Friday, 31 May 2013

HGO-3G omni antenna upgraded to HGO-4G by adding 2600 MHz support

SAS is pleased to announce that the Sirio's HGO-3G high gain omni blade antenna has been upgraded to the HGO-4G with immediate effect and is now shipping.

By adding support for the 2600 MHz band to complement the 900/1800/2100 MHz frequencies (GSM and 3G bands), the HGO-4G can support 4G and LTE applications in the 2500-2700 MHz band.






This addition of the 2600 MHz increases the versatility of the HGO enabling high gain omni functionality into applications such as CCTV and security, broadband access, fixed line back up and many other applications where high gain directional antennas are unsuitable. As the HGO is omni-directional, it can often see more than one local network mast unlike a directional antenna thereby offering a level of redundancy that a directional antenna cannot.

Electrically, the HGO-4G still offers 5-6 dBi gain across the bands and mechanically the form factor is unchanged.

There are two cable options: 0.5M cable length and SMA or 5M cable length and SMA. SAS can supply low loss jumper cables for the 0.5M cable version as required.

**Please note that the HGO-4G does not support the 800 MHz band and therefore does not support 4G applications that run at 800 MHz.


A selection of our 4G antennas can be purchased online at our webshop.

Tuesday, 14 May 2013

The 10 most comon RF coaxial connectors for wireless applications and how to identify them

We regularly take calls from customers looking to connect antennas to routers, dongles, access points and gateways or looking for RF coaxial pigtail cables to connect from one port to another. It is clear that in a world of ever increasing wireless devices, there is plenty of confusion about which connector is which.

Here, we aim to shed some light on the most common connectors for wireless applications and help you identify which connector you require. Be aware the informtion in this article is not "definitive" as some connectors look very similar to each other i.e. CRC9 and TS9, but at a minimum it should help you narrow down your connector search to one or two options.

SMA

The most common wireless connectors on routers, access points and gateways. There are typically two types of SMA connector:

SMA-Male (SMA Plug) - Either a nickel plated or gold plated brass barrel (often hex shaped) with thread on the inside and a pin in the middle. The SMA-Male connector looks like this:

SMA-Male Plug


SMA-Female (SMA Jack) - Either a nickel plated or gold plated brass barrel with a thread on the outside of the barrel and no pin. The SMA-Female connector looks like this:

SMA-Female Jack

SMA connectors can be used on microcoax such as 1.13 and other cable types including RG174, RG178, RG58, 195 and 400 Type cable such as BWL195 and BWL400 (LMR195 / LMR400).

RP-SMA

Similar to SMA, but effectively the pins reversed.

RP-SMA Plug - Either a nickel plated or gold plated brass barrel (often hex shaped) with a thread on the inside and not pin. The RP-SMA plug looks like this:

RP-SMA Plug

RP-SMA Jack - Either a nickel plated or gold plated brass barrel with a thread on the outside of the barrel and a pin. The RP-SMA Jack connector looks like this:

RP-SMA Jack

RP-SMA connectors can be used on microcoax such as 1.13 and other cable types including RG174, RG178, RG58, 195 and 400 Type cable such as BWL195 and BWL400 (LMR195 / LMR400).

CRC9

The CRC9 connector is often used across a number of cellular, GSM, 3G and 4G dongles and modems (typically on devices from Huawei). Very similar in appearance to the TS9 connector, the CRC9 plug has either nickel plated or gold plated circular barrel with slots at the end and has a pin. The CRC9 connector looks like this:

CRC9 Plug


The CRC9 connector is suitable for RG174, RG178 and RG316 only. Antennas with CRC9 connectors can be found at Connex.

TS9

The TS9 connector is often used across a number of cellular, GSM, 3G and 4G dongles, datacards and modems. Very similar in appearance to the CRC9 connector, the TS9 plug has either nickel plated or gold plated circular barrel with slots at the end and has a pin. The TS9 connector looks like this:

TS9 Plug

The TS9 connector is suitable for RG174, RG178 and RG316 only. Antennas with TS9 connectors can be found at the Connex website.

TNC

The TNC connector is a more traditional RF coax connector. To differentiate between TNC and BNC, a good way is think TNC =Twist  (and BNC is Bayonet). There are two types of standard TNC - TNC-Male (Plug) and TNC-Female (Jack). The TNC connectors look like this:

TNC-Female Jack

TNC-Male Plug

BNC

The BNC connector is another more traditional RF connector. Think BNC for "Bayonet" to help identify it. There two types of BNC - BNC-Male (Plug) and BNC-Female (Jack). The BNC Male Plug connector looks like this:

BNC-Male Plug


N-Type

The N-Type connectors are fairly robust RF coax connectors and there are two standard models - N-Male (Plug) and N-Female (Jack). Please note that N-Female connectors are quite commonly presented on quality outdoor antennas such as the FGO antenna. The N-Male and N-Female connectors look like this:

N-Male Plug

N-Female Jack

MMCX

MMCX is a small RF coax connector used on some cellular modems and small devices. The MMCX-Male (Plug) is widely available in straight and right-angle versions. The MMCX-Female (Jack) is usually a straight connector only. The MMCX is suitable for microcoax i.e. 1.13mm diameter, RG174 and RG178 only.

The MMCX-Male (Plugs) connectors look like this:

MMCX-Male Plug RA

MMCX Male Plug Straight


The MMCX-Female (Jack) connector looks like this:

MMCX Female Jack Straight


FME

The FME connectors have been widely used for cellular applications for many years, but are now tending to be dropped in favour of SMA or CRC9/TS9 connectors. There are male and female versions of the FME connector - FME-Female is a longish connector with a thread on the outside of the barrel and white "nipple" at the end. The FME-Male is typicaly nickel plated brass and has the thread on the inside of the barrel and a pin (be careful not to confuse this with a N-Type male as on first glance it can look quite similar). The connectors look like this:

FME-Female Jack

FME-Male Plug


U.FL

The U.FL is a microcoax connector designed only for micro-coax such as 1.13mm diameter cable. A very low profile connector it is often used as an embedded connector inside a device. The U.FL plug is the only U.FL connector that can be attached to a cable. The U.FL receptacle is typically a surface-mount connector. The U.FL plug looks like this:

U.FL Plug Front

U.FL Plug Rear


There are a number of U.FL compatible connectors such as IPEX connectors which are cheaper, but essentially have the same function as U.FL. An example of such a connector can be found below:

IPEX Plug Front
Typcially, U.FL is nickel plated and the IPEX connectors are gold plated connectors and this is how you can differentiate between the two. For U.FL adapter cables, you can find them at EAD and on the Connex webshop.

I hope this brief article has been of use in helping you identify the 10 most common RF coax connectors for wireless applications. Please feel free to contact us with any requirements you may have. Standard cable assemblies can be found at www.connextech.co.uk including SMA, U.FL, CRC9, TS9 and many more. Further information on our antennas can be found at www.ead-ltd.com and www.specialistantennas.co.uk