Nothing will happen but it will lose battery power. You can solve this by letting it die then doing a full charge with it off
Nintendo means from japanese, "leave luck to heaven", or "leave luck to heaven". A more literal translation is "The Hall of Entrusting Heaven"
It takes about 2 hours to charge and will charge from any USB port or USB charger that delivers 500ma or more.
When you bought the DSi a charger, it should of come with one. If not you can easily buy a DSi charger from any gaming stores. Also a Nintendo DSi XL charger as well as the Nintendo 3DS (and XL) charger will work since they are the same.
Usually it takes roughly 3 hours for it to charge. It may be different if your controllers have always been powered by batteries previously, but otherwise, 3 hours. If you leave it more than 4 hours it can break or short out
There are many places where someone can buy a used charger for a Nintendo DS Lite, such as going online to find a used charger or, there are many shops that will allow you to buy a used charger for a Nintendo DS Lite.
because they have no more ideas :/
Use of "Trickle" type Battery ChargersIF you're talking about automotive battery applications, and it is truly a trickle charger, then the charger and cables can be left attached to the battery, and it should keep the battery at max voltage. IF however, the charger puts out more voltage than a true trickle charger, then the battery could be damaged by "overcharging."
If you are using a different charger that is not approved by Apple, the charger will be very slow for an iPad 2. If using a Apple charger, your charger terminal could be failing. You can go to any Apple store and have it fixed if it still under contract.
It depends on what is wrong with the charger? More information is needed!
Two hours or more.
Nintendo
To determine the cost of running a trickle charger for a car battery for 24 hours, you'll need to know the charger's power consumption (in watts) and the cost of electricity in your area (in kilowatt-hours, or kWh). Here's a general example: Assume the trickle charger consumes 15 watts of power. Convert watts to kilowatts: 15 watts / 1000 = 0.015 kW Determine the duration of use: 24 hours Multiply the power consumption in kilowatts by the duration: 0.015 kW * 24 hours = 0.36 kWh (kilowatt-hours) Find out the cost of electricity in your area, e.g., $0.12 per kWh Calculate the cost: 0.36 kWh * $0.12 = $0.0432 In this example, running a trickle charger for 24 hours would cost roughly 4.32 cents. Keep in mind that electricity rates and charger power consumption may vary, so it's essential to use your specific data to get a more accurate cost.