Filter networks for driving capacitive loads

What is claimed is: 1. A filter network, comprising: an active filter comprising an amplifier, wherein the active filter is configured to add at least one member selected from the group consisting of a pole and a zero to a transfer function of the filter network, the amplifier comprising a first input, a second input, a first output and a second output; a passive filter coupled to the active filter and configured to add at least one pole to the transfer function of the filter network, the passive filter comprising at least one first passive component coupled to the first output of the amplifier and at least one second passive component coupled to the second output of the amplifier; and a non-inverting amplifier having a first input coupled to the at least one first passive component, a second input coupled to the at least one second passive component, a first output coupled to the first input of the amplifier and a second output coupled to the second input of the amplifier, wherein the non-inverting amplifier does not include an operational amplifier, and wherein the amplifier has an open-loop gain that is at least 10 times larger than an open-loop gain of the non-inverting amplifier. 2. The filter network of claim 1 , wherein the at least one first passive component comprises a capacitor. 3. The filter network of claim 2 , wherein the at least one first passive component further comprises a resistor. 4. The filter network of claim 3 , wherein the capacitor has a first terminal coupled between the resistor and the first input of the non-inverting amplifier and a second terminal coupled to a reference potential. 5. The filter network of claim 1 , wherein the transfer function of the filter network has at least two poles and at least two zeros. 6. The filter network of claim 5 , wherein the filter network is a biquadratic filter network and wherein the transfer function has two poles and two zeros. 7. The filter network of claim 1 , wherein the active filter comprises: a resistor coupled between the first output of the non-inverting amplifier and the first input of the amplifier; and a capacitor coupled between the first output of the amplifier and the first input of the amplifier. 8. The filter network of claim 1 , wherein the open-loop gain of the amplifier is between 10 and 100 times larger than the open-loop gain of the non-inverting amplifier. 9. The filter network of claim 1 , further comprising a common mode voltage sensing circuit configured to measure a common mode voltage output by the non-inverting amplifier and generate a control signal for the amplifier based on the measured common mode voltage output by the non-inverting amplifier voltage buffer. 10. The filter network of claim 1 , wherein the non-inverting amplifier comprises: a current source; and a transistor coupled to the current source, the transistor having a gate terminal coupled to the first input of the non-inverting amplifier and a source terminal coupled to the first output of the non-inverting amplifier. 11. A filter network, comprising: an amplifier having a first input, a second input, a first output and a second output; a passive filter coupled to the first and second outputs of the amplifier and configured to add at least one pole to a transfer function of the filter network; a voltage buffer having first and second inputs coupled to first and second outputs of the passive filter, respectively, and first and second outputs coupled to the first and second inputs of the amplifier, respectively; and a circuit package housing at least the amplifier, the passive filter, and the voltage buffer, wherein the voltage buffer does not include an operational amplifier, and wherein the amplifier has an open-loop gain that is at least 10 times larger than the open-loop gain of the voltage buffer. 12. The filter network of claim 11 , further comprising: a resistor coupled between the first output of the voltage buffer and the first input of the amplifier; and a capacitor coupled between the first output of the amplifier and the first input of the amplifier. 13. The filter network of claim 11 , wherein the passive filter is a resistor-capacitor filter. 14. The filter network of claim 13 , wherein the passive filter comprises: a resistor coupled between the first output of the amplifier and the first input of the voltage buffer; and a capacitor having a first terminal coupled between the resistor and the first input of the voltage buffer and a second terminal coupled to a reference potential. 15. A filter network, comprising: an amplifier having a first input, a second input, a first output and a second output; a passive filter coupled to the first and second outputs of the amplifier and configured to add at least one pole to a transfer function of the filter network; and a voltage buffer means having first and second inputs coupled to the passive filter and first and second outputs coupled to the first and second inputs of the amplifier, respectively, wherein the voltage buffer means does not include an operational amplifier, and wherein the amplifier has an open-loop gain that is at least 10 times larger than an open-loop gain of the voltage buffer means. 16. The filter network of claim 15 , wherein the voltage buffer means comprises: a first current source; and a first transistor coupled to the first current source, the first transistor having a gate terminal coupled to the first input of the voltage buffer means and a source terminal coupled to the first output of the voltage buffer means. 17. The filter network of claim 16 , wherein the voltage buffer means further comprises: a second current source coupled to the source terminal of the first transistor; and a second transistor having a gate terminal coupled to the first transistor and a drain terminal coupled to the first output of the voltage buffer means. 18. The filter network of claim 16 , wherein the voltage buffer means further comprises: a second current source; a second transistor having a gate terminal coupled to the second current source and a drain terminal coupled to the first output of the voltage buffer means; and a third transistor having a source terminal coupled to the first current source and a drain terminal coupled to the second current source. 19. The filter network of claim 1 , wherein the open-loop gain of the non-inverting amplifier is no more than 100. 20. The filter network of claim 15 , wherein the open-loop gain of the voltage buffer means is no more than 100.