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A multi-stage drive circuit is to be coupled to a semiconductor switch having a drive terminal, a first terminal and a second terminal, to switch the semiconductor switch on and off. The multi-stage drive circuit includes a first drive circuit, a second drive circuit and a selector circuit. The firs

A multi-stage drive circuit is to be coupled to a semiconductor switch having a drive terminal, a first terminal and a second terminal, to switch the semiconductor switch on and off. The multi-stage drive circuit includes a first drive circuit, a second drive circuit and a selector circuit. The first drive circuit is to be coupled to provide a first drive signal to the drive terminal of the semiconductor switch and the second drive circuit is to be coupled to provide a second drive signal to the drive terminal of the semiconductor switch. The selector circuit is to be coupled to turn on the first and second drive circuits to provide the first and second drive signals to the drive terminal, respectively. The selector circuit turns on the second drive circuit responsive to a voltage between the first and second terminals of the semiconductor switch falling to a threshold value.

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1. A multi-stage drive circuit to be coupled to a semiconductor switch having a drive terminal, a first terminal and a second terminal, to switch the semiconductor switch between on and off states, the multi-stage drive circuit comprising: a first drive circuit to be coupled to provide a first drive

1. A multi-stage drive circuit to be coupled to a semiconductor switch having a drive terminal, a first terminal and a second terminal, to switch the semiconductor switch between on and off states, the multi-stage drive circuit comprising: a first drive circuit to be coupled to provide a first drive signal to the drive terminal of the semiconductor switch;a second drive circuit to be coupled to provide a second drive signal to the drive terminal of the semiconductor switch; anda selector circuit to be coupled to turn on the first and second drive circuits to provide the first and second drive signals to the drive terminal, respectively, wherein the selector circuit turns on the second drive circuit responsive to a voltage between the first and second terminals of the semiconductor switch falling to a threshold value. 2. The multi-stage drive circuit of claim 1, wherein the selector circuit turns off the first drive circuit once the second drive circuit is on. 3. The multi-stage drive circuit of claim 1, wherein the selector circuit is to be coupled to the first terminal of the semiconductor switch to monitor the voltage between the first and second terminals. 4. The multi-stage drive circuit of claim 1, wherein the selector circuit turns on the second drive circuit substantially immediately after the voltage between the first and second terminals of the semiconductor switch has fallen to the threshold value. 5. The multi-stage drive circuit of claim 1, further comprising a current sensor to be coupled between the semiconductor switch and the selector circuit. 6. The multi-stage drive circuit of claim 5, wherein the selector circuit turns on the second drive circuit in response to a current flow between the first terminal and the second terminal reaching a current threshold value. 7. The multi-stage drive circuit of claim 1, wherein the second drive circuit has a different drive impedance than the first drive circuit. 8. A multi-stage drive circuit to be coupled to a semiconductor switch having a drive terminal, a first terminal and a second terminal, to switch the semiconductor switch between on and off states, the multi-stage drive circuit comprising: a first drive circuit to be coupled to provide a first drive signal to the drive terminal of the semiconductor switch;a second drive circuit to be coupled to provide a second drive signal to the drive terminal of the semiconductor switch; anda selector circuit to be coupled to turn on the first and second drive circuits to provide the first and second drive signals to the drive terminal, respectively, wherein the selector circuit turns on the second drive circuit responsive to a current flow between the first terminal and the second terminal reaching a current threshold value, wherein the selector circuit is to be further coupled to the first terminal of the semiconductor switch to monitor a voltage between the first and second terminals, and wherein the selector circuit turns on the second drive circuit in response to the voltage between the first and second terminals of the semiconductor switch falling to a threshold value. 9. The multi-stage drive circuit of claim 8, wherein the selector circuit turns off the first drive circuit once the second drive circuit is on. 10. The multi-stage drive circuit of claim 8, wherein the selector circuit turns on the second drive circuit substantially immediately after the current flow between the first terminal and the second terminal reaches the current threshold value. 11. The multi-stage drive circuit of claim 8, further comprising a current sensor to be coupled between the semiconductor switch and the selector circuit, wherein the current sensor monitors the current flow between the first terminal and the second terminal. 12. The multi-stage drive circuit of claim 8, wherein the second drive circuit has a different drive impedance than the first drive circuit. 13. A multi-stage drive circuit to be coupled to a semiconductor switch having a drive terminal, a first terminal and a second terminal, to switch the semiconductor switch between on and off states, the multi-stage drive circuit comprising: a first drive circuit to be coupled to provide a first drive signal to the drive terminal of the semiconductor switch;a second drive circuit to be coupled to provide a second drive signal to the drive terminal of the semiconductor switch; anda selector circuit to be coupled to turn on the first and second drive circuits to provide the first and second drive signals to the drive terminal, respectively, wherein a voltage at the drive terminal of the semiconductor switch temporarily clamps at a first voltage level during a time that the first drive circuit is providing the first drive signal and wherein the selector circuit turns on the second drive circuit after the voltage at the drive terminal unclamps and rises from the first voltage level, wherein the selector circuit is to be further coupled to the first terminal of the semiconductor switch to monitor the voltage between the first and second terminals, and wherein the selector circuit turns on the second drive circuit responsive to the voltage between the first and second terminals falling to a threshold value indicating a time at which the voltage at the drive terminal unclamps and rises from the first voltage level. 14. The multi-stage drive circuit of claim 13, wherein the voltage between the first and second terminals has a fast changing time period transition and a subsequent slower changing time period transition, and wherein the selector circuit turns on the second drive circuit after the fast changing time period transition is finished. 15. The multi-stage drive circuit of claim 13, wherein the selector circuit turns on the second drive circuit substantially immediately after the voltage between the first and second terminals of the semiconductor switch has fallen to the threshold value. 16. The multi-stage drive circuit of claim 13, wherein the selector circuit turns off the first drive circuit once the second drive circuit is on. 17. The multi-stage drive circuit of claim 13, further comprising a current sensor to be coupled between the semiconductor switch and the selector circuit, and wherein the selector circuit turns on the second drive circuit in response to a current flow between the first terminal and the second terminal reaching a current threshold value indicating a time at which the voltage at the drive terminal unclamps and rises from the first voltage level. 18. The multi-stage drive circuit of claim 13, wherein the second drive circuit has a different drive impedance than the first drive circuit.