MX08FRO660-02

Product discontinued from
April 2025
Replacement model:
MX06FRO660-02E or MX06FRO660-03

NWAV™ X-Pol Octo-Port Antenna

Download this datasheet

X-Pol Octo-Port 6 ft 60° Fast Roll Off:

2 ports 698-798 MHz, 2 ports 824-894 MHz, and 4 ports 1695-2200 MHz

  • Fast Roll Off (FRO™) azimuth beam pattern improves Intra- and Inter-cell SINR

  • Excellent passive intermodulation (PIM) performance reduces harmful interference.
  • Fully integrated (iRETs) with independent RET control for low bands as well as dependent RET control for high bands for ease of network optimization

  • SON-Ready array spacing supports beamforming capabilities

  • Suitable for LTE/CDMA/PCS/UMTS/GSM air interface technologies

  • Integrated Smart Bias-Ts reduce leasing costs

Fast Roll-Off antennas increase data throughput without compromising coverage
The horizontal beam produced by Fast Roll-Off (FRO) technology increases the Signal to Interference & Noise Ratio (SINR) by eliminating overlap between sectors .
Non-FRO antenna Large traditional antenna pattern overlap creates harmful interference. JMA FRO antenna
JMA’s FRO antenna pattern minimizes overlap, thereby minimizing interference.
LTE throughput SINR Speed (bps/Hz) Speed increase CQI
Excellent >18 >4.5 333+% 8-10
Good 15-18 3.3-4.5 277% 6-7
Fair 10-15 2-3.3 160% 4-6
Poor <10 <2 0% 1-3
The LTE radio automatically selects the best throughput based on measured SINR.
Electrical specification (minimum/maximum) Ports 1, 2 Port 3, 4 Ports 5, 6, 7, 8
Frequency bands, MHz 698-798 824-894 1695-1880 1850-1990 1920-2200
Polarization ± 45° ± 45°
Average gain over all tilts, dBi 14.7 14.3 17.6 18.1 18.4
Horizontal beamwidth (HBW), degrees 62.5 53.5 55.0 55.0 55.5
Front-to-back ratio, co-polar power @180°± 30°, dB >23.7 >21.0 >25.0 >25.0 >25.0
X-Pol discrimination (CPR) at boresight, dB >17.8 >14.2 >18 >18 >15
Sector power ratio, percent <4.8 <3.8 <3.7 <3.8 <3.6
Vertical beamwidth (VBW), degrees1 13.6 11.8 6.0 5.5 5.5
Electrical downtilt (EDT) range, degrees 2-14 2-14 0-9
First upper side lobe (USLS) suppression, dB1 ≤-15.0 ≤-16.5 ≤-16.0 ≤-16.0 ≤-16.0
Cross-polar isolation, port-to-port, dB1 25 25 25 25 25
Max VSWR / return loss, dB 1.5:1 / -14.0 1.5:1 / -14.0
Max passive intermodulation (PIM), 2x20W carrier, dBc -153 -153
Max input power per any port, watts 300 250
Total composite power all ports, watts 1500

1 Typical value over frequency and tilt

Mechanical specifications
Dimensions height/width/depth, inches (mm) 71.3/ 15.4/ 10.7 (1811/ 392/ 273)
Shipping dimensions length/width/height, inches (mm) 82/ 20/ 15 (2083/ 508/ 381)
No. of RF input ports, connector type, and location 8 x 4.3-10 female, bottom
RF connector torque 96 lbf·in (10.85 N·m or 8 lbf·ft)
Net antenna weight, lb (kg) 69 (31.36)
Shipping weight, lb (kg) 109 (49.55)
Antenna mounting and downtilt kit included with antenna 91900318
Net weight of the mounting and downtilt kit, lb (kg) 18 (8.18)
Range of mechanical up/down tilt -2° to 12°
Rated wind survival speed, mph (km/h) 150 (241)
Frontal and lateral wind loading @ 150 km/h, lbf (N) 105.1 (467.5), 78.6 (349.6)
Equivalent flat plate @ 100 mph and Cd=2, sq ft 2.6
EPA frontal and lateral, ft2, (m2) 4.7 (0.44), 4.8 (0.45)
Front view Back view Bottom view
Ordering information
Antenna model Description
MX08FRO660-02 6F X-Pol OCTO FRO 60°, 2-14° / 0-9° RET, 4.3-10 & SBT
Optional accessories
AISG cables M/F cables for AISG connections
PCU-1000 RET controller Stand-alone controller for RET control and configurations
Remote electrical tilt (RET 1000) information
RET location Integrated into antenna
RET interface connector type 8-pin AISG connector per IEC 60130-9
RET connector torque Min 0.5 N·m to max 1.0 N·m (hand pressure & finger tight)
RET interface connector quantity 2 pairs of AISG male/female connectors
RET interface connector location Bottom of the antenna
Total no. of internal RETs (low bands) 2
Total no. of internal RETs (high bands) 1
RET input operating voltage, vdc 10-30
RET max power consumption, idle state, W ≤ 2.0
RET max power consumption, normal operating conditions, W ≤ 13.0
RET communication protocol AISG 2.0 / 3GPP
RET and RF connector topology  
Each RET device can be controlled either via the designated external AISG connector or RF port as shown below: 

 

RET device Band RF port
R1 698-798 1-2
R2 824-894 3-4

 

RET device Band RF port
B1/B2 1695-2200 5-8
Array topology

3 sets of radiating arrays

R1/R2: 698-894 MHz

B1: 1695-2200 MHz

B2: 1695-2200 MHz

Band RF port
1695-2200 5-6
698-798 1-2
824-894 3-4
1695-2200 7-8

V4.0

09/26/24