High-performance, compact, fanless, fully rugged convertible notebook with superbright 12-1-inch wide-format display and 5-year warranty (by Conrad H. Blickenstorfer -- photography by Carol Cotton -- view PDF version)
Note: On December 12, 2012, Getac announced the introduction of the next generation of its V200 fully rugged convertible tablet that can be configured with third-generation Intel Core processors (either the 2.6 GHz Core i5-3320M or the 2.9 GHz Core i7-3520M) with vPro technology. In Getac's testing, the new V200 is 177% faster than the predecessor model. Graphic performance, in particular, is significantly improved. RuggedPCReview.com will be testing the new version as soon as it becomes available.
If you need a rugged, versatile notebook computer that's still compact enough to carry around in the field, the Getac V200 should be on your short list. It's a slightly larger version of Getac's V100 with whom the V200 shares concept, design and most of the technology. The primary differentiator between this Getac machine and a standard notebook is that its pivoting display hinge allows the unit to be used either as a notebook or as a tablet. The primary differences between the V200 and the V100 are screen size (12.1-inch wide format versus 10.4-inch standard format) and positioning (performance versus economy). Added to the Getac lineup of rugged mobile computers in September of 2010, the V200 builds on a very mature, field-tested platform that includes an exceptionally bright 1200 nits display available with either resistive multi-touch (i.e. it can be used even with gloves on) or a dual mode combination of touch and electromagnetic digitizer.
(Click picture to see the V200 getting hosed.)
Though it can be used as a tablet, the Getac V200 is not a newly introduced rugged iPad competitor. Its concept goes back to Microsoft's 2001 Tablet PC initiative that was meant to resurrect earlier pen computing technologies. The Tablet PC was originally supposed to be just a tablet, but then Microsoft felt the appeal of a convertible notebook computer would probably be wider. While not being a great commercial success, convertible notebooks did find a market niche, one that caused first Panasonic and then Getac to offer ruggedized versions. And now, with tablets and touch taking center stage, there is increased interest in convertible notebooks as well, enough for Getac to offer this updated version with a wide screen, multi-touch, and state-of-the-art electonics.
The picture series below shows how convertible notebooks such as the Getac V200 work: the display has a special hinge that lets you rotate it and then fold it down, with the LCD screen facing up. This way you have the best of both worlds—a regular notebook when you need it, and a tablet computer when that form factor works better.
There is no doubt that the convertible design of the V200 adds flexibility and versatility to its operation. Notebook computers are notorious for being unwieldy to use on the go. Being able to rotate the display comes in handy when you quickly want to show someone what's on the screen without having to reposition the whole notebook. By turning the display 180 degrees, the V200 can be used to make presentations without the keyboard being in the way. Finally, by folding the display flat on top of the keyboard, the V200 becomes a tablet—albeit a fairly thick and heavy one.
Where does the Getac V200 fit in?
The GETAC V200 is a tough and rugged notebook computer that provides flexibility and a lot of computing power in a compact package. Its footprint of 12.4 x 8.7 inches is barely larger than that of a standard sheet of paper. Despite its considerable ruggedness, it's under two inches thick and weighs less than seven pounds. That's a couple of pounds less than what is considered "full size" rugged notebooks such as Getac's own B300 or its nemesis, the Panasonic Toughbook 31. Interestingly, the V200 is barely larger and heavier than the V100.
Since mobile computers in this class spend a lot of time on the road and away from electrical outlets, the V200 has a very powerful 90 watt-hour battery. Manufacturers often configure such notebooks with low-power processors to stretch battery life, but Getac gave the V200 a muscular 2GHz Intel Core i7-640LM CPU. More on that later.
On the display side, the V200 has a nicely-sized wide format 12.1-inch LCD with an exceptionally bright LED backlight. It can be boosted up to a stunningly bright 1,200 nits. That's compared to about 200 nits in a standard consumer notebook. Getac offers the V200 with either a pressure sensitive touch screen, a multi-touch screen that can be operated even with gloves on, and also a dual mode touchscreen that combines pressure sensitivity with an active digitizer. Our review unit came with Microsoft Windows 7 Professional, and Getac offers numerous configurations and options.
Overall, the V200 is a niche/combination product that addresses multiple needs. It offers ruggedness, fairly small size, the touch screen, and the ability to use it as a tablet.
Taking a closer look at the V200
Like the V100, the Getac V200 is a ruggedly handsome device. Its case is made of magnesium alloy with hardened plastics along the edges and small rubber bumpers in the corners for extra impact protection. The plastic parts are black, the magnesium alloy finished in a military-style dark gray. Form very much follows function on this machine. Small black Philips screws are left visible, structural elements likewise, and it all comes together in a design that exudes toughness and purpose but also looks good enough to win design awards. Getac did an excellent job here.
Good industrial design also means attention to detail, ergonomics, ease of use, and applying common sense, and of that the V200 displays plenty.
An example is the V200's cover latch. Most rugged notebooks have some sort of latch or mechanism that makes sure they doesn't open inadvertently. That can be done via springloaded latches, levers, snaps, guides or bolts. With a convertible notebook it gets more complicated because you need to be able to secure the display whether it faces up or down. Here. Getac used a very clever tension-loaded latch that, once secured, reliably keeps the LCD lid in place. The latch works the same way whether the screen is facing up or down. Securing the latch is a manual operation; it doesn't just happen automatically. That's good because sometimes you may not want the lid to be secured, like when you need to open and close it frequently or when you wear gloves that would make it difficult to operate a small latch or release.
Getac also did a nice job protecting the V200's ports and connectors. Many rugged devices use a single door to cover a whole bank of connectors. That makes little sense as you often need just one, so why expose the rest? The V200 has separate rubber/plastic covers for almost every port. An ear on top serves to open a cover. To close one you push it in and friction keeps it in place. Each is clearly marked with a large white icon. Should one break or rip off, it is easily replaced. Just undo two Philips screws to take the old one off and replace it.
Next on the list of well-designed details is the rotating display hinge. The hinge needs to be tough and sturdy, and it is. But it also needs to solve a vexing characteristic of this sort of hinge: if you use a pen or stylus to navigate or tap the display while the computer is used as a notebook, the display must not flex back or else using the pen becomes an exercise in frustration. Almost all convertible notebooks suffer from that syndrome. The V200 does not. Somehow the Getac designers found a way to make the hinge stiff enough to preclude virtually all flex. A drawback is that you can only turn the hinge counter-clockwise. That means you can't rotate the display so someone sitting to your left has a better view, and often you try rotating the wrong way.
Yet another good design solution is the stylus that comes with the touch screen version of the V200. It telescopes from 2-1/2 to 5 inches, can be tethered to the computer so you don't lose it, and it neatly fits into its own garage below the LCD. That way you can see it and, if it isn't tethered, the likelihood of losing it is much lower.
One area where the V200 has it all over the V100 is the keyboard. That's because the V200's ever-important QWERTY part of the keyboard is 100%-scale, and not just 94%-scale as is the V100's keyboard (that one used to be 100% also, but was changed in a recent revision). Touch typists and even those who hunt-and-peck will be thankful to Getac! We also like the large white letters on black, the excellent tactile feedback, and the clear markings that provided all the necessary information without looking cluttered. We also liked the keyboard backlight. An optional backlit waterproof mechanical membrane or rubber keyboard is available as well.
And below is a look at the V200 from the top and from all four sides:
Note that the V200 has a 2-megapixel camera that's cleverly integrated into the top of the LCD case and can rotate by 225 degrees so you can point it forward or backward (though it's primarily designed this way for easy adjustment while video conferencing). There's a front-facing speaker and five physical pushbuttons. The pushbuttons have the following functions:
Launch the Getac utility
Toggle the backlight between full bright and manual/light sensor control
Turn radios on and off
Alt-Ctl-Del
Bring up the onscreen keyboard
Note that screen rotation does not automatically reconfigure the touch pad as well (no biggie as you won't use the touchpad in tablet mode).
The backside (above) has, from left to right, separate audio output and microphone connectors, a USB port, a Kensington lock, and standard VGA and serial connectors.
Above is the left side of the V200, with ports opened. From left to right are the power connector, a USB 2.0 port and a combo USB/eSATA port, RJ11 modem and RJ45 gigabit LAN jacks, and the card slot compartment that can accommodate a PC Type II card and an ExpressCard 34/54 or one PC Card and one Smart Card slot. Below that is a SD Card slot.
The right side provides access to the battery and hard disk compartments. Both of those doors have push levers that can be locked in place so they do not open inadvertently.
Performance
Apart from the size and aspect ratio of the display, what sets Getac's two convertible notebooks apart most is processing speed.
Whenever designing a notebook computer, product planners must decide what level of performance it should provide. Everyone likes high performance, but high performance means either a larger battery or less battery life, and it means more heat, which may make a fan necessary. Less performance means longer battery life and less heat, but then the machine may be considered to be too slow. The challenge is to find just the right balance between performance, size, weight, battery life and heat generation for a particular product.
When Getac updated the V100, they decided that since the V100 would likely be used in the field most of the time, long battery life was the highest priority. So throughout its life and several tech updates, the V100 platform always used low voltage and ultra low voltage processors. In early 2010 Intel introduced the Core i3/i5/i7 processors that brought higher performance, newer technology, better integration, improved efficiency, and smaller package sizes. And, as shown in the image above, the package now combined two chips, one of them handling graphics. For the V100, Getac chose the ultra low voltage Core i7-640UM with a thermal design power of just 18 watts, a very frugal processor with a base clock speed of 1.2GHz, but that can operate at speeds up to 2.26GHz in turbo mode (Intel's turbo mode allows the chip to incrementally overclock itself if certain conditions are met). Even with the i7 processor, the V100 still didn't need a fan, a potentially big advantage as fans can be noisy and a source of failure.
When the V200 came out, we were quite amazed to see that it used a considerably quicker processor, the i7-620LM with a base clock speed of 2.0GHz, 67% higher than that of the i7640UM. This is what Intel calls a "low voltage" as opposed to an "ultra-low voltage" chip, with a thermal design power of 25 watts. The V200's chip also has a higher maximum Turbo frequency of 2.8GHz, it can use faster memory, and its graphics subsystem runs faster (266 vs 166MHz). Amazingly, despite the more powerful chip, the V200 still doesn't need a fan!
In order to get a sense of where the V200's performance level stands compared to the V100, to Getac's full-size fully rugged B300 that uses the same chip as the V200, and a number of competitors, we installed Passmark Software's PerformanceTest 6.1 that runs about 30 tests covering CPU, 2D graphics, 3D graphics, memory, and disk and then computes scores for each category and an overall PassMark score. We also ran our second benchmark suite, CrystalMark. The results are below:
Getac V200 Benchmarks and Comparisons
PERFORMANCE COMPARISON
Getac
Getac
Getac
Dell
Fujitsu
GD-Itronix
GD-Itronix
Panasonic
Model
V200
V100
B300
Latitude XT2
Lifebook 4410
GD6000
GD8000
CF31
Processor Type: Intel
Core i7
Core i7
Core i7
Core 2 Duo
Core 2 Duo
Core 2 Duo
Core 2 Duo
Core i5
Processor Model
620LM
640UM
620LM
SU9400
P8700
T9400
SL9400
540M
CPU Speed
2.00GHz
1.2GHz
2.00GHz
1.40GHz
2.53GHz
2.53GHz
1.86GHz
2.53GHz
Turbo Speed
2.80GHz
2.27GHz
2.80GHz
NA
NA
NA
NA
3.06GHz
Thermal Design Power (TDP)
25 watts
18 watts
25 watts
10 watts
25 watts
35 watts
17 watts
35 watts
BatteryMon min draw
10 watts
12 watts
9 watts
9 watts
10 watts
14.5 watts
9.6 watts
12 watts
CPU Mark
962.5
768.6
926.6
864.0
1,579.8
1,538.8
1,185.5
997.3
2D Graphics Mark
269.2
208.9
258.3
182.0
256.3
294.8
102.1
263.1
Memory Mark
646.0
493.3
629.5
356.3
615.9
696.8
559.0
727.0
Disk Mark
1,431.2
543.4
575.1
465.4
493.8
378.0
372.6
590.4
3D Graphics Mark
265.1
250.1
272.7
107.9
170.4
180.7
52.7
487.5
Overall PassMark
731.9
462.2
547.4
428.9
716.6
679.5
518.8
613.5
ALU
26,366
20,247
26,187
13,795
24,573
24,808
18,527
34,258
FPU
26,235
19,347
25,170
13,171
27,529
26,781
19,617
37,321
MEM
22,755
16,130
21,810
9,677
12,402
16,651
14,381
24,657
HDD
25,272
9,419
8,668
17,344
9,572
6,920
7,109
8,950
GDI
8,062
6,742
8,560
4,811
7,720
7,966
6.947
6,300
D2D
1,670
1,450
1,819
1,027
1,738
3,566
3,100
1,530
OGL
2,155
1,734
2,208
1,210
2,126
1,936
1,552
11,318
Overall CrystalMark
112,515
75,069
94,422
61,035
85,660
88,628
71,233
124,334
What do the benchmark results show? In essence that the Getac V200 is a superb performer. It scored the best overall PassMark result of any machines in the lineup, besting even the Panasonic Toughbook 31. It also beat Getac's own B300 rugged notebook, primarily on the excellent performance of its speedy 320GB hard disk.
The V200 also scored exceptionally well in the CrystalMark benchmark suite where it was only beaten by the Toughbook 31, a machine with a very fast standard voltage (35 watt) processor that also includes discrete graphics. Judging by our benchmark results, the V200 scores about 40% higher than the V100. That is a very noticeable difference.
Note that benchmarks are only guidelines. They are influenced by processor architecture, graphics subsystems, storage subsystems and numerous other factors, and they always seem to favor certain configurations over others. The overall scores, however, are usually very good indicators of real life performance. While the V200 was doubtlessly aided by its superfast disk, this is a very quick and well implemented and optimized machine.
High performance and long battery life?
The big question when comparing the V100 and V200 is how the V200's significantly more powerful processor will affect battery life. In general, that's one of the difficult tradeoff decisions rugged systems designers must make.
The V200 has a very high capacity 86.6 watt-hour Li-Ion smart battery, and we used Passmark's BatteryMon to test battery draw under different conditions and see what battery life users may expect.
First we set the machine to all-out economy mode (ECO mode on, Windows power management to Power Saver, the screen turned down as much as possible, and Bluetooth and WiFi off). This way, idle battery draw was pretty consistently around ten watts. That's an excellent result for such a powerful machine. It's in line with the Getac B300 we tested, but actually lower than the minimal draw we observed on the V100. This would translate into battery life of almost nine hours. Interestingly, setting the Windows power scheme to Balanced or High Performance didn't make much of a difference in idle power draw, which remained at around ten watts. Even turning WiFi on hardly made a difference.
Setting the V200's very powerful backlight to maximum via push button, on the other hand, boosts draw to about 24 watts (or a theoretical battery life of 3.6 hours), showing the tradeoff between strong backlight and battery life, and how important it is to keep an eye on backlight settings when using the computer outdoors. This is why Getac wisely offers both the hardware button to instantly set the backlight to its full 1,200 nits, and also programmable light sensor control.
To see maximum power draw, we set brightness to maximum, all systems on, and then ran 1080p video. That way, the V200 needs 30 watts, which translates into just under three hours of battery life. Note that real world performance, of course, varies.
Also worth mentioning is that Getac now offers a "LifeSupport" battery swapping system where you can put the machine into standby mode and then replace the depleted battery for a freshly charged one within two minutes.
Communications
Like most modern mobile computers, the V200 is a well connected machine. For wired network connectivity there is gigabit Ethernet (10/100/1000base-T). On the wireless side you get Class II Bluetooth EDR (Enhanced Data Rate) Version 2.1 and the Centrino Advanced-N 6200 chipset that provides 802.11a/b/g/n WiFi.
A GPS module is optional (and it's now possible to have both GPS and the camera; in older versions of the V100 platform it was either one or the other).
The V200 can be ordered with a Gobi 2000 module for complete wireless technology and carrier independence. The V200 has room for internal antennas for those Wireless Wide Area networks inside the black protective end caps to the left and right of the LCD case.
Gobi stands for Global Mobile Internet technology, and is a Qualcomm wireless technology that supports the various wireless networking standards around the world, so users can select whatever carrier is available to them (see Qualcomm page on Gobi). Gobi 2000, in addition to current wireless technologies, also supports emerging 4G standards. With a Gobi module installed, there is no more need to physically switch out various single-module, carrier-specific modems to select a different carrier. With Gobi, V200 users in the US can access AT&T, Sprint and Verizon Wireless networks with one wireless device, and select or change to the best carrier for any geographic area.
Ruggedness
Getac classifies the V200 as "fully rugged" and states it is "performing flawlessly under extreme working environments where weather conditions and physical abuse are unavoidable." On its website, Getac offers a series of videos that show ruggedness testing being performed on its machines. The V200 isn't up yet, but the V100 is, and the testing is the same (see Getac's ruggedness testing video page).
But let's take a look at individual ruggedness testing categories:
IP ratings refer to Ingress Protection standards for electrical enclosures, with the first number describing the protection level against solids and the second protection against liquids. The V200's IP65 rating means total protection against dust and protection against low pressure water jets from all directions.
In terms of temperature resistance, the V200 can operate between temperatures of -4 to +140 degrees Fahrenheit, in accordance with MIL-STD-810G, 501.5 Procedure II and 502.5 Procedure II. The computer also passed non-condensing humidity testing up to 95% per MIL-STD-810G, 507.5 Procedure II, and can operate in altitudes up to 15,000 feet (and obviously in aircraft with pressurized cabins) per MIL-STD-810G, 500.5 Procedure II.
The device is RoHS-compliant. RoHS stands for Restriction of Hazardous Substances and regulates the use of certain hazardous substances in electronic equipment. The RoHS standard is fully implemented in Europe, with lesser restrictions applying in the US.
Shock, vibration, drop and ESD resistance are all tested according to MIL-STD-810G and other relevant regulatory procedures. Not all results are in the promotional literature or owner's manual, so inquire with Getac for specifics and also check Getac's MIL-STD-810G compliance testing table (see here).
With respect to the ever important drop spec, the situation isn't clear. Getac's web page specs don't mention a particular drop height, Getac's certification page states that MIL-STD-810G Method 516.6 requires 26 drops from four feet, but the testing video specifically shows drops from three feet. Getac's MIL-STD-810G compliance testing table also indicates a drop from three feet, but also states the unit passed "Transit Drop Total 78 continuous drops, 516.6 Procedure IV from 48 to 72 in height." And the V200's manual states a "100cm drop 26 times onto plywood plate surface," and that would be 3.3 feet. Why would we suggest a more definite and consistent answer? Because when designing the drop tests, the US military figured that if you drop something while standing, it'll drop about four feet, as opposed to something that falls off a table or counter, which is 2.5 to three feet. Since users will carry the V200, survival drop height is important.
Finally, note that GETAC offers optional UL 1604 certification that allows safe, spark-free use of the V200 in potentially explosive environments typically found in the oil and gas, petrochemical, aviation and related industries.
Security
Security is addressed via a combination of hardware and software measures, including a finger print reader (optional), a Smart Card reader, TPM 1.2, a cable lock slot, Intel security technologies available through the new i7 chip, as well as BIOs, password and software utility settings.
We're not sure if Getac implements it, but one of the most useful technologies available through the Intel Core i7 processor is vPro, an Intel technology platform that allows remote access to a PC regardless whether the computer is booted up or the power is even on. It is intended to allow remote management, monitoring and maintenance while maintaining strict security measures.
Super-bright 1200 nits "QuadraClear" display
Most rugged notebooks will be used outdoors and sometimes in bright, direct sunlight. Standard transmissive LCD displays, however, wash out in daylight, and that's why over the past few years, sunlight-readability has become a major selling point in the rugged notebook sector. RuggedPCReview's former technology editor, Geoff Walker, explained:
"There are really only two practical methods of making a notebook screen readable outdoors: (a) crank up the brightness (measured in nits, which is display-industry slang for "candela per meter squared", or cd/m2) to the point where the light emitted by the screen is sufficiently greater than the ambient light reflected by the screen, or (b) treat the surface of the screen so it reflects muchless light, which again allows the emitted light to exceed the reflected light."
As a result, all major rugged notebook makers have introduced their own sunlight-viewable technologies. Getac calls theirs QuadraClear (see brochure). The term "QuadraClear" stems from the four elements that comprise the technology: a very bright backlight, anti-reflective coatings, linear polarizer, and circular polarizer. All the major players use those technologies, and the difference boils down to a) backlight brightness and b) the extent to which the expensive optical coatings are applied and how the various layers are bonded (the fewer reflective surfaces, the better).
It's difficult to objectively quantify the impact of all those optical treatments but Walker stated that the best currently achievable compound reflectivity is about 0.9% for a touch screen display, meaning that about 0.9% of incoming ambient light is reflected. Assuming this is so, all else being equal, display backlight power then determines the all-important effective contrast ratio which then translates into the degree of real world outdoor readability.
GETAC's solution for the V200 employs both methods—QuadraClear and increased screen brightness—for superb sunlight viewability. A super-bright 1,200 nits LED-based display backlight replaces the older CCFL illumination still occasinally found in rugged hardware. There are several advantages to an LED backlight: LEDs are less diffused, they are power-efficient, they are flexible and more reliable, and they allow mercury-free solutions. And 1,200 nits is incredibly bright compared to the 200 nits or so of a standard consumer notebook.
The pictures below highlight the considerable outdoor qualities of the V200's display compared to an older standard Gateway notebook that we use around the office.
The first picture below shows the two machines side by side outdoors on an overcast, but bright California spring day. Even though the V200 isn't even set to its highest brightness whereas the Gateway is at max brightness, its substantially more powerful backlight is instantly noticeable. The biggest difference is in the reflections off the screen. The Getac has none whereas the Gateway's "gloss" display becomes a mirror. The picture below shows the same scenario, but with the V200's backlight set to full 1,200 nits brightness. It's so bright that it was actually too much for that overcast day, but it shows just how bright the V200 display is.
The two pictures below show the machines viewed from angles. The V200 display is completely unaffected and perfectly readable whereas the glossy Gateway display becomes useless due to all the reflections and the much weaker backlight.
The situation is no different from the other side: again the V200 dislay is rock-solid and totally readable whereas the comparison display is only marginally viewable.
The horizontal and vertical viewing angle of a display represents a very important property. If the angle is too small, you constantly have to reposition the computer for best viewability. The V200 has a near perfect horizontal viewing angle. The vertical viewing angle is much narrower, and varying the vertical angle results in color shifts that can be distracting when using the computer.
Getac offers a night vision option that wasn't installed on our system. It lowers brightness to a near-imperceptible 1.7 nits, meeting MIL-STD-3009 requirements. That option comes in handy when the computer must be operated in situations where you do not want to be seen or attract attention.
Optional: Multi-touch that works with gloves on
Standard touch screens only recognize one input at a time, which is exactly what's needed for tapping or writing with a stylus. Today's smartphones and media tablets, however, use capacitive multi-touch technology that recognizes multiple inputs to zoom in and out, pan, and rotate things. With tens of millions of those phones and tablets in use, many now expect multi-touch functionality. The problem is that projected capacitive touch technology as used on the Apple iPad can neither be used with pens (which are often useful/required in Windows-based systems) nor does it work with gloves on (and gloves are often needed on the job).
On the V100 and V200, Getac offers multi-touch that works with gloves on. The way they do it is by using a modified resistive touch technology that subdivides the display into a matrix with a total of 154 zones, and the system can recognize input from two of those zones at a time. That makes the Getac system dual-touch without losing the inherent advantages of resistive touch, i.e. the ability to use a stylus or even operate the display with gloves on.
For a more detailed description of the Getac "glove-friendly" multi-touch system, check here. Implementing multi-touch with resistive rather than capacitive technology has its limitations, but it does work. It can be used for both single and dual-touch gestures, and may work best with vertical market custom apps specifically designed for the technology.
Utilities
In the field, quick and easy access to often-used functions and applications is imperative. To make this possible, Getac included a variety of useful utilities. Below are screen shots of four of those utilities. They are, clockwise from the top left:
G-Manager -- a control panel that provides a system overview, complete battery stats, ECO mode info and settings, light sensor configuration, ignition configuration for systems using vehicle power, status monitoring, and GPS information.
Button Manager -- lets you configure/re-configure the V200's five hardware buttons and assign either standard or user-define functions.
Getac Utility -- a full-screen quick status and configuration utility that lets you turn wireless on and off, adjust brightness and sound, do one-touch access to major apps, and brings up some of the Windows control panels.
Getac Camera -- a handy and very simple app that lets users control the V200's integrated rotating camera. You can set image storage location and naming conventions, brightness, contrast, hue, night mode, capture mode, shutter sound, white balance, and more. You can also get GPS information (if the computer has GPS), view stored images, etc. One thing we'd like to see here is the ability to flip the image vertically so you don't have to look at the picture upside down when you rotate the camera from facing from you (like for video conferencing) to away from you.
Summary: Getac V200
The Getac V200 is a compact rugged mobile computer with a very bright 12.1-inch wide-format display. It can either be used as a standard laptop or, by rotating the display, as a tablet PC.
Equipped with a fast 2GHz (up to 2.8GHz with Turbo Boost) Intel Core i7-620LM processor, the Getac V200 provides excellent performance in this class while still offering very good battery life. It also has a large 320GB serial ATA hard disk that's both fast and very quiet, gigabit Ethernet, USB and eSATA ports, fast wireless PAN and WAN implementations, SD Card reader and an integrated camera.
Like all Getac units, the V200 uses advanced thermal design to keep heat buildup at an absolute minimum. Heat pipes and the sturdy magnesium alloy case keep the computer cool and alleviate the need for a noisy fan—a remarkable accomplishment in a machine this powerful.
Customers can specify an optional Gobi 2000 module for technology and carrier independent wide area wireless communication, add an integrated GPS receiver, and an optional Smart Card reader.
The "QuadraClear" sunlight-readable technology with its 1,200 nits LED backlight and circular polarizers offers excellent outdoor viewability, though we'd like a better vertical viewing angle. Depending on the type of deployment, there are several touch and digitizer options (pressure, multi-touch, pressure and digitizer).
In everyday use, the V200 excels thanks to an optimal balance between performance, long battery life, good ergonomics, silent operation, a very good display and a high quality feel.
GETAC V200 highlights:
Excellent industrial design with quality look and feel
Excellent performance
Convertible design allows use as notebook as well as tablet PC
Fanless design for silent running, yet does not heat up
Various display and digitizer options with superbright QuadraClear sunlight-readable technology
Compact size
Each port and interface has its own protective cover
Rugged enough for tough jobs
Useful options: adjustable camera, Smart Card, fingerprint scanner, data networks
Shock-mounted SATA 320GB HDD; optional 80 or 160GB SSD; optional -4F low-temperature for hard disk, optional SSD 500GB SAT HDD; optional SATA 128/256GB SSD
Expansion slots
1 PC Card Type II, 1 ExpressCard 34/54, 1 SD Card, SIM (in RAM compartment); optional smart card reader can replace ExpressCard slot
Housing
Magnesium alloy, sealed ports
Size
12.4 x 8.7 x 1.9
Weight
6.8 lbs. as tested, with battery
Operating temperature
0° to 140°F (-20° to 60°C); low temperature option with -4° to 160°F (-20° to 71°C)
Ingress protection
IP65
Drop
3.3 foot (100cm) drop 26 times onto plywood plate surface
Vibration
According to IEC 68-2-6 / MIL-STD-810F, Method 514.5
ESD
Air discharge: 0~8 KV (included) no error; 9~15 KV allow soft error Contact discharge: 0~6 KV (included) no error; 7~8 KV allow soft error
EMC
FCC part 15, subpart B, class B, CE, CCC, BSMI
Intrinsic safety
Optional UL1604 certification available for units that will operate in potentially explosive environments typically found in the oil and gas, petrochemical, aviation and other industries.
1 USB 2.0, 1 USB 2.0/eSATA combo, RJ11, gigabit RJ45, 1 Serial RS232, dock, audio in/out, video (VGA), integrated 225 degree reversible 2-megapixels camera, fingerprint scanner
Wireless
802.11q/b/g/n WiFi (Intel Centrino Advanced-N 6200) with two internal antennas (pass-through for external antenna option) Triple band support 2.3~2.7, 3.3~3.8, 5.1~5.8 GHz; Bluetooth V2.1 + EDR Class 1, optional: GOBI 2000 and GPS
Getac also did a nice job protecting the V200's ports and connectors. Many rugged devices use a single door to cover a whole bank of connectors. That makes little sense as you often need just one, so why expose the rest? The V200 has separate rubber/plastic covers for almost every port. An ear on top serves to open a cover. To close one you push it in and friction keeps it in place. Each is clearly marked with a large white icon. Should one break or rip off, it is easily replaced. Just undo two Philips screws to take the old one off and replace it.
So throughout its life and several tech updates, the V100 platform always used low voltage and ultra low voltage processors. In early 2010 Intel introduced the Core i3/i5/i7 processors that brought higher performance, newer technology, better integration, improved efficiency, and smaller package sizes. And, as shown in the image above, the package now combined two chips, one of them handling graphics. For the V100, Getac chose the ultra low voltage Core i7-640UM with a thermal design power of just 18 watts, a very frugal processor with a base clock speed of 1.2GHz, but that can operate at speeds up to 2.26GHz in turbo mode (Intel's turbo mode allows the chip to incrementally overclock itself if certain conditions are met). Even with the i7 processor, the V100 still didn't need a fan, a potentially big advantage as fans can be noisy and a source of failure.
The big question when comparing the V100 and V200 is how the V200's significantly more powerful processor will affect battery life. In general, that's one of the difficult tradeoff decisions rugged systems designers must make.
In terms of temperature resistance, the V200 can operate between temperatures of -4 to +140 degrees Fahrenheit, in accordance with MIL-STD-810G, 501.5 Procedure II and 502.5 Procedure II. The computer also passed non-condensing humidity testing up to 95% per MIL-STD-810G, 507.5 Procedure II, and can operate in altitudes up to 15,000 feet (and obviously in aircraft with pressurized cabins) per MIL-STD-810G, 500.5 Procedure II.
As a result, all major rugged notebook makers have introduced their own sunlight-viewable technologies. Getac calls theirs QuadraClear (see 
With tens of millions of those phones and tablets in use, many now expect multi-touch functionality. The problem is that projected capacitive touch technology as used on the Apple iPad can neither be used with pens (which are often useful/required in Windows-based systems) nor does it work with gloves on (and gloves are often needed on the job).
Equipped with a fast 2GHz (up to 2.8GHz with Turbo Boost) Intel Core i7-620LM processor, the Getac V200 provides excellent performance in this class while still offering very good battery life. It also has a large 320GB serial ATA hard disk that's both fast and very quiet, gigabit Ethernet, USB and eSATA ports, fast wireless PAN and WAN implementations, SD Card reader and an integrated camera.
