5G Devices
What is 5G?
5G (fifth-generation wireless) is the latest iteration of cellular technology, and the upcoming evolution of wireless 4G LTE, which is mostly used today for wireless mobile networks. 5G is engineered to greatly increase the speed and responsiveness of wireless networks. It offers incredibly fast wireless communication that can be used to transmit all sorts of data at rates as high as 20 Gbps by some estimates -- exceeding wireline network speeds -- as well as offer latency of 1 ms or lower for uses that require real-time feedback. 5G networks offer more reliable connections on smartphones and other devices than ever before. The networks will help power a huge rise in the Internet of Things technology, providing the infrastructure needed to carry huge amounts of data, allowing for a smarter and more connected world.
Apart from fast mobile networks, 5G will also be used to deliver internet to your home. Its speed is also suited for upcoming technologies, such as providing a continuous stream of data required for many self-driving-car systems. With development well underway, 5G networks are expected to launch across the world by 2020, working alongside existing 3G and 4G technology to provide speedier connections that stay online no matter where you are.
What will we benefit from 5G?
- > Faster download and upload speeds
- > Smoother streaming of online content
- > Higher-quality voice and video calls
- > More reliable mobile connections
- > Greater number of connected IoT devices
- > An expansion of advanced technologies - including self-driving cars and smart cities
How fast could the 5G reach?
It’s still not exactly known how much faster 5G will be than 4G, as much of the technology is still under development. Most estimates expect the average speed of 5G networks to reach 10Gb/s, and some even think transfer rates could reach a whopping 800Gb/s. This would mean that users could download a full-length HD quality film in a matter of seconds and that downloading and installing software upgrades would be completed much faster than today.
How does 5G Work?
Wireless networks are composed of cell sites divided into sectors that send data through radio waves. Fourth-generation (4G) Long-Term Evolution (LTE) wireless technology provides the foundation for 5G. Unlike 4G, which requires large, high-power cell towers to radiate signals over longer distances, 5G wireless signals will be transmitted via large numbers of small cell stations located in places like light poles or building roofs. The use of multiple small cells is necessary because the millimeter wave spectrum -- the band of spectrum between 30 GHz and 300 GHz that 5G relies on to generate high speeds -- can only travel over short distances and is subject to interference from weather and physical obstacles, like buildings.
Previous generations of wireless technology have used lower-frequency bands of spectrum. To offset millimeter wave challenges relating to distance and interference, the wireless industry is also considering the use of lower-frequency spectrum for 5G networks so network operators could use the spectrum they already own to build out their new networks. Lower-frequency spectrum reaches greater distances but has lower speed and capacity than millimeter wave, however.
5G Frequency Bands
On 21st December 2017, in Lisbon, the 3GPP TSG RAN Plenary Meeting successfully approved first implementable 5G NR specification. The completion of the first 5G NR standard enables the full-scale development of 5G NR for large-scale trials and commercial deployments as early as in 2019. This first specification was completed as part of 3GPP Release 15.
As per 3GPP release 15, the frequency bands for 5G NR have been designated and TS 38.104 section 5.2 provides the list of bands in which 5G NR can operate. The specification defines the frequency bands as FR1 and FR2.
Band |
Frequency |
Type |
FR1 |
450 to 6000 MHz |
Sub-6 GHz |
FR2 |
24250 to 52600 MHz |
mm-Wave |
FR1 and FR2 are the basic frequency band classifications for 5G-NR. These can be further classified into three bands:
- Frequency Division Duplex Bands (FDD)
- Time Division Duplex Bands (TDD)
- Supplementary Bands: Supplementary Downlink Bands (SDL) & Supplementary Uplink Bands (SUL)
FR1 FDD (Frequency Division Duplex) Frequency Bands for 5G-New Radio
5G NR Band |
Uplink Frequency |
Downlink Frequency |
Bandwidth |
n1 |
1920 -1989 MHz |
2110 - 2170 MHz |
60 MHz |
n2 |
1850 - 1910 MHz |
1930 - 1990 MHz |
60 MHz |
n3 |
1710 - 1785 MHz |
1805 - 1880 MHz |
75 MHz |
n5 |
824 - 849 MHz |
869 - 894 MHz |
25 MHz |
n7 |
2500 - 2670 MHz |
2620 - 2690 MHz |
70 MHz |
n8 |
880 - 915 MHz |
925 - 960 MHz |
35 MHz |
n20 |
832 - 862 MHz |
791 - 821 MHz |
30 MHz |
n28 |
703 - 748 MHz |
758 - 803 MHz |
45 MHz |
n66 |
1710 - 1780 MHz |
2110 - 2200 MHz |
90 MHz |
n70 |
1695 - 1710 MHz |
1995 - 2020 MHz |
15/25 MHz |
n71 |
663 - 698 MHz |
617 - 652 MHz |
35 MHz |
n74 |
1427 - 1470 MHz |
1475 - 1518 MHz |
43 MHz |
FR1 TDD (Time Division Duplex) Frequency Bands for 5G-New Radio
5G NR Band |
Uplink Frequency |
Downlink Frequency |
Bandwidth |
n38 |
2570 - 2620 MHz |
2570 - 2620 MHz |
50 MHz |
n41 |
2469 - 2690 MHz |
2496 - 2690 MHz |
194 MHz |
n50 |
1431 - 1517 MHz |
1432 - 1517 MHz |
85 MHz |
n51 |
1427 - 1432 MHz |
1427 - 1432 MHz |
5 MHz |
n77 |
3300 - 4200 MHz |
3300 - 4200 MHz |
900 MHz |
n78 |
3300 - 3800 MHz |
3300 - 3800 MHz |
500 MHz |
n79 |
4400 - 5000 MHz |
4400 - 5000 MHz |
600 MHz |
FR1 Supplementary Downlink Bands (SDL) & Supplementary Uplink Bands (SUL) for 5G-New Radio
5G NR Band |
Uplink Frequency |
Downlink Frequency |
Bandwidth |
Type |
n75 |
- |
1432 - 1517 MHz |
85 MHz |
SDL |
n76 |
- |
1427 - 1432 MHz |
5 MHz |
SDL |
n80 |
1710 - 1785 MHz |
- |
75 MHz |
SUL |
n81 |
880 - 915 MHz |
- |
35 MHz |
SUL |
n82 |
832 - 862 MHz |
- |
30 MHz |
SUL |
n83 |
703 - 748 MHz |
- |
45 MHz |
SUL |
n84 |
1920 - 1980 MHz |
- |
60 MHz |
SUL |
5G NR Frequency Bands in FR2
5G NR Band |
Band Alias |
Uplink Band |
Downlink Band |
Bandwidth |
Type |
n257 |
28 GHz |
26.5 - 29.5 GHz |
26.5 - 29.5 GHz |
3 GHz |
TDD |
n258 |
26 GHz |
24.250 - 27.5 GHz |
24.250 - 27.5 GHz |
3.250 GHz |
TDD |
n260 |
39 GHz |
37 - 40 GHz |
37 - 40 GHz |
3 GHz |
TDD |
5G Applications
5G’s speed and reduced latency have the potential to transform entire industries.
Cars
Connected cars are a key growth driver. Futurists predict that the self-driving vehicles of the future will exchange cloud management info, sensor data, and multimedia content with one another over low-latency networks. According to ABI Research, 67 million automotive 5G vehicle subscriptions will be active, three million of which will be low latency connections mainly deployed in autonomous cars.
IoT
According to Asha Keddy, general manager of mobile standards for advance tech at Intel, 5G will be the first network designed with the Internet of Things (IoT) in mind. “These next-generation networks and standards will need to solve a more complex challenge of combining communications and computing together,” Keddy told Quartz in an interview ahead of the 2017 Mobile World Congress. “With 5G, we’ll see computing capabilities getting fused with communications everywhere, so trillions of things like wearable devices don’t have to worry about computing power because the network can do any processing needed.” Eventually, everything from wearables to internet-connected things such as washing machines, smart meters, traffic cameras, and even trees with tiny sensors could be connected.
Virtual reality and augmented reality
5G could bring about advances in virtual reality and streaming video. Sprint recently demonstrated streaming wireless VR at the Copa America soccer tournament, and Huawei showed a demo of 360-degree video streamed live from a 5G network.
Cloud-powered apps
Remote storage and web apps stand to benefit from 5G. “The cloud becomes an infinite extension of your phone’s storage,” El-Kadi said. “You never have to worry about running out of photo space.”
In addition to additional phone storage, you may see a significant difference in mobile hardware design overall. With 5G many of the computing tasks completed on your device can be moved to the network. Since the devices will not require the same computing capabilities, we may see so-called “dummy phones” with minimal hardware using the network to complete tasks. The transfer of power from the device to the network also means that your cell phone may have greater longevity as it will not necessarily require incremental hardware improvements to keep pace.
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Samsung Galaxy Note10+ SM-N9760 5G
* 6.8 inches, 1440 x 3040 pixels display resolution
* Android 9.0 (Pie),Qualcomm SDM855 Snapdragon 855 or Exynos 9825 Octa chipset
* 12GB RAM /256GB ROM
* Triple main camera and single front camera
* Wi-Fi 802.11 a/b/g/n/ac/ax, dual-band, Wi-Fi Direct, hotspot
* Non-removable Li-Ion 4300 mAh battery
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China Mobile Pioneer X1 5G Cell Phone
* China Mobile 5G Mobile Phone
* Qualcomm Snapdragon 855 chipset
* Android v9.0 (Pie) OS, Dual-SIM and triple AI Camera
* 6.47 inches display, 1080 x 2340 Pixels resolution
* Built-in Li-ion 4000 mAh battery
* Main Camera: 48M + 20M + 8M
Learn More$959.00 -
Xiaomi Mi 9 Pro 5G
* 6.5 inches, 1080 x 2340 pixels, Android 9.0 (Pie)/MIUI 10
* Chipset: Qualcomm SDM855 Snapdragon 855+ (7 nm)
* 128GB ROM + 6GB RAM, dual-sim(Nano-sim)
* Triple(48MP + 16MP + 12MP) main camera/Single 20MP front camera
* Non-removable Li-Po 3300 mAh battery
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FRITZ!Box 6850 5G Sub-6GHz Router
* 5G router with 4 x 4 MIMO
* Chipset: Qualcomm Snapdragon X55
* Support 5G band: sub-6 GHz
* Dual Band WLAN AC + N with up to 1.266 Mbps
* Four Gigabit LAN ports and 1 USB 3.0 port
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Xiaomi Mi Mix Alpha
* Xiaomi Flexible Cell Phone
* 7.92 inches, 2088 x 2250 pixels, Android 10; MIUI 11
* Chipset: Qualcomm SDM855 Snapdragon 855+ (7 nm)
* 512GB ROM + 12GB RAM, dual-sim(Nano-sim)
* Triple(108MP + 12MP + 20MP) main camera
* Non-removable Li-Po 4050 mAh battery
* Fast battery charging 40W
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ASKEY RTL0200 5G NR CPE
* Support 3GPP Release 15, NSA
* Support 5G NR mmWave and Sub 6GHz
* 4G LTE network backward compatible
* WiFi 802.11 a/b/g/n/ac
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Huawei 5G CPE Pro External Antenna (Outdoor)
* External 5G Antenna for Huawei 5G CPE Pro
* There are two TS-9 connectors
* Gain: 10dBi
* Colors: Black / White
* The 5G external antenna cable length is optional
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Vodafone GigaCube 5G External Antenna
* External 5G Antenna for Vodafone GigaCube 5G* There are two TS-9 connectors
* Gain: 10dBi
* Colors: Black / White
* The 5G external antenna cable length is optional
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Huawei 5G Mobile WiFi Pro E6878-370
* Huawei 5G Mobile WiFi Router
* Support 5G NSA/SA dual-mode
* 5G Speed: DL to 1.65Gbps, UL to 250Mbps
* WLAN 802.11 a/b/g/n/ac, dual-mode
* Compliant with 3GPP Release 15
* Battery: 8000mAh, can quick charge other devices
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Huawei 5G Mobile WiFi E6878-870
* Huawei 5G Mobile WiFi Hotspot
* Support 5G NSA/SA dual-mode
* 5G Speed: DL to 1.65Gbps, UL to 250Mbps
* WLAN 802.11 a/b/g/n/ac, dual-mode
* Compliant with 3GPP Release 15
* Battery: 4000mAh, long time working to 20 days
Learn More$799.00 -
Huawei Mate 30 Pro 5G
* 6.53 inches, FHD+ 2400×1176 pixels, Android 10/MIUI 10
* Chipset: HiSilicon Kirin 990 5G(7 nm+)
* 256GB/512GB ROM+ 8GB RAM, dual-sim(Nano-sim)
* Qual(40MP + 40MP + 8MP + 16MP) main camera/Single 32MP front camera
* Non-removable Li-Po 4500 mAh battery
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Huawei Kirin 990 5G SoC Chipset
* World's first 5G SoC Powered by 7nm+ EUV
* World's first 5G NSA & SA Flagship SoC
* World's first 16-Core Mali-G76 GPU
* World's first Big-Tiny Core Architecture NPU
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Samsung Galaxy A90 SM-A9080 5G
* 6.7 inches, 1080 x 2400 pixels AMOLED capacitive touchscreen
* Android 9.0 (Pie),Qualcomm SDM855 Snapdragon 855 chipset
* 6GB/8GB RAM + 128GB ROM
* Triple main camera and single front camera
* Wi-Fi 802.11 a/b/g/n/ac, dual-band, Wi-Fi Direct, hotspot
* Non-removable Li-Po 4500 mAh battery
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Lenovo Z6 Pro 5G
* Lenovo 5G Mobile Phone
* 6.39 inches, 1080 x 2340 pixels display resolution
* Android 9.0 (Pie),Qualcomm SDM855 Snapdragon 855 Chipset
* 128GB/256GB ROM + 8GB RAM or 128GB ROM + 6GB/8GB RAM
* Quad main camera and single front camera
* Wi-Fi 802.11 a/b/g/n/ac, dual-band, Wi-Fi Direct, hotspot
* Non-removable Li-Po 4000 mAh battery
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Xiaomi Redmi K30 5G
* 6.67 inches, 1080 x 2400 pixels, Android 10.0/MIUI 11
* Chipset: Qualcomm SDM765 Snapdragon 765G (7 nm)
* Dual-sim(Nano-sim)
* Qual(64MP + 8MP + 2MP + 2MP) main camera/Dual (20MP + 2MP) front camera
* Non-removable Li-Po 4500 mAh battery
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Huawei Honor V30
* 5G Dual-mode(SA/NSA)
* 6.57 inches, 1080 x 2400 pixels, Android 10/Magic UI 3
* Chipset: HiSilicon Kirin 990 (7 nm)
* 128GB ROM + 6GB/8GB RAM, dual-sim(Nano-sim)
* Triple(40MP + 8MP + 8MP) main camera/Dual(32MP + 8MP) front camera
* Non-removable Li-Po 4200 mAh battery
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MediaTek Dimensity 1000 5G Chipset
* MediaTek 5G chipset
* Dimensity Speed for Sub-6GHz
* Most Power Efficient 5G Modem
* First Multi-Exposure HDR Video
* CPU: 4 x Cortex A77 + 4 x Cortex A55
* GPU: ARM Mali-G77 MP9
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Huawei Honor V30 Pro 5G Smartphone
* 5G Dual-mode(SA/NSA)
* 6.57 inches, 1080 x 2400 pixels, Android 10/Magic UI 3
* Chipset: HiSilicon Kirin 990 (7 nm)
* 128GB/256GB ROM + 8GB RAM, dual-sim(Nano-sim)
* Triple(40MP + 8MP + 12MP) main camera/Dual(32MP + 8MP) front camera
* Non-removable Li-Po 4100 mAh battery
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Qualcomm Snapdragon 865
* Qualcomm 5G Flagship SoC
* Process Technology: 7 nm
* 5G Chipset: Qualcomm® Snapdragon™ X55 Modem-RF System
* 5G Peak Download Speed: 7.5 Gpbs
* 5G sub-6 GHz specs: 200 MHz bandwidth, 4x4 MIMO
* 5G mmWave specs: 800 MHz bandwidth, 8 carriers, 2x2 MIMO
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Huawei NOVA 6 5G
* 5G Dual-mode(SA/NSA)
* 6.57 inches, 1080 x 2400 pixels, Android 10/EMUI 10
* Chipset: HiSilicon Kirin 990 (7 nm)
* 128GB/256GB ROM + 8GB RAM, dual-sim(Nano-sim)
* Triple(40MP + 8MP + 8MP) main camera/Dual(32MP + 8MP) front camera
* Non-removable Li-Po 4200 mAh battery
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