Cat5e vs. Cat6 RJ45 Cable: Ethernet Cables Comparison

Catalog

Cat5e vs Cat6: RJ45 Cable Overview

What Is Cat5e Cable?

What Is Cat6 Cable?

Cat5e vs Cat6 RJ45 Cable: What’s the Difference?

Conclusion



To meet the ever-increasing need of higher performance data centers, Ethernet cable development has never ceased. The two most popular Ethernet cables on the market right now are Cat5e and Cat6 RJ45 cables. As revealed by their names, the numbers and letters "5e" and "6" distinguish them from one another. What exactly do these words mean? What is the difference between Cat5e and Cat6 RJ45 cables? This article is dedicated to answering this question.

cat5e vs. cat6

Figure 1: Cabling of Cat5e vs Cat6 RJ45 cable.

Cat5e vs Cat6: RJ45 Cable Overview

Cat5e and Cat6 are two different Ethernet cables classified by standard categories. The “Cat” refers to “Category of cable”, and the terms “5e” and “6” refer to different standard of category.

What Is Cat5e Cable?

Cat5e cable (Category 5e cable) is an enhanced version of Cat5. While inheriting the construction and 100MHz bandwidth of its predecessor, Cat5e improves performance by introducing optimized specifications in data rate and crosstalk defense. It transfers data at 10 times the speed of Cat5 cable, up to 1000Mbps. It supports Gigabit Ethernet and frequently used in home networking environment with various lengths and premise wiring.

 

cat5e


Figure 2: This photo shows a Cat5e UTP Ethernet patch cable.

What Is Cat6 Cable?

Cat6 cable (Category 6 cable) is a standard twisted-pair cable for Ethernet and other network layers. It has a 250MHz bandwidth and can rate up to 10Gbps in a limited distance of 55 meters. It can also reach to 100 meters (328 feet) at a slow rate of 1000Mbps. For its high speed, Cat6 cable is widely used to handle 10GbE. Moreover, Cat6 has excellent capability to reduce crosstalk due to improved shielding and twisted-pair cable design.

 

cat6


Figure 3: This photo shows a Cat6 UTP Ethernet patch cable.

Cat5e vs Cat6 RJ45 Cable: What’s the Difference?

Category

Cat5e

Cat6

Interface

RJ45

RJ45

4 twisted-pair Wires

Yes

Yes

Bandwidth

100MHz

250MHz

Maximum Length

100 m

100m in slow network (≦1000Mbps);
55m in high network (10Gbps)

Data Rate

1Gbps

10Gbps over short distance (33-55m);
1Gbps within 100m

Crosstalk

Far Less than Cat5; More than Cat6

Less crosstalk; high SNR

Cost

cheaper

20% higher

As the table shown, although Cat5e and Cat6 RJ45 cable share commons in RJ45 connector and construction feature of twisted-pair copper wires, they are totally different standards of Ethernet cable. Cat5e RJ45 cable has lower level of transmission performance, while Cat6 RJ45 cable is optimized with a 250MHz bandwidth, higher data rate and stronger resistance to crosstalk and noise. The following passage will focus on the illustration of their functional differences.

Crosstalk

image

Both Cat5e and Cat6 are comprising of 4 twisted-pair copper wires with a longitudinal separator to isolate them. This design can reduce electromagnetic interface among different wires. Compared with Cat5e, while providing equal level far end crosstalk (FEXT), return loss and insertion loss, Cat6 features lower near end crosstalk (NEXT). Simply put, Cat6 cable have high SNR (Signal Noise Ratio), which provide less noise, fewer errors and higher data rate in signal transmission.

Date rate

Cat5e cable is limited at a 100MHz bandwidth, while Cat6 cable has a high bandwidth of 250MHz, which leads to different data rate. Cat5e can reach up to 1Gbps at a distance of 100 meters. The data rate of Cat6 varies based on its maximum length. Over long distance transmission within 100 meters, maximum data rate of Cat6 is 1000Mbps. In short length limited in 55 meters, it can support 10 Gigabit Ethernet. It is noted that in high crosstalk condition a transfer distance only within 33 meters is available.

In addition to the differences mentioned in the catalog between Cat5e and Cat6 RJ45 cables, there are a few other aspects you may consider when choosing between them:

  1. Bandwidth: Cat6 cables generally offer higher bandwidth compared to Cat5e cables. This means that Cat6 cables can support faster data transmission rates and are better suited for applications that require high-speed data transfer, such as streaming video or large file transfers.

  2. Cable Length: The maximum recommended length for Cat5e cables is 100 meters, while Cat6 cables can support lengths up to 55 meters for 10GBASE-T (10 Gigabit Ethernet) connections. If you need to cover longer distances, Cat6 cables may be more suitable.

  3. Future-proofing: Cat6 cables are designed to meet more stringent specifications and provide better performance compared to Cat5e cables. If you anticipate future network upgrades or higher bandwidth requirements, investing in Cat6 cables may be a more future-proof choice.

  4. Cost: Cat6 cables are generally more expensive than Cat5e cables due to their higher performance capabilities. Consider your budget and the specific requirements of your network to determine the most cost-effective option for your needs.

  5. Installation: Cat6 cables are slightly thicker and less flexible than Cat5e cables. This may affect the ease of installation, especially in tight spaces or when routing cables through walls or ceilings. Consider the installation environment and any potential constraints you may encounter.

Remember to assess your specific networking needs and consult with professionals or experts if you are unsure which cable type is best suited for your application.


Conclusion

This article made a comparison and contrast between Cat5e vs Cat6 RJ45 cable. While finding some similarities, it focus on their functional difference: crosstalk resistance ability and data rate. Cat6, as a descendant of Cat5, it owns higher standard of SNR and data rate, which gives it an edge in higher performance conditions required 10 Gigabit Ethernet.

Read Articles:

RJ45 Connector: Color Code, Applications, and Usage Guidelines


Frequently Asked Questions

What are the disadvantages of Cat6?
The drawbacks of cat6 are: The cabling is more expensive than in previous generations. It will only offer the gigabit network if every network component is running at that speed.
Which is faster, Cat5e or Cat6?
Both Cat5e and Cat6 are Ethernet cables used for networking purposes. Cat6 is technically faster than Cat5e because it has a higher bandwidth capacity. Cat5e supports speeds up to 1,000 Mbps (1 Gbps) and frequencies up to 100 MHz, while Cat6 supports speeds up to 10,000 Mbps (10 Gbps) and frequencies up to 250 MHz. However, it’s important to note that the actual speed you can achieve will also depend on other factors such as the network equipment and the quality of the installation.

Related Articles

MPC8270CVVUPEA Microprocessor Datasheet, Pinout, Equivalents

Release time:2023-12-07       Page View:292
1.27mm PowerPC G2_LE 1.53.3V 32-bit Microprocessor MPC82xx Series MPC8270 1.5V 480-LBGA Exposed PadMPC8270CVVUPEAOverviewThe MPC8270CVVUPEA is a specific model ofmicroprocessor in the PowerQUICC II Pro family, manufactured by NXP Semiconductors. It is a highly integrated processor that combines a Pow...

IRF640NPBF Specification, Model, Datasheet

Release time:2023-12-06       Page View:201
This post provide detailed information about IRF640NPBF Specification, Model, Datasheet

S1M Diode: Datasheet, Pinout, Alternatives

Release time:2023-12-05       Page View:2043
Diode 1000 V 1A Surface Mount DO-214AC (SMA)S1MDiodeS1MOverviewDescriptionIn the world of commodity rectifiers, onsemi S1 family of 1 A, P−I−N, SMA rectifiers stand out for their optimized low leakage, low capacitance, and fast response time. This was achieved while maintaining the industry standard VF max of 1.1 V at 1 A a...

XCF04SVOG20C Datasheet, Pinout, Application

Release time:2023-12-04       Page View:305
XCF04SVOG20C DescriptionThe Platform Flash series of in-systemprogrammable configuration PROMs. Available in1 to 32 Mb densities, these PROMs provide an easy-to-use,cost-effective, and reprogrammable method for storing largeXilinx FPGA configuration bitstreams. The Platform FlashPROM series includes both the 3.3V XCFxxS...

TPS5430DDAR PWM Converter Datasheet, Applications, Pinout

Release time:2023-12-01       Page View:263
Switching Voltage Regulators 5.5 to 36V Input 3A Step Dwn ConverterTPS5430DDAROverview The TPS543x has a standard input start-up voltage of 5.3V. The ENA pin can be used to turn off the TPS543x, lowering the supply current to 18 A. When the ENA pin is floating, an internal pullup current source allows operation. The TPS5...

AG10 vs A23 Batteries: Understanding the Difference

Release time:2023-11-28       Page View:739
Batteries are an essential part of our daily lives, powering a wide range of devices from remote controls to keyless entry systems. When it comes to small, button-cell batteries, the AG10 and A23 are two common types that are often used interchangeably. However, there are important differences between these two battery types that are worth understandin...

SIP-KITNXH001 vs. SIP-KITNXH002 DK: A Comparative Analysis

Release time:2023-11-27       Page View:848
Introduction:In the fast-paced world of technology, companies are constantly striving to innovate and develop newer, more advanced products. This holds particularly true for the field of telecommunications, where a multitude of components come together to enable seamless and reliable communication. In this article, we will compare two prominent products ...

BF998 Datasheet, Replacement, Applications

Release time:2023-11-24       Page View:1750
Trans RF MOSFET N-CH 12V 0.03A 4-Pin(3+Tab) SOT-143B

LR44 Battery vs 357 vs SR44: Equivalent, Specifications

Release time:2023-11-23       Page View:2414
LR44, 357, and SR44 are popular choices. These batteries are compact, widely available, and serve as power sources for a range of electronics. In this article, we will compare LR44, 357, and SR44 batteries in terms of their equivalency and specifications.

74HC244D vs 74HC244D,653 vs MM74HC244WM vs SN74LV244A Line Driver

Release time:2023-11-20       Page View:224
In this article, we will compare four popular ICs: 74HC244D, 74HC244D,653, MM74HC244WM, and SN74LV244A. We will delve into their descriptions, CAD models, features, applications, alternatives, dimensions, datasheet PDFs, specifications, and conduct a comprehensive product comparison.s

SN74HC74N Dual D-type Flip-Flop: Datasheet, Pinout, Applications

Release time:2023-11-17       Page View:960
2V~6V 60MHz D-Type Flip Flop DUAL 74HC74 14 Pins 74HC Series 14-DIP (0.300, 7.62mm)The Texas Instruments SN74HC74N is a dual D-type positive-edge-triggered flip-flop with clear and preset. This article will introduce its pinout, applications and datasheet.

AXG210144 Connector: Datasheet,CAD-Model,Dimension

Release time:2023-11-17       Page View:536
CatalogAXG210144DescriptionAXG210144CAD ModelAXG210144FeaturesAXG210144ApplicationsAXG210144AlternativesAXG210144DimensionAXG210144Datasheet PDFSpecificationsProduct comparisonFeatureFEATURES1.Width 1.7 mm slim and low profile two-piece type connectorMated height 0.6 mm/0.8mmSmaller compared to A35US• Wid...
RFQ