Claims
- 1. An electronic oscillator comprising;
- a first amplifying stage having an MOS transistor connected in source follower configuration;
- a second amplifying stage having a bipolar transistor of opposite polarity from said MOS transistor connected to said first amplifying stage; and
- feedback means connected between the output of said second stage and the input of said first stage;
- the transconductance of said bipolar transistor being substantially greater than that of said MOS transistor.
- 2. An electronic oscillator, as in claim 1, wherein said second amplifying stage is also connected in source follower configuration.
- 3. An electronic oscillator, as in claim 1, wherein said MOS transistor and said bipolar transistor are on the same silicon chip.
- 4. An electronic oscillator, as in claim 1, further comprising a resonator node connected to said input of said MOS transistor for connection to a resonator to control the frequency of oscillation; and
- bidirectional voltage limiting means connected to said resonator node to provide waveform symmetry at said second amplifying stage.
- 5. An electronic oscillator, as in claim 4, further comprising buffer amplifier means capacitively coupled to at least one of said amplifying stages to provide an oscillator circuit output;
- said buffer amplifier means having its zero-signal bias point substantially at its threshold voltage to preserve the waveform symmetry at said oscillator circuit output.
- 6. An electronic oscillator, as in claim 5, further comprising
- bias varying means connected to said buffer amplifier means for varying the buffer amplifier bias to correspondingly vary the duty cycle of said oscillator circuit output.
- 7. An electronic oscillator, as in claim 6, wherein said bias varying means selectively alters said buffer amplifier to compensate for a change in duty cycle caused by a change in the desired triggering level at said oscillator circuit output.
Parent Case Info
This application is a continuation-in part of application Ser. No. 126,131, filed Nov. 27, 1987, entitled "High Frequency CMOS Oscillator".
US Referenced Citations (4)
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
126131 |
Nov 1987 |
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