Patent Number: 
Section: claims

1. A detector module for a modular x-ray detector comprising:a plurality of x-ray detector substrates and associated anti-scatter collimators,wherein each x-ray detector substrate has a plurality of detector diodes, and each x-ray detector substrate has an associated anti-scatter collimator,the x-ray detector substrates are tiled with respect to each other to form the detector module,the anti-scatter collimators are anti-scatter foils or plates that are interleaved between the x-ray detector substrates,the anti-scatter foils or plates are thinner than the x-ray detector substrates,the diodes of the x-ray detector substrates define an active detector volume,the x-ray detector substrates and the anti-scatter foils or plates having a length direction, the anti-scatter foils or plates and the x-ray detector substrates being aligned to point an x-ray source in the length direction,each x-ray detector substrate has an integrated circuit configured to collect x-ray signals from the diodes, the integrated circuit being attached to the x-ray detector substrate at the bottom of the x-ray detector substrate in the length direction of the x-ray detector substrate, the top of the x-ray detector substrate being where the x-rays enter, andthe associated anti-scatter collimator is disposed above the integrated circuit to protect the integrated circuit from radiation. 2. The detector module of claim 1, wherein the integrated circuits are Application Specific Integrated Circuits (ASICs). 3. The detector module of claim 2, wherein the ASIC is extending over the edge of the x-ray detector substrate so that part of the ASIC is outside of the silicon detector substrate to enable connection of power and data transfer to the ASIC without having to route the connection of the power and data transfer to the ASIC on the silicon detector substrate. 4. The detector module of claim 2, wherein signals are routed from the individual diodes to inputs of the ASIC. 5. The detector module of claim 2, wherein power lines and data transfer lines are wire-bonded to power and data transfer pads at the ASIC outside the substrate, or a redistribution layer on the substrate is used to connect to power, data transfer pads and to input signal pads and redistribute the input signals from the x-ray detector substrate to the ASIC. 6. The detector module of claim 2, wherein a heat conductor is attached to the ASIC to provide cooling. 7. The detector module of claim 1, wherein the anti-scatter foils are made of a heavy material. 8. The detector module of claim 7, wherein the heavy material is Tungsten. 9. The detector module of claim 1, wherein the integrated circuits are Application Specific Integrated Circuits (ASICs), the anti-scatter collimators are Tungsten foils, and the ASICs are placed on the x-ray detector substrate under the Tungsten foils to minimize dead area in the detector and so the ASICs are protected from direct radiation. 10. The detector module of claim 1, wherein a tapered geometry in which, for each x-ray detector substrate, the x-ray detector substrate and the associated anti-scatter collimator are pointing back to the source is provided by a spacer placed at the silicon detector substrate or at the anti-scatter collimator. 11. The detector module of claim 1, wherein each x-ray detector substrate and corresponding integrated circuit is formed as a sensor multi-chip module (MCM) assembly, and a plurality of sensor MCM assemblies are connected into the detector module. 12. The detector module of claim 11, wherein the detector module is sub-divided into a plurality of detector tiles, where each detector tile includes a plurality of sensor MCM assemblies. 13. The detector module of claim 12, wherein each detector tile includes a circuit configured to demultiplex commands from the corresponding detector module to the detector tile to reduce the number of connections between the detector tile and the detector module. 14. The detector module of claim 13, wherein the commands are control commands directed to the sensor MCM assemblies. 15. The detector module of claim 12, wherein the detector module comprises a plurality of data storage circuits and data processing circuits, wherein each detector tile is managed by a data processing circuit. 16. The detector module of claim 15, wherein the detector module includes a control and communication circuit configured to distribute control commands for the sensor MCM assemblies and control readout of stored scanning data from the data storage circuits. 17. The detector module of claim 1, wherein the x-ray detector substrates are Silicon detector substrates. 18. A modular x-ray detector comprising:a plurality of the detector modules of claim 1.