Energy mixer

What is claimed is: 1 . An energy mixer comprising: a first active diode coupled between a first input node and an output node; a second active diode coupled between a second input node and the output node; a first capacitor coupled between the first input node and a dynamic node; a second capacitor coupled between the second input node and a third node; first switching circuitry configured to selectively couple the dynamic node between a fixed voltage node and the second input node in response to a control signal; and control circuitry configured to provide the control signal wherein: when an output voltage at the output node is in a first range, the dynamic node is coupled to the fixed voltage node; and when the output voltage is in a second range that is below the first range, the dynamic node is coupled to the second input node such that the first capacitor and the second capacitor are coupled in series. 2 . The energy mixer of claim 1 wherein the third node is coupled to the fixed voltage node. 3 . The energy mixer of claim 2 wherein the fixed voltage node is ground. 4 . The energy mixer of claim 1 further comprising: a first energy harvester having a first voltage output coupled to the first input node; and a second energy harvester having a second voltage output coupled to the second input node. 5 . The energy mixer of claim 4 wherein the first energy harvester and the second energy harvester gather different forms of energy. 6 . The energy mixer of claim 1 further comprising: a first buck converter having a first converter input coupled to the output node and a first converter output for providing a first buck voltage; and a second buck converter having a second converter input coupled to the output node and a second converter output for providing a second buck voltage, and wherein the control signal is based on the first buck voltage. 7 . The energy mixer of claim 6 wherein the control circuitry has a first sample voltage input coupled to the first converter output and a second sample voltage input coupled to the second converter output. 8 . The energy mixer of claim 1 further comprising: a first buck converter having a first converter input coupled to the output node and a first converter output for providing a first buck voltage on which the control signal is based; a second buck converter having a second converter input coupled to the output node and a second converter output for providing a second buck voltage that is lower than the first buck voltage; a first energy harvester having a first voltage output coupled to the first input node; and a second energy harvester having a second voltage output coupled to the second input node. 9 . The energy mixer of claim 8 wherein the first energy harvester is a piezoelectric harvester. 10 . The energy mixer of claim 8 wherein the second energy harvester is a thermoelectric harvester. 11 . The energy mixer of claim 1 wherein the first switching circuitry comprises: a first transistor having a first current terminal coupled to the dynamic node, a second current terminal coupled to the fixed voltage node, and a first control terminal coupled to a signal output node of the control circuitry such that in response to a first state of the control signal, the dynamic node is coupled to the fixed voltage node, and in response to a second state of the control signal, the dynamic node is decoupled from the fixed voltage node; and a second transistor having a third current terminal coupled to the dynamic node and a fourth current terminal coupled to the second node, and a second control terminal coupled to the control circuitry such that in response to the first state of the control signal, the dynamic node is decoupled from the second input node, and is response to the second state of the control signal, the dynamic node is coupled to the second input node. 12 . The energy mixer of claim 1 further comprising: a third active diode coupled between a fourth node and the output node; a third capacitor coupled between the fourth node and a fifth node; second switching circuitry configured to selectively couple the third node between the fixed voltage node and the fourth node in response to the control signal wherein; when the output voltage at the output node is in the first range, the third node is coupled to the fixed voltage node; and when the output voltage at the output node is in the second range that is below the first range, the third node is coupled to the fourth node such that the first capacitor, the second capacitor, and the third capacitor are coupled in series. 13 . The energy mixer of claim 12 wherein the fifth node is coupled to the fixed voltage node. 14 . The energy mixer of claim 12 further comprising: a first buck converter having a first converter input coupled to the output node and a first converter output for providing a first buck voltage on which the control signal is based; a second buck converter having a second converter input coupled to the output node and a second converter output for providing a second buck voltage that is lower than the first buck voltage; a first energy harvester having a first voltage output coupled to the first input node; a second energy harvester having a second voltage output coupled to the second input node; and a third energy harvester having a third voltage output coupled to the fourth node. 15 . The energy mixer of claim 14 wherein the first buck voltage is between 1 V and 3.3 V. 16 . The energy mixer of claim 14 wherein the second buck voltage is between 0.4 V and 0.9 V. 17 . The energy mixer of claim 12 wherein the first switching circuitry comprises: a first transistor having a first current terminal coupled to the dynamic node, a second current terminal coupled to the fixed voltage node, and a first control terminal coupled to a signal output node of the control circuitry such that in response to a first state of the control signal, the dynamic node is coupled to the fixed voltage node, and in response to a second state of the control signal, the dynamic node is decoupled from the fixed voltage node; and a second transistor having a third current terminal coupled to the dynamic node and a fourth current terminal coupled to the second input node, and a second control terminal coupled to the control circuitry such that in response to the first state of the control signal, the dynamic node is decoupled from the second input node, and in response to the second state of the control signal, the dynamic node is coupled to the second input node such that the first capacitor and the second capacitor are coupled in series. 18 . The energy mixer of claim 17 wherein the second switching circuitry comprises: a third transistor having a fifth current terminal coupled to the third node, a sixth current terminal coupled to the fixed voltage node, and a third control terminal coupled to the signal output node of the control circuitry such that in response to the first state of the control signal, the third node is coupled to the fixed voltage node, and in response to the second state of the control signal, the third node is decoupled from the fixed voltage node; and a fourth transistor having a seventh current terminal coupled to the third node and an eighth current terminal coupled to the fourth node, and a fourth control terminal coupled to the control circuitry such that in response to the first state of the control signal, the third node is decoupled from the fourth node,