Harga Lenovo Vibe X S960 Terbaru 2014

Harga Lenovo Vibe - Baru-baru ini Lenovo meluncurkan handphone terbarunya di Indonesia, yakni Lenovo Vibe X S960. Kualitas dari Lenovo Vibe yang satu ini tidak perlu diragukan lagi. Spesifikasi tinggi dan desan tipis nan elegan membuat handphone yang satu ini memiliki daya tarik tinggi. Sistem operasi yang digunakan oleh ponsel ini adalah Android Jelly Bean 4.2.2 yang kita ketahui sebagai OS yang sangat berkualitas dan Lenovo ini memakai OS dengan versi yang terbaru.

Dari segi teknologi dan desain, ponsel yang satu ini sepertinya mampu bersaing ketat dengan merk ponsel lainnya, seperti Samsung, LG, Oppo Smartphone, dan lain sebagainya. Salah satu kelebihan yang dimiliki oleh Lenovo Vibe X S960 adalah desain stylish yang menggoda dan sangat tipis. Dan untuk ketebalan ponsel nya hanya 6,9 mm. Bisa dikatakan, ini adalah salah satu ponsel buatan Lenovo dengan desain terbaik.

Lenovo Vibe X S960

Lenovo memang hampir selalu melakukan inovasi baru, setiap tahunnya selalu ada HP yang mereka produksi dengan gaya baru dan tentunya dengan spesifikasi yang lebih bak lagi. Berbicara tentang harga, Lenovo Vibe dibandrol sekitar 4 jutaan di pasaran. Harga dan spesifikasi nya pun sebanding, bagaimana bisa kita ketahui layar Lenovo Vibe dengan layar sentuh berukuran 5 inch dan resolusi layar yang cukup besar, yakni 1920x1080 plus teknologi In-Plane Switiching. Sebelum memberikan harga Lenovo Vibe, mari disimak terlebih dahulu spesifikasi lengkapnya dibawah ini.

Spesifikasi Lenovo Vibe X S960

uMUM2G NetworkGSM 850 / 900 / 1800 / 1900
3G NetworkHSDPA 850 / 1900
HSDPA 900 / 2100
SIMMicro-SIM
Announced2013, September
StatusDirilis pada Desember 2013
BODYDimensi144 x 74 x 6.9 mm (5.67 x 2.91 x 0.27 in)
Berat121 g (4.27 oz)
DISPLAYTipeIPS LCD capacitive touchscreen, 16M colors
Ukuran1080 x 1920 pixels, 5.0 inches (~441 ppi pixel density)
MultitouchYa
ProtectionCorning Gorilla Glass 3
SOUNDAlert typesVibration; MP3, WAV ringtones
LoudspeakerYa
3.5mm jackYa
MEMORYCard slotTidak Ada
Internal16/32 GB, 2 GB RAM
DATAGPRSYa
EDGEYa
SpeedHSDPA, 21 Mbps; HSUPA, 5.76 Mbps
WLANWi-Fi 802.11 b/g/n, Wi-Fi hotspot
BluetoothYa, v3.0 with A2DP
USBYa, microUSB v2.0, USB On-the-go
CAMERAPrimary13 MP, 4128 x 3096 pixels, autofocus, LED flash
FiturGeo-tagging, touch focus, face detection
VideoYa, 1080p@30fps
SecondaryYa, 5 MP
FiturOSAndroid OS, v4.2 (Jelly Bean)
ChipsetMediatek MT6589T
CPUQuad-core 1.5 GHz Cortex A7
GPUPowerVR SGX544MP2
SensorsAccelerometer, proximity, compass
MessagingSMS(threaded view), MMS, Email, Push Mail, IM, RSS
BrowserHTML5
RadioFM radio
GPSYa, dengan dukungan A-GPS
JavaYa, via Java MIDP emulator
WarnaHitam/Silver
- SNS integration
- Active noise cancellation with dedicated mic
- MP4/WMV/H.264/H.263 player
- MP3/WAV/WMA/eAAC+ player
- Organizer
- Image/video editor
- Document viewer
- Google Search, Maps, Gmail,
YouTube, Calendar, Google Talk
- Voice memo/dial
- Predictive text input
BateraiNon-removable Li-Po 2000 mAh battery
Stand-bySampai 288 jam
Talk timeSampai dengan 16 jam

Harga Lenovo Vibe X S960

Harga Baru   :  Rp 4.500.000,-
Harga Bekas :  -

Diatas adalah Harga Lenovo Vibe X S960 yang ada di pasaran dan dapat berubah sewaktu-waktu. Harga diatas akan terus di-update secara berkala oleh Espilen Blog demi memberikan informasi harga yang akurat.

The production of speech sounds

 

Articulators above the larynx
     All the sounds we make when we speak are the result of muscles contracting. The muscles in the chest that we use for breathing produce the flow of air that is needed for almost all speech sounds; muscles in the larynx produce many different modifications in the flow of air from the chest to the mouth. After passing through the larynx, the air goes through what we call the vocal tract, which ends at the mouth and nostrils. Here the air from the lungs escapes into the atmosphere. We have a large and complex set of muscles that can produce changes in the shape of the vocal tract, and in order to learn how the sounds of speech are produced it is necessary to become familiar with the different parts of the vocal tract. These different parts are called articulators, and the study of them is called articulatory phonetics.

Fig. 1 is a diagram that is used frequently in the study of phonetics. It represents the human head, seen from the side, displayed as though it had been cut in half. You will need to look at it carefully as the articulators are described, and you will often find it useful to have a mirror and a good light placed so that you can look at the inside of your mouth.

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Fig. 1 The articulators 

i) The pharynx is a tube which begins just above the larynx. It is about 7 cm long in women and about 8 cm in men, and at its top end it is divided into two, one part being the back of the mouth and the other being the beginning of the way through the nasal cavity. If you look in your mirror with your mouth open, you can see the back of the pharynx.
ii) The velum or soft palate is seen in the diagram in a position that allows air to pass through the nose and through the mouth. Yours is probably in that position now, but often in speech it is raised so that air cannot escape through the nose. The other important thing about the velum is that it is one of the articulators that can be touched by the tongue. When we make the sounds  k  and  g  the tongue is in contact with the lower side of the velum, and we call  these velar consonants.
iii) The hard palate is often called the "roof of the mouth". You can feel its smooth curved surface with your tongue.
iv) The alveolar ridge is between the top front teeth and the hard palate. You can feel its shape with your tongue. Its surface is really much rougher than it feels, and is covered with little ridges. You can only see these if you have a mirror small enough to go inside your mouth (such as those used by dentists). Sounds made with the tongue touching here (such as  t  and  d ) are called alveolar.
v) The tongue is, of course, a very important articulator and it can be moved into many different places and different shapes. It is usual to divide the tongue into different parts, though there are no clear dividing lines within the tongue. Fig. 2 shows the tongue on a larger scale with these parts shown: tip, blade, front, back and root. (This use of the word "front" often seems rather strange at first.)

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Fig. 2 Sub-divisions of the tongue 

vi) The teeth (upper and lower) are usually shown in diagrams like Fig. 1 only at the front of the mouth, immediately behind the lips. This is for the sake of a simple diagram, and you should remember that most speakers have teeth to the sides of their mouths, back almost to the soft palate. The tongue is in contact with the upper side teeth for many speech sounds. Sounds made with the tongue touching the front teeth are called dental.
vii) The lips are important in speech. They can be pressed together (when we produce the sounds  p , b ), brought into contact with the teeth (as in f , v), or rounded to produce the lip-shape for vowels like  uù. Sounds in which the lips are in contact with each other are called bilabial, while those with lip-to-teeth contact are called labiodental.

     The seven articulators described above are the main ones used in speech, but there are three other things to remember. Firstly, the larynx could also be described as an articulator - a very complex and independent one. Secondly, the jaws are sometimes called articulators; certainly we move the lower jaw a lot in speaking. But the jaws are not articulators in the same way as the others, because they cannot themselves make contact with other articulators. Finally, although there is practically nothing that we can do with the nose and the nasal cavity, they are a very important part of our equipment for making sounds (what is sometimes called our vocal apparatus), particularly nasal consonants such as  m , n . Again, we cannot really describe the nose and the nasal cavity as articulators in the same sense as (i) to (vii) above.

Sources: Unknown

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