The default desktop path of the minicomputer is usually on the disk, and we especially like to put the files on the desktop, because the desktop is convenient and easy to find. For a long time, more and more desktop files will be available, and the C disk space will become smaller and smaller, which will slow down the system. How to set the system desktop path to a non-console? This tutorial will be explained for everyone.
1. Double-click “Minicomputer
or this minicomputer” on the desktop.
2. Right click on the “Desktop” and select “Properties”.
3. Click on “Location” to change the disk placed on the desktop (I want to place the desktop on the D drive, change C directly to D) and click “Apply”.
4. Click “Yes”.
Key points: If you are a Win7 system, please find the user folder on the system disk (C drive), and find the desktop folder under the folder of your own username. The default path is C:\Users\Administrator\Desktop
5. Click “Yes”
6. We smoothly moved all the files on the desktop to the D drive, so that we can safely save the files directly to the desktop.
Key
points: In fact, the space in the C drive only affects
the running speed of the minicomputer system, because our system is installed
in the C drive, but it doesn’t matter if the minicomputer card is not stuck! I
decided to tell you about the relationship between C drive, mechanical hard
drive, solid state drive, C drive space, etc. in the next issue.
The Windows mini
pc operating system is usually installed in the C drive of the disk drive. Once
it runs, it will generate a lot of junk files, and the C drive space will be
smaller and smaller to some extent. The longer the mini pc works, the more
often the C drive will indicate that its memory is insufficient. So what is the
impact of insufficient C drive capacity on our mini pc?
The space of the C
drive is too small, which will greatly affect the running speed of the system.
Your mini pc will naturally become stuck and crash!
So, how to
properly clean the C drive? Next, pour everyone three ways to quickly clean the
C drive.
Method 1: Disk
Cleanup
By freeing up disk
space, you can improve your mini pc’s performance. The Disk Cleanup Tool is a
utility tool included with Windows that helps you free up space on a disk. The
tool first identifies files that can be safely deleted and then allows you to choose
which files you want to delete partially or all.
Cleaning method:
1. Click “This Mini pc”
on the desktop of the mini pc, right click on the “C drive” and
select “Properties”
2. Click on “Disk
Cleanup” and click on “Clean System Files”
3.
Check the files you want to delete, click “OK” and then click “Delete Files” to
immediately release 3.69G disk space for the C drive.
Method 2: Turn off
hibernation (for Win10 systems)
Close method:
1. Right click on the icon in the
lower left corner of the mini pc and select “Windows Power Sell A”
2. Enter “powercfg –h off” (note
the space) directly in the page that appears, then press “enter” on the
keyboard.
3. Now there is no “hiberfil.sys” file in the C drive, and immediately released 3G disk space for the C drive.
Method 3: Turn on automatic cleaning (for
Win10 system)
Opening method
1. Click
“Start”—–“Settings”—–“System”
2. Select “Storage” and set
“Storage Awareness” to “On”. The mini pc will automatically clean up and no
longer need to manually clean it every time!
Eglobal Mini PC use the notebook for our machine, why not use the desktop CPU? And what’s the different between this two kinds of CPU?
G1
G2
Upgrade With the development of technology, the acceleration of computer upgrades, especially the constant innovation of some game manufacturers, the game has become more and more demanding on computer hardware configuration. If the current computer configuration cannot keep up, it can only be upgraded. Due to the space performance and storage capacity of the desktop, the later upgrade is more convenient. It can be said that any hardware can be upgraded and replaced.
Heat dissipation Due to the compact size and convenience of the notebook, the internal space of the notebook is limited, and the heat dissipation performance is not as good as that of the desktop chassis, especially the high-performance notebook. The higher the performance, the greater the power consumption, and the game will undoubtedly bring High heat generation and limited heat dissipation. Therefore, the high hardware temperature of the notebook is inevitable. The desktop itself has a large internal space, and can enjoy better cooling solutions, such as replacing a better CPU heatsink, increasing water cooling, and increasing the chassis fan.
Configuration The computer configuration seems to be the same or similar, the performance of the desktop is better than the notebook, whether in the processor or graphics card, the performance of the desktop computer is superior. The difference can be clearly seen by a simple comparison of the following set of configurations:
Volume The desktop is huge and the notebook is easy to carry. Internally, the architecture of desktops and laptops is the same. However, because the notebook is limited by space, many devices are integrated with the motherboard. Including the CPU and the graphics card, are soldered on the motherboard (it seems that there are also graphics cards not soldered). Therefore, the notebook cannot replace the CPU and graphics card separately.
Power configuration There are many reasons for laptop battery life limitation, heat dissipation caused by small space, etc. Laptops need a shunt to connect to the power supply. The desktop can be connected directly to the power supply without the need for a power adapter.
Our products are mainly machines without fans, no noise, small, lightweight, economical and affordable. The price is more affordable than desktop and notebook. Our mini PC is mainly used for office, Internet, audio and video, industrial control, etc. It has a long battery life and long service life. Of course, we also use the mini PC of the desktop CPU. Our VB and VG use a desktop CPU, so the price will be slightly more expensive than the others, and this VG product also supports another discrete graphics card.
All aluminum is fanless and has zero noise. High-end core graphics Intel Ruiju Iris640 playing 3D games pass all online games Ruiju core graphics card, unprecedentedly powerful, killing a large number of independent display, rewriting the new nuclear era, the performance of the HD620 graphics card integrated than the I7-7200U increased by more than 80%.
HIFI level magic sound card design final improved version released
Dual Gigabit Ethernet Card Dual HD Interface HDMI DP Output Supports 4K HD Hard Solution Soft Solution
8 USBs 4 USB3.0 4 USB2.0 interfaces Full Dual 1000M NIC 150M or 300M WIFI wireless network optional
Dual channel memory DDR4 1866 or 2133 notebook memory Intel SOC Express Chipset
Can support power on function
All solid, shockproof, drop-proof, long-term stable and reliable, support M2 NVME high-speed SSD
Dear Customer: Before u return back the goods, please contact our sales to get the RMA, which is very important.
We provide the 3-year product warranty, service is completely reliable and professional technical team. Class product quality, regardless of the current line, the product line marketed under the failure rate is very low, less than one percent failure rates. In case you encounter repair, you can contact us, send the product back to the company or our physical store. 3 years later, we still provide service for all users, and fees charged parts, maintenance free for life. EGLOBAL committed to the sale of goods in line with the requirements of the case to return from the date of sale (the actual receipt date) 10 days can return, exchange within 30 days.
(Note: Please don’t write our company name on the parcel. In China it is easy for us to receive the international parcel in an individual’s name by Postal Mail or EMS.)
In order to meet the market demand, we have recently developed a new industrial mini PC, it use Intel CPU, core i5-4200U, with 4*RS232 COM port and 2*RS485COM port, dual network port, 8*USB, HDMI.
This Industrial Mini PC Support Watchdog, Auto power on, RTC Wake Up, Non-disk boot, State lamp interface, trigger switch(wafer 1*2)
Notice: If you need LVDS, our pcb broad have this but our case without this port, we accept custom-made, MOQ is 100 sets
If you are interested in this model, you may contact us or went to our website.
Careful people may
find that in the last decade of development, the interface of display devices
has undergone tremendous changes! We used a lot of blue VGA interface, and then
there is a white DVI interface. When encountering different interfaces, we have
to buy adapters for transfer. Later, there was an interface such as HDMI, and
now there are DP and USB Type-C interfaces. So, with so many interfaces, what
is the difference? Which one should we use?
VGA Port
The VGA interface
is also known as the D-Sub interface. In the era of CRT displays, the VGA
interface is a must. Because CRTs are analog devices, and VGAs are analog
protocols, they are of course matched for use. The VGA interface adopts a
15-pin pin structure, which transmits signals such as components and
synchronization. It is the interface used by many old graphics cards, notebooks
and projectors. Later, the LCD display appeared, also with a VGA interface. The
display has an A/D converter built in to convert the analog signal to a digital
signal for display on the LCD.
DVI Port
There are many
types of DVI, DVI-A, DVI-D, DVI-I on the interface, and can be divided into
single channel and dual channel. The DVI-A (DVI-Analog) interface only
transmits analog signals. The essence is the VGA analog transmission interface
specification, which is often used to transfer the DVI-I output of the graphics
card to the VGA display interface. The DVI-D (DVI-Digital) interface is a pure
digital interface and is not compatible with analog signals. DVI-I
(DVI-Integrated) interface, compatible with DVI-I and DVI-D plugs, compatible
with digital and analog signals. Their interface shapes are different and
cannot be inserted if the interfaces do not match.
HDMI Port
The HDMI interface
was introduced in 2002 and has now evolved to the HDMI 2.1 standard. With the
development of the industry, the HDMI 2.1 standard has been able to support 4K
120Hz and 8K 60Hz, and supports high dynamic range imaging (HDR), which can be
optimized for scenes or frames. Backwards compatible with HDMI 2.0 and HDMI
1.4. The main thing is that it is transmitted simultaneously with video and
audio.
Many of today’s
monitors have built-in speakers, and with an HDMI cable, you can simultaneously
transfer images and sounds, which is a big advantage of HDMI. Because of this,
HDMI is the most common interface for today’s displays. We should also prefer this
interface when we use it. There are several types of HDMI on the physical
interface. There are mainly standard HDMI interface, mini HDMI interface and
Micro HDMI interface. For long-distance transmission of HDMI cable, the wire is
generally hard, so try to use a device with a standard HDMI interface to get a
stable connection. The Mini HDMI interface and Micro HDMI interface are more
suitable for small devices.
DP Port
The DP (Display
Port) interface is a competitor of the HDMI interface. On some graphics cards
and displays, in addition to the HDMI interface, it also has a DP interface. At
present, the DP interface has been developed to version 1.4, which can transmit
10bit 4K 120Hz video, and can also support 8K 60Hz video. DP1.4 is compatible
with the USB Type-C interface, which means that we can use the DP1.4 protocol
to simultaneously transmit HD video while USB 3.1 is transmitting data. From a
trend perspective, this is very beneficial for promoting the upgrade of
peripheral audio and video equipment. Moreover, the DP interface can also
transmit sound synchronously on a single line to achieve the use of the display
sound.
Type-C Port
The USB interface
has long been known. In the past, the USB interface was designed to transmit
data, so it is very common in the use of storage devices such as mobile hard
disks. Now USB 3.1 Gen2 has reached 10Gbps speed, and the design standard can
also meet the video and data transmission, so on some monitors, the USB 3.1
interface can also be found. The current USB 3.1 interface has been able to
meet the resolution display of 4K 30P, which is roughly the same level as
HDMI1.4. However, it will be upgraded in the future and will become the most
common display transmission method. It should be noted that USB 3.1 Gen1 is USB
3.0, and USB 3.1 Gen2 is the real USB 3.1.
The advantage of
the Type C interface is that it can be plugged and unplugged. Some Type C
interfaces also have the functions of data, power and signal transmission. When
applied to the display, it can bring a lot of convenience. Type C notebook
users can charge and connect the display through an interface, and can also use
the USB interface extended on the display, greatly reducing the burden on the
notebook.
Display Port (DP) is a digital video
interface standard standardized by the Video Electronics Standards Association
(VESA) developed by the Alliance of PC and Chip Manufacturers. The interface is
authentication-free and license-free. It is mainly used for connecting video
sources and monitors, and also supports audio, USB and other forms of data.
This interface is designed to replace the
traditional VGA, DVI and FPD-Link (LVDS) interfaces. The interface is Backward
Compatibility with legacy interfaces such as HDMI and DVI through active or
passive adapters.
(Backward Compatibility, also known as
Downward Compatibility. In a computer, after a program or class library is
updated to a newer version, the document or system created with the old version
of the program can still be operated or used normally, or the program developed
on the basis of the old version of the class library can still be Normal
compilation and running.)
Display Port is the first display
communication port that relies on packetized data transmission technology. This
packetized transmission technology can be found in technologies such as
Ethernet, USB and PCI Express. The Display Port signal is not compatible with
DVI or HDMI. However, dual-mode Display Ports are designed to transmit a
single-link DVI or HDMI 1.2/1.4 protocol over the communication port, using an
external passive connector, selecting the desired signal, and routing the
electrical signal from LVDS. Convert to TMDS. Dual-mode Display Ports with
passive connectors do not support VGA and dual-link DVI. These communication
ports require an active connector to convert the protocols and signals that are
required for output. VGA connectors can be powered using the Display Port
connector, while dual-link DVI connectors may rely on external power supplies
(refer to HDMI, DVI, and VGA compatibility).
Advantage
1. Protocol based on small data packets
Allows easy extension of the Display Port
standard
Allow multiple video streams online in
separate entities (in future versions)
2. Designed to support the connection
between internal chips
Allows direct operation of the display
function options to remove the control loop of the display to produce a cheaper
and thinner display.
The goal is to replace the LVDS connection
inside the laptop panel with a unified link interface.
3. Allow backward compatibility with single
DVI/HDMI; dual DVI/HDMI and analog VGA connectors require adapters.
4. Support RGB and YCbCr color space (ITU-R
BT.601 and BT.709 format).
5. Auxiliary channels can be used for touch
panel data, USB links, cameras, microphones and more.
6. Less channels and embedded clock
frequencies reduce RF interference “RFI”.
7.
Support USB Type-C.
Technical specifications
1. DP1.4 up to 32.4Gbps bandwidth, can support
8K 60Hz, 4K 120Hz HDR high resolution.
2.8bit/10bit data transmission
3. Open and scalable standards can
accelerate adoption.
4. Support 6, 8, 10, 12 and 16 bit color
depth.
5. The full bandwidth of the cable is
guaranteed to be 3 meters in length.
The effective transmission bandwidth of
6.1080p is guaranteed to be 5 meters.
7. Supports 128-bit AES Display Port
Content Protection (DPCP), version 1.1 supports 40-bit HDCP.
8. Supporting both internal and external
links can enable computer manufacturers to reduce costs.
