Parts

ID: 131
Name: Robbe BID Chip mit Kabel
Description: BID-System Die Vielfalt der verschiedenen Akkutypen wird immer größer, wobei jeder Akkutyp sein"eigenes"Ladeverfahren benötigt. Die Lösung dazu kennen wir, entweder eine Vielzahl von individuellen Ladegeräten oder, wie im Modellbau weit verbreitet, Universalladegeräte. Diese Universalladegeräte müssen natürlich auf jeden Akkutyp entsprechend eingestellt werden, zudem sind noch Zellenzahl, Ladestrom, Entladestrom etc. zu definieren. Schnell verliert man denüberblick, hat vergessen wie die Einstellung erfolgt, oder im schlimmsten Fall eine falsche Einstellung vorgenommen. Wem ist es noch nicht passiert, eben mal schnell was Nachladen (mit der falschen Einstellung) und schon hat der wertvolle Akku Schaden genommen oder ist ganz defekt. Das revolutionäre BID-System von robbe bietet jetzt eine geniale Lösung für dieses Problem.BID-System steht fürBatterie-IDentifikations-System. Jedem Akku wird ein kleiner, leichter BID-Chip zugeordnet, welcher alle relevanten Daten zum optimalen Laden/Entladen des Akkus speichert. Zum Laden bzw. Entladen wird der BID-Chip und der Akku mit einem BID-Ladegerät verbunden. Das BID-System gibt dem Lader die Parameter vor. Starttaste drücken und der Lade-Entladevorgang beginnt. Kein lästiges Suchen der Einstell-Parameter im Menü, maximaler Schutz vor Fehlbedienung und Speicherung der relevanten Akkudaten im BID-Chip sind die besonderen Vorteile des BID-Systems. Der BID-Chip ist so klein und leicht (0,5g), dass er am Akku angebracht oder mit eingeschrumpft werden kann. Beidseitige Steckverbindungen sorgen für ein einfaches Handling und sparen das Kabelgewicht ein. Abmessungen: 11.7x14.2x3 mm
Created: 2013-04-02 08:08:31
Updated: 2013-10-20 13:49:21
Category: 99

ID: 132
Name: Arduino USB 2 Serial Converter
Description: This board converts a USB connection into a 5 volt Serial TX and RX that you can connect straight to the Arduino Mini, Arduino Ethernet or other microcontrollers, allowing them to talk to the computer. It features an Atmega8U2 programmed as a USB-to-serial converter, the same chip found on the Arduino Uno. The '8U2 firmware uses the standard USB COM drivers, and no external driver is needed. However, on Windows, a .inf file is required. The USB Serial Adapter has an onboard mini-USB connector and 5 pins including RX (for receiving data from the computer) and TX (for transmitting data). 5V, Ground and a Reset pin are also exposed. Status lights include power, RX and TX activity. The adapter can easily connect to the Arduino Ethernet, Mini, Mini Pro, LilyPad, LilyPad Simple, and Fio. An onboard polyfuse limits the current to 500mA and protects the host computer from short circuits. The ATmega8U2 firmware source code is available . The ATmega8U2 is loaded with a DFU bootloader, which can be activated by connecting the solder jumper on the back of the board and then resetting the 8U2. You can then use Atmel's FLIP software (Windows) or the DFU programmer (Mac OS X and Linux) to load a new firmware. Or you can use the ISP header with an external programmer (overwriting the DFU bootloader).
Created: 2013-04-02 08:18:50
Updated: 2013-10-20 10:31:54
Category: 79

ID: 133
Name: Sparkfun FTDI Basic Breakout - 3.3V
Description: This is the newest revision of Sparkfun's FTDI Basic. Sparkfun now uses a SMD 6-pin header on the bottom, which makes it smaller and more compact. Functionality has remained the same. This is a basic breakout board for the FTDI FT232RL USB to serial IC. The pinout of this board matches the FTDI cable to work with official Arduino and cloned 3.3V Arduino boards. It can also be used for general serial applications. The major difference with this board is that it brings out the DTR pin as opposed to the RTS pin of the FTDI cable. The DTR pin allows an Arduino target to auto-reset when a new Sketch is downloaded. This is a really nice feature to have and allows a sketch to be downloaded without having to hit the reset button. This board will auto reset any Arduino board that has the reset pin brought out to a 6-pin connector. The pins labeled BLK and GRN correspond to the colored wires on the FTDI cable. The black wire on the FTDI cable is GND, green is DTR. Use these BLK and GRN pins to align the FTDI basic board with your Arduino target. There are pros and cons to the FTDI Cable vs the FTDI Basic. This board has TX and RX LEDs that allow you to actually see serial traffic on the LEDs to verify if the board is working, but this board requires a miniB cable. The FTDI Cable is well protected against the elements, but is large and cannot be embedded into a project as easily. The FTDI Basic uses DTR to cause a hardware reset where the FTDI cable uses the RTS signal. This board was designed to decrease the cost of Arduino development and increase ease use (the auto-reset feature rocks!). Our Arduino Pro and LilyPad boards use this type of connector.
Created: 2013-04-02 08:27:08
Updated: 2013-10-20 13:07:36
Category: 79

ID: 134
Name: Arduino Ethernet ohne PoE Modul
Description: Der Arduino Ethernet ist ein Mikrocontroller Board mit ATmega328.Es hat 14 Digital Ein/Ausgänge, 6 Analoge Eingänge, einen 16 MHz Oszillator, einen RJ45 Anschluss, einen Stecker zur externen Stromversorgung, einen ICSP Anschluss und einen Reset-Taster. Die Pins 10,11,12 und 13 sind zur Verwendung mit dem Ethernet Modul reserviert und können nicht anderwertig verwendet werden. Zur Pulsweitenmodulation (PWM) stehen 4 Pins zur Verfügung. Optional kann ein Modul zur Stromversorgung über Ethernet integriert werden (PoE). Dieses Modul ist bei diesem Produkt nicht enthalten. Der Unterschied zu anderen Boards besteht eineseits in der Integration des Wiznet Ethernet interfaces (so wie beim Ethernet - Shield). Andererseits hat dieses Board keinen "USB - Serial Driver Chip". Ein "microSD Card reader" ist am Board integriert. Dieser kann über die SD Library angesprochen werden. (Pin4). Ein 6-poliger Stiftleistenanschluss steht zur Verbindung mit einem USB-Seriell Konverter zur Verfügung. Über diesen kann das Board programmiert werden. Specifications: Microcontroller ATmega328 Operating Voltage 5V Input Voltage Plug (recommended) 7-12V Input Voltage Plug (limits) 6-20V Input Voltage PoE (limits) 36-57V Digital I/O Pins 14 (of which 4 provide PWM output) Arduino Pins reserved: 10 to 13 used for SPI 4 used for SD card 2 W5100 interrupt (when bridged) Analog Input Pins 6 DC Current per I/O Pin 40 mA DC Current for 3.3V Pin 50 mA Flash Memory 32 KB (ATmega328) of which 0.5 KB used by bootloader SRAM 2 KB (ATmega328) EEPROM 1 KB (ATmega328) Clock Speed 16 MHz W5100 TCP/IP Embedded Ethernet Controller Power Over Ethernet ready Magnetic Jack Micro SD card, with active voltage translators
Created: 2013-04-02 08:32:07
Updated: 2013-10-20 10:57:44
Category: 79

ID: 135
Name: Seeedstudio LiPo Rider Pro
Description: Power your favorite electronic kit with green energy! The LiPo Rider Pro is a promotion of LiPo Rider.It supply heavier load output than LiPo Rider. The LiPo Rider Pro board allows you ride the solar wave to run your favorite 5V device. The LiPo Rider Pro board is the ideal green power solution for your outdoor sensor design. Attach the LiPo Rider Pro board to your sensor board and it can run on solar power forever! It can also be used to charge mobile phone. The LiPo Rider Pro is extremely affordable and easy to use. No programming is required. Plug it in and it works. The internal charger IC handles all the power flow between the various components. In case solar power is not sufficient, the microUSB port allows you to charge your lithium battery through USB. It can also be used to program your kit without detaching the LiPo Rider Pro board. Features: Maximum 1A load output Battery and Solar panel connector is JST 2.0 Stable 5V USB power supply regardless of source Charge/Recharge algorithms built into chip Charge Lithium Polymer Battery through solar power or USB Stable supply voltage through either lithium battery or USB 2 x USB ports let you program your kit while charging your Lithium battery LED indications for battery full or charging states Scalable to multiple lithium batteries and large/multiple solar panels through simple end-user modifications 4 green LED instruct quantity of electricity of lithium battery
Created: 2013-04-02 08:39:52
Updated: 2013-10-20 13:37:45
Category: 10

ID: 136
Name: Sparkfun FTDI Basic Breakout - 5V
Description: This is the newest revision of Sparkfun's FTDI Basic. Sparkfun now uses a SMD 6-pin header on the bottom, which makes it smaller and more compact. Functionality has remained the same. This is a basic breakout board for the FTDI FT232RL USB to serial IC. The pinout of this board matches the FTDI cable to work with official Arduino and cloned 3.3V Arduino boards. It can also be used for general serial applications. The major difference with this board is that it brings out the DTR pin as opposed to the RTS pin of the FTDI cable. The DTR pin allows an Arduino target to auto-reset when a new Sketch is downloaded. This is a really nice feature to have and allows a sketch to be downloaded without having to hit the reset button. This board will auto reset any Arduino board that has the reset pin brought out to a 6-pin connector. The pins labeled BLK and GRN correspond to the colored wires on the FTDI cable. The black wire on the FTDI cable is GND, green is DTR. Use these BLK and GRN pins to align the FTDI basic board with your Arduino target. There are pros and cons to the FTDI Cable vs the FTDI Basic. This board has TX and RX LEDs that allow you to actually see serial traffic on the LEDs to verify if the board is working, but this board requires a miniB cable. The FTDI Cable is well protected against the elements, but is large and cannot be embedded into a project as easily. The FTDI Basic uses DTR to cause a hardware reset where the FTDI cable uses the RTS signal. This board was designed to decrease the cost of Arduino development and increase ease use (the auto-reset feature rocks!). Our Arduino Pro and LilyPad boards use this type of connector.
Created: 2013-04-04 09:13:57
Updated: 2013-10-20 15:05:31
Category: 79

ID: 137
Name: Kohleschichtwiderstand 1/4W, 5%, 560Ohm
Description: Allgemeines Typ Widerstand Material Kohleschicht Temperatur, max. -55 ... +155 °C Toleranz 5 % Ausführung Ausführung gegurtet Besonderheiten Spezifikation Reihe E24 Maße Länge 6,5 mm Ø 2,3 mm Elektrische Werte Dauerspannung max. 250 V Nennlast 0,25 W Temperaturkoeffizient +350 / -700 / -1500 ppm Widerstand 560Ohm
Created: 2013-04-04 09:20:59
Updated: 2013-10-20 14:00:57
Category: 91

ID: 138
Name: Kohleschichtwiderstand 1/4W, 5%, 220Ohm
Description: Allgemeines Typ Widerstand Material Kohleschicht Temperatur, max. -55 ... +155 °C Toleranz 5 % Ausführung Ausführung gegurtet Besonderheiten Spezifikation Reihe E24 Maße Länge 6,5 mm Ø 2,3 mm Elektrische Werte Dauerspannung max. 250 V Nennlast 0,25 W Temperaturkoeffizient +350 / -700 / -1500 ppm Widerstand 220Ohm
Created: 2013-04-04 09:23:37
Updated: 2013-10-20 14:47:07
Category: 91

ID: 139
Name: TEMT6000 Breakout Board Sparkfun BOB-08688
Description: Basic breakout board for the TEMT6000 Ambient Light Sensor. Only what you need, nothing you don't. Sensor acts like a transistor - the greater the incoming light, the higher the analog voltage on the signal pin. http://wiring.org.co/learning/basics/ambientlighttemt6000.html http://bildr.org/2011/06/temt6000_arduino/
Created: 2013-04-04 09:28:35
Updated: 2013-10-20 07:06:13
Category: 102

ID: 140
Name: Sparkfun TLC5940 Breakout
Description: Breakoutboard mit dem TLC5940 16-Kanal 12-Bit LED PWM Controller. Mit diesem IC lassen sich bis zu 16 LED Kanäle steuern, dabei lässt sich ein maximaler Strom über einen externen Widerstand einstellen. Damit man Unterschiede von einzelnen LEDs (z.B. in einer Matrix) ausgleicht lässt sich jeder Kanal nochmal Feinjustieren (6-Bit Auflösung), dieser Wert kann im internen EEProm ablegen. The TLC5940 is a 16 channel PWM unit with 12 bit duty cycle control (0-4095), 6 bit current limit control (0-63), and a daisy chainable serial interface. This breakout board is a good way to take full advantage of this useful IC. All 16 PWM channels are broken out to standard 0.1" headers, which run alongside convenient voltage and ground rails. Also, because the TLC5940 can be daisy-chained, the breakout is designed to support that feature. On the left-hand side of the board all serial inputs are broken out to 0.1" headers and likewise with output on the right-hand side. Use this board to increase the number of PWM pins available to your microcontroller for applications such as Monocolor, Multicolor or Full-Color LED Displays, LED Signboards, Display Backlighting, Servo control, or any other project where a large number of PWM drivers are necessary. Note: While each 3-pin PWM header is 0.1" spaced, the space between each header is slightly larger in order to accommodate servo connections. In order to make this board suitable for use with servos, 2.2k pull-up resistors have been included on each output as well. Finally, the 2.2k resistor on the Iref pin sets the output current to 17.8mA but a parallel through-hole connection is provided for an additional resistor to increase the current if necessary. To determine the resistor value you need for a given output check the equations provided on the schematic. http://bildr.org/2012/03/servos-tlc5940-arduino/
Created: 2013-04-04 10:27:42
Updated: 2013-10-20 07:33:49
Category: 103