Products tagged with: active
Demo board PICDEM 2
The PICDEM 2 Plus Demonstration Board is ideal for testing and demonstration of the development options of Microchips 18-, 28- and 40-pin PIC16 and PIC18 microcontrollers. If you connect the PICDEM 2 Plus Demonstration Board to the MPLAB ICD2 you can use this to develop simulate and debug. It is also possible to load a program into the PICmicrocontroller. It can also be used on its own with the programmed supplied PIC18F452. Features: The demo program displays a real-time clock and an ambient temperature sensor.
GALEP-4 universal programmer
GALEP-4 is a pocket-sized professional universal programming device. A specially developed Pin driver ASIC offers multiplicity, which is found mostly in expensive HighEnd-devices only: GALEP programming without additional Adapter or extra circuits EPROMs, EEPROMs, FLASH-EPROMs, serial EEPROMs, Micro controller, GALs and PALCEs. Low-voltage modules up to 1.3 V are supported. GALEP is not much larger than a computer mouse (115 x 80 x 33 mm). If you need to operate the device without a power supply. you can use batteries to run it for up to 8 hours - making the device extremely portable. It is simply connected to the printer port on a PC or Notebook. In addition to basic functions such as reading, programming, synchronizing and deleting the software provides user-friendly configuration options for the special functions of the selected module. The Editor program allows many options for editing the code on the module, which can be loaded or saved in binary, Intel hex, Motorola-S or Jedec file formats. Before each action, the power consumption and correct position of the component is tested, so that it is nearly impossible to damage a component or the device through misuse. Via COM-Objects, GALEP can also get affected by Programmen (e.g. Visual Basic). New components can be downloaded to the software for free - ensuring that GALEP is kept up-to-date for the years to come. GALEP's unique flexibility is permitted because of the special hardware used. All pins on the 40-pin programming socket are equal and provide three seperately configurable voltages up to 25 V, ground, clock, configurable pull-up / pull-down resistors as well as logic on-outputs with bidirectional level shifters for low-voltage modules. The internal logic of GALEP can be programmed freely via a highly integrated FPGA and is optimized for each selected module. This allows all components to be programmed or read at the optimum speed.
galep-5 usb-programmer
Uncompromising universal programmer with 48 Pins for development, service and mobile use with USB 2.0 connection. GALEP-5 an extremely fast universal programmer in the pocket size. The focal point of the use lies in the areas development, service and the unique possibility of the mobile component programming. Because of its short program times, GALEP-5 is however usable also in the production. GALEP-5 is a real universal talent and a professional program device to an astonishing low price. High-Speed Programming: The program algorithms run on an internal 200 MIPS ARM-9 processors under Embedded Linux. Over a FPGA, the processor controls directly the pin drivers and guaranteed such an optimal adaptation of the component at the program algorithms. The program times reach nearly at the minimally possible times of the component. The internal 64 MB RAM stores the data even for larger components in the device; the data needs to be transmitted only once even in case of multiple programming.48 universal pin driver: A optimal signal quality guaranteed expressly for the series of GALEP developed pin driver chip for the component to be programmed. At every 48 Pins following signals are available: Logic output: High level of 1.3 V up to 5.0 V adjustable. Logic input: switching threshold from 0.5 to 5.0 V adjustable. Three program voltages independent from one another up to 25 V, Ground. 3 different switchable loads for Pullup and Pulldown. Adjustable clock speed. GALEP-5 support: "In-system-programming" and JTAG.Operation without power supply: GALEP-5 provides completely out of the USB interface of the PC. As a rule neither batteries nor a power supply are required. Safety: Before every action, the power consumption, correct position and the contacts of all pins are automatically tested at the component. It therefore largely impossible to destroy component or device through false operation. Software: Next to reason...
IC SMT-UTI-16PDIP transducer interface
The universal transducer interface (UTI) is a CMOS interface IC for sensor elements such as PT100/1000, NTC/PTC or capacitors and resistance bridges. It does not require any calibration, no additional circuitry and only one unipolar power supply voltage of 2.9 to 5.5 V/DC. Adjustment not necessary thanks to its integrated clock and its automatic and continuous automatic calibration of offset and amplification. A further advantage is the 50/60 Hz suppression. The UTI works with a resolution/precision of 14/13 bits with measurement times of 10 ms or 100 ms. The SMT-UTI interface is good value for money and has a low energy consumption.
IC SMT-UTI-18SOIC transducer interface
The universal transducer interface (UTI) is a CMOS interface IC for sensor elements such as PT100/1000, NTC/PTC or capacitors and resistance bridges. It does not require any calibration, no additional circuitry and only one unipolar power supply voltage of 2.9 to 5.5 V/DC. Adjustment not necessary thanks to its integrated clock and its automatic and continuous automatic calibration of offset and amplification. A further advantage is the 50/60 Hz suppression. The UTI works with a resolution/precision of 14/13 bits with measurement times of 10 ms or 100 ms. The SMT-UTI interface is good value for money and has a low energy consumption.
MICKROCONTR. MSP430F2274
In addition to their tremendous computing power of up to 16 MHz or MIPS MSP430 micro-controllers from Texas Instruments have extremely low power consumption. Applications can thus be operated over a period of many years with a single button cell. The basis for this is the flexible clock pulse system that allows the CPU to resume very quickly from low power modes. Hereby the internal oscillator provides the full computing power completely without external components. The 16-bit RISC architecture comes with just 27 basic instructions that can be quickly learned, which allows very effective programmes both in Assembler and C. The micro-controller has a flash memory that can be automatically programmed through the controller. No special programming voltages are required. The micro-controller can be programmed and debugged in the application via JTAG!
Micro-contr. MSP 430 F 1232 IPW 28 PW
In addition to their tremendous computing power of up to 16 MHz or MIPS MSP430 micro-controllers from Texas Instruments have extremely low power consumption. Applications can thus be operated over a period of many years with a single button cell. The basis for this is the flexible clock pulse system that allows the CPU to resume very quickly from low power modes. Hereby the internal oscillator provides the full computing power completely without external components. The 16-bit RISC architecture comes with just 27 basic instructions that can be quickly learned, which allows very effective programmes both in Assembler and C. The micro-controller has a flash memory that can be automatically programmed through the controller. No special programming voltages are required. The micro-controller can be programmed and debugged in the application via JTAG!
Micro-contr. MSP 430 F 149 IPM 64 PM
In addition to their tremendous computing power of up to 16 MHz or MIPS MSP430 micro-controllers from Texas Instruments have extremely low power consumption. Applications can thus be operated over a period of many years with a single button cell. The basis for this is the flexible clock pulse system that allows the CPU to resume very quickly from low power modes. Hereby the internal oscillator provides the full computing power completely without external components. The 16-bit RISC architecture comes with just 27 basic instructions that can be quickly learned, which allows very effective programmes both in Assembler and C. The micro-controller has a flash memory that can be automatically programmed through the controller. No special programming voltages are required. The micro-controller can be programmed and debugged in the application via JTAG!
Micro-contr. MSP 430 F 169 IPM 64 PM
In addition to their tremendous computing power of up to 16 MHz or MIPS MSP430 micro-controllers from Texas Instruments have extremely low power consumption. Applications can thus be operated over a period of many years with a single button cell. The basis for this is the flexible clock pulse system that allows the CPU to resume very quickly from low power modes. Hereby the internal oscillator provides the full computing power completely without external components. The 16-bit RISC architecture comes with just 27 basic instructions that can be quickly learned, which allows very effective programmes both in Assembler and C. The micro-controller has a flash memory that can be automatically programmed through the controller. No special programming voltages are required. The micro-controller can be programmed and debugged in the application via JTAG!
Micro-contr. MSP 430 F 2011 IPW 14 PW
In addition to their tremendous computing power of up to 16 MHz or MIPS MSP430 micro-controllers from Texas Instruments have extremely low power consumption. Applications can thus be operated over a period of many years with a single button cell. The basis for this is the flexible clock pulse system that allows the CPU to resume very quickly from low power modes. Hereby the internal oscillator provides the full computing power completely without external components. The 16-bit RISC architecture comes with just 27 basic instructions that can be quickly learned, which allows very effective programmes both in Assembler and C. The micro-controller has a flash memory that can be automatically programmed through the controller. No special programming voltages are required. The micro-controller can be programmed and debugged in the application via JTAG!
Micro-contr. MSP 430 F 2012 IPW 14 PW
In addition to their tremendous computing power of up to 16 MHz or MIPS MSP430 micro-controllers from Texas Instruments have extremely low power consumption. Applications can thus be operated over a period of many years with a single button cell. The basis for this is the flexible clock pulse system that allows the CPU to resume very quickly from low power modes. Hereby the internal oscillator provides the full computing power completely without external components. The 16-bit RISC architecture comes with just 27 basic instructions that can be quickly learned, which allows very effective programmes both in Assembler and C. The micro-controller has a flash memory that can be automatically programmed through the controller. No special programming voltages are required. The micro-controller can be programmed and debugged in the application via JTAG!
Micro-contr. MSP 430 F 2013 IPW 14 PW
In addition to their tremendous computing power of up to 16 MHz or MIPS MSP430 micro-controllers from Texas Instruments have extremely low power consumption. Applications can thus be operated over a period of many years with a single button cell. The basis for this is the flexible clock pulse system that allows the CPU to resume very quickly from low power modes. Hereby the internal oscillator provides the full computing power completely without external components. The 16-bit RISC architecture comes with just 27 basic instructions that can be quickly learned, which allows very effective programmes both in Assembler and C. The micro-controller has a flash memory that can be automatically programmed through the controller. No special programming voltages are required. The micro-controller can be programmed and debugged in the application via JTAG!
Micro-contr. MSP 430 F 2131 IPW 20 PW
In addition to their tremendous computing power of up to 16 MHz or MIPS MSP430 micro-controllers from Texas Instruments have extremely low power consumption. Applications can thus be operated over a period of many years with a single button cell. The basis for this is the flexible clock pulse system that allows the CPU to resume very quickly from low power modes. Hereby the internal oscillator provides the full computing power completely without external components. The 16-bit RISC architecture comes with just 27 basic instructions that can be quickly learned, which allows very effective programmes both in Assembler and C. The micro-controller has a flash memory that can be automatically programmed through the controller. No special programming voltages are required. The micro-controller can be programmed and debugged in the application via JTAG!
MICROCONTR. MSP430F2370
In addition to their tremendous computing power of up to 16 MHz or MIPS MSP430 micro-controllers from Texas Instruments have extremely low power consumption. Applications can thus be operated over a period of many years with a single button cell. The basis for this is the flexible clock pulse system that allows the CPU to resume very quickly from low power modes. Hereby the internal oscillator provides the full computing power completely without external components. The 16-bit RISC architecture comes with just 27 basic instructions that can be quickly learned, which allows very effective programmes both in Assembler and C. The micro-controller has a flash memory that can be automatically programmed through the controller. No special programming voltages are required. The micro-controller can be programmed and debugged in the application via JTAG!
MICROCONTR. MSP430F2418
In addition to their tremendous computing power of up to 16 MHz or MIPS MSP430 micro-controllers from Texas Instruments have extremely low power consumption. Applications can thus be operated over a period of many years with a single button cell. The basis for this is the flexible clock pulse system that allows the CPU to resume very quickly from low power modes. Hereby the internal oscillator provides the full computing power completely without external components. The 16-bit RISC architecture comes with just 27 basic instructions that can be quickly learned, which allows very effective programmes both in Assembler and C. The micro-controller has a flash memory that can be automatically programmed through the controller. No special programming voltages are required. The micro-controller can be programmed and debugged in the application via JTAG!
MICROCONTR. MSP430F249
In addition to their tremendous computing power of up to 16 MHz or MIPS MSP430 micro-controllers from Texas Instruments have extremely low power consumption. Applications can thus be operated over a period of many years with a single button cell. The basis for this is the flexible clock pulse system that allows the CPU to resume very quickly from low power modes. Hereby the internal oscillator provides the full computing power completely without external components. The 16-bit RISC architecture comes with just 27 basic instructions that can be quickly learned, which allows very effective programmes both in Assembler and C. The micro-controller has a flash memory that can be automatically programmed through the controller. No special programming voltages are required. The micro-controller can be programmed and debugged in the application via JTAG!
MICROCONTR. MSP430F2618
In addition to their tremendous computing power of up to 16 MHz or MIPS MSP430 micro-controllers from Texas Instruments have extremely low power consumption. Applications can thus be operated over a period of many years with a single button cell. The basis for this is the flexible clock pulse system that allows the CPU to resume very quickly from low power modes. Hereby the internal oscillator provides the full computing power completely without external components. The 16-bit RISC architecture comes with just 27 basic instructions that can be quickly learned, which allows very effective programmes both in Assembler and C. The micro-controller has a flash memory that can be automatically programmed through the controller. No special programming voltages are required. The micro-controller can be programmed and debugged in the application via JTAG!
MICROCONTR. MSP430FG4618
In addition to their tremendous computing power of up to 16 MHz or MIPS MSP430 micro-controllers from Texas Instruments have extremely low power consumption. Applications can thus be operated over a period of many years with a single button cell. The basis for this is the flexible clock pulse system that allows the CPU to resume very quickly from low power modes. Hereby the internal oscillator provides the full computing power completely without external components. The 16-bit RISC architecture comes with just 27 basic instructions that can be quickly learned, which allows very effective programmes both in Assembler and C. The micro-controller has a flash memory that can be automatically programmed through the controller. No special programming voltages are required. The micro-controller can be programmed and debugged in the application via JTAG!