1.5 V Ram In 1.35 V Slot?

Hi Guys, Bought a shuttle mini PC that simply said it takes DDR3 with support for low volage DDR3. Upon opening it up the dimm slot has a 1.35v sticker on it and i’ve tried 3 different 1.5v dimms, No post. Would ram be the issue ? Going to swap one of the sticks tomorrow but thought I’d ask. The unit is this: http://global.shuttle.com/news/productsDetail?productId=1765 Cheeers 1x SO-DIMM slot with 204 pins Supports one module DDR3L-1333 (PC3-10600) at 1.35V Maximum capacity: 8 GB DDR3L-1600 is supported at DDR3L-1333 clock rate Caution: This mainboard does only support 1.35V DDR3L memory modules. Note: DDR3L has a lower operation voltage compared to DDR3 Link The spec page only specifies 1.35V RAM, the quick start guide says to only use 1.35V RAM, and all the qualified memory modules listed are 1.35V modules. Why were you expecting 1.5V modules to work? 1.35 v modules will not work in 1.5v slots and vice versa Not really, laptops that support both voltages are not uncommon (eg ones using the QM67 express can run either). It’s something that anyone looking at buying things would need to do research on beforehand. There are also modules rated to run at both voltages. *Under Specifications ( Shuttle Website ) *Under Specifications ( Intel Website ) Now correct me if I’m wrong here but DDR3L is “Low Voltage” memory modules & It doesn’t list regular DDR3 either. I too learnt this the way hard way with an ASUS Zenbook (i5-4200U) Exactly my thoughts. herp to the derp ddr3l dimms work in 1.5volt notebooks, though notebook that use ddrl do not work with 1.5volt dimms. Last edited: Dec 22, 2014 Have yet to come across a Notebook (or Intel NUC for that matter) which won’t take 1.35v SODIMM’s in a 1.5v DIMM slot. In fact I just fired up an Intel DCCP847DYE just a few minutes ago with 1.35v SODIMM’s.

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Will 1.5 V RAM work with 1.35 V?

Which voltage is best? 1.35V/1.5V or 1.5V? – Generally, lower voltage is optimal as it consumes less power and in turn, may generate less heat. However, it is important to note that the overall system must support DDR3L (1.35V low voltage) to enable the module to run at 1.35V. If the system does not support DDR3L (1.35V low voltage), the module will run at 1.5V.
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Can I run DDR3L with 1.5 V?

DDR3L is a dual voltage capable memory SoDIMM, which supports operation at both 1.5 V and 1.35 V.
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Can 1.2 V RAM run in a 1.35 V?

By default, DDR4 runs at 1.2v, while many memory module kits are rated to run at around 1.35v with XMP. Raise your voltage slowly until your system is stable; we recommend not going above 1.4v to be safe.
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Can I use DDR3L RAM in DDR3 slot?

DDR3 runs at 1.5V, DDR3L will run at 1.35V or 1.5V and is therefore backwards compatible with DDR3.
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Is 1.5 V too high for RAM?

Yes, 1.5V is generally considered the max safe voltage to run DDR4 24/7. Some people run even higher long term without problems, but I would stick to 1.5 max to be safe.
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Can DDR3 run 1.35 V?

It does answer your question. It states that ‘you cannot put DDR3 in a DDR3L slot’ because it can only operate at 1.5v and not 1.35v.
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Can a 1.2 V batteries be used on a 1.5 V system?

Frequently Asked Questions Q: I’m New to rechargeable batteries, tell me a little bit more, There is nothing technical or ‘specialist’ about rechargeable batteries. They are intended for everyday use and come in everyday sizes (AA, AAA, C,D, and PP3) They are exactly the same size as the throwaway batteries you would buy in any High Street store or supermarket.

The beauty of rechargeable batteries is that they can generally be recharged up to a thousand times and generally they greatly outperform standard everyday ‘throwaway’ batteries such as Duracell and Energizers in devices that ‘eat batteries’. The fact that rechargeable batteries can be used again and again represents a massive saving over their useful life.

Battery Logic : Buy once, recharge a thousand times. Rechargeable NiMH batteries are also very popular simply due to the fact that they are extremely environmentally friendly. Kind to your pocket – Kind to the environment. Once charged you use your rechargeable batteries as you would any other standard battery, the only difference is that after a few charges you are no longer handing over your cash for ‘throwaway’ batteries.

1. All our chargers and batteries pay for themselves pretty quickly.
2. Welcome to Battery Logic! Q : When should I choose between normal NiMH rechargeable batteries or eneloop low self discharge batteries? Eneloop low self discharge batteries are the battery of choice for almost every application.
3. Don’t for one minute think that you are getting a lesser battery simply because the standard eneloop battery capacity is rated at 2000mAH whilst regular NiMH AA batteries might be rated at 2300,2500 or even 2700mAh.

The low self discharge eneloop rechargeable batteries are by far the best choice. The reason for this is simple and comes down to the ‘self’ or ‘natural’ discharge found in regular NiMH batteries. What self discharge means is that once charged, a fully charged NiMH battery is losing a small part of its charge on a daily basis even when not being used.

1. In fact, the higher the rated capacity of the battery, the faster the rate of self discharge becomes! An Eneloop battery on the other hand has a VERY LOW self discharge which means it can maintain its stored power for months and months on end.
2. This very low self discharge characteristic is what makes the Fujistu and Eneloop low self discharge batteries so very popular with most battery users.

As an example, if you charged a standard 2700mAh AA and a 2000mAh Eneloop battery and put them both to use immediately in a power hungry device then the 2700mAh battery would give you approximately 25% longer use due to its higher initial capacity. If however you left the batteries in a device such as a digital camera, and came back to them three or four weeks later then the Eneloop batteries would now give you longer use because they will have held on to most of their power while the 2700mAh battery would have lost a considerable amount of charge due to the self discharge mentioned earlier.

In a nutshell the numbers game (mAh capacity) goes out the window unless you really hammer your batteries and are constantly charging them when used in extremely power hungry devices. For the average user, Eneloop batteries offer a much more reliable solution and this is why we now sell more AA Eneloop batteries than all other AA batteries put together! If you have any questions about any of our products please call on 020 8989 1087 mon-fri 10am-5pm.

We know our product range inside out, we LOVE talking batteries and are always more than happy to answer any questions you may have! Q : Can I use 1.2 V rechargeable batteries in devices that usually take 1.5 V throw away batteries? Yes, most definitely.

Using 1.2 V rechargeable batteries will have no effect on the use of the equipment. In fact an alkaline battery only benefits from 1.5 V voltage at the beginning of its discharge. Then, it drops constantly to well below 1.2 V. Finally, it drops to around 0.6 V. Most equipment will work happily on anything between 0.9 V and 1.5 V.

Unlike alkaline batteries where the voltage drops quickly, rechargeable batteries offer a more constant voltage around 1.25 V throughout the entire period of use. That is why the latest rechargeable batteries will actually outperform alkaline batteries in equipment calling for a constant and high level of energy input, such as digital cameras, flashes, camcorders, computer keyboards and mice, portable phones, DVD players, toys, gadgets – well just about anything.

Q : Can I recharge ordinary alkaline throwaway batteries ? You should never attempt to recharge a normal alkaline throwaway battery in any of our NiMH battery chargers as this could result in leakage from the battery and damage to the charger. There are some battery charges that claim to be able to recharge throwaway batteries but alkaline single use batteries have not been designed to be recharged and in our experience such chargers should be taken with a pinch of salt.

Our advice would always be that if you want to recharge batteries invest in proper rechargeable batteries which have been designed to be recharged hundreds of times with consistently reliable performance. Q : My batteries get warm when I charge them. Is this normal? When charging rechargeable batteries, they can noticebly increase in temperature due to internal resistance and the charging process in general and batteries therefore may feel warm during charging and when the charge is completed.

According to specification most NiMH batteries may heat up to 55°C during a charge cycle and this can certainly feel hot to some users. Q : Why should I use rechargeable batteries ? Rechargeable x 1000 = Battery Logic, If it takes a battery it will take a rechargeable battery!. Q : How long does it take to deliver ? All orders received before 5pm, Mon – Fri, are dispatched on the same day.

All orders are sent via Royal Mail First Class post. If you would like us to deliver to another location, your work address for example, please call our Sales and Customer Support team on 020 8989 1087 (mon-fri 10am-5pm) Q : I’ve been told that rechargeable batteries are rubbish!! The latest NiMH rechargeable batteries we stock are superb by comparison to early rechargeable batteries.

1. Today’s NiMH rechargeable batteries will easily outperform everyday ‘throwaway’ alkaline batteries in most modern digital equipment and perform fantastically in almost every application.
2. Our most popular AA/AAA batteries are eneloop low self discharge batteries.
3. All our batteries and battery chargers are designed for use in today’s power hungry devices and all items are covered by the Battery Logic Satisfaction Guarantee.

We are so confident in the quality of our products that if for any reason you are disappointed with the performance of your purchase we will give you your money back! : Frequently Asked Questions
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Is DDR3L slower than DDR3?

What is the difference between D DR3 and DD R3L? – • DDR3L is a special type of DDR3 where L refers to low voltage standard. • DDR3 needs a voltage of 1.5V while DDR3L needs only 1.35V. • DDR3L consumes less power than DDR3. • DDR3L generates less heat when compared to DDR3.

	DDR3	DDR3L
Name	Double Data Rate Type 3	Double Data Rate Type 3 Low Voltage Standard
Voltage specification	1.5 V	1.35 V
Power Consumption	High	Less
Heat generation	High	Less
Memory Density	Up to 8GB	Up to 8GB
Supported Frequencies	800, 1066, 1333, 1600, 1866, 2133 MHz	800, 1066, 1333, 1600, 1866, 2133 MHz
Number of Pins	240; SO-DIMM – 204	SO-DIMM – 204
Length	133.35mm; SO-DIMM – 67.6mm	SO-DIMM – 67.5mm
Price	Low	High
Usage	Personal computers, Laptops, servers	Laptops, Mobile devices, Embedded systems

Summary:
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Is DDR3L faster than DDR4?

DDR4 RAM looks faster on paper – When studying data transfer rates of RAM, you’ll see it measured in either million transfers per second (MT/s) or gigatransfers (billion) per second (GT/s). A higher transfer rate means you have more bandwidth and will thus be able to transfer more data at once.

DDR4 RAM can transfer data at a rate between 2133MT/s and 4266MT/s, while DDR3 RAM can only hit transfer data rates between 800MT/s and 2133MT/s. Another number you’ll see is the clock speed, which is how fast the RAM can read and write data. The clock speed number, represented in megahertz, is the number of cycles per second the RAM can perform.

Finally, Column Access Strobe latency, also known as CL, must be taken into consideration. CL is the number of clock cycles it takes for the RAM to deliver a piece of data requested by the CPU. Even if you have blazing fast clock speeds, high latency will put a damper on your RAM party.
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What happens if RAM voltage is too low?

If the voltage is set too low, the system will be unstable and experience crashes. If the voltage is set too high, the system will be unstable and experience crashes. Overclocking requires setting the memory higher than normal so as long as the increased power is apropriate for the increased speed.
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Does RAM have to be the same voltage?

Using RAM stick with different voltage? Your laptop runs standard 1.5v RAM sticks, so you’ll want to get that. Some places say that if you put low voltage RAM into a regular voltage slot, it will just ramp it up to 1.5v. However, the manufacture tested their RAM at 1.35v, so it has a chance to act wonky.

In the opposite case, if you put 1.5v RAM in a low voltage RAM slot, it will not work because it is not giving enough power to the RAM stick. It my mind, it’s never good to mix RAM. I recommend always getting something that matches the speed and voltage of your other RAM stick(s). Here is a that has specifications of what RAM you should get.

As long as you get something that is PC3-12800 and not PC3 L -12800, you will be fine. EDIT: Also your laptop supports upto 16GB of RAM according to the link I shared. So getting another 4GB stick will be just fine. : Using RAM stick with different voltage?
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Does voltage matter buying RAM?

What voltage does the motherboard have? – Your motherboard can use 3 voltages to power the RAM.

1.2 Volts for DDR4 1.35 Volts for DDR3L 1.5 Volts for DDR3

If your motherboard supports 1.5 Volts, it supports all RAM types. If your motherboard supports 1.2 Volts, you can’t place a DDR3 module in it.
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Can I use DDR3L RAM in DDR4 slot?

No, DDR3 and DDR4 are not cross compatible. The physical sockets are different among other things like input voltage, pin count, etc. See the picture below for a full size DIMM, which would be similar to a SODIMM.
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Can I mix low voltage RAM?

Yes, you can use a low voltage RAM module, rated at 1.35 V or 1.25V with a normal RAM module rated at 1.5 V.
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What happens if RAM speed is too high?

Things to Keep in Mind – Your RAM is held in check by the CPU and the motherboard. If you try to install and use a RAM module that operates beyond the speeds that the CPU and the motherboard can support, it will lead to unstable system performance and/or boot issues.
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What type of memory requires 1.5 V?

1.35 V RAM in a 1.5 V system – Will it fry or overclock? 1.5V is the JEDEC standard for DDR3, therefore you will never fry a module at this voltage. Some sources:

: “Hynix DDR3L SDRAM provides backward compatibility with the 1.5V DDR3” refers to this as Dual Voltage: In the past, most DDR3 memory voltage ranged from 1.5 – 1.65v. More recently, dual 1.35/1.5 voltage modules came available at Crucial.com. The dual-voltage module will run only run at 1.35V if your specific system supports that voltage, otherwise the memory will run at 1.5V. : As DRAM manufacturers shrink their dies and/or increase their yields of DDR3L, they soon reach a point where the majority of their DRAM output becomes DDR3L or dual-voltage, handling 1.5V or 1.35V voltages.

DDR3L (low-voltage DDR3) is just an “extension” of the DDR3 standard, so companies has to be aware that plugging a module will default to 1.5V on most systems. At 1.5V, the worst that will happen will be a waste of electricity/battery. RAM modules contain pre-defined configurations (SPD, XMP, etc.) but the default one is often safer value that will work on as many systems as possible.

1. For compatibility purposes, that setting might not be factory-set to 1.35V, but 1.5V instead.
2. The default timings can also be different and slower from the ones indicated on your module package (I have on this topic).
3. For this reason, there’s no chance it will overclock by itself even if it’s running at a higher voltage (unless your current BIOS settings are manually set to run at specific speeds higher than your new modules would support – if so, reset your memory settings to AUTO before installing them).

If your RAM contains a XMP profile, try that as it can be factory set to 1.35 and all ideal settings – but you still have to select it manually in the BIOS. In conclusion, 1.35V is perfectly safe. It’s still always a good idea after installing RAM to go in the BIOS and verify/adjust the settings to ensure they match the module packages and perform optimally.
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Can I mix RAM voltages?

Speed, Latency, & Voltage – What happens when you install DRAM modules of different speeds? Nothing exciting. While you can technically mix speeds, there is one important thing to note: your DRAM would all run at the speed of the slowest module. For example, if you have a DDR3 1333MHz system and install a second module at 1600MHz, they would both run at the 1333MHz speed.

The same thing happens with modules that have different latencies. The system will run based on the module with the slowest timings. Another thing to keep in mind is what speeds your motherboard can handle. If your motherboard can only handle a 1333MHz module, then a 1600MHz module would run at 1333MHz.

What about DRAM modules with different voltages? You guessed it: both modules would run at the higher voltage. For example, if you have a 1.5v module in one slot and a dual voltage (1.35v/1.5v) model in the other, your system will run at 1.5v. If you wanted your DRAM modules to run at 1.35v, all of them would have to be 1.35v and your motherboard would have to support the lower voltage.

1. The verdict ? Possible, though you will lose the benefits of the more efficient module.
2. If you can afford to replace all the modules with faster, lower-latency modules, you will get the best benefit.
3. If you are trying to save money, you will get the best value by purchasing an additional module with the same speed and latency.

If you are experienced at overclocking, it is possible to adjust the BIOS and other settings to tweak the performance of mixed-speed modules. But it can lead to unpredictable results.
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Can a 1.2 V batteries be used on a 1.5 V system?

Frequently Asked Questions Q: I’m New to rechargeable batteries, tell me a little bit more, There is nothing technical or ‘specialist’ about rechargeable batteries. They are intended for everyday use and come in everyday sizes (AA, AAA, C,D, and PP3) They are exactly the same size as the throwaway batteries you would buy in any High Street store or supermarket.

• The beauty of rechargeable batteries is that they can generally be recharged up to a thousand times and generally they greatly outperform standard everyday ‘throwaway’ batteries such as Duracell and Energizers in devices that ‘eat batteries’.
• The fact that rechargeable batteries can be used again and again represents a massive saving over their useful life.

Battery Logic : Buy once, recharge a thousand times. Rechargeable NiMH batteries are also very popular simply due to the fact that they are extremely environmentally friendly. Kind to your pocket – Kind to the environment. Once charged you use your rechargeable batteries as you would any other standard battery, the only difference is that after a few charges you are no longer handing over your cash for ‘throwaway’ batteries.

1. All our chargers and batteries pay for themselves pretty quickly.
2. Welcome to Battery Logic! Q : When should I choose between normal NiMH rechargeable batteries or eneloop low self discharge batteries? Eneloop low self discharge batteries are the battery of choice for almost every application.
3. Don’t for one minute think that you are getting a lesser battery simply because the standard eneloop battery capacity is rated at 2000mAH whilst regular NiMH AA batteries might be rated at 2300,2500 or even 2700mAh.

The low self discharge eneloop rechargeable batteries are by far the best choice. The reason for this is simple and comes down to the ‘self’ or ‘natural’ discharge found in regular NiMH batteries. What self discharge means is that once charged, a fully charged NiMH battery is losing a small part of its charge on a daily basis even when not being used.

In fact, the higher the rated capacity of the battery, the faster the rate of self discharge becomes! An Eneloop battery on the other hand has a VERY LOW self discharge which means it can maintain its stored power for months and months on end. This very low self discharge characteristic is what makes the Fujistu and Eneloop low self discharge batteries so very popular with most battery users.

As an example, if you charged a standard 2700mAh AA and a 2000mAh Eneloop battery and put them both to use immediately in a power hungry device then the 2700mAh battery would give you approximately 25% longer use due to its higher initial capacity. If however you left the batteries in a device such as a digital camera, and came back to them three or four weeks later then the Eneloop batteries would now give you longer use because they will have held on to most of their power while the 2700mAh battery would have lost a considerable amount of charge due to the self discharge mentioned earlier.

• In a nutshell the numbers game (mAh capacity) goes out the window unless you really hammer your batteries and are constantly charging them when used in extremely power hungry devices.
• For the average user, Eneloop batteries offer a much more reliable solution and this is why we now sell more AA Eneloop batteries than all other AA batteries put together! If you have any questions about any of our products please call on 020 8989 1087 mon-fri 10am-5pm.

We know our product range inside out, we LOVE talking batteries and are always more than happy to answer any questions you may have! Q : Can I use 1.2 V rechargeable batteries in devices that usually take 1.5 V throw away batteries? Yes, most definitely.

• Using 1.2 V rechargeable batteries will have no effect on the use of the equipment.
• In fact an alkaline battery only benefits from 1.5 V voltage at the beginning of its discharge.
• Then, it drops constantly to well below 1.2 V.
• Finally, it drops to around 0.6 V.
• Most equipment will work happily on anything between 0.9 V and 1.5 V.

Unlike alkaline batteries where the voltage drops quickly, rechargeable batteries offer a more constant voltage around 1.25 V throughout the entire period of use. That is why the latest rechargeable batteries will actually outperform alkaline batteries in equipment calling for a constant and high level of energy input, such as digital cameras, flashes, camcorders, computer keyboards and mice, portable phones, DVD players, toys, gadgets – well just about anything.

Q : Can I recharge ordinary alkaline throwaway batteries ? You should never attempt to recharge a normal alkaline throwaway battery in any of our NiMH battery chargers as this could result in leakage from the battery and damage to the charger. There are some battery charges that claim to be able to recharge throwaway batteries but alkaline single use batteries have not been designed to be recharged and in our experience such chargers should be taken with a pinch of salt.

Our advice would always be that if you want to recharge batteries invest in proper rechargeable batteries which have been designed to be recharged hundreds of times with consistently reliable performance. Q : My batteries get warm when I charge them. Is this normal? When charging rechargeable batteries, they can noticebly increase in temperature due to internal resistance and the charging process in general and batteries therefore may feel warm during charging and when the charge is completed.

1. According to specification most NiMH batteries may heat up to 55°C during a charge cycle and this can certainly feel hot to some users.
2. Q : Why should I use rechargeable batteries ? Rechargeable x 1000 = Battery Logic,
3. If it takes a battery it will take a rechargeable battery!.
4. Q : How long does it take to deliver ? All orders received before 5pm, Mon – Fri, are dispatched on the same day.

All orders are sent via Royal Mail First Class post. If you would like us to deliver to another location, your work address for example, please call our Sales and Customer Support team on 020 8989 1087 (mon-fri 10am-5pm) Q : I’ve been told that rechargeable batteries are rubbish!! The latest NiMH rechargeable batteries we stock are superb by comparison to early rechargeable batteries.

• Today’s NiMH rechargeable batteries will easily outperform everyday ‘throwaway’ alkaline batteries in most modern digital equipment and perform fantastically in almost every application.
• Our most popular AA/AAA batteries are eneloop low self discharge batteries.
• All our batteries and battery chargers are designed for use in today’s power hungry devices and all items are covered by the Battery Logic Satisfaction Guarantee.

We are so confident in the quality of our products that if for any reason you are disappointed with the performance of your purchase we will give you your money back! : Frequently Asked Questions
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Can I use RAMs with different voltage?

Yes, you can use a low voltage RAM module, rated at 1.35 V or 1.25V with a normal RAM module rated at 1.5 V. The Low voltage RAMs (DDR3L) are backwards compatible so they would work with most of the CPU and Motherboard combinations.
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Is 1.3 volts good for a 1.5 volt battery?

What voltage in a AAA battery is dead – Given that the nominal voltage of a AAA battery cell is 1.5V, if the battery reads less than 1.3 volts in the multimeter, it is considered to be dead. It is no longer functional and needs to be replaced even though it still has plenty of power.
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At what voltage does a 1.5 V battery stop working?

When you throw out your disposable AAs because your remote stopped working, they actually still had about 80% of their power remaining. – A new $2.50 battery sleeve called the Batteriser, coming to Amazon this fall, promises to extend the life of your batteries up to eight times longer by drawing out their remaining power – which you were about to throw in the garbage.

1. The tiny, 0.1 millimeter-thick stainless steel Batteriser sleeve features an incredibly small circuit board, built to tap into the battery’s remaining energy.
2. AA batteries start off with 1.5 volts of energy, but the voltage goes down as the batteries are used up.
3. Once the batteries dip below 1.35 volts, they appear to be dead, even though they still have a lot of juice left.

It’s akin to a tube of toothpaste, according to Batteriser founder Bob Roohparvar, who is a computer science professor at California State University. “If you just squeeze from the top, you’re only going to get so much out of the tube,” Roohparvar said.

For example, a typical AA battery will stop working after 240 minutes of use powering a remote control, 95 minutes powering portable speakers, or just 38 minutes powering an RC toy. Roohparvar claims that the Batteriser can get 1,185 minutes out of a remote (5 times more energy), 570 minutes out of portable speakers (6x) or 355 minutes out of an RC toy (9x).

Batteriser can continue to deliver a 1.5 volt charge from batteries that have actually discharged down to 0.6 volts. Roohparvar says he hopes to shake up the $14 billion disposable battery market. There are 5.4 billion battery-operated devices in the wild, and 15 billion disposable batteries are bought every year around the world.

A typical U.S. home has 28 battery-operated devices inside. The Batteriser will come in AA, AAA, C and D-cell varieties and sell for less than $10 for a pack of four. At that price, Roohparvar, the technology “pays for itself” after just one purchase – a typical AA battery costs $2.50, and the Batteriser makes one battery last as long as eight.

He said it’s a cheaper solution than rechargeable batteries. And those rechargeable batteries are typically made of lithium, which isn’t compatible with many battery-powered products. “The Batteriser is giving you lithium performance at alkaline price,” Roohparvar said.

After an Indiegogo campaign in July for early-adopters, Roohparvar says the Batteriser will begin selling on Amazon ( AMZN ) in the fall. He also said that he has been talking to executives at Wal-Mart ( WMT ) about selling the battery sleeves in the future. Though Roohparvar says that his patents would prevent the battery manufacturers from simply adding the Batteriser technology into their batteries, he said he would be open to licensing the technology down the road.

He also said that Batteriser could one day partner with a Duracell or an Energizer and sell the batteries and Batterisers as a single package. CNNMoney (New York) First published June 2, 2015: 8:36 AM ET
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