Amoris Dual-band Wi-Fi Antenna Part No. SRF2W021 1. flexiiANT (R) Product Specification Features 2. Antenna for 2.4 - 2.5 GHz and 4.9 - 5.9 GHz applications: Wi-Fi (R) 802.11a/b/g/j/n/ac Maintains high performance within device: DFI (Designed For Integration) 1.13mm diameter RF cable with IPEX MHF connector Self-Adhesive mounted Quick integration minimizes design cycle High performance Available 3 standard cable lengths Description Amoris is intended for use with all Wi-Fi applications. A flexible antenna with cable enables direct connection to the host PCB. Simple integration with plug and play simplicity. This product specification shows the performance of the antenna to cover a typical dual band Wi-Fi reception: 2.4-2.5 GHz / 4.9-5.9GHz. 3. Applications Access Points Portable Devices PC-cards Game Consoles Set-Top-Box Network Devices Wearable devices MIMO Systems Antennas for Wireless M2M Applications Product Specification SRF2W021-PS-1.2 Page 1 Amoris Part No. SRF2W021 4. Part Number Amoris: SRF2W021-xxx Note. -xxx refers to cable length option: 5. Part Number SRF2W021-050 Cable Length 50mm SRF2W021-100 100mm SRF2W021-150 150mm General Data Product name Amoris Part Number SRF2W021 Frequency 2.4-2.5GHz;4.9-6.0GHz Polarization Linear Operating temperature -40C to +85C Environmental condition test ISO16750-4 5.1.2 / 5.1.1 Impedance with matching 50 Weight < 0.5 g FPC Self-adhesive FPC Self-adhesive 3M 468MP Antenna Assembly type Dimensions (Antenna) 27.0 x 14.0 x 0.15 (mm) Cable length 50 / 100 / 150 (mm) Connection MHF IPEX 6. RF Characteristics 2.4 - 2.5 GHz 4.9 - 5.9 GHz 2.8dBi 5.1dBi -1.30dBi -1.20dBi Average efficiency >67% >70% Maximum return loss -14dB -10dB Maximum VSWR 1.7:1 1.7:1 Peak gain Average gain Conditions All data measured in a loaded condition adhered to a plastic carrier free space. Antennas for Wireless M2M Applications Product Specification SRF2W021-PS-1.2 Page 2 Amoris Part No. SRF2W021 7. RF Performance 7.1 Return Loss 5 [dB] Atyune 0 -5 -10 1 3 2 -15 4 -20 -25 -30 [MHz] -35 2100 2300 2500 2700 2900 3100 3300 3500 3700 3900 4100 4300 4500 4700 4900 5100 5300 5500 5700 5900 6100 MARKERS: MHz dB RD8012 dual band ant 2.s1p - S11 1: 2401 2: 2495 -12.11 -14.59 MHz 3: 4900 4: 5900 dB -12.28 -17.18 7.2 VSWR 10 [] Atyune 9 8 7 6 5 4 3 2 1 3 2 4 [MHz] 1 2100 2300 2500 2700 2900 3100 3300 3500 3700 3900 4100 4300 4500 4700 4900 5100 5300 5500 5700 5900 6100 MARKERS: MHz RD8012 dual band ant 2.s1p - S11 1: 2401 2: 2495 1.66 1.46 MHz 3: 4900 4: 5900 1.64 1.32 Antennas for Wireless M2M Applications Product Specification SRF2W021-PS-1.2 Page 3 Amoris Part No. SRF2W021 7.3 Antenna patterns 7.3.1 2400 MHz - 2500 MHz 3D pattern at 2.45GHz Drag to rotate pattern and PCB by using Adobe Reader (Click to Activate) Antennas for Wireless M2M Applications Product Specification SRF2W021-PS-1.2 Page 4 Amoris Part No. SRF2W021 7.3.2 4900 MHz - 5900 MHz 3D pattern at 5.45GHz Drag to rotate pattern and PCB by using Adobe Reader (Click to Activate) Antennas for Wireless M2M Applications Product Specification SRF2W021-PS-1.2 Page 5 Amoris Part No. SRF2W021 8. Antenna Dimensions 8.1 Dimensions FPC section L 11.0 2.0 W 2.0 3.0 2 Holes = 2mm o (diameter) L W T Length Width Thickness 27.0 0.2 (mm) 14.0 0.2 (mm) 0.15 (mm) nominal All dimensions in mm 8.2 Dimensions assembled L SRF2W021-50 SRF2W021-100 SRF2W021-150 L L L 51 2.0 (mm) 101 2.0 (mm) 151 2.0 (mm) Antennas for Wireless M2M Applications Product Specification SRF2W021-PS-1.2 Page 6 Amoris Part No. SRF2W021 8.3 IPEX Connector I-PEX Front Material Copper Alloy Plating Ag Side Back 5.0 3.0 All dimensions in mm 8.4 Assembly 1.13mm o Cable I-PEX Connector FPC Antennas for Wireless M2M Applications Product Specification SRF2W021-PS-1.2 Page 7 Amoris Part No. SRF2W021 9. Electrical Interface 9.1 Host Interface The host PCB requires the mating connector which is the IPEX MHF (UFL) receptacle. The location should be close to the chip/modules pin for the RF. Any feed from this receptacle should be maintained at 50 impedance. 9.2 Transmission Line All transmission lines should be designed to have a characteristic impedance of 50. * The length of the transmission lines should be kept to a minimum * Any other parts of the RF system like transceivers, power amplifiers, etc, should also be designed to have an impedance of 50 Once the material for the PCB has been chosen (PCB thickness and dielectric constant), a coplanar transmission line can easily be designed using any of the commercial software packages for transmission line design. For the chosen PCB thickness, copper thickness and substrate dielectric constant, the program will calculate the appropriate transmission line width and gaps on either side of the feed. A DC blocking capacitor should be placed in line to protect the RF front end. 10. Mechanical Fixing The antenna uses 3M 468MP adhesive on the reverse side of the FPC. The antenna has a easy access split line to peel off to reveal the adhesive side. It is designed for a one time fix to a clean smooth surface. FPC reverse side Split line for easy peel Antennas for Wireless M2M Applications Product Specification SRF2W021-PS-1.2 Page 8 Amoris Part No. SRF2W021 11.0 Antenna Integration Guide 11.1 Placement For placing the FPC antenna within a device, the host PCB size is not a factor as with PCB mounted antennas. However, placement still needs to follow some basic rules, as any antenna is sensitive to its environment. Six spatial directions are shown below. The antenna FPC section should ideally have minimum of three directions free from obstructions to be able to operate effectively. The other directions will have obstacles in their paths, these directions still require a minimum clearance. These minimum clearances are further defined in this section. The plastic case is not included in this, only metal objects/components that will obstruct or come in close proximity to the antenna. Six spatial directions relative to FPC Example with 4 spatial directions clear Battery FPC PCB Antennas for Wireless M2M Applications Product Specification SRF2W021-PS-1.2 Page 9 Amoris Part No. SRF2W021 11.2 Orientation of FPC The orientation of the FPC with respect to the host PCB should be defined depending on the unit. The proximity of the GND will have an influence on the antenna so the PCB location relative to the antenna should be considered. The orientation the FPC will normally be placed in one of three of the following options for orientation. In each option a distance (d) is the critical dimension to consider. Below shows the minimum value of (d) for each. Other obstructions may increase this dimension. 1) Vertical mounted FPC Cable +Connector PCB d 2mm 1) Co-planar to PCB d 10mm 2) Planar to PCB (Same plane) d 2mm Antennas for Wireless M2M Applications Product Specification SRF2W021-PS-1.2 Page 10 Amoris Part No. SRF2W021 11.3 Device Integration example An example of integration within a device is shown below. The device contains the major components along with the device outer case. The FPC is shown adhered to the inside of the device plastic housing. The cable routing is along the PCB so as not to interfere with any other component. The length of the cable is sufficient to allow ease of assembly when produced (SRF2W021-050) The FPC was placed on the same plane relative to the PCB, Due to the thin design of the device, this was the optimal location. For single plane placement relative to PCB d=3.5mm (min 2mm) Antennas for Wireless M2M Applications Product Specification SRF2W021-PS-1.2 Page 11 Amoris Part No. SRF2W021 12. Hazardous Material Regulation Conformance The antenna has been tested to conform to RoHS requirements. A certificate of conformance is available from Antenova M2M's website. 13. Packaging The antennas are stored in individual plastic (PE) bags. Then stored within a second bag of 10pcs. Single antenna per bag 10 units per second bag (Labelled) 13.1 Optimal Storage Conditions Temperature -10C to 40C Humidity Less than 75% RH Shelf life 18 Months Storage place Away from corrosive gas and direct sunlight Antennas should be stored in unopened sealed manufacturer's plastic packaging. Packaging The shelf life of the antenna is 18 months, provided the bag of 10 pieces remains factory sealed. Antennas for Wireless M2M Applications Product Specification SRF2W021-PS-1.2 Page 12 Amoris Part No. SRF2W021 13.2 Label Information Antenova Limited Antenova Asia Ltd 4F, No 324, Sec 1, Nei-Hu Road Nei-Hu District, Taipei 11493, Taiwan, ROC 50.00mm info@antenova-m2m.com / www.antenova-m2m.com Description: Amoris Part number: SRF2W021-xxx Quantity: 10 Date Code: YYWW Manufacturer's code number: flexiiANT (R) 60.00m m Antennas for Wireless M2M Applications Product Specification SRF2W021-PS-1.2 Page 13 Amoris Part No. SRF2W021 www.antenova-m2m.com Corporate Headquarters North America Headquarters Asia Headquarters Antenova Limited nd 2 Floor Titan Court 3 Bishop Square Hatfield AL10 9NA UK Antenova Limited 100 Brush Creek Road, Suite 103 Santa Rosa California 95404 USA Antenova Asia Limited 4F, No. 324, Sec. 1, Nei-Hu Road Nei-Hu District Taipei 11493 Taiwan, ROC Tel: +1 707 890 5202 Email: sales@antenova-m2m.com Tel: +886 (0) 2 8797 8630 Fax: +886 (0) 2 8797 6890 Email: sales@antenova-m2m.com Tel: +44 1223 810600 Email: sales@antenova-m2m.com Copyright(R) Antenova Ltd. All Rights Reserved. Antenova (R), Antenova M2M (R), gigaNOVA (R) , the Antenova product family names, and the Antenova and Antenova M2M logos are trademarks and/or registered trademarks of Antenova Ltd. Any other names and/or trademarks belong to their respective companies. The materials provided herein are believed to be reliable and correct at the time of printing. Antenova does not warrant the accuracy or completeness of the information, text, graphics or other items contained within this information. Antenova further assumes no responsibility for the use of this information, and all such information shall be entirely at the user's risk. Antennas for Wireless M2M Applications Product Specification SRF2W021-PS-1.2 Released Nov 2015 Revised March 2016 Page 14