satellite p875 lcd panel free sample

Toshiba"s Satellite P870-30E belongs to the premium price bracket by virtue of its price. Yes it does offer a great package when it comes to hardware – a quad core i7-3610M processor, 8 GB of RAM, a Blu Ray drive and 878 GB (750 GB HDD + 128 GB SSD) of storage space. Nvidia’s GeForce GT 630Mis the GPU of choice. But having a 17.3-inch WXGA++ display in a laptop being sold for such a lot of money is disappointing. But buyers looking to get the device should pick up the machine without the SSD which should bring down the price to 1000 Euro (~$1250).

The Satellite P875 makes a rather fragile impression for a 17-inch device. The thickness of less than 3.4 cm (~1.34 in) even undercuts some 15-inch laptops. Moreover, it weighs just over 3 kilograms (~6.6 lb.). However, its footprint (417mm x 272mm) is a bit bigger than Samsung"s 550P7C. This is due to the Toshiba notebook"s wider bezel (16 mm on the sides).

We can particularly praise the exemplary build that hardly shows weaknesses even when looked at closely. Rounded case edges and flush material transitions reinforce the high-end impression that we have come to expect from a laptop of this price range. However, the Satellite P875 cannot keep up with Asus" N76VM, but does outdo the Samsung"s 550P7C.

The Satellite P875 connects to the Internet via Intel"s Centrino Wireless-N 2230 supporting the standard IEEE 802.11 b/g/n. The low-end model unfortunately only supports connections to the 2.4 GHz band. Only the Advanced-N models support the 5 GHz band. At least the user can take advantage of gross transfer rates of up to 300 MB/s owing to dual-stream technology. However, we could only record 72 MB/s in our test (could be due to our router). The range and stability make a good impression.

A small rubber cap conceals a screw that secures the laptop"s maintenance cover. The cover can be levered away carefully after the screw has been removed. Inside, there are two 2.5-inch slots which are occupied in the P875-30E. The manufacturer provides an additional mSATA slot over the Wi-Fi module that can be equipped with another SSD.

Upgrading the working memory is just as easy. The Satellite has a total of 4 slots. However, the user can only access two of them without further disassembly (2x 4 GB internal). The memory can be upgraded to a total of 16 GB when 4 GB modules are used, and up to a maximum of 24 GB using 8 GB modules.

The Satellite P875 features a chiclet keyboard including a number pad that surprises with a few peculiarities at first. The F-functions have to be triggered by simultaneously pressing the FN key. This can be disabled in the BIOS. Various deviations in the layout like the rather short space bar need a bit of familiarization in the beginning.

The touchpad"s size does not give reason for complaint. Its dimension of approximately 11 cm x 8 cm should be enough for even big hands. The input surface is a good balance of feel (lightly textured surface) and good gliding traits, which enables above-average user experience but precise mouse control. Various multi-touch gestures and other features like the palm sensor can be customized in the Synaptics driver panel. It is a bit strange that the pad hardly responds to user inputs when the CPU is fully loaded. The cursor then only jerks across the screen. We did not observe this problem when using an external mouse.

A look at the measured contrast (210:1) and black value (1.09 cd/m2) rates confirm our guess that the AUO B173RW01 V3 screen is a generic TN display. The Satellite P875 cannot compete against the Asus N76VM. The reflective surface at least gives an impression of better picture quality than it really is.

Being a consumer device through and through, our test sample is not made for the needs of professional graphic designers or photographers. The P875 just falls short of covering the sRGB color space and clearly fails in making an impact on the AdobeRGB space. You will not notice this drawback if you occasionally view or edit vacation pictures, especially since only a small number of laptops do a much better job.

Four cores and 8 threads via Hyper Threading, a 6 MB cache and a 2.3 GHz base clock (Turbo up to 3.3 GHz) are the Core i7-3610QM"s key specs. The fast processor is one of the most popular models from the Ivy Bridge range and is built using the cutting-edge 22 nanometer process. The TDP of 45 watts is 10 watts higher than in the dual-core i3 and i5 series CPUs. However, they are not available for the Satellite P875. Detailed specifications and additional features of the 3610QM can be found in our CPU database.

Toshiba equips the Satellite with up to 16 GB of working memory depending on the configuration. Our P875-30E has to be content with "only" 8 GB (2x 4 GB DDR3-1600), which will satisfy most users. Moreover, the device sports a conventional 750 GB hard disk as well as a fast 128 GB SSD. However, the latter is only installed in specific models.

The P875 finishes our CPU benchmarks without irregularities and achieves the performance rates expected from such a hardware configuration. This is by no means a matter of course since not every modern laptop is able to remain free from throttling on battery power and exploit the maximum Turbo Boost capacity completely. We accomplished 6.2 points in Cinebench R11.5 (64bit) multi-thread test and 1.38 points in the single-thread benchmark which are excellent scores for the i7-3610QM. No matter whether sophisticated video editing or the latest game, the user will not be able to complain about the processor"s lack of power at any time.

Both Asus" N76VM and Samsung"s 550P7C participate in our tests without an SSD, so it should be easy for Toshiba to outdo both contenders in the memory-heavy PCMark benchmarks. And it does so by a huge margin. With 14223 points in PCMark Vantage and 3936 points in PCMark 7, the Satellite P875 surges to the top and leaves the SSD-less competition behind with gains of 50 percent.

In view of the big price difference, tech-savvy users should consider buying a cheaper version of the P875 without the SSD and retrofitting one. This also applies to –its rivals, all 3 models offer room for a second drive, at least in principle (the 550P7C does not always include the necessary cable).

The GeForce GT 630M is an old acquaintance. The underlying GF108 chip has been installed in many multimedia laptops since 2010. Nvidia has now presented a refresh of the card scaled down to 28 nanometers (GF117 chip), but Toshiba still installs the older 40 nanometer version in its P875. Unfortunately, the manufacturer also omits the optional Turbo mode of the GeForce 600M generation and sets the core clock to 662 MHz (load). The 96 shader units clock at twice the frequency (1324 MHz) and the 2 GB DDR3 VRAM (128 bit) with 900 MHz in the Fermi card.

The new GeForce GT 650M (Kepler) model in Samsung"s 550P7C blows away the GT 630M. The Satellite also lags behind the N76VM with the same GPU due to the lack of Turbo. The advantage of Asus" notebook is roughly 15 percent (1288 to 1123 points) in 3DMark 11. The graphics card"s extreme throttling on battery power is common to both devices (3DMark 11: 319 points).

The GT 630M is frequently too low in the performance stakes to render current games in maximum details and native resolution. A resolution of 1366x768 pixels is already too much for the graphics card in Battlefield 3 and Anno 2070 forcing the user to play the game with medium if not low settings. The GeForce GT 650M in the Samsung is almost twice as fast and the better choice for gamers. The Satellite P875 also lags behind the Asus N76NV again due to the omitted GPU Turbo which limits the performance significantly in this case.

The Satellite"s fan ran constantly at idle due to the relatively high ambient temperatures during our test (approximately 25 degrees Celsius). The noise level of 32.5 dB (A) remained quite inconspicuous. However, the fan increased its speed occasionally even during light load reaching up to 34.8 dB (A) making the laptop clearly audible (from a normal seating distance).

The temperature around the vent climbs to just below 50 degrees Celsius during full load conditions. Fortunately, the wrist rest is not affected and settles to about 30 - 39 degrees Celsius. Thus, long gaming sessions are no problem. The Satellite can still be used on the lap during normal workloads. We would however advise against that during full-load conditions.

The Satellite P875 power draw is quite modest for a 17-incher with merely 8.1 to 15.6 W when idling. Samsung"s 550P7C is just as energy efficient but the Asus N76VM needs a few watts more.

The surprising thing is that the Satellite P875 almost mutates to an endurance machine when the BatteryEater Reader"s test was run recording a decent 7 hours and 10 minutes (energy saving mode, minimum brightness, wireless modules switched off). Samsung"s 550P7C lasted for just as long even though it had a bigger 57 Wh battery.

The user can also surf for over 4 hours on the Internet using the Wi-Fi. We use energy savings mode and set the screen brightness to approximately 150 cd/m2 (level 7/8) for this. It is possible to easily watch two average-length DVD movies on the Satellite.

If you are willing to invest 1200 Euro in a multimedia laptop, you will unlikely want to accept compromises. Our expectations on Toshiba"s Satellite P875-30E were high and the lavishly equipped 17 inch behemoth could mostly fulfill them.

Regrettably, the poor screen mars the overall impression. The brilliant, matt Full HD screen in the Asus N76VM would look very good in the P875 and even make the laptop suitable for outdoor use. The Satellite scores with its long battery life and low weight for a 17-inch device.

Now, the decision to whether buy Toshiba"s Satellite P875 is a matter of personal preference. It basically earns it purchase recommendation as an elegant all-round machine which is not meant for gamers who will be happy with other alternatives like the Samsung"s 550P7C.

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TV repair costs between $60 and $350 with most spending $207 on average for LCD, LED, plasma, and 4K TVs; costs are higher if repairing older DLP, projection, and HD TVs. TV problems like display issues, powering-on problems, or sound issues can be fixed. Pickup and delivery fees may apply.

For example, the price of a new Samsung 40-inch LED TV is about $400, yet the cost of a replacement display panel for this model is about $380. This price is only for the replacement part and does not cover diagnostic costs, labor costs, or travel or shipping fees.

Unless you are trying to fix a TV from the ’80s or earlier, cracked TV screen repair is not feasible; the entire display panel must be replaced instead. The cost of a replacement TV display panel is more than the cost of buying a new TV, and that’s before labor and other service costs.

TV manufacturers do keep replacement TV screen panels on hand to support products under warranty in case the screen malfunctions, due to manufacturer defect.

If you still want to replace a damaged or malfunctioning TV screen, your best option is to find a used replacement panel or a broken TV of the same model on which the screen is still functional. You might find one on eBay, and you can hire a technician to change out the panel.

The cost of a used replacement TV panel ranges from $50 to $350 or more, excluding shipping, depending on the brand and size. Note that the chances of finding exactly the part you need in excellent condition are slim, and the cost excludes the cost of installation by a repair shop.

Whether your TV is LCD, LED, plasma screen, or 4K (Ultra HD), the cost to fix common problems ranges from $60 to $350, depending on the repair type and the brand of TV being repaired.

If an older model LCD TV or projection TV powers on and has sound but no picture, this may be due to lamp burnout, which is both common and expected. In this case, replacing the bulb will fix the problem. An experienced technician should be able to replace the bulb quickly and easily.

Flat screen replacement glass is not available. The only option for flat-screen TV glass repair is to try optical glass glue, which costs $1.70 for a 5-ml. tube. This may be an option for TV glass repair if the crack is only a few inches or less. TV panels are built as one unit at the factory, with the glass adhered to the display panel.

LCD flat-panel repair is not considered cost-effective. If the glass is cracked or the display is physically damaged, it is cheaper to replace the entire TV than to repair or replace the display panel.

The cost of flat-screen TV repair ranges from $42 to $359. You cannot fix a broken screen, but the price of a new flat-panel TV starts from around $249 for a 1080-mp (non-4K) LED TV from LG to as much as $14,999 for an 85-inch 8K LED TV from Samsung. A TV referred to as a “flat TV” or “flat-screen” TV might be any of the following:

LCD TV repair typically costs $60 to $85 for diagnostics testing, and $200 to $300 to perform repairs. LCD TVs use backlighting, which may fail. Newer LCD TVs use LED strips for backlighting. Older ones might use CCFL. If CCFL backlighting fails, a technician can replace it with LED backlighting.

An LED TV is just an LCD TV that uses LED backlighting, which all newer models do (older models use CCFL backlighting). The cost to replace one LED backlighting strip ranges from $100 to $122, including parts and labor.

Satellite dish repair is either covered by your satellite service company or the cost for a technician to fix it ranges from $80 to $150. Repairs may also be billed at an hourly rate of $50 to $65.

Circuit breaker - Check the circuit breaker for the power outlet that the TV plugs into. You can check the breakers by opening the door to your breaker panel and looking for circuit breakers that are in the OFF position.

Lamp burnout -In a projection TV or older LCD TV, no picture may be caused by lamp burnout. In this case, a technician can replace the bulb quickly and easily.

In most cases, a flat-screen TV can be fixed. The exception is a physically damaged display panel or screen. Most other issues including failing speakers, backlights, or power supply. Burned out fuses and damaged input ports can also be repaired.

Why do monitors and TVs get image burn? Why can"t manufacturers prevent LCDs and plasma screens from a burnt image imprint? Moreover, what can you do to fix an image burn?

LCD and LED do not work in the same way as CRTs, either. LCD and LED screens use backlit liquid crystals to display colors. Although manufacturers market screens using LED and LCD, an LED screen is still a type of LCD. The white backlight filters through the liquid crystals, which extract particular colors per pixel.

LCD and LED displays don"t suffer from the same type of image burn as CRTs and plasma screens. They"re not completely clear, though. LCD and LED screens suffer from image persistence. Read on to find out more about image persistence.

Before you can fix screen burn-in, take a second to understand why these images burn in the first place. LCDs and LEDs don"t suffer from burn-in as seriously as plasma screens. But static images can leave an imprint on both display types if left alone for too long. So, why does image burn happen?

LCD and LED screens can also experience image burn, though the image burn process can take longer to develop into a permanent issue. In addition, LCD and LED screens suffer from another issue, known as image retention (also known as image persistence or an LCD shadow).

Image retention is a temporary issue that you are more likely to notice before it becomes a permanent issue. However, proper image burn can still affect LCD, LED, and OLED screens.

Image burn-in fixes exist for LCD and plasma screens. How effective an image burn-in fix is depends on the screen damage. Depending on the length and severity of the image burn, some displays may have permanent damage.

The best fix for screen burn is to prevent it in the first place. Okay, that isn"t super useful if your screen is already experiencing image burn. However, you should always try not to leave your screen on a still image for too long. The time it takes for an image to burn-in varies from screen to screen, between manufacturers, sizes, and panel type.

If your plasma or LCD screen already has image burn-in, you can try turning on white static for 12 to 24 hours. The constant moving of white-and-black across your screen in random patterns can help remove the ghost image from your screen.

Pixel-shift constantly slightly adjusts the image on your screen, which varies the pixel usage to counteract image burn. You might have to enable a pixel or screen shift option in your screen settings. Pixel-shift is a handy feature for LED and OLED screens that cannot recover from image burn and should help counteract an LCD shadow.

While the Deluxe version uses advanced algorithms to repair burned screens and prolong plasma and LCD longevity, the official site is no longer up and running, and there is no way to download the full version officially.

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Display motion blur, also called HDTV blur and LCD motion blur, refers to several visual artifacts (anomalies or unintended effects affecting still or moving images) that are frequently found on modern consumer high-definition television sets and flat panel displays for computers.

Different manufacturers use many names for their strobed backlight technologies for reducing motion blur on sample-and-hold LCD displays. Generic names include black frame insertion and scanning backlight.

Philips created Aptura, also known as ClearLCD, to strobe the backlight in order to reduce the sample time and thus the retinal blurring due to sample-and-hold.

Nvidia has licensed a strobe backlightLightBoost to display manufacturers. This is normally used to reduce crosstalk during 3D Vision, which utilize shutter glasses; however, it also eliminates motion blur due to its ability to keep pixel transitions in the dark between LCD refreshes.

Some displays use motion interpolation to run at a higher refresh rate, such as 100 Hz or 120 Hz to reduce motion blur. Motion interpolation generates artificial in-between frames that are inserted between the real frames. The advantage is reduced motion blur on sample-and-hold displays such as LCD.

Both OLED and Sony"s Crystal LED displays use an independent light source for every pixel, without a traditional CCFL or LED backlight used in LCD. Sony"s Crystal LEDlight emitting diodes for each pixel, instead of using LED as a backlight. Several displays demonstrated at the CES 2012 have been the first modern high-definition television sets to overcome the motion artifacts by selectively blanking parts of the screen.