Podcasts about 2V

Doug CoatesFor 27 years the wind has been at his back and with his 68 Classic Mustang Coupe named Forever, today's guest Doug Coates knows what Mustang ownership is all about...patience. Excited to talk this dedicated Mustang loyalist. Doug, welcome to Ford Mustang The Early Years Podcast.Ford Mustang, The Early Years Podcast -- Guest Interview Application============Do you own an early year Mustang?:yesIf you own a Mustang, how long have you owned your ride?:27 yearsIf you own a Mustang or classic car, have you named your car? If so, what is his/her name?:Well, here it is "Forever". Odd name but it seems that's how long I've owned it, how long it's taken to get on the road, and how long I'll continue to own it.If you've made improvements to your classic car or restored it, what work have you done?:My mustang is a lethargic six banger that I originally planned to put a 302 into but at the time my father-in-law talked me into keeping the six. Well the six has had a bit of work done to it and has yet to run. My friends at Brazier Racing Engines did a 2V conversion and it now has a Autolite 2100 feeding it fuel,• headers• Clay Smith H264-8 cam• Pertronix ignition• Complete AAW wiring kit• Power Master 100 amp alternator• front disc brakes (scarebird)• electric fan• stock V8 rad• Shelby drop• three point seatbeltsWhat plans do you have for improvements/restoration/modification of your classic car?: •air conditioning and T-5 transmissionInstagram@mustangpodcasthttps://www.instagram.com/mustangpodcast/@fordpickuppodcast https://www.instagram.com/fordpickuppodcast/An Expert's Guide to Maintaining Your Classic Mustangwww.TheMustangPodcast.com/repairSponsored by: National Parts Depotwww.npdlink.comWith 4 warehouses nationwide, you'll get your parts fast!"Keep it safe, keep it rollin' and keep it on the road. Until next time!" Doug Sandlerdoug@turnkeypodcast.com

This week's EYE ON NPI is the ideal component for your next power supply design, it's Nexperia's NID5100 Ideal Diodes (https://www.digikey.com/en/product-highlight/n/nexperia/nid5100-ideal-diodes) a simple design improvement to Schottky diodes or simple P-FET polarity protection. This small and low-cost component from Nexperia is their first 'ideal diode', and can be used in many low voltage power supply setups to reduce power loss and get you more product life from your battery Diodes, who doesn't love them? (https://en.wikipedia.org/wiki/Diode) You put some P-doped Silicon next to N-doped Silicon (https://en.wikipedia.org/wiki/P%E2%80%93n_junction) and before you know it, you have accidentally semiconductored! Make them big enough and you can even solve global warming (https://en.wikipedia.org/wiki/Photovoltaics) We use diodes all the time, and they're particularly useful for power supplies since they make sure current only goes one way. We often use them in front of a DC jack, between the power input and the circuitry: this keep the voltage polarity positive with respect to ground, since most modern microelectronic components want between 3-24VDC. Or, as an OR: either battery or USB power are hot-swapped so that whichever gives the highest voltage will run the downstream electronics - see our Trinket M0 schematic for a simple example (https://learn.adafruit.com/adafruit-trinket-m0-circuitpython-arduino/downloads) When we first started electronics we'd use the classic 1N4001 (https://www.digikey.com/short/d8jn3f9v) - this low cost diode can handle high currents and about 1A continuous, with about 1-2V forward drop. When we did +12V power to an LM7805 (https://www.digikey.com/short/7vv3zc1d) this was fine, we have 5V to burn. Sometimes if we were feeling fancy we'd use a Schottky diode like the 1N5817 (https://www.digikey.com/short/8fntvnrv) which has about 0.7V drop, these are often used for boost or buck converters where you don't want to lose efficiency in your free-wheeling diode switch. But when using a 3.7V nominal voltage lipoly battery into a 3.3V regulator, we have to dial it down - even 0.7V is too high - so we'd often reach for a lower-drop Schottky like the Nexperia PMEG2010 (https://www.digikey.com/en/products/detail/nexperia-usa-inc/PMEG2010ER-115/2119861). We still use this part a lot, but we could do better with an Ideal Diode like the NID5100! (https://www.digikey.com/short/4td40hmh) Ideal diodes are as close as possible to the platonic ideal (https://en.wikipedia.org/wiki/Theory_of_forms#Ideal_state) of a diode as possible: Forward conduction only, with zero reverse conduction, and minimal voltage drop. Sometimes folks try to mimic this with a reversed P-FET and yes this will give minimal forward voltage drop for polarity protection (http://www.youtube.com/watch?v=IrB-FPcv1Dc), but it has 'infinite' reverse leakage instead of close-to-zero. The NID5100 is more complex, with additional circuitry for driving the P-FET. It can be used either as a polarity protection for a DC or battery input where there's risk of the voltage being inverted, or as an OR-ing voltage select. Compared to a Schottky, it can handle 1.5A continuous - most basic Schottky's are 1A - and with a forward voltage drop of only 50mV at 0.1A. The package size and price is also very comparable to a SOT323 diode, in an easy-to-place TSSOP6 and under 10 cents in reel quantity. We also like the extra pins like an Enable, so it can also act as an on/off switch, and a Status pin that lets you know when the diode is conducting: this can be used to detect which power supply is active in an OR setup. Does the Nexperia NID5100 (https://www.digikey.com/short/4td40hmh) sound like the ideal solution to reduce heat and power loss in your next product? Yes! And it's in stock right now at DigiKey for immediate shipment. Order today and you'll receive your components faster than a diode switching time, for integration into your BOM by tomorrow afternoon.

Picture 1 Shows the EPROM (Erasable Programmable Read Only Memory) fitted with a label marked JAF7. EPROM's can be erased by removing the sticker and exposing the device to strong ultraviolet light. I incorrectly refer to it as a PROM (Programmable Read Only Memory. Below it is the old leaking PLL backup battery. Wikipedia article about EPROM’s (Erasable Programmable Read Only Memory) Link / example of a Fluke 77 DMM (Digital Multi Meter) I mention that I used it to check the battery voltage of the original PLL backup battery which I think was manufactured around 1984. I was very surprised to find that the battery which is likely 40 years old had a battery voltage of 3.2V which is a healthy voltage. The battery still needed changed due to liquid (probably acid) which can be seen in picture 1 being present on the top surface of the battery. Picture 2 Shows me extending the new battery terminal using the leg of a 1.8 kilo ohm resistor. Note that the resistor leg is shiny because this time I scraped away the surface oxidation using pliers prior to soldering it in place. This improves the final solder joint. I mention I have an EC2000 Weller Electronically controlled soldering station. Here is a link to an example I found

Picture 1 Shows the EPROM (Erasable Programmable Read Only Memory) fitted with a label marked JAF7. EPROM's can be erased by removing the sticker and exposing the device to strong ultraviolet light. I incorrectly refer to it as a PROM (Programmable Read Only Memory. Below it is the old leaking PLL backup battery. Wikipedia article about EPROM’s (Erasable Programmable Read Only Memory) Link / example of a Fluke 77 DMM (Digital Multi Meter) I mention that I used it to check the battery voltage of the original PLL backup battery which I think was manufactured around 1984. I was very surprised to find that the battery which is likely 40 years old had a battery voltage of 3.2V which is a healthy voltage. The battery still needed changed due to liquid (probably acid) which can be seen in picture 1 being present on the top surface of the battery. Picture 2 Shows me extending the new battery terminal using the leg of a 1.8 kilo ohm resistor. Note that the resistor leg is shiny because this time I scraped away the surface oxidation using pliers prior to soldering it in place. This improves the final solder joint. I mention I have an EC2000 Weller Electronically controlled soldering station. Here is a link to an example I found

The NESCAC Championships are this weekend for track and field, and they are approaching quickly for the rest of the Bates spring sports. Hear from some of the recent spring standouts on this week's episode of the Bates Bobcast! Interviews this episode: 1:01 -- Jacob Goff '24, Men's Track & Field (Male Bobcat of the Week). 8:16 -- Kylie Musante '26, Women's Track & Field (Female Bobcat of the Week). 13:43 -- Delaney Rankin '26, Softball. 18:48 -- Andrew Frey '24, Men's Rowing captain, 2V stroke seat. 27:24 -- Oli Seline '24, Women's Rowing 2V coxswain.

This week's EYE ON NPI will make you say "Yeee-haww", to the buckin'-and-boostin' bronco known as the Richtek RT6160A Buck-Boost Converter with I²C Interface (https://www.digikey.com/en/product-highlight/r/richtek/rt6160a-buck-boost-converter). The RT6160A is a high-efficiency, single-inductor, synchronous buck-boost converter that can provide up to 3 Amps of current to a dynamically-configurable voltage from 2.025V to 5.2V. With an amazing 2uA quiescent current, this chip lets you add an advanced power supply for the price of an LDO that will let you design with the smallest possible battery. We're big fans of Richtek for low quiescent power supply chips - our favorite 3.3V LDO is the RT9080-33 (https://www.digikey.com/en/products/detail/richtek-usa-inc/RT9080-33GJ5/6161634) which can provide up to 600mA with a 0.5V dropout, and a really nice 4uA quiescent current. This is great for deep-sleep wireless projects where you've got a chip with ultra-low power snooze modes, like the ESP32 - we were able to get down to 10.5 uA in deep sleep thanks to the RT9080! (https://learn.adafruit.com/adafruit-itsybitsy-esp32/low-power-use). Compare that to the AP2112K which we used to use, has a quiescent current of 55uA. However, the RT9080 is a LDO fixed at 3.3V@600mA - and of course, LDOs have that dropout which translates to power lost. If you want to sip every last Coulomb out of the battery on hand, you'll need a DC/DC converter. Usually we see a buck converter - since you are converting from a Lithium Polymer battery, you'll have 3.7V nominal, 4.2V peak voltage and maybe you'll buck that down to 3V. If you want to really get the best possible range of performance, you can go with a buck boost (https://en.wikipedia.org/wiki/Buck%E2%80%93boost_converter). That way you can buck down from 3.4-4.2V and then as the battery starts drooping, the chip switches into a boost mode to cover the 2.7V~3.2V range. The RT6160A is a Buck-Boost converter that seems well designed for battery-powered projects, with an input and output range of about 2 to 5V. The default output is 3.3V and you can 'select' between two voltages by toggling a GPIO pin. This makes it easy to adjust the desired voltage and then swap from 'high' to 'low' voltages without an I2C command. Why would you want two voltages? Well, you could use 3.3V or greater for when you want the best performance from a radio, then drop down to 2.5V when the radio isn't on and you want to reduce both the conversion current and also reduce your chip quiescent current: most microcontrollers will use lower current at lower voltages since they are not pushing around as much current onto the internal logic FETs. Combine this with a microcontroller's dynamic clock frequency configuration and you've got a simple system to squeeze more current out of your battery. And usually you have to 'spend' a lot of current to run the DC/DC converter, but this chip has an amazing 2uA quiescent current - lower than most LDOs we've used, and amazing for an up-to-3A output device. If you want to have the lowest quiescent, highest-flexibility power management chip in your next design, the Richtek RT6160A Buck-Boost Converter with I²C Interface (https://www.digikey.com/short/hv7fm4nt) is an excellent choice: Richtek really know their power supplies and they keep it nice and simple so you can get to integration instantly. Best of all, DigiKey has the RT6160A (https://www.digikey.com/short/hv7fm4nt) in stock right now, for immediate shipment, and $1.32 by the reel! All you need is some ceramic caps and an inductor. For fast testing in your application, there are also some EVB_RT6160AWSC (https://www.digikey.com/short/0p80hqvj) eval boards in stock. Order today and you can be waving your cowboy hat in celebration by tomorrow afternoon.

Josh sits down for a conversation with Colton Runnels. They discuss Colton's background in athletics from the pinnacle of brotherly competition, The Day of The 2V, to his infamous first 5k race in cross county, and more recently enjoyment in long-distance running.They discuss Colton's first marathon experience this January at the Walt Disney World Marathon. He also gives an eye into the race and shares tips for those running Disney in the future.Colton illuminates how his relationship with God has impacted his growing enjoyment of running, as well as how increased patience and trust can come from relying on God as you learn something new.They discuss movies, from Oscar snubs to favorite films, their, "thought to be final" times at the theater before the pandemic, and finally, upcoming movies that are on their lists.Colton shares some great advice he's received from his Dad and also from fellow 5Q5K'er, Jeffrey Chang.For their run, Josh and Colton ran in Dallas down Turtle Creek before making a little loop at Mockingbird and heading back. Let us know where you got active while listening, and check out Josh and Colton's segment on Strava here -> https://www.strava.com/segments/36586529Have any topics you'd like us to discuss in future episodes? Share your thoughts at: 5q5kpod@gmail.comWant more 5Q5K? Follow the pod: https://www.instagram.com/5q5kpod/Follow Josh: https://www.instagram.com/josh.williams.44/

Alt du trenger før du setter opp laget ditt til runde 1.ChipsDobbeltrunde 3Den siste spissplassenMå vi ha noen fra Glimt?De beste valgene i hver lagdel og priskategoriOdd og HamKamKapteinsdilemma i runde 1 og 2Våre lagSøndag kl. 16:30 går vi live på vår YouTube-kanal for å svare på spørsmal, komme med siste nytt, og spikre fast våre egne lag før byttefristen kl. 17:55. Du kan vinne tur til EM, samt fete Samsung-produkter. Sjekk ut årets premier: https://www.eliteserien.no/nyheter/tidenes-premiedryss-i-eliteserien-fantasy Kjenner du noen som kanskje vil prøve seg på Eliteserien Fantasy for første gang i år, da kan de sjekke ut denne videoen om hvordan man oppretter lag, og hvordan spillet i grove trekk fungerer: https://youtu.be/eXcmtgbInZg?si=BtHqgkTTxd9cue08 Bli med i ligaen vår! Ligakode: gpuv81 Kampprogramsoversikt: https://docs.google.com/spreadsheets/d/168WcZ2mnGbSh-aI-NheJl5OtpTgx3lZL-YFV4bAJRU8/edit?usp=sharing Følg oss gjerne på Twitter og Instagram @ToKapteiner.

This week's EYE ON NPI is a part of a balanced breakfast, wait no we mean a balanced battery pack! It's STMicroelectronics' AEK-POW-BMS63EN Battery Management System Module (https://www.digikey.com/en/product-highlight/s/stmicroelectronics/aek-pow-bms63en-battery-management-system-module) featuring the L9963E automotive multicell battery monitoring and balancing IC (https://www.digikey.com/short/q4jw21t1). This chip brings automotive-grade battery management to any product designer, at a great price, so you can keep your batteries monitored and balanced for a safe and long usage life. All cars have batteries, and if you have a internal combustion engine car, you're probably familiar with the 12V lead acid battery (https://www.diehard.com/vehicle-batteries/) that needs replacing every 5-10 years, these batteries do not power the moving car itself, just the lights, stereo, electrical system and the spark plugs needed to get the engine running. These batteries are pretty simple, there are two big lugs, a ground and a +12V, inside is 6 series Lead Acid cells, of 2V nominal each. The battery is charged by the engine, and while you don't want to over or under-charge lead-acid batteries are pretty forgiving. In EV electric vehicles, the batteries have to have much higher energy density (https://en.wikipedia.org/wiki/Energy_density) so they use Lithium Ion cells, often '18650' cylindrical cells. These are connected in long series strings, to provide high voltages and then parallelized to give high currents. The same batteries are also used in e-scooters, e-skateboards and other micro-mobility devices, they're very low cost, and packs are easy to make. BUT, Lithium-based batteries, as part of the high energy density, have a lower life and are more sensitive to charge and discharge cycles. One of the things we have to worry about is keeping the batteries balanced. That means that we have to monitor each cell in the string carefully to make sure the state of charge matches the rest. The ST L9963E does this in two ways (https://www.digikey.com/short/q4jw21t1), first is per-cell voltage monitoring, and also per-string current monitoring. Once each cell's state of charge is known, internal or external FETs can be used to shunt current from each cell during the charge cycle, with the goal of bringing the cells back into balance at the cost of charge rate because now we're going to charge every cell as slow as the 'worst' cell. However, this keeps the system safe from overcharging, and is a lot less expensive/complex than active balancing. Since this chip is fairly complex, having a ready-to-go eval board that is already set up with the isolated SPI interface is a worthy investment. You can get started fast and just integrate the AEK-POW-BMS63EN directly into your prototype while you work out your battery management system. The board has USB-like ports on either side but these are actually two-wire isolated SPI, which protects your low-voltage microcontroller or computer from possibly getting zapped by the 48V+ battery. You can use USB A-A cables, since the pinout will work fine, but just be aware you can't plug it into your computer. To connect the opposite side to your micro, you'll also need to pick up a de-isolator AEK-COM-ISOSPI1 (https://www.digikey.com/en/products/detail/stmicroelectronics/AEK-COM-ISOSPI1/19721659). Finally you'll need to write the SPI interface library for managing the battery. We found one published L9963E library that might get you started (https://github.com/squadracorsepolito/L9963E_lib) - written by the Squadra Corse student Formula SAE teams. (https://squadracorsepolito.com/) If you have a project with large batteries and you want an automotive-grade battery management system, the L9963E automotive multicell battery monitoring and balancing IC (https://www.digikey.com/short/q4jw21t1) and matching Evaluation Board (https://www.digikey.com/short/c00jq224) will make it easy to get started. And best of all, both are in stock right now for purchase at DigiKey! Place your order today and your order will ship in moments, so you can get started with battery management by tomorrow afternoon.

JFK UPDATES Swanson CarmineThe Ochelli Effect 10-19-2023 Mike Swanson and Carmine SavastanoCarmine REFERENCE LINKSI. Lauren Sforza, Secret Service agent raises questions about JFK ‘magic bullet' theory, The Hill, thehill.comhttps://thehill.com/blogs/blog-briefing-room/4197958-secret-service-agent-raises-questions-about-jfk-magic-bullet-theory/II. C.A.A. Savastano, New Documents Reveal Officials Destroyed Far More Evidence Related to the Kennedy Assassination than Previously Believed, May 24, 2023,https://www.tpaak.com/tpaak-blog/2023/5/11/government-officials-destroying-the-evidentiary-recordIII. C.A.A. Savastano, March 23, 2023, How The Stories Of These Soviet Cold War Defectors Reveal the Intelligence Abyss, TPAAK Historical Research, tpaak.comhttps://www.tpaak.com/tpaak-blog/2023/3/12/defectors-moles-and-the-intelligence-abyssIV. C.A.A. Savastano April 27, 2023, How The Stories Of These Soviet Cold Defectors Reveal the Intelligence Abyss, TPAAK Historical Research, tpaak.comhttps://www.tpaak.com/tpaak-blog/2023/4/14/how-the-stories-of-these-soviet-cold-war-defectors-reveal-the-intelligence-abyss-pt-2V. C.A.A. Savastano July 10, 2023, How The Stories Of These Soviet Cold Defectors Reveal the Intelligence Abyss, TPAAK Historical Research, tpaak.comhttps://www.tpaak.com/tpaak-blog/2023/7/8/how-the-stories-of-these-soviet-cold-war-defectors-reveal-the-intelligence-abyss-pt-3MICHAEL SWANSONBE IN THE KNOW:https://wallstreetwindow.comTWITTER:https://twitter.com/tradermike_1999FACEBOOK:https://www.facebook.com/tradermikeBOOKS BY MICHAEL SWANSON:The War State: The Cold War Origins Of The Military-Industrial Complex And The Power Elite, 1945-1963https://www.amazon.com/gp/product/B00EWLGXHW/ref=dbs_a_def_rwt_bibl_vppi_i0Why The Vietnam War?: Nuclear Bombs and Nation Building in Southeast Asia, 1945-1961 By Michael Swansonhttps://www.amazon.com/Why-Vietnam-War-Southeast-1945-1961-ebook/dp/B08FHBS17KJFK LANCER conference NIDGet Info and Tickets here:https://jfklancerpublications.com/November In Dallas ConferenceFriday Nov. 17th - Sunday Nov. 19th27th annual JFK Lancer ConferenceSpeakers IncludeAlan Dale & John NewmanAlex HarrisAndrew KielBart KampBill SimpichBrent HollandCarmine SavastanoChuck OchelliDavid Boylan & Larry HancockDick RussellDoug CampbellEric Hunley & Mark GroubertGreg DoudnaJames CorbettJanet Groden & Robert GrodenJeff MeekJefferson MorleyJim GochenaurJohnathon CairnsLarry SchnapfMatthew DouthitMonica Perez-JimenezMike SwansonPaul BleauRex BradfordRob Clark & Joe BorelliRobert (Reynolds) NelsonStuart WexlerVince PalamaraGet Info and Tickets here:https://jfklancerpublications.com/KEEP OCHELLI GOING. You are the EFFECT if you support OCHELLIhttps://ochelli.com/donate/Ochelli Link Treehttps://linktr.ee/chuckochelliCelebrate 10 years of The Effect as we explore 60 years since The Public Execution of The 35th and perhaps last real POTUS 11-22-63.https://www.paypal.com/paypalme/ochelli/or PayPal Addressblindjfkresearcher@gmail.comor Patreonhttps://www.patreon.com/ochelli“He who knows only his own side of the case knows little of that. His reasons may be good, and no one may have been able to refute them. But if he is equally unable to refute the reasons on the opposite side, if he does not so much as know what they are, he has no ground for preferring either opinion.”John Stuart Mill

This week's EYE ON NPI stands alone as a fantastic new solution for high power charging of large battery packs and also power boosting from battery to system: it's ADI/Maxim's MAX77789 Standalone 3.15A Charger (https://www.digikey.com/en/product-highlight/a/analog-devices/max77789-standalone-3-15a-charger), an all-in-one power management IC that lets you ditch DC power plugs and simplifies your BOM, at an excellent price. We'll also be covering the MAX77787 (https://www.digikey.com/short/wzv7095b) which is the fraternal-twin-sister product: using I2C instead of resistor settings for configuration. We've been covering USB Type C PD sinks and supplies for about a year here on EYE ON NPI & The Great Search, they're an excellent way to ditch those DC barrel jack power supplies (https://learn.adafruit.com/usb-pd-hacks/) and allow folks to use a single connector and standard power supply (https://www.youtube.com/watch?v=C90UnNAlCFQ) for various voltages, from 5V-20V at up to 5A. There's plenty of chips that will connect to a PD source and negotiate that voltage for you (https://www.youtube.com/watch?v=yQea9IEmf28) but now we can start to take advantage of USB PD for battery charging as well! This week's dynamic duo does pretty much everything for battery management. As devices get more complex, and battery cost goes down, the packs included in products are getting bigger. If you're trying to charge a 5Ah battery at standard 5V/1A rates, it will take at least 5-8 hours to do so, when folks really want 1-2 hour charge rates. The MAX77789 and MAX77787 have a buck converter that will deliver up to 3A to the battery for 3x faster charging. But, if you try to draw 3A from a USB 5V power cable, that built-in resistance will cause a voltage droop - remember we need at least 4.5V to have the headroom for charging up to 4.2V or 4.35V Lithium batteries. Thus, these chips use USB PD (https://learn.adafruit.com/understanding-usb-type-c-cable-types-pitfalls-and-more) to request higher voltages when available: 9V or 12V means that we can draw less current to get the same amount of power, which means less resistance loss over the cabling. For pre-C chargers, such as Samsung or Apple or Quick Charge (https://learn.adafruit.com/understanding-usb-type-c-cable-types-pitfalls-and-more) the USB D+/D- pins are used. In such cases where you want to have the data pins available for USB data/sync, you'll need something like the MAX20334 (https://www.digikey.com/short/p8b23vf3) data line switch to flip the pins back to your MCU. The MAX77789 uses resistors on the IFAST, ISET and INLIM lines to set the charge rate, timeout, and pack float voltage, the MAX77787 uses I2C. Both have a couple configuration pins, and LEDs for status monitoring. Both have the ability to also be turned into a boost converter - you can't use both charging and boosting at the same time, but since you can use the SYS voltage when connected to USB, you'll have at least 5V either way. The booster is fixed to 5.1V output. On the '89 the boost is enabled by GPIO, the '87 enables it over I2C. Both chips are available in 0.4mm pitch BGA - which means pad-in-via and multi-layer boards in order to pass the inner configuration traces out. Many of the traces are tripled-or-quadrupled to provide the current carrying capability of 3A charge and 6A peak discharge. An eval board is also available (https://www.digikey.com/short/4dc80hwz) which makes quick verification easy. For the I2C configuration version there's also desktop software to try out various settings - the standalone version has jumpers so you can attach any resistor value. Both the ADI/Maxim MAX77789 (https://www.digikey.com/short/j7zhtj4h) and MAX77787 (https://www.digikey.com/short/wzv7095b) Standalone/I2C 3.15A Chargers are in stock right now at DigiKey for immediate shipment. It's great to see forward momentum in chip design releases now that the shortages have abated: only a year ago we were scrambling for diodes and op-amps and now we have a wealth of great new products to choose from! Order one of these powerful Lithium battery management chips today and you'll have it shipped immediately so that you can start integrating it into your new design by tomorrow afternoon.

Primeira Leitura: 1 Tessalonicenses 5,1-6.9-11 Leitura da primeira carta de São Paulo aos Tessalonicenses – 1Quanto ao tempo e à hora, meus irmãos, não há por que vos escrever. 2Vós mesmos sabeis perfeitamente que o dia do Senhor virá como ladrão, de noite. 3Quando as pessoas disserem: “Paz e segurança!”, então de repente sobrevirá a destruição, como as dores de parto sobre a mulher grávida. E não poderão escapar. 4Mas vós, meus irmãos, não estais nas trevas, de modo que esse dia vos surpreenda como um ladrão. 5Todos vós sois filhos da luz e filhos do dia. Não somos da noite nem das trevas. 6Portanto, não durmamos, como os outros, mas sejamos vigilantes e sóbrios. 9Deus não nos destinou para a ira, mas para alcançarmos a salvação por meio de nosso Senhor Jesus Cristo. 10Ele morreu por nós para que, quer vigiando nesta vida, quer adormecidos na morte, alcancemos a vida junto dele. 11Por isso, exortai-vos e edificai-vos uns aos outros, como já costumais fazer. – Palavra do Senhor. Salmo Responsorial: 26(27) Sei que a bondade do Senhor eu hei de ver / na terra dos viventes. 1. O Senhor é minha luz e salvação; / de quem eu terei medo? / O Senhor é a proteção da minha vida; / perante quem eu tremerei? – R. 2. Ao Senhor eu peço apenas uma coisa, / e é só isto que eu desejo: / habitar no santuário do Senhor / por toda a minha vida; / saborear a suavidade do Senhor / e contemplá-lo no seu templo. – R. 3. Sei que a bondade do Senhor eu hei de ver / na terra dos viventes. / Espera no Senhor e tem coragem, / espera no Senhor! – R. Evangelho: Lucas 4,31-37 Aleluia, aleluia, aleluia. Um grande profeta surgiu entre nós / e Deus visitou o seu povo (Lc 7,16). – R. Proclamação do Evangelho de Jesus Cristo segundo Lucas – Naquele tempo, 31Jesus desceu a Cafarnaum, cidade da Galileia, e aí ensinava-os aos sábados. 32As pessoas ficavam admiradas com o seu ensinamento, porque Jesus falava com autoridade. 33Na sinagoga havia um homem possuído pelo espírito de um demônio impuro, que gritou em alta voz: 34“O que queres de nós, Jesus Nazareno? Vieste para nos destruir? Eu sei quem tu és: tu és o Santo de Deus!” 35Jesus o ameaçou, dizendo: “Cala-te e sai dele!” Então o demônio lançou o homem no chão, saiu dele e não lhe fez mal nenhum. 36O espanto se apossou de todos, e eles comentavam entre si: “Que palavra é essa? Ele manda nos espíritos impuros com autoridade e poder, e eles saem”. 37E a fama de Jesus se espalhava em todos os lugares da redondeza. – Palavra da salvação.

This week's EYE ON NPI is going to give you life, we're looking at Nexperia's Battery Life Booster ICs (https://www.digikey.com/en/product-highlight/n/nexperia/battery-life-booster-ics), an interesting solution for dealing with common coin cell batteries as an inexpensive power supply for your small electronic products. The marketing copy for this chip series is pretty eye-catching, with copy that they are "designed to extend the life of a typical lithium coin cell battery by up to an order of magnitude (10x) while also increasing its peak output current capability by up to 25x" (https://www.digikey.com/en/product-highlight/n/nexperia/battery-life-booster-ics) Quite a claim! So let's take a look at what this chip can really do, and why we need it to help with our coin battery-powered designs. Primary Lithium LiMnO2 coin batteries (https://www.digikey.com/en/products/filter/battery-products/batteries-non-rechargeable-primary/lithium-manganese-dioxide/90) are hard to beat when you want ultra-dense, low-cost power that is very small. They are the smallest form factor of user-serviceable battery. And the power density of coins - plus their flat shape - makes them great for wearable devices, medical sensors or hearing aids, wireless nodes, anything that is smaller than a finger. With a nominal voltage of 3VDC, and 280 Wh/kg density, they are more dense than a AA alkaline. LiSOCl2 batteries (https://www.digikey.com/en/products/filter/battery-products/batteries-non-rechargeable-primary/lithium-thionyl-chloride/90?s=N4IgjCBcoCxgTFUBjKAzAhgGwM4FMAaEAeygG0QBmANgFZKEQBdIgBwBcoQBldgJwCWAOwDmIAL6SgA) are even more dense, with 3.6V nominal and 500 Wh/kg - twice the density of LiMnO2 or Alkaline. Both are non-rechargeable batteries, and while fairly inexpensive when bought in bulk, they can add up in cost when buying from a grocery store, so making sure that they last a long time is essential for a good customer experience. The Energizer Lithium Coin Handbook and Application Manual (https://data.energizer.com/pdfs/lithiumcoin_appman.pdf) is chock full of good advice for folks who want to use a CR2032 or similar coin battery to power their products. It's written with engineers in mind, so a lot of the document covers how the nominal voltage and current, 3V and 240mAh, are deeply affected by shelf life, internal resistance, temperature, and pulse effects. The biggest downside you will see on coin batteries is their relatively high internal resistance - IR. Whereas alkaline and LiPoly batteries have internal resistance well below 1 ohm, the IR of a CR2032 is 9 ohms. So say you want to draw 100mA from a CR2032, even if just for a few millisecs - that 0.1 A turns into a .9V drop across the IR which means what you thought was a 3V power supply is now 2V - too low for your microcontroller or radio to run. Since the power lost across the IR is 2*I*R and R is fixed, it's doubly important that you keep that I low, so that you can minimize IR loss and use as much of that 700mWh stored energy. In our 100mA example, 30% of the battery energy is lost to resistor heat dissipation! That's where Nexperia's Battery Life Booster ICs (https://www.digikey.com/en/product-highlight/n/nexperia/battery-life-booster-ics) come in. They are designed to be used with products that don't need continuous battery drain, that is they have a very low duty cycle where the user presses a button a few times a day or maybe the sensor node transmits only once a minute. During that short transmit or usage cycle, a radio or LCD display may need up to 200mA but its for a very small amount of time and the voltage needs to be stable. The NBM family of chips do this by slowly sipping a small amount of current from the battery, keeping that I low so that the 2*I*R power loss is minimized, then use that constant current to boost a voltage onto a large storage capacitor. The capacitor is chosen to have high capacitance and high voltage for a large total Joule storage capacity. All four variants of the Nexperia NBM family, NBM7100A (https://www.digikey.com/en/products/detail/nexperia-usa-inc/NBM7100ABQX/19109915), NBM5100A (https://www.digikey.com/en/products/detail/nexperia-usa-inc/NBM5100ABQX/19109703), NBM7100B (https://www.digikey.com/en/products/detail/nexperia-usa-inc/NBM7100BBQX/19110140) and NBM5100B (https://www.digikey.com/en/products/detail/nexperia-usa-inc/NBM5100BBQX/19109874) are in stock right now at DigiKey for immediate shipment! Order today to pick up these chips that will pay for themselves in one battery life-cycle by adding a PMIC to your coin-battery powered products, and DigiKey will ship your chips immediately so you can start integrating them by tomorrow afternoon.

In this podcast we have Bill Brooks talking energy storage system (ESS) Codes, including the NEC, IFC, IBC, IRC, IEC, but mostly the NEC. Be sure to get Sean and Bill's latest book, which is the 3rd edition of PV and the NEC, based on the 2023 NEC. To find where to get different versions of the NEC including the 2023 NEC for free check out the NEC tab at solarSEAN.com.  Disclaimer: This podcast was recorded in 2021. Keywords/topics covered: Self-consumption, EVs, frequency regulation, voltage regulation, energy storage systems, ac-coupled, dc-coupled, SolarEdge, Generac, Powerwall, Enphase, ac-modules, Outback Power, multimode inverter, Sunny Island, Sunny Boy, Article 702, 705, 710, isolation device vs. transfer switch, microgrid mode, interactive inverters, reverse dc-coupled, 400V bus voltage, dc converters, 690.71, Article 480, electric supply and distribution network, NEC Handbook Commentary, UL9540, UL 1973, LG Chem, nominal voltages, lead-acid 2V, alkali, lithium iron phosphate 3.2V, cobalt type of lithium-ion 3.6V, LiFePo4, nickel, charging ranges, batteries are not constant voltage, dc-converters required, storage battery, telecoms industry battery systems not regulated by NEC, NEC 90.2, equalization, sulfation, Trojan L16, lead-acid battery IRC UL 9540 requirements, no UL 9540 listed lead-acid batteries and IRC requires UL 9540 for residential (in dwellings), off-gassing, stratification, emergency disconnects, Hawaii systems, energy storage system labeling, rules for protection of battery terminals for wiring, Article 110, spaces between batteries on NABCEP PVIP exam, ground fault protection. Links: Bill Brooks, P.E.: www.brooksolar.com www.solarSEAN.com www.HeatSpring.com/SEAN 

This week's EYE ON NPI is going to fuel up your portable battery-powered designs with the Texas Instruments BQ27427 System-Side Impedance Track™ Single-Cell Battery Fuel Gauge (https://www.digikey.com/en/product-highlight/t/texas-instruments/bq27427-single-cell-battery-fuel-gauge) a powerful and inexpensive way to add high quality battery monitoring for charge-rate and aging tracking at the system side. Lithium Ion / Polymer batteries (https://www.digikey.com/en/products/filter/batteries-rechargeable-secondary/91) - you love them for their low cost, high power density, and 3.7V nominal voltage, but keeping them recharged and letting people know exactly how much battery life is left is non-trivial. Like most batteries, common LiPoly/LiIon's start with a high peak voltage right after charging of about 4.2V, drop quickly to about 3.7V and then slowly drift down till they get to 3.0V at which point the cut-off circuitry disconnects until they are recharged. It's really easy to tell when the battery is 90% or greater charge, just look for a voltage of 3.9V or higher. It's also pretty easy to tell when they're 10% or less, the voltage will be 3.3V or lower. But that in-between section is tough because the slope during discharge is very shallow and the voltage changes quite a bit with aging, temperature, and discharge rate (https://www.ti.com/lit/an/snva533/snva533.pdf) So while there are battery monitors that can use just the voltage across the battery terminals, they're not going to be as precise as a coulomb-counter design that takes into account both voltage and current. From TI's White Paper on the topic (https://www.ti.com/lit/wp/slpy002/slpy002.pdf): "An impedance-based battery fuel gauge, as the name implies, uses the measured impedance of the battery's cells as a key input to its remaining capacity predictions. The gauge measures and stores in real-time the battery pack's resistance as a function of state-of-charge. The real-time resistance profiles along with the stored battery open-circuit voltage tables (open-circuit voltage vs. state-of-charge) enables the gauge to predict the battery pack's discharge curve (by adjusting for the IR drop) under any system-use condition and temperature. The algorithm uses current integration (coulomb counting) when the system is ON, and open-circuit voltage measurement when the system is OFF or in SLEEP to adjust remaining state-of-charge (RSOC) up or down (for charge or discharge) the predicted discharge curve. By using the predicated discharge curve, the gauge can accurately calculate the battery pack's remaining discharge capacity (RM) and the system's run-time to empty (RTTE). Since an impedance track gauge continuously adjusts RM and FCC for impedance and the change in impedance, rate and temperature inefficiencies and aging are inherently taken into account, enabling the gauge to maintain a high level of accuracy throughout the life of the system." Texas Instruments has a few chips in the Impedance Track family (https://www.ti.com/video/6287050244001) - the BQ27427 charger (https://www.digikey.com/en/products/detail/texas-instruments/BQ27427YZFR/17748369) is the latest to come out. It's very small, coming as a 9-pin 1.6x1.6 BGA with the center pad being a shared ground so you don't need plugged vias to use. It's also really easy to use, requiring only 2 small stabilization capacitors. Internal temperature monitoring means you don't need a separate thermistor. The high-side 7 mΩ current sense resistor also means one less part on the BOM. I2C pins are used to communicate with the monitor and set battery characteristics. There's also an optional input that can be used to connect to a mechanical or electrical battery insertion switch or to an external thermistor, and an optional output that can be used as a battery low indicator. Because so much is integrated, and the chip is so small, its very easy to pop it into your design between the battery terminal and the VBAT lines that go to your battery charger and power supply. The peak battery voltage and capacity are easy to look up since they're written on the battery. For other configuration settings you can use BQStudio / GaugeStudio (https://www.ti.com/tool/BQSTUDIO) with the TI battery devboard to characterize and customize the learning cycle. Either way, you will need to write the configuration to the sensor on every boot. Pick up the Texas Instruments BQ27427 (https://www.digikey.com/short/18pb1ftw) and other chips from the Impedance Track family (https://www.digikey.com/en/products/result?s=N4IgjCBcoLQCxVAYygMwIYBsDOBTANCAG4B2aWehA9lANrhwCsAnBALqEAOALlCCAF8hQA0) stocked at DigiKey for immediate shipment. Order today and you'll get precision lipoly monitoring that will work with any setup or battery configuration by tomorrow afternoon!

This week's EYE ON NPI is enjoying the beautiful weather with you, whether sitting in the sun or lounging in the shade - all's good because we've got Nexperia's NEH2000BY Energy Harvesting Power Management IC with embedded solar MPPT capability! (https://www.digikey.com/en/product-highlight/n/nexperia/neh2000by-energy-harvesting-power-management-ic) This tiny, low-cost chip is a one-stop solution for extending the life of your product by making it powered by small solar cells. This chip is perfect for wearables or miniature sensor nodes, maybe with a LoRa radio, WiFi or Bluetooth Low Energy where space and pricing is important. For example, an asset tracker, traffic monitor, activity watch, or agricultural sensor network: stuff that is outside anyways so it'll be designed for outdoor use and have lots of sun exposure. We've covered other MPPT tracking solar harvesting chips (https://blog.adafruit.com/2021/04/23/eye-on-npi-max20361-tiny-single-multi-cell-solar-harvester-maximintegrated/), and the NEH2000BY has some advantages in size, cost and simplicity. Either use it to increase the time between charges, or use it to have your product be fully encased with no need for charging at all, thanks to the power of the SUN (https://solarsystem.nasa.gov/solar-system/sun/galleries/?page=0&per_page=25&order=created_at+desc&search=&href_query_params=category%3Dsolar-system_sun&button_class=big_more_button&tags=sun&condition_1=1%3Ais_in_resource_list&category=51) The Nexperia NEH2000BY energy harvester (https://www.digikey.com/short/hpnfttw3) is designed specifically for use with solar cells because cells collapse under high current draw - which is what batteries want when they are charging up so that they can be ready to go ASAP! When drawing current from a solar cell, at the very beginning the voltage is very high, then is slowly drops down as more is drawn until the input voltage collapses completely. So you have to be very careful when drawing current - too little and you lose out on efficiency, too much and your power goes away completely. There's a 'sweet spot' right in the middle, where you can get the most power output, which is called the Max Power Point. (https://en.wikipedia.org/wiki/Maximum_power_point_tracking) And this point varies with how much sunlight you get - so it isn't something you can pre-program in with a comparator or anything. Instead, the energy harvester has to wiggle the power draw forward and back to find the maximum point. For large-scale solar installations, you'd have a microcontroller do the math for you, and adjust throughout the day - it isn't hard to do MPPT it just takes measurement and computation. But in small and low-current situations, you can't spend all your power budget on a microcontroller to manage your battery charger. First up, almost no extra components are needed: just a stabilization capacitor plus a capacitor for the switched-cap boosting doubler. Note that there's no inductor because it seems to use a switched-cap boosting method for approximately 2x voltage output - so you will need to spec a panel that, when the MPPT voltage is approximately doubled, you'll have about 0.3V above the battery voltage. There's some math in the datasheet to work this out but basically in the end, use a panel with an open-circuit voltage - Voc - that is about 0.7 times the battery voltage. So, e.g. if you're using a Lipoly (https://www.digikey.com/short/h02tmj1q), with a VBat of 4.2V, use a 3V solar panel - which is very common and inexpensive. For NiMH cells, add up the total series voltage before multiplying by 0.7 for the Voc desired. To keep your battery from over-charging, either use a separate battery charger chip that will do the constant-current to voltage-limited charging, or use a low cost over-voltage protection (OVP) chip as recommended in the datasheet. If you'd like to integrate the Nexperia NEH2000BY Energy Harvesting Power Management IC (https://www.digikey.com/short/hpnfttw3) into your next solar-powered product, thank your lucky stars because DigiKey has the NEH2000BY in stock right now at a great price for immediate shipment. With the long summer days ahead, you can order today and be max-power-point'ing before the sun sets tomorrow.

Pravdy a mýty o jedle 2Vďaka dlhoročnému výskumu a lekárskej praxi sa britský vedec a lekár Tim Spector pokúša v knihe Čo naozaj jeme? objasniť problematiku stravovacích návykov, poukázať na nedostatky vedeckých dôkazov týkajúcich sa vplyvu jedla na organizmus a zároveň poodhaliť zákulisie potravinárskeho priemyslu.

Primeira Leitura: Gênesis 9,1-13 Leitura do livro do Gênesis – 1Deus abençoou Noé e seus filhos, dizendo-lhes: “Sede fecundos, multiplicai-vos e enchei a terra. 2Vós sereis objeto de medo e terror para todos os animais da terra, todas as aves do céu, tudo o que se move sobre a terra e todos os peixes do mar: eis que os entrego todos em vossas mãos. 3Tudo o que vive e se move vos servirá de alimento. Entrego-vos tudo, como já vos dei os vegetais. 4Contudo, não deveis comer carne com sangue, que é sua vida. 5Da mesma forma, pedirei contas do vosso sangue, que é vida, a qualquer animal. E ao homem pedirei contas da vida do homem, seu irmão. 6Quem derramar sangue humano, por mãos de homem terá seu sangue derramado, porque o homem foi feito à imagem de Deus. 7Quanto a vós, sede fecundos e multiplicai-vos, enchei a terra e dominai-a”. 8Disse Deus a Noé e a seus filhos: 9“Eis que vou estabelecer minha aliança convosco e com vossa descendência, 10com todos os seres vivos que estão convosco: aves, animais domésticos e selvagens, enfim, com todos os animais da terra, que saíram convosco da arca. 11Estabeleço convosco a minha aliança: nenhuma criatura será mais exterminada pelas águas do dilúvio, e não haverá mais dilúvio para devastar a terra”. 12E Deus disse: “Este é o sinal da aliança que coloco entre mim e vós, e todos os seres vivos que estão convosco, por todas as gerações futuras. 13Ponho meu arco nas nuvens como sinal de aliança entre mim e a terra”. – Palavra do Senhor. Salmo Responsorial: 101(102) O Senhor olhou a terra do alto céu. 1. As nações respeitarão o vosso nome, / e os reis de toda a terra, a vossa glória; / quando o Senhor reconstruir Jerusalém / e aparecer com gloriosa majestade, / ele ouvirá a oração dos oprimidos / e não desprezará a sua prece. – R. 2. Para as futuras gerações se escreva isto, / e um povo novo a ser criado louve a Deus. / Ele inclinou-se de seu templo nas alturas, / e o Senhor olhou a terra do alto céu, / para os gemidos dos cativos escutar / e da morte libertar os condenados. – R. 3. Assim também a geração dos vossos servos † terá casa e viverá em segurança, / e ante vós se firmará sua descendência. / Para que cantem o seu nome em Sião / e louve ao Senhor Jerusalém, / quando os povos e as nações se reunirem / e todos os impérios o servirem. – R. Evangelho: Marcos 8,27-33 Aleluia, aleluia, aleluia. Senhor, tuas palavras são espírito, são vida; / só tu tens palavras de vida eterna! (Jo 6,63.68) – R. Proclamação do Evangelho de Jesus Cristo segundo Marcos – Naquele tempo, 27Jesus partiu com seus discípulos para os povoados de Cesareia de Filipe. No caminho perguntou aos discípulos: “Quem dizem os homens que eu sou?” 28Eles responderam: “Alguns dizem que tu és João Batista; outros, que és Elias; outros, ainda, que és um dos profetas”. 29Então ele perguntou: “E vós, quem dizeis que eu sou?” Pedro respondeu: “Tu és o Messias”. 30Jesus proibiu-lhes severamente de falar a alguém a seu respeito. 31Em seguida, começou a ensiná-los, dizendo que o Filho do Homem devia sofrer muito, ser rejeitado pelos anciãos, pelos sumos sacerdotes e doutores da Lei, devia ser morto e ressuscitar depois de três dias. 32Ele dizia isso abertamente. Então Pedro tomou Jesus à parte e começou a repreendê-lo. 33Jesus voltou-se, olhou para os discípulos e repreendeu a Pedro, dizendo: “Vai para longe de mim, satanás! Tu não pensas como Deus, e sim como os homens”. – Palavra da salvação.

On today's show we're talking with Corin Wiggins. You might remember that we interviewed her back in 2021 for our "next generation of coxswains" episode. At the time, 17 year old Corin was a member of the Atlanta Junior Rowing Association and already had four years of coxing experience. But what really caught our attention was her Instagram account - @TheBlackCoxswain - which she began in an effort to connect athletes of color in the rowing community. Two years later, she's a recruited member of Hobart College men's crew, and has forged a community of thousands online and on the water, while finding her own coxing voice. . CATEGORIES: Coxing, Culture . QUICK LOOK: 00:00 - Intro 02:00 - Southern transplants to NY 05:55 - Learning coxing skills and confidence from coaches at AJRA, and developing the trust of her athletes 09:45 - Rapid Fire Q&A 14:15 - Getting on the water in winter 15:30 - From thinking of quitting to getting addicted to the multi-tasking challenge of coxing 17:55 - HS senior season in the 2V and transition to first year at Hobart College 20:44 - Winter training camp in FL, learning about practice management, and mentoring novice coxswains 26:15 - History of rowing at Hobart College goes back to 1860; alumni visit the crew  31:10 - Establishing @TheBlackCoxswain IG account, growing a community of thousands, and open the door for networking and recruiting opportunities 37:12 - The importance of mentors 40:47 - Corin's idea of the perfect stroke begins and ends with rhythm 42:37 - This one time, at ODP HP camp: when everything went right 49:39 - bonus outtake . To see photos of Corin, and get links to the people, clubs, and events mentioned in this episode, check out the show notes on our website. . This episode is made possible in part by  Breakwater Realty Group, Concept2, Live2Row, and our Patrons.

The Joule Thief is a delightfully simple circuit that can light an LED that requires 2V or more from a battery that is depleted to 1V or less. There are three components in addition to the battery and LED: an NPN transistor, a resistor and a double wound inductor. The key thing about the inductor is that the same core shares two windings but in opposite directions. The explanation of how it works is simple enough, as long as you already understand how inductors and transistors work. In other words, it isn't simple at all! In short, the double wound inductor and transistor conspire to generate a transient high voltage spike and so turn LED on and off so rapidly that the human eye cannot perceive it. The idea of such a circuit is approaching its centenary but the name itself is only around 20 years old. I recommend you check out Big Clive's web site as it was he who came up with the name "Joule Thief". I also recommend this video in which he constructs a circuit using some ninja-level soldering skills.

Premiär av fotbollstouchen säsong 2Världsmästerskapet i fotboll inträffar var 4:e år och inför mästerskapet har vi ett avsnitt komplett med genomgång av alla grupperna.Egna tankar kring mästerskapet och allt från våra favoriter att vinna, bästa målskytt och mycket mer. Precis som i säsong 1 går vi igenom headlines och quiz med ett fokus på VM!Hoppas ni gillar avsnittet och vi ses nästa vecka.  Hosted on Acast. See acast.com/privacy for more information.

Entre os cargos em disputa nas eleições de 2022 está o de deputado federal. O Durma com Essa desta quinta-feira (29) fala sobre o poder dos 513 parlamentares na relação com o governo federal em 2023 e as tendências de voto para as eleições de domingo (2). O programa também tem a participação do redator Marcelo Roubicek, que comenta os eixos de influência de cargos executivos na gestão da máquina pública, do redator Marcelo Montanini, que fala do plano da Rússia de anexação de territórios ucranianos, e da e da editora-executiva da Gama Revista, Isabelle Moreira Lima, que dá dicas culturais na seção “Achamos que vale”, inspirada na newsletter homônima que você pode assinar clicando no link: https://weverify-demo.ontotext.com/#!/similaritySearchResults&type=Videos¶ms=https%3A%2F%2Fgamarevista.uol.com.br%2Fassinar-newsletter%2F . Leia a editoria Ponto Futuro, no link: https://www.nexojornal.com.br/pontofuturo/Materiais de referênciaVídeo: A cláusula de desempenho explicadaLink: https://www.nexojornal.com.br/video/Saiba-o-que-%C3%A9-e-como-funciona-a-cl%C3%A1usula-de-desempenho?posicao=2Vídeo: O quociente eleitoral explicadoLink: https://www.nexojornal.com.br/video/Como-%C3%A9-o-c%C3%A1lculo-de-votos-para-a-elei%C3%A7%C3%A3o-de-deputados

Vi tager snakken om børn og medier! Hvad bør vores børn se og høre på? Hvad bør de ikke? Og må vi overhoved diktere det som forældre? Vi taler også om hvilke tegnefilm der er et go eller no-go. Panelet får lov til at tage stilling til tegneserier som Johnny Bravo, Aladdin og den japanske anime-genre. Vi diskuterer også forholdet mellem medier som tegnefilm, tiktok og gaming på den ene side, og vold, #MeToo og eksotificering på den anden. Vi slutter samtalen med reflektioner om Quranens kapitel 6 vers 66, som opfordre til at beskytte en selv og ens familie.Gæster: Waseem Hussain, fængselsimam og far til 3 og Sabrine Benmoumou, pædagog og mor til 2Vært: Elias RamadanProgramredaktør: Omar AlkhatibProducer: Julie Kragh

O Pros decidiu nesta segunda-feira (15) em convenção retirar a candidatura do coach e empresário Pablo Marçal à Presidência e apoiar a chapa do ex-presidente Luiz Inácio Lula da Silva. Com isso, o petista passa a ter uma aliança com dez partidos, o maior número da disputa de 2022 e igual apenas à chapa da também petista Dilma Rousseff em 2010. O “Durma com essa” destrincha a aliança e o presidencialismo de coalizão que faz com que vários dos partidos que no passado apoiaram Dilma hoje estejam com o presidente Jair Bolsonaro. O episódio também tem a participação da cientista política Luciana Santana, que fala sobre as disputas nos estados.Material de referência:Ensaio de Marta Mendes da Rocha e Luciana Santana:https://www.nexojornal.com.br/ensaio/2022/O-que-est%C3%A1-em-jogo-nas-elei%C3%A7%C3%B5es-2022-as-disputas-nos-estados?posicao-home-centro=2Vídeo sobre presidencialismo de coalizão:https://www.nexojornal.com.br/video/video/O-que-%C3%A9-o-presidencialismo-de-coaliz%C3%A3o-no-Brasil-hojeConheça a Ponto Futuro, nova editoria do Nexo, clicando aqui:https://www.nexojornal.com.br/pontofuturo

SAMPLER & SANS REPROCHES(Radio Transmission)Playlist N∞ 1249... - Lundi 09 Mai 2022 - Horaire : 20:00 >> 22:00EBM - SYNTHWAVE - INDUSTRIAL & RELATED MUSICGALAXIERADIO 95.3FM www.galaxieradio.fr----------------------------------------->[ S&SR Selection de la semaine...DOSSIER SPECIAL LIEGE powered by JL Marchal (www.synthpop80.com) ]...Guest Interview: Benoit Buyse (DREADFOOL)...Guests Interview: Sam & Hal Kubrick (DELERITAS) ...Guest Interview: Eric Le Manchiniste (DI*OVE) < Artiste - Titre - Version - Format - Production - Label > DIOVE "Fly Naked (feat. Leaether Strip)" MCD: DIversion (Autoproduction) DELERITAS "Le Jour Du Saigneur (DREADFOOL Remix)" CD: First Breath (Autoproduction) DREADFOOL "We Should Fight" DIG EP: We Should Fight (Nu Body Records) DREADFOOL "Disarm" CD: Atom For Peace (Porpax Records) DREADFOOL "Weaponized Drone" CD: Atom For Peace (Porpax Records) DREADFOOL "Death" CD: Atom For Peace (Porpax Records) DREADFOOL "AKR (feat. DELERITAS)" CD: Atom For Peace (Porpax Records) DELERITAS "Brand New Apocalypse" DIG: (Autoproduction) DELERITAS "A Journey" DIG: !! From Forthcoming Production !! (Autoproduction) DELERITAS "Duality" DIG: !! From Forthcoming Production !! (Autoproduction) DELERITAS "Beat But Unbeaten" DIG: !! From Forthcoming Production !! (Autoproduction) ETHAN FAWKES & DREADFOOL "Some Fall (DELERITAS Remix)" DIG EP: Some Fall (Nu Body Records) DELERITAS "Quarantine 1.2V" DIG: !! From Forthcoming Production !! (Autoproduction) DELERITAS "Fake Warriors (feat. Thomas Hubert)" DIG: !! From Forthcoming Production !! (Autoproduction) PETER HOOK & THE LIGHT "Passover (Live)" TCD / DVD: So This Is Permanence (Live Here Now) GOOSE "Shadowplay" CD: Endless (Universal Music Belgium) UELE LAMORE "The Party" DIG EP: Series Mania 2019 OST (Kwaidan Records) W.H. LUNG "Gd Tym" DIG LP: Vanities (Melodic) DIOVE "Liberty (feat. Nina / Sacha)" MCD: DIversion (Autoproduction) DIOVE "Stranger Year" MCD: DIversion (Autoproduction) DIOVE "EBM feat. Nina (Old Brew Mix)" MCD: DIversion (Autoproduction) PROMO THANKS TO : DREADFOOL (Benoit Buyse), DELERITAS (Sam & Hal Kubrick), DI*OVE (Eric Le Manchiniste), Jean Luc Marchal (SYNTHPOP 80), Danièle Ludwig (L'AERONEF), DAGEIST (Frédéric Strzelczyk) .. PODCAST: ITUNES :https://podcasts.apple.com/fr/podcast/sampler-sans-reproches/id1511413205 MIXCLOUD : https://www.mixcloud.com/SetSRradio/PODCLOUD :https://podcloud.fr/studio/podcasts/sampler-et-sans-reproches DEEZER :https://www.deezer.com/fr/show/1181282 GALAXIE RADIO http://galaxieradio.fr/ go to replay Sampler & Sans ReprochesAMAZON MUSIC https://music.amazon.fr/podcasts/9718c2fe-d841-4339-a3e5-82c31d018ed7/SAMPLER-SANS-REPROCHESARCHIVE.ORG https://archive.org/download/s-sr-1249-09.05.22/S%26SR1249-09.05.22.mp3

 Der Instagram Account von Aileen: instagram.com/ai_leen_be Innerhalb eines Jahres hat Aileen (35 J.) es mit der Hilfe ihrer Coaches Kristin und Katharina geschafft, über 40 KG abzunehmen und ihr Wohlfühlgewicht zu erreichen. Auf ihr Ergebnis kann sie mehr als stolz sein! Wie ihre Abnehmreise verlief und was sie dabei alles gelernt hat, verrät sie euch in diesem Interview. Hier geht es zum YouTube-Video: https://youtu.be/2V_hu-aVOdUKostenfreies Erstgespräch: janbahmann.de Support the show (https://www.janbahmann.de)

Samba(Chambar) Leko - "Words of Life(English)".3gp // 1 KORINTU 13Í'sɛ̀l ɔ̀dkudvɛɛ̀l bəd bìá1Má kíìn báàn nwɔŋ gáàmbə̀ mɛ́l nwɔŋ bərú, bít má kíin báàn nwɔŋ gáàmbə̀ *malaika bəd mɛ́l nwɔŋú, zá mə́ kə̀ í'sɛ̀l naà síngə́, nwɔŋ aa mə́ tə́ udǹ də, in tɛdńná. Tə́ kìínmbə̀ súú ùùkè kíin, bít kə̀ gilə̀wà ùùkè kíin. 2Vɛnɛ́b dá mə́ kíin báàn kpaŋ̀ nwɔŋ aa vúgà oò naà rə bə̀ udǹmbìá. Má kíin báàn kuùmbə̀ kə̀ ingabké gbà'á naú, bít má kíìn báàn inmə́'ke bəd gə́ kóólé gaàmbìá. Má kíin báàn tɛ́mbagké gbà'á bɔbm̀bìá, bɔ̀b kɔ̀l bəd pa'ǹ gbá'ǹmbìá. Zá mə́ kə̀ í'sɛ̀l naà síngə́, mə́ in tɛdńná. 3Máá kíìn báàn nwɔŋ aa vúgà Vɛnɛ́b naà rə nɛ́b bəd gaàmbìá, bít máá kíìn báàn si' mə́ piìnmbə̀, bɔ̀b oò duù kúnú. Zá mə́ kə̀ í'sɛ̀l naà síngə́, aarə gbá' mə́ in nə́ŋ̀má gá. 4Í'sɛ̀l gə́, sidkéá, bít insɔ̀ɔ̀nkè ma'ǹmbìá. Mà' kisɛ̀l gá, mà' kùlə́ gá, bít pà' yíl gá. 5Í'sɛ̀l mà' in sə́ə́mnúù bə̀ nə́ŋ̀má gá. Sàà yíl oò bə̀ ní gá, mà' nɔ̀m gá. Kò' ɔ̀d oò nə́ŋ̀ tɛ́mú gá. 6Í'sɛ̀l kìì tɛ́m làmkè kə̀ invaksə́ gá, zá kìì tɛ́m làmkè kə̀ nwɔŋ sɔ̀ɔ̀ná. 7Í'sɛ̀l kág in gə́ kóólé, bàg in gə́ kóólé, zíg tɛ́m in gə́ kóólé ba, bít sìd in gə́ kóólé. 8Í'sɛ̀l gə́, bɛ́d bə gá. Nwɔŋ bəraa vúgə́là Vɛnɛ́b naà rə, dákíìn vədǹ nyàm nə́ŋ̀á. Mɛ́l nwɔŋ bəd gə́, dáàn bɛ́ràá. Ingabké kɔ̀, dákíìn bɔ̀bàá. 9Kàandə, ingabké bəd tə́ kə̀ bɛŋàá, bít nwɔŋ aa Vɛnɛ́b gám piià gbantumsə̀ oò bəd naà rə kɔ̀, tə́ kə̀ bɛŋàá. 10Zá sɛŋ aa in nyɛdkè dáà yaànà bərə, in aa bɛŋə̀ tə́ bərə dákíìn bɔ̀bàá. 11Sɛŋ aa mə́ tə́ wàà bɛ̀ŋ́sə̀ rə, mə́ gám nwɔŋ kə̀ wàà bɛ̀ŋ́sə̀ kíin, bít mə́ mà' in kə̀ wàà bɛ̀ŋ́sə̀ kíìn. Zá zɔ̀ŋ aa kàŋ mə́ bíl nɛ́ŋ váàndo gə́, lɛ́' mə́ dàà yɛb bɛ̀ŋ́sə̀ tù' rə kíìn kóólé. 12Bə́ŋyée gə́, bə́n bé'ǹ yàá, lúŋ tə́ nyìsə̀ tígə́lú bìá. Zá báannə̀ bé'ǹ nyɛdkè kə̀ núù bə́n da. Bə́ŋyée, nɛ́ŋə̀ aa gàb mə́ kùrə̀ sɔ̀ɔ̀nkè síndə, zá gàb máù kíìn kudǹ sɔ̀ɔ̀nkè, kìínmbə̀ Vɛnɛ́b gàb mə́ rə kíin. 13Bə́ŋyée in aa toorə yée ləə sùnú' Tɛ́mbagkéá, tɛ́m zígǹmbìá, kə̀ í'sɛ̀lá. Zá in gbà'á aa kàŋ kàn nɛɛ̀n in bəraa toorə yée rú rə, í'sɛ̀lá.

Samba(Chambar) Leko - "Words of Life(English)".3gp // 1 KORINTU 13Í'sɛ̀l ɔ̀dkudvɛɛ̀l bəd bìá1Má kíìn báàn nwɔŋ gáàmbə̀ mɛ́l nwɔŋ bərú, bít má kíin báàn nwɔŋ gáàmbə̀ *malaika bəd mɛ́l nwɔŋú, zá mə́ kə̀ í'sɛ̀l naà síngə́, nwɔŋ aa mə́ tə́ udǹ də, in tɛdńná. Tə́ kìínmbə̀ súú ùùkè kíin, bít kə̀ gilə̀wà ùùkè kíin. 2Vɛnɛ́b dá mə́ kíin báàn kpaŋ̀ nwɔŋ aa vúgà oò naà rə bə̀ udǹmbìá. Má kíin báàn kuùmbə̀ kə̀ ingabké gbà'á naú, bít má kíìn báàn inmə́'ke bəd gə́ kóólé gaàmbìá. Má kíin báàn tɛ́mbagké gbà'á bɔbm̀bìá, bɔ̀b kɔ̀l bəd pa'ǹ gbá'ǹmbìá. Zá mə́ kə̀ í'sɛ̀l naà síngə́, mə́ in tɛdńná. 3Máá kíìn báàn nwɔŋ aa vúgà Vɛnɛ́b naà rə nɛ́b bəd gaàmbìá, bít máá kíìn báàn si' mə́ piìnmbə̀, bɔ̀b oò duù kúnú. Zá mə́ kə̀ í'sɛ̀l naà síngə́, aarə gbá' mə́ in nə́ŋ̀má gá. 4Í'sɛ̀l gə́, sidkéá, bít insɔ̀ɔ̀nkè ma'ǹmbìá. Mà' kisɛ̀l gá, mà' kùlə́ gá, bít pà' yíl gá. 5Í'sɛ̀l mà' in sə́ə́mnúù bə̀ nə́ŋ̀má gá. Sàà yíl oò bə̀ ní gá, mà' nɔ̀m gá. Kò' ɔ̀d oò nə́ŋ̀ tɛ́mú gá. 6Í'sɛ̀l kìì tɛ́m làmkè kə̀ invaksə́ gá, zá kìì tɛ́m làmkè kə̀ nwɔŋ sɔ̀ɔ̀ná. 7Í'sɛ̀l kág in gə́ kóólé, bàg in gə́ kóólé, zíg tɛ́m in gə́ kóólé ba, bít sìd in gə́ kóólé. 8Í'sɛ̀l gə́, bɛ́d bə gá. Nwɔŋ bəraa vúgə́là Vɛnɛ́b naà rə, dákíìn vədǹ nyàm nə́ŋ̀á. Mɛ́l nwɔŋ bəd gə́, dáàn bɛ́ràá. Ingabké kɔ̀, dákíìn bɔ̀bàá. 9Kàandə, ingabké bəd tə́ kə̀ bɛŋàá, bít nwɔŋ aa Vɛnɛ́b gám piià gbantumsə̀ oò bəd naà rə kɔ̀, tə́ kə̀ bɛŋàá. 10Zá sɛŋ aa in nyɛdkè dáà yaànà bərə, in aa bɛŋə̀ tə́ bərə dákíìn bɔ̀bàá. 11Sɛŋ aa mə́ tə́ wàà bɛ̀ŋ́sə̀ rə, mə́ gám nwɔŋ kə̀ wàà bɛ̀ŋ́sə̀ kíin, bít mə́ mà' in kə̀ wàà bɛ̀ŋ́sə̀ kíìn. Zá zɔ̀ŋ aa kàŋ mə́ bíl nɛ́ŋ váàndo gə́, lɛ́' mə́ dàà yɛb bɛ̀ŋ́sə̀ tù' rə kíìn kóólé. 12Bə́ŋyée gə́, bə́n bé'ǹ yàá, lúŋ tə́ nyìsə̀ tígə́lú bìá. Zá báannə̀ bé'ǹ nyɛdkè kə̀ núù bə́n da. Bə́ŋyée, nɛ́ŋə̀ aa gàb mə́ kùrə̀ sɔ̀ɔ̀nkè síndə, zá gàb máù kíìn kudǹ sɔ̀ɔ̀nkè, kìínmbə̀ Vɛnɛ́b gàb mə́ rə kíin. 13Bə́ŋyée in aa toorə yée ləə sùnú' Tɛ́mbagkéá, tɛ́m zígǹmbìá, kə̀ í'sɛ̀lá. Zá in gbà'á aa kàŋ kàn nɛɛ̀n in bəraa toorə yée rú rə, í'sɛ̀lá.

Tom Anderson explains radio frequency electronics (RF). Elecia and Christopher try to keep up. We also took a detour into bass guitar electronics. One confusing jargon part is that radio power (in dBm) is discussed as though it is voltage. For example, 10 dBM is 2V peak-to-peak; there is an implied 50 ohm resistor in the P=V*V/R calculation. The the wiki for more about decibel-milliwatts. Tom talked about dollhouses, aka Smith charts (wiki). (We also talked about Bode plots (wiki).) Light travels about 1 foot in 1 nanosecond (11.8 inches, 30 cm). Admiral Grace Hopper is well known for giving out nanoseconds. The guitar company Tom mentioned working with is Alembic. Find Tom's writing on Medium and the Tempo Automation blog. He is on Twitter as @tomacorp and was previously on Embedded 379: Monstrous Cable Corporation.

This week's EYE ON NPI is so flexible, it's thinking of joining the Rockettes (https://www.rockettes.com/christmas/)! It's TDK's BCS Series Low Illumination Film Solar Cells that are designed for direct integration of products, particularly wearables or credit card size and thickness electronic components. This amorphous panel comes with 6 cells, each about 0.4V open-circuit, for a total of about 2.6V output and 30mA. The nifty part about this panel is just how incredibly thin it is - only 0.2mm which means it can be bonded onto almost any surface or device. And unlike most panels that are made of monocrystalline cells, it is ultra flexible and will not crack or break. TDK's BCS series are thin, lightweight, and flexible solar cells offering high power generation efficiency under fluorescent and LED light sources. The cells are made of amorphous silicon film substrate, and designs can be customized according to various shapes and applications. Because BCS series solar cells offer output stability in low and dim light, they are suitable for use in products used indoors. Additional benefits of solar cells include cost reduction in electrical wiring and battery replacement. When used in combination with a primary battery, solar cells can extend battery life and usage time of rechargeable devices. BCS series solar cells can be used in applications such as watches, wearables, beacons, wireless sensor nodes and other IoT power supply applications, smart cards and locks, and more. Compared to many other ultra-low power source harvesting techniques (https://en.wikipedia.org/wiki/Energy_harvesting) like vibration/piezoelectric or heat, solar is very efficient, very small and very easy to use. Amorphous cells are a great option for folks who want to have indoor-powered electronics without hassle. Simply connect the two terminals to you circuitry plus and minus: when there's ambient light, you'll get voltage output. These panels may look familiar if you've ever had a solar-powered calculator (https://en.wikipedia.org/wiki/Solar-powered_calculator) - often times you'd have to hold these up to a lamp to get them 'kick-started'. Those pocket calculators with LCDs are a great example of ultra-low current draw electronics that could run off of a tiny cell, we're talking under a milliamp here. That's something to keep in mind when integrating panels, they produce about 1/10th of the power folks think they do! The biggest challenge that folks have with implementing solar panels is that they don't really act like a true voltage source or current source: they're somewhere in the middle, like a negative diode. With solar panels, the voltage and current vary constantly depending on sunlight available. They are unstable! That instability confuses electronics battery chargers, which causes them to do one of two things: rapidly turn on and off as they try to draw more current from the panel than possible and/or draw much less current than they can, to keep the voltage from collapsing. So you've got a few choices for implementing this panel: 1) have electronics that is OK with a widely varying input voltage: about 2V to 5V max, and will brownout safely when light disappears all of a sudden. Then, make sure it uses less than a few mA of current so that it doesn't collapse the IV curve by drawing too much power 2) use a super capacitor or rechargeable battery of some sort, that is trickle charged by the panel. once the voltage on the cap gets to a certain amount, the circuitry can use that to perform whatever calculators or data transfer required. 3) use a smart energy-harvesting chip like the LTC3588 (https://www.digikey.com/en/products/detail/analog-devices-inc/LTC3588EMSE-1-TRPBF/2216345) to manage the load on the panel and either charge a battery or directly power electronics with a cleaner supply than directly powered from the solar cell. Sometimes these chips can even operate as a MPPT charger (https://en.wikipedia.org/wiki/Maximum_power_point_tracking) to get the very max power possible. If you're interested in adding a super-flexible and ultra-thin green power supply to your next design, check out the BCS4430B6 (https://www.digikey.com/short/vwm3z35j) and friends. The TDK BCS Series Low Illumination Film Solar Cells (https://www.digikey.com/short/vwm3z35j) are in stock right now at Digi-Key for immediate shipping! Order now and you will be relaxing in the sun by tomorrow afternoon. See these at Digi-Key at https://www.digikey.com/short/vwm3z35j

24-09 - 35º DIA DA NOSSA QUARESMA – GABRIEL – DEUS ME ENVIOU PARA ANUNCIAR. Sinal da cruz O anjo do Senhor anunciou à Maria e ela concebeu do Espírito Santo. Ave Maria. Eis aqui a serva do Senhor faça se em mim segundo a sua Palavra. Ave Maria. E o Verbo de Deus se fez carne e habitou entre nós. Ave Maria. Rogai por nós santa mãe de Deus para que sejamos dignos das promessas de Cristo amém. Infundi Senhor em Nossos corações a vossa graça nós vo-lo suplicamos afim de que, conhecendo, pela anunciação do anjo Gabriel à Virgem Maria, a encarnação de Jesus Cristo vosso Filho, cheguemos pelos merecimentos de sua paixão e morte de cruz, à glória da ressurreição, pelo mesmo Jesus Cristo vosso Filho que convosco vive e reina na Unidade do Espírito Santo. Amém! A palavra que nos ilumina é do livro de Lucas. Nos tempos de Herodes, rei da Judéia, houve um sacerdote por nome Zacarias, da classe de Abias; sua mulher, descendente de Aarão, chamava-se Isabel.6Ambos eram justos diante de Deus e observavam irrepreensivelmente todos os mandamentos e preceitos do Senhor.7Mas não tinham filho, porque Isabel era estéril e ambos de idade avançada.8Ora, exercendo Zacarias diante de Deus as funções de sacerdote, na ordem da sua classe,9coube-lhe por sorte, segundo o costume em uso entre os sacerdotes, entrar no santuário do Senhor e aí oferecer o perfume.10Todo o povo estava de fora, à hora da oferenda do perfume.11Apareceu-lhe então um anjo do Senhor, em pé, à direita do altar do perfume.12Vendo-o, Zacarias ficou perturbado, e o temor assaltou-o.13Mas o anjo disse-lhe: Não temas, Zacarias, porque foi ouvida a tua oração: Isabel, tua mulher, dar-te-á um filho, e chamá-lo-ás João.14Ele será para ti motivo de gozo e alegria, e muitos se alegrarão com o seu nascimento;15porque será grande diante do Senhor e não beberá vinho nem cerveja, e desde o ventre de sua mãe será cheio do Espírito Santo;16ele converterá muitos dos filhos de Israel ao Senhor, seu Deus,17e irá adiante de Deus com o espírito e poder de Elias para reconduzir os corações dos pais aos filhos e os rebeldes à sabedoria dos justos, para preparar ao Senhor um povo bem disposto. Zacarias perguntou ao anjo: Donde terei certeza disto? Pois sou velho e minha mulher é de idade avançada.19O anjo respondeu-lhe: Eu sou Gabriel, que assisto diante de Deus, e fui enviado para te falar e te trazer esta feliz nova. (Lc 1, 7-19) Eu penso todos os dias na alegria que é poder ter a certeza de que Deus jamais desiste de nós. Quando o anjo Gabriel foi enviado por Deus para anunciar o nascimento de João batista, estava sendo preparado para a humanidade o presente mais belo e sublime. O profeta Isaias sonhou este dia com as belas palavras “O povo que andava nas trevas viu uma grande luz; sobre aqueles que habitavam uma região tenebrosa resplandeceu uma luz.2Vós suscitais um grande regozijo, provocais uma imensa alegria; rejubilam-se diante de vós como na alegria da colheita, como exultam na partilha dos despojos.3Porque o jugo que pesava sobre ele, a coleira de seu ombro e a vara do feitor, vós os quebrastes, como no dia de Madiã.4Porque todo calçado que se traz na batalha, e todo manto manchado de sangue serão lançados ao fogo e tornar-se-ão presa das chamas;5porque um menino nos nasceu, um filho nos foi dado; a soberania repousa sobre seus ombros, e ele se chama: Conselheiro admirável, Deus forte, Pai eterno, Príncipe da paz”. (Is 9,1-5), O nascimento de João batista é anunciado pelo anjo Gabriel e João irá preparar os corações, viver o advento para que Deus venha até nós para sempre. EXERCÍCIO DE HOJE – como tenho feito meu advento diário? Como tenho preparado meu coração para acolher Jesus? Oração final para todos os dias – Pai Nosso e gloria à Trindade Santa – santo anjo do Senhor.

On this episode of “Hot Topics in Sales”, we discuss: Key challenges facing business development executives Gartner trend report Frontline sales management  His reason for starting Forecastable.com His non-profit for Autism  Key strategies for successful sales growthTo get your Free Sales Resources for Hypergrowth, click here: https://rocketsalespros.com/free/Please be sure to Subscribe to @Rocket Sales Pros for executive interviews and insights into the world of rapid sales growth. FREE RESOURCES:• (PDF) Ten Secrets to Selling More in 2021• (Video) Leverage the "2V to 2R Method" of value-first messaging  to open conversations with your ideal prospects WITHOUT turning them off before you get to the pitch• (Video + Calculator) Determine EXACTLY how many leads and weekly meetings you need in order to hit your revenue numbers this month• (Video) See exactly how to generate a higher connection rate and more sales conversations using LinkedInSee how to AVOID the "old school" mistakes you might have been taught by "experts" that don't work in today's digital world.To book a 15-minute success call, click here:https://rocketsalespros.com/book-call/Onward and upward!Andy HedrickCEO / Podcast Hostandyh@rocketsalespros.com(405) 655-9508https://www.RocketSalesPros.com#sales #salesmanagement #forecasting #salescoaching #salesautomation

Primeira Leitura: 1 Tessalonicenses 5,1-6.9-11 Leitura da primeira carta de São Paulo aos Tessalonicenses – 1Quanto ao tempo e à hora, meus irmãos, não há por que vos escrever. 2Vós mesmos sabeis perfeitamente que o dia do Senhor virá como ladrão, de noite. 3Quando as pessoas disserem: “Paz e segurança!”, então de repente sobrevirá a destruição, como as dores de parto sobre a mulher grávida. E não poderão escapar. 4Mas vós, meus irmãos, não estais nas trevas, de modo que esse dia vos surpreenda como um ladrão. 5Todos vós sois filhos da luz e filhos do dia. Não somos da noite nem das trevas. 6Portanto, não durmamos, como os outros, mas sejamos vigilantes e sóbrios. 9Deus não nos destinou para a ira, mas para alcançarmos a salvação por meio de nosso Senhor Jesus Cristo. 10Ele morreu por nós para que, quer vigiando nesta vida, quer adormecidos na morte, alcancemos a vida junto dele. 11Por isso, exortai-vos e edificai-vos uns aos outros, como já costumais fazer. – Palavra do Senhor. Salmo Responsorial: 26(27) Sei que a bondade do Senhor eu hei de ver / na terra dos viventes. 1. O Senhor é minha luz e salvação; / de quem eu terei medo? / O Senhor é a proteção da minha vida; / perante quem eu tremerei? – R. 2. Ao Senhor eu peço apenas uma coisa / e é só isto que eu desejo: / habitar no santuário do Senhor / por toda a minha vida; / saborear a suavidade do Senhor / e contemplá-lo no seu templo. – R. 3. Sei que a bondade do Senhor eu hei de ver / na terra dos viventes. / Espera no Senhor e tem coragem, / espera no Senhor! – R. Evangelho: Lucas 4,31-37 Aleluia, aleluia, aleluia. Um grande profeta surgiu entre nós / e Deus visitou o seu povo (Lc 7,16). – R. Proclamação do Evangelho de Jesus Cristo segundo Lucas – Naquele tempo, 31Jesus desceu a Cafarnaum, cidade da Galileia, e aí ensinava-os aos sábados. 32As pessoas ficavam admiradas com o seu ensinamento, porque Jesus falava com autoridade. 33Na sinagoga havia um homem possuído pelo espírito de um demônio impuro, que gritou em alta voz: 34“O que queres de nós, Jesus nazareno? Vieste para nos destruir? Eu sei quem tu és: tu és o santo de Deus!” 35Jesus o ameaçou, dizendo: “Cala-te e sai dele!” Então o demônio lançou o homem no chão, saiu dele e não lhe fez mal nenhum. 36O espanto se apossou de todos, e eles comentavam entre si: “Que palavra é essa? Ele manda nos espíritos impuros com autoridade e poder, e eles saem”. 37E a fama de Jesus se espalhava em todos os lugares da redondeza. – Palavra da salvação.

La magie et la sorcellerie existent depuis l'aube de l'humanité, elles englobent de nombreuses pratiques, telles, la nécromancie, la goétie, la divination, l'alchimie, la théurgie, le spiritisme et bien d'autres encore. Notre voyage va consister en une présentation de l'histoire de ces différentes pratiques, mais également des mythes qui l'entoure. Nous poursuivrons l'aventure avec la notion de tradition. Une pratique est-elle plus crédible si elle repose sur une filiation ancienne ou et il possible de crée de nouveaux concepts totalement indépendants ? L'histoire de la magie et de la sorcellerie nous fera rencontrer certaines des plus grandes figures de l'ésotérisme (en bien ou en mal), comme Eliphas Levi, Aleister Crowley, HC Agrippa, Appolonius de Tyane et bien d'autres. PS : l'émission n'a pas vocation à définir si les pratiques ésotériques sont valables ou non au niveau scientifique, mon étude se borne à la présentation historique et mythologie de la tradition occulte. Accès à la vidéo : https://youtu.be/2V_c_sSkYv4   ▶ Soutenir le podcast sur Tipeee : https://www.tipeee.com/arcana-mysteres-du-monde    ▶ Liste des Accademia : http://arcanatv.fr/liste-des-accademia   

 The Non Political News Podcast is a discussion of the top non political news stories of the week. Hosted by NoPo founder Vera Gibbons and media commentator Mitch Roschelle, each week Vera, Mitch, and John Iannuzzi are joined by a special guest.This week the gang are joined by The Donut Princess of Los Angeles, Mayly Tao. Vera's internet is grouchy, John is Engineering with one hand tied behind his back, but Mitch takes the wheel and brings us a great interview with one of the stars of the new Documentary film, "The Donut King" which follows an immigrant tale of the American dream through Bun Tek “Ted” Ngoy, a Cambodian refugee whose charmed life is full of war, romance, entrepreneurship, racism and a caution about greed. Also, significantly for Ngoy, other Cambodian refugees and their children — donuts.Enjoy episode #2V.The  NoPo podcast is a production of John Iannuzzi's "Park City Productions 06604 LLC”             

The Non Political News Podcast is a discussion of the top non political news stories of the week. Hosted by NoPo founder Vera Gibbons and media commentator Mitch Roschelle, each week Vera, Mitch, and John Iannuzzi are joined by a special guest.This week the gang are joined by the always "high energy", radio journeyman, Mike Gunz. Mike Gunzelman has been on air on ABC Radio, Imus in the Morning (with  late radio legend Don Imus), Sirius XM and idolbi radio. He knows sports, entertainment, and he knows funny. On this episode, Gunz and the gang feed into John's delusion that the NY Islanders could possibly win a 5th Stanley Cup. So close...Also, a new game, "what apps are on your phone?!" Enjoy episode #2V.The  NoPo podcast is a production of John Iannuzzi's "Park City Productions 06604 LLC”             

最低限これは揃えておきた3つの道具を紹介 ▼スケール　コメロン コンベックス マグジャケット 25 テープ幅25mm 5.5M KMC-31RM https://amzn.to/3ygSgiE マグネット・25mm幅・両面 相場はビンピリ。百均〜3000円越えまで ▼さしがね　シンワ測定(Shinwa Sokutei) サンデーカーペンター 15×30 https://amzn.to/3hwuk4E 曲げには弱いがはじめはコレで十分。使い方の幅が広がってきたらいいものを買おう ▼電動ドライバー　マキタ ペン型インパクトドライバTD021(7.2V) バッテリ・充電器付 https://amzn.to/3bxWRD5 用途に合わせて選びたい。安物は×。 便利なのはこれ。電動ドライバー選びには下の放送を聴いて ▼あわせて聴きたい https://podcasts.apple.com/jp/podcast/%E3%81%97%E3%82%93%E3%81%AE%E3%81%99%E3%81%91%E3%83%A9%E3%82%B8%E3%82%AA/id1546943504?i=1000517871540

This week's EYE on NPI is one I've personally got an EYE on for a few months: the TI BQ25792 I2C Controlled, 1-4 Cell, 5-A Buck-Boost Battery Charger. This luxurious charger caught my eye a few months ago and now it's available for purchase and I'm really excited about it. This chip does everything you could ever want from a battery charger. We showed off a charger chip last week that was designed specifically for ultra-low current and voltages - great for TEC's or small solar cells. But what if you want HUGE charging capabilities? The TI BQ25792 has you covered, no matter your application. First great thing - support for any size battery. We have lots of battery packs in the Adafruit shop, and in particular we use 1S batteries - if there's more batteries they are wired in series. But there's lot of folks who are building robotics that require higher voltages, so they have 2S, 3S, or 4S batteries. This charger can handle any of em, and you can configure the battery pack size using a simple resistor on the PROG port. Second great thing - support for just about any voltage power supply input. Once you set the battery size, the output charging voltage has to be 4.2V-per-cell. Normally that means that if you're charging a 1S battery, you'd want a 5V power supply (4.2V plus some headroom). For 2S you want 9V to 12V, etc. Sometimes you'll see buck or boost chargers that let you have a lower or higher voltage. This chip is a buck-boost so you can have anything from 3.6V to 25V input and it will do the right thing to get you the voltage you need to charge the battery pack you have. There's some efficiency-loss on conversion, but much less than a linear supply and you don't have to worry about needing the exact-right power adapter or USB power supply. (https://e2e.ti.com/blogs_/b/powerhouse/posts/universal-and-fast-charging-a-future-trend-for-battery-powered-applications) OK we've done the output, we've done the input. Now lets look at the creamy middle: This charger has our favorite TI-capability: VINDPM and IINDPM - the ability to track the input voltage to make sure it is not drooping from over-draw. Say you have a battery, you want to charge it at 2A, but the wall adapter maxes out at 1A - you don't want the voltage to collapse on you, it's better to charge slowly at 1A than not at all at 2A. VINDPM/IINDPM auto-monitors the voltage and if it starts dropping, it will reduce the current draw. There's also ICO, which attempts to find the max-power-point for the power adapter, which may not be the exact same thing since there's different buck-boost efficiencies at different voltages. For when you're using USB for power, the charger can auto-detect the 'Apple-style' resistors used to set the max-draw current available. (In theory, we acknowledge it's probably better to just VINDPM/IINDPM when possible but we figure it's also polite to stick to the max-current-draw set by the chargers. Finally, there is an "OTG" mode where the converter 'turns around' and can be a buck-boost that runs off the battery to charge another device. Really a wonderful chip with a lot of capabilities and looks like no matter what it is you're trying to charge or power! I'm ordering some BQ25792 today for a new design I'm working on. From the looks of this datasheet, TI really stepped it up here (pun intended!) to make a battery charger everyone will love. Check out TI's video for a lot more details (https://www.youtube.com/watch?v=Wjk5YWrt8Ww) The BQ25792 is stock right now, for immediate shipment from Digi-Key (https://www.digikey.com/en/products/detail/texas-instruments/BQ25792RQMR/13577777) See on Digi-Key at https://www.digikey.com/short/3q2mnt5t

A bola subiu e o Grego pegou! Está no ar o décimo sexto episódio do Medo De Cervo, sua dose semanal de Milwaukee Bucks aqui no Fumble Na Net! Quando parecia ter encontrado o caminho, o sinal amarelo voltou a brilhar intensamente para o Bucks que se depara agora com mais perguntas que respostas, após um recorde de 2V e 5D nos últimos sete jogos. Milwaukee foi ao oeste encarar Denver, Phoenix, Utah e Oklahoma, e o que já era difícil ficou ainda pior sem Jrue Holiday, desfalque de última hora por conta dos protocolos de Covid-19. Ainda sem ele voltamos para casa e a má fase persistiu diante do Raptors, chegando ao fim somente no reencontro com Oklahoma. Comentamos também sobre os próximos adversários, Sacramento, Minnesota e New Orleans, que nos visitam essa semana e sobre a quinta participação de Giannis Antetokounmpo no All-Star Game.   Pedro Bethânia comanda o programa no estilo rádio ao vivo, sem cortes e sem edição, com comentários de Anderson Paiva, jornalista e amante da NBA!   Trilha sonora: GaZe Clan Radio Edição: Pedro Bethânia   Assine o Feed e não perca nenhum episódio! https://fumblenanet.com.br/feed/medodecervo/   Venha falar conosco acessando nosso grupo no Telegram! Acompanhe as pílulas de notícias seguindo no instagram: @fumblenanet Siga-nos no twitter: @medodecervo, @fumblenanet e @noaropodcast Entre pro nosso grupo no Facebook e participe dos debates: https://www.facebook.com/groups/fumblenanet/

Ni-Cad Battery Deep Dive 00:00 Opening Theme   01:02 Introduction Greetings to the hams working the California forest fires. 03:10 Feedback Tim, KI6BGE, writes about his first radio, a Yaesu FT-747GX, and his first hand-held, an FT-60R, and other rigs. He also asks about cross-band repeating through the FT-8900R in his car. Damon, NN7B, says Richard is his ham hero, and also listens to the Linux in the Ham Shack podcast. He was having a problem downloading the first episode, but that should be sorted out now. Joe, NE2Z, enjoys both podcasts, and made a donation. Thanks, Joe! Bob, KB3OQY, likes the podcast and learns something new in each episode. He also made a donation. 10:43 Donations Thanks to Joe NE2Z and Bob KB3OQY for their donations. If you find anything useful in an episode of Resonant Frequency, consider donating a dollar. That's less than a gallon of gasoline. 13:00 Song "Voodoo Queen" by Tommy Dardar, from the album "Blues Fool" 13:55 Buzzword Memory effect - reality or myth? If you partially discharge a nickel-cadmium battery (NiCad), and recharge it, it may "remember" that point of discharge as it's fully discharged state. The best practice is to fully discharge a NiCad battery pack before recharging, and avoid the use of rapid chargers. A related phenomenon is "lazy battery", where the battery appears to have a full charge, but becomes depleted rapidly when put to use. This is often caused by frequent overcharging, and may be cured by several deep discharge/recharge cycles. 20:29 Song "Wasn't That Enough" by Janiva Magness, from the album "Bury Him At The Crossroads" 22:01 Topic Nicad batteries. This topic was suggested by several messages on the forums. The abbreviation NiCad is a registered trademark of SAFT Corporation. Advantages: lower weight, good charging efficiency, smaller variations in terminal voltage during discharge, low internal resistance, non-critical charging condition. In theory, a nicad battery may be charged and discharged up to 1000 times. 39:06   Comparison to Nickel-metal Hydride (NiMH) 40:42 Disadvantages: higher cost, toxicity, memory effect, and a negative temperature coefficient. Nicad cells are typically 1.2V, while alkaline cells are 1.5V. 45:11 Charging. The typical overnight charge, called a C/10 charge, is accomplished by applying 10% of the battery's total capacity for a period of 14 hours; that is, a 100 mAh battery takes 140 mAh of energy to charge. 53:53 Dendritic shorting. 56:07 Song "Welfare Blues" by Kirk Fletcher, from the album "Shades of Blue" 58:25 Conclusion ail Richard at kb5jbv@gmail.com itter.com/kb5jbv KB5JBV on D-Star via port C on the NE5R repeater. theme music is "Give It All Away", by midliFeCrisis, from the album "Live from the Loft" Closing theme music is "We Gotta Go" by David Henderson at Podsafe Audio. Glossary - See Glossary for terms used on the show. Read More About Resonant Frequency: The Amateur Radio Podcast At www.rfpodcast.info

Þessi reiðmenn eru ferlegir!Reiðhestur no 1Gagnrýni, Reiðhestur no 2Vörn Reiðhestur no 3FyrirlitningReiðhestur no 4: Steinveggur

What makes different battery technologies better for different applications, primary and secondary batteries, state of charge (SOC) vs. depth of discharge (DOD), voltage vs. charge, battery open circuit voltage, battery internal resistance, lithium vs. lead acid, battery nominal voltage, 3.6V, 3.2V and 2V, cycle life factors, energy per weight, energy per volume, power per weight vs. energy, arbitrage, self consumption, max discharge current vs. continuous current, charge voltage vs. nominal voltage vs. float voltage, BMS,  algorithms,  NiMH, NiCad, recycling batteries. To find out more about everything solar and storage, go to solarSEAN.com

Pre-show: Please, please, please vote. The ATP Store returns on 1 November until 14 November… in theory. Follow-up: Peter Pan: Arms akimbo 5G upload speeds Verizon’s 5G lead Photos-related updates Apple Photos file management options Image Capture can import HEIC files if you change a setting on your phone: Settings → Photos → Transfer to Mac or PC → Keep originals Google Photos Marco is aware of the Sonos Move HomePod tip: disable “Hey Siri” on all other devices Marco’s laptop repair covered by credit-card warranty Peak Design combines MagSafe & mechanical fasteners (via Michael Luís Brown) Studio Neat’s Material Dock Thoughts on Apple’s battery specs from Justin Scholz iPhone 12 Pro Reviews Upgrade #323: The Edges are More Interesting Marco’s chamfered MacBook Pro edge blog post Potential Apple Watch unlock fix John’s case request and prospects: Decoded Back Cover Sena Leatherskin MagSafe at 15W speeds …requires Apple’s 20W adapter Alvin Lim’s video USB Power Delivery specs Apple’s Adapters 20W: 5V@3A (15W), 9V@2.2A (20W) 18W: 5V@3A (15W), 9V@2A (18W) 87W: 5.2V@2.4A (12W), 9V@3A (27W), 20.2V@4.3A (87W) 96W: 5.2V@3A (16W), 9V@3A (27W), 15V@3A (45W), 20.5V@4.3A (96W) Lightning Digital AV Adapter Surprise iFixIt MagSafe Teardown Post-show: Marco’s iPhone 12 Thoughts Sponsored by: Backblaze: Unlimited cloud backup for just $6/month. Start a free 15-day trial today. Flatfile: The elegant import button for your web app. Give your users the import experience you always dreamed of, but never had time to build. Become a member for ad-free episodes and our early-release, unedited “bootleg” feed! Become a member!

1 Corinteni 11:2-16 2Vă laud, pentru că întotdeauna vă amintiți de mine și țineți tradițiile așa cum vi le‑am încredințat. 3Dar vreau să știți că Isus Cristos este Capul oricărui bărbat, că bărbatul este capul femeii, iar Dumnezeu este Capul lui Cristos. 4Orice bărbat care se roagă sau profețește având ceva pe cap își face de rușine Capul. 5Și orice femeie care […]

Ep. #007: Join Evan and Shea Hillenbrand, 2X MLB All Star, Founder of Against All Odds Foundation and 2V's Apparel, Realtor and Peak Performance Coach.  In this interview, Shea's energy shines through as he shares insight into his determination and practice routine on the road to the Bigs, his Four Step Focus Formula to take your hitting game consistently to the next level, and offers advice to players on dreaming big, taking responsibility and living on purpose.01:15- Shea's Journey 03:28- Tips on making your dream tangible04:26- His dream of owning a zoo 05:16- The role being a multi sport athlete played in his development09:35- Learning to play multiple positions as a Pro12:03- Key advice he received from Hall of Fame pitcher Pedro Martinez14:10- The Four Step Focus Formula16:22- Advice for youth players managing distractions & responsibilities20:20- Being part of the 1%26:11- 1st Major League All-Star Game experience32:40- Staying relaxed & focused while hitting39:20- Failing your way to success Thank you for being here with us!  Evan and the Born To Baseball Team are looking forward to celebrating your success and sharing this journey together. If you enjoyed this episode please consider leaving a rating or review on Apple or wherever you're listening here. This will help other ball players find the Born To Baseball Podcast and give us more chances to shout out our listeners!     Now, let's play ball!Read show notes here.Show Links:Instagram: @shea_hillenbrandFacebook: @Shea Hillenbrand   @Shea Hillenbrand – Rewrite Your StoryWebsite: http://sheahillenbrand.tv/Born To Baseball Links:Born To Baseball Website BTB Travel Team & Training TrackerInstagram: @borntobaseball Facebook Twitter: @bornto_baseballBorn To Baseball App (BETA Test) on AppleBorn To Baseball App (BETA Test) on Google Play

Ep. #007: Join Evan and Shea Hillenbrand, 2X MLB All Star, Founder of Against All Odds Foundation and 2V’s Apparel, Realtor and Peak Performance Coach.   In this interview, Shea’s energy shines through as he shares insight into his determination and practice routine on the road to the Bigs, his Four Step Focus Formula to […]

"Man kan ikke fortælle folk, hvad de skal gøre, og på nogen måde forvente, at de gør det" Hvorfor er det så svært at gøre ting, man gerne vil, og omvendt så let at gøre de ting, man egentlig ikke vil? Mange har nok prøvet både at falde i dårlige vaner og kæmpe for at skabe nye og sunde vaner. Ofte er der bare langt fra vores rationelle tænkning til vores irrationelle og følelsesstyrede adfærd. Det ved dagens gæst i Lægens Ord en her masse om. Hans navn er Morten Elsøe, han er foredragsholder, podcastvært og kostvejleder, og så arbejder han for at bringe videnskaben tilbage i sundhedsdebatten. Hør om vaner, irrationalitet, konspirationsteorier og skam, og få bl.a. svar på følgende spørgsmål:- Hvorfor kan det være så svært at skabe gode vaner, og hvad virker faktisk, når man vil hjælpe folk med at ændre adfærd? - Kommer vi nogensinde til at kunne gøre op med den myte, at vi er i stand til at styre vores egen adfærd? - Hvad siger vores adfærd gennem Coronakrisen om vores sociale ansvar overfor hinanden? - Hvad betyder skam for vores evne til at ændre uønsket adfærd? - Hvis ansvar er det, at folk bliver stressede på deres arbejdsplads?- Er det et håbløst foretagende at bibringe rationel tænkning til et irrationelt problem?- I en krisetid som denne, hvordan undgår man så at ryge i en fælde med at spise eller drikke mere end man plejer?- Hvorfor skal man stille spørgsmål til sin egen adfærd fremfor at dømme sig selv?Link til Morten Elsøes podcast "Detox din hjerne": https://itunes.apple.com/us/podcast/detox-din-hjerne/id1199859864?mt=2Vært: Imran Rashid Klip og mix: Oliver Ørskov Musik: Kasper Holm Larsen

Another turning point, a fork stuck in the road. Time grabs you by the wrist, directs you where to go. So make the best of this test and don’t ask why. It’s not a question, but a lesson learned in time. It’s something unpredictable, but in the end it’s right. We hope you had the time of your life. We certainly did. Starting way back in August, Tres Amigos los Fantasia Futbol Fiesta have been bringing you witty banter, prescient insight, and actionable directives to help you reach this point: your fantasy football title match. Or maybe the third-place game, or the Toilet Bowl, or you’ve been reduced to attempting to fatten up that DFS bankroll; hey, 60 percent of the time it works every time. But it hasn’t been for lack of trying. We challenge you to find a fantasy football podcast that so painstakingly pairs intelligent analysis with juvenile humor. Where else will you get a breakdown of both the Maginot Line and the Vikings backfield? Why not toss back a Lift Bridge Tan Van or the weekly Grain Belt Premium while looking forward to Bo finishing his 50/50 with a Younghoe? Who else can look at the Tampa Bay receiving corps post-Hamstringagedon and note the literary and reproductive allegories of Ishmael Hymen? In the show to end all shows, or at least the 2019 campaign, you had 2V laying down the Killer Gs at tight end while trotting out a naked Philip Rivers and leaning on the Change Bank for support; Magsh decked out in the ugliest Christmas outfit this side of Tim Allen in Santa Clause 3 while eschewing the ceilings for more floor time and high-probability outcomes; and Bo, with his home life literally going to the dogs, finding the inner fortitude to flawlessly decipher the teleprompter for both the news and weather. In no other 69 plus five minute span of audio will you find more singular fantasy analysis and double entendres from three guys uniquely qualified to drink beer and help you win a fantasy championship. May we present, for the final time in 2019, the Fantasy Football Party podcast. ***** Follow the show on Twitter @TheFFParty and its co-hosts @MplsMaggio, @Bo_Mitchell, and @jtuvey Support your local show sponsors! Use the code FFParty to get a seven-day free trial of rake-free DFS at FantasyDraft. Perk up and slap yourself in the face with this week’s $150,000 Hooters Main Event at https://www.fantasydraft.com/contest/1597677/. At FantasyLabs, the code 10OFF saves you $10 on a trial membership at the site all the FF Party-goers turn to to help set their DFS lineups. Works for hockey and basketball, too; like the Jelly-of-the-Month Club, it’s the gift that keeps on giving. At JL Beers, come for the new breakfast sandwiches and stay… ah, what the heck, stay until you’ve slayed a keg. Odds are you’ll bump into at least two of the three Party-goers somewhere along the way.

With the penultimate week of any self-respecting fantasy football season upon us, the three wise men who make up The Fantasy Football Party convened once again at JL Beers to quaff ales, break hearts, and make podcast magic. With witty repartee snapping like Mike Evans’ hamstring, Tres Hombres los Futbol Fiesta Fantasia shared fantasy playoff and DFS regrets to help you the listener avoid similar fates. Delivering gut feelings from guts in far better shape than Calvin Ridley’s (Narrator: round is a shape), our beloved party-goers delivered actionable advice designed to fatten your wallet. And, like Marvin Jones’ ankle, they gave out… only in this case it was lineups jam-packed with players more than half of you could theoretically pick up and put to good use this week. You had Magsh hip-hopping on the Raheem Mostert locomotive while laying the groundwork for a “Christmas Vacation” reprise (not a remake, a continuation). You had Bo building a gritty, gutty, and sneaky-fast wide receiver corps for his 50/50 team, summing it all up with an Internet meme involving an angry woman (Narrator: She’s not angry, she’s just pointing) and a cat (Narrator: Hey, I know you! I know you!). And you had 2V lamenting the bulk of his playoff teams going udders-up before rallying to give you a never-nude Eli, the Maginot Line of defenses, and the greatest fantasy tight end since J-Lo was a Fly Girl. It was either Socrates or Sean Payton who famously said, “Worry about your freakin’ meat!” We assume at least one of them was talking about Sam the Butcher, but don’t let that dissuade you from dialing up the podcast you see before you and sucking down its content like it was the last glorious drop from the soon-to-be-slayed keg of Prairie Artisan Screenshot. After all, it’s the playoffs; you need to be at the apex of your game… and this is just the podcast to take you there. ***** Follow the show on Twitter @TheFFParty and its co-hosts @MplsMaggio, @Bo_Mitchell, and @jtuvey Support your local show sponsors! Use the code FFParty to get a seven-day free trial of rake-free DFS at FantasyDraft. Perk up and slap yourself in the face with this week’s $175,000 Hooters Main Event at https://www.fantasydraft.com/contest/1587684/. At FantasyLabs, the code 10OFF saves you $10 on a trial membership at the site all the FF Party-goers turn to to help set their DFS lineups. At JL Beers, come for the new breakfast sandwiches and stay… ah, what the heck, stay until you’ve slayed a keg. Odds are you’ll bump into at least two of the three Party-goers somewhere along the way.

The Best Exotic Dub Selecta...With tracks by...Burning Babylon, Dub Addiction meets Kampuchea Rockers Uptown, DU3normal, Hechoamano, Cocoa Tea, Baby Arm Sound System, Gaudi, Nusrat Fateh Ali Khan, Globular, , Earlyw~rm Jackie Mittoo, DubRifles, Alien Dread, Humano Espectral, DoobieSounds, Supa Bassie, Organic, Volfoniq, Vibronics, Zion Dirty Sound, Dubsynaticx, Dr Remix, Jambassa, Candy, _2V, Johnny Redlocks, Sticky [...]