Wien bridge oscillator

What is claimed is: 1. An oscillator circuit, comprising: a Wien bridge oscillator circuit; a full-wave rectifier circuit, coupled to an output of the Wien bridge oscillator circuit; an integrator circuit, electrically connected to an output of the full-wave rectifier circuit; and a multiplier circuit, comprising a first input coupled to the output of the Wien bridge oscillator circuit, and a second input, coupled to an output of the integrator, the multiplier circuit being configured to provide a signal to an input of the Wien bridge oscillator circuit, wherein the multiplier circuit comprises an XY multiplier, and wherein the multiplier circuit is configured to execute the transfer function (V OUT ) in accordance with V OUT =(V( n 1 )*V( n 2 ))/10V, where V(n 1 ) is the voltage at the first input and V(n 2 ) is the voltage at the second input. 2. An oscillator circuit, comprising: a Wien bridge oscillator circuit; a full-wave rectifier circuit, coupled to an output of the Wien bridge oscillator circuit and configured to execute a transfer function on voltage received at an input; an integrator circuit, electrically connected to an output of the full-wave rectifier circuit; and a multiplier circuit, comprising a first input coupled to the output of the Wien bridge oscillator circuit, and a second input, coupled to an output of the integrator, the multiplier circuit being configured to provide a signal to an input of the Wien bridge oscillator circuit; wherein the full wave rectifier is configured to execute the transfer function (V OUT ) in accordance with V OUT =sqrt(V( n 1 )*V( n 1 )), where V(n 1 ) is a voltage output of the Wien bridge oscillator received at an input of the full wave rectifier. 3. A method for operating an oscillator circuit, comprising: generating a signal from a Wien bridge oscillator circuit; rectifying the signal via a full-wave rectifier circuit, coupled to an output of the Wien bridge oscillator circuit; providing the rectified signal to an integrator circuit, electrically connected to an output of the full-wave rectifier circuit, to provide an integrated output signal; receiving the signal from the Wien bridge oscillator circuit at a first input of a multiplier circuit, wherein the multiplier circuit comprises an XY multiplier; receiving the integrated output signal at a second input of the multiplier circuit; and dynamically controlling gain in the Wien bridge oscillator circuit via the multiplier using the generated signal from the Wien bridge oscillator circuit and the integrated output signal, wherein dynamically controlling the gain comprises executing a transfer function in the multiplier circuit using the generated signal from the Wien bridge oscillator circuit and the integrated output signal; and wherein the transfer function (V OUT ) is executed in accordance with V OUT =(V( n 1 )*V( n 2 ))/10V, where V(n 1 ) is the voltage at the first input and V(n 2 ) is the voltage at the second input. 4. An oscillator circuit, comprising: a Wien bridge oscillator circuit to generate a signal; a full-wave rectifier circuit, coupled to an output of the Wien bridge oscillator circuit to rectify the generated signal; an integrator circuit, electrically connected to an output of the full-wave rectifier circuit to integrate the rectified generated signal; and a multiplier circuit, comprising a first input coupled to the output of the Wien bridge oscillator circuit, and a second input, coupled to an output of the integrator, the multiplier circuit being configured to provide a signal to an input of the Wien bridge oscillator circuit to dynamically control the gain, wherein the multiplier circuit is configured to execute a transfer function on voltage received at the first input and the second input, and wherein the multiplier circuit is configured to execute the transfer function (V OUT ) in accordance with V OUT =(V( n 1)*V( n 2 ))/10V, where V(n 1 ) is the voltage at the first input and V(n 2 ) is the voltage at the second input.