MC13820FCR2 Freescale Semiconductor, MC13820FCR2 Datasheet

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... Compression Point (P1dB): -10 dBm (typ) at 1575 MHz and -5 dBm (typ) at 2140 MHz Freescale reserves the right to change the detail specifications as may be required to permit improvements in the design of its products. © Freescale Semiconductor, Inc., 2005. All rights reserved. Document Number: MC13820/D Rev. 1.1, 09/2005 MC13820 ...

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... Bias Stabilized for Device and Temperature Variations • QFN-12 Leadless Package with Low Parasitics • SiGe Technology Ensures Lowest Possible Noise Figure NC VCC1 LNA Out MC13820 2 Logic Rbias Emit LNA Gnd In Figure 1. Simplified Block Diagram MC13820 Technical Data, Rev. 1.1 9 Gnd 8 Gain 7 Enable Freescale Semiconductor ...

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... R1=1.2 kΩ, Freq=1.575 GHz R1=1.2 kΩ, Freq=2.14 GHz R1=2 kΩ, Freq=1.575 GHz R1=2 kΩ, Freq=2.14 GHz Minimum Noise Figure R1=1.2 kΩ, Freq=1.575 GHz R1=1.2 kΩ, Freq=2.14 GHz R1=2 kΩ, Freq=1.575 GHz R1=2 kΩ, Freq=2.14 GHz Freescale Semiconductor Table 1. Maximum Ratings Symbol Table 3. Electrical Characteristics ( 25° ...

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... Max Unit dB 21.7 22 19.8 - 21.7 22 19.8 - Min Typ Max Unit - 1575 - MHz 17 1.25 1.4 dB -1.0 0.5 - dBm -11 -10 - dBm - 2.8 3.3 mA -6.0 -5 4.8 5 dBm - 10 20 µA - 1960 - MHz 16 16 1.25 1 dBm -7 dBm - 2.8 3 4.7 5 dBm - 10 20 µA Freescale Semiconductor ...

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... Active Noise Figure Active Input Third Order Intercept Point Active Input 1dB Compression Point Active Current @ 2.75 V Bypass Gain Bypass Noise Figure Bypass Input Third Order Intercept Point Bypass Current Freescale Semiconductor = 25°C, Rbias = 2 kΩ, unless otherwise noted.) A Symbol IIP3 ...

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... VCC1 1 GAIN 0 ENABLE 1 LNA Out 1 Maximum Stable/Available Gain and Forward Insertion Gain vs. Frequency Rbias is 2 kohm MSG |S21| 2 1.5 2.5 3.5 f, Frequency (GHz) (Rbias = 2 kΩ) MC13820 Technical Data, Rev. 1.1 Disable Low Gain High Gain MAG 4.5 5.5 Freescale Semiconductor ...

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... Figure 3. Maximum Stable/Available Gain and Forward Insertion Gain vs. Frequency 2.5 Figure 4. Maximum Stable/Available Gain and Forward Insertion Gain vs. Icc Freescale Semiconductor Maxim um Stable/Available Gain and Forw ard Insertion Gain vs. Frequency Rbias is 1.2 kohm MSG M |S21| 2 1.5 2.5 3.5 f, Frequency (GHz) (Rbias = 1.2 kΩ) Maximum Stable/Available Gain and Forward Insertion Gain vs ...

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... Frequency (MHz) (Rbias = 2 kΩ) Minim um Noise Figure and Associated Gain vs. Frequency Rbias = 1.2 kohm Gnf NFm in 1 1000 1200 1400 1600 1800 f, Frequency (MHz) (Rbias = 1.2 kΩ) MC13820 Technical Data, Rev. 1 2000 2200 2400 2000 2200 2400 Freescale Semiconductor ...

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... Figure 7. Input 3rd Order Intercept Point vs. Icc for the 1960 MHz Application Circuit Figure 8. Input 3rd Order Intercept Point vs. Icc for the 2140 MHz Application Circuit Freescale Semiconductor Input 3rd Order Intercept Point vs. Icc 1960 MHz Application Ckt 1.5 2.5 3.5 Icc (mA) (Rbias varied from 1.2 kΩ ...

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... Two variations of the circuit are realized for different requirements for IP3 and I . Values of external resistors R1 and R2 are varied to adjust Table 5. Table 8, and Table 9. These two current drain states offer variation in MC13820 Technical Data, Rev. 1.1 = 2.75 V. Freq. spacing CC is listed in CC and IP3. CC Freescale Semiconductor Table 6. ...

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... R1 = 1.2 kΩ 620 Ω Frequency Power Gain High Gain Bypass Output Third Order Intercept Point High Gain Bypass Input Third Order Intercept Point High Gain Bypass Out Ref P1dB High Gain Bypass In Ref P1dB High Gain Bypass Freescale Semiconductor MC13820 1 1575 MHz LNA 680 ...

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... S11 S21 S12 S22 f G OIP3 IIP3 P 1dBout P 1dBin MC13820 Technical Data, Rev. 1.1 Min Typ Max Unit dBm - 4.0 - µA - 1.2 - kΩ - 620 - dB - - -23 -4 -13 -6 1575.42 - MHz -5.0 - dBm - 18 21.7 - dBm - 0 dBm - 8 dBm - - Freescale Semiconductor Ω ...

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... Rbias R1 Value Rstability R2 Value Input Return Loss High Gain Bypass Gain High Gain Bypass Reverse Isolation High Gain Bypass Output Return Loss High Gain Bypass Freescale Semiconductor and IP3 requirements.) CC Symbol S11 S21 S12 S22 MC13820 Technical Data, Rev. 1.1 Application Information ...

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... MC13820 1 1960 MHz LNA 3 4.3 nH Rbias Symbol f G OIP3 IIP3 MC13820 Technical Data, Rev. 1.1 is listed in CC and IP3 Gnd 8 Gain Logic 7 Enable 6 LNA IN C1 33pF and IP3 requirements.) CC Min Typ Max - 1960 - - - Freescale Semiconductor Table 7. Unit MHz dB dBm dBm ...

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... Output Return Loss High Gain Bypass R1 = 2.0 kΩ 3.3 kΩ Frequency Power Gain High Gain Bypass Output Third Order Intercept Point High Gain Bypass Input Third Order Intercept Point High Gain Bypass Freescale Semiconductor and IP3 requirements.) CC Symbol P 1dBout P 1dBin S11 S21 ...

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... Output Return Loss High Gain Bypass 16 and IP3 requirements.) CC Symbol P 1dBout P 1dBin S11 S21 S12 S22 MC13820 Technical Data, Rev. 1.1 Min Typ Max Unit dBm - 10 dBm - -6 dBm - 4.0 - µA - 2.0 - kΩ - 3.3 - kΩ - - -7.8 - Freescale Semiconductor ...

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... R1 and R2 are changed for different I Characteristic R1 = 1.2 kΩ 3.3 kΩ Frequency Power Gain High Gain Bypass Output Third Order Intercept Point High Gain Bypass Input Third Order Intercept Point High Gain Bypass Freescale Semiconductor MC13820 1 2140 MHz LNA 3 ...

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... I CC S11 S21 S12 S22 f G OIP3 IIP3 MC13820 Technical Data, Rev. 1.1 Min Typ Max Unit dBm - 10 dBm - -5 dBm - µA - 1.2 - kΩ - 3.3 - kΩ - -22 -4 -12 -6 2140 - MHz -3.2 - dBm - 19 21.3 - dBm - 3 24.5 - Freescale Semiconductor ...

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... High Gain Bypass Rbias R1 Value Rstability R2 Value Input Return Loss High Gain Bypass Gain High Gain Bypass Reverse Isolation High Gain Bypass Output Return Loss High Gain Bypass Freescale Semiconductor and IP3 requirements.) CC Symbol P 1dBout P 1dBin S11 S21 S12 S22 MC13820 Technical Data, Rev. 1.1 ...

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... MC13820 1 2400 MHz LNA 3 2.7 nH Rbias Symbol f G OIP3 IIP3 MC13820 Technical Data, Rev. 1.1 is listed in CC and IP3 Gnd 8 Gain Logic 7 Enable 6 LNA IN C1 33pF and IP3 requirements.) CC Min Typ Max - 2400 - - -3 7 Freescale Semiconductor Table 9. Unit MHz dB dBm dBm ...

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... Output Return Loss High Gain Bypass R1 = 2.0 kΩ 3.3 kΩ Frequency Power Gain High Gain Bypass Output Third Order Intercept Point High Gain Bypass Input Third Order Intercept Point High Gain Bypass Freescale Semiconductor and IP3 requirements.) CC Symbol P 1dBout P 1dBin S11 S21 ...

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... Output Return Loss High Gain Bypass 22 and IP3 requirements.) CC Symbol P 1dBout P 1dBin S11 S21 S12 S22 MC13820 Technical Data, Rev. 1.1 Min Typ Max Unit dBm - dBm - -4 dBm - - µA - 2.0 - kΩ - 3.3 - kΩ - - -10 - -9.1 Freescale Semiconductor ...

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... Printed Circuit Board NOT E: COMPON AND C6 ARE LOCATED ON THE BACK OF THE BOARD Freescale Semiconductor MBC1 3720/21 Figure 13. Front Side C5 C6 Figure 14. Back Side MC13820 Technical Data, Rev. 1.1 Printed Circuit Board V2R1 23 ...

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... Bias for 4.45 or 2.8 mA Stability Input match Output match RF bypass Low freq bypass Low freq bypass RF bypass Input match Output match Bias for 4.45 or 2.8 mA Stability Input match Output match RF bypass Low freq bypass Low freq bypass RF bypass Input match Output match Freescale Semiconductor ...

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... MHz 0 .01 µF C5 .01 µ kΩ R1 3.3 kΩ Q1 MC13820 Freescale Semiconductor Table 10. Bill of Materials (continued) Case Manufacturer 402 KOA 402 KOA QFN-12 Freescale 402 Murata 402 Taiyo Yuden 402 Murata 402 Murata 402 Murata 402 Murata 1005 CoilCraft ...

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... Freescale Semiconductor ∠ φ -14.42 -15.76 -19.49 -17.77 -22.03 -23.58 -25.56 -26.44 -30.51 -35.18 -35.67 -36.55 -41.25 -42.78 -46.94 -49.01 -50.61 -51.67 -52 ...

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... Freescale Semiconductor ∠ φ ∠ φ -51.13 0.578 17.83 -53.94 0.596 13.17 -55.73 0.608 8.45 -59.65 0.615 3.3 -58.46 0.624 1 ...

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... Freescale Semiconductor ∠ φ -15.77 -16.82 -20.31 -18.21 -22.39 -23.69 -25.47 -25.98 -29.67 -34.46 -34.49 -35.3 -39.86 -41.18 -45.47 -46.98 -48.63 -49.56 -50 ...

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... Freescale Semiconductor ∠ φ ∠ φ -44.11 0.573 20.27 -46.8 0.591 15.11 -49.46 0.6 10.38 -50.05 0.618 6.77 -50.66 0.623 3 ...

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... MC13820 Technical Data, Rev. 1.1 = 4.8 mA (Ω) (Ω) (dB) 14 0.28 26.21 13 0.26 22.63 0.25 20.83 0.25 19.8 12 0.24 18.3 = 2.8 mA (Ω) (Ω) (dB) 0.31 26.09 15 0.3 22.57 14 0.28 20.81 14 0.28 19.79 0.27 18.3 Freescale Semiconductor K 0.63 0.74 0.70 0.78 0.89 K 0.48 0.56 0.53 0.61 0.77 ...

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... Figure 15. Constant Noise Figure and Gain Circles. 1575 MHz, Rbias = 1.2 kΩ f(GHz) 1.575 Figure 16. Constant Noise Figure and Gain Circles. 1575 MHz, Rbias = 2 kΩ Freescale Semiconductor (shaded regions are potentially unstable) NFmin Gamma-Opt Rn (Ω) 1.02 0.30/_38.2 13.5 ...

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... Figure 18. Constant Noise Figure and Gain Circles. 1900 MHz, Rbias = 2 kΩ 32 (shaded regions are potentially unstable) NFmin Gamma-Opt Rn (Ω) 0.96 0.30/_46.9 12.5 (shaded regions are potentially unstable) NFmin Gamma-Opt Rn (Ω) 0.97 0.37/_46.2 14.0 MC13820 Technical Data, Rev. 1.1 K 0.68 K 0.50 Freescale Semiconductor ...

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... Figure 19. Constant Noise Figure and Gain Circles. 2140 MHz, Rbias =1.2 kΩ f(GHz) 2.1 Figure 20. Constant Noise Figure and Gain Circles. 2140 MHz, Rbias =1.2 kΩ Freescale Semiconductor (shaded regions are potentially unstable) NFmin Gamma-Opt Rn (Ω) 0.96 0.30/_50.1 12.5 ...

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... Figure 22. Constant Noise Figure and Gain Circles. 2400 MHz, Rbias = 2 kΩ 34 (shaded regions are potentially unstable) NFmin Gamma-Opt Rn (Ω) 0.96 0.30/_52.8 12.0 (shaded regions are potentially unstable) NFmin Gamma-Opt Rn (Ω) 0.95 0.38/_53 13.5 MC13820 Technical Data, Rev. 1.1 K 0.85 K 0.70 Freescale Semiconductor ...

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... A B 1.25 0. 0.3 12X 0. 0.75 12X 0.5 8X VIEW M-M DETAIL S (0.25) 4X (0.777) 8X DETAIL M PIN 1 BACKSIDE IDENTIFIER Freescale Semiconductor 0.1 C 1.0 1.00 0.8 0.75 0.05 0.00 M DETAIL M PIN 1 IDENTIFIER EXPOSED DIE ATTACH PAD 1 1. 0.5 (90°) 0.39 2X 0.31 0.1 2X ...

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... Resistance, Junction to Ambient, 4 layer board. Added notes. Updated Current Drain Typ numbers. Updated Current Drain. Updated 2.0 kΩ 3.3 kΩ. Updated 2.0 kΩ 3.3 kΩ. Updated 1575 MHz R1, 1960 MHz R1, 2140 MHz R1, and 2400 MHz R2. MC13820 Technical Data, Rev. 1.1 Freescale Semiconductor ...

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... Freescale Semiconductor NOTES MC13820 Technical Data, Rev. 1.1 37 ...

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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 ...