High speed switching

What is claimed is: 1. An apparatus comprising: an input port connected to a source of data signals; an output port connected to a receiver for the data signals; a transistor having a source and drain connected in series between the input port and the output port, and a gate configured and arranged to switch the transistor between an on state in which the transistor is configured to transfer data signals received on the input port to the output port by connecting the input port to the output port, and an off state in which the transistor disconnects the input port from the output port; a charge storage circuit configured and arranged to store a charge; and a switching circuit configured and arranged to switch the transistor between the on state and the off state by in a first mode, coupling a voltage across the charge storage circuit and storing a charge in the charge storage circuit while decoupling the transistor from the charge storage circuit, and in a second mode, switching the transistor from the off state to the on state by coupling the stored charge across the gate and one of the source and drain of the transistor. 2. The apparatus of claim 1 , wherein the switching circuit is configured and arranged to: operate in the first mode by disconnecting the transistor from the charge storage circuit and thereafter connecting the charge storage circuit between a voltage supply port and a ground-level port; and operate in the second mode by disconnecting the charge storage circuit from the voltage supply port and the ground-level port and thereafter connecting the charge storage circuit across the gate and source or drain. 3. The apparatus of claim 1 , wherein decoupling the transistor from the charge storage circuit includes maintaining switches between the charge storage circuit and the transistor in an open state. 4. The apparatus of claim 1 , wherein the charge storage circuit is configured and arranged with the transistor to, in the second mode, apply a gate-source or gate-drain voltage of the transistor that is about constant, upon coupling of the stored charge across the gate and source or drain, therein mitigating delays in a start of data flow through the source and drain of the transistor upon switching of the transistor from the off state to the on state. 5. The apparatus of claim 1 , wherein the switching circuit is configured and arranged to, in the first mode, couple the voltage across the charge storage circuit by coupling the charge storage circuit to a power supply having a power supply voltage, and the charge storage circuit is configured and arranged with the transistor to, in the second mode, set the gate-source or gate-drain voltage of the transistor to the power supply voltage, therein mitigating delays in a start of data flow through the source and drain of the transistor upon switching of the transistor from the off state to the on state. 6. The apparatus of claim 1 , wherein the switching circuit is configured and arranged with the transistor to, in the second mode, use the stored charge to bias the gate to the stored charge level while coupling a bias voltage supply node to the gate, by biasing the gate with the stored charge while the bias voltage applied to the gate ramps from a low voltage level to the bias voltage level, wherein a time delay in ramping up the bias voltage at the gate to the bias voltage level is mitigated via the stored charge. 7. The apparatus of claim 1 , wherein the switching circuit is configured and arranged to switch between the first mode and the second mode by decoupling the transistor from a supply voltage that is used to couple the voltage across the charge storage circuit, operating in a delay mode for a delay time period during which the charge storage circuit is decoupled from both the supply voltage and the transistor, and after the delay mode operate in the second mode by coupling the charge storage circuit across the gate and the one of the source and drain of the transistor while maintaining the decoupling of the transistor from the supply voltage. 8. An apparatus comprising: a transistor having a source and drain connected in series between an input port and an output port, and a gate configured and arranged to switch the transistor between an on state in which the transistor connects the input port to the output port, and an off state in which the transistor disconnects the input port from the output port; a charge storage circuit configured and arranged to store a charge; and a switching circuit configured and arranged to switch the transistor between the on state and the off state by in a first mode, coupling a voltage across the charge storage circuit and storing a charge in the charge storage circuit while decoupling the transistor from the charge storage circuit, and in a second mode, switching the transistor from the off state to the on state by coupling the stored charge across the gate and one of the source and drain of the transistor; wherein the charge storage circuit includes a capacitor having first and second capacitor plates, and wherein the switching circuit includes: a first set of switches configured and arranged to connect the first capacitor plate to an input voltage supply port and to connect the second capacitor plate to a ground-level port, a second set of switches configured and arranged to connect the first capacitor plate to the gate and to connect the second capacitor plate to the one of the source and the drain of the transistor across which the stored charged is coupled, and a control circuit configured and arranged to: in the first mode, couple the first capacitor plate to the input voltage supply port and couple the second capacitor plate to the ground-level port by operating the first set of switches in a closed state and operating the second set of switches in an open state, and in the second mode, couple the first capacitor plate to the gate and couple the second capacitor plate to the source or drain by operating the first set of switches in an open state and operating the second set of switches in a closed state, therein mitigating delays in a start of data flow through the source and drain of the transistor upon switching the transistor from the off state to the on state. 9. The apparatus of claim 8 , wherein the control circuit is configured and arranged with the first and second set of switches to ensure non-overlapping operation of the first and second sets of switches in which the first set of switches is opened before the second set of switches is closed. 10. The apparatus of claim 8 , wherein the switches include a cross-coupled NAND gate and inverters configured and arranged to be triggered by a one-shot signal that initiates operation of the respective first and second modes. 11. An apparatus comprising: a first circuit configured and arranged to store a charge; a transistor having a source, drain and gate, the transistor being configured and arranged to operate in an on state in which data received on an input port is passed between the input port and an output port via the source and drain, and in an off state in which data received on the input port is not passed between the input port and the output port; and a second circuit configured and arranged to operate in a first mode by coupling a supply voltage to the first circuit and storing the charge in the first circuit, and operate in a second mode by decoupling the supply voltage from the first circuit and, after decoupling the supply voltage from the first circuit, coupling the stored charge across the gate and one of the source and drain of the transistor. 12. The apparatus of