Introduction

While I talked about Motorola’s issues in the launch article for the new Moto X, it’s well worth repeating. Motorola has been through a lot these past few years. Once the iconic symbol of Android with their Droid smartphones, Motorola had lost its way. It wasn’t unusual to see one phone launch after the other, with no real regard for strategy, and no real cohesive message to tie all of their devices together. If anything, there was a point where Motorola had become an ODM for network operators in the US, with no real international presence. After Google acquired it in 2012, we saw the launch of the Moto X in 2013. The amount of hype that I saw online before the announcement of the Moto X was unlike anything I’ve ever seen.

Unfortunately, the device that launched didn’t quite fit with the hype. The Snapdragon S4 Pro chipset was decidedly mid-range by the time it launched. The display was good for the time, but AMOLED wasn’t quite the imminent LCD replacement that it is today. The camera was also rather unfortunate at launch. For better or worse, the Moto X was a phone with the right size and shape, but a lot of hardware choices that aged poorly. This leads us to the new Moto X. On the surface, this phone corrects a lot of issues that were present in the original Moto X. The new Moto X brings an SoC that is up to par with its competition, a new camera with a Sony sensor, and an improved AMOLED panel. Of course, I’m not going to spend too much time covering the basic specifications when a table will suffice.

  Motorola Moto X (Gen 1) Motorola Moto X (Gen 2)
SoC 1.7 GHz Dual Core Snapdragon S4 Pro 2.5 GHz Quad Core Snapdragon 801
RAM/NAND 2 GB, 16/32/64GB NAND 2GB, 16/32GB NAND
Display 4.7” 720p Super AMOLED 5.2” 1080p Super AMOLED
Network 2G / 3G / 4G LTE (Qualcomm MDM9x15 IP block UE Category 3 LTE) 2G / 3G / 4G LTE (Qualcomm MDM9x25 IP block UE Category 4 LTE)
Dimensions 129 x 65.3 x 5.7-10.4mm, 139 grams 140.8 x 72.4 x 3.8-9.9 mm, 144 grams
Camera 10MP Rear Facing, 1/2.6" CMOS size (OV10820), 2.1MP FFC 13MP Rear Facing, 1/3.06" CMOS size (Sony IMX135), 2.1MP FFC
Battery 2200 mAh, 3.8V, 8.36 Whr 2300 mAh, 3.8V, 8.74 Whr
OS Android 4.4.4 Android 4.4.4
Connectivity 802.11a/b/g/n/ac + BT 4.0, USB2.0, GPS/GNSS, MHL, DLNA, NFC 802.11a/b/g/n/ac + BT 4.1, USB2.0, GPS/GNSS, MHL, DLNA, NFC
SIM Size NanoSIM NanoSIM

As with most reviews, physical impressions are always a good place to start. In terms of look and feel, the new Moto X starts off incredibly well. The metal frame is something that Motorola is especially proud of, as they've managed to enable an external antenna design without causing some of the infamous deathgrip issues. At any rate, it really feels great in the hand, especially because of the varying thickness. The metal frame can be as thin as 3.3mm in the corners, which really feels razor thin. Fortunately, the center is much thicker to provide for better grip. As a result, the phone is secure in the hand and I never really felt like I would drop it. Overall, I really think the feel of the phone is great. While the size is approaching an uncomfortable level, it manages to stay just short of it because the phone is so thin.

However, I’d like to cut this short as I’ve already given most of my initial impressions in the launch piece. While I haven’t been able to get around to writing my experience with Motorola’s tour, Motorola and their PR team have done an incredible job of introducing the product and allowing for plenty of time to get first impressions, photos, and ask all kinds of questions.

Cellular Architecture

Instead, given the amount of information disclosed by Motorola, I wanted to start this review with a discussion about cellular architecture, as it’s one of the few areas where we still seem to be working with black boxes. For those that are unfamiliar with the basics of how current RF architecture is set up, there are a few major components to talk about. We have antennas, antenna switches and duplexers, band filters, power amplifiers, a transceiver (which is made of multiple parts but that’s for another day), and the modem.

So let’s talk about what’s in the new Moto X. While antennas are still an area I’ve been working on learning more about, we can talk about band support on the Moto X. I’ve attached a table below with a full list of supported bands.

Motorola Moto X (2014)
FCC ID Operator/Region Target CDMA Bands GSM WCDMA LTE CA
IHDT56QA1 (XT1095/XT1097) AT&T/T-Mobile USA - 850,  900, 1800, 1900 850, 900, AWS, 1900, 2100 2, 3, 4, 5, 7, 17, 29 -
IHDT56QA2 (XT1096) Verizon 800, 1900 850, 900, 1800, 1900 850, 900, 1900, 2100 2, 3, 4, 7, 13 -
IHDT56QA3 (XT1092) ? 800, 1900 850, 900, 1800, 1900 850, 900, AWS, 1900, 2100 2, 4, 5, 12, 17, 25, 26, 41 -
IHDT56QA4 (XT1093/XT1094) EU - 850, 800, 1800, 1900 850, 900, 1800, 1900, 2100 1, 3, 7, 8, 20 -

What might be notable is the lack of carrier aggregation on the new Moto X, which suggests that there is only a WTR1625L transceiver inside, with no WFR1620 companion chip to go with it. This is a rather conventional configuration at this point, and I suspect that phones with support for carrier aggregation will have to wait until WTR3925 which should be in most high end phones in 2015. The modem is also common at this point, as the MDM9x25 IP block in Snapdragon 800/801 has been around since the LG G2 which launched a year ago.

Of course, the real story here is the antenna tuner which I also wrote about in the launch piece. While most of the antenna tuner is hidden from view, there is one aspect that seems to be exposed to the OS. This one aspect is Cypress Semiconductor’s CapSense controller. This sounds strange, but I don’t think there’s any other explanation for why this controller is present. While it’s normally used for capacitive buttons such as in the Samsung Galaxy S/Galaxy Note line, there are no capacitive buttons or sliders present on the phone. In addition, none of the gestures/actions seem to rely upon capacitive sensing. This seems to rely upon the IR sensor system instead, so that doesn’t make sense either. The touchscreen is definitely an Atmel solution. This leaves the antenna tuner. While a bit outlandish, it seems that this controller is capable of detecting capacitance directly in addition to determining whether a finger/hand is on the sensor or not. While I’m sure that it’s necessary for Motorola to measure the standing wave ratio/signal reflection in addition to capacitive sensing on the relevant antenna pieces, this could give Motorola’s antenna tuner an advantage in speed as the capacitive sensors could detect the change in capacitance and pre-emptively change the tuning in the antennas instead of waiting for an increase in signal reflection before attempting to retune the antenna.

Moto Voice and Moto Display
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  • knightspawn1138 - Wednesday, September 17, 2014 - link

    We all know that nobody is allowed to release a review of an Apple product until the ghost of Steve Jobs has had a chance to convince the reviewer that there's something groundbreaking about a phone that's following all the same trends as the rest of the smartphone field (bigger display, less power draw from a smaller, more efficient SoC, and more room for a larger battery). And he has yet to convince me that a smartphone is worth Apple's price without expandable memory. Reply
  • darwinosx - Wednesday, September 17, 2014 - link

    You don't know anything about iPhones.
    Most Android devices don't have expandable memory.
    The latest iPhones goes to 128GB of fast and reliable contagious memory.
    Google does not want Android phones to have expandable memory because they know it sucks.
    Why did you post if you don't know anything?
    Reply
  • sprockkets - Wednesday, September 17, 2014 - link

    Speak for yourself apple troll. All you ever do is troll any article dealing with Android.

    GFY.
    Reply
  • Kenneth2011 - Thursday, September 18, 2014 - link

    I don't think I want any contagious memory, reliable or otherwise... My own is quite enough, thank you. Reply
  • probedb - Thursday, September 18, 2014 - link

    No phone has expandable memory that I know off, you can't just put a couple of sticks of DDR3 in a phone. Some Android phones have a memory card slot, that's it. Reply
  • lypanov - Thursday, September 25, 2014 - link

    I just wanted to inform you that as blatantly nonsensical as your claims are, and as bad as the products you defend are for many use cases... it's not possible to get cooties from iPhones. Reply
  • alex2 - Friday, September 19, 2014 - link

    That is so not true. I have no idea where you get your info from.. The device is not even out for testing yet. That's the real reason. Not the shit android fanboy info you just spat out. Jesus.. That's a new low... Also, remember that you started this when it wasn't even called for. And no, I'm not an apple fanboy in case you get the idea to reply with that juvenile nonsense. Writing this from my Moto G! Reply
  • DeciusStrabo - Wednesday, September 17, 2014 - link

    Anand surely could have hooked up his old site with a few phones...

    Review embargo for pre-release phones all the sites Apple likes have gotten has been lifted today.
    Reply
  • ruggia - Wednesday, September 17, 2014 - link

    it's quite rare for Anandtech to release mobile reviews at the day of embargo lift (including this one)

    good things take time. it always has.
    Reply
  • dsraa - Wednesday, September 17, 2014 - link

    Seriously no cares that you are 'first'. Even if you are being sarcastic, which is how your comment reads, it still doesn't matter, and no-one still cares....and yes I took the time to write this, but only because I am generally annoyed at this current trend of idiots who still think commenting 'first' is actually col, and to gloat about, as if it really matters........

    Then there's the slight slight possibility that you made the comment just to annoy others, which for that I can see the valid logic. :)
    Reply

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