Last week was of course the launch of Nintendo’s eagerly anticipated Switch console. The company’s latest handheld console, the Switch is a bit of an odd duck in pretty much every way. It departs from Nintendo’s traditional and well-established clamshell design in favor of a larger tablet, and under the hood Nintendo has stepped away from their typical highly-custom low-power SoC in favor of a rather powerful Tegra design from NVIDIA. Given that the 3DS was essentially an ARMv6 + OpenGL ES 1.x device, I can’t overstate just how significant of a jump this is under the hood in going to the ARMv8 + OpenGL ES 3.2/Vulkan class Tegra SoC. Nintendo has essentially jumped forward 10 years in mobile technology in a single generation.

Handheld Game Console Specification Comparison
  Nintendo Switch New Nintendo 3DS XL Sony PlayStation Vita Slim
SoC CPU 4x ARM Cortex-A57 4x ARM11 4x ARM Cortex-A9
GPU NVIDIA Maxwell
(256 Cores)
DMP PICA200 IMG PowerVR SGX 543MP4
Display 6.2-inch 1280x720p LCD
(HDMI: 1080p60)
Top: 4.9-inch 800x240
Bottom: 4.2-inch 320x240
5-inch 960x544
IPS LCD
Size 102 x 239 x 13.9 mm, 297g (tablet only)
398g w/Joy-Cons
160 x 93.5 x 21.5 mm, 329g 85.1 x 183.6 x 15 mm, 219g
Battery 4310mAh (16Whr)
2.5 to 6.5 Hours
1750mAh (6.5Whr)
3.5 to 7 Hours
2210mAh (8.2Whr)
4 to 6 Hours
Storage 32GB NAND + microSDXC 1GB NAND + microSDHC 1GB NAND or Proprietary Card
Wireless 2.4/5GHz 2x2 802.11ac
Bluetooth 4.1
802.11g 2.4GHz 802.11n
Bluetooth 2.1
I/O Console USB Type-C Proprietary (USB Compatible) Micro-USB
Dock 1x USB 3.0
2x USB 2.0
1x HDMI 1.x
1x USB-C (power only)
Launch Date 03/03/2017 10/14/2014 10/10/2013
Launch Price $299 $199 $199

In any case, in between benchmark runs for other projects over the weekend, I’ve been poking and prodding at the Switch to see if there was anything interesting to find. Nintendo still hasn’t disclosed low-level specifications – nor was I expecting them to – so Digital Foundry’s unofficial analysis remains the best we’re going to see for now. And for a look at the physical layer, iFixit has once again done another one of their wonderful teardowns with the Switch, identifying many of its supporting chips and confirming that the “HD Rumble” motor is indeed a linear actuator, though oddly enough one that works on its short axis instead of its long axis.

Meanwhile thanks to some proxy shenanigans, I’ve been able to get the Switch to run some of our JavaScript benchmarks. The console ships with an integrated, stripped-down version of WebKit for use with various web services, though there’s no proper web browser exposed to the user. However this stripped-down browser clearly isn’t meant for full-on web browsing; with a Kraken 1.1 run time of 172-thousand milliseconds (~2% the throughput of a Tegra-based Pixel C), I suspect the browser isn’t even doing native JS compilation and instead is doing interpretation. So at least for the moment, there’s not much in the way of meaningful benchmarking that can be done.

Nintendo Switch: Playing With Power

However one area that I have had some success with is power measurement. And this is another area where the Switch is a bit of an odd duck, leading to some confusion around the Web judging from some of the comment posts I’ve seen elsewhere. USB Type-C has been shipping in devices for a couple of years now, so it’s hardly a new standard, but given the slow upgrade cycle of PCs and smartphones it still isn’t an interface that the majority of consumers out there have dealt with. Furthermore due to its use case as a game console, the Switch is unlike any other USB Type-C device out there (more on this in a second). So I opted to spend some time profiling the device’s power consumption, in order to shed some light on what to expect.

First off then, what makes the Switch such an odd duck here? This is merely anecdotal, but one of the big hang-ups I’m seeing is that a lot of people aren’t accustomed to using what’s essentially a high-power tablet that’s running at fill-tilt at all times. The secret to the long battery life (and clockspeed turboing) of the iPad and other tablets relative to their size is that they spend the vast majority of their time idling. It doesn’t take a lot of energy at the SoC level to display text or watch a video; the SoC is only called on in short bursts to render something before it goes back to sleep. The Switch, on the other hand, spends the vast majority of its time gaming, meaning the SoC is frequently in its highest power state.

The fact that the Switch lives most of its life at two extremes – asleep or running at full speed – means that it’s a bit unintuitive what to expect from it when it comes to power consumption. Or, for that matter, what to expect when charging it. So, in what’s ultimately an excuse for me to play with a new toy, Satechi’s USB Type-C power meter, I’ve been profiling the power consumption between the Switch and its AC adapter. As a bit of a heads up, the Satechi meter isn’t perfect – the device has to draw a bit of power itself – so if I wanted to be more rigorous about this I’d need to do a proper multimeter setup. But for some quick testing, Satechi’s meter works well enough, especially given the fact that its own power consumption is a drop in the bucket compared to the Switch’s.

Finally, looking at the specifications of the Switch, there are two numbers I want to point out. The first is the power rating of the console’s AC adapter: 15V @ 2.6A, or 39 Watts. This power adapter is quite powerful, more powerful in fact than the 29W adapter Apple includes with the modern 12-inch MacBook. Meanwhile the second number I want to point out is stamped into the bottom of the dock, and that’s the output power rating of the USB-C male port built into said dock for the Switch to connect to. It’s only rated for 15V @ 1.2A, for a total of 18W.

The difference between the two is due to the fact that the Switch dock itself plays host to 3 USB Type-A ports, including a USB 3.0 port on the rear. As a result the power adapter for the Switch apparently needed to be quite a bit oversized to ensure that it never faces a load larger than it can handle. Besides running the Switch, it also potentially needs to be able to power a USB hard drive and charge a couple of Pro Controllers, all of which can add up quickly. Consequently it’s the Dock’s output rating of 18W that’s the more meaningful number as far as Nintendo’s own specifications go.


The Switch's Dock (Image Courtesy iFixit)

Anyhow, that’s enough rambling on background information. Let’s look at the power numbers.

Power Consumption: By the Numbers
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  • OCedHrt - Monday, March 6, 2017 - link

    Doesn't quick charge power banks also provide more than 5V?
  • Ryan Smith - Monday, March 6, 2017 - link

    Quick Charge is a proprietary standard not supported by the Switch.
  • psikick - Tuesday, March 7, 2017 - link

    Just sharing that Nathan K. (who has been doing analyses of various USB-C peripherals now) found a few flaws with the power bank (although he does note that it works, there are just quirks). However, he advises to avoid using the charger that comes with the power bank as it is potentially dangerous (says they should be recalled).

    https://plus.google.com/102612254593917101378/post...

    and

    https://plus.google.com/102612254593917101378/post...
  • jhoff80 - Monday, March 6, 2017 - link

    FYI, the Switch also supports the (now optional in USB-PD 2.0) 12V profile.

    But also, I would recommend a lot of caution with the Satechi meter. The build quality on it is terrible - so terrible in fact that the plastic trim on the inside of the USB-C port on mine broke off inside my Switch.
  • Ryan Smith - Monday, March 6, 2017 - link

    Thanks. I don't have any 12V devices around, but it's good to know.

    As for the Satechi, yeah, it's not the greatest in terms of build quality. Though I haven't had anything close to what you've described happen, thankfully.
  • jhoff80 - Monday, March 6, 2017 - link

    Yeah, luckily I was able to use a tiny pair of tweezers to get the plastic out of the USB-C port without damaging the center board in the female USB-C connector, but it was definitely making me curse the fact that USB-C doesn't use a lightning style design with the board on the cable.
  • Schmov17 - Monday, March 6, 2017 - link

    Ryan, I would try testing the Switch with a non-Apple USB-C>Video adapter. From my experiences with the Apple adapters, I believe that they have some kind of built in authentication feature that can tell when it is connected to an Apple device, and does not function when connected to a non-authorized (non-Apple) device.
  • jhoff80 - Monday, March 6, 2017 - link

    I've tested with a Huawei MateBook 'MateDock' (2 USB, HDMI, VGA, Ethernet, and PD passthrough), the Aukey USB-C dock (3 USB, HDMI, and PD passthrough), and an LG 27UD88 (USB-C monitor). The Switch only works with the Switch's own dock. Presumably it's using USB-C's vendor-specific signaling or something of that sort.
  • Schmov17 - Monday, March 6, 2017 - link

    Good to note, thanks
  • phoenix_rizzen - Monday, March 6, 2017 - link

    From the article:
    "In short, PD 2.0 defines 5 voltages: 5V, 9V, 15V, and 20V."

    That's only 4 voltages. What's the fifth?

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