Manifolds and methods of using them to control fluid flows

The invention claimed is: 1. A manifold comprising first and second internal filament detectors cells within an integral housing, the manifold comprising a sample inlet port fluidically coupled to the first internal filament detector cell through a first restrictor between the sample inlet port and a first filament detector of the first internal filament detector cell, the manifold further comprising a make-up gas port fluidically coupled to the second internal filament detector cell through a second restrictor between the make-up gas port and a second filament detector of the second internal filament detector cell, wherein the second internal filament detector cell is separate from the first internal filament detector cell, and wherein the manifold further comprises an exit port fluidically coupled to each of the first and second filament detector cells, wherein each of the first and second filament detectors comprises two filaments, and wherein the first restrictor and the second restrictor comprise different internal dimensions. 2. The manifold of claim 1 , further comprising a vent port fluidically coupled to the make-up gas port. 3. The manifold of claim 1 , wherein each of the first filament detector and the second filament detector is configured as a thermal conductivity detector. 4. The manifold of claim 3 , further comprising a third internal restrictor between the vent port and the make-up gas port, in which the third internal restrictor is fluidically coupled to each of the vent port and the make-up gas port. 5. The manifold of claim 1 , further comprising a flow controller fluidically coupled to the make-up gas port. 6. The manifold of claim 1 , further comprising at least one restrictor between the exit port and the first internal filament detector cell or at least one restrictor between the exit port and the second internal filament detector cell. 7. The manifold of claim 1 , in which each of the first internal filament detector cell and the second internal filament detector cell comprises a total volume of at least 20 microliters. 8. The manifold of claim 1 , further comprising at least one electrical connector configured to electrically couple the first internal filament detector cell and the second internal filament detector cell to a processor. 9. The manifold of claim 1 , further comprising a vacuum device fluidically coupled to the exit port. 10. The manifold of claim 1 , in which an impedance of the first restrictor is matched to an impedance of the second restrictor.