IRLZ44N IRLZ44 MOSFET Transistors 47A 55V IRLZ44NPBF Logic Level Mosfets 47 Amp 55 Volt TO-220 (Pack of 10Pcs)

I purchased the ALLECIN IRLZ44N IRLZ44 MOSFET Transistors (Pack of 10) for product prototyping, and they have exceeded my expectations. These MOSFETs are logic-level N-channel devices capable of handling continuous drain currents up to 47A and maximum drain-to-source voltages of 55V, making them suitable for a wide range of medium-to-high power switching applications.Technical Highlights:Logic-Level Gate Threshold Voltage (Vgs(th)): Typically around 1-2V, allowing them to fully turn on with 5V or even 3.3V logic signals, ideal for direct interfacing with microcontrollers like Arduino or Raspberry Pi.Low Rds(on): Typically around 0.022Ω at Vgs=10V, which means minimal conduction losses and efficient switching.TO-220 Package: Provides easy mounting options and effective heat dissipation, critical for higher current loads.Fast Switching Speed: Suitable for PWM control in motor drivers, LED dimming, and DC-DC converters.Gate Charge (Qg): Low enough to ensure efficient switching at higher frequencies.Robust Avalanche Energy and Thermal Performance: These MOSFETs are reliable under typical operating conditions and moderately demanding environments.Why I Liked These:The logic-level drive capability simplifies interfacing with low-voltage digital circuits.The high current and voltage ratings provide flexibility across various applications.The consistent quality across the pack of 10 allowed me to confidently prototype without worrying about device variability.Great for projects involving motor control, power switching, battery management, and general-purpose load driving.⚠️ Legal Disclaimer:This review is based on my hands-on use of the ALLECIN IRLZ44N MOSFETs for prototyping. Performance depends on correct circuit design, thermal management, and operating conditions. I disclaim any liability for improper use, circuit failures, or damage resulting from these components.In summary, these ALLECIN IRLZ44N MOSFETs offer excellent electrical characteristics and reliability for anyone needing high-current, logic-level MOSFETs in their projects.

Let’s be real—there are sleeker, more efficient transistors out there… but the TIP31C? It’s the Chevy 350 small-block of general-purpose BJTs. It’s rugged, it’s simple, and it’ll push through heat, current, and amateur mistakes like a champ.I grabbed a pack of these to throw into:A DIY audio amplifier project (classic transistor push-pull),A linear power supply I was repairing,And even a high-power LED dimmer test circuit—and yep, it handled it all just fine.The C variant means it’s the high-voltage version of the TIP31 line—can handle up to 100V and 3A if you’ve got a decent heat sink strapped on. Great for switching, signal amplification, and good ol' analog control circuits. If you’re into learning by building, this one’s your friend.Why It Slaps:TO-220 package = easy to mount, easy to cool, breadboard-friendly (with a breakout)Handles high voltage & current loads without blinking (with proper thermal planning)Works great for PWM, amplifiers, relays, motors, and LED banksCheap and available—perfect for experimenting and prototypingWhat Could Be Better:Needs a good heat sink at anything over 1A—this thing will get toastyBJT means base current draw—if you're coming from MOSFETs, plan your resistorsNo extras in the packaging—no mounting hardware, no datasheet (but hey, it’s online)TL;DR:The ALLECIN TIP31C is a tough, no-frills NPN silicon power transistor for your mid-to-high power needs. It’s not fancy. It’s not surface mount. But it’s reliable, affordable, and ready for abuse—which makes it a perfect staple for DIY electronics and educational builds.It’s the kind of transistor that forgives your mistakes and teaches you something.

They work great. Common collector configuration sinks sufficiently. Observe the polarity & placement of the magnet. Used a dual op-amp LM358 as an inverting comparator & buffer for a square wave out over a 4-ft lead to an Arduino.

I’m love making small electronic projects. This small product worked very well in a few of my experimental projects.

This part was recommended by Chat GPT based on the numbers on the old burned out hall sensor in my electric bike.

Unable to give a true review because I have yet to use them. But these were purchased to have on hand for ebike repair.

Have only used one of these but kicked the tires pretty extensively since it was a "learn about thyristors" project for me. It does what it's supposed to do and all the data spec numbers were pretty much as given.

I'm an EE. Good news is that 10 devices labeled 2N5457 showed up (out of 10 ordered), fast shipping. Brand on box is "Allecin". Using a breadboard, multi-meter, 9V battery, and a couple resistors, I tested 3 or 4 of them. They all functioned as a N-channel JFETs, pinout matching 2N5457, for two simple checks. Measured IDSS (VGS = 0V) was on the order of 2.3 mA with VDS of about 8V: the ON-semiconductor datasheet range is 1mA to 5 mA, so this IDSS is technically fine. With a 1.2kΩ resistor between source and ground, gate grounded, and drain still at about 8V, measured drain current was around 180 uA, amounts to a VGS of around -215 mV: current is much lower than the typical ON-semi datasheet curves would predict for that VGS voltage level, might somewhat still be in datasheet range.Also, the devices themselves include a Fairchild-like "f" (not fully convincing) as if they are not just off-brand 2N5457 but attempts at convincing fakes.I was not able to test other key specs (like noise), etc.For me, these are probably useful enough JFETs for experimentation but I would not want to use them as replacements to fix critical audio / studio recording gear, etc. calling for the 2N5457 part number.