https://bubelov.com/tags/batteries/ All posts by Igor Bubelov https://bubelov.com/blog/2026/self-discharge-4-months-later/ Thu, 30 Apr 2026 00:00:00 +0000 https://bubelov.com/blog/2026/self-discharge-4-months-later/ <p><a href="https://bubelov.com/blog/2026/self-discharge-month-later/">Previous post</a></p> <h2 id="initial-measurements-2025-12-23">Initial Measurements (2025-12-23)</h2> <ul> <li>IKEA LADDA AA 2450 mAh, 1.2 V | Voltage: 1.44 V (100% charge)</li> <li>IKEA LADDA AAA 750 mAh, 1.2 V | Voltage: 1.47 V (100% charge)</li> <li>Soshine AAA LiFePO4 280 mAh, 3.2 V | Voltage: 3.39 V (100% charge)</li> <li>Soshine AAA Li‑ion 350 mAh, 3.7 V | Voltage: 4.17 V (100% charge)</li> </ul> <h2 id="current-measurements-2026-04-30">Current Measurements (2026-04-30)</h2> <ul> <li>IKEA LADDA AA 2450 mAh, 1.2 V | Voltage: 1.30 V (~80%-90% charge)</li> <li>IKEA LADDA AAA 750 mAh, 1.2 V | Voltage: 1.30 V (~80%-90% charge)</li> <li>Soshine AAA LiFePO4 280 mAh, 3.2 V | Voltage: 3.34 V (~90% charge)</li> <li>Soshine AAA Li‑ion 350 mAh, 3.7 V | Voltage: 4.12 V (~85%-90% charge)</li> </ul> <h2 id="conclusion">Conclusion</h2> <p>The self‑discharge rate is quite low for all tested chemistries (NiMH, LiFePO4, Li‑ion). So if a phone, laptop, or handheld gaming console dies within a week without any use, it&rsquo;s most likely due to sloppy and wasteful software, not the battery itself.</p> https://bubelov.com/blog/2026/self-discharge-month-later/ Tue, 27 Jan 2026 00:00:00 +0000 https://bubelov.com/blog/2026/self-discharge-month-later/ <p><a href="https://bubelov.com/blog/2025/self-discharge/">Previous post</a></p> <h2 id="initial-measurements-2025-12-23">Initial Measurements (2025-12-23)</h2> <ul> <li>IKEA LADDA AA 2450 mAh, 1.2 V | Voltage: 1.44 V (100% charge)</li> <li>IKEA LADDA AAA 750 mAh, 1.2 V | Voltage: 1.47 V (100% charge)</li> <li>Soshine AAA LiFePO4 280 mAh, 3.2 V | Voltage: 3.39 V (100% charge)</li> <li>Soshine AAA Li‑ion 350 mAh, 3.7 V | Voltage: 4.17 V (100% charge)</li> </ul> <h2 id="current-measurements-2026-01-27">Current Measurements (2026-01-27)</h2> <ul> <li>IKEA LADDA AA 2450 mAh, 1.2 V | Voltage: 1.32 V (?% charge)</li> <li>IKEA LADDA AAA 750 mAh, 1.2 V | Voltage: 1.32 V (?% charge)</li> <li>Soshine AAA LiFePO4 280 mAh, 3.2 V | Voltage: 3.34 V (?% charge)</li> <li>Soshine AAA Li‑ion 350 mAh, 3.7 V | Voltage: 4.12 V (?% charge)</li> </ul> <h2 id="conclusion">Conclusion</h2> <p>So far so good. The voltage readings show that all the tested batteries are still near a full charge. The safe takeaway is that they can all last at least one month. Let&rsquo;s see what happens three months after the initial charge.</p> https://bubelov.com/blog/2025/self-discharge/ Tue, 23 Dec 2025 00:00:00 +0000 https://bubelov.com/blog/2025/self-discharge/ <h2 id="form-factors-and-voltage">Form Factors and Voltage</h2> <p>It&rsquo;s hard to imagine life without AA and AAA batteries. They power everything from TV remotes and <a href="https://www.ikea.com/us/en/p/produkt-milk-frother-black-30301167/">portable milk frothers</a> to tons of small IoT sensors.</p> <p>Standard AA/AAA batteries use alkaline chemistry and are rated at 1.5 V. You might also have heard of rechargeable batteries in the same size. Those usually work, but they&rsquo;re typically Ni‑MH and rated at 1.2 V.</p> <p>That voltage difference matters a lot for smart devices that report battery status. Many are hard‑wired for 1.5 V, and using 1.2 V rechargeables can trigger false low‑battery warnings. Some sensors are also voltage‑sensitive, so I wouldn&rsquo;t recommend rechargeables unless you&rsquo;re sure the device supports them.</p> <p>So we know AA and AAA sizes don&rsquo;t define chemistry, or even expected voltage. And it gets even more mixed up. I recently ordered two other varieties:</p> <ul> <li>AAA Li‑ion 3.7 V</li> <li>AAA LiFePO4 3.2 V</li> </ul> <h2 id="self-discharge-rate">Self-Discharge Rate</h2> <p>Batteries aren&rsquo;t perfect, they can&rsquo;t hold a charge forever, even if you don&rsquo;t use them. That&rsquo;s why some people have a bad experience with rechargeable batteries in their remotes. Remotes are low-power devices, and most of their power draw can come from the battery&rsquo;s self‑discharge. Some cheap Ni‑MH batteries lose 10% or more of their charge per month. Putting those in a remote is a terrible idea, because you&rsquo;ll have to recharge them every few months.</p> <p>My rechargeable batteries are IKEA LADDA, which are high‑quality and rumored to be rebranded Eneloops. They&rsquo;re supposed to last for years, but I wanted to test that myself. I&rsquo;m also adding Li‑ion and LiFePO4 batteries to the mix to compare self‑discharge rates between different chemistries. Both of those are made by Soshine, which is a solid brand.</p> <h2 id="initial-measurements">Initial Measurements</h2> <p>Tested Batteries:</p> <ul> <li>IKEA LADDA AA 2450 mAh, 1.2 V | Voltage: 1.44 V (100% charge)</li> <li>IKEA LADDA AAA 750 mAh, 1.2 V | Voltage: 1.47 V (100% charge)</li> <li>Soshine AAA LiFePO4 280 mAh, 3.2 V | Voltage: 3.39 V (100% charge)</li> <li>Soshine AAA Li‑ion 350 mAh, 3.7 V | Voltage: 4.17 V (100% charge)</li> </ul>