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Summary: The Duralast battery line, exclusively sold by AutoZone and manufactured primarily by Clarios, offers reliable starting power across its Standard, Gold, and Platinum (AGM) tiers. This updated 2026 guide compares Duralast against top competitors like AC Delco, Interstate, and Duracell to help you choose the best automotive battery for your vehicle's electrical demands and climate.IntroductionFinding the right car battery can be a difficult effort for some car owners who are looking for powerful and long-lasting solutions. Nonetheless, the Duralast battery is a great alternative in the business, with a plethora of useful features.Vehicle batteries are critical components that power the electrical system of a vehicle. The batteries also aid in engine combustion and keep the car running smoothly. So, if your automobile won't start, it could be due to a faulty battery. I have some useful information on the producers of this brand, and this post discusses the benefits and drawbacks of utilizing the Duralast battery.Ⅰ What Are the Basics of a Duralast Battery?Duralast Battery Review – AutoZone Product Demo1.1 What is the Duralast Battery?The Duralast battery is AutoZone's exclusive private-label automotive battery line, engineered to deliver reliable starting power in extreme conditions. Various car owners require a dependable battery because they desire a product that will operate properly in difficult settings. Duralast batteries are among the top solutions available on the market.People who use the Duralast battery have given good and significant feedback, and as a result, it is well known that Duralast batteries provide exceptional performance. As a result, they look to be a good substitute for your car's dead battery.Duralast batteries have adequate reservation capacities, and the majority of these batteries have a high amperage in terms of Cold Cranking Amps (CCA). In summary, if you intend to drive throughout the winter, it is essential to hunt for a suitable Duralast battery for your vehicle.1.2 What Are the Key Features of the Duralast Battery?Duralast is an amazing brand since its batteries have a long list of creative characteristics that set them apart from the competition. The particular characteristics will vary depending on the tier of Duralast battery you choose. Some of the factors that set them apart from the competition are as follows:Exclusive Carbon Additives Duralast batteries feature patented technology. They have carbon additions that allow them to recharge faster while also prolonging their lives. As a result, their batteries are dependable even in extreme settings, unlike others that are readily damaged, such as when exposed to extreme temperatures. High-quality Grid and Plate ConstructionThe duralast battery is expected to withstand the test of time due to their cutting-edge architecture of grids and plates. They are not easily corroded or rusted. It also provides them with a longer charge cycle than the majority of its competitors. They also have a fully-framed grid to increase voltage.Large Reserve Capacity One of the most essential technical parameters for automobile batteries is the reserve capacity. It denotes how long a fully charged battery can withstand a load. The duralast battery is well-known for having a large reserve capacity. Because of this, they are dependable even in demanding applications. Industry-leading WarrantyDepending on the brand or kind of Duralast battery you purchase, it comes with a two or three-year warranty. If you have any problems, the manufacturer or vendor will assist you. It might give you peace of mind knowing that your batteries are insured for an extended period.1.3 What Makes the Duralast Gold Battery Stand Out?1.Solid FrameworkThe Duralast Gold lacks AGM protection, which means it requires some kind of structure to protect it from vibrations and other external forces that would degrade the battery's efficiency.Duralast provides an impact-resistant polypropylene shell for this purpose. It is, in fact, as difficult as it sounds. The battery is less likely to be damaged as a result of vibrations because of the strong design. The venting system is an added feature for increased durability. This feature directs gas venting away from the terminal, reducing leakage and corrosion.In addition, the Duralast Gold features a fully-framed stamped grid designed to enhance electrical flow and prevent corrosion. This enables the battery to last significantly longer than most ordinary batteries.2.Sturdy BuildIn addition to the robust framework, the interior and external portions have a tough build quality. The Duralast Gold has a heavy-duty strap and weld system made of a high-grain top alloy and an intercell weld. They work together to safeguard the battery from corrosion and prevent it from failing permanently. In other words, because of these features, this battery will not die on you rapidly.The strong separators are another key design aspect. These are intended to assure complete safety when the battery is utilized. They are sturdy, stable, and dependable, and they lessen the likelihood of battery failure owing to shorts.The duralast gold battery also has High-Density-Paste, which improves cycle performance over most standard batteries' low-density pastes.3.Impressive PerformanceThe Duralast Gold battery has extra lead plates for increased power and vibration resistance. If you drive a car with high power requirements, such as an infotainment system and heated seats, this battery will provide you with all the power you needed while maintaining performance even after extended use.Duralast Gold is designed to provide maximum Cold Cranking Amps and dependable Reserve Capacity that meets or exceeds your vehicle specs, whether you're using it on your personal vehicle, a cab, or a bus.4.Long-term WarrantyA long-term warranty is one of the most appealing features of any battery. As a user, you'd want to know that you're getting the best value out of the battery, even if it's significantly less expensive than most other options on the market. The Duralast Gold has the ideal coverage duration. It comes with a three-year warranty on its parts, making it a safe bet.1.4 What Are the Downsides of the Duralast Gold Battery?Not AGM BatteriesBecause the duralast gold battery is not built on Absorbent Glass Mat (AGM) technology, you will likely miss out on the AGM design's benefits. Because Duralast Gold batteries are not AGM-based, they will require slightly more maintenance in the long run.Not Great for Cold TemperaturesDue to the lack of a suspended electrolyte in these batteries, they may freeze in extreme cold, causing catastrophic damage and shortening the battery's lifespan.1.5 What Are the Pros and Cons of Duralast Batteries? Advantages of Duralast BatteriesThe Duralast battery is made of high-quality materials and contain calcium, making them extremely long-lasting. A Duralast automotive car battery, for example, can last three to five years. Various Duralast batteries, once again, function well in a variety of vehicles and appear to be suitable for a variety of applications.The majority of the goods in this battery line come with a sufficient guarantee, and you may even discover those with a replacement option. Such benefits make it easy for a wide range of people to buy, and they successfully communicate the brand's high quality.This car battery brand, unlike other competitors, concentrates on two major performance factors: the battery's reservation capacity and CCA. As a result, most Duralast batteries deliver 500 CCA or more, making them appropriate for usage in harsh environments.Because of their high reservation capacity, these batteries are a good choice. Surprisingly, polypropylene is used in the building of these batteries, which helps to reduce shocks and vibrations during battery cell movement.Furthermore, the plate and grid integration of these batteries ensures optimum performance by regulating voltage currents and overall heat. This is particularly true when it comes to'starting ups.'Disadvantages of the Duralast BatterySome Duralast batteries on the market have a high self-discharge rate, which shortens their lifespan. Low self-discharge solutions, on the other hand, are available, and while they may appear to be costly, they are well worth the investment.Although the majority of these businesses' products appear to be simple to use, many will require monthly maintenance. Additionally, certain Duralast batteries lack a carrying handle, making them difficult for some individuals to travel with and even install.With this in mind, keep an eye out for the duralast battery that appears to be exclusively compatible with your car. You may come across some interesting ideas, but they may not be fit for heavy-duty applications, and some of them may be prone to overcharging.1.6 What is the Duralast Standard Battery?This battery series contains the fundamental alternatives, all of which have great vibration resistance. These batteries appear to be an excellent choice for many automobile owners since they contain a variety of quick-start features as well as a high CCA that makes them well worth the money. However, as compared to the product lines described above, the Duralast battery warranty of these possibilities appears to be shorter.Among the best-performing Duralast batteries are:Duralast Platinum 35AGM Battery: This alternative is reasonably priced and dependable, with a capacity of up to 650 CCA.Duralast 51R-DLG Battery: This battery is a low-cost choice on the market that appears to be simple to use. Surprisingly, it provides 650 CCA and offers maximum starting power.Battery Duralast 124R-DLG Gold:This Duralast gold automotive battery is useful for SUVs as well as ordinary automobile operations. It has 770 CCA and is hence ideal for driving in cold weather situations.Ⅱ What Types of Duralast Batteries Are Available?Duralast manufactures a variety of batteries based on their intended usage and level of performance. Let's look at the many Duralast battery types.2.1 DuralastDuralast Batteries are the most fundamental series of Duralast Batteries. This series has a reasonable pricing point. This series' high-density plate recipe ensures durability. Its cold cracking amp, quick-start feature, and vibration resistance have elevated it to the top of the pricing range.There are two types of batteries in this series: Duralast (for automobiles) and Duralast Lawn & Garden (from lawnmowers).2.2 Duralast GoldThe Duralast Gold series is designed for cars that require a lot of power. This series of batteries are designed to provide more power than the preceding series. These batteries have significantly improved performance and vibration resistance due to the use of additional lead plates. This is ideal for automobiles equipped with an infotainment system, heated seats, and so on.This series also includes ordinary vehicle batteries (Duralast Gold) as well as lawnmower batteries (Duralast Gold Lawn and Garden).2.3 Duralast PlatinumWith its flat-plate AGM (Absorbent Glass Mat) characteristic, this battery has an amazing design that ensures it powers more. Furthermore, thanks to the excellent seal, this battery is spill-proof.Interestingly, Duralast platinum car batteries have exceptional vibration resistance and may be mounted in any position without causing undue stress. Furthermore, unlike other alternatives, this battery has a high deep cycle capacity (twice the capacity of Duralast Gold).2.4 Duralast MarineDuralast Maritime is a line of the duralast battery designed specifically for use in marine vehicles. These are designed to last a long time and offer the expected performance. Duralast Marine batteries are divided into two types: Duralast Marine Starting Battery and Duralast Marine Deep Cycle Battery.The starting battery provides the cold-cranking amps required to start the boat. The deep cycle one, on the other hand, is designed to run the trolling motor and other accessories when the engine is turned off.Ⅲ What Are the Top 3 Best Duralast Car Batteries?3.1 Duralast 51R-DLG Car BatteryThe 51R-DLG vehicle battery, which weighs 27.81 pounds and is considered the best of their batteries, is cost-effective and powerful. The lightweight design makes it simple to use for both amateurs and technicians. However, if you have to lower your battery, the lack of a handle may be an issue.Pros:Maximum starting torqueSelf-discharge is reduced.As long as it works, it is extremely efficient.Cons:Considered pricey because significantly less expensive alternatives are available on the market.The lack of a handle makes it tough to carry. 3.2 Duralast Platinum Battery 35-AGM Group Size 35 650 CCAThe 35-AGM from their Platinum series is a dependable battery that won't break the bank while still providing efficient power. The product is jam-packed with features that give its competitors a run for their money. To begin with, it weighs 39 pounds, which is the average weight for all AGM batteries.Pros:A strong battery. Appropriate for a wide range of vehicles, from sedans to SUVs, as well as vehicles equipped with cutting-edge technologies that necessitate extra power.Because it is spill-proof and leak-proof, it may be put at any angle.It has a high CCA value of 650, which makes it perfect for cold winter mornings.Maintenance-freeCons:With a reserve capacity of only 100 minutes, the discharge rate is slightly higher.12v/50AH is not the greatest on the market3.3 Duralast Gold Battery 124R-DLG Group Size 124R 700 CCAThe 124R-DLG from their Gold Series is the greatest non-AGM battery available, but it has all of the attributes that make an AGM battery. The frame, like all batteries from this company, is made of polypropylene, which is impact resistant and helps reduce vibration damage. At $169.99, the battery provides a dependable and long-lasting battery in this price range.Pros:If you love chilly weather, the 770 CCA makes it an excellent pick.Long reserve capacity3-year replacement warrantyCons:Not a heavy-duty car batteryProne to overchargingCannot see the battery statusⅣ How Do You Choose the Right Duralast Battery for Your Vehicle?The series you select, like the type of automobile battery, is important. If you choose the basic models, they can only provide a limited number of functions for the amount they charge. You must examine the battery life, amp-hours, discharge time, and guarantee. As a result, it is critical that you select one that is appropriate for your car and its requirements.When it comes to these batteries, the gold and platinum series are the ones that routinely outperform the competition. The silver or standard series is frequently hit or miss, and with only a 2-year warranty, you may want to consider upgrading if possible.The key to purchasing an appropriate battery for your vehicle is as follows.4.1 Pick the Most Suited BatteryThe battery that came with your vehicle is the best one for your vehicle's needs. As a result, when you replace it, the one you choose must outperform or at least equal it. Your local AutoZone can look into and recommend the best battery for your needs, but it is recommended that you switch to a gold or platinum battery.With an upgrade comes the assurance that you have made the greatest decision for your vehicle. If you have a car that is loaded with technological systems, infotainment, and heated seats, you might want to go for a platinum model because it can manage the necessities. Not to mention the lengthy guarantees.4.2 WarrantyWhatever automobile battery you choose, it should have a minimum lifespan of at least two years. Anything less is detrimental to your health. Duralast's standard range comes with a 2-year warranty. Not to be outdone by the gold series, they have enough CCA to manage the power demands of winter.The gold edition comes with a 3-year warranty and has adequate ability to handle conventional car entertainment systems as well as heated seats. However, if you're looking for the most up-to-date technology paired with electrical systems, you could want to consider their platinum edition, which comes with a 3-year battery warranty.4.3 Battery FrameBecause your car battery is frequently located in the trunk, it is subjected to vibrations. If your battery frame is not meant to withstand this, you will quickly lose it. While the standard and gold series are both lead-acid batteries built of polypropylene to withstand impact, the platinum series is composed of an absorbed glass mat, which is in a completely different league.4.4 Reserve CapacityThe reserve capacity of each battery varies and is unrelated to the series. The batteries in all three series have longer reserve minutes. Though the platinum series is the most feature-rich, the gold series lead-acid battery has a higher reserve capacity. As a result, the gold series is more expensive than the AGM.4.5 Capacity for DischargeLet us start with the Platinum line; it is leak-proof and spill-proof, as is typical with AGM batteries. As a result, among its several models, it also provides deep-cycle discharge. They have thick plates that allow for extensive discharge without compromising the battery's integrity.The platinum range also provides a deep discharge of 70% to 80%. Any more than that and its lifespan is reduced. This is useful in a vehicle with high power consumption. The gold series, on the other hand, is unable of meeting such power requirements. The battery can be irreversibly damaged by a deep discharge.Ⅴ How Does AC Delco Compare to Duralast?5.1 The Difference Between AC Delco and Duralast BatteryThe table below shows the comparison between two brands in short which is helpful to get a clear overview. AC DelcoDuralastCCAHigherLowerTechnologyAGMNon-AGMWarranty PeriodUp to 42 monthsUp to 36 monthsPriceSlightly HigherReasonableAverage Service Life4-6 years 3-5 yearsDuralast and AC Delcoboth compete in the same pricing range.AC Delco is appropriate for high-end automobiles where dependability is essential.Duralast is a wonderful choice because of its low cost and superior customer service.5.2 AC Delco BatteryAC Delco is a subsidiary of the well-known American automobile manufacturer General Motors. Aside from batteries, the company manufactures a wide range of automobile parts, making it one of the major part manufacturers in the United States.5.3 Benefits Of the AC Delco BatteryAC Delcobatteries are well-suited for use in GM automobiles.The performance of AC Delco batteries may be relied on for high-end exotic vehicles.Because you will never have to worry with terminal corrosion, the batteries are genuinely maintenance-free.AC Delco batteries, with larger reservoirs, can hold a charge for a longer period of time than competitors.5.4 Key Factors Before Choosing Between AC Delco And Duralast BatteryLet's get started with a detailed comparison of Duralast vs AC Delco vehicle batteries.1. Battery ChemistryTo begin with, the duralast battery lacks AGM technology, but AC Delco batteries do. The advantage of going with AGM is that you won't have to worry about battery maintenance in the long run.2. CCA RatingsThis is a characteristic that determines how well a battery functions in freezing temperatures. After comparing a few models from both brands, it is evident to me that AC Delco batteries are superior in the winter.3. Average LifespanIt is difficult to predict how long a battery will continue to provide reliable power because it is dependent on various things. According to user comments and mechanics, AC Delco has a life expectancy of 4 to 6 years. However, the average lifespan of Duralast is approximately 3 to 5 years.4. Price And WarrantyYou'll be shocked to learn that for a few extra dollars, you can obtain up to 42 months of warranty from AC Delco, whilst Duralast gives up to 36 months. So, in this case, I don't think saving a small amount is worthwhile; instead, go with AC Delco.Ⅵ How Does Duralast Compare to Interstate Batteries?6.1 What is Interstate BatteryThe Interstate battery is one of the most well-known brands in the United States. They also belong into the category of classic batteries, which are manufactured by one of the industry's oldest battery manufacturers. The company, which has its headquarters in Dallas, intends to meet a wide range of battery size requirements for vehicles of all sizes.The Interstate battery, like Duralast battery, has a wide variety of versions available. They are as follows:DCM0035 Interstate Deep Cycle Battery Interstate SLA1055 5AHAll-Battery 6v Interstate Internal Battery6.2 Pros and Cons of Interstate BatteryProsIn comparison to Duralast, it is quite simple to contact customer service.It is quite economical due to its reasonable pricing range.It is one of the best, most trustworthy battery types available.It has ease of mounting and dismounting in a variety of sizes, as well as usage and maintenance.It is available in portable and compact sizes.The batteries are adequately protected because they are housed in robust and sturdy plastic casings.ConsThe warranty durations are more like just words that are not put into action; it provides a limited warranty.Some of the goods' durability has been called into doubt.6.3 The main difference between Duralast Battery and Interstate BatteryThe three main factors that distinguish the two battery brands are:The Life of the BatteryThe Primary Charge PeriodsThe Indicators of LightThe Duralast battery can recharge at a faster rate than the Interstate battery.The explanation for the quick charging time could be that their storage capacity is smaller and thus charges faster, as opposed to the Interstate battery, which has a huge storage capacity and hence charges slower.Duralast batteries do not include light indications. The Interstate batteries, on the other hand, have LED indicators. It is an additional benefit of interstate batteries over duralast and other normal batteries.Ⅶ Duralast Platinum vs. Gold: Which is Better?Key Differences Between Duralast Platinum and Gold BatteryHere we take a closer look into the key features of Duralast Gold and Platinum.Cold Cranking AmperageIn general, automotive batteries do not work well in cold weather. CCA is an abbreviation for Cold Cranking Amperage. CCA is the starting power of an automobile battery in cold temperatures.At 0°C, a 12V battery can create enough energy for 30 seconds. This energy is known as CCA. The higher a car's CCA level, the greater its starting power.Duralast Gold and Platinum have a substantial difference in CCA. Duralast Gold has a CAA rating of 700 Amps. Duralast Platinum has a CCA rating of 740 Amps. It demonstrates that platinum batteries produce more energy than gold batteries. Duralast platinum batteries, on the other hand, start slowly.SizeThe amazing thing about Duralast batteries is that both Gold and Platinum are available in optimum sizes to fit into every car brand's engine. Duralast batteries are quite popular among car owners because of this benefit.Duralast Platinum, on the other hand, has an advantage in terms of size. This car battery has a spill-proof design that allows the car owner to change the shape of the battery. This is not possible with Duralast Gold.Longevity or DurabilityBoth the Duralast Gold and Platinum automobile batteries have a three-year warranty.You should keep in mind that proper maintenance is required for a decent performance. Otherwise, performance would suffer, and durability will suffer as well.There is no apparent victor in terms of durability between Duralast Gold and Platinum.VoltageA car battery's voltage provides potential energy to drive electrons in different directions. It truly determines the power generating capability of a car battery.Most automobile batteries have a capacity of 12.8V on average.Because both automobile batteries have a capacity of 12V, there is no difference between Duralast Gold and Platinum.Reserve CapacityReserve capacity is sometimes known as reserve minutes. The reserve capacity of a battery in a given load is referred to as its sustainability.This capacity is determined before the car battery has been fully charged. A automobile battery's durable load is often equivalent to 25 amperes or more.The reserve minutes of Duralast Platinum and Gold are 200 and 130 minutes, respectively, which is a big difference.Duralast Platinum has greater durability and sustainability due to its large reserve minutes.Ⅷ How Do Duracell and Duralast Car Batteries Compare?If you're in the market for a new car battery, you might be wondering whether you should go with Duracell or Duralast. Both brands are well-known, but which is the best?This table chart compares Duracell and Duralast battery to assist you in determining which one is best for you.DuracellDuralastModel is Duracell AdvancedModel is Duralast GoldLead Acid Automotive BatteryDeep Cycle Lead Acid BatteryDimension is 13.93 x 6.84 x 7.48 InchesDimension is 10.937 x 7.5 x 6.875 InchesBattery Group Size 19Battery Group Size 48Battery Voltage is 12Battery Voltage is 124 Year Free Replacement Warranty3 Year Free Replacement Warranty100 Minutes of Reserve Capacity130 Minute Reserve CapacityNegative Terminal Location Top Left And Positive Terminal Location Top RightNegative Terminal Location Top Left And Positive Terminal Location Top RightCold Cranking Amps 820Cold Cranking Amps 730Weight Is Around 59.52 lbsWeight Is Around 38.81 lbsImproved Cold Crank CharacteristicsHas Vent Caps For Safe OperationVibration Resistant Due To The Bonding Of The PlatesImpact Resistant Construction Minimizes Damage From VibrationComes With Modern Calcium Technology,  Zero MaintenanceSpecially Designed Paste Formula Improves PerformanceBoth Duracell advanced and Duralast Gold batteries are excellent choices in our opinion. Which is the better solution for you actually depends on your demands. Duracell advanced batteries are the way to go if you require extra power. However, if you want a battery that will last longer, Duralast Gold is the superior choice. Choose the battery that best meets your requirements!Ⅸ Existing Duralast Queries1. How long is the warranty on a duralast battery?2 Year Warranty. We stand behind our batteries with a Nationwide Two-Year Free Replacement Warranty. Duralast Gold & Platinum batteries have a Nationwide Three-Year Free Replacement Warranty.2. Are Interstate Batteries better than Duralast?If you consider availability, quality, and performance, the Interstate battery will be a better option than Duralast. 3. Which battery is better Duralast or AutoCraft?Both were traditionally manufactured by Johnson Controls, which rebranded as Clarios in 2019. So, you can choose either of them for cars or other vehicles with confidence in their shared manufacturing heritage.4. What's the difference between Duralast and Duralast Gold?The Duralast gold and Duralast Cmax golds are both ceramic pads and the same pad material, the only difference is the Cmax pad have a rubber backing to keep them from squeaking.5. How do I know what battery to buy for my car?In order to find the right battery for your car, you'll need to know the group size. Step 1: Check for the group size on your old battery. Step 2: Check your owner's manual for a group size. Step 3: Search online for the group size. Step 1: Look on your battery's label. Step 2: Check your manual. Step 3: Check online.6. What Voltage Duralast Batteries have?The voltage for Duralast batteries is 12 volts.7. How Long Should An AC Delco Battery Last?The life expectancy of an AC Delco battery can vary based on different factors. Generally, users say that one can get the necessary power from AC Delco batteries for up to 5 years.8. AC Delco Or Duralast Battery, Which One To Buy?Now, it is time to put an end to the AC Delco vs Duralast battery comparison. For those who are looking for a long-lasting and durable battery for their vehicle, AC Delco is a very good choice.9. Which of the battery types has the highest power output?Duralast and Interstate batteries although have their output coming at a close range, one is still higher than the other. The interstate batteries come with an average CCA of 800 cold-cranking amps while duralast comes with 720 cold cranking amps. Interstate comes with an average CA total of 1000 cranking amps while duralast has an average total of 910 cranking amps. So the Interstate battery has a slightly higher power output than duralast.10. How long do Interstate batteries last?In the ideal condition, an original battery of interstate will last for about 3-5 years. You should keep in mind that a lot of factors can contribute to its not attaining the ideal battery life. Poor maintenance, bad driving habits, and exposure to extreme elements are some of the factors that can reduce battery life.11. Are Autozone duralast batteries good?Duralast car batteries are manufactured by the same corporation that manufactures DieHard and Sears car batteries.They are available at the AutoZone store. This battery matches the output of the DieHard battery, giving you over 800 cold-cranking amps. This low-cost battery performs admirably.12. How long does a duralast battery last?The lifespan of Duralast batteries depends on several factors, such as the specific type and the extent of use. On average, you can expect them to last three to five years. To last a long time, pay attention to proper care and maintenance. 13. What’s the difference between Duralast and Duralast Gold battery?Duralast gold batteries are thicker and have more lead plates, which increases vibration tolerance and resistance.These batteries are suitable for high-powered cars with features such as heated seats or infotainment systems.14. Which Duralast Battery is best?Duralast Platinum batteries are best because they offer more power and extreme vibrant resistance and a longer warranty. 15. Is there any other brand better than Duralast?Interstate batteries are better than Duralast batteries. The Interstate batteries have better quality and features. 16. Are interstate batteries better than Duralast batteries?Both battery brands produce high-quality batteries. However, considering quality, availability, and performance, interstate batteries are better options.17. What Is the Lifespan of a Duralast Car Battery?The average lifespan of a Duralast car battery is three to five years, as of 2026. All standard Duralast batteries come with a two-year free replacement warranty. Duralast gold and platinum batteries come with a three-year warranty.18. Do Duralast gold batteries need water?No, they don’t need water. Duralast Gold batteries are designed to be low maintenance so you won’t have to always check the water levels or watch out for spills.19. How long do Duralast gold batteries last?Duralast batteries last for three to five years on average performance. Thus, you can comfortably use a Duralast battery for up to the stipulated period before thinking of replacing the battery.Nevertheless, you should know that the Duralast platinum batteries last longer even though they appear pretty pricey. You can also use the standard Duralast battery or Duralast Gold and enjoy the long-lasting performance.20. How Do You Maintain the Duralast Battery?Duralast batteries are maintained in the same way as other automotive batteries are. Maintain it in a secure place to reduce the effects of rough terrains.You should also avoid taking short rides and utilizing gadgets while the motor is idling. To reduce rust and corrosion, clean the terminals with baking soda and water.ConclusionMaking a good battery selection for your vehicle will lower the rate at which the battery breaks down. Very good battery maintenance in addition to a good battery will have a positive effect on the battery’s efficiency and life.So while considering a quality battery type, we conclude by stating that interstate and the duralast battery are our battery recommendations for you. Duralast batteries are excellent options that you can find within the industry, as they have a high RC and CCA rating. It is important to know who makes these batteries and are they any good. Assuming you have this knowledge, you can easily pick the best battery. I hope this articlegives you the information that you seek. Frequently Asked QuestionsWho manufactures Duralast batteries in 2026?As of 2026, Duralast batteries are primarily manufactured by Clarios (formerly Johnson Controls) and East Penn Manufacturing. AutoZone exclusively sells the Duralast brand, partnering with these top-tier global battery manufacturers to ensure high cold-cranking amps and reliable reserve capacities.Are Duralast Platinum batteries worth the extra cost?Yes, Duralast Platinum batteries are worth the investment if your vehicle has high electrical demands, such as advanced infotainment systems or start-stop technology. Their Absorbent Glass Mat (AGM) construction provides twice the deep cycle capacity and superior vibration resistance compared to standard flooded batteries.How do I know if my car requires an AGM battery?Check your vehicle's owner manual or the label on your factory battery. If your car originally came with an AGM battery, you must replace it with another AGM battery, like the Duralast Platinum, to prevent electrical system malfunctions and premature battery failure. { "@context": "https://schema.org", "@graph":[ { "@type": "Article", "headline": "Duralast Battery Review and Comparison Guide", "datePublished": "2022-04-27T00:00:00Z", "dateModified": "2026-03-18T15:51:00+08:00", "author": { "@type": "Organization", "name": "ApogeeWeb" }, "publisher": { "@type": "Organization", "name": "ApogeeWeb", "logo": { "@type": "ImageObject", "url": "https://www.apogeeweb.net/upload/image/20220427/2022042714452277.jpg" } }, "image": "https://www.apogeeweb.net/upload/image/20220427/2022042714452277.jpg" }, { "@type": "FAQPage", "mainEntity":[ { "@type": "Question", "name": "Who manufactures Duralast batteries in 2026?", "acceptedAnswer": { "@type": "Answer", "text": "As of 2026, Duralast batteries are primarily manufactured by Clarios (formerly Johnson Controls) and East Penn Manufacturing. AutoZone exclusively sells the Duralast brand, partnering with these top-tier global battery manufacturers to ensure high cold-cranking amps and reliable reserve capacities." } }, { "@type": "Question", "name": "Are Duralast Platinum batteries worth the extra cost?", "acceptedAnswer": { "@type": "Answer", "text": "Yes, Duralast Platinum batteries are worth the investment if your vehicle has high electrical demands, such as advanced infotainment systems or start-stop technology. Their Absorbent Glass Mat (AGM) construction provides twice the deep cycle capacity and superior vibration resistance compared to standard flooded batteries." } }, { "@type": "Question", "name": "How do I know if my car requires an AGM battery?", "acceptedAnswer": { "@type": "Answer", "text": "Check your vehicle's owner manual or the label on your factory battery. If your car originally came with an AGM battery, you must replace it with another AGM battery, like the Duralast Platinum, to prevent electrical system malfunctions and premature battery failure." } } ] }, { "@type": "ItemList", "name": "Top 3 Best Duralast Car Batteries", "itemListElement":[ { "@type": "Product", "position": 1, "name": "Duralast 51R-DLG Car Battery", "description": "A cost-effective and powerful standard battery offering maximum starting torque and reduced self-discharge." }, { "@type": "Product", "position": 2, "name": "Duralast Platinum Battery 35-AGM Group Size 35 650 CCA", "description": "A dependable AGM battery providing efficient power, spill-proof design, and 650 CCA for cold winter mornings." }, { "@type": "Product", "position": 3, "name": "Duralast Gold Battery 124R-DLG Group Size 124R 700 CCA", "description": "A top-tier non-AGM battery featuring impact-resistant polypropylene construction and 770 CCA for chilly weather." } ] } ]}

CatalogIntroductionⅠ CR123A Battery Basics    1.1 What is a CR123A Battery?    1.2 Maximum Capacity of the CR123A Battery    1.3 The Manner of Applications of the BatteriesⅡ CR123A Battery Specifications    2.1 Technical Specifications of the CR123A Battery    2.2 Non-Rechargeable CR123A Battery Specifications    2.3 Rechargeable CR123A Battery SpecificationsⅢ Top 4 Considerations to Choose the CR123A Lithium BatteryⅣ Choosing the Best CR123A BatteriesⅤ Shopping for CR123A BatteriesⅥ Why Use CR123A Batteries for Arlo Cameras    6.1 Higher Voltage    6.2 No Voltage Drops    6.3 Lighter Weight    6.4 Longer Battery LifeⅦ FAQ    1. Why is it Called a CR123A?    2. Are there Rechargeable CR123A Batteries?    3. Can I Use 2 x CR123A Batteries Instead of an 18650 Battery?    4. Why do I See Names like EL123A, 123A, and K123LA?    5. Are all CR123A Batteries the Same?    6. How Long does a CR123A Battery Last?    7. What Battery is Equivalent to the CR123A Battery?    8. Are CR2 Batteries the Same As CR123A?    9. Where to Buy CR123A Batteries?    10. Are CR123A and CR123 Batteries the Same?    11. Can you Recharge a CR123A Battery?IntroductionCR123A Batteries, also known as 123 batteries, are high-capacity lithium-ion batteries that are widely used in security alarm systems. They are the preferred choice of PIR sensor manufacturers in wireless alarm systems due to their high capacity and long life. A CR123A battery can last up to three years in this application before needing to be replaced.This article will teach you everything you need to know about the CR123A battery.Top 5 batteries that will blow your mind!By this video, you will know which CR123A Battery is best for you. Ⅰ CR123A Battery Basics1.1 What is a CR123A Battery?The CR123A battery is a cylindrical cell lithium battery. The shape is reminiscent of a smaller version of a C Cell Battery, or, to put it another way, it resembles a can. These batteries are widely used in a variety of applications, ranging from medical devices to military-grade technology. Because this battery has so many applications, it is very popular and, as a result, can be difficult to find in stock. Furthermore, the lithium nature of the CR123A battery allows for a shelf-life of up to ten years before use, making storage simple. The CR123 battery, also known as CR17345 and DL123A, is used in professional photography equipment. It measures 34mm in height and 17mm in diameter, has a nominal capacity of 1500mAh and can be used to replace the SF123 and Innotek BAT-003 batteries. CR123A battery1.2 Maximum Capacity of the CR123A BatteryCR123A cells have a higher battery capacity, which is typically rated at 1500 mAh. In general, a higher capacity RCR123A cell will have a lower maximum drain rating than a lower capacity RCR123A cell.1.3 The Manner of Applications of the BatteriesThe most noticeable difference between the two types of CR123 batteries is how they both work. A CR123A power cell is a type of battery that is only intended to be discharged, and it must be properly disposed of once it is drained and empty.RCR123A cells, on the other hand, are rechargeable batteries that can be discharged and recharged multiple times. As a result, they are an excellent choice for small electronic devices that are frequently used. Because of this distinction, each type is suitable for a variety of applications.Ⅱ CR123A Battery Specifications2.1 Technical Specifications of the CR123A BatteryCR123A Battery Nominal Voltage:3.2-3.3 VoltsCR123A Capacity (Lithium)≈  1550 mAhCR123A Operating Temperature:-20°C – 75°CCR123A Height:34.2 mmCR123A Width (Diameter):17.0  mmCR123A Chemistry:Lithium Manganese Dioxide2.2 Non-Rechargeable CR123A Battery SpecificationsA non-rechargeable CR123A cell typically has a capacity of 1500 mAh and a nominal voltage of 3 volts. It has a life expectancy of seven to ten years, making it an excellent choice for home security devices and standby electronics that can be used in emergencies.A non-rechargeable CR123A cell is also designed to withstand high current drains, making it an excellent choice for devices that require a large amount of power in a short period.2.3 Rechargeable CR123A (RCR123A) Battery SpecificationsAn RCR123A or rechargeable CR123A battery typically has a capacity of 500 to 800 mAh and a voltage of 3.6 or 3.7 volts. However, as a cell designed to be recharged and used multiple times, RCR123A is a desirable power cell that is recommended for frequently used devices.Ⅲ Top 4 Considerations to Choose the Cr123A Lithium BatteryCR123A batteries are fully charged and ready to use when they arrive in the package. They will typically keep a full or near-full charge for at least ten years. They will also keep a fully charged state for roughly the same amount of time even when stored inside the flashlight.Because CR123A batteries have more capacity than rechargeable batteries, they will have longer run times. Because the voltage remains more constant as the capacity of the battery is depleted by use, the light will typically continue to operate at a reduced output even as the capacity of the battery becomes quite drained.When rechargeable 16340/18650 batteries are stored for up to a year, they gradually lose some of their charges, often up to 30%. Their capacity degrades quickly during use, but they keep the voltage at or above their nominally rated level very well. Rather than gradually dimming, your light will continue to provide full output until the batteries are depleted, at which point it will abruptly stop.A standard CR123A battery may be better for you if your tactical light needs a battery that is ready for immediate use, with full capacity even if it may sit relatively unused for periods.Ⅳ Choosing the Best CR123A BatteriesCR123A batteries are widely used in modern digital cameras, security systems, and even high-output flashlights. Even though there are a plethora of CR123A battery options available, the quality and battery life are far from standard.Best CR123A Battery | Batteries (Top 7 best in 2021)Ⅴ Shopping for CR123A BatteriesBattery life and shelf life are both important considerations when shopping for CR123A batteries because they determine how long your batteries will last while being used in electronic devices or sitting in storage. Another important consideration is compatibility, as not all rechargeable CR123A batteries will work in devices that accept standard CR123As. It is best to check your device's owner's manual before purchasing to ensure that a rechargeable option will work for your device. Finally, consider your electronic device's power consumption. If it consumes a lot of power, consider using high-quality batteries with longer battery life or a rechargeable option to save money in the long run.Ⅵ Why Use the CR123A Battery for Arlo Cameras6.1 Higher VoltageThe CR123A battery has a higher voltage than other batteries, so they can provide enough energy to your Alco Security Camera. The voltage of CR123A batteries is 3.0 volts (nominal). The most common voltage for a CRA123A battery is 3.7 volts.6.2 No Voltage DropsThe constant voltage curve of a Lithium CR123A battery allows for high power. Voltage drops can cause erratic performance, putting a security system's performance in jeopardy, especially if it's connected to a wireless network.6.3 Lighter WeightThe CR123A is lighter than most batteries. Most CR123A batteries are significantly lighter than AA batteries.6.4 Longer Battery LifeThe CRA123A has a battery life of 3 – 5 years on average, which is why it is known as a camera battery. When compared to other types of batteries, these batteries are more durable and last longer.Ⅶ FAQ1. Why is it Called a CR123A?The name of a CR123A cell, like that of many other batteries, contains a wealth of information about its chemistry and size. The CR denotes the battery's chemistry, a prefix used by the IEC to indicate the use of lithium chemistry, specifically LiMnO2. The 23A refers to the battery size, which in this case means that the CR123A is two-thirds the length of a standard A-size battery.2. Are there Rechargeable CR123A Batteries?Yes, but they're also known as RCR123A or 16340 batteries. They are 16mm shorter than CR123As, use lithium-ion chemistries, and typically have lower energy capacities. The RCR123A battery typically has a voltage of 3.6–3.7 volts, and not all flashlights and cameras can use both CR123As and their rechargeable counterparts.3. Can I Use 2 x CR123A Batteries Instead of an 18650 Battery?Occasionally, but not always. Some 18650 battery-powered flashlights and devices have long, spring-loaded interiors to account for varying battery lengths, allowing for the use of two CR123A batteries. Because 18650s are slightly thicker than CR123As, a battery sleeve may be required for a secure connection. We always indicate whether our flashlights are compatible with multiple battery sizes so you don't buy the wrong size cell, and you can shop for CR123A flashlights here.4. Why do I See Names Like EL123A, 123A, and K123LA?These are just variations on CR123As, which can also be referred to as 123, 123A, CR23, and other abbreviations. Some battery manufacturers brand their products, such as Duracell's DL123A and Energizer's EL123A.5. Are all CR123A Batteries the Same?No. The size, terminals, and nominal voltage of the CR123A battery are the same as for any other size. Any CR123A battery should fit in any device that requires one, but this is not always the case, as I discovered when I tried to use some cheap ones in my light meter. However, just like an AA battery, there are cheap ones that may only last an hour or two in a device, whereas a good name brand one may last 5 times as long. Most of the time, you get what you pay for. That Duracell battery will outlast an Amazon Basics or Dollar Store brand battery. And, because a CR123A is a 3-volt battery, some are a single lithium cell, while others are two alkaline cells connected in series. Both are functional, but lithium is more powerful.6. How Long does a CR123A Battery Last?The lifespan of a CR123A battery is heavily dependent on the battery's manufacturing quality and application. Assuming the battery is new and purchased from a reputable source, there is still a wide range of service life available depending on usage. A CR123A battery may last less than a month for a frequent application that requires a large amount of energy, such as a soldier's weapon light. With the right conditions, the service life of a more passive application, such as a home security alarm panel, can be over a year. Essentially, how long your CR123A battery will last is determined by what you require it to do.7. What Battery is Equivalent to the CR123A Battery?Although there are no direct replacements for the CR123A battery, there are batteries that are similar in size but have different chemistries and capabilities. The 16340 battery, for example, is the same size and shape as the CR123A, but it is made of lithium-ion rather than lithium manganese dioxide. This means the 16340 is rechargeable and can be used in the same places as a CR123A. Even though the 16430 battery will fit, it may not perform as well as a CR123A battery or have the same life span.8. Are CR2 Batteries the Same As CR123A?The CR2 battery is not interchangeable with the CR123A battery. Because the CR2 battery is slightly shorter than the CR123A battery, it will not fit in the majority of applications that require a CR123A battery. These batteries do have some similarities, such as the fact that they are both made of lithium manganese dioxide and are both 3 volt batteries. 9. Where to buy CR123A Batteries?CR123A batteries are very common and well-liked. This means that a wide range of manufacturers produces these batteries, and a wide range of retailers sell them. It's important to remember that not all CR123A batteries are created equal, and not all retailers are equally committed to quality. To avoid low-quality or, worse, counterfeit batteries, only purchase your batteries from a highly reputable retailer who sells only the highest-quality brands.10. Are CR123A and CR123 Batteries the Same?Yes. The CR123A and CR123 batteries are interchangeable. These batteries are also known as 123, 123A, DL123, DL123A, and SF123.The letter C in CR123A and CR123 denotes a lithium battery. The letter R stands for round, and the number 123 represents one-third. So 123 batteries are one-third the size of cell batteries. Some manufacturers add the letter A to indicate that the cell is an A cell.11. Can you Recharge a CR123A Battery?The CR123A is a non-rechargeable 3v lithium cell with a 17mm diameter and 34.5mm length. Because it is not rechargeable by definition, the answer is no.However, rechargeable batteries of the same size and voltage as a CR123A are available. A 16340 Li-ion cell, for example, is 16mm diameter and 34.0mm long, with a fully charged voltage of 3.7v, so this would be a compatible battery for some devices - you'd need to check with the device manufacturer.     

In this article, we will provide you the basic introduction to FPGA and ASIC, illustrate their differences in the design, and many other complement content. CatalogI. What is FPGA?II. What is ASIC?III. What is the Difference Between FPGA and ASIC?      3.1 Difference in RTL Design      3.2 Difference in Development ProcessIV. Difference SummaryFAQI. What is FPGA?The circuit design with hardware description language (Verilog or VHDL), which can be easily synthesized and distributed, can be quickly made to FPGA for testing. It is the mainstream of modern IC design verification technology. These editable elements can be used to implement basic logic gates (such as AND, OR, XOR, NOT) or more complex combinatorial functions such as decoders or mathematical equations. In most FPGA, these editable components also contain memory elements such as triggers (Flip-flop) or other more complete memory blocks.System designers can connect blocks of logic inside FPGA via editable connections as needed as if a circuit test board had been placed in a chip. The logic blocks and connections of a finished FPGA can be changed according to the designer, so FPGA can meet the required logic functions.The speed of FPGA is generally slower than that of ASIC, and the area of realizing the same function is larger than that of ASIC. But they also have many advantages, such as quick production, modification to correct errors in the program, and cheaper costs. Vendors may also offer cheap but poorly edited FPGA. Because these chips have poor editable capabilities, the development of these designs is done on an ordinary FPGA, and then the design is transferred to a chip similar to ASIC. Another way is to use CPLD (Complex Programmable Logic Device). Learn the basics of what is an FPGA. This video discusses the history of FPGAs and how they have advanced over time. It discusses some applications that are possible. Finally it will introduce the two languages used to program FPGAs: VHDL and Verilog.  FPGA StateFPGA (Field Programmable Gate Array) is the product of further development on the basis of PAL, GAL, CPLD, and other programmable devices. As a semi-custom circuit in the field of ASIC, it not only solves the deficiency of custom circuits but also overcomes the shortcoming of the limit of the gate of the original programmable device, that is, FPGA allows unlimited programming. FPGA Parts ExplainationFPGA adopts the concept of LCA (Logic Cell Array), which includes three parts: configurable logic module (CLB), Input-Output Block(IOB), and Interconnect. FPGA is a programmable device with different structures compared with traditional logic circuits and gate arrays (such as PAL, GAL, and CPLD devices). FPGA uses a small lookup table (16×1RAM) to implement combinatorial logic. Each lookup table is connected to the input of a D-trigger, which drives other logic circuits or drives the I / O. Therefore, the basic logic unit module can realize both combinational logic function and sequential logic function. These logic units connect with mental wires or I/O contracts. In addition, the logic of FPGA is to load programming data into internal static storage units. The value stored in the memory cell determines the logical function of the logical unit and the connection between modules or between modules and I / O contracts and ultimately determines what FPGA can achieve.II. What is ASIC?An application-specific integrated circuit(ASIC) is a microchip designed for a special application, such as a special kind of transmission protocol or a hand-held computer. People might contrast it with general integrated circuits, such as the microprocessor and the random access memory chips in PCs. ASIC is used in a wide range of applications, including auto emission control, environmental monitoring, and personal digital assistants (PDAs).Mining was for a long time a GPU only game, but with ASIC miners seemingly everywhere these days, are they actually profitable? ASIC StateAt present, ASIC is considered to be a kind of integrated circuit designed for special purposes in the field of integrated circuits. An integrated circuit is designed and manufactured at the requirement of a specific user or a particular electronic system. That is, the ASIC is characterized by a request for a specific user. The ASIC is smaller in volume and lower in power consumption than that of a general integrated circuit in mass production, also has the advantages of improved reliability, improved performance, enhanced confidentiality, lower cost, and so on. Full Customization and Semi-customizationASIC is divided into full customization and semi-customization, so an ASIC can be pre-manufactured for a special application or it can be customized (typically using components from a "building block" library of components) for a particular requirement of customers.Full customization design requires designers to complete the design of all circuits, so it requires a lot of manpower and material resources, although it has good flexibility the development efficiency is low. If the design is ideal, full customization can run faster than semi-custom ASIC chips. When using the standard cell, the semi-custom can select SSI (gate), MSI (such as adder, comparator, etc.), data path (such as ALU, memory, bus, etc.),. memory and even system-level modules (e.g. multipliers, microcontrollers, etc.) ) and the IP core from the standard logic unit library. When these logic units have been laid out and designed reliably, the designer can easily complete the system design. Modern ASIC often contains a 32-bit processor, storage units like ROM, RAM, EEPROM, Flash, and other modules. Such ASIC is often called SoC(system in the chip).ASIC DevelopmentProgrammable ASIC is another characteristic branch of ASIC development. It mainly uses programmable integrated circuits such as PROM, GAL, PLD, CPLD, FPGA, or logic array to get ASIC. Its main feature is to provide software design and programming directly, completes the function of ASIC circuit, and it does not need to be processed by IC process line.There are many kinds of ASIC designs for programmable devices, which can meet different requirements. PLD and FPGA are commonly used programmable devices. It is suitable for the design of digital circuits with a short development cycle, certain complexity, and circuit scale, especially for electronic system design engineers using EDA tools for ASIC design.III. What is the Difference Between FPGA and ASIC? 3.1 Difference in RTL DesignThere are many differences between FPGA and ASIC. The logic of ASIC is usually much larger than that of FPGA. There is an order of magnitude difference in gate numbers, and the running clock is much higher than FPGA. Moreover, FPGA is relatively flexible than ASIC because it can be programmed, but only in terms of RTL design: (1) ASIC tends to be more conservative, any changes to logic needed careful consideration, and make alternative choices in case of a correction. Any modification to RTL is almost incremental, and even if the previous logic is wrong, it will not be deleted, but one more branch is made.(2) ASIC has higher requirements for coding style. Coding style requirements for all modules are consistent, thus favoring the fault check.(3) ASIC design pays more attention to the clock and reset. In particular, clocks are critical to the design of ASIC, and reset is critical to BIST testing. ASIC uses libraries to design in this respect. ASIC usually does not use a counter to divide frequencies, which can lead to unclean clocks. Unless it's a very low-frequency clock, ASIC is also much more cautious about signal processing across clock domains. The closing and opening of the clock also need to be strictly checked.(4) ASIC has to consider the problems of SCAN testing and BIST, so it is necessary to do BIST insertion for SRAM when designing and to reserve interfaces for SCAN. Although most of the interfaces are done by tools, RTL authors often have to do some top-level complex work manually, logic such as the source of the SCAN clock.(5) FPGA often uses existing IP, it needs to consider the balance of resources because there is a problem of resource waste in FPGA. ASIC rarely needed to consider this problem, the main consideration of it is its performance and power consumption, except SRAM and CLK which is related to reset in logic choice, the other are handwritten. So the logic is basically no waste, and more compact.(6) ASIC timing is more predictable and adjustable, so it can write a lot of logic. 3.2 Difference in Development ProcessThe differences between FPGA and ASIC development processes: ASIC and FPGA Design Flow ASIC and FPGA Implementation StepsThe first step is to implement functionality in a way that is generally described in HDL, such as Verilog, VHDL. Of course, small-scale circuits can also use circuit diagram input mode.The second step is to ensure the correctness of circuit functions, also known as verification. It can be realized by software simulation, hardware simulation, and so on. Software simulation is generally intuitive and easy to debug because the state of every moment can be seen, this is like debugging software programs. Hardware simulation generally refers to FPGA verification, that is, the circuit is implemented with FPGA, and then run it. The advantage of this is that it is very fast. For example, a video decoding core is used to solve a frame of the image, and software simulation can even use the best server, it still takes a lot of seconds to run, but in FPGA, it basically needs milliseconds. For a large mode verification of the circuit, is essential.The first two steps for digital IP,  the ASIC and FPGA are basically the same, unless some implementation techniques are different.The third step is, once the correctness of the circuit you describe is ensured, to implement it by turning the code you write into a real circuit, such as a register or a NAND gate, which is called synthesis. Because the circuit is becoming more and more complex, the most basic circuit is made into cells, such as register, and non-gate, so it will not be refined to the problem of how to use triode. The difference of this step is the smallest unit of the FPGA and the ASIC. FPGA is a well-made circuit, generally considering universality and efficiency, so the basic circuit unit is relatively large, such as LUT, consist of a register and NAND gate, although it uses one gate, it will take up such a unit. For ASIC, the two-input NAND gate is a simple gate circuit, even in order to distinguish the driveability and the timing characteristic difference, there are several grades, some area is small, some driveability is strong. In general, this step is to make sure your description turned into a library-based circuit description.The fourth step is, when you get a description of the circuit based on the library, you have to consider how these units are placed, which is called layout and wiring. The wiring resources of FPGA are limited, so you need to constantly adjust it to ensure the timing requirements. Map your circuit to the middle of its fixed resource map. ASIC's words are generally based on peripheral circuit requirements, timing requirements, your circuit to a certain location on the chip. After the arrangement, we have to consider whether the connection can pass, whether the delay at all levels can meet the circuit establishing and maintaining time requirements, and so on.The fifth step is output. FPGA is to output a configuration file to make the FPGA chip configure its circuit so that it can achieve the desired function. This file can be downloaded by PC after FPGA power-up, or stored in Flash, when the circuit is powered on, the automatic configuration will make. ASIC is to output a layout file to tell the manufacturer how to corrode silicon chip, how to connect metal, and so on.The sixth step is cost. ASIC has a great advantage in terms of recurring costs with less material is wasted due to the fixed number of transistors in the design. As for FPGAs, a certain number of transistor elements are always wasted although these packages are standard. This means that the cost of an FPGA is often much higher than that of an ASIC. Although the recurring cost of an ASIC is quite low, its non-recurring cost is relatively high. Although it is non-recurring, its value per IC decreases with increased volume.  A Field Programmable Gate Array can be seen as the prototyping stage of Application Specific Integrated Circuits: ASIC is very expensive to manufacture, and once it's made there is no going back (as the most expensive fixed cost is the masks [sort of manufacturing "stencil"] and their development). FPGA can reprogrammable many times, however because of the fact that a generic array of gates is connected to accomplish your goal, it is not optimized like ASIC. Also, FPGAs are natively dynamic devices in that if you power it off, you lose not only the current state but also your configuration. Boards now exist though that add a FLASH chip and/or a microcontroller to load the configuration at startup so this tends to be a less important argument. Both ASIC and FPGA can be configured with Hardware Description Languages, and sometimes FPGA is used for the end product. But generally, ASIC kicks in when the design is fixed.If you analyze the cost of production in relation to the volume, you would find that as you go lower in production numbers, using FPGA actually becomes cheaper than using ASIC.There are, of course, various auxiliary steps in the process. In general, it's all about making sure that the circuits you design are correct and implemented correctly.IV. Difference Summary FPGAASICReconfigurable circuitOne-time circuitDesign mainly with hardware description languages (HDL)Similar to the FPGAFPGA is relatively flexibleASIC tends to be more conservativeFPGA is not strict with the coding because of its programming featureASIC has higher requirements for coding styleFPGA uses small LUT to combine logic configurationASIC design pays more attention to clock and resetFPGA designers generally do not need to care for back-end designThe problems of SCAN testing and BISTFPGA uses existing IPperformance and power consumptionAnalog designs are not possible with FPGAASIC can have complete analog circuitThe speed is generally slowerRun fast than FPGAAllow unlimited programmingAn integrated circuit for a special purposeMore power consumptionMuch more power efficient than FPGA Visual Comparsion(√ means better to select)FPGAASICNRE√Performance√Design Flow√Barrier to entry√Time to market√Analog Blocks√Unit size√Power consumption√Cost per unit√FAQ 1. How do FPGAs work?In general terms, FPGAs are programmable silicon chips with a collection of programmable logic blocks surrounded by Input/Output blocks that are put together through programmable interconnect resources to become any kind of digital circuit or system. ... Unlike processors, FPGAs are truly parallel in nature. 2. What is FPGA and why it is used?FPGAs are particularly useful for prototyping application-specific integrated circuits (ASICs) or processors. An FPGA can be reprogrammed until the ASIC or processor design is final and bug-free and the actual manufacturing of the final ASIC begins. Intel itself uses FPGAs to prototype new chips.3. What is the function of FPGA?The field-programmable gate array (FPGA) is an integrated circuit that consists of internal hardware blocks with user-programmable interconnects to customize operation for a specific application.4. Is FPGA faster than GPU?Compared with GPUs, FPGAs can deliver superior performance in deep learning applications where low latency is critical. FPGAs can be fine-tuned to balance power efficiency with performance requirements.5. Is Raspberry Pi a FPGA?The main difference between the Snickerdoodle and other single-board systems like the popular Arduino and Raspberry Pi products is the inclusion of a Field Programmable Gate Array (FPGA). 6. Does FPGA have memory?The FPGA fabric includes embedded memory elements that can be used as random-access memory (RAM), read-only memory (ROM), or shift registers. These elements are block RAMs (BRAMs), LUTs, and shift registers. ... The data of the ROM is written as part of the FPGA configuration and cannot be modified in any way.7. Is FPGA a microprocessor?Microprocessor vs FPGA: A microprocessor is a simplified CPU or Central Processing Unit. ... An FPGA doesn't have any hardwired logic blocks because that would defeat the field programmable aspect of it. An FPGA is laid out like a net with each junction containing a switch that the user can make or break.8. What is FPGA and ASIC?ASIC stands for Application Specific Integrated Circuit. ... The difference in case of ASIC is that the resultant circuit is permanently drawn into silicon whereas in FPGAs the circuit is made by connecting a number of configurable blocks.9. Is FPGA better than ASIC?In general, we can say that for lower volumes' designs, FPGA flexibility allows to save costs and obtain better results; while ASICs chips are more efficient and cost effective on high volume applications.10. Which one is faster ASIC or FPGA?A single unit of an FPGA chip will be relatively larger than an ASIC chip unit. Because FPGA has its internal structure and a certain size that cannot be changed – while ASIC consists of exactly the amount of gates required for the desired application. FPGA boasts a faster time to market than ASIC.11. What are the main differences between ASIC and FPGAs?Performance and Efficiency. ASICs offer superior performance and are more efficient than FPGAs. Factors like faster speed and the ability to layer multiple functionalities onto a single chip make ASICs outperforms FPGAs. 12. Why do we need FPGA?Why Use an FPGA? ... FPGAs are particularly useful for prototyping application-specific integrated circuits (ASICs) or processors. An FPGA can be reprogrammed until the ASIC or processor design is final and bug-free and the actual manufacturing of the final ASIC begins. Intel itself uses FPGAs to prototype new chips.13. Is ASIC a CPU?CPUs and microprocessors are the same thing. ASIC is just a general term for a microchip. CPUs are technically ASICs, but much simpler devices can be implemented on an ASIC too.14. What is the most preferred FPGA variant?Verilog is currently the most popular. Verilog creates a level of abstraction to hide away the details of its implementation. Verilog has a C-like syntax, unlike VHDL.15. What is ASIC technology?An application-specific integrated circuit (ASIC /ˈeɪsɪk/) is an integrated circuit (IC) chip customized for a particular use, rather than intended for general-purpose use. ... ASIC chips are typically fabricated using metal-oxide-semiconductor (MOS) technology, as MOS integrated circuit chips. 16. When should ASIC and FPGA devices be used?If your application requires constant bug fixes, feature and design changes, and software flexibility, then FPGAs may be the right solution. If your end application requires high performance, smaller device footprint, and significantly lower power consumption, then ASICs are your best bet. 17. How does an ASIC work?ASICs allow miners to use hardware made specifically for Bitcoin or other SHA-256 algo coins. An ASIC has benefits over CPU, GPU and FPGAs due to being designed for one specific task. They are able to mine Bitcoin at a higher hash rate (speed of processing transactions) than CPUs, GPUs and FPGAs.18. Why use an FPGA instead of a CPU or GPU?This is where FPGAs are much better than CPUs (or GPUs, which have to communicate via the CPU). With an FPGA it is feasible to get a latency around or below 1 microsecond, whereas with a CPU a latency smaller than 50 microseconds is already very good. Moreover, the latency of an FPGA is much more deterministic. 19. Why is ASIC needed?ASICs are designed specifically for one client to provide a function required by the client's end product. For example, a cell phone company may design an ASIC to combine the display backlight controller with the battery charging circuit into a single IC in order to make the phone smaller.20. What is better ASIC or GPU?In short: ASICs are best for mining Bitcoin, Litecoin, Dash, and coins that are based off these algorithms. GPUs are best for mining Ethereum, Monero, Ravencoin, and coins based off those algorithms. Note: Over time all of these coins will produce less thanks to halvings which cut the reward for mining blocks in half.You May Also LikeDiscussion on the influencing factors of clock in FPGA designNew SoM Combination Design Based on Processor and FPGA: FPGA and Processo

Introduction The transistor is a current-control device. For example, control the collector-emitter current by changing the base current. In a general voltage amplification occasion, this amplification effect comes from the use of resistors to convert current into voltage. In the small-signal model, the source of the base current is the ratio of the input voltage to the base-emitter dynamic resistance rbe, which is usually kΩ. So the base current is very small, and may only be a few tenths of mA. Through the amplification of the transistor, the base current is generated between the collector and the emitter by β times. This article will introduce how transistor works in the common-emitter amplifier circuit. Transistor Amplifiers Circuit Introduction Catalog Introduction Ⅰ Common-emitter Amplifier Circuit Formula Ⅱ Common-emitter Amplifier Circuit Design 2.1 Design Steps 2.2 Circuit Analysis 2.3 Common-emitter Circuit Design 2.4 Circuit Performance Parameters Ⅲ Common-emitter Amplifier Circuit Expansion 3.1 Increase Magnification 3.2 Low-voltage and Low-loss Circuit 3.3 Differential Output Circuit 3.4 Filter and Tuning Amplifier Circuit Ⅳ Summary Ⅴ FAQ Ⅰ Common-emitter Amplifier Circuit Formula Here, take the common emitter amplifier circuit as an example: Figure 1. Transistor Common-emitter Amplifier Circuit △Vo=VCC-△ieRc=VCC-β△ibRc=VCC-△Vi·Rc/rbe△Vi/rbe=△ibThus, the collector generates a current of β times ib:△ie=β△ibFurthermore, the output voltage can be obtained by the relative positive power supply potential:△Vo=VCC-△ieRc=VCC-β△ibRc=VCC-△Vi·Rc/rbeThus, we can get an inverted amplified voltage signal by AC coupling and controlling the collector resistance Re. But generally the emitter will have a resistance to control the gain, so the above formula is not practical. When designing a circuit in non-extreme situations, we often hope that the circuit can work with most general-purpose transistors, avoiding the parameter that depends on component parameters such as rbe. At the same time, it is very cumbersome to consider the base current in the specific calculation. Therefore, in the general design process, the existence of the base current is ignored in an approximate calculation (In some circuits, although the base current is ignored, it is still necessary to give the base a certain current drive to make the circuit working normally). In addition, the calculation of gain is the external circuit resistance not the rbe.Among them, the base-emitter tube voltage drop VBE is also a very important parameter, which is generally equal to 0.6V (silicon tube). The parameters of the transistor circuit can all be obtained according to VBE=0.6V and Ohm's law.The cumbersome part of the transistor circuit lies in the setting of the static operating point. Usually, careless design will cause clipping and distortion of the output waveform. Therefore, the selected values of some experimental values can be used for reference. The overall design idea is: quantitatively determine the voltage and current to calculate the resistance.   Ⅱ Common-emitter Amplifier Circuit Design The common-emitter amplifier circuit is a typical inverting amplifier, which has a wide range of applications and stable effects. First show the overall design ideas, and then explain the purpose and principles of the design in steps. 2.1 Design Steps 1) Determine the supply voltage VCC, and determine the static emitter current IE according to the frequency curve/noise curve/others.2) Determine VE, where selects 1~2V to absorb temperature drift.3) According to VE and IE, calculate the emitter static resistance RE ( IE≈IC).4) Determine the magnification Av, and apply the relationship Av=RC/RE to calculate the static collector resistance RC. At this point, the static working point has been established.5) Check whether the static operating point meets the requirements: positive output swing limit=VCC-IE·RC, negative output swing limit=IE·RC-VE. It is necessary to ensure that the amplified output voltage does not exceed the swing limit (usually the swing limit is larger). If RC is too large, there will be a downside clipping, so is the small RC. In addition, determine whether the power exceeds the limit: PC=VCE·IC.6) Determine the base bias voltage as follows: According to VBE=0.6V, it is easy to get VB=VE+0.6 (divide the voltage from the power supply through the resistor). Since ib is considered to be small and negligible, the current IB0 flowing through the base voltage divider resistors (R1, R2 in the above figure) should be much larger than ib. ib is approximately calculated as IC/β, and IB0 is about an order of magnitude larger than ib, so R2=VB/IB0, R1=(VCC-VR2)/IB0.7) Finally, determine the AC coupling capacitor value and the power supply decoupling capacitor value.Let's first use a designed common-emitter amplifier circuit to intuitively understand the waveforms of the next parts: Figure 2. Transistor Common Emitter Amplifier Circuit Design As shown in the figure, the circuit uses 2SC2240 tube, 15V power supply, and the input and output are AC coupled. The output signals are as following:  Figure 3. 4-channel Signal Waves The pale blue waveform is the input signal, selecting the sine wave of 1kHz, 1Vpp.The green is the output signal, amplified by about 5 times, and it is inverted.The blue is the base signal, which can be seen because the DC level is raised due to the influence of the base bias resistance.The red is the emitter signal, which is only a fixed value away from the base signal.   2.2 Circuit Analysis First, perform a DC analysis, that is, determine the static operating point. In the initial design process, the design and verification of static operating points are also the first to proceed. The static potential of the base can be easily calculated according to the base bias resistance, and the static potential of the emitter can be determined according to the voltage drop of the base-emitter tube as a constant. Therefore, according to the magnitude of the emitter resistance, the magnitude of the collector-emitter current can be obtained, and then the collector static potential can be obtained from the power supply voltage.Why is the static operating point important? Take the NPN transistor as an example, which is equivalent to two back-to-back diodes. If requiring the diode work, you must give it a proper bias to make it reasonably conductive. In the circuit, the base-collector diode prevents internal feedback, and the base-emitter diode is the key to achieving amplification. In other words, it is enough to design an external circuit so that the current flows normally in the base-emitter diode. This idea will be mentioned in the analysis of the carrying capacity of the emitter follower.Find the AC voltage gain. When the input voltage changes △vi, it will cause the emitter current to produce an AC change △ie. Since the base emitter voltage drop is constant, it does not contribute to the AC change, so △ie=vi/RE. Therefore, the emitter AC output voltage can be determined as vo=△ieRC=vi·RC/RE, and the AC gain is Av=RC/RE. This conclusion can quickly analyze the magnification of the common-emitter circuit.The output power rails are VCC and VE respectively, which are determined by the current characteristics of the transistor during operation, and there is generally no rail-to-rail output. According to the output power rail and the AC amplification factor, the circuit can be used.When the input and output are not AC coupled, the input (especially for DC) will cause the output waveform to be distorted.   2.3 Common-emitter Circuit Design After understanding the circuit characteristics, you can design the common emitter circuit according to the design steps at the beginning of this section. The static operating point and magnification have been determined during the analysis, and the other parts are designed below.Supply voltage: According to the swing of the output voltage, we can determine the size of the voltage. Usually the power supply voltage is larger than the output peak-to-peak value.Transistor: Select the appropriate transistor according to the operating frequency, required power, noise level and β, etc.Emitter current: Determine the size of the emitter current according to the frequency characteristics by consulting the device manual.RC and RE: Determined by the emitter voltage and current, and the magnification, pay attention to review the upper and lower limits of the swing and the rated power.Base bias resistance: VB is determined according to VE, thereby determining the voltage divider resistance of the power supply. Note that the current flowing through the voltage divider resistor should be one to two orders of magnitude higher than the base current. The base current is calculated by dividing the collector-emitter current by β.Coupling capacitor: The AC coupling capacitor is generally 10uF. Note that the coupling capacitor of the output stage and the input impedance of the next stage will form a high-pass filter. The cutoff frequency of the filter should be handled carefully.   2.4 Circuit Performance Parameters Through the method of AC analysis, we can obtain some characteristic parameters of the designed circuit, such as input and output impedance, magnification and so on.Input impedance: According to AC analysis, the input impedance is the parallel value of the base bias resistance. In small signal analysis, the base emitter dynamic resistance rbe should also be connected in parallel.Output impedance: The method to determine the output impedance is to add a load to the circuit. When the peak-to-peak output value drops to half of the no-load, the load impedance is the output value. Generally, the output impedance of the common-emitter amplifier circuit is the collector resistance RC.Magnification: Due to the influence of the base current, the actual magnification is about 10% lower than the design value. So the design formula is more practical.   Ⅲ Common-emitter Amplifier Circuit Expansion By improving the general common-emitter amplifier circuit, various application circuits with other characteristics can be obtained. This section introduces the means to increase the magnification, the low-voltage power supply circuit, the differential output circuit, and the tuning amplifier circuit. 3.1 Increase Magnification According to the introduction of the design circuit, the voltage gain is mainly determined by the ratio of the collector resistance RC to the emitter resistance RE. So it is common to change the ratio of the resistance to change the gain. However, the problem arises: these two resistors are responsible for determining the working current at the same time. Because the DC operating point is changed arbitrarily, the circuit is likely to be distorted or even not work.From another perspective, voltage gain belongs to the category of "AC Analysis", and the static operating point belongs to "DC Analysis". So add some reactive components to the circuit to change the ratio under the AC perspective, the resistance value during DC analysis does not change.This can be achieved by connecting the emitter resistor in parallel, or making the resistor in parallel with the capacitor, that is, modifying the circuit in the first section: Figure 4. Common-emitter Amplifier Circuit Pay attention to the emitter in the above figure. In the AC analysis, the resistor R4 is short-circuited by the capacitor. At this time, it is equivalently considered that the emitter resistor is only R7 (330Ω). From the signal source and the oscilloscope, the signal has been amplified nearly 50 times at this time. It is much larger than the original design value (10k/2k=5), thus realizing the expansion of voltage gain. If the original emitter resistance is not split, but the entire capacitor is connected in parallel, the maximum gain βRC/rbe will be obtained at this time.How to choose the capacitance value? It should be noted that after the capacitors are connected in parallel, the entire circuit will have high-pass characteristics, and the cut-off frequency is f=1/2πRC. If this high-pass characteristic is not required, the C capacitance value can be selected to a larger value between 47uF~100uF.In addition, the capacitor C6 has the function of temperature compensation. 3.2 Low-voltage and Low-loss Circuit If the op amp circuit is powered by a dry battery (1.5V), it is not realistic, but the transistor circuit can be done. The key is to use the conduction voltage drop of the external diode to offset the base-emitter voltage and have small small. The circuit in the figure below can still amplify small signals as designed even under 1.5V power supply: Figure 5. Common-emitter Amplifier Circuit But the disadvantage is that the maximum voltage of the system is always below the supply voltage. Because of the small circuit loss, it is suitable for low power consumption. 3.3 Differential Output Circuit Fully differential op amps can provide dual-mode output, and many transmission lines also require differential transmission. Transistor circuits can also perform differential output. In addition to the principle of a common emitter amplifier circuit, the principle of an emitter follower is also used. The following figure shows the circuit connection of the differential output. Figure 6. Common-emitter Amplifier Circuit It can be seen that two differential signals with the same shape and opposite phase are output. The collector signal is in phase with the input signal, and the emitter output signal is in phase with the input signal. However, the output impedance of the two signals is different due to the different lead-out positions. The output impedance of the inverted output is higher (RC), and the output impedance of the non-inverted output is lower, which is suitable for driving the load. The inverted output is generally connected to the emitter follower before driving.In addition, the static potential of the base should be set between VCC and GND as much as possible to expand the undistorted output range.   3.4 Filter and Tuning Amplifier Circuit The introduction of reactive components in the circuit will cause the properties of the circuit to change with the frequency. We can use this property to design LPF, HPF, and tuning amplifier commonly used in high-frequency circuits. Actually, it uses the characteristic that the impedance of the reactance element changes with the frequency, and then changes the voltage gain at the current frequency. The impedance at the resonance frequency is often purely resistive and has an extreme value to achieve frequency selective amplification. The following show low-pass, high-pass and frequency selective amplifiers at specific frequencies:① LPF Figure 7. Common-emitter Amplifier Circuit As shown in the figure, a low-pass filter is constructed (the input of the bode tester is placed at the base instead of the output of the signal generator, because the input coupling capacitor will form a high-pass filter with the input resistor, which affects the observation effect), and its cut-off frequency is about 1.06kHz, calculated by f=1/2πRcC.From the sinusoidal steady-state analysis, the impedance of the RC parallel loop is R/√(1+(wRC)^2). As the frequency increases, the impedance decreases, so the voltage gain decreases, forming a low-pass characteristic.② HPF Figure 8. Common-emitter Amplifier Circuit As shown in the figure, a high-pass filter is constructed, and the calculation of its cut-off frequency is similar to that of LPF.At the gain peak point, the voltage gain reaches 50dB, which is close to the β value of the transistor. Then the gain is attenuated due to the deterioration of the transistor's frequency characteristics.③ 10.7MHz Figure 9. Common-emitter Amplifier Circuit By replacing RC with an LC network with a resonance frequency of 10.7MHz, a frequency selective amplifier can be obtained. As shown in the figure, the amplification factor is 35dB at 10.7M, while the amplification factor when detuning 1MHz is only 12.6dB. The disadvantage is that the pass-band is slightly wider, the rectangular coefficient is not good enough, and the equivalent quality factor of the loop is about 65.2, which is relatively large. In addition, the high-frequency decoupling capacitor has been changed to 1uF. Resonant Amplifier Circuit Example: Figure 10. Resonant Amplifier Circuit Example   Ⅳ Summary Transistor amplifier circuit is the basis of an operational amplifier circuit, and common-emitter configuration is the most commonly used form. Drawing lessons from the feature that the amplifier's magnification can be easily determined by the ratio of two resistors, and the gain of the common emitter amplifier can also be approximated by the ratio of the two resistors.   Ⅴ FAQ 1. What are transistor amplifiers used for?Amplifiers are derived from the transistors because they are capable of operating under three regions active, cut-off and saturation. For the purpose of amplification, the focus will be on the active region. The main purpose of these amplifiers is to enhance the strength of the applied input signal without alteration. 2. How does a transistor amplify current?Transistors are normally used as amplifiers. ... The small current travels from the voltage source into the base of the transistor. A current at the base turns on the transistor. The current is then amplified and travels from the emitter of the transistor to the collector. 3. What is a common emitter transistor amplifier?The common emitter amplifier is a three basic single-stage bipolar junction transistor and is used as a voltage amplifier. The input of this amplifier is taken from the base terminal, the output is collected from the collector terminal and the emitter terminal is common for both the terminals. 4. Why common emitter is used in amplifier?Common emitter (CE) configuration. ... Common emitter transistors are used most widely, because a common emitter transistor amplifier provides high current gain, high voltage gain and high power gain. This type of transistor gives for a small change in input there is small change in output. 5. What is the use of CE amplifier?In electronics, a common-emitter amplifier is one of three basic single-stage bipolar-junction-transistor (BJT) amplifier topologies, typically used as a voltage amplifier. It offers high current gain (typically 200), medium input resistance and a high output resistance. 6. How does transistor work as amplifier?A transistor acts as an amplifier by raising the strength of a weak signal. The DC bias voltage applied to the emitter base junction, makes it remain in forward biased condition. ... Thus a small input voltage results in a large output voltage, which shows that the transistor works as an amplifier. 7. What is common emitter amplifier circuit?The Common Emitter Amplifier circuit has a resistor in its Collector circuit. The current flowing through this resistor produces the voltage output of the amplifier. ... The Base of the transistor used in a common emitter amplifier is biased using two resistors as a potential divider network. 8. What are the main parts of a transistor amplifier circuit?A Single stage transistor amplifier has one transistor, bias circuit and other auxiliary components. The following circuit diagram shows how a single stage transistor amplifier looks like. When a weak input signal is given to the base of the transistor as shown in the figure, a small amount of base current flows. 9. What is the phase difference in common emitter amplifier?The phase difference between the input and output voltage of CE amplifier circuit is. The phase difference of 1800 between the signal voltage and output voltage in a common emitter amplifier is known as phase reversal. 10. When an NPN transistor is used as an amplifier?For a npn transistor to be used as an amplifier, forward bias has to be applied on the transistor. Thus, when an npn transistor is used as an amplifier, holes move from base to emitter. So, the correct answer is option D i.e. holes move from base to emitter. 11. When an NPN junction transistor is used as an amplifier in CE mode?A transistor is used in the common emitter mode as an amplifier then: (A) the base emitter junction is forward baised. (B) the base emitter junction is reverse baised. (C) the input signal is connected in series with the voltage applied to bias the base emitter junction. 12. How is an NPN transistor used as an amplifier show with its circuit diagram?The circuit of a common-emitter amplifier using an n-p-n transistor is shown below : In a common emitter amplifier circuit, the input signal voltage and output collector voltage are in opposite phase. i.e 180° out of phase. Thus the phase difference between the input signal and output voltage is 180°. 13. How does a common emitter amplifier work?Operation of Common Emitter AmplifierWhen a signal is applied across the emitter-base junction, the forward bias across this junction increases during the upper half cycle. This leads to an increase in the flow of electrons from the emitter to a collector through the base, hence increases the collector current. 14. What is β for a CE configuration?Base Current Amplification Factor (β)The base current amplification factor is defined as the ratio of the output and input current in a common emitter configuration. In common emitter amplification, the output current is the collector current IC, and the input current is the base current IB. 15. What is current gain CE configuration?The current gain of a transistor in CE configuration is defined as the ratio of output current or collector current (IC) to the input current or base current (IB). The current gain of a transistor in CE configuration is high. Therefore, the transistor in CE configuration is used for amplifying the current.

CatalogIntroductionⅠ 10 Best Gamecube Memory Card To Save Your Progress1.1 1024MB Nintendo Gamecube Memory Card NGC G1.2 Gamecube Memory Cards 251 By Nintendo1.3 VOYEE Memory Card Gamecube Compatible With Nintendo1.4 Gamilys 128MB Black Nintendo Gamecube Memory Card1.5 HDE 128MB Black Gamecube Memory Cards1.6 Mekela Gamecube Memory Card Wii1.7 Ssgamer Memory Card Gamecube for Nintendo Wii 1.8 Aoyoho Black 128MB Nintendo Gamecube Memory Card 1.9 Honbay White Gamecube Memory Card Wii1.10 Mcbazel 1024MB Non-Compress Memory Card GamecubeⅡ Put a GameCube Memory Card in a WiiⅢ 5 steps to View Nintendo GameCube Memory Card DataⅣ Manage Files on a Gamecube Memory CardⅤ Tips of Gamecube Memory CardⅥ Warnings of Gamecube Memory CardⅦ FAQ1. How to Save Gamecube Games on Wii without Memory Card?2. How to Fix a Corrupted Gamecube Memory Card? 3. Are GameCube Memory Cards Reliable?4. Why is my GameCube Memory Card Corrupted?5. What is the Biggest GameCube Memory Card?6. 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It does not work with the Wii.ConsAt first, it may display an error message.1.4 Gamilys 128MB Black Nintendo Gamecube Memory CardThis gamecube memory card has a large storage capacity. This SD memory card can be used with your Nintendo Wii to store various types of games and save options on your system.This black, slimy-looking, high-capacity MMC is not only compatible with the latest consoles, such as the Microsoft Xbox 360 or Sony PS3, but also with older generation game systems, such as the NES/SNES.ProsIt is compatible with all Sega versions (Genesis)Furthermore, the card has a lightning-fast transfer rate.ConsIf the card has ever been corrupted, it cannot be formatted. 1.5 HDE 128MB Black Gamecube Memory CardsThis gamecube memory card is a must-have accessory for Nintendo GameCube and Wii owners, as it is compatible with both original consoles. The RVL-0's first-generation allows you to store up to 128 MBs of data on your gaming console. 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If the product is found to be defective, it will be replaced and refunded within 45 days.ProsA red light indicates that it is currently operational.ConsThis offer is no longer valid for newer Wii and Wii U consoles.1.7 Ssgamer Memory Card Gamecube for Nintendo Wii This gamecube memory card is intended for use with the Nintendo GameCube or Wii consoles. It has a large storage capacity of 8192 blocks, which can hold 512MB of data. It is simple to use and plug and play. 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Furthermore, it is backed by a one-year warranty if anything goes wrong during the installation or use/damage after that.ProsThe product that is both efficient and simple to useConsRVL-001 Gamecube and Wii consoles are the only ones that will work with it. Ⅱ Put a GameCube Memory Card in a WiiNintendo GameCube Memory Cards can only be used to save game data for Nintendo GameCube Game Discs and cannot replace an SD Card. Firmly press it into the slot until it clicks into place. To see the contents of the SD Card, select the SD Card Menu icon from the Wii Menu.Nintendo GameCube Memory Cards can only be used with Wii consoles with model number RVL-001.To use a Nintendo GameCube Memory Card, remove the slot cover and insert the Memory Card with the label facing the top or right side of the Wii console.Ⅲ 5 steps to View Nintendo GameCube Memory Card DataInsert the Nintendo GameCube Memory Cardthat you want to view into one of the Wii's Nintendo GameCube Memory Card slots.Press the A Button to select the Wii button in the bottom-left corner of the screen.Choose Data Management.Select Save Data, followed by Nintendo GameCube.Choose the Memory Card slot that will be displayed (Slot A or Slot B).Ⅳ Manage Files on a Gamecube Memory Card Save files from gamecube memory cardsthat can be moved, copied, or erased. Here's how:1Ensure that the GameCube is turned on.Connect it, insert both memory cards, and power it on.Navigate to the system menu. This is accomplished by either starting the system with no disc in place or with the lid open or by holding A while the system first turns on.Navigate to the memory card screen. It is the bottom option on the cube.Take care of the files. Slot A will be on the left, and Slot B will be on the right. Select your file with the control stick and press A to see the options for that file, which are listed in the following order:Move Transfers the file to the other memory card without leaving it behind.Copy: Duplicates the file to the other memory card, leaving the original behind.Erase: This permanently deletes the file. This is not something to be taken lightly.Ⅴ Tips of Gamecube Memory Card If you have three, you can do the above option but use the third one to store important data that you don't want erasing (it's a good idea to keep this in a location that only you know about).If you have two 251 or even 1019 block memory cards, you can keep one for storing data from rented or borrowed games and the other for storing data from your games. Put the sticker on one of them to tell them apart.Nintendo must have underestimated the amount of memory space people would require, or they simply wanted to make more money, because three memory cards were released in this order; DOL-008 has 59 gray-colored blocks, DOL-014 has 251 black-colored blocks, and DOL-028 has 1019 white-colored blocks.You can use two gamecube memory cards simultaneously.Ⅵ Warnings of Gamecube Memory Card During a game, do not press the power or reset button while the file is being moved, copied, saved, or loaded. This has the potential to clear the entire card.Third-party gamecube memory cards should not be used. It's not worth it to save a few dollars.There is a myth that the 1019 block memory card will clear itself if you have or have more than 108 save files (not blocks, a game usually takes up one save a file but can use 8 blocks). Don't take any chances, whether this is true or not.Ⅶ FAQ1. How to Save Gamecube Games on Wii without Memory Card?It is possible to save your games without using a memory card. With USB Loader GX and DIOS MIOS, you can put your Wii into NMM (No More Memory-Cards) mode (Regular or Lite). This Reddit user kindly shared a step-by-step guide on how to do so.2. How to Fix a Corrupted Gamecube Memory Card? If you see an "error" message, try to turn off your device. Remove the gamecube memory card before reinserting it and turning on your console again. If the message persists, copy all working files to a different memory card. Alternatively, you could use Remote Recover to safely restore data files before reformatting them.3. Are GameCube Memory Cards Reliable?Although there may be issues with using the memory card with the Wii, it is still an excellent choice for playing games directly from the Gamecube. When we looked at the top 15 products in the category, the Nintendo gamecube memory card 1019 ranked sixth in our analysis of 56 expert reviews.4. Why is my GameCube Memory Card Corrupted?Unfortunately, gamecube memory cards tend to become corrupt as they age. Examine the card on the console. Frequently, the error message appears once and then disappears when the console is restarted. Turn off the console, remove the card, and replace it to see if the message appears again.5. What is the Biggest GameCube Memory Card?The Tomee 128MB Memory Card for Wii®/ GameCube® has 2035 blocks of memory and can save or reload game data. Don't play your games unless you have them. The world's largest memory card!6. How do you Fix a Corrupted GameCube Memory Card?When encountering a corruption error, the best course of action is to turn off the system, remove the memory card, reinsert it, and reload the system. Occasionally, the error will resolve itself.7. What does it Mean to Format a GameCube Memory Card?When you format a Memory Card, the data on it is permanently erased. Memory Cards that previously contained corrupt files, on the other hand, can be used again using this process.8. How Many MB is a GameCube Memory Card?The GameCube comes with two memory card slots for storing game data. Memory Card 59 in gray (512 KB), Memory Card 251 in black (2 MB), and Memory Card 1019 in white are Nintendo's official memory card options (8 MB).9. How much Storage is on a GameCube Memory Card?64MB. The gamecube memory card has a capacity of 64MB/1019 blocks, giving you plenty of room to store your favorite games. You can quickly load, save, copy, and delete game saves.10. How How can I save GameCube Games without a Memory Card?Select the game for which you want to use NMM by pressing A. Go to Settings, then Game Load, and then choose your "Gamecube Mode" (I'll use Nintendont for this example).Then, on the Memory Card Emulation option, press A until it says "ON."11. Where do you Put the Memory Card on a Nintendo GameCube?To use a Nintendo gamecube memory card, remove the slot cover and insert the Memory Card with the label facing the top or right side of the Wii console.12. How Many Games can be Stored on a GameCube?A single card can hold a maximum of 127 files. Each card requires 5 blocks of system data, so the actual size of the cards is 64, 256, or 1024. Certain games, such as Animal Crossing and Pokémon Colosseum, necessitate extremely large save files and were originally packaged with a Memory Card 59 adorned with game-themed stickers.13. What Kind of Head Screws do GameCube Memory Cards Use?Tri-wing head screws are used on genuine Gamecube memory cards. When I opened it, I discovered a simple board with a couple of flash chips hidden beneath some black epoxy/resin. Nintendo's boards do not use this black epoxy/resin.14. Can I Use any Memory Card for Gamecube?Important. Memory Cards for the Nintendo GameCube can only be used to save game information for Nintendo GameCube Game Discs and cannot be used in place of an SD Card. Nintendo gamecube memory cards can only be used on Wii consoles with the model number RVL-001.15. What Memory Card should I Get for My Gamecube?All of the Gamecube's options demanded more memory than its predecessors, so you'll need a memory card like the VOYEE 512-MB gamecube memory card to get the most out of your games.16. How Long does a Gamecube Memory Card Last?There is one answer. In essence, a gamecube memory card is nothing more than a modified SD card. Because there is no built-in battery, it will not expire like old cartridge games.17. What Size Memory Card for Game Cube?HDE Nintendo gamecube memory card 512MB (8192 Blocks) for Nintendo GameCube or Wii Consoles (Clear) 

Introduction As we all know, Resistors play a important role in limiting current in the circuit. Among then, pull-up resistors and pull-down resistors are often mentioned and frequently used in electronics. The pull-up is to clamp the uncertain signal to a high logical level through a resistor, which acts as a current limiter; while the pull-down resistor clamps the uncertain signal to a low logical level. Because there are only two states of high level and low level in digital circuits, it is uncertain at the initial stage of digital signals. Pull-up/ Pull-down Resistor - Explained ( with calculation ) Catalog Introduction Ⅰ Why Pull-down and Pull-up Resistor? Ⅱ Pull-up & Pull-down Resistor Circuits Ⅲ What the Role of Pull-up and Pull-down Resistor? Ⅳ Pull-up & Pull-down Resistor Applications Ⅴ How to Select Pull-up & Pull-down Resistors? Ⅵ FAQ Ⅰ Why Pull-down and Pull-up Resistor? Pull-up and pull-down resistors are often applied when interfacing a switch or some other input with a microcontroller or other digital gates. That is, in the initial stage of digital circuit power-on, because the high logical level and low level of the output state are uncertain, in order to make the circuit state normally, a pull-up resistor or pull-down resistor is needed to stabilize the uncertain circuit state. The low logical level is connected to GND inside the IC, and the high level is connected to the super resistance inside the IC.The pull-up resistor connects with the status port of the power supply. Simply put, the high voltage is applied to this point, where the potential will increase. The pull-down resistor means that the resistor is connected to the negative pole, and there is also the case of digital grounding. When the input port signal changes due to different circuit forms, the change will be fed back to the output port, so that the output port acquires a state that should have been completed, but the input port has no signal at this time and keep the original state.According to the above understanding, many people may feel awkward. Take an example from daily life, when you use the key to open the door, people enter but the door is not closed, at this time, you can add a switch to make the door close automatically. Figure 1. Schematic of Pull-up Resistor at Positive Input The above schematic diagram explains why the positive pole and the input terminal resistor can high the level. The two resistances of the port are assumed to be equivalent. We can get that the voltage of the port is 2.5V according to Ohm's law. By connecting the pull-up resistor (red part), the voltage of the port rises at this time, calculate the port voltage. Among them, 10K is connected in parallel with the later connected 1K, and the resistance must be greater than or equal to 1K, which is equivalent to the series relationship between 1K and the 10K resistor below, but the passing current is actually the same. Finally, the voltage of the two 10K resistors increases, and the terminal voltage also increases.The pin connected to the IC and power (or ground) is not necessarily a pull-down resistor. When this happens, many people may think that the red part of the figure is also a pull-down resistor. However, it is not connected in series with any pin or ground. In fact, it is used for circuit startup resistor, not pull-up/pull-down resistor. For the pull-up/pull-down resistors, it is only for the input port and the output port. Although some circuits will connect the pull-up and pull-down resistors to the redundant ports for stability, not all the resistors are connected to one pin of the IC all the time, and the other pin is connected to power or ground to represent the pull-up and pull-down resistors.   Ⅱ Pull-up & Pull-down Resistor Circuits Look at the following analyses to figure out what are pull-up resistor and pull-down resistor in circuits. Pull-up resistors are used to ensure that a wire is pulled to a high logical level in the absence of an input, while pull-down resistors ensure the voltage between VCC and a microcontroller pin is actively controlled. Just check the details below. Figure 2. OC(TTL) Circuit，OD(COMS) Circuit When the I/O port of the IC is in high level, the impedance between the node and GND is very large, which can be understood as infinite. At this time, it is connected to VCC through a pull-up resistor (such as 4.7K ohm, 10K ohm resistor), and the voltage divider of the pull-up resistor is almost negligible. When the I/O port node is in low level, it can be directly connected to GND. At this time, VCC and GND are connected through the pull-up resistor, and the current passing through is very small, which can be ignored.The level value are relative to the ground level, so you should refer to the ground level value. See if those pins are connected to the ground, it has nothing to do with whether they are connected to peripheral devices.Connect a 10K ohm or 4.7K ohm pull-up resistor between the node and +5V to pull up the potential of this node. Often this node requires a single-chip microcomputer or other controller to control it (and this node is connected to I/O). If you simply want to make this node a high level, and the output impedance is very large, you can directly connect the power supply, but if the microcontroller wants to make this node low, that is, the node is grounded inside the microcontroller, so that the 5V power supply and the ground are short-circuited.In addition, when this node is required to be at a high level, the impedance between this node and the ground is generally very large. For example, with an impedance of 100K ohms, when connect a 10K ohm pull-up resistor, the voltage at this point is 100KΩ/(100K +10K)*5V=4.5V, so it can also get a high level.When the node is required to be low level, just connect it to the ground, and there is a 10K resistor between the power supply and the ground, so that it will not be short-circuited. When it is low, there is a loop formed by a load between the power supply and the ground. Sometimes this node will be connected with a resistor in series. Because the current flows to the place with low impedance, the current will flow to the ground through the resistor connected to the power supply instead of Flow to this resistance connected to the node, because the resistor connected to this node has a high impedance, so the potential at this point is in low level.It can be considered that, for the I/O port of the IC, controlling the high and low levels inside the IC is equivalent to controlling the O/O port to be connected to its internal GND or a very large resistor, such as 100K ohms. When the I/O port is the low level (0V), inside the IC, the pin that controls the O/O port of the IC chip is connected to GND.When the I/O port is at a high level, such as 5V, the I/O port pin is connected to a very large resistor in the chip, such as 100K ohms, and sometimes another one is connected in series at the I/O node. A resistor with a small resistance value, such as 68 ohms, because the current flows to a place with low impedance, when the I/O port and GND inside the chip are connected to a low level, the pull-up resistor and the GND inside the chip form a loop.At this time, the current at the I/O port node will flow to the GND inside the chip, because a small resistance resistor is connected in series at the node, which is high resistance relative to GND, so the current will not flow through this series resistor.Using a pull-down resistor, when the I/O port is in a high-impedance state, the pull-up resistor can keep it in a high-level state. That is, when the I/O port is in the high-impedance state, using a pull-down resistor to connect this port to GND. The high-impedance state has a large resistance value, which can be understood as disconnection, in fact, it is actually a large resistor inside the chip. The resistors are connected and pulled to the ground, so there is no current and the level value is 0. It can only work unless a high level value is given to this pin. Figure 3. Pull-up and Pull-down Resistor in MCU   Ⅲ What the Role of Pull-up and Pull-down Resistor? As for the purpose of pull-up & pull-down resistors, generally speaking, the pull-up resistor increases the current, and the pull-down resistor is used to absorb the current.1) Increase the voltage level.When the TTL circuit drives the CMOS circuit, if the output high level of the TTL circuit is lower than the lowest high level of the CMOS circuit, then it is necessary to connect a pull-up resistor to the output terminal of the TTL to increase the value of the output high level. The OC gate circuit must add a pull-up resistor to increase the high-level value of the output.2) Increase the drive capability of the output pin.In order to enhance the drive capability of the output pins, pull-up resistors are often used on some single-chip pins.3) The N/A pin (the pin not connected) should be anti-static and anti-interference.On the CMOS chip, in order to prevent damage caused by static electricity, the unused pins cannot be left floating. Generally, a pull-up resistor is connected to reduce the input impedance, provide a leakage path, and improve the anti-electromagnetic interference ability of the bus. Because the pin is left floating, it is easier to receive electromagnetic interference from the outside world.4) Resistance matchIn the long-line transmission, the resistance mismatch can easily cause the reflected wave interference. In addition, the pull-down resistor makes the resistance match, which can effectively suppress the reflected wave interference.5) Preset space state/default potentialPull-up or pull-down resistors are connected to some CMOS input terminals to preset the default potential. When these pins are not used, these input terminals are pulled down to low level or pulled up to high level. The state when idle on the bus such as I2C is obtained by the pull-up and pull-down resistors.6) Improve the noise tolerance of the chip input signal.If the input terminal is in a high-impedance state, or in a floating state, a pull-down or pull-down resistor needs to be added at this time, so as to avoid the random level. Similarly, if the output terminal is in a passive state, a pull-down or pull-down resistor needs to be added. For example, the output terminal is only the collector of a transistor, thereby improving the noise tolerance of the chip input signal and enhancing the anti-interference ability through a pull-up resistor or pull-down resistor. Figure 4. Pull-up/ Pull-down Resistor   Ⅳ Pull-up & Pull-down Resistor Applications When to use pull-up or pull-down resistors? Look at the following cases explained.1) If a pull-up & pull-down resistor is used for the input signal pin, the usual function is clamping the signal to a certain level to prevent the signal line from appearing in an uncertain state. In practical applications, the 10K ohm resistor is the most used pull-up resistor. Whether to use a pull-up resistor or a pull-down resistor depends mainly on the needs of the circuit system itself. For example, for a highly effective enable control signal, we hope that the circuit system be in an invalid state after power-on, and then a pull-down resistor will be used.Assuming that the enable signal is used to control the motor, if it is left floating, the signal line may be triggered falsely to a high level by other noise interference after power-on (or during operation), resulting in undesired rotation of the motor, and a pull-down resistor can be added at this time. Correspondingly, for the active-low reset control signal (RST#), if we want to be in an inactive state after power-on reset, a pull-up resistor should be used.2) Most chips with logic control functions (such as single-chip microcomputers, FPGAs, etc.) will integrate pull-up or pull-down resistors. Users can choose whether to turn on or not according to their needs. STM32 microcontroller GPIO mode includes pull-up or pull-down.3) According to the resistance value of the pull-up resistor, we can also divide it into strong or weak pull-up/down. The pull-up resistors integrated in the chip are usually weak pull-up (larger resistance), the smaller the pull-up resistance, the stronger the level capability (strong pull), and the stronger the ability to resist external noise (that is, if the unwanted interference noise is to change the strong pull signal level, the required energy must be strengthened accordingly ), but the smaller the pull-up resistance, the greater the corresponding power consumption, because the normal signal requires more energy to change the state of the signal line. In terms of energy consumption, both pull-up /down resistors are the same.4) There is no strict definition of how many ohms are the boundary between strong pull and weak pull. Generally, the pull-up resistors we use are weak pulls, so we can still use external control signals to pull up/down the signal lines as needed.The extreme of the strong pull resistance is the zero, that is, the signal line can directly connected to the power supply or ground.5) There are more knowledge points involved when the pull-up resistor is used as an output (or input and output), but the essential function is also to clamp the level. The most common output pull-up resistor appears in the open collector (OC) Or open drain (OD) structure pin.6) The current sink capability and current source capability are also called the drive capability of the chip pins. For any given chip, the pin drive capability is limited. If the load driven by the pin is large, it may cause the output level to be incorrect (the predetermined level cannot be output).7) OC (OD) pin output structure is different (OC structure exists in the transistor, and OD structure exists in the field effect transistor FET). The output of most comparator chips is an OD/OC output structure, and the signal pins of many chips or modules that feed back the system status are also in this structure, so that users can pull up the level to the corresponding level according to the actual needs of the circuit system. With the power supply voltage VCC, the level conversion can be omitted. Figure 5. Pull up Resistor with Example   Ⅴ How to Select Pull-up & Pull-down Resistor? When select pull-up & pull-down resistors, you can consider the following three aspects:1) Considering power saving, sink current capability of the chip should be large enough, the resistance is large and the current is small.2) It is necessary to ensure sufficient drive current, so the resistance is small and the current is large.3) For high-speed circuits, excessive pull-up resistors may have smooth edges.Considering the above three points comprehensively, the resistance value is usually selected between 1K and 10K. The same principle applies to pull-down resistors.   Ⅵ FAQ 1. What is pull-down and pull-up resistor?A pull-up resistor connects unused input pins (AND and NAND gates) to the dc supply voltage, (Vcc) to keep the given input HIGH. A pull-down resistor connects unused input pins (OR and NOR gates) to ground, (0V) to keep the given input LOW.   2. What is difference between pull up and pull-down resistor?A pull-up resistor connects unused input pins (AND and NAND gates) to the dc supply voltage, (Vcc) to keep the given input HIGH. A pull-down resistor connects unused input pins (OR and NOR gates) to ground, (0V) to keep the given input LOW.   3. When to use pull-up or pull-down resistors?Pull-up and pull-down resistors are often used when interfacing a switch or some other input with a microcontroller or other digital gates. Most microcontrollers have built-in programmable pull-up and/or pull-down resistors, so fewer external components are needed.   4. What is the function of a pull-up resistor?In electronic logic circuits, a pull-up resistor or pull-down resistor is a resistor used to ensure a known state for a signal. It is typically used in combination with components such as switches and transistors, which physically interrupt the connection of subsequent components to ground or to VCC.   5. What is the purpose of pull-down resistor?What is Pull-down Resistors. Similarly to pull-up resistors, pull-down resistors ensure the voltage between VCC and a microcontroller pin is actively controlled when the switch is open. However, instead of pulling a pin to a high value, such resistors pull the pin to a low valued instead.   6. How do you calculate pull-down resistors?To calculate the pull-down resistor value, it's slightly different from the pull-up resistor value. Knowing that current is 100uA, we'll take 0.5v as our pull-down voltage since the input is 0.8v. Thus, applying our R = V/I once again, but this time we don't have to minus, so our formula remains constant.   7. Why does I2C need pull-up resistor?As discussed in the I2C Basics module, the resistors that are commonly seen on I2C circuits sitting between the SCL and SDA lines and the voltage source are called pull up resistors. ... A pull up resistor is used to provide a default state for a signal line or general purpose input/ouput (GPIO) pin.   8. Which port has no built in pull-up resistor?Input/Output (I/O) pin − All the circuits within the microcontroller must be connected to one of its pins except P0 port because it does not have pull-up resistors built-in.   9. What is pull up and pull down in Arduino?Introduction: Understanding the Pull-up/Pull-down Resistors With Arduino. ... With a pull-up resistor and with the button unpressed you make a logic state ON and with the button pressed you make a logic OFF. With a pull - down resistor and a pressed button you make an ON logic state and OFF logic state when its unpressed.   10. What happens if the pull up resistor for an I2C signal is too small?Too small of a value will once again prevent the output drivers from sinking enough current to pull the pin all the way down to 0.