Amplifier input stage and amplifier

What is claimed is: 1. An amplifier input stage comprising: first and second p-type transistors, wherein sources of the first and second p-type transistors are connected to a first node, a drain of the first p-type transistor is connected to a first output of the amplifier input stage, a drain of the second p-type transistor is connected to a second output of the amplifier input stage, a gate of the first p-type transistor is configured to receive a first signal of an input stage differential input signal and a gate of the second p-type transistor is configured to receive a second signal of the input stage differential input signal; first and second n-type transistors, wherein sources of the first and second n-type transistors are connected to a second node, a drain of the first n-type transistor is connected to a third output of the amplifier input stage, a drain of the second n-type transistor is connected to a fourth output of the amplifier input stage, a gate of the first n-type transistor is configured to receive the first signal of the input stage differential input signal and a gate of the second n-type transistor is configured to receive the second signal of the input stage differential input signal; a first circuit arranged to provide a first portion of a first bias current to the first node; and a second circuit arranged to draw a second portion of the first bias current from the second node; wherein rates at which the first and second portions change are determined by a slope of a first signal of an amplifier input signal. 2. The amplifier input stage of claim 1 , wherein the first bias current is substantially fixed and/or consists essentially of the first portion and the second portion. 3. The amplifier input stage of claim 1 , wherein the first and second portions of the first bias current are independent of at least one of the second signal of the differential input signal and a common mode of the differential input signal. 4. The amplifier input stage of claim 1 , wherein at least one of the first and second circuit comprises at least one current source. 5. The amplifier input stage of claim 1 , wherein the first circuit comprises at least one first current mirror and the second circuit comprises at least one second current mirror. 6. The amplifier input stage of claim 5 , further comprising a third circuit arranged to determine the first and second portions of the bias current, the third circuit comprising: a current source electrically coupled to a third node; and third and fourth transistors of a same conductivity type; wherein the third and fourth transistors are connected to the third node; wherein the third transistor is connected to the at least one first current mirror; wherein the fourth transistor is connected to the at least one second current mirror; and wherein the at least one first current mirror is arranged to induce the first portion of the first bias current proportional to a current flowing through the third transistor, and the at least one second current mirror is arranged to induce the second portion of the first bias current proportional to a current flowing through the fourth transistor. 7. The amplifier input stage of claim 6 , wherein the same conductivity type is n-type; wherein a gate of the third transistor is connected to a threshold voltage; and wherein a gate of the fourth transistor is connected to the first signal of the amplifier input signal. 8. The amplifier input stage of claim 1 , further comprising at least one of: a first active load p-type transistor with a source connected to a first power supply voltage, a drain connected to the fourth output of the amplifier input stage, and a gate connected to the second circuit, wherein the second circuit and the first active load p-type transistor are arranged to provide substantially half of the second portion of the first bias current to the fourth output of the amplifier input stage; a second active load p-type transistor with a source connected to the first power supply voltage, a drain connected to the third output of the amplifier input stage, and a gate connected to the second circuit, wherein the second circuit and the second active load p-type transistor are arranged to provide substantially half of the second portion of the first bias current to the third output of the amplifier input stage; a first active load n-type transistor with a source connected to a second power supply voltage, a drain connected to the second output of the amplifier input stage, and a gate connected to the first circuit, wherein the first circuit and the first active load n-type transistor are arranged to draw substantially half of the first portion of the first bias current from the second output of the amplifier input stage; and a second active load n-type transistor with a source connected to the second power supply voltage, a drain connected to the first output of the amplifier input stage, and a gate connected to the first circuit, wherein the first circuit and the second active load n-type transistor are arranged to draw substantially half of the first portion of the first bias current from the first output of the amplifier input stage. 9. An amplifier comprising: an amplifier input stage comprising: first and second p-type transistors, wherein sources of the first and second p-type transistors are connected to a first node, a drain of the first p-type transistor is connected to a first output of the amplifier input stage, a drain of the second p-type transistor is connected to a second output of the amplifier input stage, a gate of the first p-type transistor is configured to receive a first signal of an input stage differential input signal and a gate of the second p-type transistor is configured to receive a second signal of the input stage differential input signal; first and second n-type transistors, wherein sources of the first and second n-type transistors are connected to a second node, a drain of the first n-type transistor is connected to a third output of the amplifier input stage, a drain of the second n-type transistor is connected to a fourth output of the amplifier input stage, a gate of the first n-type transistor is configured to receive the first signal of the input stage differential input signal and a gate of the second n-type transistor is configured to receive the second signal of the input stage differential input signal; a first circuit arranged to provide a first portion of a first bias current to the first node; and a second circuit arranged to draw a second portion of the first bias current from the second node; wherein rates at which the first and second portions change are determined by a slope of a first signal of an amplifier input signal; and a further amplifier stage coupled to the first, second, third and fourth outputs of the amplifier input stage. 10. The amplifier of claim 9 , wherein the first bias current is substantially fixed and/or consists essentially of the first portion and the second portion. 11. The amplifier of claim 9 , wherein the first and second portions of the first bias current are independent of at least one of the second signal of the differential input signal and a common mode of the differential input signal. 12. The amplifier of claim 9 , wherein the amplifier is an operational amplifier. 13. An electronic device including the amplifier of claim 9 . 14. A chopper amplifier comprising: a first chopper configured to receive first and second inputs, wherein the first input comprises a first signal of an amplifier input signal, and to provide first and second outputs, wher