Apparatus and method for a high-flux photon-counting spectral application-specific integrated circuit (ASIC) having a charge summing mode

The invention claimed is: 1. An apparatus, comprising: a first element of a radiation detector configured to detect radiation and generate a first electrical signal, a magnitude of the first electrical signal representing an energy of the radiation detected by the first element; a second element of the radiation detector configured to detect the radiation by converting the radiation into a second electrical signal, a magnitude of the second electrical signal representing an energy of the radiation detected by the second element; a summing circuit configured to sum the first electrical signal and the second electrical signal to generate a combined electrical signal; a first comparator configured to compare the magnitude of the first electrical signal with a plurality of thresholds to generate a first comparator signal; a second comparator configured to compare the magnitude of the second electrical signal with the plurality of thresholds to generate a second comparator signal; a third comparator configured to compare a magnitude of the combined electrical signal with the plurality of thresholds to generate a third comparator signal; and a counter configured to receive the first comparator signal, the second comparator signal, and the third comparator signal, and record the third comparator signal as representing the energy of the radiation, when both the first comparator signal and the second comparator signal exceed a first threshold of the plurality of thresholds and at least one of the first comparator signal and the second comparator signal indicates a partial-detection magnitude. 2. The apparatus according to claim 1 , wherein the counter is further configured to record the first comparator signal as representing the energy of the radiation detected by the first element, when neither the first comparator signal nor the second comparator signal is determined to indicate the partial-detection magnitude, and the first comparator signal indicates that the magnitude of the first electrical signal is greater than the partial-detection magnitude, and record the second comparator signal as representing the energy of the radiation detected by the second element, when neither the first comparator signal nor the second comparator signal is determined to indicate the partial-detection magnitude, and the second comparator signal indicates that the magnitude of the second electrical signal is greater than the partial-detection magnitude. 3. The apparatus according to claim 1 , wherein the radiation is an X-ray, and the radiation detector detects the X-ray. 4. The apparatus according to claim 3 , wherein the counter is further configured to determine that one of the first comparator signal and the second comparator signal indicates the partial-detection magnitude, when the first comparator signal represents that a magnitude of the first electrical signal is below a partial-detection threshold of the plurality of thresholds, and the first electrical signal is greater than or equal to an electrical-noise threshold of the plurality of thresholds, the electrical-noise threshold being the first threshold of the plurality of thresholds, wherein the partial-detection threshold represents at least one of a threshold greater than a maximum energy of a fluorescence X-ray and a threshold greater than a predefined upper limit for a smaller of two electrical pulses generated by energy sharing of an X-ray detection event. 5. The apparatus according to claim 3 , wherein the first, second and third comparators perform comparisons using the plurality of thresholds the includes a first threshold that is at an X-ray energy that is greater than an energy-spectrum maximum of electronic noise of the first detector element and the second detector element, greater than an energy-spectrum maximum of weighting cross-talk among detector elements of the radiation detector, and less than all other thresholds of the plurality of thresholds, and a second threshold that is at an X-ray energy that is greater than a maximum fluorescence X-ray energy determined by a combination of a semiconductor material of the radiation detector and a spectrum of the radiation, and less than all other thresholds of the plurality of thresholds except the first threshold. 6. The apparatus according to claim 1 , further comprising a plurality of elements of the radiation detector, including the first element and the second element, the plurality of elements being arranged in an array in a longitudinal direction along the radiation detector. 7. The apparatus according to claim 6 , wherein a first side of the first element is adjacent to a first side of the second element, a direction of separation between the first side of the first element and the first side of the second element being in the longitudinal direction. 8. The apparatus according to claim 6 , wherein a first side of the first element is adjacent to a first side of the second element, a direction of separation between the first side of the first element and the first side of the second element being transverse to the longitudinal direction. 9. The apparatus according to claim 6 , further comprising: a third element of the plurality of elements of the radiation detector, the third element configured to detect the radiation and generate a third electrical signal, a magnitude of the third electrical signal representing an energy of the radiation detected by the third element; another summing circuit configured to sum the third electrical signal and the second electrical signal to generate another combined electrical signal; a fourth comparator configured to compare the magnitude of the another combined electrical signal with the plurality of thresholds to generate a fourth comparator signal; and a fifth comparator configured to compare the magnitude of the third electrical signal with the plurality of thresholds to generate a fifth comparator signal, wherein the first element is on a first side of the second element and the third element is on a second side of the second element that is opposite to the first side of the second element, such that the first element and the third element are respectively adjacent to the second element, but are respectively on opposite sides of the second element, and the counter is further configured to receive the first comparator signal, the second comparator signal, the third comparator signal, the fourth comparator signal, and the fifth comparator signal, record the third comparator signal as representing the energy of the radiation, when at least one of the first comparator signal, and the second comparator signal has the partial-detection magnitude and the fifth comparator signal indicates an absence of the radiation at the third element, and record the fourth comparator signal as representing the energy of the radiation, when at least one of the fifth comparator signal, and the second comparator signal has the partial-detection magnitude of the corresponding electrical signal and the first comparator signal indicates an absence of the radiation at the first element. 10. The apparatus according to claim 1 , further comprising: a first masking member configured to attenuate radiation from entering the radiation detector at a first edge of the first detector element, and a second masking member configured to attenuate radiation from entering the radiation detector at a first edge of the second detector element, wherein a second edge of the first element is adjacent to a second edge of the second element, the first edge of the first element being opposite from the second edge of the first element, and the first edge of the second element being opp