Sample injection for liquid chromatography using split solvent flow

What is claimed is: 1. A selectable flow restriction device comprising: a restriction valve having a first port, a second port, a plurality of fluidic nodes and a movable valve channel having a first end fluidically coupled to the second port and having a second end configured to couple to a selected one of the fluidic nodes, wherein one of the first and second ports is an inlet port and the other of the first and second ports is an outlet port; and a plurality of flow restrictors, each flow restrictor having a first end coupled to one of the fluidic nodes and a second end to another one of the fluidic nodes, the flow restrictors arranged to form a serial path defined from a first one of the flow restrictors to a last one of the flow restrictors, wherein a fluidic path to conduct a liquid is defined between the first port and the second port and wherein the flow restrictors included in the fluidic path are determined according to which one of the fluidic nodes is coupled to the second port. 2. The selectable flow restriction device of claim 1 wherein each of the flow restrictors includes a fluidic channel having a diameter that is different from the diameter of each of the other fluidic channels of the other flow restrictors. 3. The selectable flow restriction device of claim 1 wherein each of the flow restrictors includes a fluidic channel having a cross-sectional area that is different from the cross-sectional area of each of the other fluidic channels of the other flow restrictors. 4. The selectable flow restriction device of claim 1 wherein the restriction valve is a rotary valve. 5. The selectable flow restriction device of claim 1 wherein each fluidic node is an external port. 6. The selectable flow restriction device of claim 1 wherein each fluidic node is an internal node and wherein each flow restrictor is a fluidic channel formed inside the restriction valve between two of the fluidic nodes. 7. A fluidic network for chromatographic sample dilution during injection, comprising: a restriction valve having a first port, a second port, a plurality of fluidic nodes, and a movable valve channel having a first end fluidically coupled to the second port and having a second end configured to couple to a selected one of the fluidic nodes, wherein one of the first and second ports is an inlet port and the other one of the first and second ports is an outlet port; a plurality of flow restrictors, each flow restrictor having a first end coupled to one of the fluidic nodes and a second end to another one of the fluidic nodes, the flow restrictors arranged to form a serial path defined from a first one of the flow restrictors to a last one of the flow restrictors, wherein a fluidic path to conduct a liquid is defined between the first port and the second port and wherein the flow restrictors in the fluidic path are determined according to which one of the fluidic nodes is coupled to the second port; an injection valve having a plurality of injection valve ports, wherein one of the injection valve ports is an inlet port and another one of the injection valve ports is an outlet port, wherein the outlet port of the restriction valve is in fluidic communication with the inlet port of the injection valve; a first flow splitter comprising an inlet port, a first outlet port in fluidic communication with the inlet port of the restriction valve, and a second outlet port; and a first flow combiner having a first inlet port coupled to the second outlet port of the first flow splitter, a second inlet port, and an outlet port. 8. The fluidic network of claim 7 further comprising a second flow combiner having a first inlet port coupled to the outlet port of the restriction valve, a second inlet port, and an outlet port coupled to the inlet port of the injection valve, and wherein the second inlet port of the first combiner is coupled to the outlet port of the injection valve. 9. The fluidic network of claim 7 further comprising a second flow combiner having a first inlet port coupled to the outlet port of the first flow combiner, a second inlet port coupled to the outlet port of the injection valve, and an outlet port. 10. The fluidic network of claim 7 wherein the restriction valve is a first restriction valve and the plurality of restrictors is a plurality of first flow restrictors, the fluidic network further comprising: a second restriction valve having a first port, a second port, a plurality of fluidic nodes, and a movable valve channel having a first end fluidically coupled to the second port and having a second end configured to couple to a selected one of the fluidic nodes, wherein one of the first and second ports is an inlet port and the other one of the first and second ports is an outlet port; a plurality of second flow restrictors, each second flow restrictor having a first end coupled to one of the fluidic nodes in the second restriction valve and a second end to another one of the fluidic nodes in the second restriction valve, the second flow restrictors arranged to form a serial path defined from a first one of the second flow restrictors to a last one of the second flow restrictors, wherein a fluidic path to conduct a liquid is defined between the first port and the second port of the second restriction valve through at least one of the second flow restrictors and wherein the second flow restrictors in the fluidic path are determined according to which one of the fluidic nodes is coupled to the second port of the second restriction valve; a second flow combiner having a first inlet port coupled to the outlet port of the first restriction valve, a second inlet port coupled to the outlet port of the second restriction valve, and an outlet port coupled to the inlet port of the injection valve; and a second flow splitter having an inlet port, a first outlet port coupled to the inlet port of the second restriction valve, and a second outlet port coupled to the second inlet port of the first combiner. 11. The fluidic network of claim 7 further comprising a sample loop having a first end coupled to one of the valve ports of the injection valve and a second end coupled to another one of the valve ports of the injection valve. 12. The fluidic network of claim 8 further comprising a chromatographic column having an inlet port in fluidic communication with the outlet port of the first flow combiner. 13. The fluidic network of claim 9 further comprising a chromatographic column having an inlet port in fluidic communication with the outlet port of the second flow combiner. 14. The fluidic network of claim 10 further comprising a chromatographic column having an inlet port in fluidic communication with the outlet port of the first flow combiner.