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Comparison Hoco J86B Electric vs Remax Hunergy RPP-173

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Hoco J86B Electric
Remax Hunergy RPP-173
Hoco J86B ElectricRemax Hunergy RPP-173
from £74.37 
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Battery capacity60000 mAh60000 mAh
Real capacity35400 mAh37740 mAh
Battery capacity222 W*h222 W*h
Battery typeLi-PolLi-Pol
Charging gadgets (outputs)
USB type C11
USB-A44
Max. power (per 1 port)22.5 W22.5 W
USB type С
20 W
 
18 W
5V/3A, 9V/2A, 12V/1.5A
USB A
22.5 W
 
22.5 W
4.5V/5A, 5V/4.5A, 9V/2A, 12V/1.5A
USB A (2nd)
10.5 W
5V/2.1A
10 W
5V/2A
USB A (3rd)
10.5 W
5V/2.1A
10 W
5V/2A
USB A (4th)
10.5 W
5V/2A
10 W
5V/2A
Power bank charging
Power bank charging inputs
microUSB
USB type C
Apple Lightning
microUSB
USB type C
Apple Lightning
Power bank charge current via USB3 А3 А
Power bank charge power18 W18 W
Features
Fast charge
Quick Charge 3.0
Power Delivery 3.0
Samsung Adaptive Fast Charging
Huawei Fast Charge Protocol
Quick Charge 3.0
Power Delivery 3.0
 
 
Features
info display
lamp
info display
lamp
General
Body materialplasticplastic
Dimensions178x83x60 mm178x83x60 mm
Weight1200 g1310 g
Added to E-Catalogfebruary 2023january 2023

Real capacity

The real capacity of the power bank.

Real capacity is the amount of energy that a power bank is able to transfer to rechargeable gadgets. This amount is inevitably lower than the nominal capacity (see above) — most often by about 1.6 times (due to the fact that part of the energy goes to additional features and transmission losses). However, it is by real capacity that it is easiest to evaluate the actual capabilities of an external battery: for example, if this figure is 6500 mAh, this model is guaranteed to be enough for two full charges of a smartphone with a 3000 mAh battery and smartwatches for 250 mAh.

The capacity in this case is indicated for 5 V — the standard USB charging voltage. At the same time, the features of milliamp-hours as a unit of capacity are such that the actual amount of energy in the battery depends not only on the number of mAh, but also on the operating voltage. In fact, this means that when using fast charging technologies (see below) that involve increased voltage, the actual value of the actual capacity will differ from the claimed one (it will be lower). There are formulas and methods for calculating this value, they can be found in special sources.

USB type С

USB type C is a popular type of USB connector characterized by its small size, reversible design, and fairly advanced (in theory) capabilities. If there are several connectors of this type, the first one is considered to be capable of delivering more power.

It is characterized by the rated power supplied by the power bank when a load is connected to the first or only USB type C output and the current strength. The speed of the charging process directly depends on the power. It is traditionally calculated by multiplying the current by the voltage; However, the standard voltage for USB power is 5 V, so current is considered to be the main indicator of power.

The magnitude of the charging current directly determines the power supplied to the device being charged - and, accordingly, the maximum speed of the process (in practice, it may be lower if the device being charged has strict restrictions on the charge current). Power is also determined by the supply voltage (the number of watts is calculated by multiplying amperes by volts); While the standard USB output voltage is 5V, many fast charging technologies (see below) use higher voltages. Therefore, in the notes to this paragraph, the maximum power on the USB type C connector is also indicated.

As for specific values, the most popular option for USB type C outputs in modern power banks is 3 A. There are also other values - both sma...ller ( 2.4 A, 2.1 A and 2 A) and larger ones - but noticeably less frequently.

USB A

A standard USB A port is characterized by the rated power supplied by the power bank when a load is connected to the first or only USB A output and the current strength. If there are several connectors of this type, the first one is considered to be capable of delivering more power.

The speed of the charging process directly depends on this indicator. Power is traditionally calculated by multiplying current by voltage; However, the standard voltage for USB power is 5 V, so current is considered to be the main indicator of power.

The charging power and, accordingly, the speed of the process depend on the current strength. Nowadays, on USB ports, a current of 2 A or 2.1 A is considered basic and quite modest, 2.4 A and 2.5 A are average, 3 A and more are noticeably above average, and certain fast charging technologies allow you to achieve values of 4 A. 4.5 A and 5 A. However, it is worth considering that to operate at high current, such an opportunity must be provided not only in the power bank, but also in the gadget being charged. So when purchasing a model, it doesn’t hurt to check whether the devices being charged suppo...rt high charge currents.

It is also worth noting two nuances associated with the presence of multiple USB charging ports. Firstly, they may differ in the current they produce. This allows you to select the optimal connector for each device: for example, to quickly charge a tablet with a capacious battery, it is desirable to have a higher current, and a device with a low charging current can be connected to a “weaker” port, so as not to create unnecessary load on the battery and controller. The second caveat is that if all USB connectors are used simultaneously, the current supplied by each of these connectors may be lower than the maximum; in other words, not all power banks allow you to simultaneously use USB ports at the maximum possible power. You can understand whether such a possibility exists by looking at the charge power (see below); if the charge power is not indicated, you should refer to detailed documentation from the manufacturer.

USB A (2nd)

Characteristics of the second USB A port. Read more in the paragraph above.

USB A (3rd)

Characteristics of the third USB A port. Read more in the paragraph above.

Power per USB-A (3rd)

Rated power output by the power bank when the load is connected to the third USB A port. For more information about this parameter, see "Power per USB A port (1st)".

USB-A current (3rd)

The rated power supplied by the power bank when a load is connected to the third USB port. For more information about this parameter, see “USB A current (1st)”.

USB A (4th)

Characteristics of the fourth USB A port. Read more in the paragraph above.

Power per USB-A (4th)

The rated power supplied by the power bank when a load is connected to the fourth USB A port. For more information about this parameter, see “Power per USB A (1st)”.
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