Eneloop
Product type | Rechargeable battery |
---|---|
Owner | Panasonic |
Produced by | Panasonic |
Country | Japan |
Introduced | November 2005 |
Markets | Worldwide |
Previous owners | Sanyo |
Tagline | "Recharging a better tomorrow." |
Website | eneloop |
Eneloop (Japanese: エネループ, Hepburn: Enerūpu), stylized as eneloop, is a brand of 1.2-volt low self-discharge nickel–metal hydride (NiMH) rechargeable batteries and accessories developed by Sanyo[1] and introduced in 2005. Panasonic acquired a majority stake in Sanyo in 2009, and Eneloop batteries were thereafter branded, but not manufactured, by Panasonic.
Eneloop cells lose their charge much more slowly than the 0.5–4% per day loss of previously available NiMH batteries, retaining about 85% of their charge for a year after charging;[2] that allows them to be sold precharged. Since then many other makes of NiMH batteries are supplied precharged, with long charge retention.[3]
Since Sanyo introduced the Eneloop, many other brands of low-self-discharge batteries became available, described as "low self-discharge", "LSD" or "pre-charged". By 2020 most NiMH batteries available were of this type, with varying capacity, self-discharge rate, and lifespan. Those made in Japan are all made in the same factory, but not necessarily to the same specification as the Eneloop brand.[4] There are also counterfeits of Eneloop and other well-regarded brands.
Because they can replace a large number of alkaline batteries over their life cycle, Eneloops are marketed as being eco-friendly.
History
[edit]Sanyo was acquired by Panasonic in 2009. In exchange for US FTC approval of the takeover, Panasonic agreed to sell Sanyo's portable NiMH battery business to Fujitsu subsidiary FDK in order to preserve competition,[5] and later did so.[6][5]
Panasonic retained the "Eneloop" trademark, sourcing the batteries from FDK (formerly Sanyo) factories.[7]
Technology
[edit]After NIMH rechargeable batteries were introduced, they were developed to increase capacity. This was done by using thinner insulators internally, allowing more of the active components to be used and thus increasing capacity. The thin insulators allowed significant leakage, leading to relatively short self-discharge times. Eneloop batteries were designed in a way that traded off somewhat lower capacity for much slower self-discharge.[1] The trade-off was modified for the Eneloop Pro series, providing higher capacity but with more self-discharge and shorter lifespan. The Eneloop Lite series traded significantly lower capacity for longer lifespan, and also faster charging and lower weight.
Variant description
[edit]The Eneloop is the standard general-purpose cell. The cheaper Eneloop Lite has lower capacity and a longer lifespan in charge cycles, but the standard and Lite of about the same time have very similar total lifetime capacity in watt-hours. The more expensive Eneloop Pro has significantly higher capacity and is suitable for higher-current applications, but has poorer charge retention and shorter lifespan in charge cycles; total lifetime capacity in watt-hours is much less than the other versions. Numerical data are listed in the variant comparison tables section. The discontinued Eneloop Plus was similar to the standard Eneloop, with overheating protection.
Eneloop
[edit]1st generation
[edit]The original Eneloop batteries were introduced in AA and AAA size, with capacities of 2,000 mAh and 800 mAh. They could be recharged 1,000 times and held up to 75% of their charge after one year. The part numbers for first generation cells are HR-3UTG (AA) and HR-4UTG (AAA).
2nd generation
[edit]The second generation of Eneloop AA and AAA batteries was introduced in 2010. It endured 1,500 recharge cycles for depth of discharge (DOD) 60% and held 85% of the charge after one year and 75% after three years.[8] The part numbers for second generation cells are HR-3UTGA (AA) and HR-4UTGA (AAA).
Sanyo introduced C- and D-sized Eneloop batteries with a minimum capacity of 2,700 mAh and 3,000 mAh respectively in 2009, along with a new universal charger.[9] As these sizes were only available in Japan and Singapore, Sanyo offered adapter sleeves to fit AA batteries in devices that take C or D batteries.
3rd generation
[edit]In October 2011 the batteries were again improved to retain up to 90% of their capacity after one year, 80% after three years and 70% after five years. The batteries can be recharged up to 1,800 times, rather than the 1,500 times of the previous revision. The part numbers for third generation cells are HR-3UTGB (AA) and HR-4UTGB (AAA). At the same time, the C- and D-sized Eneloop batteries' stated minimum capacities were increased to 3,000 mAh and 5,700 mAh respectively. They were available in Japan from November 2011.[10]
European models went on sale from the beginning of October 2012.[11]
4th generation
[edit]Following the acquisition of Sanyo by Panasonic, a fourth generation was introduced in April 2013. The number of charges per cell was increased from 1800 to 2100 cycles for both AA (BK-3MCC) and AAA (BK-4MCC) models.[2] In some countries the batteries are branded as Panasonic.
5th generation
[edit]A fifth generation was introduced in 2022 (manufactured from at least April 2021). The minimum (guaranteed) capacity was increased from 1900 to 2000 mAh for AA (BK-3MCDx) and from 750 to 800 mAh for AAA (BK-4MCDx) models.[12] These batteries are supposed to hold up to 70% of their charge after 10 years of storage at 20°C.
Eneloop Lite
[edit]1st generation
[edit]The Eneloop Lite line was released in Japan in June 2010. They addressed two disadvantages of alkaline and other NiMH batteries: the initial cost and the long charging time—both achieved by reducing the capacity of the battery. The batteries find suitable applications in low-drain devices such as remote control devices and alarms, where low capacity is not an issue. The AAs have 1,000 mAh of capacity, while the AAAs have 600 mAh. Due to reduction of the capacity compared to the regular Eneloop cells, the charging time is halved for the AA and reduced by 25% for the AAA. On the other hand, they can be recharged 3,000 times. The reduction in capacity also reduced the production cost, which decreased the initial investment for rechargeable batteries. They also weigh 30% less. The product numbers are HR-3UQ (AA) and HR-4UQ (AAA).[13][failed verification]
2nd generation
[edit]Along with the upgrade of the regular Eneloop cells in April 2013, the Lite version was also upgraded. According to Panasonic, it can now be recharged up to 3,000 times (life cycles for DOD 60%)[14] (model numbers BK-3LCC for the AA and BK-4LCC for the AAA battery). The upgraded batteries also retain 90% of the charge after one year like the regular Eneloop cells. Packaging is marked prominently 'Best for DECT' certainly in European markets, suggesting that these batteries are suitable for 'nearly always on charge' applications such as home cordless phones.
Eneloop Pro (Eneloop XX)
[edit]The Eneloop Pro family have higher capacity in mAh, trading this off against poorer charge retention and shorter lifespan.
1st generation
[edit]The Eneloop Pro (or XX powered by Eneloop Technology in the US, Canada, and Europe) series was introduced in 2011. They have a higher capacity than regular Eneloop cells, 2,500 mAh (min. 2,400 mAh) for AA. They retain 75% of their initial charge after one year, and can be recharged 500 times, significantly less than the standard non-Pro Eneloop line. The product numbers are HR-3UWX (AA) and HR-3UWXA (AA).[15]
2nd generation
[edit]In January 2013, Sanyo announced the second generation of Eneloop XX (model HR-3UWXB, or Panasonic BK-3HCC), branded Eneloop Pro. The new generation has a 50 mAh higher capacity (2,550 mAh nominal, 2,450 mAh minimum capacity), and the self-discharge rate was improved, retaining 85% up to one year.[16] They also introduced an AAA version of the Eneloop XX (model HR-4UWXB) with a nominal capacity of 950 mAh (900 mAh minimum).[17] After the acquisition by Panasonic, they were renamed Eneloop Pro (model BK-4HCC) in Europe (BK-4HCCE) and the Americas (BK-4HCCA).[2]
3rd generation
[edit]In October 2015, Panasonic remodeled Eneloop Pro (BK-3HCD/BK-4HCD). The minimum capacity of the battery increased, by 50 mAh to 2500 mAh for AA and by 30 mAh to 930 mAh for AAA.
Eneloop Plus
[edit]Eneloop Plus cells have a PTC thermistor built-in that cuts the power in case of overheating. This makes them especially suitable for toys and devices that generate significant heat. Other specifications are identical to the second-generation Eneloop batteries. The product number is HR-3UPT (AA), and the battery was released in Japan in December 2011.[15]
Variant comparison tables
[edit]AA size
[edit]Variant | Model number prefix | Release date | Capacity (mAh) | Max. cycles (DOD 60%) | Est. lifetime cap. (Wh) | Charge retention | ||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|
Min. | Typ. | After 1 day | After 1 year | After 2 years | After 3 years | After 5 years | After 10 years | |||||
Ordinary NiMH battery (Sanyo NiMH 2700) | HR-3UG | Unknown | 2,500 | 2,700 | 1,000 | Unknown | 80% | 50% | 0% | 0% | 0% | Unknown |
Eneloop 1st generation[18] | HR-3UTG | November 2005 | 1,900 | 2,000 | 1,000 | 2,400 | Unknown | 80% | Unknown | Unknown | Unknown | Unknown |
Eneloop 2nd generation | HR-3UTGA | May 2010 | 1,900 | 2,000 | 1,500 | 3,600 | Unknown | 85% | 80% | 75% | Unknown | Unknown |
Eneloop 3rd generation | HR-3UTGB | November 2011 | 1,900 | 2,000 | 1,800 | 4,320 | Unknown | 90% | 80% | 80% | 70% | Unknown |
Eneloop 4th generation | BK-3MCC (BK-3MCCE) | April 2013 | 1,900 | 2,000 | 2,100 | 5,040 | Unknown | 90%[19] | Unknown | 80%[19] | 70%[19] | Unknown |
Eneloop 5th generation | BK-3MCD (BK-3MCDE) | June 2022 | 2,000 | up to 2,100 | 2,100 | 5,292 | Unknown | Unknown | Unknown | Unknown | Unknown | 70% |
Eneloop Lite 1st generation[20] | HR-3UQ | June 2010 | 950 | 1,000 | 2,000 | 2,400 | Unknown | 85% | 80% | 75% | Unknown | Unknown |
Eneloop Lite 2nd generation | BK-3LCC | April 2013 | 950 | 1,000 | 3,000 | 3,600 | Unknown | 90% | 80% | 70%[14] | 65%[2] | Unknown |
Eneloop Pro 1st generation[21][22] | HR-3UWX HR-3UWXA | July 2011 May 2012 | 2,400 | 2,500 | 500 | 1,500 | Unknown | 75% | Unknown | Unknown | Unknown | Unknown |
Eneloop Pro 2nd generation[23] | HR-3UWXB | October 2012 | 2,450 | 2,550 | 500 | 1,530 | Unknown | 85% | Unknown | Unknown | Unknown | Unknown |
Panasonic Eneloop Pro | BK-3HCC | April 2013 | 2,450 | 2,550 | 500 | 1,530 | Unknown | 85%[2] | Unknown | Unknown | Unknown | Unknown |
Panasonic Eneloop Pro | BK-3HCD | October 2015 | 2,500 | 2,600 | 500 | 1,530 | Unknown | 85% | Unknown | Unknown | Unknown | Unknown |
AAA size
[edit]Variant | Model number prefix | Release date | Capacity (mAh) | Max. cycles (DOD 60%) | Est. lifetime cap. (Wh) | Charge retention | ||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|
Min. | Typ. | After 1 day | After 1 year | After 2 years | After 3 years | After 5 years | After 10 years | |||||
Ordinary NiMH battery (Sanyo NiMH 1000) | HR-4U | Unknown | 930 | 1,000 | Unknown | Unknown | 80% | 50% | 0% | 0% | 0% | 0% |
Eneloop 1st generation | HR-4UTG | November 2005 | 750 | 800 | 1,000 | 960 | Unknown | 80% | Unknown | Unknown | Unknown | Unknown |
Eneloop 2nd generation | HR-4UTGA | May 2010 | 750 | 800 | 1,500 | 1,440 | Unknown | 85% | 80% | 75% | Unknown | Unknown |
Eneloop 3rd generation | HR-4UTGB | November 2011 | 750 | 800 | 1,800 | 1,728 | Unknown | 90% | 80% | 80% | 70% | Unknown |
Eneloop 4th generation | BK-4MCC (BK-4MCCE) | April 2013 | 750 | 800 | 2,100 | 2,016 | Unknown | 90%[24] | Unknown | 80%[24] | 75%[24] | Unknown |
Eneloop 5th generation | BK-4MCD (BK-4MCDE) | June 2022 | 800 | up to 850 | 2,100 | 2,142 | Unknown | Unknown | Unknown | Unknown | Unknown | 70% |
Eneloop Lite 1st generation[25] | HR-4UQ | June 2010 | 500 | 600 | 2,000 | 1,440 | Unknown | 85% | 80% | 75% | Unknown | Unknown |
Eneloop Lite 2nd generation | BK-4LCC | April 2013 | 550 | 600 | 3,000 | 2,160 | Unknown | 90% | 80% | 70%[14] | 65%[2] | Unknown |
Eneloop Pro 2nd generation[17][26] | HR-4UWXB | October 2012 | 900 | 950 | 500 | 570 | Unknown | 85% | Unknown | Unknown | Unknown | Unknown |
Panasonic Eneloop Pro | BK-4HCC | April 2013 | 900 | 950 | 500 | 570 | Unknown | 85%[2] | Unknown | Unknown | Unknown | Unknown |
Panasonic Eneloop Pro XX | BK-4HCD | October 2015 | 930 | 950 | 500 | 570 | Unknown | 85%[2] | Unknown | Unknown | Unknown | Unknown |
References
[edit]- ^ a b Rockwell, Ken (6 March 2022) [Originally posted September 2010]. "Sanyo Eneloop Batteries".
- ^ a b c d e f g h "Product Lineup". Panasonic.net. Panasonic. Archived from the original on 29 March 2016. Retrieved 25 November 2018.
- ^ "Rechargeable AA Batteries". Duracell. Retrieved 18 November 2022.
pre-charged ... will stay charged for up to 12 months
- ^ Ahsan, Hibba. "4 Best AA and AAA Rechargeable Batteries in 2022 Buying Guide". Haaretz Info & News Magazine 2022. Retrieved 29 September 2022.
- ^ a b Tarr, Greg (24 November 2009). "Panasonic/Sanyo To Divest NiMH Battery Operations To FDK". Twice. Archived from the original on 10 February 2019. Retrieved 9 February 2019.
- ^ "Announcement of basic agreement concerning the transfer of shares of SANYO Energy Twicell Co., Ltd. and SANYO Energy Tottori Co., Ltd. to FDK Corporation" (PDF). 28 October 2009.
- ^ "Panasonic Eneloop vs IKEA LADDA – Are They The Same?". The SLR Lounge.
The original Eneloop Batteries were designed and developed by a [Sanyo-owned] battery factory. [In 2009] Panasonic bought the Eneloop brand, while Fujitsu, as part of its FDK subsidiary, owned the factory and all the IP associated with the manufacture of [low self-discharge] batteries
- ^ Sanyo Announces New "eneloop" Rechargeable Batteries – Industry No. 1 Rechargeable Batteries – Rechargeable up to "Approx. 1,500 times", Factory Pre-charged using Solar Power.
- ^ Sanyo Energy Unveils New Eco-Friendly Products To The Singapore Market.
- ^ "Sanyo New Eneloop Batteries Remains Capacity Longer – Fully-recharged new eneloop keeps approx. 70% power after 5 years of storage" (PDF). Sanyo. Archived from the original (PDF) on 29 October 2013. Retrieved 3 January 2012.
- ^ Sanyo introduces new eneloop with 1800 life cycles to European market – Longer capacity with added life span: new eneloop keeps up to 70% of power after 5 years of storage.
- ^ Eneloop 2022 product catalog for Europe
- ^ "Sanyo Adds "Eneloop Lite" to "Eneloop" Rechargeable Battery Family" (PDF). Sanyo Electric Co. Archived from the original (PDF) on 5 October 2013. Retrieved 3 January 2012.
- ^ a b c "Eneloop Lite". Panasonic-Eneloop.eu. Panasonic. Archived from the original on 7 December 2014. Retrieved 20 July 2015.
- ^ a b "Sanyo's Eneloop Series Expands with New-Type Batteries" (PDF). Sanyo. Archived from the original (PDF) on 29 October 2013. Retrieved 3 January 2012.
- ^ New Eneloop XX with Higher Capacity and Improved Low Self-Discharge.
- ^ a b "Sanyo's Eneloop Lite Datasheet" (PDF). Sanyo Electric Co. Archived from the original (PDF) on 17 February 2013. Retrieved 23 December 2012.
- ^ "Sanyo Presents 'Eneloop': A New Battery in place of Dry Cell Battery for the 21st Century" (PDF). Sanyo. Archived from the original (PDF) on 17 June 2009. Retrieved 19 June 2006.
- ^ a b c "AA 4-Pack". Panasonic.net. Sanyo. Archived from the original on 22 December 2015. Retrieved 18 December 2015.
- ^ "Sanyo's Eneloop Lite datasheet" (PDF). Sanyo. Archived from the original (PDF) on 9 October 2012. Retrieved 23 December 2012.
- ^ "Sanyo's Eneloop Series Expands with New-Type Batteries" (PDF). Sanyo. Archived from the original (PDF) on 29 October 2013. Retrieved 9 June 2011.
- ^ "Announcement HR-3UWXA" (PDF). Sanyo. Archived from the original (PDF) on 19 November 2012. Retrieved 1 May 2012.
- ^ "Eneloop Pro 2012 models" (PDF). Sanyo. Archived from the original (PDF) on 12 April 2013. Retrieved 25 October 2012.
- ^ a b c "AAA 4-Pack". Panasonic.net. Sanyo. Archived from the original on 22 December 2015. Retrieved 18 December 2015.
- ^ "Sanyo's Eneloop Lite datasheet" (PDF). Sanyo. Archived from the original (PDF) on 9 October 2012. Retrieved 23 December 2012.
- ^ "Eneloop Pro 2012 models" (PDF). Sanyo. Archived from the original (PDF) on 12 April 2013. Retrieved 25 October 2012.