Catalog   /   Home & Renovation   /   Autonomous Power Supply   /   Portable Power Stations

Comparison TRAMSMART T200 vs ANVOMI UA301

Add to comparison
TRAMSMART T200
ANVOMI UA301
TRAMSMART T200ANVOMI UA301
Outdated ProductOutdated Product
TOP sellers
In boxcharging stationcharging station
Rated power200 W300 W
Peak power400 W600 W
Output waveformmodified sine wavesinusoid (PSW)
Outputs
Sockets (230 V)12
USB-A
2 pcs
5В/2.4А
 
USB-A (quick charge)
1
18 W
2
20 W
USB-C
1 pcs
3 A
18 W
2 pcs
60 W
Car cigarette lighter
Inputs (station charging)
From solar panels
DC input1 pcs (15 H / 3 A)
Battery and charging time
Battery typeLi-IonLi-Ion
Battery capacity222 Wh299 Wh
Charging cycles500800
Charging time (socket) 300 min240 min
Charging time (solar panel) 180 min
Charging power (socket)200 W
General
PSUexternal
Display
Backlight
Carrying handle
Operating temperature0 °C ~ +40 °C0 °C ~ +45 °C
Dimensions (LxWxH)210x123x139 mm192x218x192 mm
Weight2.4 kg4.6 kg
Added to E-Catalogaugust 2023july 2023
Compare TRAMSMART T200 and ANVOMI UA301
Charging stations TRAMSMART T200 and ANVOMI UA301 have specific features that may influence user choice. TRAMSMART T200 has a nominal power of 200 W and a peak value of 400 W, while ANVOMI UA301 offers a higher nominal power of 300 W and a peak power of 600 W, making it more suitable for more demanding devices. In terms of outputs, the TRAMSMART T200 has one socket and three USB-A ports, whereas ANVOMI UA301 offers two sockets and two USB-A ports, increasing its versatility. It is also worth noting that ANVOMI UA301 has a faster charge time (240 minutes) compared to TRAMSMART T200 (300 minutes). However, TRAMSMART T200 is lighter (2.4 kg compared to ANVOMI UA301's 4.6 kg) and has more compact dimensions, which can be an advantage for portability. Both devices have a display and backlighting, making them convenient to use. The choice between them will depend on your needs for power and portability.
TRAMSMART T200 often compared
Glossary

Rated power

Power that a device can consistently produce for an indefinitely long time without any unpleasant consequences. For normal operation of the charging station, the rated power must be at least 15 - 20% higher than the total power of all devices simultaneously connected to it.

Peak power

Some electrical appliances (in particular, units with electric motors - refrigerators, air conditioners, etc.) consume significantly more energy at startup than after reaching the operating mode. For such a load, the peak power of the charging station must be taken into account - its indicator must be higher than the starting power of the load.

Output waveform

Line shape on a graph of the voltage output from a charging station. The quality of power provided by the device depends on this parameter.

Sine wave (PSW — Pure Sine Wave). The signal is in the form of a smooth wave without sharp steps, maximally corresponding to the parameters of conventional AC networks. Charging stations with this output signal form can be used for almost any type of load, incl. for powering sensitive electronics that place high demands on the quality of the input voltage.

— Modified sine wave. In a signal similar to a sine wave, the waves on the graph are formed not by smooth lines, but by characteristic “steps” (i.e., jerks). An approximated sine wave is not suitable for powering sensitive electronics, but in general there are not so many such devices in the total number, and circuits with a modified sine wave do not require the creation of expensive and complex technical solutions. As a result, they are cheaper.

Sockets (230 V)

Total number of outlets with output voltage. This is, in fact, the number of devices that can be simultaneously connected to the charging station without the use of splitters, extension cords and carriers. Accordingly, weaker charging stations have one or two sockets in their submission. Powerful charging stations already have three or more sockets “on board”.

USB-A

Full-size USB-A connectors are popular in computer technology, commonly used in charging adapters for 230 V household networks and 12 V car sockets. These outputs have become widespread in charging stations for charging gadgets.

— The total number of such ports can be quite varied (1 USB, 2 connectors, 3 ports, and even 4), as they allow for charging and, in some cases, powering various low-power devices — smartphones, tablets, power banks, lamps, and more.

— Current Strength. The maximum current delivered through the USB-A connector to the charging device. Note that different ports of the charging station may output different currents (for example, 1.5 A and 2.1 A). In such cases, the highest current strength is usually specified.

— Power. The maximum output power in watts (W) that the charging station is capable of delivering through the USB-A connector to a single charging gadget.

USB-A (quick charge)

Full-sized USB-A ports with fast charging support. This feature allows you to charge your smartphone, tablet, or other connected devices much more quickly. The charging process occurs at increased power, with current and voltage regulated at each stage to stay within optimal values. However, keep in mind that there are many fast-charging technologies today, and not all of them are compatible with each other.

— Current strength. The current parameters delivered through USB-A fast charging ports. Note that different ports of the charging station may output different voltage and current parameters. This section specifies the current strength values at a certain voltage (for example, 5V / 3A, 9V / 2A, 12V / 1.5A).

— Power. The maximum power in watts (W) that the charging station can deliver through the USB-A fast charging port to a single charging gadget. High output power allows for faster charging. However, the charging device must support the corresponding power; otherwise, the speed will be limited by the gadget's characteristics.

USB-C

USB type C ports are smaller compared to classic USB ports and have a convenient reversible design that allows connecting the plug either way. USB type C was initially created to implement various advanced features: increased power, fast charging technologies, etc.

Since the port is relatively new and quite powerful (you can find USB type C with 60W, even 100W and 140W), the total number of such connectors is often limited to one port, or sometimes two).

— Current. The maximum current delivered through the USB type C port to the device being charged. Note that different ports of a charging station may deliver different currents (for example, 1.5A and 2.1A). In such cases, the highest current is usually specified.

— Power. The maximum power in watts (W) that the charging station can deliver to one charging gadget. The high output power of the USB type C port allows for faster charging. However, the device being charged must support the corresponding power; otherwise, the speed of the process will be limited by the gadget's specifications.

Car cigarette lighter

Built-in cigarette lighter socket with 12 V output voltage in the design of the charging station. Such an interface is in fact a standard "car socket" used to connect various devices to the car's on-board network. The presence of a cigarette lighter socket (car outlet) allows you to use the charging station as a power source for such devices. The number of sockets in different models can be different - most often there is one cigarette lighter, but occasionally there are options for a couple of connectors.

DC input

DC connector for a distinctive round plug (like those used in many laptops) used to recharge the battery of the device. Note that DC- in plugs may have different sizes, and chargers with such plugs may have different operating voltages. In practice, this leads to the fact that finding a suitable charger for a portable station is not easy, you need to be especially careful when searching.