version 2.8.0.2 or later to implement designs for any dpASP or FPAA in the 3.3volt family.

Other Related Products

AN231e04 :

  • Fully differential switched capacitor with analog switch fabric.
  • Offset nulling, an internal routine started by a configuration command from a host microprocessor and available at any time.
  • All internal OpAmps input offset voltages can be reduced from a few milli-volts to less than 250 micro-volts, the routine will temporarily break any existing signal paths for a period of 70msec (assuming a 16MHz ACLK); By default this auto-nulling routine is added into all primary configurations.
  • Complex I/O cells employing an uncommitted differential Amplifier which can be accessed by the user and wired using an external component to perform a variety of function e.g. buffering, level shifting, filtering (Rauch topology) for either input or Output signals, alternatively this I/O cell can be used for sample and hold, gain, bypass wiring or digital I/O.
  • Size and power have been reduced dramatically, the device power consumption is now typically 125mW and the device is packaged in a 7x7x0.85mm QFN package. (RoHS compliant).
  • Additionally dynamic control features have been added to allow easy control of the circuit update (re-configuration) and monitoring using digital pins.
  • With dynamic re-configurability, you can program the AN231E04 to implement multiple analog functions and/or to adapt 'on-the-fly' to maintain precision operation despite system degradation and aging.
  • With analog functions defined by software, the analog subsystem can be controlled using C-code automatically generated by AnadigmDesigner®2.
  • Dynamic re-configuration enables functions never possible before, eg. Two 5-pole filters can be have three parameters swept independently or simultaneously; Gain, corner frequency and Q-factor.