Configuration Guide MR600 v1/v2/v3/v5 4G/+ External Antenna Information (LPDA MIMO) Australia - John VK3HJQ
MR600 v1/v2/v3/v5 4G/+
External Antenna Information
LPDA(Log-periodic dipole array)
MIMO(Multiple Input - Multiple Output)
Australia (AU) - John vk3hjq
Important information: (MR600 V2 FW 1.6.xxx)
https://community.tp-link.com/en/home/forum/topic/615176
(VK3HJQ Licensed Amateur (HAM) Radio Operator in Australia)
Please check the specifications for use in other countries other then Australia, the information here relates to the Archer MR600 versions 1, 2, 3 & 5 plus any other models that are fitted with two Detachable 4G LTE Antennas, the Information is/was current at time of posting in August 2021 (E&EO)
TIPS :
1. Be very wary of some antennas claiming incorrect & or inflated gain (dBi) figures.
2. Keep coax cable runs as short as possible to reduce signal loss.
3. Use good quality LOW LOSS coax like LMR400, do not use the thin type coax which have massive losses.
4. Use a phone app to find the closest Mobile/Cell tower for correct antenna alignment.
5. Be wary of over head power lines when erecting antennas.
6. Keep antennas away from metal structures & clear of trees for line of sight to the cell tower/s
7. A must is correct earthing, to reduce Static & protect against lightning.
Archer MR600 AU https://www.tp-link.com/au/home-networking/3g-4g-router/archer-mr600/
A Quick Summary here.....
Mobile Van Setup Video
https://www.youtube.com/watch?v=Vd2r-8Dm4oY
Note: The MR600 will auto switch from (4G+) 2X2 MIMO (2 Antennas - AUX & Main) to (4G) MISO/SISO (1 Antenna - Main) if the signal strength is to low.
RF Connectivity
Portable speed & range tests
Queensland Australia
(A little Queensland Australia test drive - Wow 13,000km [8077 miles])
TP-Link Archer MR600 V2 (Cat 6) 12Volt Solar powered.
Maximum speed achieved with 2 x LPDA (10-11dBi) Antennas was 140Mbps/40Mbps (2X2 MIMO 4G+) @ *8km's from the cell tower, compared to 1 x magnetic mount 7dBi antenna on the roof @ 40Mbps/20Mbps (MISO/SISO).
Test @ a No Signal location
**10.8km from the closer cell tower with Mountains in between, in a NO Signal area according to the phone app, but the Signal still got through, even though is was a bit slow. (13.0Mbps/1.47Mbps @ 52ms MISO/SISO).
https://static-community.tp-link.com/attach/27/9/2021/2c0c0cdd24574b81b3875f898689507a.mp4
Full Video here.....(1:03) https://youtu.be/Vd2r-8Dm4oY
Antennas laying down on the roof, not far from the cell tower/s, great reception (4G+ 2X2 MIMO Full Signal).
Higher gain in dBi, equates to longer length of the LPDA Antenna.
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Technical info
NOTE: The LPDA Antenna is feed from the front, meaning the coax is connected to the front of the Antenna & not the back.
https://community.tp-link.com/en/home/forum/topic/614762
Cat 4 - MISO/SISO Connection
1 external LPDA Antenna
Never EVER use these types of 2 way splitters ('Y' patch lead) to connect 1 Antenna to the 2 Antennas ports (Main / Aux).
Always have 2 Antennas connected, it will NOT work with ONLY the AUX Antenna connected, (unless a very high signal is present) but it will work with the Main Antenna connected.
NOTE: (Never leave the Antenna input open circuit with no 50ohm load connected, meaning always have both Antennas connected even if ONLY using 1 external LPDA Antenna)
1 Antenna (LPDA) Main (-45 Deg/135 Deg) connected to the Main Antenna Input for MISO/SISO operation. (MUST have internal Antenna still connected to AUX)
Cat 6 - 2X2 MIMO Connection
2 external LPDA Antennas
2 Antennas (LPDA) Main & AUX, AUX @ 45 Deg & Main @ 135 Deg (-45 Deg) then connect to the (Main & AUX) Antenna inputs respectively.
Why you MUST mount the 2 LPDA Antennas on a Slant Angle & Not Vertical or Horizontal for 2X2 MIMO operation
Good, Better & Best/Optimum way to mount LPDA Antennas
You can mount the LPDA MIMO Antennas vertically on either the Right or Left (Left preferred) side of the mast/pole, always make sure the arrow/s on the LPDA Antenna/s is pointing up. & the Antennas should be mounted a minimum of 42.8cm (1 wavelength @ 700MHz) apart & for Optimum performance, mount them 85.6cm (2 wavelengths @ 700MHz) apart.
You can also mount them the other way around if you require a better Main signal, (because of the Antenna spacing required) but this could drop your 2X2 MIMO signal out too & go back to 1X1 MISO/SISO operation, this means now having the Main @ the Top & AUX @ the Bottom/Underneath.
For the BEST performance, a better solution would be to mount them horizontally instead to allow for the Optimum spacing required @ 700MHz (lowest frequency used) of 85.6cm apart. (both LPDA Antennas MUST still be pointing up @ the correct angle)
Some other LPDA Horizontal mounts
Not sure how far this bracket would space the Antennas apart, but @ a guess somewhere around 21.8cm by the looks.
Less loss if you DONT need to use Patch Leads to the Modem/Router, sometimes it is necessary to do this for cable conversion & to stop your Modem/Router being pulled off the Bench/Table & it also makes it a lot easier to connect the heavy coax (LMR400) into your Modem/Router as well.
Adaptor can add >1 -1.5dB of loss, Remember 3dB is 1/2 your signal lost.
12dBi (9.85dBd / 9.85dB) & usually less gain @ the lower frequencies, down by a further >1dBi
What's inside LPDA Antennas.
Other types of LPDA Antennas, 2 are required for 2X2 MIMO operation.
8 -12dBi (694 - 3800MHz) @ 5G (3600MHz) 3dBi
DO NOT mount the 2 LPDA Antennas Vertical or Horizontal for 2X2 MIMO operation, they MUST be mounted on a Slant Angle as described previously
Do Not mount the antennas Vertical or Horizontal for 2X2 MIMO operation, they MUST be mounted on a Slant Angle & the antennas need to be at least 1 wavelength apart, preferably 2 @ the lowest operating frequency used, as detailed previously.
Dish (Parabolic) High Gain Antennas
Always check the frequency range on Dish (Parabolic) Antenna feed horns (1700 - 3800MHz, 2 x 30dBi & 1700 - 2700MHz, 2 x 24dBi) Remember 4G/+ 700 - 2700MHz & 5G 3800MHz AU
Be wary of 1 Dish with 2 coax feed ins that are labeled as Slant (V/H [Vertical/Horizontal]) & not Slant as needed here.
or 2 Dishes, each with 1 coax feed in, the better option as you can then space them apart at the correct distance.
Always cable tie the coax cables to the mast & seal the connectors as previously described.
Note the antenna angles (+ - 45deg) for 2X2 MIMO operation & the antenna spacing still applies here too.
Need to use low loss coax like LMR400, not RG58 of similiar used here by the looks, this is because of the huge losses in this type of coax cable, it defeats the purpose of using High Gain Antennas in the 1st place, @ 100 feet (30.48mtrs) of coax, its 16.5dB (RG58) loss compared to 3.9dB (LMR400) @ an operating frequency of 900MHz.
Something different, a LPDA Antenna with a Reflector fitted.
Gain increase is 1 dBi by the looks of it with the Reflector added (Grid @ the back)
EARTHING
A MUST is to have a 90 Volt Lightning Surge Arrestor fitted to each coax cable & connected to a Ground Earth Rod.
Whats inside these Lightning Surge Arrestors, which provides protection for your 4G/+ Modem/Router. (Both conductors are protected in this type).
So how it works is that any surge voltage over 90 volts (72 -108V) on the centre conductor causes the GDT to conduct this surge voltage to ground/earth, while the Shield/Braid conductor is always grounded to earth. You MUST have an adequate earthing system connected, this usually takes the form of a ground/earth rod/stake with appropriately sized earth wire/cable.
Static build up could be a problem too when using these GDT.
LPDA
A minimum of 4mm squared (4mm2) Earth wire should be used for grounding (AU)
VK3HJQ Aug 2021
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@vk3hjq I used 698-4900Mhz @ 15dbi x2 what could possibly the spacing in cm?
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@ 700MHz (698) which is the lowest Frequency used, then its 856.5mm (85.6cm) between the 2 antennas.
John vk3hjq
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@vk3hjq Thanks mate! I also use 10meters cable. is not a problem or should I go 5meters? but ofcourse the height of installation will decrease.
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Usually more height means more signal.
Do a temporary setup outside & see what signal strength you get.
John vk3hjq
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@vk3hjq sad, I already order 5mt LMR400 cable. I follow "Keep the cable as short as possible". hopefully will work.I will post an updat mate thank you so much!
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Shorter is always better at these high Frequencies.
Remember 3dB is 1/2 your signal loss in both Transmit & Receive.
Examples below using LMR400 coax over 5mts (16.4042 feet) & 10mts (32.8084 feet), as you can see the higher the Frequency used the more cable loss.
Common Frequencies used in Australia
LMR400 Coax Loss:
@ 700 MHz 5mt 0.7dB Loss 87.8% Efficiency
@ 700 MHz 10mt 1.3dB Loss 77% "
@ 1800 MHz 5mt 1.1dB Loss 80.6% "
@ 1800 MHz 10mt 2.1dB Loss 64.9% "
@ 2100 MHz 5mt 1.2dB Loss 79.1% "
@ 2100 MHz 10mt 2.3dB Loss 62.5% "
@ 2600 MHz 5mt 1.4dB Loss 76.8% "
@ 2600 MHz 10mt 2.6dB Loss 59% "
@ 3500 MHz 5mt 1.6dB Loss 73.3% "
@ 3500 MHz 10mt 3.1dB Loss 53.7% " (1/2 is Loss in TX/RX)
John vk3hjq
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@vk3hjq meaning if I have 15dbi I will only get 12.4dbi using 10mt coax for 700mhz?
Example I'm optimizing for 700Mhz, since the loss of 10mt cable for 700Mhz is 1.3dB x 2 = 2.6dB loss? so I will only get 12.4dBi from 15dBi Antenna is this correct?
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Do you have a spec sheet on these antennas.
It depends what the gain figure (dBi) is at 700MHz too, it may not be 15dBi.
So 15dBi to dBd - 2.15 = 12.85 dBd (dB)
12.85 - (2 x 1.3dB cable loss) = 10.25
10.25 - (2 x 0.5dB adaptor loss approx.) = 9.25dB, then add 3db extra for 2 antennas = 12.25dB in Theory.
This does not take into account all the other connectors loss + the small runs of RG58 coax used on the antennas either.
John vk3hjq
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@vk3hjq here is the information of the antenna.
440x220x65 mm - this is only available LPDA in our country that support 698-2700Mhz just like in your post, i tried finding 515mm but they only support 850Mhz for the lowest freq.
its not complete details but I guess this will work just like in your tutorial post. and I bought 2pcs so its 16 dBi x 2?
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