DBP.5570.N.A.60

Airvu Filter Series Part No: DBP.5570.N.A.60 Description: Dielectric Band Pass Filter for 5570MHz Bandwidth 160MHz Features: Center Frequency 5570MHz Bandwidth 160MHz Low Insertion Loss Band Pass-Band Ripple High Ultimate Attenuation Dimensions: 8.7*4.2*3 mm RoHS & Reach Compliant SPE-20-8-048-C 1. Introduction 3 2. Specifications 4 3. Characteristics 5 4. Mechanical Drawing 6 5. Recommended Reflow Solder Profile 7 6. Environmental Reliability 8 7. Other 10 8. Packaging 11 Changelog 13 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. SPE-20-8-048-C www.taoglas.com 2 1. Introduction 1. Introduction 1. Introduction 1. Introduction 1. 1. Introduction Taoglas are utilizing their deep understanding of the RF component design and manufacturing process to provide high-quality, small-form-factor, cost-effective and easy to implement RF filters, known as the Airvu Filter Series. The Taoglas Filters Division will feature a range of off- the-shelf filters for a variety of applications, including filters for emerging license free bands used for WLAN 802.11 5570MHz applications. We can also work with customers to develop bespoke filter solutions. Introduction Taoglas dielectric filters are designed to be used in wireless transmitters or receivers. These filters are designed to protect the Wi-Fi Module from noisy out of band emissions originated from nearby transmitters. 1. 1. Introduction By selecting the proper Taoglas filter you can eliminate unnecessary out of band noise while maintaining minimal in-band insertion loss. The filter is manufactured as a single ceramic block [monoblock] which provides high reliability, low insertion loss and high attenuation in a simple compact SMD package. Introduction The DBP.5570.N.A.60 is a standard Taoglas product but can be customized for specific customer needs. For further information please contact your regional Taoglas customer support team. SPE-20-8-048-C www.taoglas.com 3 2. Specifications 3. Antenna Characteristics2. 3. 4. Specifications Electrical Centre Frequency (MHz) 5570MHz Bandwidth fo ± 80 [5490~5650] 160MHz Antenna Characteristics Insertion Loss 4.0 dB max Passband Ripple 2.5 dB max Return Loss < -10 dB Antenna Radiation Patterns3.Antenna ≥30dB at 5150~5330 MHz Attenuation ≥30dB at 5750~5835 MHz Characteristics2. In/Out Impedance Specifications 50 Ω Power Dissipation 1.0 W min. Mechanical 3. Antenna Characteristics2. Dimensions Specifications 8.7*4.2*3 (L*W*H) Material 3. Ceramic Finish Antenna Characteristics Ag plated Environmental Operating Temperature 4. -40°C to 85°C Antenna Radiation Patterns3.Antenna Storage Temperature Moisture Sensitivity Level (MSL) Characteristics 4. Antenna Radiation Patterns 4. Antenna Radiation Patterns3.Antenna -40°C to 85°C 3 (168 Hours) Characteristics 4. Antenna Radiation Patterns3.Antenna Characteristics2. SPE-20-8-048-C Specifications www.taoglas.com 4 3. 4. Characteristics 3.1 Pass Band Return & Insertion Loss Antenna Radiation Patterns3.Antenna 0 Characteristics DBP.5570.N.A.60_Return Loss -10 DBP.5570.N.A.60_Insertion Loss -20 4. Antenna Radiation Patterns -30 4. -40 Antenna Radiation Patterns3.Antenna -50 Characteristics -60 4. -70 Antenna Radiation Patterns3.Antenna -80 Characteristics 4500 4700 4900 5100 5300 5500 5700 5900 6100 6300 6500 -90 4. Antenna Radiation Patterns 4. Antenna Radiation Patterns 4. Antenna Radiation Patterns 4. Antenna Radiation Patterns3.Antenna Characteristics 4. Antenna Radiation Patterns3.Antenna SPE-20-8-048-C www.taoglas.com 5 4. Mechanical Drawing 4.1 Component Drawing 4. Antenna Radiation Patterns 4. Antenna Radiation Patterns 4. Antenna Radiation Patterns 4. Antenna Radiation Patterns 4. Antenna Radiation Patterns 4.2 Recommended PCB Layout 4. Note: Test PCB material: FR4 Antenna Radiation Patterns 4. Antenna Radiation Patterns SPE-20-8-048-C ɛr 4.4; T=0.6mm www.taoglas.com 6 5. 6. Recommended Reflow Soldering Profile The DBP.5570.N.A.60 can be assembled by following the recommended soldering temperatures are as follows: Packaging5. Mechanical Drawing 6. Packaging 7. Application Note6. Packaging5. Mechanical Drawing 6. Packaging5. 6. Packaging Mechanical Drawing *Temperatures listed within a tolerance of +/- 10º C 7. Application Note6. Packaging Smaller components are typically mounted on the first pass, however, we do advise mounting the DBP.5570.N.A.60 when placing larger components on the board during subsequent reflows. Note: Soldering flux classified ROL0 under IPC J-STD-004 is recommended. 7. Application Note 7. Application Note6. Packaging 7. Application Note6. Packaging5. Mechanical Drawing 6. Packaging5. SPE-20-8-048-C Mechanical Drawing www.taoglas.com 7 6. Environmental Reliability CONDITIONS: 4.6.1. STORAGE Antenna Radiation Patterns3.Antenna 6.1.1. Use the product of former delivery first. Characteristics 6.1.2. Temperature: 0℃ to 40 ℃ Humidity: 80%RH or less 6.1.3. The product should not be stored exceeding six months (as packed by Taoglas) or one month (once unpacked). Use the 4. Antenna Radiation Patterns product within that period. 6.2. STANDARD CONDITION 4. This standard shall satisfy the Patterns3. condition of Table 1 after the following test 6.2. Antenna Radiation Antenna Characteristics 6.3. TEST METHOD The filter shall withstand the following test condition. 6.3.1. Low Temperature Hold Test :-40℃ 4. Unit shall be subjected to the above condition for 500 hours and then Antenna Radiation Antenna be left for more than 2 Patterns3. hours at room temperature. 6.3.2. High Temperature Hold Test:+100℃ Unit shall be subjected to the above condition for 500 hours and then Characteristics be left for more than 2 hours at room temperature. 6.3.3. Humidity Resistance Test: 4. Unit shall be subjected to the 85±2℃, 85~90% relative humidity for 500 hours and then be left for more than 2 hours at 25±5℃ in less than 85% relative Antenna Radiation Patterns humidity. 6.3.4. Vibration Resistance Test: 4. 4. 4. The vibration frequency shall be varied within 10-60 Hz with the amplitude of 1.5mm for 20 minutes. Devices are applied to vibration in each of three mutually perpendicular planes for 2 hours. Antenna Radiation Patterns 6.3.5. Mechanical Shock Resistance Test: A half sine wave shock with a maximum acceleration of 30 G’s and duration of 11 msec. Unit is applied in six directions at right angles to each other by three shocks in each direction. Antenna Radiation Patterns 6.3.6. Thermal Shock Resistance Test: After the unit is applied to thermal shock -40℃(30min)  +25℃(within 5min)  +100℃(30min)  +25℃(within 5min) soak at each temperature with transition time less than 10 seconds for 350 cycles and then be left for more than 1 to 2 hour at 25±5℃ in less than 65% relative humidity. Antenna Radiation Patterns3.Antenna 6.3.7. Lead Pins Heat Resistance Test: (L type and M type series) After the lead pins of the unit are soaked in solder bath at 270 ± 10℃ for 5 Characteristics seconds and then be left for more than 1 hour at 25±5℃ in less than 65% relative humidity. 4. SPE-20-8-048-C Antenna Radiation Patterns3.Antenna www.taoglas.com 8 6.3.8. Adhesion Test: The device is subjected to be soldered on test PCB. Then apply 0.5Kg(5N) of force for 10±1 seconds in the direction of arrow. (the soldering should be done by reflow and be conducted with care so that the soldering is uniform and free of defect by stress such as heat shock) 6.3.9. Bending Resist Test Weld the product to the center part of the PCB with the thickness 1.6±0.2mm as the illustration shows, and keep exerting force arrow-ward on it at speed of :1mm/S, and hold for 5±1S at the position of 1.5mm SPE-20-8-048-C www.taoglas.com 9 7. Other 7.1. IN CASE OF ANY PROBLEM REGARDING THIS SPECIFICATION, BOTH CUSTOMER SHALL DISCUSS AND SOLVE IT. 6.AND Taoglas Packaging5. Mechanical Drawing 7.2. INSTALLING A DIELECTRIC FILTER /DUPLEXER: 7.2.1. How to install dielectric filter/duplexer: 6. Taoglas recommend reflow process for the installation of dielectric filter/duplexer onto PCB. Soldering the dielectric filter/duplexer onto a PCB with Packaging a hand soldering iron is not recommended. 7.2.2. Connecting I/Os: The edge of metal shield, if any, shall be soldered to the electrode of PCB board by reflow process. Tx, Ant, and Rx portion of the PCB shall have either via hole or through hole.Note6. Packaging5. 7. Application Mechanical I/Os of the filter/duplexer shall be connected to 50- ohm strip lines that pass these holes to the backside of the PCB. The 50- ohm strip lines from the Drawing through duplexer shall be connected to the next circuit element. It is important to place the filter/duplexer on one side and the connecting strip lines on the other side in order to avoid the interferences by the signal radiation from the strip lines. Such interferences may change the duplexer performance. 6. 6. 7.2.3. Solder and resist area: Packaging5. Mechanical Drawing Solder and resist area shall be prepared according to referenced Land pattern for each part number provided by Taoglas. The Referenced Land Pattern may be found in Taoglas’s Product Catalog. The solder area under the filter/duplexer should be divided into smaller patches with narrow strips of resist area. This is to Packaging help the evacuation of the gasses generated from the solder paste during reflow process. 7.3. FILTER REPLACEMENT: 7.3.1. Removal of filters: 7. 7. If filter replacement is necessary, it is recommended that a directed source hot Application Note6. Packaging air repair station be used. Use tweezers to handle the filter. Do not expose the filter to temperatures in excess of 220 ºC as damage may occur making postmortem difficult. 7.3.2 Installing Replacement Filter: Application It is helpfulNote that the filter be preheated to 180 ºC before reflow. Pretinning the filter with a soldering iron is not recommended due to possible damage generated by a concentrated heat source. Use tweezers to handle the filter. Do not place material handling devices inside of the resonator holes as filter damage may occur. The use of the same silver bearing solder paste is 7. Application Note6. Packaging recommended for filter rework or replacement. As with the initial reflow, replacement filters should not be exposed to temperatures in excess of 215 ºC. Disclaimer: The center of this section is presented only as the recommendation or the reference for the use and installation of Taoglas dielectric ceramic filter/duplexer. Since Taoglas does not know any particular 7. Application Note6. Packaging5. Mechanical conditions, circumstances, and environment of each customer, Taoglas does not any responsibility for the consequences caused by use out of this Drawing take specification document. The readers of this document should examine all possible technical issues regardless of being discussed in this document. 6. Packaging5. SPE-20-8-048-C Mechanical Drawing www.taoglas.com 10 8. Packaging 6. Packaging5. 6. Packaging 7. Application Note6. Packaging5. Mechanical Drawing Mechanical Drawing 6. Packaging5. Mechanical Drawing 6. Packaging 7. Application Note6. Packaging 7. Application Note 7. Application Note6. Packaging 7. Application Note6. Packaging5. Mechanical Drawing 6. Packaging5. SPE-20-8-048-C Mechanical Drawing www.taoglas.com 11 SPE-20-8-048-C www.taoglas.com 12 Changelog for the datasheet SPE-20-8-048 – DBP.5570.N.A.60 Revision: C (Current Version) Date: Notes: Author: 2023-09-05 Updated Solder Reflow Information Cesar Sousa Previous Revisions Revision: B Date: Notes: Author: 2021-09-07 Added MSL rating and fixed Fonts in table. Erik Landi Revision: A (Original First Release) Date: 2020-08-12 Notes: Author: SPE-20-8-048-C Jack Conroy www.taoglas.com 13 www.taoglas.com SPE-20-8-048-C © Taoglas 14 www.taoglas.com