ASUS Transformer 3 T305CA review – the iPad Pro competitor with full-fledged Windows experience

Ever since Intel launched its low-voltage SoCs and CPUs, OEMs have rushed to compete in the ultraportable and hybrid segment of the market. With the latest Kaby Lake generation, we saw even further improvement in this area and the company even renamed the Core m5 and Core m7 chips to Core i5 and Core i7 leaving only the Core m3 lineup as it is. While this suggests of closer to the full-fledged Core i5 and Core i7 series performance, it creates quite the confusion among users. Anyway, ASUS’ latest alteration of the Transformer tablets is the Transformer 3 T305C and can be configured with up to Core i7-7Y75 but we settled for the most affordable Core m3-7Y30 chip.

The real question is whether the new Transformer 3 can make a compelling case and will it beat the competitors like the iPad Pro, Acer Aspire Switch 12 S or even the Aspire Switch Alpha 12. And by looking at the specs sheet, the Transformer 3 packs a good punch with a 12.6-inch WQHD+ IPS panel, solid aluminum construction, up to 8GB of LPDDR3 memory, an active stylus pen and seemingly comfortable input devices thanks to the additional dock. Quite frankly, the only thing that’s missing here is a broader range of I/O so the laptop-like experience would be complete.

Contents


Retail package

The device comes in a luxurious box with the keyboard dock, the active stylus, the usual user manuals and, of course, the charging adapter.


Design and construction

The base consists of solid brushed aluminum but we have no info on the glass surface. On ASUS’ official website there’s no word whether the glass is Corning Gorilla or not. In any case, the chassis exudes quality. In terms of portability, the tablet is competitive as well – it weighs just 695 g and measures at just 6.9 mm in thickness. For comparison, Apple’s 12.9-inch iPad pro weighs 677 g and it’s exactly 6.9 mm thick.

The back of the device features thick aluminum sheet with concentric brushed finish reminding us of the notebook ZenBook series. In the upper right corner, you will find the slightly protruding 13MP camera. On the front, you will see the 12.6-inch screen and fairly thin upper and lower bezels. The side ones are just the right size to hold it without accidentally touching the screen with your thumb. The upper bezel provides room for a double mic setup, the ambient light sensor and the 5MP camera.

The sides impress not only with its thickness but with its stylish chamfered edges. Unfortunately, though, there’s only one USB-C connector (on the right) for charging and data transfer and, of course, the 3.5 mm audio jack on the left. The upper side accommodates the power button and the volume rocker, while the dock connector is placed at the bottom. One of the key features is the Harman Kardon branded quad speakers placed on the left and right side in pairs.

Keyboard dock

The keyboard dock is flexible and when attached to the tablet, it provides protection and expanded usability. It’s adjustable and supports the tablet in two largely different angles, although we think they will be enough in most cases. The dock itself is made of soft-touch kind of fabric (at least it feels like one) and doesn’t attract fingerprints but collects dirt and dust quite well.

And as for the input devices, they are surprisingly good for a hybrid like this. The clickpad is not only usable but provides excellent working experience thanks to the buttery smooth surface, light and clicky feedback. The surface registers swipes and gestures quite accurately. Pretty much the same goes for the keyboard – maybe a bit shallow but each key press results in clicky, audible and tactile feedback. The bonus here is the discreet LED backlight.

Stylus

The stylus has aluminum body with two small buttons activating various options while working with the pen. It’s definitely a nice alternative for working with the touchscreen but it cannot be docked and its usability for creativity is rather questionable.


Display quality

The device uses an IPS display featuring 2880×1920 pixels resolution that fits in a 12.6-inch diagonal. This means that the pixel density is 275 ppi while the pixel pitch is 0.0925 x 0.0925 mm. The panel is manufactured by BOE with model number NV126A1M-N52 (BOE06D0) and can be considered as “Retina” from at least 33 cm.

Viewing angles are good.

We’ve recorded a peak brightness of just 442cd/m2 in the center of the screen and 416 cd/m2 as average across the surface with 13% maximum deviation. The correlated color temperature at maximum brightness is a bit colder than it should be – 7600K and remains the same as we go along the grayscale. You can see how these values change at 140 cd/m2 (41% brightness) in the image below.

The maximum color deviation dE2000 compared to the center of the screen should be no more than 4.0 and if you are planning to do color-sensitive work, it should be lower than 2.0. But in this case, since the tablet is going to be used mostly for office work, web browsing and multimedia, a deviation of 3.6 in the upper right corner is somehow acceptable. The contrast ratio is pretty high – 1200:1.

Color reproduction

To make sure we are on the same page, we would like to give you a little introduction of the sRGB color gamut and the Adobe RGB. To start, there’s the CIE 1976 Uniform Chromaticity Diagram that represents the visible specter of colors by the human eye, giving you a better perception of the color gamut coverage and the color accuracy.

Inside the black triangle, you will see the standard color gamut (sRGB) that is being used by millions of people in HDTV and on the web. As for the Adobe RGB, this is used in professional cameras, monitors etc for printing. Basically, colors inside the black triangle are used by everyone and this is the essential part of the color quality and color accuracy of a mainstream notebook.

Still, we’ve included other color spaces like the famous DCI-P3 standard used by movie studios, as well as the digital UHD Rec.2020 standard. Rec.2020, however, is still a thing of the future and it’s difficult for today’s displays to cover that well. We’ve also included the so-called Michael Pointer gamut, or Pointer’s gamut, which represents the colors that naturally occur around us every day.

In this case, the display covers 98% of the sRGB color space.

Response time

We test the reaction time of the pixels with the usual “black-to-white” and “white-to-black” method from 10% to 90% and reverse.

We recorded Fall Time + Rise Time = 18 ms.


PWM (Screen flickering)

Pulse-width modulation (PWM) is an easy way to control monitor brightness. When you lower the brightness, the light intensity of the backlight is not lowered, but instead turned off and on by the electronics with a frequency indistinguishable to the human eye. In these light impulses, the light/no-light time ratio varies, while brightness remains unchanged, which is harmful to your eyes. You can read more about that in our dedicated article on PWM.

Unfortunately, the display uses PWM for regulating brightness and the frequency of the emitted light is extremely low and aggressive – 200 Hz. At 100% brightness, though, the panel doesn’t use PWM.

Blue light emissions

Installing of our Health-Guard profile not only eliminates PWM but also reduces the harmful Blue Light emissions while keeping the colors of the screen perceptually accurate. If you’re not familiar with the Blue light, the TL;DR version is – emissions that negatively affect your eyes, skin and your whole body. You can find more information about that in our dedicated article on Blue Light.

You can see the levels of emitted blue light on the spectral power distribution (SPD) graph.

Conclusion

The display used for the Transformer is excellent when it comes to image quality. It offers high maximum brightness, good viewing angles, wide sRGB color gamut coverage and high contrast. However, the aggressive PWM that’s used from 0 to 99% brightness is a bit of a letdown.

Buy our display profiles

Since our profiles are tailored for each individual display model, this article and its respective profile package is meant for ASUS Transformer 3 T305CA configurations with 12.6″ BOE NV126A1M-N52 (BOE06D0) (2880 × 1920) IPS screen and the device can be found at Amazon: Compra da Amazon.it (#CommissionsEarned)

*Should you have problems with downloading the purchased file, try using a different browser to open the link you’ll receive via e-mail. If the download target is a .php file instead of an archive, change the file extension to .zip or contact us at [email protected].

Read more about the profiles HERE.

Oltre a ricevere profili efficienti e rispettosi della salute, comprando i prodotti di LaptopMedia sostenete anche lo sviluppo dei nostri laboratori, dove testiamo i dispositivi per produrre le recensioni più obiettive possibili.

Lavoro in ufficio

Lavoro in ufficio dovrebbe essere usato soprattutto dagli utenti che passano la maggior parte del tempo a guardare pezzi di testo, tabelle o semplicemente a navigare. Questo profilo mira a fornire una migliore distinzione e chiarezza mantenendo una curva gamma piatta (2.20), una temperatura di colore nativa e colori percettivamente accurati.

Design e gioco

Questo profilo è rivolto ai designer che lavorano professionalmente con i colori, e anche per giochi e film. Design and Gaming porta i pannelli di visualizzazione ai loro limiti, rendendoli il più accurati possibile nello standard sRGB IEC61966-2-1 per Web e HDTV, al punto di bianco D65.

Salute-Guardia

Salute-Guardia elimina la nociva Pulse-Width Modulation (PWM) e riduce la luce blu negativa che colpisce i nostri occhi e il nostro corpo. Essendo personalizzato per ogni pannello, riesce a mantenere i colori percettivamente accurati. Salute-Guardia simula la carta, quindi la pressione sugli occhi è notevolmente ridotta.

Ottenete tutti e 3 i profili con il 33% di sconto


Specs sheet

The current specs sheet is for this particular model and configurations may differ depending on your region

ASUS Transformer 3 T305CA Tabella delle specifiche tecniche

Acer
Not available
Visualizza
12.6”, QHD+ (2880 x 1920), IPS
HDD/SSD
256GB M.2 SATA SSD
Slot M.2
SATA3 M.2
RAM
4GB LPDDR3, 1866 MHz
Dimensioni
303 x 202 x 7 mm (11.93" x 7.95" x 0.28")
Peso
0.69 kg (1.5 lbs)
Materiale del corpo
Aluminum (Aluminum)
Porte e connettività
  • 1x USB Type-C 3.2 Gen 2 (10 Gbps)
  • Ethernet LAN
  • Wi-Fi 802.11ac
  • Bluetooth 4.1
  • Jack audio combo audio/microphone jack
Caratteristiche
  • Lettore di impronte digitali
  • Telecamera web 5MP
  • Tastiera retroilluminata
  • Microfono
  • Altoparlanti
  • Unità ottica
  • Fessura del blocco di sicurezza

ASUS Transformer 3 T305 configurations


Software

We used the pre-installed Windows 10 for the writing of this review but if you wish to perform a clean install of the OS, we suggest downloading all of the latest drivers from ASUS’ official support page.

Battery

To be honest, we’ve expected a bit longer battery life since the device uses a rather small 12.6″ IPS panel, an energy-efficient Intel Core m3-7Y30 SoC and a reasonably-sized 38.5Wh battery but probably the extra pixels on the screen (2880×1920) took a toll on the battery life. In any case, the battery endurance is rather unsatisfactory, especially compared to some of the 13-inch laptop alternatives on the market.

Of course, all tests were performed using the same settings as always – Wi-Fi turned on, screen brightness set to 120 cd/m2 and Windows battery saving feature turned on.

Per simulare le condizioni reali, abbiamo utilizzato un nostro script per la navigazione automatica su oltre 70 siti web.


CPU – Intel Core m3-7Y30

The Intel Core m3-7Y30 chip is a two core/four thread SoC implementation, and the most budget oriented from all of the ultra low powered Core m line up. It ticks at 1.00 GHz base clock speeds and can go up to 2.60 GHz on demand with the Turbo Boost technology. It can be found in all kinds of portable devices like light laptops, 2-in-1’s and some tablets. Its main advantage is the very low power demand of 7 W for the entire package, which includes the GPU.

Speaking of GPU, the Core m3-7Y30 is equipped with an HD Graphics 615 video controller, which has a base frequency of 300 MHz and a maximum one of 900 MHz. It also supports 4K video output. The chip also supports up to 16 GB of LPDDR3/DDR3L memory with maximum clock speeds of 1866 MHz and 1600 MHz respectively.

You can browse through our top CPUs ranking: http://laptopmedia.com/top-laptop-cpu-ranking/


GPU – Intel HD Graphics 615

Intel’s HD Graphics 615 is a low-end integrated graphics unit found in Y-series Kaby Lake processors. It incorporates 24 EUs (Execution Units) like all GT2 units and can be clocked at up to 1050 MHz while the base frequency is 300 MHz. With these specs, the chip is integrated into KBL-Y processors rated at 4.5W TDP, including the memory controller.

Since the iGPU is using the same architecture as before, the most noticeable feature would be the full hardware acceleration of the H.265/HEVC Main10 and Google’s VP9 codecs. With this, Intel aims to improve the overall energy efficiency and performance of the iGPU.

You can browse through our top GPUs ranking: http://laptopmedia.com/top-laptop-graphics-ranking/


Temperatures

Of course, the device isn’t made for long and heavy workloads but we still did the usual stress test to see how the system is able to utilize the Core m3-7Y30 SoC since devices with passive cooling solutions often struggle to maintain or at least reach the maximum clock speeds of the CPU.

Running the CPU stress test shows that the system doesn’t utilize the full performance of the CPU. For the first minute or so, the cores ran at 1.9 – 2.0 GHz but then clocked down to 1.4 GHz stable. Even though Intel hasn’t specified the maximum Turbo Boost frequency for two active cores we assume that the chip can run at least 2.3 – 2.4 GHz with two active cores. So reaching just 2.0 GHz for a short period of time suggest of poor utilization.

As we ran the GPU stress test, the CPU frequency dropped to around 400 – 500 MHz so it can give enough headroom for the CPU to perform – nothing out of the ordinary.


Verdict

The Transformer 3 excels in what it’s built for – to be a good rival of the iPad Pro. And it makes a compelling case in this regard – it’s cheaper, it has pretty powerful CPUs for the higher tier configurations and carries a comfortable keyboard dock that will let you forget all about your conventional notebook. However, there are some things that the standard notebook can do and the Transformer 3 can’t.

For starters, the CPU is rather limited in terms of performance probably due to the closed and passive cooling design. Secondly, the battery life is rather disappointing despite the generous battery capacity, energy-efficient SoC and small display. In addition, due to the very nature of the form factor, connectivity is going to be an issue due to the missing I/O. Of course, if you are looking into 2-in-1s like the Transformer 3, the I/O probably isn’t a deciding factor anyway. And last, but not least, the presence of PWM from 0 to 99% brightness isn’t exactly an issue limited to tablets but the aggressive one used in this device should raise some red flags to potential buyers with sensitive eyes.

Once again, if you are looking for a sleek, compact and still capable of running a full-fledged Windows OS, the Transformer 3 is one of the best choices out there as long as you are okay of sacrificing some performance, I/O and battery along the way. It still is cheaper than the iPad Pro and the 13-inch Windows notebooks.

Pros

  • Good build quality, portable design
  • Good keyboard and touchpad on the dock
  • Excellent display quality
  • Well-priced


Cons

  • Some performance struggles with the Core M configurations
  • The display uses aggressive PWM from 0 to 99% brightness (our Health-Guard profile takes care of that)
  • Unsatisfactory battery life

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