Jenis LCD Laptop Dijual di Indonesia

LCD Laptop Comparison

Daftar jenis berbagai merek layar LCD Laptop, Notebook, Netbook serta LCD Mac Computer yang dijual Toko LCD Jakarta dapat  diganti bila rusak, berikut informasi merek Laptop yang banyak dipasarkan di Indonesia dan perbandingan LCD Panel Notebook.
  • Acer TravelMate, Acer Aspire, Acer Aspire One, Acer Extensa, Acer Ferrari, Acer Ferrari One
  • ANote Centurion, Axioo Zetta, Axioo Neon, Axioo Pico, Axioo Oris
  • Apple iBook, PowerBook, MacBook, MacBook Pro, MacBook Air, Digitizer dan LCD iPad
  • ASUS Notebook, Asus EeePC
  • BenQ Joybook, BenQ Joybook Lite
  • COMPAQ Presario, Compaq Tablet PC, Compaq Mini Notebook
  • DELL Latitute, DELL Vostro, DELL Inspiron, DELL Studio, DELL Studio XPS, DELL AlienWare, DELL Adamo, DELL Mini
  • Fujitsu Lifebook Series, Fujitsu Stylistic, Fujitsu Siemens Exprimo, Fujitsu Siemens Amilo
  • hp Pavilion DV Series, hp Mini PC Companion, hp Envy
  • LENOVO ThinkPad T Series,  LENOVO ThinkPad X Series,  LENOVO ThinkPad A Series, Lenovo IdeaPad, Lenovo Essential Gseries
  • MSI U Series, MSI C Series, MSI X Series, MSI P Series, MSI F Series, MSI G Series
  • NEC Versa Series
  • SONY Vaio Notebook PCG, VGN, VPC Series
  • TOSHIBA Satellite, TOSHIBA Satellite Pro, TOSHIBA Dynabook, TOSHIBA Tecra, TOSHIBA Qosmio, TOSHIBA Mini Notebook 
  • ViewSonic ViewBook 
  • Zyrex Cruiser, Zyrex Ellipse, Zyrex Sky, Zyrex Wakatobi

Perbandingan jenis LCD Display Notebook berdasarkan ukurannya dan tingkat resolusi setiap panel layar, jenis dan kualitasnya akan mempengaruhi harga jual LCD Laptop.

Tabel ini menunjukkan resolusi layar, kerapatan pixel (pitch pixel dalam pixel per inci, ppi), aspek ratio layar, jumlah keseluruhan piksel yang dikenal dengan MegaPixel atau MP dan area pixel dibandingkan dengan resolusi 1024x768 sebagai acuan (100%) resolusi XGA. Layar diukur berdasarkan panjang diagonal.







Size
12.1"
Resolution
800 x 600
Density
82.6 ppi
Pixel Size
0.3073 mm
Ratio
4:3
Pixels
0.46 MP
Gain
61%
12.1"
1024 x 768
105.8 ppi
0.2401 mm
4:3
0.75 MP
100%
12.1"
1280 x 768
123.4 ppi
0.2059 mm
5:3
0.94 MP
125%
12.1"
1280 x 800
124.7 ppi
0.2036 mm
16:10
0.98 MP
130%
12.1"
1400x1050
144.6 ppi
0.1756 mm
4:3
1.4 MP
187%
13.3"
1280 x 800
113.5 ppi
0.2238 mm
16:10
0.98 MP
130%
14.1"
1024 x 768
90.8 ppi
0.2798 mm
4:3
0.75 MP
100%
14.1"
1280 x 800
107.1 ppi
0.2373 mm
16:10
0.98 MP
130%
14.1"
1280x1024
116.3 ppi
0.2185 mm
5:4
1.25 MP
167%
14.1"
1440 x 900
120.4 ppi
0.2109 mm
16:10
1.24 MP
165%
14.1"
1400x1050
124.1 ppi
0.2047 mm
4:3
1.4 MP
187%
15"
1024 x 768
85.3 ppi
0.2977 mm
4:3
0.75 MP
100%
15.2"
1152 x 768
91.1 ppi
0.2789 mm
3:2
0.84 MP
113%
15.4"
1280 x 800
98 ppi
0.2591 mm
16:10
0.98 MP
130%
15.2"
1280 x 854
101.2 ppi
0.2509 mm
~3:2
1.04 MP
139%
15.4"
1440 x 900
110.3 ppi
0.2303 mm
16:10
1.24 MP
165%
15.2"
1440 x 960
113.9 ppi
0.2231 mm
3:2
1.32 MP
176%
15"
1400x1050
116.7 ppi
0.2177 mm
4:3
1.4 MP
187%
15.4"
1680x1050
128.6 ppi
0.1974 mm
16:10
1.68 MP
224%
15"
1600x1200
133.3 ppi
0.1905 mm
4:3
1.83 MP
244%
15.4"
1920x1200
147 ppi
0.1728 mm
16:10
2.2 MP
293%
17"
1280 x 800
88.8 ppi
0.2861 mm
16:10
0.98 MP
130%
17"
1440 x 900
99.9 ppi
0.2543 mm
16:10
1.24 MP
165%
17"
1680x1050
116.5 ppi
0.2180 mm
16:10
1.68 MP
224%
17"
1920x1200
133.2 ppi
0.1907 mm
16:10
2.2 MP
293%
20.1"
1680x1050
98.6 ppi
0.2577 mm
16:10
1.68 MP
224%







Kolom di bawah ini membandingkan keuntungan ukuran fisik area layar aktif dapat dilihat resolusi keuntungan dalam pixel. Aspek rasio mempengaruhi daerah yang diperoleh pada satuan ukuran centimeter.
Perbandingan LCD Monitor Notebook  (Area Table)
Size
Diagonal
Width
Height
Ratio
Area
Gain
12.1"
30.73 cm
24.59 cm
18.44 cm
4:3
453 cm2
100%
12.1"
30.73 cm
26.35 cm
15.81 cm
5:3
417 cm2
91.9%
12.1"
30.73 cm
26.06 cm
16.29 cm
16:10
425 cm2
93.6%
13.3"
33.78 cm
28.65 cm
17.9 cm
16:10
513 cm2
113%
14.1"
35.81 cm
28.65 cm
21.49 cm
4:3
616 cm2
136%
14.1"
35.81 cm
30.37 cm
18.98 cm
16:10
576 cm2
127%
14.1"
35.81 cm
27.97 cm
22.37 cm
5:4
626 cm2
138%
15"
38.1 cm
30.48 cm
22.86 cm
4:3
697 cm2
154%
15"
38.1 cm
31.7 cm
21.13 cm
3:2
670 cm2
148%
15.2"
38.61 cm
32.12 cm
21.43 cm
3:2
688 cm2
152%
15.4"
39.12 cm
33.17 cm
20.73 cm
16:10
688 cm2
152%
17"
43.18 cm
36.62 cm
22.89 cm
16:10
838 cm2
185%
20.1"
51.05 cm
43.29 cm
27.06 cm
16:10
1'171 cm2
258%







TFT flat-panel display dengan karakteristik dan spesifikasi diatas dibuat oleh Acer, Apple Macintosh, Asustek Computer, DELL, Fujitsu-Siemens, Gateway, Hewlett-Packard (HP), IBM, Lenovo, Samsung, SHARP, SONY, TOSHIBA dan produsen laptop lainnya dengan ukuran eksotis atau resolusi layar sebagai 10,6 "dengan resolusi 1024 x 768, 15,1” dengan 1024x768, 15,1"dengan 1280 x 768, 15.4" dengan 1280x768 dan 17,4 "dengan 1140 x 900 piksel yang belakangan ini banyak diproduksi.

MacBook Pro LED Screen Why is the MacBook Pro Backlit LED Screen So Good?

Instant Screen brightness control

Instant changes to the brightness of the screen, brighter or darker, which is perfect for those who use their laptop on batteries often and thus have a relatively short “sleep display” time. For example if you don’t do anything on your laptop for 1 minute, the screen will go black due to the lamp inside the screen turning off to save battery power. Inside old school LCD screens is a fluorescent tube which performs the lighting of the LCD transistors which are creating colored pixels.

The problems or drawbacks with fluorescent backlit LCD screens is that the tubes need time to warm up before reaching their full stable luminosity or brightness. Thus, each time the lamp turns off and cools, and then is relit, there will be a period of time where the brightness of the screen is constantly growing as the tube reaches full temperature.

LED’s, Light Emitting Diodes, don’t suffer from this problem and reach maximum stable brightness, instantaneously. If Apple could fine tune their ambient light sensor control software to be more “fuzzy” and less “on/off”, the automatic screen brightness control would be useful. At the moment, the light meter is simply too jittery. Pass your hand over the sensor for an instant, and the screen’s brightness dims because it thinks the ambient lighting has changed. Quite simply, this is retarded.
The lighting control software should be taking ambient light  measurements and use a moving average as the target luminosity rather than try to adjust the screen brightness instantly with every flicker of light reaching the sensor. The human eye doesn’t adjust that quickly (think about waking up to someone slamming open the shutters or turning on the lights… ouch), so why try to make the MacBook Pro screen brightness change so quick?

LED backlighting uses less energy  

The second reason LED backlight MacBook Pro screens are great: they use less energy. This is a simple fact of life (or physics I suppose) that LED’s use less energy than fluorescent tubes, to produce the same quantity of lumens or light power. Lower power consumption on a laptop is always a good thing since that is one a laptop’s main goals: to work on a limited power supply, for as long as possible.

Drawbacks of MacBook Pro 15.4″ LED backlit screens?

Weak Color Richness

The light produced from LEDs is “whiter” than that of fluorescent tubes. By “whiter”, I don’t mean it has less soul, but rather its higher in the color temperature scale, often measured in Kelvin. The effect is similar to that of Xenon lamps in car headlights. The inert gases used in Xenon lamps produce a light that is higher on the color temperature scale and have a bluish white cast. That bluish color is actually white, but we’re so used to old school incandescent lighting that we’re accustomed to a yellowy orange color in our light bulbs.

Thus, on a MacBook Pro LED backlit LCD screen, the color appears more washed out and less rich than that of fluorescent backlit screens. For some, this will be a difficult thing to get over, especially art and design professionals for whom color is critical. For the average user, unless they are using a secondary display side by side with their MacBook Pro’s screen, they will not notice the difference.

Until you have a point of reference, it is very difficult to tell that the color on a MacBook Pro is different at all. I happen to use a Samsung Syncmaster 206bw with my Santa Rosa MacBook Pro, thus, I can tell the difference in color richness, and it’s significant. Adjustments to the color on my LED backlit screen cannot bring more richness to the colors either. It’s simply a basic difference in lighting and no amount of adjustment to color balance can make LED light appear like fluorescent light.

Conclusion on LED vs. Fluorescent backlit LCD screens?

The constant instant brightness is noticeable every time I bring my screen out of sleep. The difference in color is only noticeable if I have the exact same window displayed on both of my screens simultaneously and I look back and forth between them. Thus, the good outweighs the bad, and you have to search for the bad in order to find it, whereas the benefits are always immediately visible.