Hysteretic control DC/DC converter switching frequency with reduced dependence on voltage and current

What is claimed is: 1. A hysteretic control DC/DC converter apparatus, comprising: a voltage input; a voltage output; a coupling circuit that couples said voltage input to said voltage output; a switch coupled between a fixed potential and a node in said coupling circuit, said switch having a control input that receives a control signal having a frequency, wherein said switch is responsive to said control signal for alternately connecting said node to said fixed potential and disconnecting said node from said fixed potential in accordance with said frequency; and a further circuit coupled between said node and said control input, said further circuit configured to generate said control signal based on a node voltage at said node, wherein said further circuit is coupled to said voltage output and configured to produce a voltage signal by adding a ripple signal to a feedback voltage that is proportional to an output voltage at said voltage output which is compared with a reference voltage, and to cause said control signal to direct said off state when said voltage signal exceeds a further reference voltage, wherein the further circuit utilizes an adaptive off time control scheme, where the control switch is turned on when the off timer expires, it is turned off when the feedback voltage plus injected ripple exceeds the reference voltage. 2. The apparatus of claim 1 , wherein said timer includes a capacitor resistively coupled to said node for charging in response to said node voltage. 3. The apparatus of claim 2 , wherein said timer is configured to compare a voltage on said capacitor to a reference voltage that is proportional to and substantially less than an input voltage at said voltage input. 4. The apparatus of claim 2 , wherein the duration of said off state is proportional to a time constant defined by said resistively coupled capacitor. 5. The apparatus of claim 1 , wherein said further circuit includes a current sense node and is configured to cause said control signal to direct said off state when an output current of the apparatus exceeds a current limit. 6. The apparatus of claim 5 , wherein said frequency remains approximately constant over variations in said input voltage, said output voltage and said output current. 7. The apparatus of claim 1 , provided as one of a boost converter apparatus, a single-ended primary inductor converter (SEPIC) apparatus, and a flyback converter apparatus. 8. The apparatus of claim 7 , provided for operation in one of a continuous conduction mode and a discontinuous conduction mode. 9. A method of operating a hysteretic control DC/DC converter having a coupling circuit that couples a voltage input to a voltage output, comprising: generating a control signal based on a node voltage at a node in the coupling circuit; alternately connecting the node to a fixed potential and disconnecting the node from the fixed potential in accordance with a frequency of the control signal, wherein said alternately connecting and disconnecting includes using the control signal to direct a switch alternately to assume an on state and an off state that respectively effect said connecting and disconnecting, and determining a duration of said off state, wherein said determining includes applying said node voltage to charge a capacitor resistively coupled to said node and comparing a voltage on the capacitor to a reference voltage that is proportional to and substantially less than an input voltage at the voltage input; and producing a voltage signal by adding a ripple signal to a voltage that is proportional to an output voltage at the voltage output, wherein said using includes using the control signal to direct the switch to assume said off state when the voltage signal exceeds a further reference voltage, wherein the further circuit utilizes an adaptive off time control scheme, where the control switch is turned on when the off timer expires, it is turned off when the feedback voltage plus injected ripple exceeds the reference voltage. 10. The method of claim 9 , wherein said determining includes comparing a voltage on the capacitor to a reference voltage that is proportional to and substantially less than an input voltage at the voltage input. 11. The method of claim 10 , including producing a voltage signal by adding a ripple signal to a voltage that is proportional to an output voltage at the voltage output, wherein said using includes using the control signal to direct the switch to assume said off state when the voltage signal exceeds a further reference voltage. 12. The method of claim 9 , wherein said using includes using the control signal to direct the switch to assume said off state when an output current of the converter exceeds a current limit. 13. The method of claim 12 , wherein said frequency remains approximately constant over variations in said input voltage, said output voltage and said output current. 14. The method of claim 9 , wherein the duration of said off state is proportional to a time constant defined by the resistively coupled capacitor. 15. The method of claim 9 , wherein the hysteretic control converter is provided as one of a boost converter, a SEPIC, and a flyback converter. 16. The method of claim 15 , wherein the hysteretic control converter is for operation in one of a continuous conduction mode and a discontinuous conduction mode.