1 / 15

RF Amplifier Analysis and Design

RF Amplifier Analysis and Design. Critical Specifications: Input impedance: Z in Load Impedance: Z L Frequency of operation (upper and lower 3 dB frequencies) Maximum “undistorted” Power into Z L Voltage Gain , Power Gain Efficiency (P out (max)/P DC )

Télécharger la présentation

RF Amplifier Analysis and Design

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. RF Amplifier Analysis and Design • Critical Specifications: • Input impedance: Zin • Load Impedance: ZL • Frequency of operation (upper and lower 3 dB frequencies) • Maximum “undistorted” Power into ZL • Voltage Gain , Power Gain • Efficiency (Pout(max)/PDC) • Power Supply Requirements (VDC, IDC) Remember: Design is the reverse of analysis. If you can’t analyze a thing, you cannot design a thing. An analysis problem has one correct solution. A design problem can have many solutions.

  2. Transistor Equivalent Circuits Equivalent AC Model For Amplifier Analysis/Design (Common Emitter) AC Model For Amplifier Analysis/Design (Common Base) DC Model For Bias Analysis/Design

  3. Transformer Conventions

  4. Typical RF Amplifier DC Equivalent AC Equivalent

  5. Book Example: Fig 1-11 DC/Bias Analysis Assume b is large, so IB can be neglected. Then: Compute IE Compute re Check Assumption 1. Current through the base bias resistors is 1 mA. The base current can be neglected if it is less than 5% of the resistor current, or .05 mA. …Since b > 25, our assumption is valid 12 v 10 kW VB 2 kW 1 kW

  6. Parasitic Coil Resistance AC Analysis Transformed Load Resistance Total AC Collector Resistance Transistor Voltage Gain Include the transformer: This is a general result that we will use over and over again! (eq 1-24)

  7. Frequency Analysis Input Impedance (b = 50) Power Gain

  8. vC VCC IC Saturation Margin VE Cutoff Margin

  9. AC Load Line iC Saturation: vCE ~ 0 For Symmetrical Clipping: If Then cutoff limits amplitude. If Then saturation limits amplitude. Q Point (quiescent) IC Cutoff: iC~ 0 vCE VCE Max P-P Undistorted Collector Voltage Swing

  10. Example 1-4 AC Load Line(Fig 1-11) iC 5.1 mA Maximum Undistorted Power Output IC = 1.3mA 14.2 v vCE VCE = 10.7 v This will occur when the input voltage is 26 mv 0-pk or 18 mv RMS Max P-P Undistorted Collector Voltage Swing: V0-pk = 3.5 v

  11. Discussion Since the author neglected to do the load line analysis, he failed to detect the fact that with 40 mV rms input (56.5 mV 0-pk), the collector voltage would want to swing 7.7 V 0-pk. Since the maximum 0-pk voltage swing determined by the load line is 3.5 V the amplifier will go into cutoff and the tops of the sine waves will be clipped. Design is all about verification/validation and iteration. For this DC bias scheme, the optimum total AC collector resistance at resonance should be : …which is greater than the transformed load resistance of 7.2 kW. If the 5 kW resistor were eliminated, we would have This is still less than Rc’(opt), but . . ..

  12. . . . We can make Rc’ = Rc’(opt) if we can make This requires a transformer turns ratio of: Now and . . . and the gains are:

  13. New AC Load Line iC 2.56 mA Maximum Undistorted Power Output IC = 1.3mA 21.7 v vCE VCE = 10.7 v Limited by saturation Max P-P Undistorted Collector Voltage Swing: V0-pk = 10.7 v This will occur when the input voltage is 25.2 mv 0-pk or 17.3 mv RMS

  14. Performance Summary The table below summarizes the performance changes introduced by removing the 5k resistor and changing the turns ratio from 12 to 15:

  15. Voltage, Current, and Power Assume Maximum Power Output Condition: Ic = IC Vce = VCE For the AC Collector Load: For the Transistor:

More Related