Cartrend
BMW Android touch screen GPS navigation monitor is made to replace the factory display.
The new Android multimedia player for BMW keeps the original functions like car
steering wheel control. The original system is built in a Menu in the Android
interface. Original functions are available easily by the menu. It is exciting
that besides original functions, you are able to enjoy the Android functions, such
as GPS navigation, 3G/4G WiFi hotspot internet, Google Play store, screen mirror
link, Bluetooth hand free phone call, videos, music and so on.
The BMW
Android navigation display is connected with same plugs and cables as that of original
car. The installation is simply plug and play without cutting original car cables.
Cartend BMW touch screen monitor is suitable for models such as BMW 1 series, 2
series, 3 series, 4 series, 5 series, X1, X3, X4.
Main
Specification
CPU 1.4GHz
Quad core
RAM 1GB
ROM 16GB
Internal Memory
Screen 10.25/8.8
inch HD 1280*480 Capacitive Touch Screen
OS Android 5.1
Network WiFi
SD/TF
card One
card slots
USB
port One USB port
Camera One camera input (RCA port)
Microphone
Built-in Microphone
GPS Receiver
External GPS receiver
Bluetooth Built-in
WIFI
Built-in
OSD
Language: English, Dutch, French, German,
Italian, Korean, Polish, Portuguese, Russian, Serbian, Spanish, Swedish, Turkish
Bmw Android Head Unit,Bmw Navigator,High End Navigation Systems,Bmw Android Multimedia Player Shenzhen Cartrend Technology Co, Ltd , https://www.cartrendthings.com
In the days when smart wristbands, smart watches, and smart glasses are being introduced today, the popularity of electrostatic suppressors with low capacitance and small package sizes is increasing.
Wearable devices have a wide range of forms, such as sports bracelets, smart watches, helmets, smart wear, etc., providing a wide range of user experience. There is no doubt that more and more users are starting to focus on wearable devices and the entire market has great potential. This has prompted digital manufacturers to regard it as a new profit point. Various new devices are jumping out and targeting the user’s wallet. Constant bombing. It can be predicted that at least in the coming 3 to 5 years, there will be a continuous variety of products and trials available to form a market with the following characteristics:
The market is rapidly innovating, and consumer demand is changing at the same pace;
The emergence and development of new types of products, sometimes disappearing in the end;
There are numerous competing products, but no standard feature set has been formed;
Even if there are only a few standard architecture or interface standards.
While wearable devices are attracting attention, the quality of their products is also monitored by the entire market. The lack of standard architectures, feature sets, and specialized chips for wearable devices has brought unprecedented challenges to mobile consumer electronics designs that face strained cost, power, and size constraints. In addition to battery power consumption and volume, anti-noise, anti-jamming, waterproof, anti-drop and anti-human static electricity destruction capabilities have also become the focus of attention for designers and developers. The reliability-related specifications, such as improving the anti-system electrostatic capacity, will prevent premature wear-out device damage, improve product quality evaluation, and reduce post-sale repair costs.
Consumers wear directly by touching the skin, and the greatest risk of exposure is static electricity generated by the user. Static electricity is ubiquitous, and even the simplest human contact can generate transient electrostatic discharge (ESD). Without proper protection, no sensor circuitry, battery, charging interface, buttons, or data input/output can provide ESD with access to wearable devices, all of which cause irreversible damage to electronic products.
Select a suitable ESD suppressor. Lower capacitance to avoid interference with high-speed data transmission. ESD protection devices must provide circuit protection that does not interfere with everyday functions. For example, in a radio interface (such as Bluetooth or wireless LAN) or a wired port like USB 2.0, ESD protectors cannot cause signal distortion or loss of data signal strength. To ensure signal integrity, the capacitance of the ESD protector must be minimized without reducing the protection level.
Second, use the lower clamp voltage to protect the most sensitive circuit. In the event of an ESD discharge event, the primary job of the ESD protector is to transfer and dissipate ESD transients as much as possible. This feature is improved by reducing the state resistance or dynamic resistance when the electrostatic pulse is applied. The ESD protector carries more inrush current than the protected circuit. By doing so, it reduces the electrostatic discharge pressure on the IC and ensures its survival.
Third, more compact size to fit the limited space available in the wearable device. No matter how high-performance operation of the protection device is, it is useless if it cannot adapt to a specific application environment. The wearable device becomes thinner and smaller, and the board has the smallest available space to accommodate the ESD protection scheme. Separating device protection schemes are the best way to address this potential design challenge because they give design engineers the flexibility to provide special board layouts.
With decades of experience in anti-static protection components ESD ESD suppressors, SK Electronics has developed ESD electrostatic discharge diodes with lower capacitance and smaller package, which basically meet the static protection requirements of wearable devices and ensure the wearability of wearable devices. The effectiveness of the protection scheme.
Wearable technology is now a popular term in the consumer electronics industry. Every consumer electronics company claims to launch wearable devices. They are tiny electronic devices that we can wear, usually integrating with existing accessories (such as watches) or replacing them. With the current changes in the wearable device industry, the demand for smaller, more intuitive devices is increasing rapidly. Current device trends in this emerging industry include smart watches, smart glasses, and sports and fitness activity trackers. In addition to consumer electronics, it also generates demand for attention in the medical industry. Obviously, the electronic products contained in these devices need to be “downsizingâ€. In addition to the functional chips, the most important electronic components should be ESD electrostatic diodes that provide electrostatic protection.
September 08, 2019