Transconductance circuits with degeneration transistors

The invention claimed is: 1. An electronic component, comprising: a transconductance circuit, comprising: a first portion, including: a first degeneration transistor to receive a first input voltage at a first input, and a first input transistor to provide a first output current at a first output, the first input transistor coupled to the first degeneration transistor; and a second portion, including: a second degeneration transistor to receive a second input voltage at a second input, the second degeneration transistor coupled to the first degeneration transistor, and a second input transistor to provide a second output current at a second output, the second input transistor coupled to the second degeneration transistor, wherein, when a ratio of an aspect ratio of the first degeneration transistor to an aspect ratio of the first input transistor is N, where N is a positive real number, a transconductance of the transconductance circuit when the first input voltage is equal to the second input voltage is proportional to N/(1+N). 2. The electronic component according to claim 1 , wherein: the first degeneration transistor receives the first input voltage at the first input by having a gate terminal of the first degeneration transistor being coupled to the first input, and the second degeneration transistor receives the second input voltage at the second input by having a gate terminal of the second degeneration transistor being coupled to the second input. 3. The electronic component according to claim 1 , wherein: the first input transistor is coupled to the first degeneration transistor by having a source terminal of the first input transistor being coupled to a source terminal of the first degeneration transistor, and the second input transistor is coupled to the second degeneration transistor by having a source terminal of the second input transistor being coupled to a source terminal of the second degeneration transistor. 4. The electronic component according to claim 1 , wherein: the first input transistor provides the first output current at the first output by having a drain terminal of the first input transistor being coupled to the first output, and the second input transistor provides the second output current at the second output by having a drain terminal of the second input transistor being coupled to the second output. 5. The electronic component according to claim 1 , wherein the first degeneration transistor is coupled to the second degeneration transistor by having a drain terminal of the first degeneration transistor being coupled to a drain terminal of the second degeneration transistor. 6. The electronic component according to claim 1 , wherein, for each transistor of the first degeneration transistor, the first input transistor, the second degeneration transistor, and the second input transistor, a source terminal of the each transistor is coupled to a bulk terminal of the each transistor. 7. The electronic component according to claim 1 , wherein a ratio of an aspect ratio of the first degeneration transistor to an aspect ratio of the first input transistor is substantially equal to a ratio of an aspect ratio of the second degeneration transistor to an aspect ratio of the second input transistor. 8. The electronic component according to claim 1 , further comprising: a first current source, coupled to a source terminal of the first input transistor, and a second current source, coupled to a source terminal of the second input transistor, wherein, when an aspect ratio of the first input transistor is A MP and an aspect ratio of the second input transistor is A MM , the first current source generates a current proportional to A Mp /(A Mp +A MM )*IT, and the second current source generates a current proportional to A MM /(A MP +A MM )*IT, where IT is a tail current. 9. The electronic component according to claim 1 , wherein, during operation of the transconductance circuit, an equivalent resistance between a source terminal of the first degeneration transistor and a source terminal of the second degeneration transistor is smallest when the first input voltage is substantially equal to the second input voltage. 10. The electronic component according to claim 9 , wherein, during operation of the transconductance circuit, equivalent resistance between a source terminal of the first degeneration transistor and a source terminal of the second degeneration transistor increases as an absolute value of a difference between the first input voltage and the second input voltage increases. 11. The electronic component according to claim 1 , wherein, during operation of the transconductance circuit, each of the first input transistor and the second input transistor operates in a saturation region. 12. The electronic component according to claim 1 , wherein, during operation of the transconductance circuit, each of the first degeneration transistor and the second degeneration transistor is operates either in a linear region or in a saturation region. 13. The electronic component according to claim 12 , wherein, during operation of the transconductance circuit, when one of the first degeneration transistor and the second degeneration transistor enters the saturation region, another one of the first degeneration transistor and the second degeneration transistor continues to operate in the linear region. 14. The electronic component according to claim 1 , wherein each of the first degeneration transistor, the second degeneration transistor, the first input transistor, and the second input transistor is one of an extended drain metal-oxide-semiconductor (EDMOS) transistor, a double-diffused metal-oxide-semiconductor (DMOS) transistor, a laterally-diffused metal-oxide-semiconductor (LDMOS) transistor, or a V-groove metal-oxide-semiconductor (VMOS) transistor. 15. The electronic component according to claim 1 , wherein the electronic component is an amplifier or a comparator. 16. An electronic component, comprising: a first portion, including: a first degeneration transistor to receive a first input voltage at a first input, and a first input transistor to provide a first output current at a first output, the first input transistor coupled to the first degeneration transistor; a second portion, including: a second degeneration transistor to receive a second input voltage at a second input, the second degeneration transistor coupled to the first degeneration transistor, and a second input transistor to provide a second output current at a second output, the second input transistor coupled to the second degeneration transistor; a first current source coupled to the first input transistor; and a second current source coupled to the second input transistor, wherein, when an aspect ratio of the first input transistor is A MP and an aspect ratio of the second input transistor is A MM , the first current source is to generate a current proportional to A MP /(A MP +A MM )*IT, and the second current source is to generate a current proportional to A MM /(A MP +A MM )*IT, where IT is a tail current. 17. The electronic component according to claim 16 , wherein at least one of: the first current source is coupled to a source terminal of the first input transistor, and the second current source is coupled to a source terminal of the second input transistor. 18. The electronic component according to claim 16 , wherein: the first current source is coupled to a source terminal of the first input transistor, and the second current so