* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Frequency Bands lect..
Survey
Document related concepts
Spark-gap transmitter wikipedia , lookup
Spectral density wikipedia , lookup
Ringing artifacts wikipedia , lookup
Mains electricity wikipedia , lookup
Skin effect wikipedia , lookup
Zobel network wikipedia , lookup
Electrostatic loudspeaker wikipedia , lookup
Wien bridge oscillator wikipedia , lookup
Loading coil wikipedia , lookup
Alternating current wikipedia , lookup
Regenerative circuit wikipedia , lookup
Surface-mount technology wikipedia , lookup
Resistive opto-isolator wikipedia , lookup
Chirp spectrum wikipedia , lookup
Mathematics of radio engineering wikipedia , lookup
Utility frequency wikipedia , lookup
Transcript
5/2/2017 582719945 1/9 Frequency Bands The Eigen value G ω of a linear operator is of course dependent on frequency ω —the numeric value of G ω depends on the frequency ω of the basis function e jωt . G L Jim Stiles H The Univ. of Kansas Dept. of EECS 5/2/2017 582719945 2/9 Frequency Response The frequency ω has units of radians/second; it can likewise be expressed as: ω 2π f where f is the sinusoidal frequency in cycles/second (i.e., Hertz). As a result, the function G ω is also known as the frequency response of a linear operator (e.g. a linear circuit). The numeric value of the signal frequency f has significant practical ramifications to us electrical engineers, beyond that of simply determining the numeric value G ω . These practical ramifications include the packaging, manufacturing, and interconnection of electrical and electronic devices. The problem is that every real circuit is awash in inductance and capacitance! Jim Stiles The Univ. of Kansas Dept. of EECS 5/2/2017 582719945 3/9 Those darn parasitics! Q: If this is such a problem, shouldn’t we just avoid using capacitors and inductors? A: Well, capacitors and inductors are particular useful to us EE’s. But, even without capacitors and inductors, we find that our circuits are still awash in capacitance and inductance! Q: ??? A: Every circuit that we construct will have a inherent set of parasitic inductance and capacitance. Parasitic inductance and capacitance is associated with elements other than capacitors and inductors! Jim Stiles The Univ. of Kansas Dept. of EECS 5/2/2017 582719945 4/9 Every wire an inductor For example, every wire and lead has a small inductance associated with it: Jim Stiles The Univ. of Kansas Dept. of EECS 5/2/2017 582719945 5/9 Seems simple enough… Consider then a “wire” above a ground plane: I1 I2 V2 V1 From KVL and KCL, we “know” that: V1 V2 I1 I 2 Thus, the linear operator (for example) relating voltage V1 to voltage V2 has an Eigen value equal to 1.0 for all frequencies: V2 G ω 1.0 V1 Jim Stiles The Univ. of Kansas Dept. of EECS 5/2/2017 582719945 6/9 …but its harder than you thought! But, the unfortunate reality is that the “wire” exhibits inductance, and likewise a capacitance between it and the ground plane I1 jωL jωL V1 j ωC I2 V2 We now see that the in fact the currents and voltage must be dissimilar: V1 V2 I1 I 2 And so the Eigen value of the linear operator is not equal to 1.0! V2 G ω 1.0 V1 Jim Stiles The Univ. of Kansas Dept. of EECS 5/2/2017 582719945 7/9 The parasitics are small Now, these parasitic values of L and C are likely to be very small, so that if the frequency is “low” the inductive impedance is quite small: jωL 1 (almost a short circuit!) And, the capacitive impedance (if the frequency is low) is quite large: j ωC 1 (almost an open circuit!) Thus, a low-frequency approximation of our wire is thus: I1 I2 V2 V1 Which leads to our original KVL and KCL conclusion: V1 V2 Jim Stiles I1 I 2 The Univ. of Kansas Dept. of EECS 5/2/2017 582719945 8/9 Parasitics are a problem at “high” frequencies Thus, as our signal frequency increases, the we often find that the “frequency response” G ω will in reality be different from that predicted by our circuit model—unless explicit parasitics are considered in that model. As a result, the response G ω may vary from our expectations as the signal frequency increases! G expected measured Jim Stiles The Univ. of Kansas Dept. of EECS 5/2/2017 582719945 9/9 Frequency Bands For frequencies in the kilohertz (audio band) of megahertz (video band), parasitics are generally not a problem. However, as we move into the 100’s of megahertz, or gigahertz (RF and microwave bands), the effects of parasitic inductance and capacitance are not only significant—they’re unavoidable! Jim Stiles The Univ. of Kansas Dept. of EECS