Pumped pinned photodiode pixel array

What is claimed is: 1. A pumped pixel, comprising: a photodiode that accumulates charge in response to impinging photons; a floating diffusion; a charge barrier interposed between the photodiode and the floating diffusion, wherein the charge barrier temporarily blocks charge transfer between the photodiode and the floating diffusion; an additional charge barrier interposed between the charge barrier and the photodiode; an additional photodiode interposed between the charge barrier and the additional charge barrier, wherein the additional charge barrier temporarily blocks charge transfer between the photodiode and the additional photodiode; and a first pump gate formed adjacent to the charge barrier, wherein the first pump gate pumps charge from the additional photodiode to the floating diffusion over the charge barrier. 2. The pumped pixel defined in claim 1 , further comprising: a second pump gate formed adjacent to the additional charge barrier, wherein the second pump gate pumps charge from the photodiode to the additional photodiode over the additional charge barrier. 3. The pumped pixel defined in claim 2 , wherein the pumped pixel comprises one pumped pixel in an array of pumped pixels on an image device, and wherein during a rolling shutter mode of the image device, for each of the pumped pixels in a selected row of the array, a controller: applies a reset voltage to the photodiode and the floating diffusion; and applies a positive and a negative voltage to the first pump gate to transfer the charge from the additional photodiode towards the floating diffusion. 4. The pumped pixel defined in claim 2 , wherein the pumped pixel comprises one pumped pixel in an array of pumped pixels on an image device, and wherein during a global shutter mode of the image device, a controller: simultaneously applies a reset voltage to the photodiode and the floating diffusion for every pumped pixel in the array; and applies a positive and a negative voltage to the first pump gate to transfer the charge from the additional photodiode towards the floating diffusion for every pumped pixel in a selected row in the array. 5. A pumped pixel, comprising: a photodiode; a floating diffusion formed in a substrate; a charge barrier formed in the substrate between the photodiode and the floating diffusion; and a pump gate formed in the substrate adjacent to the charge barrier, wherein the pump gate pumps charge from the photodiode towards the floating diffusion over the charge barrier, wherein the photodiode has a well for storing charge, and wherein the substrate below the pump gate has a clock well for storing charge and a clock barrier to block the charge in the clock well from transferring back towards the photodiode. 6. The pumped pixel defined in claim 5 , further comprising: an additional photodiode, wherein the charge barrier is formed between the additional photodiode and the floating diffusion. 7. The pumped pixel defined in claim 6 , further comprising: an additional charge barrier formed between the photodiode and the additional photodiode, wherein the additional charge barrier temporarily blocks charge transfer between the photodiode and the additional photodiode. 8. The pumped pixel defined in claim 7 , further comprising: an additional pump gate formed adjacent to the additional charge barrier, wherein the additional pump gate pumps accumulated charge from the photodiode to the additional photodiode over the additional charge barrier. 9. The pumped pixel defined in claim 8 , wherein a CMOS imager includes an array of pumped pixels, and wherein during a rolling shutter mode of the imager, for each of the pumped pixels in a selected row of the array, a controller: applies a reset voltage to the floating diffusion, the photodiode, and the additional photodiode to clear stored charge; repeatedly applies a positive and then a negative voltage to the additional pump gate to transfer accumulated charge from the photodiode over the additional charge barrier into the additional photodiode; and repeatedly applies a positive and then a negative voltage to the pump gate to transfer stored charge from the additional photodiode over the charge barrier into the floating diffusion. 10. The pumped pixel defined in claim 8 , wherein a CMOS image includes an array of pumped pixels, and wherein during a global shutter mode of the imager, a controller: applies a reset voltage to the floating diffusion, the photodiode, and the additional photodiode in every pumped pixel in the array to simultaneously clear stored charge; applies a negative and positive voltage to the additional pump gate of every pumped pixel in the array to simultaneously transfer accumulated charge from the photodiode over the additional charge barrier into the additional photodiode; and applies a positive and negative voltage to the pump gate of every pumped pixel in a selected row in the array to transfer stored charge from the additional photodiode over the charge barrier into the floating diffusion. 11. The pumped pixel defined in claim 8 , wherein the photodiode and the additional photodiode have wells for storing charge, wherein the substrate below the additional pump gate has an additional clock well for storing charge and an additional clock barrier to block the charge in the additional clock well from transferring back into the photodiode, and wherein the clock barrier blocks the charge in the clock well from transferring back into the additional photodiode. 12. A method of operating a pumped pixel that includes a photodiode, a floating diffusion, a pump gate, a charge barrier associated with the pump gate, an additional photodiode, an additional pump gate, and an additional charge barrier associated with the additional pump gate, the method comprising: with the photodiode, accumulating charge in response to impinging photons; with the pump gate, pumping charge from the photodiode towards the floating diffusion over the charge barrier by applying a positive and negative voltage to the pump gate to transfer the charge from the photodiode towards the floating diffusion while the negative voltage is applied; with the additional pump gate, pumping charge from the photodiode over the additional charge barrier into the additional photodiode, wherein pumping charge from the photodiode towards the floating diffusion with the pump gate comprises pumping charge from the additional photodiode over the charge barrier into the floating diffusion with the pump gate; and reading charge out from the floating diffusion. 13. The method defined in claim 12 , wherein the pumped pixel comprises one pumped pixel in an array of pumped pixels on an imager, and wherein the imager is operated in a global shutter mode, the method further comprising: simultaneously applying a reset voltage to the photodiode and the floating diffusion for every pumped pixel in the array; and applying the positive and negative voltage to the pump gate to transfer the charge from the photodiode towards the floating diffusion for every pumped pixel in a selected row in the array.