Southwire Dual Range Non-Contact Voltage Tester Battery Replacement
In this article we will share with you some of the facts about Southwire dual range non-contact voltage tester battery replacement. You might have heard about the fact that there are two types of batteries used in southwire tester 40120n: one type uses lead acid and another type uses lithium ion. There are different opinions on which battery is better.
Lithium Ion Battery (Li-ion) – These batteries are less expensive than lead acid batteries and they last longer. They provide greater power output, but their life span is shorter. Li-ion batteries are not recommended for use in high current applications such as this one.
Lead Acid Battery (Pb-Acid) – These batteries produce less heat than lithium ion cells and they do not require frequent charging or discharging cycles. However, they are heavier and require special care when storing them.
The main problem with using lithium ion batteries is that they can explode if mishandled. When handling these batteries it is best to keep them away from children and pets. If you need to charge your battery quickly, then you may want to consider a lead acid battery instead.
If you decide to replace your old battery with a new one, make sure that the original cell is completely drained before replacing it! If it is not, you can damage the new battery and even start a fire. In addition, if the battery begins to release gas or swell up, it must be disposed of properly to prevent a fire.
Southwire Ac Voltage Detector/Flashlight 40910n
There are many people who are interested in learning more about Southwire ac voltage detector/flashlight 40910n. This product is a reliable tester that helps you to test for AC voltage at home or in the office. It operates on two AAA batteries and it has a built-in flashlight which you can use in the dark or when there is a power outage.
As an energy conscious company, we at Southwire have developed this product to help businesses and families save money by identifying old or weak electrical lines that may be running through their walls or under their floors.
Sources & references used in this article:
- Self-test probe design & method for non-contact voltage detectors (RA Duke – US Patent 7,733,078, 2010 – Google Patents)
- Non-contact voltage tester with self-test (JL Payne – US Patent 10,527,702, 2020 – Google Patents)
- Best Non Contact Voltage Tester: Top 6 Picks of 2020 (E Mentor – 2017 – electricianmentor.com)
- Non-contact voltage probe apparatus (R Kobayashi, M Hattori, T Ideguchi – US Patent 5,949,230, 1999 – Google Patents)
- Method and apparatus for cable conductor shield fault detection (EB Joy, AP Meliopoulos, RP Webb – US Patent 4,387,336, 1983 – Google Patents)