Current source, an integrated circuit and a method

The invention claimed is: 1. A bias current source, comprising: a bias current path between a high power supply node and a low power supply node, for providing a bias current flowing from the high power supply node to the low power supply node; a first control input for receiving a control signal; and a bias current control circuit in the bias current path and connected to the first control input, the bias current control circuit controlling, when the bias current source is in operation, the bias current as a function of the difference between a control value of a predetermined parameter of the control signal and a reference value, said bias current decreasing in at least one of ranges (a) or (b) when the absolute value of the difference increases, range (a) being the range in which the difference is positive and range (b) being the range in which the difference is negative; the bias current control circuit comprises a first bias current control element and a second bias current control element in the bias current path, each having a controllable device and a voltage follower, the voltage follower comprising: a current source; a first transistor connected with a first current terminal to the current source and to a control input of the controllable device, with a second current terminal to a respective one of the high power supply node and the low power supply node and with a control input to the control voltage control input; and a second transistor connected with a first current terminal to the current source and to the control input of the controllable device, with a second current terminal to a respective one of the high power supply node and the low power supply node and with a control input to the reference voltage input; the first and second transistors in the voltage follower of the first bias control element are of a first conductivity type, and first and second transistors in the voltage follower of the second bias control element are of a second conductivity type opposite to the first conductivity type; the controllable device of the first bias current control element comprises a transistor of the second conductivity type; and the controllable device of the second bias current control element comprises a transistor of the first conductivity type. 2. A bias current source as claimed in claim 1 , wherein, when the bias current source is in operation, the bias current is monotonically decreasing when the absolute value of the difference increases in one of (a) or (b) and constant as a function of the difference when said absolute value exceeds a predetermined saturation value in the other one of (a) and (b). 3. A bias current source as claimed in claim 1 , wherein in both ranges (a) and (b), said bias current is constant when said absolute value exceeds a predetermined saturation value, is monotonically decreasing as a function of the difference when said absolute value is between the saturation value and zero, and the bias current has a maximum when said absolute value is negligible. 4. A bias current source as claimed in claim 2 , wherein the constant bias current is larger than zero. 5. The bias current source of claim 1 , comprising a second control input for receiving the reference value. 6. The bias current source as claimed in claim 5 , wherein the first control input is a control current input for receiving a control current and the second control input is a reference current input for receiving a reference current, and the bias current control circuit controls, when the bias current source is in operation, the bias current as a function of the difference between the control current and the reference current, said function decreasing when the absolute value of said difference increases. 7. The bias current source as claimed in claim 5 , wherein the first control input is a control voltage input for receiving a control voltage and the second control input is a reference voltage input for receiving a reference voltage, and the bias current control circuit controls, when the bias current source is in operation, the bias current as a function of the difference between the control voltage and the reference voltage, said function decreasing when the absolute value of said difference increases. 8. A bias current source as claimed in claim 1 , wherein the first bias current control element and the second bias current control element each have a variable impedance; the first bias current control element presenting a first variable impedance in the bias current path which varies, when the bias current source is in operation, as a monotonic increasing function of said control value if said difference is smaller than zero; and the second bias current control element presenting a second variable impedance in the bias current path which varies, when the bias current source is in operation, as a monotonic decreasing function of said control value if said difference is larger than zero. 9. A bias current source as claimed in claim 8 , wherein the first bias current control element and the second bias element are connected in series. 10. The bias current source as claimed in claim 8 , wherein the controllable device of the first bias current control element and the controllable device of the second bias current control element each comprise a first current terminal and a second current terminal, and a control terminal for controlling current flowing between the first current terminal and the second current terminal, and the bias current control circuit comprises at least one of a first control circuit and a second control circuit, the first bias control element connected to the control terminal of the controllable device of the first bias current control element and a second bias control element connected to the control terminal of the controllable device of the second bias current control element. 11. The bias current source as claimed in claim 1 , wherein the current source in the voltage follower of at least one of the first bias control element and the second bias control element comprises a current mirror which provides, when the bias current source is in operation, to the first transistor a current and the first transistor of the other one of the first bias control element and the second bias control element a copied current which is a copy of the current to the first transistor. 12. A threshold detector, comprising: a detector input for receiving an input signal; an output for outputting a signal indicating whether or not a value of a predetermined parameter of the input signal exceeds a threshold value; a bias input; a bias current source connected with a first control input to the detector input, and with at least one of the high power supply node and a low power supply node to the bias input, the bias current source comprising: a bias current path between the high power supply node and the low power supply node, the bias current path to provide a bias current flowing from the high power supply node to the low power supply node; a first control input to receive a control signal; and a bias current control circuit in the bias current path and connected to the first control input, the bias current control circuit to control, when the bias current source is in operation, the bias current as a function of the difference between a control value of a predetermined parameter of the control signal and a reference value, said bias current monotonically decreasing from a maximum value to a minimum value when the absolute value of the difference increases and during at least one of: when the difference is positive; and when the difference is negative, wherein the bias c