TP-Link AC1300 PCIe Wireless Wifi PCIe Card Archer TE6

AC1300 PCIe Wi-Fi Card for desktop802. 11AC - The next generation of TP-Link's Archer T6E supports the next generation Wi-Fi standard - IEEE 802. 11AC, 

offering transfer rates that are 3 times faster than wireless N speeds. 

Easily upgrade your Desktop system by simply slotting the Wi-Fi adapter into an 

available PCIe slot. ac1300 – selectable Dual Band speeds 867/400mbpsthe Archer T6E Provides high-speed Wi-Fi of up to 867Mbps over 5GHz, perfect for 

HD video streaming and lag-free online gaming. 

Additionally, the 2. 4GHz 400Mbps Wi-Fi band is ideal for standard network/ Internet usage such as web surfing. heat sink for better stability heat sink helps to dissipate heat generated by the adapter, which in turn increases performance and improves stability. 

Additionally, lower temperatures ensure an increased adapter lifespan. external antennas external antennas for easy alignment to achieve the best signal. Check it Out !

High-Speed Dual Band for Better Wi-Fi Experience

Archer T6E supports the newest Wi-Fi standard - IEEE 802.11ac, offering transfer rates that are 3 times faster than wireless N speeds. The Archer T6E provides high-speed Wi-Fi of up to 867 Mbps over 5GHz, 400 Mbps over 2.4GHz. It’s perfect for HD video streaming, lag-free online gaming and web surfing. Up To 1300 MBPS.

Advanced Heat Sink for Better Stability

The advanced Heat Sink helps to dissipate heat generated by the adapter, which in turn increases performance and improves stability. What’s more, lower temperatures ensure an increased adapter lifespan.

External Advanced Antennas for Better Coverage

Two external antennas for easy alignment to achieve the best signal. The incorporation of advanced antennas and wireless technology allows you to enjoy stable connections and incredible coverage.

Easy Setup with Advanced Security

Archer T6E is compatible with Windows 10 / 8.1 / 8 / 7 / XP. And also support WPA/WPA2 encryption standards which ensure your wireless connection be safe from intruders.

Anker Wireless Charger, PowerWave Stand, Qi-Certified for iPhone 11, 11 Pro, 11 Pro Max, XR, Xs Max, XS, X, 8, 8 Plus, 10W Fast-Charging Galaxy S20 S10 S9 S8, Note 10 Note 9 and More (No AC Adapter)

PowerWave Stand

The Optimized Wireless Charging Stand

Versatile Viewing

Twin charging coils let you watch videos in landscape orientation, or stand in portrait mode for web browsing and facial recognition—all while keeping the power flowing.

Just in Case

Don’t worry about taking your case off whenever you have to charge. PowerWave delivers charging power directly through cases up to 5 mm thick—including Otterboxes.

Input: 5V-2A / 9V-2A

Output: 5W / 10W

Compatibility:

10W Fast Charge Mode: (Using Quick Charge 2.0/3.0 Adapter)

• Samsung Galaxy S10 / S9+ / S9 / S8 / S8+ / S7 edge / S7 / S6 edge+
• Samsung Note 10 / Note 9 / Note 8 / Note 7

5W Standard Charge Mode: (Using 5V/2A Adapter)

• iPhone 11 / 11 Pro / 11 Pro Max / XS Max / iPhone XR / iPhone XS / iPhone X / iPhone 8 / 8 Plus
• All other Qi-enabled phones and devices
• Pixel 3 / Pixel 3XL (The phone's screen will display the message: Charging slowly).

Notes:

• Do not use Apple's 5V / 1A stock charger or a computer's USB port to power your wireless charger.
• Place your phone on the center of the PowerWave Stand to ensure stable charging.
• Cases made of metal and attachments such as magnets, cards, and grips will interfere with charging.
• Quick Charge 2.0/3.0 wall adapter required for Fast Charge Mode.

Faster for Samsung

Optimized to match the charging requirements of the latest Samsung devices. A full charge takes 30 minutes less than other wireless chargers.

Universal Compatibility

Works with iPhone and other wirelessly charged devices.

Switch it Up

Place horizontally to enjoy videos while charging, or go vertical for video conferencing or to use facial recognition technology.

Through-Case Charging

PowerWave Stand supports charging through phone cases up to 5 mm thick. Please note that cases made of metal, and external attachments such as magnets, credit cards, grips, and stands will interfere with charging.

All-New 2020 Indoor HDTV Digital Antenna 4K HD Freeview Life Local Channels All Type Television Switch Amplifier Signal Booster to 150 Mile, Professional Round Shape

Tired of high monthly cable or satellite bills? Just Cut it Now! Come join our family make life better, easier and more fulfilling!

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• With Setek by DtillTop TV Antenna, enjoying popular national TV networks and local TV shows at no cost!
• Whether you’re streaming in HD, 4K, or HDR, you’ll get picture quality that’s optimized for your TV with crisp details 
• and rich color.

UPGRADED SIGNAL BOOSTING AMPLIFIER

Newest 2019 4K intelligent chip with powerful signal booster provides the best performance

The premium coaxial cable consists of a solid center conductor, dielectric insulation, 3 layers of aluminum 

shielding and durable PVC outer layer. Durable construction protects against Electromagnetic Interference 

and FM/AM Radio Frequency Interference, resulting in the best picture quality and consistent performance.

Crystal clear HDTV 4K 1080p picture with no pixelation. Enjoy ABC, CBS, Fox, NBC, pbs, the Cw, Univision & 

more! Channel varieties include local news, weather, sitcoms, kids and sports. Cut the cord on your cable and 

enjoy these free channels. No more insane monthly cable bills! This one-time payment of fewer than 30 dollars 

can save you $80 - $212 Every month or $960 - $2544 A year. I'm sure you can think of a lot of valuable

 opportunities those savings can create.

Our product offers one of the most powerful Ranges on the market. Powered with an upgraded signal-boosting 

amplifier. With 80+ miles of range, you should have no issues in finding a variety of channels. Its game-changing 

round design offers a very strong signal.

elegant paper-thin design with a round shape that fits any interior. If desired, This allows the product to be easily 

hidden within your home's surroundings. Give your home a modern look with this high-tech looking TV antenna. 

You could even get compliments from your friends when they come over for sports games on how nice your new 

device looks within your home.

this simple plug and play device will leave you head-ache free. See the instructions below. We're sure with such 

simple instructions that even if you're not tech-savvy you can figure This out. No need to ask your kids or grandkids 

for help setting up your new toy.
we're confident you'll be satisfied with our product with all the money you will be saving per month. Our team is 

always working on bringing the highest quality and affordable products to the market. If you for any reason are

 having technical issues; please contact our 24/7 support. We're always happy to assist our customers and will 

walk you step by step through any issues.

Network Antenna Analyzer

For 10KHz-1.5GHz MF HF VHF UHF
Measuring S parameters, voltage standing wave ratio, phase, delay, Smith chart and the like

What are S-parameters? 
S-parameters are complex matrix that show Reflection/Transmission characteristics (Amplitude/Phase) in frequency domain. This type of test equipment is called “Stimulus/Response” and applies to both Vector Network Analyzers (VNA) and Time Domain Reflectometers (TDR). A two-port device has four S-parameters. The numbering convention for S-parameters is that the first number following the “S” is the port where the signal emerges, and the second number is the port where the signal is applied. So S21 is a measure of the signal coming out port 2 relative to the RF stimulus entering port 1. When the numbers are the same (e.g., S11), in indicates a reflection measurement, as the input and output ports are the same.

2.8 TFT Touchscreen

You can move the mark point or perform a menu operation via your hand directly or multi-functional switch.You could also rotate the wheel to operate it. Pressing is confirm.Left/Right rotation to move the selection.

10kHz-1.5GHz Frequency

New Upgraded! The measurement frequency up to 1.5GHz.Based on odd harmonic extension of si5351,new upgraded version- NanoVNA-H will transmit the signal with maximum efficiency and minimum distortion. Frequency Accuracy: 0.5PPM.

USB-C to USB-C

Compare with old version NanoVNA, it supports time domain analysis function (TDR), and more convenient to connect to mobile phones. Compatible with most Android mobile phones.

Support Windows Computer Control

Output Graph

Nonresonant single-wire longwire antennas

The resonant longwire antenna is a standing wave antenna, because it is unterminated at the far end. A signal propagating from the feedpoint, toward the open end, will be reflected back toward the source when it hits the open end. The interference between the forward and reflected waves sets up stationary standing current and voltage waves along the wire.

A nonresonant longwire is terminated at the far end in a resistance equal to its characteristic impedance. Thus, the incident waves are absorbed by the resistor, rather than being reflected. Such an antenna is called a traveling wave antenna. Figure 9-8 shows a terminated longwire antenna. 

The transmitter end is like the feed system for  other longwire antennas, but the far end is grounded through a terminating resistor R1 that has a resistance R equal to the characteristic impedance Zo of the antenna (i.e., R = Zo). When the wire is 20 to 30 ft above the ground, Zo is about 500 to 600 Ω.

The radiation pattern for the terminated longwire is a unidirectional version of the multilobed pattern found on the unterminated longwires. The angles of the lobes vary with frequency, even though the pattern remains unidirectional. 

The directivity of the antenna is partially specified by the angles of the main lobes. It is interesting to note that gain rises almost linearly with nλ, while the directivity function changes rapidly at shorter lengths (above three or four wavelengths the rate of change diminishes considerably). 

Thus, when an antenna is cut for a certain low frequency, it will work at higher frequencies, but the directivity characteristic will be different at each end of the spectrum of interest.

A two-wavelength (2λ) pattern is shown in Fig. 9-7. There are four major lobes positioned at angles of ±36° from the longwire. There are also four minor lobes— the strongest of which is –5 dB down from the major lobes—at angles of ±75° from the longwire. Between all of the lobes, there are sharp nulls in which little reception is possible. 

As the wire length is made longer, the angle of the main lobes pulls in tighter (i.e., toward the wire). As the lobes pull in closer to the wire, the number of minor lobes increases. At 5λ, there are still four main lobes, but they are at angles of ±22°from the wire. Also, the number of minor lobes increases to 16. 

The minor lobes are located at ±47°, ±62°, ±72°, and ±83° with respect to the wire. The minor lobes tend to be –5 to –10 dB below the major lobes. When the longwire gets very much longer than 5λ, the four main lobes begin to converge along the length of the wire, and the antenna becomes bidirectional. This effect occurs at physical lengths greater than about 20λ.

In general, the following rules apply to longwire antennas:

• On each side of the antenna, there is at least one lobe, minor or major, for each half-wavelength of the wire element. For the overall element, there is one lobe for every quarter-wavelength.

• If there are an even number of lobes on either side of the antenna wire, then half of the total number of lobes are tilted backward, and half are tilted forward; symmetry is maintained.

• If there are an odd number of lobes on either side of the wire, then one lobe on either side will be perpendicular to the wire, with the other lobes distributed either side of the perpendicular lobe.

(source : Practical Antenna Handbook by Joseph J. Carr)