My Keweisi USB Multifunctional Tester review (w/ my paper dolls) - Part 2 (Final) [Sept 14th, 2022]

(1st & 2nd Images) Alright, so for this final part, I’m testing out my Keweisi USB multifunctional tester with three functional devices. My 20000mAh Romoss power bank had dried out the energy juices, so now it’s time to charge up! Well, I would say an “unofficial” charging test, but, this is Keweisi’s USB multifunctional tester we’re talking about. 🙂⚡🔋⏱️

If you haven’t seen my 1st part (1st & 2nd half), then please click → [CLICK ME! #1], [CLICK ME! #2].

So, without further ado, let’s get started!

Record video 🎦📲 [Pls watch my record video.]:

• Okay so, to get this working test, I plug my Huawei USB wall charger before the multifunctional tester. Once the two combined, the tester lit showing the stats in rainbow color fonts. Nice! And then my two remaining tools to plug in. I should plug the USB type A first before hitting the power bank w/ my message USB type C cable. Once all set up, the tester is now timing and other parameters. And according to that, my Huawei USB wall charger is a 2A or 2 Amperes, which is a fast charger (if not certified as Quick Charge 3.0 technology ❌⚡🚅). (Please see 3rd & 4th images ↓).

BTW: My paper dolls are wondering (and also you), why did I remove the micro USB adapter from the cable? 🤔 Well, we all know that the type C is better overall than the old micro USB.

• While it’s charging, I’m curious to see when I press the single button 🤔, and it turns out that I can save the charging data stats. This tester can save up to 9 slots 9️⃣💾. Another feature is to pressing twice it’ll change the display 🔘🔳. If you want more about it, please check out my scan image↓.

5th Image ↑:

• Okay so, while I added, I checked the parameter stats on my multifunctional tester & indeed recognized, from the temperature of 42 degrees of heat from the male USB plugged, to the numbers of Watts, Ohms, Milliamps per hour, Milliwatts per hour, Temperature, Volts, and the aforementioned Amps. Which is amazing. 🆒🙂

6th & 7th Image(s) ↑:

• After long hours of charging, my Romoss power bank has once again fully charged. Although, the time from the tester still going instead of pausing. Luckily, I know the exact time, and it’s 7 hours, 7 minutes & 57 seconds 🕖⚡🔋. Compare to my last recorded on May 2021 was 7 hours & 28 minutes. “That was interesting,” my paper dolls said. Indeed. The USB tester is much more accurate than me using the stopwatch.🙂❌⏱️

Here are some comparisons: ○ Jan 22, 2021: using Anker Powerport 2 (Type C): 3:21 AM to 11:13 AM = 7 hours 52 minutes ○ *May 24, 2021: using Huawei Charger (Type C): 3:40 AM to 11:08 AM = 7 hours 28 minutes ○ Aug 22, 2021: using Anker Powerport 2 (w/ converter): 2:12 AM to 12:05 PM = 9 hours and 53 minutes ○ Aug 6, 2022: using Huawei Charger (w/ converter): 12:10 AM to 12:47 PM = 12 hours and 37 minutes (11 seconds)

And here’s the final stats from my 1st test (look at the ohms, mAh & mWh). (Please see 8th image.↓)

IMPORTANT NOTE: I noticed when I booted my tester by plugging the Huawei USB charger, that the brand shows “KOWSI” instead of “Keweisi”. Is that mean that the company changed its name, or is the tester I’ve bought fake/counterfeit? I’m not so sure…😕

Overall & Price:

• Well, all brand name aside, this USB multifunctional tester is impressive & very helpful for giving information while charging your devices, connecting a USB thumb drive or any storage device onto a computer/laptop (which I haven’t tried yet, but, I decided not to attempt), or even connect through USB portable solar panel(s), etc… It can do pretty much anything with this USB flash drive look-a-like tester. The only “cons” I have are the pause time when it’s fully charged, and no USB covers for both males & females. Looks like I’ll be purchasing USB caps & covers (to prevent dust & rust), soon.😊🛒��

• As for the price tag of USB tester [CLICK ME!], the original price was cost ₱ 315 ($5.52) 🏷️💵 (shipping not included), but thanks with vouchers from 8.8 sale on Lazada PH I paid ₱263.20 ($4.61) w/ free shipping. What a steal! 🎫😃

Well, that’s the end of my topic!

 If you haven’t seen my previous topic, as well as my opening parcel (for my recent topic), then I’ll provide some links down below.↓😉

My Phone Tripod Mouth Adapter:

• Revealing parcel [Aug 11th, 2022]

• Part 1 (1st half) [Aug 16th, 2022]

• Part 1 (2nd half) [Aug 16th, 2022]

• Part 2 (Final) [Aug 24th, 2022]

My Keweisi USB Multifunctional Tester:

• Revealing parcel [Sept 3rd, 2022]

• Part 1 (1st half) [Sept 9th, 2022]

• Part 1 (2nd half) [Sept 9th, 2022]

Tagged: @lordromulus90, @bryan360, @carmenramcat, @leapant, @alexander1301

Charge Ahead: EV Charger Installation Guide for Calgary Homes

Revving Up Home Charging: Plug into the Future with Calgary's Finest

If you've been zapping through webpages in a quest to give your electric vehicle (EV) that 'home-fueling' edge, Charge Ahead: EV Charger Installation Guide for Calgary Homes is the kilowatt kick you've been waiting for! But before you charge blindly into the electric frontier, let's amplify your knowledge with a power-packed perspective on EV charger installations.

Here at Ampt Over Electric, we're not just throwing volts in the dark. With 20 years of sparking success in Calgary, we've electrified our knowledge to a shocking degree. As your energy-savvy pals, we know the ins and outs of giving your EV a cozy, corded cradle at home.

First things first, let's talk utility—your EV is more than a shiny road comet; it’s a futuristic ride begging for an equally advanced chariot station, aka your friendly neighborhood charger. Installing an EV charger at your residence isn't just about keeping up with the Joneses; it's about hitching your wagon to a star and peering into the future.

Now, don't forget: choosing the right charger is crucial. It’s like picking a dance partner for your EV—good chemistry means smooth moves! Whether you're after the standard Level 1, the sprightly Level 2, or have your sights set on commercial-grade charging wonder, Ampt Over Electric offers EV charger installations that hit the right notes, catered to cozy Calgary abodes and bristling businesses alike.

Taking the current trend by storm, Calgary’s demand for competent, certified residential electricians is surging. That's us. Handling the nuts and volts of your charger installation with the dexterity of an electric maestro, Ampt Over Electric ensures each joule of juice flows harmoniously from grid to gadget in your home.

And what about your beloved hot tub and those golden aluminum wire twilight years? Fear not. With services spanning from hot tub hook ups to aluminum wiring replacement, our circuit-savvy virtuosos have got your back, ensuring everything's connected with precision and your safety in mind.

Lastly, don't let the volts vanish into thin air. A session with an Ampt professional can seal the deal with robust, up-to-date electrical panel upgrades—because we know that in the world of home charging, ampere appetites grow with time.

Summon the surge of confidence; let your home charge ahead into the current revolution. Call Ampt Over Electric or request a quote from our website. Ohm my, are we excited to spark your home's transformation!

QO330 - Square D 30 Amp 3 Pole Circuit Breaker

Only 2 units left！

QO330 - Square D QO 3 Pole 30 Amp Breaker

QO Circuit Breakers provide the high level of protection you expect from Square D. When it comes to electrical protection, fast response is critical and QO Circuit Breakers can trip faster than the blink of an eye.

Specifications:

* Manufacturer : Schneider Electric

* Type QO Series

* For use with QO load centers, CSED's and NQOD panel boards

* Cat. No. : QO330

* Dimensions (H x W x L): 3" x 1.50" x 3"

* 3 Pole

* 30 Amp

* 120/240 Volt

* Connection : Plug-In

* Phase : 3

* Interrupting Rating 10000 Ampere

* Authentic Square D Product

* CSA Approved and UL Listed

Alt Model: q0330

www.ameleco.com

One Stop Electrical Supplier - Since 2010 

Vancouver Breakers Depot.

  LED  Warehouse Sales

 

Burnaby office:

4012 Myrtle street, Burnaby, BC. V5C 4G2

Tel: (604) 570-0867

Fax: (604) 570-0807

Email: [email protected]

Website:   http://www.ameleco.com

Richmond branch:

Unit 3~4, 12331 Bridgeport road, Richmond, BC. V6V 1J4

Tel: (778) 296-2570m

Port Coquitlam branch:

Unit 420, 1952 Kingsway Ave, Port Coquitlam, BC. V3C 6C2

Tel: (778) 285-3999

Mon.~Fri.: 7:00am~5:00pm

Sat.: 8:00am~2:00pm

Versatile Operations: Rising Demand for Low-Voltage Switchgear in Industrial Applications" 

Low-Voltage Switchgear Market Overview: 

Low-voltage switchgear, a critical component in electrical systems, efficiently and reliably supplies electrical energy up to 1000 volts and 6000 amperes. Positioned on the secondary side of distribution transformers, it forms a substation, vital for powering industrial processes and critical power systems. The market encompasses various product types, voltage ratings, and installations, catering to diverse applications such as substations, distribution, power factor correction, sub-distribution, and motor control. 

𝐑𝐞𝐪𝐮𝐞𝐬𝐭 𝐒𝐚𝐦𝐩𝐥𝐞 𝐏𝐃𝐅 𝐁𝐫𝐨𝐜𝐡𝐮𝐫𝐞 : https://www.alliedmarketresearch.com/request-toc-and-sample/14898  

COVID-19 Impact Analysis: 

The COVID-19 pandemic disrupted the supply chain, impacting the specialized equipment market and resulting in a halt in low-voltage switchgear production. Global economic slowdown and lockdowns led to workforce unavailability, causing a decline in inventories. Post-COVID, as industries resume operations, especially in heavy industry, manufacturing, and utilities, the demand for low-voltage switchgear is expected to rebound. 

Top Impacting Factors: 

Government Directives and Micro-Grid Networks: Government directives impacting utility-backed distribution grids and the integration of decentralized micro-grid networks drive market growth. 

Skilled Manpower and Project Execution: Challenges such as a lack of skilled manpower, panel losses, and project delays inhibit market growth. 

Demand for Manufactured Goods: Rising demand for manufactured goods, coupled with versatile product operations, contributes to market growth. 

Application in Real Estate: The application of low-voltage switchgear in the real estate sector in emerging countries is expected to fuel market growth. 

Renewable Energy and Smart Grid Technology: Investments in infrastructure, renewable energy, and smart grid technology drive market growth globally. 

𝐄𝐧𝐪𝐮𝐢𝐫𝐲 𝐁𝐞𝐟𝐨𝐫𝐞 𝐁𝐮𝐲𝐢𝐧𝐠 : https://www.alliedmarketresearch.com/purchase-enquiry/14898  

Market Trends: 

China's Growth in Clean Energy: The low-voltage switchgear market in China is poised for significant growth, particularly in clean energy deployments. 

Strategic Ventures: Joint ventures and expansions, such as Eaton and Abunayyan Holding forming a partnership, indicate strategic moves to enhance switchgear production. 

Global Expansion by Key Players: Key players like Schneider Electric and Siemens are expanding manufacturing facilities to meet the growing demand for renewable technology. 

Strategic Acquisitions: Siemens' acquisition of C&S Electric in India positions the company as a leading player in switchgear production in the region. 

Key Benefits of the Report: 

Analytical Depiction: In-depth analysis of the Low Voltage Switchgear industry with current trends and future estimations. 

Market Estimation: Insights into key drivers, restraints, and opportunities, with a detailed market share analysis. 

Quantitative Market Analysis: Numerical analysis highlighting growth scenarios in the Low Voltage Switchgear market. 

Competitive Landscape: Detailed analysis of competitive intensity and future market dynamics. 

𝐆𝐞𝐭 𝐚 𝐂𝐮𝐬𝐭𝐨𝐦𝐢𝐳𝐞𝐝 𝐑𝐞𝐬𝐞𝐚𝐫𝐜𝐡 𝐑𝐞𝐩𝐨𝐫𝐭 @ : https://www.alliedmarketresearch.com/request-for-customization/14898  

Low-Voltage Switchgear Market Report Highlights: 

Product Types: Fixed Mounting, Plug-In, Withdrawable Unit 

Voltage Ratings: Less than 250V, 250V to 750V, 751V to 1000V 

Installations: Indoor, Outdoor 

Applications: Substation, Distribution, Power Factor Correction, Sub-Distribution, Motor Control 

Regions: North America, Europe, Asia-Pacific, LAMEA 

Key Market Players: Eaton, Hubbell, Al Hassan Engineering, Siemens, Lucy Electric, E+I Engineering, Norelco START, Mitsubishi, Hyosung, GE, Schneider, Fuji, Powell, L&T, Skema, Hitachi, Hyundai Electric, AB 

UNDERSTANDING YOUR HOME WIRING: AN INTRODUCTORY GUIDE

If you’re a homeowner, you might agree that having a basic understanding of your home’s electrical system can be very helpful. It can not only help you solve minor electrical problems without needing to call a professional, but it also empowers you to have informed discussions with electricians when you do need to hire one.

In today’s blog post, I’m going to give you an introductory guide to understanding your home wiring. I want to help you unravel the maze of wires that run behind your walls, delivering power to all parts of your home. This guide aims to break down some of the complexities of home electrical systems into manageable pieces of information that you can easily digest and apply.

Electricity Basics

Electricity can seem like a mysterious force, but in reality, it’s based on some fundamental principles. When we talk about electricity, there are three key terms you need to know: current, voltage, and resistance.

Current, measured in amperes or “amps”, is the flow of electric charge. Imagine it as a river of electrons flowing through a wire.

Voltage, measured in volts, is the force that pushes the current through the wires. It’s akin to the water pressure in a pipe.

Resistance, measured in ohms, is anything that resists or hinders the flow of electric current. Just as rocks in a river slow down the water, various factors in a wire can resist the flow of current.

In our homes, we use alternating current (AC) as opposed to direct current (DC). Without getting too technical, AC is the type of electrical current that changes direction periodically, and it’s more efficient for transmitting electricity over long distances, which is why power companies use it.

Your home wiring system is like the invisible powerhouse, operating behind the scenes to light up your home, power your devices, and make everyday life convenient and comfortable. The key components in this system are circuit breakers, outlets, switches, and light fixtures. Let’s briefly understand each of them.

Circuit Breakers: These are your first line of defense against electrical accidents. Installed in your home’s electrical panel, circuit breakers monitor the amount of electricity flowing through each circuit. If there’s an overload, the circuit breaker trips and cuts off the power, preventing potential fire hazards.

Outlets: Outlets, or sockets, are the points at which you plug in all your electrical appliances and devices. They’re directly connected to the home’s wiring system and allow for the transfer of electricity from the wiring to your devices.

Switches: A switch is a simple device that allows you to control the flow of electricity. When you turn on a light switch, for instance, you’re closing the electrical circuit and allowing electricity to flow to the light bulb.

Light Fixtures: These are devices that house light bulbs and connect them to the electrical system.

Now let’s talk a bit about the wires themselves. Typically, you’ll find wires in three colors: black, white, and green (or bare copper). Black wires are usually “hot”, meaning they carry the electric current. White wires are “neutral”, completing the electrical circuit by providing a return path for the current. Green wires, or bare copper wires, are “ground” wires, providing a safe route for electricity in case of a fault.

The Wiring Layout

Many of you readers are from the United Kingdom so let’s use London as an example home. In a typical London home’s electrical system, the wiring layout is divided into numerous circuits, each dedicated to serving a particular area or a specific set of appliances. Let’s discuss this a bit more.

Firstly, your house has a main electrical panel, also known as a breaker box. This is the central hub where power from the utility company enters your home and is then distributed to various circuits. This panel is often located in a utility room, garage, or basement.

Inside this panel, you’ll find a series of circuit breakers or fuses. Each one controls the power flow to a different area or appliance in your home. A circuit, in the simplest terms, is a closed loop of wires that electricity travels along. It starts at the electrical panel, runs out to provide power to various outlets, switches, or directly to appliances, and then returns to the panel.

A closer look at your panel will reveal labels next to each breaker. These labels typically indicate which area or appliance the circuit serves. For instance, you might have separate circuits for the kitchen, bedrooms, living room, and outdoor areas. Some high-energy appliances like your electric oven, air conditioner, or water heater, often have dedicated circuits just for them. This separation allows each part of your home to have access to the amount of electricity it needs without overloading the system.

The wiring associated with each circuit is run through the walls, floors, or ceilings of your home. These wires, as we discussed earlier, come in three colors: black (hot), white (neutral), and green or bare copper (ground). The black hot wire carries electricity from the panel to the outlets and switches. The white neutral wire carries the current back to the panel, and the green or bare copper ground wire provides a safe route for electricity in case of an electrical fault.

Understanding your home’s wiring layout is important because it can help you make sense of how power is distributed throughout your home. It can also aid you in planning for any home renovation projects, or even just for troubleshooting when a problem arises.

Safety Measures in Home Wiring

When dealing with home electrical systems, safety should always be the top priority. Even with a basic understanding of home wiring, it’s important to approach any electrical project with caution. Here are some essential safety tips:

Switch Off the Power: Before starting any electrical work, even something as small as changing a light bulb, always make sure the power is switched off. This can usually be done at the main electrical panel by switching off the circuit breaker corresponding to the area you’ll be working on.

Use Insulated Tools: If you’re doing any work that involves contact with electrical wires or components, use tools with insulated handles. These are designed to protect you from accidental electric shocks.

Never Touch Wires Directly: It’s crucial to avoid direct contact with wires unless absolutely necessary. Even with the power off, treat every wire as though it’s live.

Wear Protective Gear: Always wear protective gear like gloves and safety glasses when dealing with electrical work.

Understand Wire Colour Coding: As we’ve discussed earlier, understanding wire colours can help you identify the function of each wire, reducing the risk of accidents.

Remember, these are just basic safety measures. For any substantial electrical work, it’s always best to call a professional. They have the right training and equipment to handle the job safely and effectively.

So, when should you tackle a job yourself, and when should you call in the pros?

There’s a certain sense of accomplishment in being able to handle minor electrical tasks around your home. But it’s important to know your limits and when to call in professional help.

Tasks like replacing a light bulb, resetting a tripped breaker, or even swapping out a light switch or outlet, can usually be handled by a homeowner with a basic understanding of electricity. But for anything more complicated or if you feel unsure at any point, don’t hesitate to call a professional.

Why call a professional? Well, professionals are trained and equipped to handle electrical work safely and correctly. They understand the local electrical codes and their work will be in compliance with these regulations.

In addition, professionals can identify and fix not only the problem at hand but can also spot potential issues that may not be apparent to the untrained eye. Their work often comes with a guarantee, providing peace of mind that the job has been done right.

So, while it’s valuable to understand your home’s electrical system and handle minor tasks, it’s equally important to know when to call in the professionals. After all, when it comes to electricity, safety should always be your top priority.

Conclusion

In this blog post, we’ve shed light on the basics of home wiring, the key components of your home’s electrical system, the meaning of different wire colors, and the layout of a typical home wiring system, specifically looking at London homes. We’ve also stressed the importance of safety when dealing with electrical systems and discussed when it’s wise to call in professionals.

I hope that this guide has given you a better understanding of your home’s electrical system and empowered you with the knowledge to handle minor electrical issues confidently and safely.

Be safe, be smart, and when in doubt, call a professional.

Website : https://www.lintonelectric.co.uk/sb/understanding-your-home-wiring-an-introductory-guide/

Is it Possible to Install A DC Charger at Home?

There has always been a notion that DC Fast Charging is only suitable for commercial and public scenarios, and that it is impossible to use DC Fast Charging in home scenarios.for home charging AC charging is your only choice, Today I want to tell you that this notion is wrong or at least outdated

Firstly, I want to introduce you the difference between AC Charging and DC Charing, and the most commonly used charging Levels.

AC charging and DC charging are two types of electric vehicle (EV) charging that main difference is in where the conversion from AC power (electric from the grid) to DC power (for the battery) happens. With AC charging, the conversion happens inside the EV using an onboard charger. the AC Chargers (Level 1 and Level 2 chargers) are more like an electricity supply equipment for the on-board charger. With DC charging, the conversion happens inside the charging station, The DC charging station feed power directly to the battery.

AC Charging for Electric Vehicles. there are two levels, know as level 1 charging and level 2 charging.

- Level 1 Charging:

Level 1 charging uses a common 120-volt household outlet. Every electric vehicle or plug-in hybrid can be charged on Level 1 by plugging the charging equipment into a regular wall outlet. Level 1 is the slowest way to charge an EV. It adds between 3 and 5 miles of range per hour1. It can charge 200 kilometers (124 miles) in 20 hours2.

Typically they’re limited to 10 or 12 amperes of current because there’s an assumption they’ll be used on a 15- or 20-amp circuit along with other electric outlets. this type of charger is not commonly used nowadays because of it's poor charging speed.

-Level 2 Charing:

Level 2 charging is the most commonly used means of charging an EV at home. It’s the most useful type of charging and the least meaningful designation. The only thing Level 2 means is 240 volts. Unfortunately, voltage is just one factor behind the power that charges a battery; current is the second factor, and the amount of current supported by Level 2 extends from 12 to 80 amps. So charging at this “one” level called Level 2 for one hour could mean you’ve added 5.5 miles of range or 60 miles of range. It all depends on the vehicle (the on-board charger, for most electric cars the on-board charger is limited to 7KW or less)and the charging unit, which have their own current ratings.

The Level 2 charger can have a rating of 12, 16, 20, 24, 32, 40, 48 or 64 amps — and some can be set to throttle down to lower current levels to accommodate being fed by less robust circuits.and it's also limited by the on-board charger of the electric cars. Level 2 charging is a compromise that users make with reality.

DC Charging for Electric Vehicles. the level 3 DC Fast Charging.

Level 3 charging is the fastest type of charging available and can recharge an EV at a rate of 3 to 20 miles of range per minute. Unlike Level 1 and Level 2 charging that uses alternating current (AC), Level 3 charging uses direct current(DC) directly charging the batteries. The voltage is also much higher than Level 1 & 2 charging, it requires of 3phase high-voltage power supply such as 3phase 380V/480V. for DC Fast Charging there are 5 Commonly used charging standards, known as CCS1 for North America and North Korea； CCS2 for European countries； CHAdeMO for Japan； GBT for China and Tesla Supercharging.

We can see that DC charging is fast can saving people a lot of time, but why people don't install a DC charger at home? Because following reasons.

1. the DC charger is very expensive is far more expensive than AC Chargers.

2. Most Homes or residential buildings do have the 3phase high-power supply.

3. People think that DC Fast Charging do harm to their batteries life span.

4. DC Charging have 5 different charging standards, a charging station can't meet all the needs for different markets.

is there any solution for these concerns? the answer is yes.

1. Our 21KW/31KW home dc fast charger with GBT DC connector is at a very affordable price similar as a AC charger, want to know the price and more details please contact our sales team

2. This GBT DC charging station requires a 3phase power supply, the input voltage is 342V-418V AC. input current is 60A max. so it means this charger is not for everyone. but only for the ones who can have the access to 3Phase power supply. but nowadays many countries they can have 3phase power supply for their residents.

3. The output voltage of our constant power dc home charger is 200-1000VDC the output voltage is adaptive accordingly. the output current of 21KW charger is 0-67A the output current for our 31KW is 0-100A. the charging time for a Volkswagen ID6 CROZZ 85KWH battery pack is about 2 hours from 20% to 80%. the degree of battery attenuation is almost the same as a AC charger. so you don't need to worry about this charger will effect your battery life span.

4. This 21KW/31KW DC Charging Station for home is with a GBT 9 pins charging connector, is only compatible with Chinese made electric cars (BEV and HPEV) such as the Volkswagen ID4 CROZZ, ID4X; VW ID6 CROZZ, ID6X; Zeeker 001, BYD all series, Nio ET7, ET5, MG; XIAOPENG.... all the Chinese Electric cars. in the future there will be home DC chargers with CCS Chademo Connectors.

So if you are driving a Chinese electric cars with a GBT 9 pin DC charging inlet, and you can access to 3phase power supply, this 21KW/31KW Constant Power DC Charger for home is your best choice. forget about the notion that DC charging is only available at public charging stations.  you can also install one at your home. to experience DC Fast charging at home. For more details browse our website https://www.fiverevse.com.

#home dc fast charger #home dc charger for ev #dc fast charge station  #dc fast charging at home  #installing a dc fast charger at home #21/31KW Constant Power DC Charging Station #dc charger for home

Bungee Toggle Ties: Find New Levels

Trampoline hopping has in a real sense been taken higher than ever with the send-off of an adrenaline-siphoning sport known as bungee trampoline, presented by the universe of outrageous games. In the bungee trampoline, the jumper has a customizable bridle joined to the midriff, associated with Bungee Toggle Ties on the two sides. This permits different kinds of somersaults and other airborne high-impact exercises as the jumper is shot up to 12 to 14 meters in the air.

There are a few models, types, and plans of bungee trampolines. Some of them have been changed to take leaps really interesting and exciting. For instance, Woodland Maxi Bungy Trampoline, subtitled "Maxi bungee trampoline fly in the trees" (maxi-trampoline.com) highlights a tackle and flexible framework which is associated with regular trees from 5 meters to 20 meters high development. Members (5 years and more established, grown-ups under 200 lbs.) can hop up to 20 meters and land on their feet on the trampoline. 230 volts or 110 volts is the typical stock of force utilized by this bungee trampoline.

Most Bungees Cords are worked from great materials like aluminum and tempered steel and ought to satisfy specific well-being principles and guidelines. Any individual who weighs between 45 to 200 pounds can easily take part in bungee trampoline hopping. Experience isn't required aside from outrageous tricks and high-impact exercise, which ought to never be endeavored without the oversight of an expert. One more benefit of bungee trampoline hopping is that even individuals with specific actual disabilities can participate on the grounds that the saddle connected to the midriff makes it a lot more secure than ordinary trampolines.

A solitary hopping unit might have more than one trampoline which permits different jumpers to utilize the bungee trampoline simultaneously. In any case, there are likewise bungee trampolines intended for just a single individual at a time. A large portion of the bungee trampolines utilized today accompanied a client control device, utilizing a counter and a clock that can be effectively worked by a solitary individual. The suggested power supply for bungee trampolines is 110 or 230 volts and 10 amperes plug.

How to charge your E-bike batteries?

If you had to keep your electric bike clogged into the wall, your bike wouldn’t precisely be convenient. So, the ability and outcome of your E-bike batteries amount to something a lot. Typical batteries deliver between 250 and 500 watts, meaning they put out about 20 to 50 volts and 10 to 12 amps. To simplify items, think of volts as the potential energy, and amps (or amperes) as how much electricity can stream through at any provided juncture. Then, volts multiplied by amps equals’ watts. How far a battery will get you of course relies on how much energy your engine uses, as well as the landscape, and how much the rider assists with pedaling. On average, a decent electric bike will run about 40 miles if the rider is assisting pedal or just 20 if they’re not. Fling in an “extended range” battery and you may get 60 and 30 miles, respectively. Old electric bikes usually employed lead-acid batteries, which are the variety of batteries normally used to commence cars. While they are fairly inexpensive, the downside is that they are extremely hefty and quiet to recharge. More current e-bikes have swapped those for lithium E-bike batteries, which are much lighter, need less care, and have incredible lifespans.

Charge It Up

Charging an electric bicycle battery is rapid and straightforward. You can charge the battery while it’s still connected to the bike, or withdraw it from the bicycle and charge it while you’ve exchanged it for another battery for extended riding. Just clog it into your wall opening, and you’re fair to go. The energy cell’s thoughtful battery management procedure always scrutinizes the energy levels, to stave off over or undercharging. That implies you can keep the battery plugged in overnight after it has completed charging, and not bother about it. But, if you’re not going to ride the bike for a few weeks, it’s adequate not to keep it plugged in that whole time. Modern electric bikes have lithium batteries (lithium-ion or lithium polymer) that not just recharge fast, but last a lengthy time. EVELO  E-bike batteries are ranked for 750+ recharges, so you can be comfortable riding for numerous years to come.

Need expert advice? Check FTH Power online and get all your E-bike battery-related issues resolved by our experts!

Battery status meter

#Battery status meter how to

Perform the following steps to measure the amperage in a battery: For example, 12V 95Ah means the battery provides 12V at 95 Amperes for an hour. Check the battery’s label to determine the voltage and amp-hours of the battery. Batteries are rated in amp-hours and voltage. But if the goal is to ensure whether the battery can supply sufficient current to a load, make sure to measure the amperage of the battery in milliampere-hour (mAh). In most cases, the voltage across a battery can be measured to check if a battery is working or dead.

#Battery status meter how to

The battery is typically considered dead if the multimeter reads below half the voltage level specified on the battery.įigure 2: Testing a battery using a multimeter How to check battery amperage using a multimeter If the reading shows a considerably low value (say If the reading shows a value greater than 7V for a 9V battery, the battery is still fit to use. Connect the multimeter leads to the battery’s terminals (red probe to the battery’s positive terminal and black probe to the battery’s negative terminal).Connect the plug of the red probe to the VΩmA port of the multimeter, and the black probe to the COM port.For a 9V battery, selecting the 15-20V range on the multimeter dial should work fine. Always set the dial to a higher range than the specified voltage of the battery. Rotate the knob of the multimeter and set it to 15-20V DC voltage (a battery generates DC power).Disconnect the battery from the circuit.How to check battery voltage using a multimeter The voltage across the battery terminals is too low compared to its rated voltage on the label.The battery appears to charge to 100 percent very quickly, only to see the charge getting drained off too fast.Physical issues like leaking, heating, physically broken terminals, or bulging.Test the battery for faults if any of the following symptoms show up: The alternator’s job is to generate energy to feed the electrical system and charge the battery while the vehicle is running.View our online selection of clamp meters and multimeters! Dropping below 14 means either the battery is weak and unreliable for sustained vehicle operation or the alternator is failing. With the motor running, the multimeter rating should stay in the 14 to 14.5 volt range. Immediately following the crank cycle, the vehicle will begin to idle and maintain a steady draw from the battery. Again, in this case, recharge or replacement of the battery may be necessary. If it falls below 10 volts, it means the battery does not have sufficient turnover strength and is prone to failure. As soon as the car is turned on, the voltage reading will drop for a quick moment, but should not fall below 10 volts. To get this reading, a second person will be needed for the purpose of starting the ignition. This is the moment that the vehicle is turned on and the battery is under the most draw because of the higher amount of energy needed to drive the starter motor. Once the resting voltage has been determined, it is time to get a reading on the crank cycle. If the measured reading is less than 12.2 volts, the battery’s resting voltage is weak, which means it most likely needs to be charged or replaced. This voltage range means the battery is in good condition for starting the vehicle. When the probes touch the terminals while the car is off and the battery is resting, the multimeter display should show a reading of 12.2 to 12.6 volts (full charge). The red probe is for contact with the positive terminal and the black probe is for contact with the negative terminal. For measuring battery load, the multimeter has two probes: red and black.

What is the Power Saver Australia Plug? | energypowersaver.com.au

The Power Saver Australia is a small device that you can connect to your wall outlet. It contains an LED, a circuit board, and a capacitor. It is lightweight and does not require a complicated establishment interface. Its primary function is to reduce power consumption and save money. Unlike other energy saving tools, it does not require you to buy a power strip or install an expensive system. It connects to your wall socket via an unattended power attachment.

Power factor correction for residential customers is a scam

Power factor correction is a marketing ploy, designed to sell consumers a box that fixes electricity fluctuation problems. Power factor boxes use a small capacitor, LED, and couple of resistors to change the frequency of the electric current and thereby bring it closer to a stable level. Unfortunately, these devices don't do much to alter a household's power factor. In fact, they cause more damage to the environment by making, shipping, and installing these devices than by using them.

In fact, power factor correction isn't necessary for residential customers. It is only practical for industrial/commercial facilities and is a scam for residential customers. If you're concerned about your power quality and want to make sure your system works safely, don't get power factor correction.

It is a small plug containing an LED, small circuit board and capacitor

The circuitry for the Power saver Australia plug is quite straightforward, incorporating a small LED, a small circuit board and a capacitor. While the potting material obscures details, the circuit appears to closely follow the NXP reference designs. The converter receives mains voltage, which is rectified, buffered and filtered. This energy is then stored in the capacitor before driving the chain of LEDs.

It is marketed under a bunch of names

The power saver is a plug-in device that has been marketed in Australia under several different names. It comes in the form of a plug and a circuit board that contains a small LED and a power factor correction capacitor. However, unlike the name implies, it does not reduce the power consumption of the house. Instead, these devices simply reduce the bill of the electricity retailer.

In Australia, the device is marketed under several brands, including Voltex and EcoPlug. The Reduction Revolution is another brand that markets the device. However, the Voltex model was exposed as a scam in the UK. In Australia, the device has been marketed under a variety of brand names, including Eco-Watt, EcoPlug, MiracleWatt, and Voltex (UK).

It is intended for permanent, unattended connection near the house breaker panel

The Power Saver is a device that plugs into the power socket of a home appliance and is claimed to reduce power consumption. Unfortunately, the electricity that arrives in our homes is not stable, so household appliances cannot utilize it efficiently. This constantly fluctuating current wastes electrical energy and converts it into heat energy that may damage appliances.

It is not charged by KVA - hour usage

Currently, residential customers are not charged for KVA - hour usage, but kilowatthour usage. However, this is about to change. As of April 2018, customers will be charged a penalty for exceeding their KVA-hour limit. This is a result of new legislation that has been introduced by the Australian regulator, Ofgem. If you exceed your KVA-hour limit by more than 20 percent, you may find that your bill could increase three times.

The Kilo Volt Ampere (KVA) is an electrical unit that equals 1,000 Watts. Your energy supplier uses this unit to charge you, and they also use it to calculate demand/capacity charges. It's important to understand the difference between these two terms.

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Used Miller XMT 300 CC/CV DC Inverter Arc welder. Comes with power cable and plug. Electrode and ground cables. Miller wire feeder.Miller XMT 300 CC CV. User Manual: Miller-XMT-300-CC-CV Miller. Open the PDF directly: View PDF PDF . Page Count: 40. Thumbnails Document Outline

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10 Reasons Why You Need to Upgrade Your Electrical Panel

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Empowering Your Home: The Spark Behind Electrical Panel Upgrades

Empowering Your Home: The Spark Behind Electrical Panel Upgrades

Welcome to the current buzz of home improvement – where we don’t just talk the talk, we walk the electrical walk. Imagine a superhero inside your home, one that ensures your gadgets stay powered, your spaces remain well-lit, and safety isn’t just a sticker on a fuse box – that's your electrical panel. Our recent enlightening piece on 10 Reasons Why You Need to Upgrade Your Electrical Panel sparked conversations. Let’s charge deeper into why this upgrade is more than just a bright idea – it's a necessity.

Why, you ask? Well, with decades of unparalleled experience under our tool belts, Ampt Over Electric knows the blueprint to a safe and efficient home. And central to that plan is an up-to-date electrical panel. Whether you're looking to install that hot tub you've dreamed about, charge your trusty electric vehicle overnight, or simply ensure your home's wiring is as current as your lifestyle, we're plugged in and ready to help.

You're not just choosing a service; you're selecting a guardian for your electrical needs. Why settle for just any spark when you can have the brightest in the business? Upgrading your electrical panel can be a transformative power play for your home or business. From increasing safety to boosting your property's value, our electricians provide meticulous care that’s volts apart from the rest.

At Ampt Over Electric, we understand the importance of being a beacon of trust and expertise in Calgary. That’s why our services don’t just include the essentials like electrical panel upgrades and hot tub hookups; we go the extra mile (or should I say, the extra ampere) to include customized solutions tailored for your Tesla home charger installations and the intricacies of aluminum wiring replacement.

And remember – flickers and hums could be murmurs of your home's heartbeat, begging for attention. Don't let antiquated systems pull the plug on your peace of mind. Visit our homepage to request a quote or dial in to consult directly with our circuit-savvy pros. Our commitment? Ensuring your electrical system is amped up, not just adequate. Because when it comes to your safety and comfort, settling for less can be shocking – and we mean that quite literally.

In conclusion, let's enlighten your decision-making – upgrade your electrical panel with the folks who know current from top to bottom. After all, at Ampt Over Electric, we're not just electricians; we're the current running through the heart of Calgary's safe and stylish homes. Go ahead, power up your day with a modern, robust electrical system that keeps your world spinning and your lights shining bright.

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QO120 - Square D 20 Amp Single Pole Circuit Breaker

QO120 - Square D QO 1 Pole 20 Amp Breaker

QO Circuit Breakers provide the high level of protection you expect from Square D. When it comes to electrical protection, fast response is critical and QO Circuit Breakers can trip faster than the blink of an eye.

Specifications:

* Manufacturer : Schneider Electric

* Type QO Series

* For use in Square D branded QO residential panels.

* Cat. No. : QO120

* Dimensions (H x W x L): 3" x 0.75" x 3"

* 1 Pole

* 20 Amp

* 120 Volt

* Connection : Plug-In

* Phase : 1

* Interrupting Rating 10000 Ampere

* Authentic Square D Product

* CSA Approved and UL Listed

Alt Model: q0120 

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Tel: (778) 285-3999

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Low Voltage Switchgear Market | Growth, Opportunities, Key Players, Regional Outlook and Forecast 2030

The global low voltage switchgear market is slated to rise at a CAGR of approximately 9% during the forecast period. The market is also expected to witness a successful growth trajectory and reach USD 20 billion by 2030.

Drivers and Restraints

The major factors driving the low-voltage switchgear market 's growth are supportive policy regulation toward incorporating renewable energy services through residential and commercial establishments. Net metering, feed in tariff, subsidies, and tax rebates are some of the main changes that will fuel demand for the drug. In addition , the rapid expansion of micro grid networks will further complement the business outlook by supplying the growing demand for off-grid energy across the emerging markets. The increased demand for electricity in the coming years is expected to propel the market on an upward trajectory. The rapid transition to renewable energy is likely to catalyze the development of the global low-voltage switchgear industry in order to meet nation power requirements. In addition, governments' attempts to encourage renewable energy adoption are expected to fuel demand for low-voltage switchgears.

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The widespread use of technology in residential , industrial and commercial premises to efficiently monitor and transmit electricity is expected in the near future to accelerate the growth of the demand for low-voltage switch gear. Other factors responsible for the proliferation of the low-voltage switchgear market include increased investment in infrastructural projects, increased demand for rural electricity, among others.

Key Players

Some of the prominent players in the global low voltage switchgear market are General Electric (U.S.), Eaton Corporation Plc. (Ireland), Mitsubishi Motors Corporation (Japan), Schneider Electric SE (France), Hitachi, Ltd. (Japan), Siemens AG (Germany), Hubbell Incorporated (U.S.), Fuji Electric Co., Ltd. (Japan), ABB (Switzerland) Rittal (Germany), among others.

Segments

The worldwide market for low voltage switchgear is segmented by safety, model, rated current, rated voltage, installation and operation.

The market is sub-segmented into circuit breakers and fuse by safety type. Further the circuit breaker is segmented into ACB, MCCB, MCB, MSP, and MPCB. The fuse is sub-segmented into disconnector Fuse-switch, disconnector Switch with fuse, and others.

The market is segmented by product into fixed mounting, plug-in and capacity to remove.

The graded present is divided into 1000 Ampere, 1001 to 5000 Ampere, and > 5000 Ampere. The average voltage is 250 Volt, 251 Volt to 750 Volt and > 750 Volt.

The Section of Installation consists of AC and DC.

The device section consists of substations, distribution, correction of power factor, sub-distribution, and control of engines.

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Regional Evaluation

The global demand for color detection is being researched for Asia Pacific , North America, Europe and the rest of the world.

The Asia Pacific region holds the largest share in the demand for low voltage switchgears. It is observed that the market size of China's low voltage switchgear is about to show substantial growth towards the clean energy deployments. The nation has counter-signed a major growth towards renewable adoption linked to its aggressive clean energy goals. Continuous adoption of renewable energy technologies along with large-scale demand from manufacturing plants would thus have a positive impact on product deployment. The shift towards the generation of renewable energy has led the growth of the regional market. Also, the rising number of production units being built in the area has exacerbated the need for power generation. This, in effect, was projected to drive the growth of the demand for low voltage switch gears in the coming years.

By 2023, North America is expected to experience positive growth. During the forecast period the consolidation of key players in the area is expected to remain favorable to the regional low voltage switchgear market. Europe is another significant area of global business growth. In the coming years, the rising amount of renewable energy generation is expected to benefit the demand for low voltage switchgear.

Why is your hair so greasy loki?

I beg your pardon? You just come in here, and insult my hair? *mumbles to himself* Norns, the amount of irreverence for their king is astonishing. Do you have any idea how much product and magic I have to use to keep my unruly curls at bay? As if Asgard wasn’t humid enough during it’s summer solstice months, your precious Earth has enough humidity to strangle a Bilgesnipe.

Please see exhibit A:

Screw adding a “read more” on this. I want you all to suffer.

And least we forget, Thor is a walking, talking, BREATHING capacitor of voltage, amperes, and joules of energy. *sighs and pinches the bridge of his nose* Okay, allow me to explain it to you this way, using some of your elementary Midgardian maths. I am only throwing simple numbers out there to make this easier to round off. This is not an exact number.

A typical lightening bolt contains 1 billion volts and 10,000 to 20,000 amperes of current. Lightning bolts carry from 5 kA to 200 kA and voltages vary from 40 kV to 120 kV. So if we take some averages, say, 100 kA and 100 kV, this bolt would carry this much power, P:

P = 100×103 A  x 100 x 103 V

= 10,000 x 106  VA or Watts

= 1 x 1010 Watts

Recall that 1010  Watts is 10,000,000,000  or 10 billion Watts.

Now assume this energy is released in 1 sec. So the power is:

1010 W-sec. On your electric bill, you’ll see you pay for Watt-hours or Wh. So let’s convert W-sec to Wh:

Pl = 1010 Ws x 1 hr/3600 s

Pl = 1/36 x 108 Wh

= 0.0277 x 108

= 2.7 x 106 Wh or Watt-hour per our average lightning bolt.

But can that power your precious town?  And if so, for how long?

How much power does a single Midgardian house consume?  Again, we have to play with averages. So let’s assume one house needs 2,000 Watts/hour to keep the refrigerator, furnace, computer, and all things you keep plugged in going. In one day, 24 hours, the house consumes

Ph = 2,000 Watts x 24 hr.

= 48,000 Wh

So if we divide the power draw for the house into the power of a lightning bolt, we’ll have the  number of houses that bolt can power:

N = 2.7 x 106 Wh per bolt / 4.8 x 104 Wh/house

= 0.5625 x 102

= 56 houses/bolt of lightning for one day.  So the answer to the original question is that a big bolt could power a small, 56-house town for a day or a 100 watt bulb for 3 months.

I say all of that to say this. Thor has 100 times that amount coursing through his veins alone. I have learned since childhood that if you so much as high five the god, your hair will stand on end for weeks.

Shall I continue? Or would you prefer to insult my appearance more?