AA.200.151111

JBOQd cS Bo (DO + (© C) 

RoHS & Reach Compliant 

|1.|Introduction|3|
|---|---|---|
|2.|Specifications|4|
|3.|Antenna Characteristics|7|
|4.|Active Antenna Characteristics|14|
|5.|Radiation Patterns|20|
|6|Field Test Results|26|
|7.|Mechanical Drawing|28|
|8.|Packaging|29|
||Changelog|30|



Taoglas makes no warranties based on the accuracy or completeness of the contents of this document and reserves the right to make changes to specifications and product descriptions at any time without notice. Taoglas reserves all rights to this document and 

the information contained herein. Reproduction, use or disclosure to third parties without express permission is strictly prohibited. 

acetal 9001 Certified G 

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SPE-20-8-002-E 

## 1. Introduction 

The Taoglas MagmaX2 AA.200 is an active GNSS magnetic mount antenna for use across most major constellations including GPS (L1/L2/L5), GLONASS (G1/G2/G5), Galileo(E1/E5a/E5b) and BeiDou(B1/B2). The antenna exhibits excellent gain and good radiation pattern stability leading to a reliable GPS fix in areas of weaker signal strength. These elements combine to ensure the best possible positional accuracy in both RTK and non-RTK systems. 

Typical applications include: - UAVs and Robotics - Autonomous Vehicles - RTK Systems                              - Precision Agriculture - Navigation 

The AA.200 provides excellent positional accuracy, this is due to outstanding signal to noise ratio(C/N0) and a low axial ratio of less than 2 thus ensuring the antenna maintains stable when a location is required. With great 2DRMS and Fast time to first fix the AA.200 is the ideal antenna solution for Multiband GNSS RTK Systems as it performs very well, with stable gains and low axial ratio values across all major GNSS bands. 

The AA.200 includes LNAs and front-end SAW filters to reduce out of band noise, such as from nearby cellular transceivers. It offers better protection from nearby radiated power surges and greatly reduces the probability of damaging your GNSS receiver from nearby transmissions. The AA.200 has 1 cable feed as the L1, L2 and L5 feeds are combined with a hybrid coupler and the antenna performance results are shown in the below sections. 

The cable and connector are fully customizable, subject to NRE and MOQ. For further information please contact your regional Taoglas customer support team. 

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SPE-20-8-002-E 

## **2.** Specifications 

|**GNSS Frequency Bands Covered**|**GNSS Frequency Bands Covered**|**GNSS Frequency Bands Covered**|**GNSS Frequency Bands Covered**|**GNSS Frequency Bands Covered**|**GNSS Frequency Bands Covered**|**GNSS Frequency Bands Covered**|
|---|---|---|---|---|---|---|
|**GPS**|L1|L2|L5||||
||▓|▓|▓||||
|**GLONASS**|G1|G2|G3||||
||▓|▓|▓||||
|**Galileo**|E1|E5a|E5b|E6|||
||▓|▓|▓|□|||
|**BeiDou**|B1|B2a|B2b|B3|||
||▓|▓|▓|▓|||
|**QZSS**<br>**(Regional)**|L1|L2C|L5|L6|||
||▓|▓|▓|□|||
|**IRNSS**<br>**(Regional)**|L5||||||
||▓||||||
|**SBAS**|L1/E1/B1|L5/B2a/E5a|G1|G2|G3||
||▓|▓|▓|▓|▓||



*SBAS systems: WASS(L1/L5), EGNOSS(E1/E5a), SDCM(G1/G2/G3), SNAS(B1,B2a), GAGAN(L1/L5), QZSS(L1/L5), KAZZ(L1/L5). 

## GNSS Bands and Constellations 

www.taoglas.com 

SPE-20-8-002-E 

|**GNSS Electrical**|**GNSS Electrical**|**GNSS Electrical**|**GNSS Electrical**|**GNSS Electrical**|**GNSS Electrical**|
|---|---|---|---|---|---|
|**Frequency (MHz)**|**1176.45**|**1227.6**|**1561**|**1575.42**|**1602**|
|**VSWR (max.)**|2.0:1|2.0:1|2.0:1|2.0:1|2.0:1|
|**Passive Antenna Efficiency (%)**<br>**(Without cable loss)**|51.5|33.3|51.0|60.4|51.6|
|**Passive Antenna Gain at Zenith (dBi)**<br>**(Without cable loss)**|0.6|-0.9|2.1|2.9|2.4|
|**Axial Ratio(dB)**|1.8|1.2|1.1|1.1|1.1|
|**Group Delay**|5|10|5|5|5|
|**PCO (cm)**|1.7|0.9|1.4|1.2|1.2|
|**PCV (cm)**|2.3|2.2|0.51|0.51|0.51|
|**Polarization**|RHCP|||||
|**Impedance**|50Ω|||||
|**Cable**|RG-174, 1.5m|||||
|**Connector**|SMA(M) Straight|||||



|**LNA and Filter Electrical Properties**|**LNA and Filter Electrical Properties**|**LNA and Filter Electrical Properties**|**LNA and Filter Electrical Properties**|**LNA and Filter Electrical Properties**|**LNA and Filter Electrical Properties**|
|---|---|---|---|---|---|
|**Frequency (MHz)**|**1176.45**|**1227.6**|**1561**|**1575.42**|**1602**|
|**VSWR (max.)**|2.0:1|2.0:1|2.0:1|2.0:1|2.0:1|
|**Gain@1.8V (dB)**|25.17|27.81|27.48|27.76|26.79|
|**Gain@3.0V (dB)**|25.15|27.8|27.48|27.8|26.79|
|**Gain@5.5V (dB)**|25.2|27.83|27.48|27.8|26.8|
|**Noise@1.8V (dB)**|4.96|2.94|2.30|2.13|2.40|
|**Noise@3.0V (dB)**|4.95|2.94|2.33|2.15|2.44|
|**Noise@5.5V (dB)**|4.98|2.94|2.36|2.13|2.43|
|**Power consumption@1.8V (mA)**|17.86|||||
|**Power consumption@3.0V (mA)**|17.91|||||
|**Power consumption@5.5V (Typ.**|17.93|||||



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SPE-20-8-002-E 

||**Total Specification (Through Antenna, SAW Filter and LNA)**|**Total Specification (Through Antenna, SAW Filter and LNA)**|**Total Specification (Through Antenna, SAW Filter and LNA)**|**Total Specification (Through Antenna, SAW Filter and LNA)**|**Total Specification (Through Antenna, SAW Filter and LNA)**|
|---|---|---|---|---|---|
|**Frequency (MHz)**|**1176.45**|**1227.6**|**1561**|**1575.42**|**1602**|
|**Gain@3V (dBi)**|24.8 dBi|26.2 dBi|26.1 dBi|26.1 dBi|26.1 dBi|
|**Output Impedance**|50 Ω|||||



## **Mechanical** 

|**Housing Dimensions**|63.2*67.2*26.5 mm|
|---|---|
|**Housing Material**|ABS|
|**Cable**|1.5m of RG-174|
|**Connector**|SMA(M)|
|**Weight**|160g|
|**Magnetic Pull Force**|Average vertical pull force(kgf): 2.5|



## **Environmental** 

|Temperature Range|-40°C to 85°C|
|---|---|
|Humidity|Non-condensing 65°C 95% RH|
|Protection|IP67|
|RoHS Compliant|Yes|
|REACH Compliant|Yes|



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SPE-20-8-002-E 

## **3.** Antenna Characteristics 

## **3.1** Return Loss (dB) | 

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0<br>-5<br>-10<br>-15<br>-20<br>-25 \<br>y<br>-30 ALH-<br>1.10 1.22 1.34 1.46 1.58 1.70<br>Frequency [GHz]<br>GNSS L1 GNSS L2/L5<br>**----- End of picture text -----**<br>


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3.2 VSWR<br>|<br>**----- End of picture text -----**<br>


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5.0<br>4.0<br>3.0<br>2.0<br>1.0<br>1.00 1.17 1.33 1.50 1.67 1.83 2.00<br>Frequency [GHz]<br>GNSS L1 GNSS L2/L5<br>**----- End of picture text -----**<br>


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## **3.3** Efficiency (%) 4 

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100%<br>90%<br>| | Oe | | | Ff |<br>eee<br>80%<br>eee eee<br>ee<br>70%<br>| eee ee eee<br>60%<br>| Wf | | gt<br>50%<br>WP | YT<br>40%<br>ee ee ee eee eee<br>30%<br>— | Pp | | t/P NY<br>20%<br>| | AM | | hy NT<br>10%<br>i fEX | 7 | Nf<br>4 poe<br>0%<br>|<br>1.00 1.17 1.33 1.50 1.67 1.83 2.00<br>Frequency [GHz]<br>GNSS L1 GNSS L2/L5<br>**----- End of picture text -----**<br>


## 4 **3.4** Average Gain (dB) 

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0.0<br>ee 2 ee eee<br>ee 6 ee eee<br>-2.0<br>| Ae<br>-4.0<br>| | PM A | AN TT<br>ee eeeee<br>-6.0<br>| | |TT<br>ee eeeeee<br>-8.0<br>ee<br>Teyee Ff NN<br>-10.0<br>eh<br>1.00 1.17 1.33 1.50 1.67 1.83 2.00<br>Frequency [GHz]<br>GNSS L1 GNSS L2/L5<br>**----- End of picture text -----**<br>


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## **3.5** Peak Gain (dBi) 4 

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5.0<br>| | Pe | | | fF | |<br>3.0<br>| | Pe | | | F | |<br>ee eee<br>1.0<br>ee 2) 2<br>ee eeeeee<br>-1.0<br>| | Pe | | if7y YT ft<br>ee ee eeeee<br>-3.0 ee Ie | | INQ<br>A<br>-5.0<br>1.00 1.17 1.33 1.50 1.67 1.83 2.00<br>Frequency [GHz]<br>GNSS L1 GNSS L2/L5<br>**----- End of picture text -----**<br>


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## **3.6** Axial Ratio – Free Space 

## **L1** 

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Axial Ratio - L1<br>15<br>AVF L1 Phi=0 i a 14<br>inw a|<br>13<br>L1 Phi=90<br>| \ a es 12 ee<br>i} \po rT 11 ee |<br>he ee ss 10<br>| e 9 e<br>1 eeee eee 2<br>8<br>a ee ee,<br>7<br>A ee es esee ee ey<br>a 6 ee ee ee | ee<br>ff<br>~-XJ\ 5<br>ee es ee es 4  es<br>3<br>2<br>1<br>a et as 0 ee ee ee<br>-100 -80 -60 -40 -20 0 20 40 60 80 100<br>Degrees [˚]<br>L2<br>Axial Ratio [dB]<br>**----- End of picture text -----**<br>


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Axial Ratio - L2<br>15<br>| es es es es 14  ee<br>es<br>13<br>a ee es<br>12<br>en es ee es ee ee<br>11<br>A ee es ee<br>2, i i ee 10<br>9<br>a a, es ee es 8<br>a ss es 7 |<br>es Ve 6<br>es WS 5 / A<br>a ee es 4 ee 2 A<br>tt | No 3 NS<br>L2 Phi=0<br>es a, Se 2<br>L2 Phi=90 SS 1<br>ee ee es 0 Ee eee eee eee<br>-100 -80 -60 -40 -20 0 20 40 60 80 100<br>Degrees [˚]<br>L5<br>Axial Ratio - L5<br>15<br>Pp \ fof 14<br>Ppee,\ fofeefyftINE 1312 A<br>a) 11 ee ees a ee<br>a a ee ee ee eee 2 ee ee eee<br>10<br>a ee eee) 2 ee ae<br>9<br>a ee ee ae A ee Se<br>8<br>a ee ee ee ee) A ee ee<br>7<br>a eS 7 A Se ee<br>6<br>a ee ee ee / 4<br>ee... eee 5 eee eee eee<br>4<br>L5 Phi=0 ig a, 4 ee 3 es es<br>a<br>2<br>L5 Phi=90 a 1<br>a a ee 0<br>-100 -80 -60 -40 -20 0 20 40 60 80 100<br>Degrees [˚]<br>Axial Ratio [dB]<br>Axial Ratio [dB]<br>**----- End of picture text -----**<br>


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## **3.7** Axial Ratio – 30*30cm Ground Plane 

## **L1** 

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Axial Ratio - L1<br>15<br>L1 Phi=0 ee<br>14<br>i es<br>L1 Phi=90 13<br>e e<br>12<br>es es ee 11  es ee A<br>es 4 10<br>Na ee ee ee 9 ee ee ee<br>Vn es ee, Ge ee 8 ee ee ee ee<br>pa IN 7<br>ee re el Mi, 6<br>es es es «Gs 5 4<br>es es es i, 4 A<br>Ps es es ee 3 A ee<br>es es es es a, 2 0<br>eo NN 1<br>se ee 0 © A<br>-100 -80 -60 -40 -20 0 20 40 60 80 100<br>Degrees [˚]<br>L2<br>Axial Ratio - L2<br>15<br>PT<br>14<br>Re GO 13 GO GO OO<br>|| L2 Phi=0 ~ LtRs es{| 1211 f{  [ ff ft<br>| se<br>10<br>I L2 Phi=90 a es 9<br>[ 7 TT<br>8<br>PT<br>7<br>a a a a es 6 ee es ee ee ee<br>NN 5<br>ce ee es 4 ee ee ee<br>Re I nNee 3<br>a i, NS oe<br>i, 2<br>po Nc 1<br>Pe aONa 0 creed<br>-100 -80 -60 -40 -20 0 20 40 60 80 100<br>Degrees [˚]<br>Axial Ratio [dB]<br>Axial Ratio [dB]<br>**----- End of picture text -----**<br>


## **L5** 

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Axial Ratio - L5<br>15<br>RS es se 14 GO OO<br>es es GO 13 QO<br>Rs es GO 12<br>Rs Rs es GO 11 OS<br>es esGO 10<br>RsGO 9 El<br>a A WO<br>8<br>ee a es es<br>7<br>Ne ee ee 6 sd<br>a Ne ee ee ee ee eee eee<br>5<br>L5 Phi=0<br>| —I N J |CO<br>| 4 RTOA<br>Pp SNOT 3 TAN<br>L5 Phi=90<br>2<br>ee eee ee ee 1<br>Rs es es es sO 0 I I ©<br>-100 -80 -60 -40 -20 0 20 40 60 80 100<br>Degrees [˚]<br>Axial Ratio [dB]<br>**----- End of picture text -----**<br>


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## **3.8** Axial Ratio vs Frequency – Free Space 

## **L1** 

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Axial Ratio vs Frequency<br>10<br>9 |TAT TT |<br>PT |<br>8<br>PT |<br>7<br>L1/E1/B1/G1<br>6 |PTTLW YT aedyeayoa|| | |<br>5<br>L-Band L-Band<br>4 |TT Band PT [TT]<br>Corrections Corrections<br>3 | [|] I Banal]<br>or<br>2 | | Cofrections} — | | || I Chrrectiol<br>a r™ ||<br>1 ee ee ee eee<br>es<br>0 0 ee eee<br>1500 1520 1540 1560 1580 1600 1620 1640 1660<br>Frequency [MHz]<br>L2<br>Axial Ratio vs Frequency<br>10<br>9 a | ee ee |<br>a |<br>8<br>a ee eee |<br>7<br>6 | B2b/E5b/G3 a | G2 ee B3/E6/L6 ee |<br>a ee[pab/esb/c3 | _—ii||_— a2 =| | ~—s'| e3yeefie | i<br>5<br>a0eee<br>4<br>a eeeeeeee<br>3<br>2 aNNeeeee |<br>1<br>N= ee eee a ee eee |<br>0 eee ee eee eee |<br>1200 1210 1220 1230 1240 1250 1260 1270 1280 1290 1300<br>Frequency [MHz]<br>L5<br>Axial Ratio vs Frequency<br>10<br>a ee<br>9<br>a<br>8<br>a<br>7<br>6 ae ee L5/B2a/E5a<br>a aee eea 77)<br>5<br>a eeee<br>4<br>a ee<br>3 ee ee ee ee<br>2 Ps<br>a<br>1<br>a ee<br>0<br>1150 1160 1170 1180 1190 1200<br>Frequency [MHz]<br>Axial Ratio [dB]<br>Axial Ratio [dB]<br>Axial Ratio [dB]<br>**----- End of picture text -----**<br>


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## **3.9** Axial Ratio vs Frequency – 30*30cm Ground Plane 

## **L1** 

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Axial Ratio vs Frequency<br>10<br>98 aaa eees | eee<br>7 aa ee eeeeeee<br>6 tL attyedyeryeal L1/E1/B1/G1 ee<br>ae | | T<br>5<br>4 TTT L bang -Band |= TT L-Band<br>3 || comlections Corrections | _ Corrections WS<br>en chrrectiio<br>2<br>1 ae eee ; eerr | eee[| eee<br>0 ee se ee ee {||<br>1500 1520 1540 1560 1580 1600 1620 1640 1660<br>Frequency [MHz]<br>L2<br>Axial Ratio vs Frequency<br>10<br>9 a eee eee eee ee |<br>a a ee<br>8<br>7 yr ee |<br>6 |pab/esb/g3|_—s| B2b/E5b/G3 | {| qf|| =k G2 [  S|{ft S|se3[| B3/E6/L6 |dente|| Ci|<br>ee<br>5<br>a a eeeee eee ee |<br>4<br>3 yr ee |<br>; | | {| qf [ {ft [| | | |<br>2<br>1 a|ee| {| qt {[ {ft eeJf {| ee| |<br>0 ees ee | 0 |<br>1200 1210 1220 1230 1240 1250 1260 1270 1280 1290 1300<br>Frequency [MHz]<br>L5<br>Axial Ratio vs Frequency<br>109 es<br>8 es es es es<br>7 es es es es<br>6 ee es ee L5/B2a/E5a<br>5 ee ee ee ee ee eee<br>4 ee ee es es es<br>3 ee ee es es es<br>2 ee ee es es es<br>1 $$<br>a<br>0<br>1150 1160 1170 1180 1190 1200<br>Frequency [MHz]<br>Axial Ratio [dB]<br>Axial Ratio [dB]<br>Axial Ratio [dB]<br>**----- End of picture text -----**<br>


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## **4.** Active Antenna Characteristics 

## **4.1** LNA Block Diagram 

## **4.2** LNA Gain L2 & L5 @3V 

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50 JJJ<br>'' '<br>40 \'!<br>)' '<br>'''<br>30<br>'' '<br>i!!<br>20 '' '<br>'''<br>10 11 1<br>)''<br>)' '<br>0<br>1''<br>1' '<br>-10 | | | SSS<br>)''<br>'<br>-20<br>''<br>)')<br>-30<br>)' '<br>' ' ' (MHZ)<br>-40<br>1100 1150 1200 1250 1300 1350<br>S11 LNA Return loss(3.0V) S12 LNA GAIN(3.0V)<br>1207MHz 1227.6MHz<br>1176.45MHz<br>(DB)<br>**----- End of picture text -----**<br>


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## **4.3** LNA Gain L1 Band @3V 

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40<br>30 1''<br>20<br>10<br>0<br>-10<br>-20<br>-30 1' '<br>-40 1 \ \<br>1500 1550 1600 1650 (MHZ)<br>S11 LNA Return loss(3.0V) S12 LNA GAIN(3.0V)<br>1561MHz 1575.42MHz<br>1602MHz<br>(DB)<br>**----- End of picture text -----**<br>


## **4.4** LNA Noise Figure @3V 

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10<br>5<br>0<br>1100 1200 1300 1400 1500 1600<br>(MHz)<br>LNA_Noise-3.0V 1176.45MHz 1207MHz 1227.6MHz<br>1561MHz 1575.42MHz 1602MHz<br>(dB)<br>**----- End of picture text -----**<br>


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## **4.5** S12 Wide Band Plot ff 

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50<br>40<br>30<br>20<br>10<br>0<br>-10<br>-20<br>-30<br>-40<br>-50<br>-60<br>(MHZ)<br>-70<br>300 500 700 900 1100 1300 1500 1700 1900 2100 2300 2500 2700 2900<br>L2-S12 3.0V<br>L1-S12 3.0V<br>(DB)<br>**----- End of picture text -----**<br>


## **4.6** Combined Gain – 30*30cm Ground Plane ff 

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50<br>40 B2b/E5b/G3 B2 L-Band L1/E1/B1/G1 L-Band<br>Corrections<br>30 B3/E6/L6 Corrections<br>20<br>aNee<br>10<br>Py ity | |) ty<br>0<br>ft ft y | | |<br>-10<br>| ft fe te IN<br>-20<br>fi yt ty | |<br>-30<br>A ft A | A US<br>a | | | 0<br>-40<br>1100 1150 1200 1250 1300 1350 1400 1450 1500 1550 1600 1650 1700<br>Frequency [MHz]<br>Gain [dBi]<br>**----- End of picture text -----**<br>


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## **4.7** Combined Gain – Free Space | 

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50<br>L1/E1/B1/G1<br>40 B2b/E5b/G3 B2 L-Band L-Band<br>|| eeyestas | wal | | eo<br>B3/E6/L6 Corrections Corrections<br>30<br>wpezaest py ES || cored I ore tions<br>20<br>|oi IL eeINA TP ENq<br>10<br>of ftNP<br>0<br>PE<br>-10<br>oft it t feIN  yt TT<br>fe HY<br>-20<br>PP<br>-30<br>ieeeneeeeie<br>-40<br>eee<br>1100 1150 1200 1250 1300 1350 1400 1450 1500 1550 1600 1650 1700<br>Frequency [MHz]<br>Gain [dBi]<br>**----- End of picture text -----**<br>


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4.8 Group Delay vs Frequency – Free Space<br>| f<br>L1<br>ee)<br>Group delay vs Frequency - L1 Band<br>60<br>55 i<br>i ae LO.<br>50<br>45 | hm een ae<br>Raw data<br>smoothed data<br>40<br>UW ne ee a<br>A Na<br>35<br>ea<br>1.5 1.52 1.54 1.56 1.58 1.6 1.62 1.64<br>Frequency (GHz)<br>L2<br>ee)<br>Group delay vs Frequency - L2 band<br>45<br>40<br> \<br>35<br>oars<br>30<br>YeeA<br>Raw data<br>25<br>smoothed data<br>Te<br>Pe =<br>20<br>1.15 1.17 1.19 1.21 1.23 1.25 1.27 1.29<br>Frequency (GHz)<br>L5<br>LO<br>Group delay vs Frequency - L5 band<br>60<br>Raw data<br>55 smoothed data<br>TA f e<br>50<br>\<br>45<br>vp a =<br>CfSg<br>40<br>Se<br>pee<br>35<br>1.15 1.16 1.17 1.18 1.19 1.2<br>Frequency (GHz)<br>Group Delay (ns)<br>Group Delay (ns)<br>Group Delay (ns)<br>**----- End of picture text -----**<br>


**L5** ~~LO~~ 

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|of 4.9 Group Delay vs Frequency – 30*30cm Ground Plane<br>L1<br>Lo<br>Group delay vs Frequency - L1 Band<br>60<br>55 JG<br>50 TUT aT<br>OT<br>45<br>Raw data<br>smoothed data<br>40 aNee<br>a<br>35<br>1.5 1.52 1.54 1.56 1.58 1.6 1.62 1.64<br>Frequency (GHz)<br>L2<br>Lo<br>Group delay vs Frequency - L2 band<br>45<br>40<br>[\ ee<br>35<br>as SO<br>30<br>oe PA, Raw data<br>25<br>smoothed data<br>| ie<br>20<br>1.15 1.17 1.19 1.21 1.23 1.25 1.27 1.29<br>Frequency (GHz)<br>L5<br>Lo<br>Group delay vs Frequency - L5 band<br>60<br>Raw data<br>55 smoothed data<br>TA<br>50<br>f \<br>45<br>rpm igSemggeea =<br>40<br>i ni San en eaea es<br>pO Se<br>35<br>1.15 1.16 1.17 1.18 1.19 1.2<br>Frequency (GHz)<br>Group Delay (ns)<br>Group Delay (ns)<br>Group Delay (ns)<br>**----- End of picture text -----**<br>


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SPE-20-8-002-E 

**5.** Radiation Patterns 

**4.** 

**5.1** Test Setup – Free Space 

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SPE-20-8-002-E 

## **5.2** 1176.45MHz 3D and 2D Radiation Patterns 

## XY Plane XZ Plane 

## YZ Plane 

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X  Z  Z<br>0 0 0<br>5 10 10<br>330 30 330 30 330 30<br>-5 0 0<br>-15 -10 -10<br>300 60 300 60 300 60<br>-25 -20 -20<br>-35 -30 -30<br>270 -45 90 Y  270 -40 90 X  270 -40 90 Y<br>240 120 240 120 240 120<br>210 150 (dBi) 210 150 (dBi) 210 150 (dBi)<br>180 1176.45MHz 180 1176.45MHz 180 1176.45MHz<br>**----- End of picture text -----**<br>


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SPE-20-8-002-E 

## **5.3** 1227.6MHz 3D and 2D Radiation Patterns 

## XY Plane 

## XZ Plane 

## YZ Plane 

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X  Z  Z<br>0 0 0<br>5 10 10<br>330 30 330 30 330 30<br>-5 0 0<br>-15 -10 -10<br>300 60 300 60 300 60<br>-25 -20 -20<br>-35 -30 -30<br>270 -45 90 Y  270 -40 90X  270 -40 90 Y<br>240 120 240 120 240 120<br>210 150 (dBi) 210 150 (dBi) 210 150 (dBi)<br>180 1227.6MHz 180 1227.6MHz 180 1227.6MHz<br>**----- End of picture text -----**<br>


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SPE-20-8-002-E 

## **5.4** 1561MHz 3D and 2D Radiation Patterns 

## XY Plane XZ Plane 

## YZ Plane 

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X  Z  Z<br>0 0 0<br>5 10 10<br>330 30 330 30 330 30<br>-5 0 0<br>-15 -10 -10<br>300 60 300 60 300 60<br>-25 -20 -20<br>-35 -30 -30<br>270 -45 90 Y  270 -40 90 X  270 -40 90 Y<br>240 120 240 120 240 120<br>210 150 (dBi) 210 150 (dBi) 210 150 (dBi)<br>180 180 180<br>**----- End of picture text -----**<br>


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SPE-20-8-002-E 

## **5.5** 1575.42MHz 3D and 2D Radiation Patterns 

## XY Plane 

## XZ Plane 

## YZ Plane 

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X  Z  Z<br>0 0 0<br>5 10 10<br>330 30 330 30 330 30<br>-5 0 0<br>-15 -10 -10<br>300 60 300 60 300 60<br>-25 -20 -20<br>-35 -30 -30<br>270 -45 90 Y  270 -40 90 X  270 -40 90 Y<br>240 120 240 120 240 120<br>210 150 (dBi) 210 150 (dBi) 210 150 (dBi)<br>180 1575.42MHz 180 1575.42MHz 180 1575.42MHz<br>**----- End of picture text -----**<br>


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SPE-20-8-002-E 

## **5.6** 1602MHz 3D and 2D Radiation Patterns 

## XY Plane 

## XZ Plane 

## YZ Plane 

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X  Z  Z<br>0 0 0<br>5 10 10<br>330 30 330 30 330 30<br>-5 0 0<br>-15 -10 -10<br>300 60 300 60 300 60<br>-25 -20 -20<br>-35 -30 -30<br>270 -45 90 Y  270 -40 90 X  270 -40 90 Y<br>240 120 240 120 240 120<br>210 150 (dBi) 210 150 (dBi) 210 150 (dBi)<br>180 1602MHz 180 1602MHz 180 1602MHz<br>**----- End of picture text -----**<br>


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SPE-20-8-002-E 

## **6.** Field Test Results 

## **4.** 

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6.1 Rooftop test<br>**----- End of picture text -----**<br>


In this section Taoglas will present the field test result for AA.200 antenna. The test was performed when the antenna was mounted on a static rooftop test set up in an open sky environment for at least 6 hours. 

Taoglas will show the field test results using the following receiver: 

## **1. Septentrio AsteRx-U S/N** 

- Multi-band GNSS: 544 channels 

- GPS: L1, L2, L5 GLONASS: L1, L2, L3 Galileo: E1, E5ab, AltBoc, E6 BeiDou: B1, B2, B3  NavIC: L51  QZSS: L1, L2, L5, L6 

- SBAS: EGNOS, WAAS, GAGAN, MSAS, SDCM(L1, L5) 

- RTK (base and rover), Integrated dual-channel L-band receiver, Support for PPP 

- Nav. update rate up to 100 Hz 

- Position accuracy = RTK 0.6 cm + 0.5 ppm 

## ~~ee~~ **Positioning Accuracy Table (2D Accuracy)** 

|**Positioning Accuracy Table (2D Accuracy)g Accuracy Table (2D Accuracy) Accuracy Table (2D Accuracy)y Table (2D Accuracy) Table (2D Accuracy)(2D Accuracy)2D Accuracy)y)**<br>~~ee~~|**Positioning Accuracy Table (2D Accuracy)g Accuracy Table (2D Accuracy) Accuracy Table (2D Accuracy)y Table (2D Accuracy) Table (2D Accuracy)(2D Accuracy)2D Accuracy)y)**<br>~~ee~~|**Positioning Accuracy Table (2D Accuracy)g Accuracy Table (2D Accuracy) Accuracy Table (2D Accuracy)y Table (2D Accuracy) Table (2D Accuracy)(2D Accuracy)2D Accuracy)y)**<br>~~ee~~|**Positioning Accuracy Table (2D Accuracy)g Accuracy Table (2D Accuracy) Accuracy Table (2D Accuracy)y Table (2D Accuracy) Table (2D Accuracy)(2D Accuracy)2D Accuracy)y)**<br>~~ee~~|**Positioning Accuracy Table (2D Accuracy)g Accuracy Table (2D Accuracy) Accuracy Table (2D Accuracy)y Table (2D Accuracy) Table (2D Accuracy)(2D Accuracy)2D Accuracy)y)**<br>~~ee~~|**Positioning Accuracy Table (2D Accuracy)g Accuracy Table (2D Accuracy) Accuracy Table (2D Accuracy)y Table (2D Accuracy) Table (2D Accuracy)(2D Accuracy)2D Accuracy)y)**<br>~~ee~~|
|---|---|---|---|---|---|
|**Test**<br>**Condition**<br>~~ee~~|**Correction**<br>**Service**<br>~~ee~~|**CEP (50%)**<br>~~ee~~|**DRMS (68%)**<br>~~ee~~|**2DRMS (95-98.2%)**<br>~~ee~~|**TTFF (sec)**<br>~~ee~~|
|**Free**<br>**Space**|RTK DISABLED|51.64 cm|61.89 cm|123.78 cm|22|
||RTK ENABLED|1.37 cm|1.65 cm|3.29 cm|22|
|**30x30 cm**<br>**Ground**<br>**Plane**|RTK DISABLED|48.11 cm|57.8 cm|115.61 cm|21|
||RTK ENABLED|1.17 cm|1.4 cm|2.8 cm|21|



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RTK Availability  RTK Availability<br>Free Space 30x30 cm GP<br>0% 0%<br>No RTK No RTK<br>Float Float<br>Fixed Fixed<br>100% 100%<br>oe | Oo |<br>**----- End of picture text -----**<br>


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SPE-20-8-002-E 

## **2. U-blox ZED F9P** 

- Multi-band GNSS: 184-channel 

- GPS L1C/A L2C, GLONASS: L1OF L2OF, Galileo: E1B/C E5b, BeiDou: B1I B2I, QZSS: L1C/A L2C 

- Multi ‑ band RTK with fast convergence times and reliable performance 

- Nav. update rate RTK up to 20 Hz 

- Position accuracy = RTK 0.01 m + 1 ppm CEP 

|**Positioning Accuracy Table(2D Accuracy)**|**Positioning Accuracy Table(2D Accuracy)**|**Positioning Accuracy Table(2D Accuracy)**|**Positioning Accuracy Table(2D Accuracy)**|**Positioning Accuracy Table(2D Accuracy)**|**Positioning Accuracy Table(2D Accuracy)**|
|---|---|---|---|---|---|
|**Test**<br>**Condition**|**Correction**<br>**Service**|**CEP (50%)**|**DRMS (68%)**|**2DRMS (95-98.2%)**|**TTFF (sec)**|
|**Free**<br>**Space**|RTK DISABLED|42.78 cm|55.74 cm|111.48 cm|23|
||RTK ENABLED|1.57 cm|1.9 cm|3.81 cm|23|
|**30x30 cm**<br>**Ground**<br>**Plane**|RTK DISABLED|30.52 cm|36.91 cm|73.83 cm|19|
||RTK ENABLED|0.58 cm|0.69 cm|1.39 cm|19|



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RTK Availability  RTK Availability<br>Free Space 30x30 cm GP<br>0% 0%<br>No RTK No RTK<br>Float Float<br>a Fixed a Fixed<br>100% 100%<br>**----- End of picture text -----**<br>


**.** 

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SPE-20-8-002-E 

## **7.** Mechanical Drawing 

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SPE-20-8-002-E 

**8.** Packaging 1pcs AA.200.151111 per Small PE Bag Weight - 165g — 10pcs AA.200.151111 per Large PE Bag an Weight – 1650g 100pcs AA.200.151111 per carton Dimensions - 370*370*300mm Weight – 17Kg 300mm 370mm S ~~e~~ 370mm SPE-20-8-002-E 

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## Changelog for the datasheet 

**SPE-20-8-002 – AA.200.151111 Revision: E (Current version)** Date: 2021-09-03 Notes: Updated Mechanical Drawing Author: Gary West 

## **Previous Revisions** 

**Revision: D** Date: 2021-08-13 Notes: Updated Drawing Author: Jack Conroy **Revision: C** Date: 2020-06-30 Notes: Updated Data and graphs Author: Jack Conroy 

**Revision: B** Date: 2020-05-28 Notes: Added Field Test Results Author: Victor Pinazo 

## **Revision: A (Original First Release)** 

Date: 2020-03-31 Notes: Initial Release Author: Jack Conroy 

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SPE-20-8-002-E 

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SPE-20-8-002-E