The Huawei Mate20 Pro has introduced several new features that eventually also appeared on the Samsung Galaxy S10+ since Huawei released its latest phone. One of these features is reverse wireless charging which the Samsung Galaxy S10+ now promotes. This dual role power capability allows the phone to wirelessly charge other Qi enabled phones such as the Apple iPhone XS Max and Google Pixel 3 XL as well as being able to be wirelessly charged itself. The Mate20 Pro was the first in the market to offer such capability along with 15W wireless charging which should be faster than the standard 10W on most Qi enabled phones.
The Mate20 Pro was also the first in its Huawei Mate series to offer triple rear cameras and likewise for the Samsung Galaxy S10+. In fact Huawei not only added another camera from the previous Mate10 Pro's dual camera setup, but also better the quality to 40MP (wide), 20MP (ultrawide) and 8MP (telephoto) cameras. By comparison the Samsung Galaxy S10+ added a new 16MP camera to its existing two 12MP rear cameras.
While continuing to support its own proprietary SuperCharge as well as USB Power Delivery and Qualcomm Quick Charge based charging over Type-C, the Mate20 Pro now claims to achieve up to 40W of charging using SuperCharge instead of just 22.5W on the previous model.
Here we can see how the Mate20 Pro looks like after purchase. The box advertises the Leica brand of cameras and triple camera setup used by the phone.
By including the Type-C to 3.5 mm headphone jack adapter with the Mate20 Pro, it doesn't look like Huawei is returning the 3.5 mm audio connector since it was removed from the Mate 10 Pro. The rest of the accessories are similar to that seen with previous Mate series which consist of earbuds, power charger, plastic phone cover and USB Type-A to USB Type-C cable.
Huawei has bumped up its own SuperCharge charging up to 40W for the Mate20 Pro with the new Huawei SuperCharger that came with the phone. With 40 watts, the Mate20 Pro should get much faster charging than 22.5W previously supported by the older SuperCharger. The new Huawei SuperCharger supports 10 watts (5 volts @ 2 amps), 18 watts (9 volts @ 2 amps) and 40 watts (10 volts @ 4 amps) power profiles and should be connected using the supplied USB Type-A to Type-C cable for fastest charging.
Interestingly just like the Samsung Galaxy S10+, the fingerprint sensor has been shifted from the back of the phone to the bottom of the display for the Mate20 Pro. This makes it easier for the user to activate the phone on the front rather than from the back.
The Mate20 Pro has a larger display than previous models as well as a facial recognition feature which the latest Apple iPhones like the iPhone XS Max also supports. In a similar move, Samsung also increased the size of the screen for the Samsung Galaxy S10+.
The red power button is a nice contrast to the volume buttons next to it.
Just like the Mate 10 Pro, the USB Type-C connector of the Mate20 Pro supports USB 3.1 Gen 1 speeds and DisplayPort Alternate Mode along with Huawei's SuperCharge scheme and standard USB Power Delivery 2.0 technology for rapid charging.
We can see how the Mate20 Pro supports power using the USB Power Test App from Granite River Labs with the Granite River Labs USB Power Delivery Compliance C2 Tester to perform the following tests.
The USB Power Test App first negotiates a power contract emulating the Source to determine the Power Delivery Sink capabilities of the Mate20 Pro. The USB Power Test App then reports out the voltage and current supported by the phone for each of the Source PDO's advertised to the phone.
|Sink Cap.||Voltage (V)||Current (A)|
The USB Power Test App from Granite River Labs also produces a voltage, current trace plot which graphically shows the voltage and current requested by the phone for each advertised Source PDO throughout the power negotiation.
Using the USB Power Delivery Compliance C2 Tester from Granite River Labs to run just a subset of the full USB Power Delivery compliance test suite, we can see that the Mate20 Pro supports charging using 10 watts (5 volts @ 2 amps), 18 watts (9 volts @ 2 amps) and 5 watts (5 volts @ 1 amps) fixed PDO's. Some compliance failures were also observed.
Supply Type #1
Peak Current #1
Max Current #1
Supply Type #1
OP Current #1
Supply Type #2
OP Current #2
USB-IF High Level Mapping Summary
Test Group Description
BMC Physical Layer Transmitter
BMC Physical Layer Receiver
BMC Physical Layer Miscellaneous
Protocol Specific Primary
Power Source/Sink Primary
TDA.126.96.36.199 BMC PHY TX EYE
TDA.188.8.131.52 BMC PHY TX BIT
TDA.184.108.40.206 BMC PHY RX INT REJ
TDA.220.127.116.11 BMC PHY RX BUSIDL
TDA.18.104.22.168 BMC PHY TERM
TDA.2.2.1 BMC PROT SEQ GETCAPS
TDA.22.214.171.124 BMC PROT SEQ CHKCAP P PC
TDA.126.96.36.199 BMC PROT SEQ CHKCAP NOMARK P PC
TDA.188.8.131.52 BMC PROT SEQ CHKCAP CP ACC
TDA.184.108.40.206 BMC PROT SEQ CHKCAP NOMRK CP ACC
TDA.2.2.7 BMC PROT BIST NOT 5V SRC
TDA.2.2.9 BMC PROT GSC REC
TDA.2.2.10 BMC PROT IGN PPS
TDA.220.127.116.11 POW SRC LOAD P PC
TDA.18.104.22.168 POW SRC LOAD CP ACC
TDA.22.214.171.124 POW SRC TRANS P PC
TDA.126.96.36.199 POW SNK TRANS C CP
TDA.188.8.131.52 POW SNK TRANS PC
BMC Eye Diagram