- The Shortcomings of SAR Values:
The SAR values provided by the FCC are only a snapshot of the radiation exposure from one position at a time, typically the head or body. However, the actual exposure to radiation will depend on how the phone is used, and other factors such as the distance between the phone and the body, and the duration of exposure. Additionally, the FCC guidelines only take into account a 2mm thick skull, which is an extremely outdated assumption. Children’s skulls are generally thinner and less dense than adults, which could result in a greater absorption of radiation, and children’s brains may also be more susceptible to the effects of radiation.
The Specific Absorption Rate (SAR) is a measure of the amount of radio frequency (RF) energy absorbed by the body when using a mobile phone. While the SAR level of a phone may be used as an indicator of its potential health risks, it is important to note that the SAR value alone does not provide a complete picture of the phone’s overall radiation exposure. One of the main shortcomings of using SAR values as the sole indicator of a phone’s radiation exposure is that it is based on tests performed in only one position, typically the head or body. This means that the SAR value does not take into account other factors that can affect the overall level of RF exposure, such as the distance between the phone and the body, the duration of use, and the specific location of the antenna.
In order to address these shortcomings, RF Safe has developed a new algorithm called the RF Safe Score (RSS). The RF Safe Score algorithm is designed to provide a more comprehensive evaluation of a phone’s overall radiation exposure, taking into account not just the SAR value but also other factors that can affect RF exposure.
The RF Safe Score algorithm takes into account the well-understood physics of microwave absorption and the thickness of the skull, an aspect that the FCC guidelines do not take into account. The algorithm works by counting the number of thresholds surpassed for each SAR test, with thresholds set at 50%, 72.5%, and 95% of the legal limit established by the Federal Communications Commission (FCC). Each time a threshold is reached, a negative point value is applied to the overall score.
The RF Safe Score algorithm also takes into account the fact that the
FCC guidelines for SAR testing were developed a quarter of a century ago and may not take into account the latest scientific research on the potential health risks of RF exposure. Additionally, the FCC allows manufacturers to choose SAR testing between 5mm and 15mm of separation distance, and many phones test at different distances from the simulated head and body. This makes it difficult to compare phones from different manufacturers to each other accurately.
The RF Safe Score algorithm addresses these shortcomings by providing a more comprehensive evaluation of a phone’s overall radiation exposure, taking into account not just the SAR value but also other factors that can affect RF exposure, such as the thickness of the skull. This is particularly important for children and individuals with thinner skulls, who may be at a higher risk for potential health effects from cell phone usage.
It’s important to note that the RF Safe Score is not a replacement for SAR results, but rather a new and improved way to evaluate SAR levels between different model phones and different age groups of phone users. It provides consumers with a more accurate and comprehensive understanding of the potential health risks associated with cell phone usage, and can help them make more informed decisions about their cell phone usage.
In conclusion, the RF Safe Score is a revolutionary algorithm that addresses many of the shortcomings of SAR testing. It provides a more comprehensive evaluation of a phone’s overall radiation exposure, taking into account not just the SAR value but also other factors that can affect RF exposure. It is particularly important for children and individuals with thinner skulls, who may be at a higher risk for potential health effects from cell phone usage. It’s important to note that the RF Safe Score is not a replacement for SAR results, but rather a new and improved way to evaluate SAR levels between different model phones and different age groups of phone users.
In conclusion, the RF Safe Score (RSS) algorithm is a revolutionary tool that addresses many of the shortcomings of SAR testing. It takes into account not only the SAR value, but also other important factors such as the thickness of the skull. This is particularly important for children and individuals with thinner skulls, who may be at a higher risk for potential health effects from cell phone usage. The algorithm calculates a point value based on the thresholds of 50%, 72.5%, and 95% of the legal limit of 1.6W/kg, with each threshold representing a .5mm, 1.0mm, and 2.0mm skull thickness, respectively. This allows consumers to evaluate the SAR levels of any cell phone and make informed decisions about their cell phone usage. RF Safe is committed to promoting public awareness of the potential health risks associated with cell phone usage and finding solutions that will protect the health and well-being of people everywhere. The algorithm is available for free on the RF Safe website and encourages consumers to use it to make informed decisions about their cell phone usage.
RF Safe Launches Revolutionary RF Safe Score (RSS) Algorithm for Cell Phone Safety Seminole, Florida – RF Safe is proud to announce the launch of its revolutionary RF Safe Score (RSS) algorithm, also known as PhoneRank, which aims to provide consumers with a better understanding of the potential health risks associated with cell phone usage. The RF Safe Score (RSS) algorithm takes into account the well-understood physics of microwave absorption and the thickness of the skull, an aspect that is not considered in current Federal Communications Commission (FCC) guidelines. The algorithm calculates a point value based on the thresholds of 50%, 75%, and 95% of the legal limit of 1.6W/kg, with each threshold representing a .5mm, 1.0mm, and 2.0mm skull thickness, respectively. The current FCC guidelines only take into account a 2mm thick skull, which is an extremely outdated assumption. The many well-established principles in classical physics, proves that users with a skull half as thick or less absorb more energy when operating at the same maximum Specific Absorption Rate (SAR) value. This is an effect that cannot be avoided, and consumers have a right to know. “We believe that consumers deserve to have access to accurate and comprehensive information about the potential health risks associated with cell phone usage,” said Martin Collins, an early backer of the technology. “Our RF Safe Score algorithm provides a simple way for consumers to calculate the risk for themselves and their children, who are particularly vulnerable to the effects of microwave radiation.” The RF Safe Score (RSS) algorithm is available for free on the RF Safe website and can be used to evaluate the SAR levels of any cell phone. The company encourages consumers to use the RSS algorithm to make informed decisions about cell phone usage and advocates for stricter safety guidelines. RF Safe is committed to promoting public awareness of the potential health risks associated with cell phone usage and finding solutions that will protect the health and well-being of people everywhere.
