 Karbonmonoxajt je stávstvá a hodněká hodiná, který je nejlepší hodiná, takže se zvukování v tom hodině je nezvukování nezvukování. Karbonmonoxajt je proděžovat před malopunštních, fulberních devices, které můžete být, t. hodiné systému hodiného hodiného. Můžeme být kvězit, když se zvukování nejlepší hodiné, protože karbonmonoxajt je hodiné toxicky v Hejlandu a většiní se stříze který mnohy dělá. Monozovámi dělámi dělámi vždy se děláme vyrhupnit závodníte závodní a vřádnit závodní než největné dělámi dělámi dělámi sávodníte. Látké dělámi vyrhupnit závodníte sávodníte mohou návodní dělámi dělámi dělámi sávodníte. Dělámi sávodníte je dělávodní které je hodně hodně, předměří a hodně hodně. Vyzi tady je technologie, že je to mohlo, by si zvukovat úzorů o vámchání na jimého mobilna těchého, nebo na věděvávou dvědě, jak náš měl. Sdlp. Sdlp. Sdlp. RF sub-gigárets transceiver, když s TSU-111 operáciou amplifiers a Sdm32 nabijí třeba takové hranice. PNUKLAW IKA-02A1 aplikáciou board, když consist of STM32 NUKLAW board, který je furtě dělává by FIGARO carbon monoxide sensor, který je třeba třeba třeba TSU-111 operáciou amplifier. On top of this, for demo purposes, we will stack the system with the S2LP sub-gigárets RF transceiver expansion board and a battery board in order to get wireless CO detector sensor board. The second part of the demo consists again of two boards from the STM32 NUKLAW board, which is stacked with the S2LP RF transceiver board. This board is connected to the PC for demo purposes over USB and in the PC application we are showing the concentration of the gas in PPM in textual and also waveform format. Now let's have a look on the demo. So what we have here once again is the wireless carbon monoxide detector and the central alarm note, which is connected to the PC via USB in order to see the PPM concentration in a waveform in the application. What I will do now, I will take the carbon monoxide can and I will apply the carbon monoxide to the sensing element. Now, as you can see on the screen of the PC, there is a peak of the carbon monoxide concentration very well visible. Another option to the carbon monoxide can is a lighter and the pickup tool for the gas. What we can do, we can press the pickup tool, light the lighter and pick up the carbon monoxide from the center of the flame. Then we apply the carbon monoxide to the sensing element and as you can see we have the same peak as we had before as the carbon monoxide can. Now the question is, why the TSU-111 operational amplifier amount so many components as it has in its portfolio is the best choice. The answer is very simple. The electrochemical gas sensor is a type of a fuel cell which is designed to produce a signal current which is precisely related to the amount of the gas in the environment, so-called PPM concentration. The electrochemical cells are highly accurate, leaner, require minimal power and have long lifetimes, but produce a very small signal current as little as 2 nm per 1 ppm of carbon monoxide concentration. The STS-111 operational amplifier with its only 10 ppm of input bias current and a very small power consumption of only 900 nm ampere is a perfect fit for battery operated carbon monoxide detectors and even NO2 or O2 detectors. In wireless home safety systems, as said before, it is important to establish a reliable link between the carbon monoxide detector and the central node of the alarm system. The STS-S2LP RF transceiver provides such a reliable link because of its excellent receiver sensitivity down to minus 130 dBm. The S2LP's low power consumption of only 7 mA in the received mode and only 10 mA in the transmit mode enhance the battery lifetime. Carbon monoxide detectors can be part of the 6-slope and IPv6 networks as well as can be connected to the SIGFOX installations, where ST is offering ready-to-use software solutions. Thank you for watching the video and for more information about the analog products, please visit www.st.com. Sláž o pumps.