BGA 735N16 E6327 Infineon Technologies, BGA 735N16 E6327 Datasheet

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High Linearity Tri-Band LTE/UMTS LNA (2600/2300/2100, 1900/1800, 900/800/700 MHz Revision 3.8, 2010-12- & ...

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... Infineon Technologies Office. Infineon Technologies components may be used in life-support devices or systems only with the express written approval of Infineon Technologies failure of such components can reasonably be expected to cause the failure of that life-support device or system or to affect the safety or effectiveness of that device or system. Life support devices or systems are intended to be implanted in the human body or to support and/or maintain and sustain and/or protect human life ...

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... Added LTE bands 12, 13, 14, 17 21-22 Added LTE bands 38, 40 Trademarks of Infineon Technologies AG AURIX™, BlueMoon™, C166™, CanPAK™, CIPOS™, CIPURSE™, COMNEON™, EconoPACK™, CoolMOS™, CoolSET™, CORECONTROL™, CROSSAVE™, DAVE™, EasyPIM™, EconoBRIDGE™, EconoDUAL™, EconoPIM™ ...

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Table of Contents Table of Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...

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List of Figures Figure 1 Block Diagram of Tri-Band LNA . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...

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List of Tables Table 1 Absolute Maximum Ratings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...

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High Linearity Tri-Band LTE/UMTS LNA (2600/2300/2100, 1900/1800, 900/800/700 MHz) 1 Features Main features: • Gain: 16 (17 high / low gain mode (all bands) • Noise figure: 1.1 / 1 high gain ...

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Figure 1 Block Diagram of Tri-Band LNA Data Sheet High Linearity Tri-Band LTE/UMTS LNA 8 Revision 3.8, 2010-12-23 BGA735N16 Features ...

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Electrical Characteristics 2.1 Absolute Maximum Ratings Table 1 Absolute Maximum Ratings Parameter Supply voltage Supply current Pin voltage Pin voltage RF Input Pins RF input power Junction temperature Ambient temperature range Storage temperature range Attention: Stresses above the max. ...

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DC Characteristics Table 4 DC Characteristics, Parameter Symbol V Supply voltage CC I Supply current high gain CCHG mode I Supply current low gain CCLG mode I Supply current standby CCOFF mode V Logic level high HI V Logic ...

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Supply Current Characteristics; Supply current high gain mode versus resistance of reference resistor R mode supply current is independent of reference resistor). I Supply Current Highband 2 ...

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Logic Signal Characteristics; Current consumption of logic inputs VEN1, VEN2, VGS I V Logic currents = f( ) EN1,2 EN1 2 0.5 1 1.5 V [V] EN1,2 ...

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Measured RF Characteristics UMTS Bands Table 8 Typical Characteristics 700 MHz Band, Parameter Pass band range band 12 Pass band range band 17 Current consumption Gain 2) Reverse Isolation Noise figure 2) Input return loss 2) ...

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Measured RF Characteristics UMTS Bands Table 9 Typical Characteristics 700 MHz Band, Parameter Pass band range band 13 Pass band range band 14 Current consumption Gain 2) Reverse Isolation Noise figure 2) Input return loss 2) ...

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Measured RF Characteristics UMTS Band 20 Table 10 Typical Characteristics 800 MHz Band, Parameter Pass band range band 20 Current consumption Gain 2) Reverse Isolation Noise figure 2) Input return loss 2) Output return loss 3) Stability factor 2) ...

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Measured RF Characteristics UMTS Bands Table 11 Typical Characteristics 800 MHz Band, Parameter Pass band range band 5 Pass band range band 6 Current consumption Gain 2) Reverse Isolation Noise figure 2) Input return loss 2) ...

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Measured RF Characteristics UMTS Band 8 Table 12 Typical Characteristics 900 MHz Band, Parameter Pass band range band 8 Current consumption Gain 2) Reverse Isolation Noise figure 2) Input return loss 2) Output return loss 3) Stability factor 2) ...

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Measured RF Characteristics UMTS Bands Table 13 Typical Characteristics 1800 MHz Band, Parameter Pass band range band 3 Pass band range band 9 Current consumption Gain 2) Reverse Isolation Noise figure 2) Input return loss 2) ...

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Measured RF Characteristics UMTS Band 2 Table 14 Typical Characteristics 1900 MHz Band, Parameter Pass band range band 2 Current consumption Gain 2) Reverse Isolation Noise figure 2) Input return loss 2) Output return loss 3) Stability factor 2) ...

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Measured RF Characteristics UMTS Bands Table 15 Typical Characteristics 2100 MHz Band, Parameter Pass band range band 1 Pass band range band 4 Pass band range band 10 Current consumption Gain 2) Reverse Isolation ...

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Measured RF Characteristics UMTS Band 40 Table 16 Typical Characteristics 2300 MHz Band, Parameter Pass band range band 40 Current consumption Gain 2) Reverse Isolation Noise figure 2) Input return loss 2) Output return loss 3) Stability factor 2) ...

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Measured RF Characteristics UMTS Band 38 Table 17 Typical Characteristics 2600 MHz Band, Parameter Pass band range band 38 Current consumption Gain 2) Reverse Isolation Noise figure 2) Input return loss 2) Output return loss 3) Stability factor 2) ...

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Measured RF Characteristics UMTS Band 7 Table 18 Typical Characteristics 2600 MHz Band, Parameter Pass band range band 7 Current consumption Gain 2) Reverse Isolation Noise figure 2) Input return loss 2) Output return loss 3) Stability factor 2) ...

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Application Circuit and Block Diagram 3.1 UMTS Bands and 10 Application Circuit Schematic RFIN Band RFIN Bands Bands Figure ...

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UMTS Bands and 38 Application Circuit Schematic RFIN Bands 22pF C3 22pF RFIN Bands 2.4nH Band 8 Figure 3 Application Circuit with Chip ...

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UMTS Bands 2, 12, 13, 14, 17 and 40 Application Circuit Schematic RFIN Band 3.3nH C2 22pF RFIN Band 2.7nH RFIN Bands ...

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UMTS Bands and 20 Application Circuit Schematic C1 10pF RFIN Band 2 C3 10pF RFIN Bands 22pF RFIN Band 20 Figure 5 Application Circuit with Chip Outline (Top View) ...

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Pin Description Table 23 Pin Definition and Function Pin No. Name 0 GND 1 n/c 2 VGS 3 VCC 4 RFGNDH 5 n/c 6 RFINM 7 RFINH 8 RFGNDM 9 n/c 10 RFINL 11 VEN2 12 VEN1 13 RREF ...

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Application Board Figure 6 Application Board Layout on 3-layer FR4 Note: Top layer thickness: 0.2 mm, bottom layer thickness: 0.660 mm, 17 µm Cu metallization, gold plated. Board size: 21mm x 50 mm. Figure 7 Cross-Section View of Application ...

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Figure 8 Detail of Application Board Layout Note: In order to achieve the same performance as given in this datasheet please follow the suggested PCB-layout as closely as possible. The position of the GND vias is critical for RF performance. ...

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Physical Characteristics 4.1 Package Footprint Figure 9 Recommended Footprint and Stencil Layout for the TSNP-16-1 Package Data Sheet High Linearity Tri-Band LTE/UMTS LNA Physical Characteristics 31 BGA735N16 Revision 3.8, 2010-12-23 ...

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Package Dimensions Figure 10 Package Outline (Top, Side and Bottom View) Data Sheet High Linearity Tri-Band LTE/UMTS LNA Physical Characteristics 32 BGA735N16 Revision 3.8, 2010-12-23 ...

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