SPECIFICATION Part No. : MA760.A.ABIC.003 Product Name : Pantheon Antenna 4in1 MA760 Screw-Mount (Permanent Mount) 2G/3G/4G MIMO LTE, GPS/GLONASS Wi-Fi 2.4/5GHz Feature : ● 2 x Cellular (2G/3G/4G) MIMO Antennas (698~960MHz, 1710~2170MHz,2300~2700MHz, 2900-3500MHz) 2*MIMO ● 1 x GPS/GLONASS 1575.42~1602MHz Active Antenna ● 1 x Wi-Fi 2.4GHZ/ 5GHz Antennas IP67 Waterproof High Efficiency / Peak Gain Outdoor Antenna RoHS Compliant SPE-13-8-001/E/PK Page 1 of 27 1. Introduction The MA760 4in1 antenna is an omnidirectional heavy-duty, fully IP67 waterproof external M2M antenna for use in telematics, transportation and remote monitoring applications. It is the first antenna on the market to combine 4in1 that includes two LTE MIMO elements, one 2.4GHz/5GHz antenna and GPS/GLONASS in the highest efficiency and peak gain possible. This unique antenna delivers powerful MIMO antenna technology for LTE while also fully compatible with legacy 2G and 3G networks worldwide, plus GPS/GLONASS for next generation high bandwidth telematics systems. New fleet management and mobile and fixed video technology allows for real-time video uplink and downlink. High efficiency, high gain MIMO antennas are necessary to achieve the high signal to noise ratio and throughput required to solve these challenges. The Pantheon MA760 consists of two Cellular 2G/3G/4G MIMO elements working at 698-960MHz, 1710-2170MHz, 2300~2700MHz, 2900-3500MHz which means it can work worldwide, one high gain GPS/GLONASS antenna at 1575.42 MHz and one dual-band Wi-Fi 2.4GHz/5GHz antenna. The 4 high efficiency and gain antennas are mounted in an extremely robust IP67 direct mount antenna package with excellent isolation (20dB+). The antenna has its own ground-plane and can radiate on any mounting environment like metal or plastic without affecting performance. The GPS/GLONASS antenna has a front end SAW filter configuration. The front-end SAW increases protection against out of band LNA burn out. The Dual-band Wi-Fi antenna has stable efficiency and peak gain on both bands even at 3 meters cable length where other antennas would have marked reduced performance. The connectors and cable lengths are customizable. The housing is also available in White. Recommended maximum cable length is 3 meters. SPE-13-8-001/E/PK Page 2 of 27 2. Specification Table Cellular 2G/3G/4G MIMO Frequency 698~960 1710~2170 2300~2700 VSWR 3 Max Polarization Vertical Impedance 50 2900-3500 MHz Ω 2.4GHz / 5GHz ANTENNA Frequency (GHz) 2.4 ~ 2.5 4.7 ~ 5.0 5.0 ~ 5.4 5.4 ~ 5.9 Peak Gain (dBi) 2.1 2.9 3.8 2.8 Average Gain (dBi) -2.3 -3.6 -3.3 -3.8 Efficiency 60% 44% 46% 42% VSWR <=1.7:1 Impedance 50Ω Polarization Linear Radiation Pattern Omni GPS-GLONASS Centre Frequency 1575.42MHz / 1602MHz Bandwidth 10MHz Radiation Efficiency 50(without cable) Passive Gain @ 4.0 typ(with ψ=140mm ground) Zenith VSWR 2 Impedance 50Ω DC Power Input 3 ~ 5V Range DC input MHz 3.3V 4.0V 5.5V 1575.42 1602 1575.42 1602 1575.42 1602 2 2 2 2 2 2 29.2 29 31 31 32.3 32 Noise Figure 3.1 3.1 3.2 3.2 3.4 3.4 Power Consumption 7.5 7.5 9.4 9.4 15 15 VSWR LNA Gain SPE-13-8-001/E/PK Page 3 of 27 Band Attenuation Cable 1520MHz: -20dB 1520MHz: -20dB 1520MHz: -20dB 1642MHz: -20dB 1642MHz: -20dB 1642MHz: -20dB 3m RG-174 standard, fully customizable Connector SMA(M) standard, fully customizable MECHANICAL Antenna Dimensions Height 85.7mm x Diameter 145.6mm Casing Wonderloy PC-540 PC/ABS Alloy Waterproof IP67 2G/3G/4G MIMO 1 3M Low Loss CFD-200 SMA(M) 2G/3G/4G MIMO 2 3M Low Loss CFD-200 SMA(M) 2.4/5GHz MIMO 1 3M Low Loss CFD-200 RP-SMA(M) GPS/GLONASS 3M RG-174 SMA(M) ENVIRONMENTAL Operation Temperature -40°C to 85°C Storage Temperature -40°C to 90°C Humidity Non-condensing 65°C 95% RH * all measurements were conducted with 3 meters low loss CFD200 cable SPE-13-8-001/E/PK Page 4 of 27 3. LTE MIMO 3.1. LTE MIMO 1 and LTE MIMO 2 Specification 3.1.1. Return Loss LTE MIMO 1 LTE MIMO 2 3.1.2. Maximum Gain LTE MIMO 1 LTE MIMO 2 SPE-13-8-001/E/PK Page 5 of 27 3.1.3. Average Gain LTE MIMO 1 LTE MIMO 2 3.1.4. Efficiency LTE MIMO 1 LTE MIMO 2 SPE-13-8-001/E/PK Page 6 of 27 3.2 Radiation Patterns Y Z X SPE-13-8-001/E/PK Page 7 of 27 3.2.1 LTE MIMO 1 Radiation Pattern XY plane X Y X Y SPE-13-8-001/E/PK Page 8 of 27 X Y X Y SPE-13-8-001/E/PK Page 9 of 27 XZ plane Z X Z X SPE-13-8-001/E/PK Page 10 of 27 Z X Z X SPE-13-8-001/E/PK Page 11 of 27 3.2.2 LTE MIMO 2 Radiation Pattern XY plane X Y X Y SPE-13-8-001/E/PK Page 12 of 27 X Y X Y SPE-13-8-001/E/PK Page 13 of 27 XZ plane Z X Z X SPE-13-8-001/E/PK Page 14 of 27 Z X Z X SPE-13-8-001/E/PK Page 15 of 27 4. Wi-Fi 2.4/ 5GHz 4.1. Return Loss 4.2. Maximum Gain SPE-13-8-001/E/PK Page 16 of 27 4.3. Average Gain 4.4. Efficiency SPE-13-8-001/E/PK Page 17 of 27 4.5. Radiation Patterns Y Z X XY plane SPE-13-8-001/E/PK Page 18 of 27 XZ plane SPE-13-8-001/E/PK Page 19 of 27 5. GPS/GLONASS 5.1. Block diagram SPE-13-8-001/E/PK Page 20 of 27 5.2. Return Loss 5.3. Radiation pattern XZ-plane Free Space @1575.42MHz SPE-13-8-001/E/PK Page 21 of 27 SPE-13-8-001/E/PK Page 22 of 27 YZ-plane Free Space @1575.42MHz XZ-plane Free Space @1602MHz SPE-13-8-001/E/PK Page 23 of 27 YZ-plane Free Space @1602MHz SPE-13-8-001/E/PK Page 24 of 27 5.4 GPS/GLONASS LNA S21 Forward Transmission S22 Reverse Reflection SPE-13-8-001/E/PK Page 25 of 27 6. Drawing SPE-13-8-001/E/PK Page 26 of 27 7. Packaging SPE-13-8-001/E/PK Page 27 of 27