High gain filter circuit with an accurate transfer function

The invention claimed is: 1. A filter circuit, comprising: a second-order bandpass filter circuit having a differential input comprising an inverting input and a non-inverting input and a differential output comprising an inverting output and a non-inverting output; a first feedback network comprising a first impedance circuit coupled between the inverting output and the inverting input and a second impedance circuit coupled between the inverting output and the non-inverting input; and a second feedback network comprising a third impedance circuit coupled between the non-inverting output and the non-inverting input and a fourth impedance circuit coupled between the non-inverting output and the inverting input; and wherein the second-order complex bandpass filter circuit is a leapfrog filter topology. 2. The filter circuit of claim 1 , wherein the first and third impedance circuits have equal impedance values. 3. The filter circuit of claim 1 , wherein the second and fourth impedance circuits have equal impedance values. 4. The filter circuit of claim 1 , wherein the first and third impedance circuits have a first impedance value and the second and fourth impedance circuits have a second impedance value, said second impedance value being different from the first impedance value. 5. The filter circuit of claim 4 , wherein the second impedance value is greater than the first impedance value. 6. A filter circuit, comprising: an in-phase differential input comprising a first inverting input and a first non-inverting input; an in-phase differential output comprising a first inverting output and a first non-inverting output; a quadrature-phase differential input comprising a second inverting input and a second non-inverting input; a quadrature-phase differential output comprising a second inverting output and a second non-inverting output; second-order complex bandpass filter circuitry coupled between the in-phase and quadrature-phase differential inputs and the in-phase and quadrature-phase differential outputs; a first feedback network comprising: a first resistor coupled between the first inverting output and the first inverting input; a second resistor coupled between the first inverting output and the first non-inverting input; a third resistor coupled between the first non-inverting output and the first non-inverting input; and a fourth resistor coupled between the first non-inverting output and the first inverting input; and a second feedback network comprising: a fifth resistor coupled between the second inverting output and the second inverting input; a sixth resistor coupled between the second inverting output and the second non-inverting input; a seventh resistor coupled between the second non-inverting output and the second non-inverting input; and an eighth resistor coupled between the second non-inverting output and the second inverting input. 7. The filter circuit of claim 6 , wherein the first, third, fifth and seventh resistors have equal resistance values. 8. The filter circuit of claim 6 , wherein the second, fourth, sixth and eighth resistors have equal resistance values. 9. The filter circuit of claim 6 , wherein the first, third, fifth and seventh resistors have a first resistance value and the second, fourth, sixth and eighth resistors have a second resistance value, said second resistance value being different from the first resistance value. 10. The filter circuit of claim 9 , wherein the second resistance value is greater than the first resistance value. 11. The filter circuit of claim 6 , wherein the second-order complex bandpass filter circuit is a leapfrog filter topology. 12. A filter circuit, comprising: a differential input comprising an inverting input and a non-inverting input; a differential output comprising an inverting output and a non-inverting output; second-order complex bandpass filter circuitry coupled between the differential input and the differential output; and a feedback network comprising: a first resistor coupled between the inverting output and the inverting input; a second resistor coupled between the inverting output and the non-inverting input; a third resistor coupled between the non-inverting output and the non-inverting input; and a fourth resistor coupled between the non-inverting output and the inverting input; wherein the second-order complex bandpass filter circuit is a leapfrog filter topology. 13. The filter circuit of claim 12 , wherein the differential input is an in-phase differential input and the differential output is an in-phase differential output. 14. The filter circuit of claim 12 , wherein the differential input is a quadrature-phase differential input and the differential output is a quadrature-phase differential output. 15. The filter circuit of claim 12 , wherein the first and third resistors have equal resistance values. 16. The filter circuit of claim 12 , wherein the second and fourth resistors have equal resistance values. 17. The filter circuit of claim 12 , wherein the first and third resistors have a first resistance value and the second and fourth resistors have a second resistance value, said second resistance value being different from the first resistance value. 18. The filter circuit of claim 17 , wherein the second resistance value is greater than the first resistance value. 19. A filter circuit, comprising: a second-order bandpass filter circuit having a differential input comprising an inverting input and a non-inverting input and a differential output comprising an inverting output and a non-inverting output; a first feedback network comprising a first impedance circuit coupled between the inverting output and the inverting input and a second impedance circuit coupled between the inverting output and the non-inverting input; and a second feedback network comprising a third impedance circuit coupled between the non-inverting output and the non-inverting input and a fourth impedance circuit coupled between the non-inverting output and the inverting input; and wherein the second-order bandpass filter circuit comprises a first operational amplifier having differential inputs at the inverting input and the non-inverting input and a second operational amplifier having differential outputs at the inverting output and the non-inverting output, wherein differential outputs of the first operational amplifier are coupled to differential inputs of the second operational amplifier. 20. The filter circuit of claim 19 , wherein the first and third impedance circuits have equal impedance values. 21. The filter circuit of claim 19 , wherein the second and fourth impedance circuits have equal impedance values. 22. The filter circuit of claim 19 , wherein the first and third impedance circuits have a first impedance value and the second and fourth impedance circuits have a second impedance value, said second impedance value being different from the first impedance value. 23. The filter circuit of claim 22 , wherein the second impedance value is greater than the first impedance value.