Comparison Seago S2 vs Berger TB Light

The brushing technology used by the toothbrush (see "Type").

In today's market, toothbrushes mainly feature cleaning technologies such as a href="/list/420/pr-14372/">reciprocating, reciprocating-sweeping, sonic and ultrasonic. The first two options can also include the additional feature of pulsating technology. The main difference between these methods lies in the nature of the movement of the bristles; Here is a more detailed description of each option:

— Reciprocating. This cleaning technology involves the bristles on brushes with round heads moving in a traditional manner. As the name suggests, the head rotates back and forth at a slight angle during operation. This technology is considered somewhat more advanced than reciprocating-sweeping, particularly because it offers improved cleaning in interdental and similar areas. However, it's important to note that brushes with this technology still don't match the efficiency of sonic and ultrasonic brushes but are generally more budget-friendly.

— Reciprocating-sweeping. Historically, this technology was the first to be used in brushes with oval nozzles. In brushes employing this principle, the bristles oscillate from left to right, resembling the motion of a broomstick—hence the name "reciprocating." Classic reciprocating brushes are characterized by a sim...ple design but are not particularly effective. Consequently, there are few such models available today, primarily found in low-cost devices. Most toothbrushes with oval heads now use more advanced sonic or ultrasonic technology.

— Pulsating. Usually, this term refers to the format of operating, in which the bristles move up and down relative to the surface of the nozzle, in other words, they go deep into the head and move back. This technology is rarely used in its pure form, it usually complements a reciprocating or reciprocating sweeping head, providing 3D cleaning capabilities (refer to "Modes"). But if the 3D mode is not claimed in the toothbrush, it is worth clarifying separately what is meant by pulsating technology. So, in some models, we are actually talking about the whitening mode, when, for maximum intensity of exposure, the device does not work constantly, but in separate pulses; in others, the term "pulsating" actually refers to the sonic or ultrasonic mode of operation.

— Sound. Sonic cleaning technology involves bristle vibrations with a small amplitude at a high frequency, reaching up to 40K vibrations per minute — this speed aligns with audible sound frequencies, hence the name "sonic." This cleaning method is considered more advanced than reciprocating and even reciprocating-sweeping technology. Sonic brushes, thanks to their high vibration speed, create a fine, uniform foam by mixing toothpaste, saliva, and air during cleaning. This foam can effectively penetrate hard-to-reach areas, and the vibrations themselves prove highly efficient at removing plaque, including from interdental spaces. While ultrasonic cleaning is considered even more advanced (as discussed below), sonic brushes are generally more affordable.

— Ultrasonic. Ultrasonic cleaning technology represents a further advancement of the sonic technology described earlier, distinguished primarily by a higher oscillation frequency. It's important to note that not all brushes in this category operate in the ultrasonic range; some models have oscillation frequencies that only slightly exceed 40K per minute, which is still within the range of audible sound. However, the operating frequency of such devices is significantly higher than that of standard sound devices. Ultrasonic technology offers several advantages, including thorough cleaning with access to hard-to-reach areas and a bactericidal effect. Ultrasound is capable of destroying bacteria responsible for plaque formation. However, brushes with this technology tend to be somewhat more expensive than their sonic counterparts.
It's important to mention that ultrasound technology is not as effective as conventional sound vibrations for cleaning braces and similar structures. As a result, some devices in this category incorporate both ultrasonic and conventional sound vibrations to ensure thorough cleaning in all situations.

The type of power used by the device.

Battery powered is the most popular nowadays — it is provided in most toothbrushes, as well as many irrigators and portable flossing systems. Battery power is much less common, and the mains connection is used by powerful irrigators and flossing systems designed for stationary use. Here is a more detailed description of each of these types of power:

— Battery. Battery-powered devices have a built-in, usually non-removable battery that allows them to function without being constantly plugged into an outlet. These batteries are advantageous for several reasons. They are compact, lightweight, and provide longer usage time. Additionally, batteries are typically included with the device, saving you the expense of buying separate power sources. Some models even come partially charged, ready to use right out of the box. Maintenance costs for battery-powered devices are minimal since you only need to recharge the battery when it's depleted, eliminating the need for battery replacements. However, it's important to note that replacing a dead battery with a fresh one is not as quick and easy as with disposable batteries. In the case of items like toothbrushes and irrigators, this inconvenience is often not a significant issue. These devices can be conveniently charged on a stand connected to a standard outlet, and the chargin...g time is relatively short. While battery-powered models may be slightly more expensive initially, their added features and convenience often justify the higher price in the long run.

— Batteries. Devices powered by replaceable standard-sized batteries, such as AA, are generally more affordable than rechargeable ones. However, this cost advantage is because the batteries are usually not included, requiring separate purchase. While this incurs additional expenses, it grants users the flexibility to choose their preferred type of battery. In the case of toothbrushes and similar devices, there's a choice between disposable and rechargeable batteries in the appropriate size. One clear advantage of replaceable batteries over built-in ones is the ability to quickly swap them out. This minimizes interruptions for charging and even allows the device to function without needing a power outlet, as long as you have a supply of batteries on hand. However, this feature is often not essential, and replaceable batteries of similar size typically have lower capacity and may require more frequent replacement or recharging. As a result, this power source is primarily found in inexpensive toothbrushes, where it helps keep costs down.

— Mains. Some devices are powered by a standard household outlet, which is suitable for high-performance equipment and offers uninterrupted operation. However, the downside is that these devices are stationary due to their need to be connected to a power source. You'll typically find this type of power source in flossing systems and irrigators designed for permanent installation rather than on-the-go use. These devices typically consist of a central unit with a built-in water tank. The irrigator handle, equipped with a nozzle, connects to this unit via a hose. In flossing systems, there is also a socket for a toothbrush (usually battery-powered, as mentioned earlier). In addition to the advantage of unlimited operating time, these devices have much larger water tank capacities, usually starting at 400 ml and sometimes exceeding 1.5 L in certain models.

This refers to the maximum duration a device can run continuously when powered by a fully charged battery or fresh batteries. It's worth noting that this metric may also apply to models designed for mains power, such as flossing systems that include rechargeable toothbrushes, in which case we're referring to the battery life of these toothbrushes.

It's important to note that device specifications typically indicate the maximum runtime under ideal conditions, often in the most energy-efficient mode of operation (and for models with replaceable batteries, using high-quality batteries). The actual battery life can vary depending on specific usage conditions. However, this parameter still serves as a valuable basis for comparing different models. Generally, differences in the claimed operating time correspond proportionally to the real differences in battery life. For example, if one toothbrush has a stated operating time of 20 minutes and another boasts 40 minutes, in practice, their battery life (under similar conditions) will likely differ by approximately two times.

It's important to consider that, for toothbrushes, this parameter can help estimate the number of brushing sessions you can expect on a single charge. Typically, the recommended daily brushing duration is 2 minutes. So, if a toothbrush has an operating time of 30 minutes, it's sufficient for approximately 15 cleaning sessions (or more realistically, around 14 or 13).

The time required to charge the battery from zero to 100% in a device with the appropriate power type (see above). This parameter can vary from 1 – 3 hours in relatively simple and low-power devices to a day in advanced models with capacious batteries. At the same time, the longer the maximum operating time on a charge (see above), the longer, usually, the time required for charging, although there is no hard dependence here.

In general, having fast charging capabilities improves the convenience of a device by reducing interruptions in its operation. However, there is a trade-off to consider: fast charging often means either a smaller battery capacity or a higher price due to the use of specialized technologies to speed up the charging process. When evaluating this parameter, it's essential to think about how you intend to use the device. For instance, if a toothbrush or irrigator is solely used at home by one person and comes with a charging stand, fast charging may not be a critical factor. The device remains consistently charged as it's constantly on the charger, and its battery doesn't deplete significantly during one use. The time between sessions, usually around 8 to 12 hours, is more than enough to maintain a charged battery, even for devices with slower charging. However, if you plan to use the device while traveling, where access to power outlets is sporadic, it's preferable to have minima...l charging time to ensure you can recharge quickly during your trips.

An indicator showing the battery charge level.

This function is predominantly found in battery-powered devices (as mentioned in the "Type of power" section). Implementing a charge indicator with replaceable batteries is challenging but occasionally seen. The specifics of this feature and how it operates can vary. The simplest form of a charge indicator is composed of LEDs. For instance, a green light might indicate a normal charge level, yellow signals a low charge, red signifies the need for charging, and blinking typically indicates that charging is in progress. More advanced indicators exist as well, such as those with their own displays that can show the specific charge level using a battery icon or even as a percentage. Regardless of the design, this feature simplifies monitoring battery status and reduces the risk of finding yourself with a dead battery at an inconvenient time.

The ability to charge the battery in the device from a standard USB port.

Refer to the "Type of power" section for battery details. Charging via USB offers several advantages over traditional mains charging. The primary benefit is the widespread availability of USB ports in computers, laptops, tablets, and various electronic devices. USB connectors are standard outputs in portable power banks, and USB adapters can convert 230V socket and car cigarette lighter socket outputs. This power source allows you to charge your toothbrush or irrigator not only from mains power but also from various other sources, even when sockets are unavailable, such as from a laptop or a power bank. This is particularly convenient during travel.

Another notable aspect of this charging method is that it often eliminates the need for a dedicated charger. All you need is a basic cable to connect the toothbrush or irrigator to a USB port. Typically, such a cable is included with the device, and the device itself features a standard microUSB port for power connection. This flexibility allows you to use alternative cables if needed, which are compatible with the plug type, making it more convenient and adaptable.

However, it's important to mention that these standard sockets on the device are not well-suited for use with charging stands, as discussed in the "Additionally in the kit" section. Consequently, some toothbrushes and irrigators...that use USB charging may not include charging stands at all, while others employ a unique design. In these cases, a dedicated socket for the charging stand is integrated into the device, and USB charging becomes accessible when the device is placed within a travel case, which also serves as a transitional component.

General dimensions of the device. Most manufacturers report this data only for stationary devices — irrigators of the appropriate variety and dental centers (see "Type") — because it is believed that toothbrushes (even with stands) are not so large as to be inconvenient, and not so varied in size, to pay attention to this difference.

Note that the dimensions are usually given only for the main unit, without taking into account the tools installed on it; however, the size of these instruments, again, it is not large enough to cause serious inconvenience.

The total weight of the device is an important consideration. In the case of stationary irrigators and dental centers (as mentioned in the "Type" section), weight isn't a significant factor since the main unit is placed on a stand or wall, and you don't have to hold it. In fact, for some of these models, weight may not even be specified. However, when it comes to toothbrushes or portable irrigators, the device's weight becomes a crucial factor. A heavy device can strain your hand and make it challenging to use during teeth brushing or other procedures. It's generally recommended that the weight of a portable device should not exceed 200 g, and lighter is often better. It's worth noting that in models that come with stands (as discussed earlier), the total weight is typically provided, accounting for both the main unit and the stand. The weight of the main unit alone is usually around 1.5 to 2 times less than the total weight.