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When liked tinkering its own technology gadgets or a self-built media center operates, usually attacks to single board computers. Mini-PCs in credit card format are the ideal solution for driving self-configured systems and executing applications programmed by the user. The leader in this segment is the Raspberry Pi. The device was developed in the context of inspiring young people for programming and crafting with hardware. Therefore, the installed technology is rather weak, but the devices are very cheap. Anyone who wants to have more rakepower for his fanatics will find the future with Asus.

Specifications Asus Tinkerboard

Specs for the Tinker Board include a quad core 1.8GHz ARM Cortex-A17 CPU, 2GB LPDDR3 RAM, four USB 2.0 ports, support for gigabit LAN and Bluetooth 4.0, 3.5mm audio jack, microSD slot, Micfo USB for power, swappable 802.11 b/g/n Wi-Fi antennas, and a HDMI 2.0 port with support for 4K video.

Connecting peripherals

To connect a monitor or TV using composite video or HDMI connector. Resolution ranges from 640 x 350 (EGA) to 1920 x 1200 (WUXGA) for HDMI. Composite output is in PAL and NTSC formats.

Speakers or headphones are connected- via a standard 3.5 mm jack. Also, the sound can be transmitted via HDMI.

Asus Tinkerboard provides 4 USB-ports, united by an internal hub. These include, among others, can connect a keyboard and mouse.

To save CPU resources, Asus Tinkerboard offers regular connection modules through the 15-pin slots:

CSI-2 - to connect on the MIPI interface chamber;

DSI - to connect the regular display.

As a low-level interfaces are available:

40 ports of general purpose input-output;

UART (Serial); PC/TWI;

SPI with the selector between the two devices; pins Power: 3.3 V, 5 V and earth.

With the help of these ports can be connected to external sensors empower the device.

Such sensors may be:

Analog (photo resistor, temperature sensor);

Digital (accelerometer, ambient light sensor).

For adverse communication on the Asus Tinkerboqrd available interfaces;

Ethernet 10/100 Mbps with access to. a standard socket 8P8C (RJ45);

Wi-Fi 802.1 In and Bluetooth 4.1, provided the chip Broadcom ВСМ43438. 4K video and 24-bit audio

The manufacturer has a media report, according to recently released the single board Tinker Board, This is nearly the same size as the Raspberry Pi, but has much more powerful hardware on the board. For example, the four-core Rockchip processor RK 3288 allows the playback of video in 4K resolution as well as the output of 24-bit audio signals via the HDMI-2 connector. This makes the small computer particularly interesting for use as a media center. With 2 gigabytes of memory, Tinkerboard has twice as much RAM on board as the competition. Obviously a Gigabit Ethernet connection, WLAN and four USB 2.0 ports are installed.

Comparatively cheap

The arrangement of the connections is identical to that of the Raspberry Pi. Anyone who now feels that they have to grip deeply into their pockets to secure this piece of technology is wrong. The Tinker-Board-Calculator (Raspberry Pi from approx. 37 Euro) costs approx. 60 Euro. A Debian Linux variant is used as the operating system. The device supports the Kodi Mediaplayer. On the software side, however, the computer may have a look at the Raspberry Pi, which has been established and supported by developers for years.

FCC Compliance Statement: 

This equipment has been tested and found to  comply with limits for a Class B digital device ,  pursuant to Part 15 of the FCC rules. These limits are designed to provide reasonable protection against harmful interference in residential installations. This equipment 
generates, uses, and can radiate radio frequency energy, and if not installed and used in accordance with the instructions, may cause  harmful interference to radio communications. However, there is no guaranteethat interference willnot occur in a particular installation. If this  equipment does cause interference to radio or  television equipment reception, which can be determined by turning the equipment off and on, the user is encouraged to try to  correct the interference by one or more of the following measures:  -Reorient or relocate the receiving antenna 


-Move the equipment away from the receiver 

-Plug the equipment into an outlet on a circuit different from that to which  the receiver is connected 

-Consult the dealer or an experienced radio/television technician for  additional suggestions 

You are cautioned that any change or modifications to the equipment not  expressly approve by the party responsible for compliance could void Your  authority to operate such equipment. 

This device complies with Part 15 of the FCC Rules. Operation is subjected to  the following two conditions 1) this device may not cause harmful interference  and 2) this device must accept any interference received, including interference  that may cause undesired operation.  

Considerations Prior to Installation

Preparing Your Computer

The motherboard contains numerous delicate electronic circuits and components which can

become damaged as a result of electrostatic discharge (ESD). Thus, prior to installation, please

follow the instructions below:

1. Please turn off the computer and unplug its power cord.

2. When handling the motherboard, avoid touching any metal leads or connectors.

3. It is best to wear an electrostatic discharge (ESD) cuff when handling electronic components

4. Prior to installing the electronic components, please have these items on top of an antistatic pad or

within a electrostatic shielding container.

5. Please verify that the power supply is switched off before unplugging the power supply connector

from the motherboard.

Installation Notices

1. Prior to installation, please do not remove the stickers on the motherboard. These stickers are required

for warranty validation.

2. Prior to the installation of the motherboard or any hardware, please first carefully read the information

in the provided manual.

3. Before using the product, please verify that all cables and power connectors are connected.

4. To prevent damage to the motherboard, please do not allow screws to come in contact with the

motherboard circuit or its components.

5. Please make sure there are no leftover screws or metal components placed on the motherboard or

within the computer casing.

6. Please do not place the computer system on an uneven surface.

7. Turning on the computer power during the installation process can lead to damage to system

components as well as physical harm to the user.

8. If you are uncertain about any installation steps or have a problem related to the use of the product,

please consult a certified computer technician.

Instances of Non-Warranty

1. Damage due to natural disaster, accident or human cause.
2. Damage as a result of violating the conditions recommended in the user manual.
3. Damage due to improper installation.
4. Damage due to use of uncertified components.
5. Damage due to use exceeding the permitted parameters.
6. Product determined to be an unofficial Gigabyte product.

OC Ignition (Patent Pending) There are occasions as an overclocker when you want to shut down the system without turning off the power to other parts of the system, for example the drives and system fans. This is where OC Ignition is really useful. Hitting the OC Ignition button gives continuous, uninterrupted power to all the motherboard's connected drives and system fans, but not to the CPU. This is useful in 'cold bug' situations when you need to heat the CPU to a bootable temperature, but you'd prefer the fans to keep spinning, reducing moisture build-up. Overclockers using i-ram drives may also want to maintain SATA power and not risk losing their customized OS install while users with regular SSDs or HDDs also know that frequent powering on and off is harmful to your drives in the long-term. 
OC Ignition is also useful in allowing users to pre-test water cooling setups, and even allows case mod demos to be developed without having to fully turn on the PC. 
OC Ignition: Feature Summary 
• Powers fans and drives without booting or powering the CPU 
• Active fans help to reduce moisture build-up when using LN2
• Maintain continuous uninterrupted power to drives 
• Safely powers water cooling systems for safe leak checking 
• Test demo and case mod systems without needing to boot the system



Durable Black Solid Caps 
GIGABYTE 8 Series motherboards integrate the absolute best quality solid state capacitors that are rated to perform at maximum efficiency for extended periods, even in extreme performance configurations. This provides peace of mind for end users who want to push their system hard, yet demand absolute reliability and stability. With ultra-low ESR no matter how high the CPU loading, these exclusive capacitors also come in customized jet black, exclusively on GIGABYTE 8 series motherboards."Rated for an unprecedented 10,000 hours of intensive operation at an incredible 105°C" – Nippon Chemi-Con

* Features and Actual component specifications may vary by model.

Router Settings

This section is used to configure the internal network settings of the Router. This IP address is private to your internal network and cannot be seen on the Internet. The default Router IP Address is 192.168.0.1 and the Default Subnet Mask is 255.255.255.0. The Local Domain Name is for the local Domain set on your network, if you have given it a name previously. This field is for your personal use and unnecessary for proper configuration of this window. In addition, the Router can be configured to relay DNS from your ISP or another available service to workstations on your LAN. When Enable DNS Relay is checked, the Router will accept DNS requests from hosts on the LAN and forward them to the ISP (or alternative) DNS servers. Alternatively, you may also disable the DNS relay and configure hosts on your LAN to use DNS servers directly. Most clients using the Router for DHCP service on the LAN and are using DNS servers on the ISP’s network, will leave DNS relay enabled.

LAN DHCP Server Settings

DHCP Server Settings Dynamic Host Configuration Protocol (DHCP) allows the gateway to automatically obtain the IP address from a DHCP server on the service provider’s network. The service provider assigns a global IP address from a pool of addresses available to the service provider. Typically the IP address assigned has a long lease time, so it will likely be the same address each time the Router requests an IP address. If DHCP is not enabled on the Router, it is necessary for the user to assign a static IP address to each computer on your LAN. To set up DHCP for your LAN, first enable the Router as a DHCP server by clicking the Enable DHCP Server radio button in the window above. The next step is to set a range of IP addresses that you wish to allot to the devices on your LAN by entering a starting and ending number of addresses within the LAN subnet in the DHCP IP Address Range. This may be in a range from 2 to 254 (192.168.0.2 – 192.168.0.254). Computers on your LAN will have an IP address within this range then automatically assigned to them. Finally, choose the DHCP Lease Time, which is the time the Server will set for devices using DHCP to re-request an IP Address. Clients authorized for DHCP will be listed in the Dynamic DHCP Client List near the bottom of the window. Click Save Settings to implement information set in this table. The DHCP Server is enabled by default. DHCP may also be statically configured as well. This method allows the router to assign the same IP address information to a specific computer on the network, defined by its MAC address. This computer will get the same DHCP implemented IP address information every time the computer is turned on and this IP address will be specific to that computer’s IP address on the local network. No other computer can be assigned this address.

Irregular verbs Неправильные глаголы

Неопределенная форма Простое прошедшее Причастие II Перевод на русский

(Infinitive) (Past Simple) (Past Participle)

be [bi:] was [wƆ z], were [wз:] been [bi:n] Быть

beat [bi:t] beat [bi:t] beaten ['bi:tn] Бить

become [bi:km] became [bi:keim] become[bi:k
m] Становиться

begin [bi'gin] began [bi'gæn] begun [bi'gn] Начинать

blow [blou] blew [blu:] blown [bloun] Дуть

break [breik] broke [brouk] broken ['brouk(e)n] Ломать

bring [briŋ] brought [brƆ:t] brought [brƆ:t] Приносить

build [bild] built [bilt] built [bilt] Строить

burn [bз:n] burnt [bз:nt] burnt [bз:nt] Гореть

buy [bai] bought [bƆ:t] bought [bƆ:t] Покупать


catch [kæt∫] caught [kƆ:t] caught [kƆ:t] Ловить, хватать, успеть

choose [t∫u:z] chose [t ∫əuz] chosen [t∫əuz(ə)n] Выбирать

come [km] came [keim] come [km] Приходить

cost [cƆst] cost [cƆst] cost [cƆst] Стоить

creep [kri:p] crept [krept] crept [krept] Ползать

cut [kt] cut [kt] cut [kt] Резать

do [du:] did [did] done [dn] Делать

draw [drƆ:] drew [dru:] drawn [drƆ:n] Рисовать, тащить

dream [dri:m] dreamt [dremt] dreamt [dremt] Мечтать, дремать

drink [driŋk] drank [dræŋk] drunk [drŋk] Пить

drive [draiv] drove [drouv] driven ['drivn] Водить

eat [i:t] ate [et] eaten ['i:tn] Есть

fall [fƆ:l] fell [fel] fallen ['fƆ:lən] Падать

feed [fi:d] fed [fed] fed [fed] Кормить

feel [fi:l] felt [felt] felt [felt] Чувствовать

fight [fait] fought [fƆ:t] fought [fƆ:t] Бороться

find [faind] found [faund] found [faund] Находить

fit [fit] fit [fit] fit [fit] Подходить по размеру

fly [flai] flew [flu:] flown [floun] Летать

forget [fə'get] forgot [fə'gƆt] forgotten [fə'gƆt(ə)n] Забывать

forgive [fo'giv] forgave [fo'geiv] forgiven [fo'givn] Прощать

freeze [fri:z] froze [frouz] frozen ['frouzn] Замерзать

get [ get ] got [gƆt] got [gƆt] Получать

give [giv] gave [geiv] given [givn] Давать

go [gou] went [went] gone [gƆn] Идти

grow [grou] grew [gru:] grown [groun] Расти

hang [hæŋ] hung [hŋ] hung [hŋ] Висеть, развешивать

have [hæv] had [hæd] had [hæd] Иметь

hear [hiə] heard [hз:d] heard [hз:d] Слышать

hide [haid] hid [hid] hidden ['hidn] Прятать

hold [hould] held [held] held [held] Держать

hurt [hз:t] hurt [hз:t] hurt [hз:t] Ушибить

keep [ki:p] kept [kept] kept [kept] Содержать

know [nou] knew [nju:] known [noun] Знать

lay [lei] laid [leid] laid [leid] Класть

lead [li:d] led [led] led [led] Вести

learn [lз:n] learnt [lз:nt] learnt [lз:nt] Учить

leave [li:v] left [left] left [left] Оставлять

let [let] let [let] let [let] Позволять

lie [lai] lay [lei] lain [lein] Лежать

light [lait] lit [lit] lit [lit] Освещать

lose [lu:z] lost [lƆst] lost [lƆst] Терять

make [meik] made [meid] made [meid] Производить

mean [mi:n] meant [ment] meant [ment] Значить

meet [mi:t] met [met] met [met] Встречать

mistake [mis'teik] mistook [mis'tuk] mistaken [mis'teik(e)n]Ошибаться

pay [pei] paid [peid] paid [peid] Платить

prove [pru:v] proved [pru:vd] proven [pru:vn] Доказывать

put [put] put [put] put [put] Положить

quit [kwit] quit [kwit] quit [kwit] Выходить

read [ri:d] read [red] read [red] Читать

ride [raid] rode [roud] ridden ['ridn] Ездить верхом

ring [riŋ] rang [ræŋ] rung [r