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Tag: ISM

ISM band terminal antennas overview

When selecting ISM-band and LoRa terminal antennas, there are many options for your application. Download our ISM band terminal antennas overview here:

ISM Antennas

If you are mounting antennas directly onto a terminal or enclosure using 169 MHz, 433 MHz, 868 MHz or 915 MHz, then the flyer has some suggestions for antenna choices. Our portfolio is not limited to these antennas and we have a full range for terminal antennas through to high gain omni antennas like the DMO8684 or the WMO8685.

The 169 MHz antennas are used for the European licence-free metering band at 169 MHz and we can offer terminal or wall-mount antennas at this frequency.

868 MHz LoRa antennas – a selection guide

868 MHz LoRa antennas are becoming a hot topic in our markets. Using the licence-free ISM frequency bands, LoRa is a long range, but low power wireless technology that is increasingly being used for IoT technology. By wirelessly enabling devices and terminals to operate using LoRa technology, applications can be developed for control and monitoring without the need to use mobile cellular networks such as GSM, 3G or LTE. All of the LoRA enabled nodes will need an antenna of some description and here we look at some options to help enable your 868 MHz IoT environment.

There are many choices of 868 MHz LoRa antennas, but we’ll focus on internal, terminal mount and outdoor omni antennas to cover requirements for remote devices and hub/concentrator applications.

In areas of low signal or for concentrator applications where a higher gain antenna is required, an outdoor omni antenna is often a good choice. Especially if you can select an antenna with good gain figures, the nature of an omni-directional antenna in radiating in a 360 degree pattern allows communication with other devices and hubs in every direction. These outdoor antennas can be wall or pole mounted and can be supplied with various levels of gain depending on the antenna size – see the DMO8684 for a 4.3 dBi gain in a compact package or the WMO86916 for a 5.8 dBi gain version which is a bit larger.

For external mount antennas where the following terminal antennas cannot be deployed, sometime a compact wall-mount antenna offers a useful alternative. Perhaps the radio is housed in a metal enclosure or a cabinet and a terminal antenna will not fit directly onto it. An antenna like the Wall-Blade which has a small footprint might well solve the problem.

For terminal mount antennas i.e. antennas that mount directly onto the device or terminal, typically you can go with a small stub antenna like the WS868 and the MW868 or a dipole style antenna similar to the BKR868 or HWD868. The stub antennas are smaller, however usually offer lower performance than the longer whip or dipole antennas. The selection of the terminal antenna depends on the environment in terms of space available and the desired performance. Captive mount terminal antennas are also possible where the antenna is locked in placed with a nut so it cannot be removed and the antenna is connected via an integrated coaxial cable and connector – for an example see the W868-FLY.

For internal mount antennas, a simple solution is a groundplane independent PCB such as the IoTa or  Morava antenna. These antenna mount inside a non-metal enclosure or terminal housing with a minimum of 15mm clearance from any metal components or surfaces and can provide a discreet way of enabling 868 MHz communications without the need for external antennas.

Hopefully the above information has given you some food for thought about possible LoRa antenna solutions and offered some suggestions on how to enable antenna solutions with your application. For customers not using 868 MHz, for example in the USA or New Zealand, many of the above antennas can be re-tuned for 915 MHz if required or have 915 MHz options.

For customers in Europe, the some of these antennas including the WMO86916, DMO8684 and IoTA can be purchased via the Connex webshop. For other questions, requests and quotes for 868 MHz LoRa antennas, please feel free to contact us.

 

169 MHz ISM band antennas – a reality check!

169 MHz frequency band

The advent of the EU harmonized ISM band at 169 MHz offers utility businesses a viable alternative to using higher frequencies for wireless metering by using 169 MHz ISM band antennas. Using the 169 MHz VHF frequency band, wireless technology can be deployed for longer range applications at relatively low power due to the low frequency of operation. This has many advantages for operations and billing departments.

Challenge

The challenge however comes with specifying 169 MHz ISM band antennas to go with the wireless meters. There are already a number of ISM-band 169 MHz module and terminal vendors on the market and I am sure there are more in development. An interesting example of a terminal/gateway supplier is Meterlinq. From a RF perspective the module/terminal is relatively straightforward, but to supply compact, discreet antennas is not as easy.

A wavelength at 169 MHz is approximately 1.8M in length and therein lies the problem, for even a 1/4 wave monopole would be half a metre in length once the antenna has been housed in a protective sheath and connectorized.

For metering applications in domestic environments, discreet, tamper-proof antennas that cannot be easily damaged are desirable, but not only is making a very low profile 169 MHz hard to achieve, it would also need a large groundplane to function correctly. This is not straightforward on a small-sized utility meter with little metal real estate. The viable options really are to use a 1/4 wave 169 MHz helical antenna either bulkhead mounted with a RF connector or a through-hole mounted antenna (the link shows a through-hole mounted antenna on a bracket) so the antenna cannot be unscrewed from the meter. Both options would be approximately 120mm in overall length and would ideally need a minimum groundplane size of 85mm x 85mm. This size of groundplane could be possible on most meters, but a larger groundplane required by lower profile antennas are more than likely not going to be possible.

Concentrator applications

For concentrator applications (where a number of remote meters communicate with a hub using VHF communications), a wall-mount 169 MHz antenna might come in useful. Designed for outdoor use, ideally these will be of fibreglass construcion to withstand the elements.

It is also important to be wary of very small 169 MHz antennas as invariably some parameter will be compromised, for example small 169 MHz PCB antennas with a gain of -17.6 dB. It is useful to remember that the laws of physics are not going to change and that the wavelength is always going to be 1.8M. Very small antennas are going to massively compromise RF performance, defeating the very object of the exercise.

169 MHz ISM band antennas – a summary

In conclusion, the 169 MHz band is a real opportunity for wireless metering and related applications, however the selection of 169 MHz ISM band antennas and design-in for the meter must be considered early and with the appropriate level of planning to ensure that a suitable antenna design can be accommodated by the meter in terms of available groundplane etc. without comprising performance or aesthetics.

Related links:

EAD’s SRW169 antenna

EAD’s H169-SMA antenna

Design your own antenna with our Antenna Configurator

Please note: This article was first published on the Specialist Antennas blog and we have updated and enhanced for this issue.

WS433 – 433 MHz quarter wave stub antenna ST

The WS433 is a 433 MHz quarter wave stub antenna ST designed for ISM band terminals. Requiring a groundplane to operate a effectively, the WS433 is a based on a helical coil design and offers a compact solution for fixed and mobile terminals need 433 MHz connectivity. The antenna element  is housed in a durable and robust black acetal sheath.

As standard supplied with a SMA-Male straight connector, a version with a straight RP-SMA plug is also available.

Also available is the WR433 which is a right angle SMA-Male version of this 433 MHz stub antenna.

In addition, across this line of products we have 868 MHz and quad band cellular models available.

 

W915-RS – Single band 915 MHz Whip antenna

The W915-RS is a 915 MHz whip antenna based on a moulded ¼ wave whip antenna design operating in the 902-928 MHz frequency band. Designed for ISM-Band applications centred on 915 MHz, the W915-RS should ideally be mounted onto a groundplane. This makes it ideal for small ISM-band terminals and devices either fixed or mobile. The MW868 is an 868 MHz version for European ISM band frequencies.

It is approximately 80mm in length with a durable, moulded, flexible sheath and has a RP-SMA connector. This 915 MHz Whip antenna can also be supplied with other connectors such as SMA, TNC or BNC (minimum order quantities may apply). Please contact us for further details.

The 868 MHz version is called the MW868.