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Vorderseite des WLED Controller im Gehäuse

Average rating of 4.9 out of 5 stars

WLED Controller (WLAN/Wi-Fi) V0.10
WLED Controller (Wi-Fi) for driving thousands of addressable LED/Neopixel using the marvelous open-source WLED software. 5V/12V/24V compatible, for use with WS281x, SK6812, APA102, WS2801, SK9822, etc.
WLED Pixel Controller (Wi-Fi) to control addressable LED/Neopixels with the marvelous WLED. Since the Controller is open-source hardware (CC-BY-NC-SA 4.0), it can also be used with any other firmware. What WLED can do can be seen on the WLED Youtube channel.cod.m supports the development of WLED with monthly donations via Github-Sponsors.Features Ready for operation due to already installed WLED Suitable for 5V, 12V and 24V installations without additional voltage converter or configurationUp to four lines of 1000 LEDs each ESP32 (4MB) based, real 74AHCT125D level shifter Additional connections on the back of the board Detailed manual and wiring diagram Compact design in small housing (72 x 30 x 16mm) Connection via 4-pole screw terminal block Reverse polarity protectionSelf-programmable if required, flash/reset button available on board Open-source hardware (CC-BY-NC-SA 4.0) Made in Germany CE, RoHS, WEEEAll instructions, connection diagrams, version differences and background information can be found in our new cod.m Knowledge Base: WLED Controller.The complete history and technical basics can be read in the blog: https://allgeek.de/2021/03/25/wled-wlan-pixel-controller/ (German)WS2812/SK6812: WS2811, WS2812(B), Neopixel, WS2813, SK6812 and compatible. For pixel types with only one data line.WS2815: 12V strip that, unlike WS2812 12V, can drive each LED individually.WS2814: Controlled as SK6812 RGBW and changed colour order as well as white channel and green swapped, see picture on the right. Attention: Only works with WLED version 0.14.0-b1 or higher. Please install this via "Manual OTA" according to the controller version. See overview of versions.WS2801: WS2801 and compatible. For most pixelstrips with data and clock line.APA102: APA102, SK9822 and compatible. Pixel type with data and clock line but different from WS2801.Regarding pixel type support, it is worth taking a look at the WLED documentation under official WLED documentation.Anyone who wants to support the further development of the aboslut grandiose WLED is invited to donate on GitHub. cod.m itself contributes financially to the development of WLED through a GitHub sponsorship. So every controller you buy already contributes to it.Important: We strongly recommend reading the Adafruit Neopixel Uberguide. There, many basics for the use of addressable pixel strips are explained. For the 1000µF capacitor and fuse recommended for each supply, we offer our Fused Pixel Power Capacitor Board. The resistor used in the Uberguide and the necessary level shifters for the data line are already integrated on our controller.The distance between the pixel controller and the pixel strip can be up to two metres due to the built-in 74AHCT125D level shifter. For longer distances to the Strip, we recommend our Pixel Range Extender.Version differencesSee cod.m Knowledge Base: WLED Controller - Versions.Additional Linkscod.m Knowledge Base: WLED ControllerWLED documentationWLED Controller (Wi-Fi) on GitHub Downloadsgeneralexample .loxone-fileV0.10Quick Start Guide/Data Sheet WLED Controller V0.10Wiring Sheme WLED Controller V0.10 WS281x/SK6812 5V/12V/24VWiring Sheme WLED Controller V0.10 WS2801 5V/12V/24VWiring Sheme WLED Controller V0.10 WS2815 12VInstructions and wiring diagrams for older versions can be found in the cod.m Knowledge Base: WLED Controller - Instructions and wiring diagrams.
€39.80* €46.90* (15.14% saved)
WLED Range Extender V0.4

Average rating of 5 out of 5 stars

WLED Range Extender V0.4
New version of our WLED Range Extender! Version 0.4 can now be used with 5V, 12V and 24V installations. The cod.m WLED Range Extender is designed to increase the usually short distance between WLED controller (WLAN/Wi-Fi) and the (Neo-)Pixel strip. The 800kHz signal, e.g. WS2811, WS2812, WS2815, SK6812, etc., is converted to a differential signal to increase the range. The signal is fed into the IN module (item no. 90065), where it is converted and can be forwarded up to 500 metres via a twisted pair. The OUT module (Art. No. 90066) is then connected to the digital strip and the differential signal from the IN module is fed in. The completely revised OUT module now contains a WLED fused power capacitor board for feeding the LED strip, including fuse, backup capacitor and signalling LED for a defective fuse. Further feeds into the strip should also be implemented with an additional capacitor board. Then select the fuses according to the distributed currents.In difficult environments, with poor line quality or over very long distances, a 120Ω terminating resistors can be connected to the modules using solder jumpers. This minimally increases the power consumption.Everything else can be found in the data sheet and the connection diagram.Features Developed for extending the data line of single-wire addressable LEDs (e.g. NeoPixel) Designed for controlling 5V, 12V and 24V strips: WS2812(B), WS2813, WS2814, WS2815, SK6812, etc. Integrated fuse with signalling LED and capacitor in the output module (fused capacitor board) For use between controller and LED strip or between two LED strip sections. Range up to 500m, theoretical maximum 1200m less than 0.2W power draw per pair+/- 15kV ESD protection Made in Germany, RoHS, WEEE Contents WLED Range Extender IN V0.4, Art. No. 90065WLED Range Extender OUT V0.4, Art. No. 90066 Quick Start GuideAdditional Linkscod.m Knowledge Base: WLED Range ExtenderDownloadsQuick Start Guide WLED Range Extender V0.4 Wiring Scheme WLED Range Extender V0.4 (5V/12V24V)
€38.60*
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Ethernet DMX Bridge V0.6

Average rating of 5 out of 5 stars

Ethernet DMX Bridge V0.6
The further development of DMX Bridge V0.4 - now with full 512 DMX channels.News: As we are also struggling with the general shortage of components, we were unfortunately only able to produce a small batch. The ATMega 644p used as TQFP is currently not available at all. For this reason, please forgive the slight price adjustment.We still had a few ATMega 644p and from the remaining stocks of a friendly electronics company we were able to get hold of ATMega 1284p. These are equivalent to the 644p in terms of function and interfaces, but have more memory that is not needed for the application.Only when you flash the bridge yourself do you have to compile the code for the other microcontroller. The microcontroller used can be identified on the sticker and is also supported by MightyCore.The Ethernet DMX Bridge is used to receive UDP packets from any network source and convert them into DMX signals according to the protocol. The advantage over Artnet DMX is that no special programme (player) is needed to generate the Artnet signals. The protocol is simple, so that the Ethernet DMX Bridge can be controlled from almost any network-compatible device.The software was developed by Robert Lechner and made available in the Loxone forum. The first setups consisted of an Arduino with Ethernet Shield and RS485 interface. The self-built boards work flawlessly and form the basis for the module developed by cod.m completely as open source and for mounting on the top-hat rail.Version 0.5 uses the latest version of the software with dedicated serial of the newly installed ATMega 644p to have more memory for the full number of DMX channels (512).Features: Full 512 DMX channels addressable ATMega 644p@16MHz or ATMega 1284@16MHz with Arduino bootloader (MightyCore) Dedicated serial for DMX bus Phoenix-Contact DIN Rail housing Unique MAC address (EUI-48) Power-saving W5500 WizNet Ethernet chip Reverse polarity protection TVS diode for DMX bus Input voltage range 7-28V Pluggables screw terminals for easy connections CE, RoHS, WEEE Open source Note: The DMX Bridge V0.5/V0.6 has enough memory to address a full 512 channels in DMX. However, it is still a 16MHz microcontroller - dimming many channels at once can cause performance bottlenecks.The development of the original DMX-Bridge V0.4 can be read in the blog starting with the prototype: https://allgeek.de/2017/11/15/ethernetudp-dmx-bridge-im-eigenbau/.If stock is not available, you can sign up to be notified.Feel free to contact us for larger orders.DownloadsOperation Manual Ethernet DMX Bridge V0.6
€149.80* €164.80* (9.1% saved)
CC2538 Raspberry Pi Modul
ZigBee CC2538 Raspberry Pi Modul
CC2538 + CC2592 PA/LNA ZigBee Raspberry Pi Aufsteckmodul zum direkt Anschluss an die GPIO-Leiste des RaspberryPi (UART). Produkt wird nicht mehr weitergeführt. Als Alternative empfehlen wir unser CC2652 Raspberry Pi Modul mit verbessertem Texas Instruments CC-Chip. Product is EOL. We recommend ordering the newer CC2652 Raspberry Pi Module with advanced Texas Instruments CC-Chip. Achtung: Aktuell gibt es Problem der Firmware des Moduls wodurch beim Neustarten des Raspberry Pi Geräte neu "anounced" bzw. "gepaired" werden müssen. Wir diskutieren im Homegear-Forum bereits die Gründe und suchen nach einer Lösung.Update: Wir haben eine Lösung gefunden. Weiteres dazu im oben verlinkten Thread im Homegear-Forum und im JetHome-GitHub.Alle nach dem 12.3.2021 ausgelieferten Module enthalten den Fix und sind reboot-fest. Attention: There's currently an issue with the firmware of the module. On a reboot of the Pi the CC2538 can loose all it's known devices which must then be repaired/reanounced. We are working on a solution and are discussing this in the Homegear-Forum.Update: We've found a solution, see the Homegear-Forum Thread and the issue on JetHome's Github.All modules sold after 12th March 2021 will include the fix and survive a reboot/power loss. Bei diesem Modul wird der CC2538, der große Bruder des CC2530, als ZigBee-Coordinator mit Z-Stack Firmware 3.0.x verwendet der ZigBee nach IEEE 802.15.4 implementiert. Das CC2538-Modul nutzt zusätzlich einen CC2592 PA/LNA um die Funkreichweite zu erhöhen. Zusammen mit einer externen Antenne ist damit eine sehr weiträumige Abdeckung möglich - natürlich abhängig von den baulichen Gegebenheiten.Durch das Umlöten eines Widerstands kann genauso die vorhandene PCB-Antenne genutzt werden, die für lokale Anwendungen ausreichend ist aber eben auch störanfälliger. Der CC2538 als ZigBee-Coordinator hat gegenüber dem CC2530 den Vorteil, dass an ihm massiv mehr Geräte direkt am Coordinator angelernt werden können (100 gegenüber 10) und mehr Routen (100 gegenüber 40) hinterlegt werden können.Die Anzahl der "direct children" bestimmt im einem ZigBee-Mesh aber nicht die maximale Größe der Installation. Siehe dazu auch die zigbee2mqtt-FAQ.Wenn ein Router benötigt wird, empfehlen wir unseren Standalone CC2530 Long Range ZigBee Router. Das Modul wird mit Z-Stack Firmware 3.0.x (UART-no-flow-control-with-SBL) in der jeweilig aktuellen Version ausgeliefert und enthält einen seriellen Bootloader (serial bootloader, SBL) wodurch ein Firmware-Update ohne separates Programmiergerät mittels cc2538-prog durchgeführt werden kann. Es gilt zu beachten, dass in jedem Fall wieder eine Firmware mit SBL aufgespielt werden muss, um danach wieder auf diesem Weg ein Firmwareupdate durchzuführen. Direkter Anschluss an den Raspberry Pi Z-Stack Firmware 3.0.x Firmwareupdate direkt am Raspberry Pi mittels Kommandozeile (SBL) Hohe Reichweite durch CC2592 PA/LNA Flexibel in der Platzierung durch externe Antenne Optionale Nutzung der PCB-Antenne 100 "direct children" am Coordinator Lieferumfang: CC2538 Raspberry Pi Modul V0.3 BedienungsanleitungWeiterführende Links: GitHub Repository CC2538 Modul Downloads:ZigBee CC2538 Raspberry Pi Funkmodul V0.3 Anleitung/Datenblatt
€32.90*
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ZigBee CC2530+CC2592 Long Range Router/Repeater

Average rating of 4.7 out of 5 stars

ZigBee CC2530+CC2592 Long Range Router/Repeater
The ZigBee Long Range Router is a standalone solution for extending the range of your own ZigBee installation. Based on the EByte E18-MS1PA1-IPX, a board with voltage regulator and micro USB connector was developed in a self-designed 3D printed housing. The module contains a CC2530 ZigBee microcontroller which is preceded by a CC2592 PA/LNA range extender to increase the possible radio range.By the possibility of connecting an external antenna, one can optimise the own application and possibly existing reception problems.Due to its higher range and flexibility, the ZigBee Long Range Router can also bring inaccessible places into the ZigBee mesh. For example, to cover battery-operated ZigBee devices in the garden with radio technology or an inaccessible installation of the router with an external 2.4 GHz antenna that can then be placed anywhere via an antenna line. Increasing the range in a ZigBee installation (mesh) 2.4GHz Long Range CC2530+CC2592 ZigBee radio module Usable in ZigBee 1.2 and ZigBee 3.0 installations Long Range: Improved range through the integrated CC2592 PA/LNA Range Extender. External SMA antenna connector to use different external antennas. Power consumption only 0.2W Powered by Micro-USB (5V, 250-500mA) 3D-printed case (Prusa i3, Prusament PLA Jet Black) Based on the EBYTE E18-MS1PA1-IPX module Please note: This item does not include antenna or power supply. Please order these separately.Contents: ZigBee Long Range Router in housing with SMA antenna connector Operating instructionsRelated links: 3D print STL files for the CaseGitHub Repository CC2530-CC2592 RouterDownloads: ZigBee Long Range Router V0.3 instrcutions
€28.80*
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