# Timers and RTCs ## Navigation - [Back to Sitemap](https://www.flux.ai/sitemap.md) - [Back to PCB Footprints](https://www.flux.ai/sitemap/footprints.md) ## Description Timers and Real-Time Clocks (RTCs) are electronic devices that are used to measure time or keep track of the current time. They can be found in a wide range of applications, including computers, phones, and appliances. Timers are used to trigger an action after a specific period of time has elapsed. They can be used to control the duration of an event, or to schedule tasks to be performed at a later time. RTCs, on the other hand, are used to maintain accurate time even when the device is powered off. They are often used in devices that need to keep track of the current time and date, such as alarm clocks and smart thermostats. If you're looking for high-quality timers and RTCs for your electronic projects, you should check out Flux.ai. They have the world's largest community-driven public library of timers and RTCs, with footprints, symbols, datasheets, and simulation models. This makes it easy for you to find the components you need for your project, and ensures that you have access to accurate and up-to-date information about each component. Whether you're a professional engineer or a hobbyist, Flux.ai has the resources you need to get your project off the ground. ## Items (Page 1 of 32, 782 total) - [Low Power 555 Timer](https://www.flux.ai/corynrobinson/low-power-555-timer.md) - 555 Type, Timer/Oscillator (Single) IC 1MHz 8-SOIC #Timer #commonpartslibrary - [TPL5110 Power Timer](https://www.flux.ai/jecstronic/tpl5110-power-timer.md) - The TPL5110 Power Timer is a stand-alone breakout that will turn any electronics into low-power electronics! It will take care of turning your project on/off using a built in timer that can vary from once-every 100ms up to once every two hours. Basically, the TPL will turn on periodically, adjustable by potentiometer or resistor, and turn on your project's power. It will then wait until a signal is received from the project to tell the TPL that it can safely turn off the power. If the TPL does not receive a signal by the set time-out, it will reset the device like a watchdog timer. #Sublayout #Module #PowerTimer #TPL5110 - [Timelapse Timer](https://www.flux.ai/adrian95/timelapse-timer.md) - Photography Timer based on Atmega8 controller, OLED display and button controls. - [Low-power dual CMOS timer](https://www.flux.ai/corynrobinson/low-power-dual-cmos-timer.md) - Low power CMOS 556 Type, Timer/Oscillator (Dual) IC 2.7MHz 14-SOIC - [Relay Timer](https://www.flux.ai/natarius/relay-timer.md) - [NE555P - 518340](https://www.flux.ai/kicad-part-library/ne555p-518340.md) - Precision Timers, 555 compatible, PDIP-8 single timer 555 DIP*W7.62mm* - [LM555CN/NOPB](https://www.flux.ai/adrian95/lm555cnnopb.md) - 555 Type, Timer/Oscillator (Single) IC 100kHz 8-PDIP #commonpartslibrary #integratedcircuit #timer #oscillator - [LMC555CN/NOPB](https://www.flux.ai/vasyl/lmc555cnnopb.md) - 555 Type, Timer/Oscillator (Single) IC 3MHz 8-PDIP #Timer #commonpartslibrary - [NE556IC](https://www.flux.ai/jecstronic/ne556ic.md) - 555 Type, Timer/Oscillator (Dual) IC 100kHz 14-SOIC #CommonPartLibrary #IntegratedCircuits #timer #Oscillator - [DS3231MZ+](https://www.flux.ai/vasyl/ds3231mzplus.md) - Real Time Clock (RTC) IC Clock/Calendar - I²C, 2-Wire Serial 8-SOIC (0.154", 3.90mm Width) #Timer #RTC #commonpartslibrary ## Pages - [Next Page](https://www.flux.ai/sitemap/footprints/timers-and-rtcs.md?page=2) - Pages: **1** [2](https://www.flux.ai/sitemap/footprints/timers-and-rtcs.md?page=2) [3](https://www.flux.ai/sitemap/footprints/timers-and-rtcs.md?page=3) ... [30](https://www.flux.ai/sitemap/footprints/timers-and-rtcs.md?page=30) [31](https://www.flux.ai/sitemap/footprints/timers-and-rtcs.md?page=31) [32](https://www.flux.ai/sitemap/footprints/timers-and-rtcs.md?page=32) --- *Generated from [https://www.flux.ai/sitemap/footprints/timers-and-rtcs](https://www.flux.ai/sitemap/footprints/timers-and-rtcs)*