Dispatch #009 · Research Note · Classification: Open

Your Phone’s SAR Rating: What It Measures and What It Doesn’t

Every phone sold in the United States has a specific absorption rate. It’s a number that’s supposed to tell you how much RF energy your body absorbs. It doesn’t tell you nearly as much as you think — and the way it’s measured doesn’t match how you use your phone.

Dispatch filed by TINFOIL Intelligence Division · Permanent record

What SAR Is

SAR stands for Specific Absorption Rate. It measures the rate at which radio frequency energy is absorbed by body tissue, expressed in watts per kilogram (W/kg). When your phone transmits — calling, texting, loading a page, syncing in the background — it emits RF energy. Some of that energy is absorbed by your body. SAR quantifies how much.

The FCC requires every phone sold in the U.S. to have a SAR value at or below 1.6 W/kg, measured over 1 gram of tissue. The European limit is 2.0 W/kg, measured over 10 grams of tissue. These numbers sound precise. They are precise — for the specific conditions under which they’re measured. Those conditions bear little resemblance to your actual phone use.

How SAR Is Tested

The test uses a physical model called a SAM (Specific Anthropomorphic Mannequin) — a standardized plastic shell filled with liquid that simulates the electromagnetic properties of human tissue. The phone is placed at a specific distance from the mannequin’s head or body, set to transmit at maximum power, and a probe measures RF absorption at various points inside the liquid.

The test produces a single number: the highest absorption measured at any point, averaged over 1 gram (FCC) or 10 grams (EU) of simulated tissue. This is the SAR value printed in your phone’s documentation.

The test has several characteristics that are worth understanding.

Test Parameter · What’s Tested · What’s Real

Distance

Tested: Phone held at a defined separation distance from the mannequin. For body-worn testing, this distance has historically been 5–15mm. Reality: Your phone sits in your pocket against your thigh (0mm), rests on your chest in a breast pocket (0mm), or is held against your face during calls (variable, often 0mm). The test distance is almost always greater than your actual usage distance. RF absorption increases significantly as distance decreases.

Power level

Tested: Maximum transmit power. Reality: Your phone dynamically adjusts power based on signal conditions. Near a tower with strong signal, it transmits at low power. In a basement, elevator, or rural area with weak signal, it transmits at or near maximum. The SAR test captures worst-case power but doesn’t reflect the variable power your phone actually uses throughout the day.

Frequency

Tested: Each frequency band the phone supports is tested individually. Reality: Your phone transmits on multiple bands simultaneously — LTE on one band, WiFi on another, Bluetooth on a third, potentially NFC and UWB as well. The SAR test evaluates each band in isolation. Cumulative multi-band exposure is not assessed.

Duration

Tested: Short test periods at maximum power. Reality: Your phone transmits continuously throughout the day. It maintains tower registration, receives push notifications, syncs data, and broadcasts Bluetooth — all while in your pocket. The SAR test does not evaluate chronic low-level exposure over hours or years.

Head model

Tested: SAM is modeled on the head dimensions of a large adult male (approximately 90th percentile). Reality: Children have thinner skulls, smaller heads, and developing nervous systems. Women on average have smaller heads. The SAM model does not represent the absorption characteristics of the majority of the population.

Tissue model

Tested: Homogeneous liquid with averaged dielectric properties. Reality: Your head contains bone (low water content, different absorption), brain tissue (high water content), cerebrospinal fluid, blood vessels, and multiple distinct tissue types — each with different RF absorption characteristics. The liquid model averages these into a single medium.

The SAR test is a regulatory compliance exercise. It ensures that a phone, under specific controlled conditions, does not exceed a defined absorption threshold. It does not measure your actual exposure. It does not account for how you carry your phone, how long you use it, how many bands transmit simultaneously, or the specific absorption characteristics of your anatomy.

The SAR rating on your phone was measured with the device held at a distance from a large plastic mannequin filled with liquid. You hold your phone against your face and keep it in your pocket. The test and the reality have very little in common.

What the Number Means (And Doesn’t Mean)

A lower SAR number does not necessarily mean less exposure. SAR is measured at maximum transmit power. A phone with a lower SAR at maximum power might spend more time at high power (due to poor antenna design) than a phone with a higher SAR that dynamically manages power more efficiently. The number on the spec sheet is a ceiling, not an average.

The FCC limit is not a safety threshold. The 1.6 W/kg limit was set with a safety margin relative to levels that cause thermal effects in animal studies. It is not based on a finding that 1.6 W/kg is safe and 1.7 W/kg is dangerous. It is an engineering margin applied to a thermal model. As Dispatch #008 documented, the thermal model does not evaluate non-thermal biological effects.

SAR does not measure cumulative exposure. You absorb RF energy from your phone for the entire time it’s powered on and in proximity to your body. SAR measures peak instantaneous absorption. The total energy your body absorbs over a day, a month, or a decade is not captured by the SAR number.

SAR is frequency-dependent. Different frequencies penetrate tissue differently. Lower frequencies (600–900 MHz) penetrate deeper into tissue. Higher frequencies (mmWave 5G at 24–47 GHz) are absorbed primarily in the skin. A phone that scores well at cellular frequencies may have different absorption characteristics at WiFi or millimeter-wave frequencies. The SAR number does not distinguish.

How to Find Your Phone’s SAR

iPhone: Settings → General → Legal & Regulatory → RF Exposure

Android: Settings → About Phone → Legal Information → RF Exposure (varies by manufacturer)

FCC database: Search any phone’s SAR at fcc.gov/oet/ea/fccid using the FCC ID printed on the device or its packaging.

You’ll find two numbers: Head SAR (phone held to ear) and Body SAR (phone worn on body). The body SAR is typically measured at the defined separation distance mentioned above — not in direct contact with skin.

The Distance Variable

Of all the gaps between the SAR test and reality, distance is the most significant. RF absorption follows the inverse square law — doubling the distance reduces exposure by approximately 75%. Halving the distance increases exposure by approximately 400%.

When your phone is in your pocket, the distance between the antenna and your body is effectively zero. When the SAR test was conducted, the distance may have been 5–15mm. That difference translates to substantially higher actual absorption than the tested value.

This is not a theoretical concern. Phone manufacturers include fine-print RF exposure guidelines in their documentation that specify minimum separation distances. Apple’s iPhone documentation has historically recommended keeping the device at least 5mm from the body during wireless transmission. Most people have never read this recommendation. Fewer have followed it.

The simplest way to reduce RF absorption from your phone is to increase the distance between the phone and your body. A table rather than a pocket. A speakerphone rather than the device against your ear. Or — for the times when you want the device completely silent on the network — a Faraday pouch that eliminates transmission entirely.

What This Means for You

The SAR rating is a data point, not a verdict. It tells you the maximum absorption under controlled test conditions. It doesn’t tell you your actual daily exposure, whether that exposure has biological effects, or whether the thirty-year-old safety standard governing it is adequate for the modern electromagnetic environment.

What it does tell you is that your phone produces measurable RF absorption in human tissue. That absorption is real, quantified, and varies with distance, power, frequency, and duration. The regulatory framework that governs it was built for a different era. And the research that would definitively characterize the biological implications of chronic, close-proximity, multi-band exposure has not been conducted at the scale required to settle the question.

You don’t need to be alarmed by your SAR number. You do need to understand what it actually represents — and what it doesn’t. Informed decisions require information. This dispatch is that information.

Your phone’s SAR rating is a compliance number, not a safety guarantee. It measures peak absorption under test conditions that don’t match your usage. Understanding the gap between the test and reality is the first step toward managing the exposure you can actually control.

Manage Your Exposure

Distance is the most effective variable. When distance isn’t practical, signal elimination is. TINFOIL products are engineered for both.

Browse Collections Dispatch #004: Faraday Guide Dispatch #002: RF Map