V ishay I ntertechnolog y, I nc . AND TEC O L OGY INNOVAT I N HN Multilayer Ceramic Chip Capacitors VJ 6040 O 19 62-2012 Capacitors - Complete UHF Band Coverage Multilayer Ceramic Chip Antenna for Mobile Devices Key Benefits • • • • • • Small outline (10.5 mm x 15.5 mm x 1.2 mm) Omni-directional, linear polarization Complete UHF band coverage (470 MHz to 860 MHz) up to 1.1 GHz UHF receivers for DVB-T, DVB-H, ISDB-T, CMMB, MediaFLO, ATSC devices 50 Ω unbalanced interface Compliant to RoHS Directive 2011/65/EU APPLICATIONS • • • • • • • • Mobile phones Portable multimedia devices Notebooks GPS Alarm systems Meters (gas, water) Medical monitoring devices RFID Resources • Datasheet: VJ6040 - http://www.vishay.com/doc?45157 • For technical questions contact [email protected] One of the World’s Largest Manufacturers of Discrete Semiconductors and Passive Components PRODUCT SHEET 1/2 VMN-PT0184-1203 This document is subject to change without notice. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000 FEATURES Vishay Vitramon • Small outline (10.5 mm x 15.5 mm x 1.2 mm) V ishay I ntertechnolog y, I nc . • Omni-directional, linear polarization VJ 6040 UHF Chip Antenna for Mobile Devices • Complies with MBRAI standard AND TEC I INNOVAT FEATURES O L OGY Multilayer Ceramic Chip Capacitors VJ 6040 HN N • Complete UHF band coverage (470 MHz O to 860 MHz) up to 1.1 GHz • Requires a tuning circuit and ground plane for optimal • Small outline (10.5 mm x 15.5 mm x 1.2 mm) performance • Omni-directional, linear polarization • Standard SMT assembly • Complies with MBRAI standard • 50 Ω unbalanced interface 1 2 • Complete UHF band coverage (470 MHz 9to6 860 0 1 up 2 -°C) 2 MHz) • Operating temperature range (- 40 °C to + 85 to 1.1 GHz • Reference design and evaluation boards available upon • Requires a tuning circuit and ground plane for optimal request performance • Compliant to RoHS directive 2002/95/EC • Standard SMT assembly The company’s products are covered by one or more of the following: WO2008250262 (A1), US2008303720 (A1), US2008305750 (A1), WO2008154173 (A1). Other patents pending. VJ 6040 DESCRIPTION Vitramon The company’s products are coveredVishay by one or more of the The VJ 6040 multi-layer ceramic chip antenna is a small • APPLICATIONS 50 Ω unbalanced interface following: form-factor, high-performance, chip-antenna designed for WO2008250262 (A1), US2008303720 (A1), • •Operating temperature range (- including 40 °C to + DVB-T, 85 °C) DVB-H, Mobile UHF TV receivers TV reception in(A1), mobile devices in the(A1). UHF band. It allows US2008305750 WO2008154173 ISDB-T, CMMB, and MediaFLO • Reference design ATSC, and evaluation boardsdevices available upon mobile TV device manufacturers to design high quality Other patents pending. request products that do not bear the penalty of a large external ANTENNA PERFORMANCE antenna. Utilizing Vishay's unique materials and • Compliant to RoHS directive 2002/95/EC DESCRIPTION FEATURES manufacturing technologies, this product complies with the Peak gain The VJ 6040 multi-layer ceramic • Small outline (10.5 x 15.5 chip mm xantenna 1.2outline. mm)is a small MBRAI standard while mm maintaining a small APPLICATIONS The antenna radiation characteristics are influenced by high-performance, chip-antenna designed for VJ form-factor, 6040 UHF Chip Antenna for Mobile Devices Focusing on consumer applications, the antenna is designed Vishay Vitramon • Omni-directional, linear polarization factors including ground plane DVB-T, dimensions and • several Mobile UHF TV receivers including DVB-H, TV in mobile in theinUHF It allows to• reception be assembled ontodevices a standard PC board the band. standard reflow impedance matching network. ISDB-T, CMMB, ATSC, and MediaFLO devices Complies with MBRAI mobile TV device manufacturers to design high quality process. The antenna parameters presented hereafter were products that do notband bearcoverage the penalty a large external • Complete UHF (470ofMHz to 860 MHz) up Target customers VJ 6040unique are mobile phone makers, ANTENNA PERFORMANCE measured according to the configuration suggested by the antenna. Utilizingof the Vishay's materials and to 1.1 GHz 300 portable multimedia device makers, notebook OEMs and 10 s VJ 6040 manufacturing technologies, thisand product complies withoptimal the Peak gain evaluation board, utilizing its four channel active • Requires a tuning circuit ground plane for T ODMs,standard and accessory card OEMsaand ODMs. digital tuning circuit. The evaluation board plane MBRAI while maintaining small outline. 260 °C (°C)performance The antenna radiation characteristics are ground influenced byis 245 °C The250 VJ 6040 is the first of a family ˜of products developed 40 mm factors by 80 mm large. ground plane dimensions and Focusing on consumer applications, the antenna is designedby several including • Standard SMT assembly 10 s Vishay, a world leader in manufacturing of discrete and The company’s products are covered by one or more of the to be assembled onto a PC board 215 in the °C standard reflow impedance matching network. • 50 Ωcomponents. unbalanced interface passive following: Figure 1 shows peak gain over frequency throughout the process. 200 The parameters hereafter were s WO2008250262 (A1), US2008303720 (A1), 180 °C °C to + 8540 UHF antenna band, compared with thepresented MBRAI requirements. • Operating temperature rangeare (- 40 Target customers of the VJ 6040 mobile phone°C) makers, measured according to the configuration suggested by the US2008305750 (A1), WO2008154173 (A1). portable multimedia device makers, notebook OEMs and • 150 Reference design and evaluation boards available upon VJ 6040 evaluation board, utilizing its four channel active Other patents pending. 130 and °C ODMs. ODMs, and accessory card OEMs request digital tuning circuit. The evaluation board ground plane is The VJ 6040 is the first of a family of products developed by 40 mm by 80 mm large. 0 • Compliant to RoHS directive 2002/95/EC DESCRIPTION 100 Vishay, a world leader in manufacturing of discrete and The VJ 6040 multi-layer ceramic chip antenna is a small -2 passive components. Figure 1 shows peak gain over frequency throughout the 2 K/s APPLICATIONS form-factor, high-performance, chip-antenna designed for 50 UHF band,Simulated compared with the MBRAI requirements. 6040 Chip Antenna for Mobile Devices Vishay Vitramon • Mobile VJ UHF TV UHF receivers including Measured - 4 DVB-T, DVB-H, TV reception in mobile devices in the UHF band. It allows ISDB-T, CMMB, ATSC, and MediaFLO devices mobile TV device manufacturers to design high quality VJ 6040 Peak Gain (dBi) VJ 6040 0 Vis VJ 6040 UHF Chip Antenna for Mobile Device -6 products that do not bear the penalty of a large external 50 100 150 200 t (s) 250 Standard ANTENNADIMENSIONS PERFORMANCE 0 antenna. Utilizing Vishay's unique materials AND and MECHANICAL FOOTPRINT -8 manufacturing technologies, this product complies with the Peak gain The antenna footprint and mechanical dimensions are presented inwith figure 6. For mechanical support, it is recommended to add FEATURES 2 Fig. 8 Soldering Reflow Sn Solder MBRAI standard while maintaining a small outline. antenna radiation characteristics one or two drops of heat curingThe epoxy glue. The glue dot should not overlap with any of by the soldering pads. It is recommended - 10are influenced Focusing on consumer applications, the antenna is designed Simulated several factors including ground dimensions and to apply the glue dot at the center of the antenna, as shown by theplane diagonal pattern. For more details see “VJ 6040 Assembly • Small outline (10.5 mm x 15.5 mm x Measured -4 to be assembled onto a PC board in the standard reflow impedance matching network. - 12 linear polarization Guidelines” section below. VJ 6040 UHF Chip Antenna for Mobile• Omni-directional, Devices Vishay Vitramon process. 450 for 500 Mobile 550 600Devices 650 700 750 800 850 900 VJ 6040 UHF Chip Antenna -6 Vishay Vitramon The antenna parameters presented hereafter were • Complies with MBRAI standard Frequency (MHz) Standard 0.35 0.5 0.5 0.35 Target customers of the VJ 6040 are mobile phone makers, measured according to the configuration suggested by the 3.6 3.6 4.6 • Complete UHF band coverage (470 1.0 portable multimedia device makers, notebook OEMs and 1.0 evaluation board, utilizing its - 8four channel VJ 6040 Fig. 1 - active Peak gain vs. Frequency ` to 1.1 GHz 0.35 0.35 ODMs, and accessory card OEMs and ODMs. digital tuning circuit. The evaluation board ground plane is 300 - 10 1.0 • Requires a tuning circuit and grou The VJ 6040 is the first of a family of products developed by Max. temperature 40 mm Figure by 80 mmdisplays large. the measured and simulated radiation efficiency of VJ 6040 over frequency. T and Figure 2 displays the measured simulated2 radiation efficiency of VJ 6040 over frequency. performance Vishay, a world leader in manufacturing of discrete and (°C) Document Number: 45157 For technical questions, contact: [email protected] www.vishay.com - 12 250 15-Jun-10 Revision: 1 passive components. Figure 1 shows peak gain over throughout the650 • Standard SMT assembly 450 500 550 600 700 750 800 or850 900of the 4.65 Thefrequency company’s products are covered by one more UHF band, compared with the following: MBRAI requirements. Frequency (MHz) • 50 Ω unbalanced interface 0.5 0 • Reference design and evaluation b request Min. temperature DESCRIPTION 25 • Compliant to RoHS directive 2002/95 1 30 Efficiency (%) • Operating temperature range (- 40 °C Glue dot area 35 Simulated value For technical30 questions, contact: [email protected] Document Number: 45157 25 Revision: 100 15-Jun-10 -2 VJ 6040 VJ 6040 VJ 6040 6040 UHF Chip Vishay Vitramon VJ 6040 VJ VJ 6040 WO2008250262Fig. (A1), US2008303720 (A1), 40 1 - Peak gain vs. Frequency US2008305750 (A1), WO2008154173 (A1). Simulated value 35 Other patents pending. Sn-Ag-Cu solder paste 40 150 Measured value www.vishay.com Efficiency (%) 200 Peak Gain (dBi) VJ 6040 VJ 6040 The VJ 6040 multi-layer ceramic chip Measured antennavalue is a small 20 form-factor, high-performance, chip-antenna designed for 15 TV reception in mobile devices in the UHF band. It allows -6 10 mobile TV device10manufacturers to design high quality Standard 1.0 0 5 products that do not bear the penalty 0.35 of a large external -8 30 s to 60 s 5 0.35 Time antenna. Vishay's unique materials and 60 0s to 120 s 60 s to 120 s 60 sUtilizing to 120 s 1.0 460 510 560 610 manufacturing 660 710 760 technologies, 8100All dimensions 860 - 10 this product complies with the in mm 460 not 510in scale 560 610 660 710 760 810 Frequency (MHz) Figure MBRAI standard while maintaining a small outline. Frequency (MHz) - 12 Fig. 9 - Soldering IR Reflow with SnAgCu Solder applications, the antenna is designed Focusing on consumer 450 500 550 600 650 700 750 800 850 900 to be assembled onto a PC board in the standard reflow RF feed connects here Frequency (MHz) Antenna for Mobile Devices Fig. 2 -Devices Radiation Efficiency vs. Frequency VJ 6040 UHF Chip Antenna for Mobile process. Fig. 6VJ - VJ 6040 Footprint 6040 UHF Chip Antenna for Mobile Devices Vishay Vitramon Peak Gain (dBi) Capacitors - Complete UHF Band Coverage VJVJ6040 UHF Chip for Antenna for Mobile Devices 6040 UHF Chip Antenna Mobile Devices -4 Measured 4.65 50 Simulated 20 15 APPLICATIONS • Mobile UHF TV receivers includ ISDB-T, CMMB, ATSC, and MediaFL ANTENNA PERFORMANCE 860 VJ 6040 Vishay Vitramon VJfor 6040 UHFDevices Chip Antenna for Mobile Fig. 1 -Devices Peak gain vs. Frequency VJ 6040 UHF Chip Antenna Mobile Fig.VJ 2 - Radiation Efficiency vs. Frequency Vishay Vitramon VJ 6040 UHF Chip Antenna for Mobilefor Devices Vishay Vitramon customers of the phone makers, VJApplications 6040 ASSEMBLY GUIDELINES that do not require full coverage ofMobile the UHF Devices bandTarget can gain an additional two to6040 threeare dBimobile by removing the tuning VJ 6040 UHF Chip Antenna Vitramon VJ 6040 UHF Chip AntennaVishay for Mobile Devices VJ 6040 UHF Chip Antenna for Mobile Peak gain The antenna radiation characteristic several factors including ground pla impedance matching network. The antenna parameters present measured according to the configurat portable multimedia device makers, notebook OEMsare and In this case the antenna can becircuit fixed board to any 150 MHz band within the coverage UHF range. ORDERING INFORMATION VISHAY MATERIAL PACKAGING board, the utilizing Mounting of antennas on a printed should done by reflow soldering. reflow soldering profiles showntwoVJto6040 Devices1. circuit. Applications that dobe not require full of The the UHF band canQUANTITY gain an additional three evaluation dBi by removing tuningits ODMs, and accessory card OEMs and1000 ODMs. pieces digital tuning circuit. The evaluation b VJ 6040 VJ6040M011SXISRA0 ured and simulated radiation efficiency of VJ 6040 over frequency. 15 10 5 0 460 15 25 Measured value 5 10 10 20 5 15 0 10 460 20 25 Simulated value Measured value 15 20 Measured value 10 15 20 30 510 560 610 660 710 05 460 510 560 0 460 810 510 860 560 760 (MHz)810 610 660 Frequency 710 760 Frequency (MHz) 5105 560 860 300 40 Z TSimulated value 35 (°C)value Simulated 30 Document Simulated value questions, 25 35 Number: 45157 For technical 25 Measured value > 215 °C: 20 s to 40 s Measured value 15-Jun-10 25 Revision: 20 30 20 200 Measured value Measured value 20 15 25 15 15 10 610 660 5710 Frequency (MHz) 0 610 660 460 710 Frequency (MHz) 10 20 Measured value 150 510 Max. temperature 0 X contact: [email protected] -2 Measured value 10 5 15 Min. temperature 5 100 0 760 860 10 810 460 510 560 610 660 710 760 810 760 560 860 660 Frequency 510 710 (MHz) 760 810 860 5 810 610 50 Frequency (MHz) 0 460 860 510 560 Sn-Pb eutectic solder paste 610 660 710 Frequency (MHz) 760 810 0 460 510 560 610 660 710 760 810 860 Fig. 2 - Radiation Efficiency vs. Frequency 0 Fig. 2 - Radiation Efficiency vs. Frequency Frequency (MHz) 610 660 710 760 810 860 to 60 s Fig. 2 Radiation Efficiency vs. Frequency Fig. 2 Radiation Efficiency vs. Frequency Fig. - Radiation two Efficiency vs. Frequency Applications that do not require full (MHz) coverage of the UHF band can gain an2 additional to three dBi by removing 30 thes tuning Frequency 0 460 Simulated value Z 30 250 Peak Gain (dBi) 20 25 35 35 Efficiency (%) 25 25 Simulated value 30 40 30 Efficiency (%) Efficiency (%) Efficiency (%) 30 40 30 35 Simulated value Efficiency Efficiency (%) (%) 35 40 Simulated value 35 Simulated value 30 40 Efficiency (%) 35 35 40 Efficiency (%) 40 40 UHF band, compared with the MBRAI The 3D planes of VJ 6040 are defined in figure 3. 40 Efficiency (%) Revision 15-Jun-10 circuit. In this case the antenna can be fixed to any 150 MHz band within the UHF range. Document Number: 45157 technical questions, contact: [email protected] www.vishay.com Figure 2 displays the measured and simulated radiation efficiency of VJ below. 6040For over frequency. Theradiation VJ is thethe first of a6040 products by glue 40 mm by 80 mm large. Figure 2 displays radiation efficiency of VJ 6040 over frequency. Figure 2 displays the measured andthe simulated of VJ over Revision: 15-Jun-10the measured and simulated 1family 2. RADIATION In order to provide the adequate strength between antenna and6040 theefficiency PCB application ofof afrequency. dot of heatdeveloped cured epoxy PATTERN Figure 2 displays the measured and simulated radiation efficiency of VJ 6040 over frequency. Vishay, a world leader in should manufacturing sured and simulated radiation efficiency of 2VJ 6040 over Figure displays the frequency. measured and simulated efficiency of VJ 6040 frequency. inradiation the center of the footprint of over the antenna prior to the antenna's soldering to the board be done. of Andiscrete exampleand for such The 3D planes of VJefficiency 6040 are defined in figure 3. passive components. 2 displays the measured andglue simulated radiation of VJ 6040 over frequency. Figure 1 shows peak gain over frequ d simulated radiation efficiency of VJ 6040Figure over frequency. PATTERN could be Heraeus PD 860002 SA.RADIATION The weight of the dot should be 5 mg to 10 mg. 560 30 s to 60 s 30 s to 60 s Time X Measured Simulated -6 Standard -8 860 - 10 - 12 450 Fig. 2 - Radiation Efficiency vs. Frequency www.vishay.com 5 -4 500 550 600 650 700 750 Frequency (MHz) 800 850 900 Applications that do not require full coverage of the UHF band can gainthat an additional two to dBi byofremoving tuning Applications do not require fullthree coverage the UHF the band can gain an additional two to three by removing tuning Fig.dBi 1 - Peak gain vs. the Frequency circuit. this caseEfficiency the antenna can be fixed to any 150 MHz band within the UHF range. Fig. 2 In - Radiation vs. Frequency Fig. 7 - can Soldering IR Reflow with SnPbband Solder Y notband require coverage therequire UHF band can anthe additional twoMHz to circuit. three by removing the tuning circuit. 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Fig. 3 - VJ 6040 3D Plane Definition ned in figure 3. RN Z RADIATION PATTERN PRODUCT SHEET Z are defined in figure 3. Z Z 2/2 Z Z For technical questions, contact: [email protected] www.vishay.com The 3D in figure 3. Z planes of VJ 6040 are defined Z 2 X X VMN-PT0184-1203 Document Number: 45157 Revision: 15-Jun-10 This document is subject to change without notice. THE PRODUCTS DESCRIBED HEREIN XAND THIS DOCUMENT ARE SUBJECT TO X X X Z www.vishay.com For technical questions, contact: [email protected] Document Number: 45157 SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000 X 2 Revision: 15-Jun-10