A primer on 4G LTE Modules

4G LTE Benefit: 4G LTE modules offers more benefits interms of speed and performance compared to the 3G modules.

  •  Compared to 3G modules, 4G LTE  modules offer higher downlink and uplink data rates. See data rate information below.
  • 4G LTE modules will work with very low latencies – less than 5 ms for u-plane and less than 100  ms for c-plane
  • 4G LTE modules supports packet-switched traffic only, so communication is all IP-based.
  • For network operators, LTE networks offers high spectral efficiency.

 4G LTE Standards: LTE standard is controlled by the 3rd generation partnership project (3GPP). LTE provides an evolutionary path for both CDMA and GSM networks and it overlays upon existing 3G networks. LTE standard is based on orthogonal frequency division multiple access (OFDMA) solution. Wider bandwidth solution boots data capacity in high0demand dense urban areas.

LTE evolution

 

4G LTE Speed: Data rates of 4G LTE modules depends on the network conditions and performance of the device. The actual LTE speeds are around 6-10 Mpbps (Downlink) and 5-8 Mbps (Uplink).

LTE Speed

LTE Downlink Speed Peak Uplink Speed Peak
Cat 1 10 Mbps 5 Mbps
Cat 2 50 Mbps 25 Mbps
Cat 3 100 Mbps 50 Mbps
Cat 4 150 Mbps 50 Mbps
Cat 5 300 Mbps 75 Mbps

4G LTE Frequency Bands: 4G LTE modules can operate on following bands. The band configurations of the modules are dependent on teh carrier network.

LTE FDD Frequency Bands

LTE Band Number Uplink (MHz) Downlink (MHz)
1 1920 - 1980 2110 - 2170
2 1850 - 1910 1930 - 1990
3 1710 - 1785 1805 -1880
4 1710 - 1755 2110 - 2155
5 824 - 849 869 - 894
6 830 - 840 875 - 885
7 2500 - 2570 2620 - 2690
8 880 - 915 925 - 960
9 1749.9 - 1784.9 1844.9 - 1879.9
10 1710 - 1770 2110 - 2170
11 1427.9 - 1452.9 1475.9 - 1500.9
12 698 - 716 728 - 746
13 777 - 787 746 - 756
14 788 - 798 758 - 768
15 1900 - 1920 2600 - 2620
16 2010 - 2025 2585 - 2600
17 704 - 716 734 - 746
18 815 - 830 860 - 875
19 830 - 845 875 - 890
20 832 - 862 791 - 821
21 1447.9 - 1462.9 1495.5 - 1510.9
22 3410 - 3500 3510 - 3600
23 2000 - 2020 2180 - 2200
24 1625.5 - 1660.5 1525 - 1559
25 1850 - 1915 1930 - 1995

LTE TDD Frequency Bands

LTE Band Number Frequency (MHz)
33 1900 - 1920
34 2010 - 2025
35 1850 - 1910
36 1930 - 1990
37 1910 - 1930
38 2570 - 2620
39 1880 - 1920
40 2300 - 2400
41 2496 - 2690
42 3400 - 3600
43 3600 - 3800

4G LTE Module Form Factors: Since carriers are rolling out 4G LTE networks slowly, 4G LTE modules are primarily used within laptops and tablet devices. For laptops, PCIe is the most common LTE module form factor. For tablet LGA form factor is one option, but many tablet vendors are directly integrating 4G LTE chips on their designs. The adoption of 4G LTE mdoules in the M2M segment will happen over time as LTE networks offers higher bandwidth and lower latencies.

4G LTE Module Interfaces: Interfaces are capabilities supported by the modules through hardware and/or software. Some of the common interfaces supported on 4G LTE modules are,

  • Power : Power interface is mandatory for all modules and the supply ranges from 3.0V – 4.5V.
  • USB (Universal Serial Bus): USB is usually the primary data interface used on 3G modules since it supports higher data rates.
  • UICC (Universal Integrated Circuit Card): GSM-based 4G LTE modules will have UICC interface which is based on IS0 7816-3.
  • Antenna: Antenna connectors are generally availble on-board the 4G LTE modules. To improve receiver performance, a diversity antenna connector is also sometimes avaialble on the modules.
  • GPS (Global Positioning System): Many of the 4G LTE modules have integrated GPS solution.GPS antenna port may be on a separate port or shared with the diversity antenna port.
  • PCM (Pulse Code Modulation): PCM interface in 3G modules is used for digital audio transfer.
  • Analog Audio Interface: For devices that require voice support, 3G modules will provide analog audio interfaces.

4G LTE Module Certification

Before the 4G LTE module can be commercially used with in a device, it has go  through several certification process.

  • Global certification Forum (GCF) : GCF enables certification of any mobile device based on 3GPP technologies. GCF certification is supported by leading operators from every region of the world. GCF approval requires both conformance lab testing and field trials.
  • PTCRB : PTCRB is the North American operators certification body.It provides a framework within which device certification can take place for members of teh PTCRB.3G modules are tested at PTCRB accredited labs which manage the certification process.
  • FCC : In order to obtain a modular approval teh FCC has identified requirements that must be addressed in the application for equipment authorization. These requrirments are specified in this FCC document.
  • Network Operator Certification: In addition to PTCRB/GCF & FCC, the module should also be certified by the network operator. In fact, the network operators might have industry certifications as a pre-condition for lab entry.

 

 

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