Laser diode driver damping circuit

The invention claimed is: 1. A damping circuit, comprising: an output terminal; a first transistor having a first control node connected to form a first diode, and a first current node coupled with the output terminal; a second transistor having a second control node connected to form a second diode, and a second current node coupled to the first control node of the first transistor; a buffer circuit coupled with the output terminal and the first transistor; and a resistive-capacitive (RC) circuit coupled between the buffer circuit and the second control node of the second transistor. 2. The damping circuit of claim 1 , wherein the buffer circuit includes: a third transistor configured to generate a feedback voltage controlled by the second control node of the second transistor and having a delay established by the RC circuit; and a fourth transistor coupled to the third transistor, the fourth transistor configured to damp the output terminal based on the feedback voltage. 3. The damping circuit of claim 1 , wherein the first transistor includes a first NPN transistor having: a first collector node configured to receive a first bias current; a first base node as the first control node, the first base node connected to the first collector node to form the first diode; and a first emitter node as the first current node coupled with the output terminal. 4. The damping circuit of claim 3 , wherein the second transistor includes a first PNP transistor having: a second emitter node as the second current node coupled to the first base node of the first NPN transistor; a second collector node configured to receive a second bias current; and a second base node as the second control node, the second base node connected to the second collector node to form the second diode. 5. The damping circuit of claim 4 , wherein the buffer circuit having: a second NPN transistor configured to generate a feedback emitter voltage controlled by the second base node of the first PNP transistor and having a delay established by the RC circuit; and a second PNP transistor coupled to the second NPN transistor, the second PNP transistor configured to damp the output terminal based on the feedback emitter voltage. 6. The damping circuit of claim 1 , wherein the first transistor includes a first PNP transistor having: a first collector node configured to receive a first bias current; a first base node as the first control node, the first base node connected to the first collector node to form the first diode; and a first emitter node as the first current node coupled with the output terminal. 7. The damping circuit of claim 6 , wherein the second transistor includes a first NPN transistor having: a second emitter node as the second current node coupled to the first base node of the first PNP transistor; a second collector node configured to receive a second bias current; and a second base node as the second control node, the second base node connected to the second collector node to form the second diode. 8. The damping circuit of claim 7 , wherein the buffer circuit having: a second PNP transistor configured to generate a feedback emitter voltage controlled by the second base node of the first NPN transistor and having a delay established by the RC circuit; and a second NPN transistor coupled to the second PNP transistor, the second PNP transistor configured to damp the output terminal based on the feedback emitter voltage. 9. The damping circuit of claim 1 , wherein the RC circuit includes: a resistor connected between the second control node and an input of the buffer circuit; and a capacitor connected between the input to the buffer circuit and a ground terminal. 10. The damping circuit of claim 1 , wherein the output terminal is adapted to receive a switching current for a laser diode. 11. A damping circuit, comprising: an output terminal configured to receive a switching signal; a two-stage clamping circuit coupled with the output terminal, the two stage clamping circuit configured to generate a clamp voltage based on the switching signal; a delay circuit coupled to the two-stage clamping circuit to receive the clamp voltage; a first buffer coupled to the delay circuit, the first buffer configured to generate a feedback voltage controlled by the delayed clamp voltage; and a second buffer coupled to the first buffer, the second buffer configured to damp the switching signal at the output terminal based on the feedback voltage. 12. The damping circuit of claim 11 , wherein the two-stage clamping circuit includes a first stage NPN transistor having: a first collector node configured to receive a first bias current; a first emitter node coupled with the output terminal; a first base node connected to the first collector node to generate an intermediate clamp voltage above the switching signal received by the output terminal. 13. The damping circuit of claim 12 , wherein the two-stage clamping circuit includes a second stage PNP transistor having: a second emitter node coupled to the first base node of the first NPN transistor; a second collector node configured to receive a second bias current; and a second base node connected to the second collector node to generate the clamp voltage below the intermediate clamp voltage. 14. The damping circuit of claim 13 , wherein: the first buffer includes a buffer NPN transistor having: a third base node coupled to the delay circuit; and a third emitter node configured to deliver the feedback voltage; and the second buffer includes a buffer PNP transistor having: a fourth base node coupled to the third emitter node of the buffer NPN transistor; and a fourth emitter node coupled with the output terminal. 15. The damping circuit of claim 11 , wherein the two-stage clamping circuit includes a first stage PNP transistor having: a first collector node configured to receive a first bias current; a first emitter node coupled with the output terminal; a first base node connected to the first collector node to generate an intermediate clamp voltage above the switching signal received by the output terminal. 16. The damping circuit of claim 15 , wherein the two-stage clamping circuit includes a second stage NPN transistor having: a second emitter node coupled to the first base node of the first PNP transistor; a second collector node configured to receive a second bias current; and a second base node connected to the second collector node to generate the clamp voltage below the intermediate clamp voltage. 17. The damping circuit of claim 16 , wherein: the first buffer includes a buffer PNP transistor having: a third base node coupled to the delay circuit; and a third emitter node configured to deliver the feedback voltage; and the second buffer includes a buffer NPN transistor having: a fourth base node coupled to the third emitter node of the buffer PNP transistor; and a fourth emitter node coupled with the output terminal. 18. A laser driver circuit, comprising: a laser diode driver configured to generate a switching signal for a laser diode; an output terminal arranged to deliver the switching signal from the laser diode driver to the laser diode; a two-stage clamping circuit coupled with the output terminal, the two stage clamping circuit configured to generate a clamp voltage based on the switching signal; a delay circuit coupled to the two-stage clamping circuit, and delay circuit configured to delay the clamp voltage; and a two-stage buffer circui