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ARM  TRAINER KITS

ALS - SDA - 2129  LPC 2129 ARM TRAINER KIT

SPECIFICATION:

  • NXP Semiconductors LPC 2129 16/32 bit ARM7TDMI-S : 16/32 bit LPC2129 with 256K  Bytes program Flash, 16K bytes RAM, RTC, 2x32bit timers, 7xCCR, 2xCAN, 4x10-bit ADC, 2xSPI, I2C, 6xPWM, WDT, 5V tolerant I/O, up to 60MHz operation, using 12MHz crystal.
  • Two on board voltage regulators 1.8V and 3.3V,  Input to this will be from External +5V DC Power supply through a 9-pin DSUB connector.   One power LED to indicate the presence of 5V.
  • Two RS232 interface circuits with 9 pin DSUB connectors :  UARTO is used by the Boot loader program, to program LPC2129 Flash memory without external programmer. UART1 is general purpose  RS232 and may be used by user program.
  • I2C bus interface circuit to DS1307 (RTC), 24C16 (NVROM), PCF8591 (ADC & DAC)
  • SPI bus interface to MCP3202 (12-bit ADC & Temperature Sensor LM335)
  • CAN bus TRANSCEIVERS - two numbers of PCA82C250 with to  9-pin DSUB connectors.
  • One LED connected to the PWM output.
  • Interface circuit for Compare & Capture feature testing,  circuit for external DC-Motor, on-board Relay Buzzer.
  • 4 High-Current (300 mA) output lines terminated in a Power Mate Connector
  • LCD 16x2 display : two numbers 7-Segment displays.
  • 8 no. of general purpose LEDs connected to output latch
  • 4x4 key-matrix connected to the port lines of the controller.
  • Reset push-button for resetting the controller.
  • Two standard 26-pin FRC connectors to connect on-board interfaces or to connect to some of ALS standard external interfaces.
  • The useful port line (extension ports) of controller are terminated in berg pins
  • Standard JTAG connector with 2x10 pin layout.
  • RTOS examples.

 

ALS-SDA-ARM-06 LPC 2148 ARM  EVALUATION BOARD

    

SPECIFICATION:

  • LPC2148 16/32 BIT ARM7TDMI-S with 512K bytes Program Flash, 42K bytes RAM
  • 12MHz Crystal allows easy communication setup
  • One on board voltage regulator for generating 3.3V. Input to this will be from External +5V DC Power supply through a 9-pin DSUB connector
  • One RS232 interface circuits with 9 pin DSUB connector: this is used by the Boot loader program, to program LPC2148 Flash memory without external Programmer
  • Piggy Back module containing LPC2148 controller
  • Standard JTAG connector with ARM 2×10 pin layout for programming/debugging with ARM-JTAG
  • Standard 26-pin FRC connectors to connect to on-board interface or some of ALS standard External Interfaces
  • Reset push-button for resetting the controller
  • SPI Interface: 2 channel ADC IC with POT and Temperature sensor
  • I2C Interface: NVROM IC
  • On chip ADC interface circuit
  • Two External interrupt circuits with LED indication
  • LCD 16×2 alphanumeric display
  • On-board eight push-button switches
  • 4x4 Key-Matrix connected to the port lines of the controller
  • Eight general purpose LED’s
  • Four-digit multiplexed 7-segment display interface
  • 8-bit DAC interface
  • Stepper motor interface with direction and speed control
  • DC motor interface with direction and speed control
  • Interface circuit for on board Buzzer and Relay
  • A number of software examples in ‘C-language’ to illustrate the functioning of the interfaces. The software examples are compiled using an evaluation version of KEIL4 ‘C’ compiler for ARM
  • Compact elegant plastic enclosure
  • Serial RS232 cable is included
  • Operates off 5V DC

ALS-SDA-ARM-07 LPC 2148 ARM EVALUATION BOARD

SPECIFICATION:

  • LPC2148 16/32 BIT ARM7TDMI-S with 512K bytes Program Flash, 42K bytes RAM
  • 12MHz Crystal allows easy communication setup
  • One on board voltage regulator for generating 3.3V. Input to this will be from External +5V DC Power supply through a 9-pin DSUB connector
  • One RS232 interface circuits with 9 pin DSUB connector: this is used by the Boot loader program, to program LPC2148 Flash memory without external Programmer
  • Piggy Back module containing LPC2148 controller
  • Standard JTAG connector with ARM 2×10 pin layout for programming/debugging with ARM-JTAG
  • Standard 26-pin FRC connectors to connect to on-board interface or some of ALS standard External Interfaces
  • Reset push-button for resetting the controller
  • SPI Interface: 2 channel ADC IC with POT and Temperature sensor
  • I2C Interface: NVROM IC
  • On chip ADC interface circuit
  • Two External interrupt circuits with LED indication
  • 16×2 alphanumeric LCD and 128×64 Graphic LCD display are provided – one of them can be used at a time
  • On-board eight push-button switches
  • 4×4 Key-Matrix connected to the port lines of the controller
  • Eight general purpose LED’s
  • Four-digit multiplexed 7-segment display interface
  • 8-bit DAC interface
  • Stepper motor interface with direction and speed control
  • DC motor interface with direction and speed control
  • Interface circuit for on board Buzzer and Relay
  • USB device 2.0 full-speed controller
  • A number of software examples in ‘C-language’ to illustrate the functioning of the interfaces. The software examples are compiled using an evaluation version of KEIL4 ‘C’ compiler for ARM
  • Compact elegant plastic enclosure
  • Serial RS232 cable is included
  • Operates off 5V DC

ARM Cortex M3 Evaluation Board ALS-SDA-ARMCTXM3-01

SPECIFICATION:

  • LPC1768 32 Bit ARM Cortex-M3 based processor with 512K bytes Program Flash, 64K bytes RAM
  • 12MHz Crystal allows easy communication setup
  • One on board voltage regulator for generating 3.3V. Input to this will be from External +5V DC Power supply through a 9-pin DSUB connector
  • Reset push-button for resetting the controller
  • Three of the four controller UART's are made available to user for external interfaces
  • - UART0: General purpose RS232 terminated in a 9 pin female DSUB connector which is also used to program LPC1768 Flash memory without external Programmer
  • - UART1: General purpose RS485 terminated in a 3 pin male reliamate
  • - UART2: General purpose RS232 terminated in a 3 pin male reliamate   
  • Interface to Controller internal ADC and DAC
  • 16×2 alphanumeric LCD and 128×64 Graphic LCD display are provided – one of them can be used at a time
  • 4×4 Key-Matrix
  • SPI interface: Flash NVROM  memory circuit
  • Simple I2S demonstration circuit
  • I2C interface: RTC  IC
  • Eight general purpose LED’s
  • Four-digit multiplexed 7-segment display interface
  • Interface circuit for external Interrupt
  • Interface circuit for Capture & match
  • Interface circuit for PWM with a monitor LED
  • On-board stepper motor, DC motor control, Relay interface
  • Interface circuit for on board Buzzer
  • Ethernet interface with RJ45 female connector
  • USB 2.0 full-speed controller that can be configured for either device or Host along with USB link and connect LED's
  • Two CAN interfaces with reliamate connector
  • Some of the on board interfaces connect to the Controller using short standard 10 pin FRC cables while the others are connected directly
  • Standard JTAG connector with ARM 2×10 pin layout for programming/debugging with ARM-JTAG
  • Standard Emulation Trace connector with 2×10 pin layout for CPU Execution tracing
  • One standard 26-pin FRC connector to connect to some of ALS standard External Interfaces
  • A number of software examples in ‘C-language’ to illustrate the functioning of the interfaces. The software examples are compiled using an evaluation version of KEIL4 ‘C’ compiler for ARM

 

ARM Cortex M3 Evaluation Board – 02  ALS-SDA-ARMCTXM3-02

 

SPECIFICATION:

  • LPC1768 is ARM Cortex M3 based micro controller with 512KB flash memory and 64KB SRAM
  • 12MHz Crystal allows easy communication setup
  • One on board voltage regulator for generating 3.3V. Input to this will be from External +5V DC Power supply through a 9-pin DSUB connector
  • One RS232 interface circuits with 9 pin DSUB connector: this is used by the Boot loader program, to program LPC1768 Flash memory without external Programmer
  • Piggy Back module containing LPC1768 controller
  • Standard JTAG connector with ARM 2×10 pin layout for programming/debugging with ARM-JTAG
  • Standard 26-pin FRC connectors to connect to on-board interface or some of ALS standard External Interfaces
  • Reset push-button for resetting the controller
  • SPI Interface: 2 channel ADC IC with POT and Temperature sensor
  • I2C Interface: NVROM IC
  • On chip ADC interface circuit
  • Two External interrupt circuits with LED indication
  • LCD 16×2 alphanumeric display
  • On-board eight push-button switches
  • 4x4 Key-Matrix connected to the port lines of the controller
  • Eight general purpose LED’s
  • Four-digit multiplexed 7-segment display interface
  • 8-bit DAC interface
  • Stepper motor interface with direction and speed control
  • DC motor interface with direction and speed control
  • Interface circuit for on board Buzzer and Relay
  • A number of software examples in ‘C-language’ to illustrate the functioning of the interfaces. The software examples are compiled using an evaluation version of KEIL4 ‘C’ compiler for ARM
  • Compact elegant plastic enclosure
  • Serial RS232 cable is included
  • Operates off 5V DC

ARM Cortex M3 Evaluation Board – 03 ALS-SDA-ARMCTXM3-03

SPECIFICATION:

 

  • LPC1768 is ARM Cortex M3 based micro controller with 512KB flash memory and 64KB SRAM
  • 12MHz Crystal allows easy communication setup
  • One on board voltage regulator for generating 3.3V. Input to this will be from External +5V DC Power supply through a 9-pin DSUB connector
  • One RS232 interface circuits with 9 pin DSUB connector: this is used by the Boot loader program, to program LPC1768 Flash memory without external Programmer
  • Piggy Back module containing LPC1768 controller
  • Standard JTAG connector with ARM 2×10 pin layout for programming/debugging with ARM-JTAG
  • Standard 26-pin FRC connectors to connect to on-board interface or some of ALS standard External Interfaces
  • Reset push-button for resetting the controller
  • SPI Interface: 2 channel ADC IC with POT and Temperature sensor
  • I2C Interface: NVROM IC
  • On chip ADC interface circuit
  • Two External interrupt circuits with LED indication
  • 16×2 alphanumeric LCD and 128×64 Graphic LCD display are provided – one of them can be used at a time
  • On-board eight push-button switches
  • 4x4 Key-Matrix connected to the port lines of the controller
  • Eight general purpose LED’s
  • Four-digit multiplexed 7-segment display interface
  • 8-bit DAC interface
  • Stepper motor interface with direction and speed control
  • DC motor interface with direction and speed control
  • Interface circuit for on board Buzzer and Relay
  • USB device 2.0 full-speed controller
  • A number of software examples in ‘C-language’ to illustrate the functioning of the interfaces. The software examples are compiled using an evaluation version of KEIL4 ‘C’ compiler for ARM
  • Compact elegant plastic enclosure
  • Serial RS232 cable is included
  • Operates off 5V DC


ARM 9  TRAINER BOARD

 

STK-9302 is a trainer for ARM9 controller. It runs on Linux. You need Linux installed on PC. Program can be written on PC and downloaded to the kit using TCP/IP Designed in a way to work like a standard kit.

SPECIFICATION:

  • Modular Design: ARM9 daughter board and feature rich Motherboard.
  • The SM-9302, daughter board, is actually an ARM9 SBC, with on board
  • Uses EP-9302 ARM9 processor
  • Flash 8 MB
  • SDRAM 32 MB
  • Also I/O and bus lines available on connector for further use
  • Ethernet connectivity through RJ45 connector
  • Dual USB host
  • Works on 5V, other voltages generated on board.
  • Thus working as an independent unit, so can be used in ARM9 based projects
  • 4x4 Matrix keypad
  • 16x2 Lcd
  • 8 keys for digital i/p
  • 8 LEDS for digital o/p
  • I2C based RTC
  • I2C 7 Segment Display
  • SPI based EEPROM
  • Stepper Motor with driver interface
  • POT for giving Analog input
  • Temperature sensor interface
  • BSP provided with Lots of Examples. Example included webserver application.
  • 20 Pin Jtag Connector
  • Serial port: 1 RS232, 1 RS485 port
  • SD-Card Interface
  • Color LCD interface with touch screen (optional)
  • Onboard FPGA (optional)
  • Stepper Driving Through FPGA
  • 4 Keys for digital input with FPGA
  • 4 LEDs for digital output with FPGA
  • I/O lines from FPGA available on connector