MC13853FCR2 Freescale Semiconductor, MC13853FCR2 Datasheet
MC13853FCR2
Specifications of MC13853FCR2
Related parts for MC13853FCR2
MC13853FCR2 Summary of contents
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... MHz, and 1.6 dB (typical) at 2140 MHz This document contains information on a product under development. Freescale reserves the right to change or discontinue this product without notice. © Freescale Semiconductor, Inc., 2006 - 2008. All rights reserved. Document Number: MC13853 Rev. 1.8, 8/2008 MC13853 ...
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... MHz LNAs LB LNA LB Emit GPO1 OUT Triband LNA Die SPI HB2 Emit SPI Data SPI Clk Figure 1. Simplified Block Diagram MC13853 Technical Data, Rev. 1.8 GPO2 13 12 Vcc HB1 LNA 11 OUT HB2 LNA 10 OUT 9 VDDauxSPI 8 SPI Frm Freescale Semiconductor ...
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... Table 3. Electrical Characteristics in Frequency Specific Tuned Circuits Characteristic 880 MHz (Refer to Figure 4) Frequency Active Gain Band V Band VI Active Noise Figure Active Input Third Order Intercept Point Active Input 1 dB Compression Point Active Current @ 2. current setting 6 Freescale Semiconductor Table 1. Maximum Ratings Symbol stg dis R θ ...
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... MHz 12.5 13.5 14.5 – 1.55 1.6 -3 -2.5 – dBm -12.5 -12 – dBm – 7.8 9.7 mA -9.5 -9 – – dBm – Freescale Semiconductor dB µ µ µ µA ...
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... Active Gain Variation Across Temperature 85°C relative to 25°C -30°C relative to 25°C 85°C relative to 25°C -30°C relative to 25°C Noise Figure relative to 25°C Active Input Third Order Intercept relative to 25°C Freescale Semiconductor (V = 2.775 V, 25°C) CC Symbol Minimum f G ...
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... Default current setting shown in gray for each band Table 7. Maximum Current 25 C ° 1 400 MC13853 Technical Data, Rev. 1.8 Enable Bit 25°C Current Setting LNA3 LB 8.6 0 5.0 1 6.2 2 10.8 3 2.0 4 7.2 5 8.3 6 11 ° ° Unit A 5 µ A 400 µ Freescale Semiconductor ...
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... Active Bypass Disable Not Used Current Selector LNA1 HB2 (default) LNA2 HB1 LNA3 LB Mode Selector Active for GPO Bypass (External LNA) Disable Disable Read Mode Address structure Bit # Not Variable Variable SPI Data Read 1 LNA Selector For Hardware Read Freescale Semiconductor ...
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... LNA2 Active To Ext LNA LNA2 Bypass To Ext LNA LNA2 Off To Ext LNA LNA3 Active To Ext LNA LNA3 Bypass To Ext LNA LNA3 Off NA NA LNA4 Active NA NA LNA4 Bypass NA NA LNA4 Off Freescale Semiconductor LNAs 1, 2, and 3 or LNAs 1 and 2 LNAs and 4 ...
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... LNA, the corresponding un-connected LNA which would also become active when the SPI command is sent to the connected LNA will draw <1 mA for LB, <1.2 mA for HB1 and <1mA for HB2 in active mode over temperature. Freescale Semiconductor MC13853 Technical Data, Rev. 1.8 Application Information ...
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... HB1 LNA LNA Die OUT SPI SPI Data SPI Clk SPI Frm LNA2 Triband LNA Die SPI SPI Data SPI Clk SPI Frm MC13853 Technical Data, Rev. 1.8 VDDauxSPI SPI Data Vcc SPI Clk SPI Frm HB2 LNA OUT VDDauxSPI Freescale Semiconductor ...
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... Table 9. Typical 880 MHz LNA Demo Board Performance ( Characteristic Frequency Power Gain High Gain Band V High Gain Band VI Bypass Input Third Order Intercept Point High Gain Bypass In Ref P1dB High Gain Bypass Noise Figure High Gain Bypass Freescale Semiconductor R4 C10 L5 Remit ohm LB Emit Triband LNA Die ...
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... Freescale Semiconductor ...
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... Table 10. Typical 950 MHz LNA Demo Board Performance ( Characteristic Frequency Power Gain High Gain Bypass Input Third Order Intercept Point High Gain Bypass In Ref P1dB High Gain Bypass Noise Figure High Gain Bypass Freescale Semiconductor CC R4 C10 L5 Remit ohm LB Emit Triband ...
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... Freescale Semiconductor ...
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... Table 11. Typical 1850 MHz LNA Demo Board Performance ( Characteristic Frequency Power Gain High Gain Bypass Input Third Order Intercept Point High Gain Bypass In Ref P1dB High Gain Bypass Noise Figure High Gain Bypass Freescale Semiconductor is listed in Table Triband LNA Die SPI ...
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... Freescale Semiconductor ...
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... Table 12. Typical 1960 MHz LNA Demo Board Performance ( Characteristic Frequency Power Gain High Gain Bypass Input Third Order Intercept Point High Gain Bypass In Ref P1dB High Gain Bypass Noise Figure High Gain Bypass Freescale Semiconductor is listed in Table Triband LNA Die 11 10 SPI 9 ...
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... Freescale Semiconductor ...
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... Table 13. Typical 2140 MHz LNA Demo Board Performance ( Characteristic Frequency Power Gain High Gain Bypass Input Third Order Intercept Point High Gain Bypass In Ref P1dB High Gain Bypass Noise Figure High Gain Bypass Current Drain in current setting 2 High Gain Bypass Freescale Semiconductor is listed in Table 13 SPI ...
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... Comments Input match Input match Output match RF bypass Low freq bypass Input match DC feed/output match Stability/reduce gain Stability Stability Freescale Semiconductor ...
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... RS Remit 0Ω Q1 MC13853 1800 MHz .01 µ 3 4 Ω Ω MC13853 Freescale Semiconductor Table 14. Bill of Materials (continued) Case Manufacturer 402 Murata 402 Murata 402 Taiyo Yuden 402 Murata 402 Murata 402 TOKO 402 TOKO 402 KOA 402 KOA 402 KOA QFN-16 ...
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... KOA QFN-16 Freescale MC13853 Technical Data, Rev. 1.8 Comments Input match RF bypass Low freq bypass Output match Input match Output match/DC feed Stability Stability Input match RF bypass Low freq bypass Output match Input match Output match/DC feed Stability Stability Freescale Semiconductor ...
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... Packaging .0080 in 0.20 mm .0669 in 1.70 mm gnd flag under part .015 in dia .0263 in 0.38 mm via 0.67 mm thru holes Freescale Semiconductor 0.50mm 0.012 in 0.02 in 0.305 mm pad pitch Figure 9. Board Layout Dimensions MC13853 Technical Data, Rev. 1.8 .0829 in 2.10 mm 0.145 in 3.68 mm visual pkg alignment line ...
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... Packaging 24 Figure 10. Outline Dimensions for QFN-16 MC13853 Technical Data, Rev. 1.8 Freescale Semiconductor ...
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... Figure 5 950 MHz LNA Application Schematic Figure 6 1850 MHz LNA Application Schematic Table 14 Bill of Materials Freescale Semiconductor Table 15. Revision History Revised diagram to remove penta-band info. Removed penta-band data, other revisions to table data. Added new paragraph 4, revised paragraph 3. New figure. Replaced drawing. ...
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... Freescale Semiconductor products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the Freescale Semiconductor product could create a situation where personal injury or death may occur. Should Buyer purchase or use ...