PCI-e PCI Express 3.0 1X to 16X Extension Cable for Speed Data
Transfer.
Product specifications:
1.High Speed flexible cable is for 1U,2U chassis, Supports high
speed PCI-E 1X, 4X,8X and16X card, but work at 1X speed only.
2.Total length: 24cm, cable length: 20cm,Utilize high quality
flexible cable which is extremely soft and compact.
3.Experienced design and durable material for High frequency and
low attenuation, golden finger protection cover design.
4.PCB-Swaddled and fixed with Bolts and nut to prevent tearing and
short circuit for PCB-Cable solder points.
5.Stable PCIe Gen3 8Gbps or higher with high quality Axial Cable.
Easy to install it in 1U/2U case in any angle.
Product Overview:
This product is a highly flexible and practical PCI-E extension
cable designed to solve problems arising from distance limitations
or layout requirements in computer hardware device connections. It
features a unique design that connects one end to a PCI-E 16X slot
for connecting various PCI-E devices, and the other end to a PCI-E
1X slot on the motherboard. It is compatible with PCI-E interfaces
of different bandwidths (1X, 4X, 8X, 16X) and has the advantage of
customizable cable lengths. It also ensures that the transmission
speed will not decay at the standard PCI-E 3.0 transmission rate,
making it widely applicable to various scenarios such as computer
assembly, server construction, hardware expansion, etc., providing
users with a convenient and reliable hardware connection solution.
| PCl Express version | Coding scheme | Transfer rate | Throughput |
| X1 |
| 1.0 | 8b/10b | 2.5 GT/s | 250MB/s |
| 2.0 | 8b/10b | 5 GT/s | 500MB/s |
| 3.0 | 128b/130b | 8 GT/s | 984.6MB/s |
Product features:
1. Wide compatibility between devices and motherboards:
Device side: The PCI-E 16X slot connected to the device side can flexibly
support PCI-E 16X, 8X, 4X, and 1X devices. Whether it is
high-performance graphics cards, professional sound cards,
high-speed network cards, or other expansion devices that comply
with the PCI-E standard, they can be perfectly adapted to ensure
stable connection and normal operation of the device, fully
leveraging its performance advantages to meet users' different
hardware expansion needs, allowing users to choose and match
hardware devices without worrying about interface compatibility
issues.
2. Motherboard connection end: The motherboard connection section adopts the PCI-E 1X interface
design, but is compatible with the PCI-E 1X, 4X, 8X, and 16X slots
on the motherboard, with excellent versatility. Regardless of the
bandwidth of the PCI-E slot provided by the motherboard, this
product can easily interface with it, greatly expanding the
product's applicability and facilitating hardware expansion on
motherboards of different specifications. It provides more
flexibility and convenience for scenarios such as computer assembly
and server setup.
3. Customizable wire length advantage: The wire length can be customized according to the actual needs of
users, which makes it versatile in various complex chassis
environments and hardware layout scenarios. Whether in a spacious
large chassis, devices need to be placed in distant locations to
optimize heat dissipation or wiring; Still in a compact small
chassis, due to special installation requirements, the distance
between the device and the motherboard needs to be adjusted. Users
can customize the appropriate wire length to achieve an ideal
hardware layout, effectively solving the hardware installation
difficulties caused by space limitations, improving the utilization
of internal space in the chassis, while maintaining the stability
and aesthetics of the overall hardware system.
4. Stable transmission performance guarantee: One of the most prominent features is the outstanding performance
in transmission speed, which can ensure that the transmission speed
will not decay at the standard PCI-E 3.0 transmission rate. This is
thanks to the high-quality transmission cables and advanced signal
processing technology used in the product. Even if the length of
the extension cable changes, it can accurately maintain the
integrity and stability of the signal, avoiding problems such as
data transmission delay and packet loss caused by line extension.
It ensures high-speed and stable data interaction between various
PCI-E devices and motherboards, allowing users to fully enjoy the
powerful performance they should have when using high-performance
hardware devices, meeting the demanding data transmission
requirements of applications such as large-scale game operation,
professional graphics processing, and high-speed network
communication.
Product interface introduction:
Device side PCI-E 16X slot: Designed and manufactured strictly in accordance with the 16X
interface specification under the PCI-E 3.0 standard, the internal
gold fingers are made of high-quality alloy material and processed
with fine gold plating technology, possessing excellent
conductivity, extremely low contact resistance, and excellent
oxidation resistance, ensuring a tight and stable connection with
the gold fingers of various PCI-E devices, achieving reliable
electrical connection, and laying a solid foundation for data
transmission. The slot is equipped with a stable fixed structure
around it, which is fixed by buckles or screws (depending on the
device design) to ensure that the device will not loosen or shift
due to vibration, collision, and other factors after insertion,
ensuring the stability of device operation and allowing the device
to continuously and stably exchange data with the motherboard even
under long-term high load transportation.
The motherboard connection end PCI-E 1X interface: also built according to the PCI-E 3.0 standard, although the
interface bandwidth is 1X, it performs excellently in compatibility
and can be accurately adapted to PCI-E slots with different
bandwidths on the motherboard. The internal pin layout is optimized
according to the PCI-E 3.0 signal transmission specification to
ensure efficient and stable data transmission with the motherboard
slot. The external design of the interface emphasizes stability,
and through a reasonable structural design, it can tightly fit into
the motherboard slot to prevent loosening, and can withstand
various physical factors in the motherboard working environment,
ensuring long-term stable connection and providing strong guarantee
for the reliable operation of the entire hardware system.
Transmission advantages:
Standard PCI-E 3.0 speed maintenance: With high-quality cables and carefully optimized internal circuit
design, this product can strictly comply with the PCI-E 3.0
transmission standard, achieving theoretical high-speed
transmission rates. Whether in short or long distance connections,
it can ensure that data is transmitted between the device and the
motherboard at the appropriate speed, such as the large amount of
data transmission between the graphics card and the motherboard
during 3D game rendering, the high-speed interaction between
professional audio equipment and the motherboard when processing
high fidelity audio signals, or the large amount of data
transmission and reception between network cards and motherboards
in data center servers, all of which can ensure the efficiency of
the transmission process, avoid problems such as lag and delay
caused by limited transmission speed, and meet the strict
requirements of modern high-performance hardware devices for data
transmission.
Signal integrity assurance: During the use of extension cables, advanced signal enhancement,
shielding, and conditioning technologies are adopted to effectively
overcome issues such as signal attenuation and interference that
may arise from line extension. Even in complex electromagnetic
environments, such as electromagnetic interference generated by
multiple electronic devices running simultaneously inside the
chassis, the product can ensure the integrity and accuracy of the
transmitted signal, maintain a low bit error rate, ensure stable
and reliable data transmission, and allow users to use various
PCI-E devices with peace of mind without worrying about device
performance and data security being affected by the use of
extension cords.
Usage:
Determine cable length and customize: Based on the internal space
layout of the chassis and the installation location requirements of
hardware devices, determine the required extension cable length in
advance, contact the manufacturer for customization (or follow the
customization process provided by the product), ensure that the
customized cable length can meet the actual usage scenario, enable
reasonable connection between the device and the motherboard, and
avoid problems such as messy wiring caused by excessive cable
length.
Connect device end: After receiving the customized PCI-E extension
cable, carefully align the PCI-E 16X slot on the device end with
the gold finger of the PCI-E device (such as graphics card, sound
card, etc.) that needs to be connected. Pay attention to the anti
insertion error mark on the gold finger and the corresponding
features of the slot to ensure correct orientation. Then, smoothly
insert the device into the slot until it is fully inserted and
stable. For heavier devices, they can be further secured to the
slot using the device's built-in fixing method (such as screws) to
prevent loose connections due to the device's own weight or chassis
vibration.
Connect the motherboard end: Carefully align the PCI-E 1X interface
of the extension cable motherboard connection end with the
corresponding PCI-E slot on the motherboard (which can be 1X, 4X,
8X, or 16X slot, choose the appropriate available slot according to
the actual situation of the motherboard), and also refer to the
markings on the interface to ensure correct orientation. Gently
insert the interface into the motherboard slot until it is fully
inserted and tightly fitted, ensuring that the interface is firmly
connected to the motherboard. This can be confirmed by checking
whether the buckle is stuck or whether the screw is tightened, to
avoid loosening during computer operation.
System detection and usage: After connecting the device and
motherboard, start the computer. The system will automatically
recognize the connected PCI-E device and load the corresponding
driver program (some devices may require manual driver
installation, users can refer to the driver installation
instructions provided with the device for operation). After the
driver installation is completed, the connected PCI-E device can be
used normally, enjoying the various functions and performance
advantages brought by the device as usual. It can be used for work,
entertainment and other operations in different application
scenarios, and the stable transmission performance of this
extension cable can be felt through the device's operating status
and actual experience during use.
Applicable scenarios:
Computer gamers: For players who pursue the ultimate gaming
experience, the internal space of the chassis sometimes limits the
installation position of high-performance graphics cards, or they
hope to optimize the heat dissipation effect inside the chassis by
adjusting the distance between the graphics card and the
motherboard. The customizable cable length and good support for
PCI-E 16X graphics cards of this product enable players to flexibly
layout the position of the graphics card, while ensuring stable and
high-speed data transmission between the graphics card and the
motherboard. This ensures that the graphics card can fully utilize
its strong graphics processing capabilities during long-term high
load game operation, bringing smooth and realistic game graphics
and enhancing the gaming experience.
Professional graphic design and video editing personnel: In
professional fields such as graphic design, 3D modeling, and video
editing, it is often necessary to use high-performance PCI-E
devices such as graphics cards and video capture cards, which
require extremely high data transmission speed and stability. This
extension cable can not only meet the interface requirements of
different devices, but also be installed reasonably according to
the actual working environment and chassis layout requirements by
customizing the appropriate cable length, ensuring efficient data
transmission between the device and the motherboard, avoiding
software lag, rendering delay and other situations caused by
transmission problems, improving work efficiency, and helping
professionals better complete creative projects.
Server setup and maintenance: When setting up a server, multiple
types of PCI-E devices such as network cards, RAID cards, GPU
acceleration cards, etc. need to be installed, and the internal
space of the server chassis is complex, requiring high hardware
layout and wiring requirements. This product, with its wide
compatibility and customizable cable length, can help server
builders arrange the positions of various devices in a limited
chassis space according to factors such as device functionality and
heat dissipation requirements, optimize wiring structure, ensure
stable and efficient connection between all PCI-E devices and the
main board, improve the overall stability and maintainability of
the server, and meet the requirements of enterprise level
applications for server performance and reliability.
Computer hardware enthusiasts and DIY enthusiasts: Enthusiasts of
computer hardware modification and personalized customization often
hope to try various unique hardware layouts and creative designs.
This PCI-E extension cable provides them with more possibilities by
customizing cables of different lengths to achieve various novel
hardware arrangements and combinations, breaking through the
limitations of traditional chassis space and layout, creating a
unique computer host, while ensuring the normal operation of all
PCI-E devices, fully showcasing their personality and creativity,
and exploring the infinite potential of computer hardware.
20mm PCI-E PCI Express 1X To 16X Extension Cable With Gold Plated Connector
