Load connection detection

What is claimed is: 1. An apparatus comprising: an output port to be connected to a load; a first input port to receive a first input signal; a second input port coupled between the first input port and the output port, the second input port to receive a second input signal; a coupling circuit to couple the second input signal to the output port; a frequency isolation circuit coupled between the first input port and the second input port, the frequency isolation circuit having a frequency response to propagate the first input signal to the output port but prevent the second input signal from propagating to the first input port; and a detection circuit to detect whether the load is present or absent at the output port by determining a voltage of an output signal at the output port, the detection circuit detecting that the load is absent at the output port responsive to determining that an amplitude of the voltage is within a first amplitude range and detecting that the load is present at the output port responsive to determining that the amplitude of the voltage is within a second amplitude range lower than the first amplitude range. 2. The apparatus of claim 1 , wherein the coupling circuit includes a transformer, the second input port coupled to a primary side of the transformer, the first input port and the output port coupled to a secondary side of the transformer. 3. The apparatus of claim 1 , wherein the frequency isolation circuit is an inductor coupled to the second input port via the coupling circuit. 4. The apparatus of claim 1 , wherein the first amplitude range is between three and ten times greater than the second amplitude range. 5. The apparatus of claim 1 , wherein the first input signal is substantially a DC signal, and the second input signal has a frequency not less than 1 MHz. 6. The apparatus of claim 1 , wherein the second input signal is a sinusoidal signal having a frequency between 500 kHz and 5 MHz. 7. The apparatus of claim 1 , wherein the detection circuit further determines a current of the output signal at the output port and a phase relationship between the voltage and the current of the output signal. 8. The apparatus of claim 1 , wherein the first input signal is a regulated output voltage of a power supply circuit. 9. The apparatus of claim 1 , wherein the coupling circuit includes a capacitor coupling the second input port to the output port. 10. The apparatus of claim 2 , wherein the frequency isolation circuit includes an inductive element of the transformer. 11. The apparatus of claim 1 , wherein the second input signal is a bandlimited signal having a plurality of frequencies between 500 kHz and 5 MHz. 12. The apparatus of claim 11 , wherein the detection circuit further determines amplitude ranges for each of the plurality of frequencies of the second input signal. 13. A method comprising: receiving a first input signal at a first input port; injecting a second input signal at a second input port, the second input port coupled between the first input port and an output port, wherein the second input signal is coupled to the output port by a coupling circuit and is prevented from propagating to the first input port by a frequency isolation circuit; detecting a voltage of an output signal at the output port responsive to the injected second input signal; and comparing an amplitude of the voltage to a threshold amplitude range; responsive to the amplitude of the voltage being lower than the threshold amplitude range, determining that a load device is connected at the output port; and responsive to the amplitude of the voltage being within the threshold amplitude range, determining that a load device is not connected at the output port, wherein the frequency isolation circuit is coupled between the first input port and the second input port, and has a frequency response to propagate the first input signal to the output port. 14. The method of claim 13 , further comprising: detecting a current of the output signal at the output port responsive to the injected second input signal; determining a phase relationship between the current and the voltage of the output signal at the output port; and determining characteristics of the load device based on the phase relationship. 15. The method of claim 13 , wherein the second input signal comprises a first and a second frequency, the method further comprising: determining a first amplitude range of the output signal for the first frequency and a second amplitude range of the output signal for the second frequency; comparing the first amplitude range with a first reference to obtain a first measure of attenuation and the second amplitude range with a second reference to obtain a second measure of attenuation; and determining characteristics of the load device based on a comparison of the first and second measures of attenuation. 16. An apparatus comprising: an output port to be connected to a load; a first input port to receive a first input signal; a second input port coupled between the first input port and the output port, the second input port to receive a second input signal; a coupling circuit to couple the second input signal to the output port; a frequency isolation circuit coupled between the first input port and the second input port, the frequency isolation circuit having a frequency response to propagate the first input signal to the output port but prevent the second input signal from propagating to the first input port; and a detection circuit to determine a voltage of an output signal at the output port, the output signal having a first amplitude range with a load absent at the output port and having a second amplitude range lower than the first amplitude range with the load present at the output port, wherein the coupling circuit includes a transformer, the second input port coupled to a primary side of the transformer, the first input port and the output port coupled to a secondary side of the transformer. 17. An apparatus comprising: an output port to be connected to a load; a first input port to receive a first input signal; a second input port coupled between the first input port and the output port, the second input port to receive a second input signal; a coupling circuit to couple the second input signal to the output port; a frequency isolation circuit coupled between the first input port and the second input port, the frequency isolation circuit having a frequency response to propagate the first input signal to the output port but prevent the second input signal from propagating to the first input port; and a detection circuit to determine a voltage of an output signal at the output port, the output signal having a first amplitude range with a load absent at the output port and having a second amplitude range lower than the first amplitude range with the load present at the output port, and determine a current of the output signal at the output port and a phase relationship between the voltage and the current of the output signal.