We subjected the Apple iPhone 14 to our rigorous SBMARK battery test suite to measure its performance in terms of range, charging and efficiency. In these test results, we will analyze how it fared in a variety of tests and several common use cases.
Overview
Key specs:
- Battery capacity: 3279mAh
- 20W charger (not included)
- 6.1-inch, 1170 x 2532, 60Hz OLED display
- Apple A15 Bionic (5 nm)
- Tested ROM / RAM combination: 128GB + 6GB
Pros
- Fair autonomy when streaming music
- Low residual consumption of both wired and wireless chargers
- Very low overall discharge currents
versus
- Battery life below average in almost all calibrated tests
- Low battery life when using the camera
- Low autonomy recovered after a 5 minute recharge
- Very low charging efficiency
The Apple iPhone 14 showed very similar behavior compared to the iPhone 13, but its overall score was slightly lower than its predecessor. Battery life was average despite its small battery, which means that the device is well optimized. In fact, the discharge currents were very low in all of our use cases. However, in terms of battery life, the device had problems while gaming, making calls and using the camera.
The charging experience was poor, it took almost 2 hours to fill the battery with the 20W wired charger and almost 3 hours with the 15W wireless charger. on average only 2 hours and 46 minutes, a figure far from the average in our database. Charging efficiency was also very low, the lowest in our database to date. However, the residual power consumption of both wired and wireless chargers was well controlled, with very low power.
Compared to devices in the same Premium price range ($ 600 – $ 799), the iPhone 14’s overall score is above average thanks to decent battery life and great efficiency. But the reload score remains very low.
Test summary
Information on SBMARK battery tests: For the score and analysis in our smartphone battery reviews, SBMARK engineers perform a series of objective tests over a period of one week both indoors and outdoors. (See our introductory article and how we test articles for more details on our Smartphone Battery Protocol.)
The following section collects the key elements of our exhaustive tests and analyzes performed in SBMARK laboratories. Detailed performance evaluations in the form of reports are available upon request. Do not hesitate to contact us.
| Battery | Battery charger | wireless | Screen | Processor | |
|---|---|---|---|---|---|
| Apple iPhone 14 | 3279 mAh | 20 W (not included) |
15W | OLED 1170 x 2532 |
Apple A15 Bionic |
| Apple iPhone 13 | 3227 mAh | 20 W (not included) |
15W | OLED 1170 x 2532 |
Apple A15 Bionic |
| Samsung Galaxy S22 (Snapdragon) | 3700 mAh | 25W (not included) |
15W | AMOLED 1080 x 2340 |
Qualcomm Snapdragon 8 Gen 1 |
| Oppo Reno8 Pro 5G | 4500 mAh | 80 W (not included) |
– | AMOLED 1080 x 2400 |
Size mediatek 8100 max |
Autonomy
109
Wiko Power U30
Wiko Power U30
How the autonomy score is composed
The autonomy score is made up of three sub-scores of performance: Home / Office, On the go, and Calibrated Use Cases. Each sub-score includes the results of a full range of tests to measure autonomy in all kinds of real-life scenarios.
76 hours
Light use
Active: 2h30 / day
53 hours
Moderate use
Active: 4 hours a day
33 hours
Intense use
Active: 7 hours a day
Home office
109
Viva Y72 5G
Viva Y72 5G
A robot housed in a Faraday cage performs a series of touch-based user actions during what we call our “typical use scenario” (TUS) – making calls, streaming video, etc. – 4 hours of active use over a 16-hour period, plus 8 hours of “sleep”. The robot repeats this series of actions every day until the device is discharged.
In movement
112
Samsung Galaxy M51
Samsung Galaxy M51
Using a smartphone on the go puts a strain on autonomy due to additional “hidden” needs, such as the continuous signaling associated with the selection of the cellular network. SBMARK Battery experts take the phone outdoors and perform a well-defined set of activities while following the same three-hour travel itinerary (on foot, by bus, by subway …) for each device
Calibrated
107
Samsung Galaxy M51
Samsung Galaxy M51
For this series of tests, the smartphone returns to the Faraday cage and ours robots repeatedly perform actions related to a specific use case (such as games, video streaming, etc.) at a time. Starting at an 80% charge, all devices are tested until they have consumed at least 5% of the battery charge.
Reload
107
Realme GT Neo 3
Realme GT Neo 3
How the Charge score is composed
Charging is completely part of the overall battery experience. In some situations where autonomy is minimal, knowing how fast you can charge becomes a problem. The SBMARK battery charge score consists of two secondary scores, (1) Full charge and (2) Fast boost.
Full charge
109
Black Shark 5 Pro
Black Shark 5 Pro
Full charge tests evaluate the reliability of the battery charge indicator; measure how long and how much energy the battery takes to charge from zero to 80% capacity, 80 to 100% as shown by the user interface, and up to an actual full charge.
The charging curves, in wired and wireless mode (if available) show the evolution of the battery level indicator as well as the energy consumption in watts during the charging phases towards full capacity.
The charging curves, in wired and wireless mode (if available) show the evolution of the battery level indicator as well as the energy consumption in watts during the charging phases towards full capacity.
Fast thrust
106
Realme GT Neo 3
Realme GT Neo 3
With the phone at different charge levels (20%, 40%, 60%, 80%), Quick boost tests measure the amount of charge the battery receives after being plugged in for 5 minutes. The graph here compares the average runtime gain from a 5 minute quick charge.
Efficiency
133
Oppo Reno6 5G
Oppo Reno6 5G
How the efficiency score is composed
The SBMARK energy efficiency score consists of two secondary scores, Charge up and Discharge rate, which combine both data obtained during a typical use scenario based on robots, calibrated tests and charge evaluation, taking into account the battery capacity of the device . SBMARK calculates the annual energy consumption of the product, shown in the graph below, which is representative of the overall efficiency during charging and in use.
To load
77
Nubia RedMagic 7 Pro
Nubia RedMagic 7 Pro
The secondary charge score is a combination of four factors: the overall efficiency of a full charge, relative to the amount of energy needed to fill the battery versus the energy the battery can provide; the efficiency of the travel adapter when it comes to transferring power from an outlet to the phone; the residual consumption when the phone is fully charged and still connected to the charger; and the residual consumption of the charger itself, when the smartphone is disconnected from it. The graph below shows the overall efficiency of a full charge in%.
Discharge
175
Apple iPhone 12 mini
Apple iPhone 12 mini
The discharge secondary score evaluates the discharge rate of a battery during a test, which is independent of the battery capacity. It is the ratio of the capacity of a battery divided by its autonomy. A small capacity battery may have the same runtime as a large capacity battery, indicating that the device is well optimized, with a low discharge rate.
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