Vacuum pump system with light gas pumping and leak detection apparatus comprising the same

What is claimed is: 1. A rough vacuum pump system comprising: a primary vacuum pump comprising an inlet opening, an outlet opening, a compression mechanism including a compression stage comprising discrete pockets of compression that are sealed from each other and are interposed between the inlet opening and the outlet opening, and an intermediate gas passageway comprising a first end and a second end, and a secondary vacuum pump comprising an inlet at which the secondary vacuum pump is connected to the primary vacuum pump at the first end, and wherein the primary vacuum pump is an oil-free positive displacement pump, the pockets comprise an inlet pocket at which fluid is taken into the compression stage, and an outlet pocket from which fluid is discharged from the compression stage, the second end is directly connected to a gas flow path of the primary vacuum pump that starts at the inlet opening, runs through the compression stage and ends at the outlet opening such that the secondary vacuum pump is operable to draw gas out of the compression stage of the primary vacuum pump at a location upstream of the outlet opening of the primary vacuum pump, and wherein the compression ratio of the primary vacuum pump and the secondary vacuum pump operating in combination is greater than that of the compression ratio of either of the primary vacuum pump and the secondary vacuum pump operating individually. 2. The rough vacuum pump system as claimed in claim 1 , further comprising a directional control valve disposed in-line in the intermediate gas passageway and located between the second end and the secondary vacuum pump. 3. The rough vacuum pump system as claimed in claim 2 , wherein the directional control valve is a two position directional flow control valve that is movable between a first position at which the directional control valve allows the flow of gas to the secondary vacuum pump from the primary vacuum pump via the intermediate gas passageway, and a second position at which the directional control valve blocks the flow of gas to the secondary vacuum pump from the primary vacuum pump via the intermediate gas passageway, and further comprising a control system operatively connected to the secondary vacuum pump and to the directional control valve and configured to turn the secondary vacuum pump off when the directional control valve is in the second position. 4. The rough vacuum pump system as claimed in claim 2 , wherein the directional control valve comprises a first port at which the directional control valve is connected to the intermediate gas passageway, a second port at which the directional control valve is connected to the secondary vacuum pump, and a ballast gas third port, and the directional control valve is movable between a first position at which the directional control valve allows the flow of gas to the secondary vacuum pump from the primary vacuum pump via the intermediate gas passageway while closing fluid communication between the intermediate gas passageway and the third port, and a second position at which the directional control valve allows the flow of gas to the primary vacuum pump via the third port and the intermediate gas passageway while closing fluid communication between the primary vacuum pump and the secondary vacuum pump via the intermediate gas passageway. 5. The rough vacuum pump system as claimed in claim 1 , wherein the rough vacuum pump system operates compression to pump a gas whose density is less than that of air. 6. A vacuum apparatus comprising: a rough vacuum pumping system comprising: a primary vacuum pump comprising an inlet opening, an outlet opening, a compression mechanism including a compression stage comprising discrete pockets of compression that are sealed from each other and are interposed between the inlet opening and the outlet opening, and an intermediate gas passageway comprising a first end and a second end, and a secondary vacuum pump comprising an inlet at which the secondary vacuum pump is connected to the primary vacuum pump at the first end, and wherein the primary vacuum pump is an oil-free positive displacement pump, the pockets comprise an inlet pocket at which fluid is taken into the compression stage, and an outlet pocket from which fluid is discharged from the compression stage, the second end is directly connected to a gas flow path of the primary vacuum pump that starts at the inlet opening, runs through the compression stage and ends at the outlet opening such that the secondary vacuum pump is operable to draw gas out of the compression stage of the primary vacuum pump at a location upstream of the outlet opening of the primary vacuum pump, and wherein the compression ratio of the primary vacuum pump and the secondary vacuum pump operating in combination is greater than that of the compression ratio of either of the primary vacuum pump and the secondary vacuum pump operating individually, and a tracer gas detector that detects a tracer gas, the tracer gas detector being connected to the primary vacuum pump at an inlet of the primary vacuum pump defining the inlet opening. 7. The vacuum apparatus as claimed in claim 6 , wherein the tracer gas detector comprises a component selected from the group consisting of: a mass spectrometer; a Penning cell; a magnetron; and a gas-consuming vacuum gauge. 8. The vacuum apparatus as claimed in claim 6 , wherein the rough vacuum pump system operates to pump the tracer gas. 9. A rough vacuum pump system comprising: a dry vacuum scroll pump comprising an inlet opening, an outlet opening, and an intermediate gas passageway comprising a first end and a second end, the vacuum scroll pump further comprising a stationary scroll blade, an orbiting scroll blade nested with the stationary scroll blade so as to delimit therewith a series of pockets comprising a compression stage of the scroll pump, and an exhaust check valve disposed upstream of the outlet opening; and a secondary vacuum pump comprising an inlet at which the secondary vacuum pump is connected to the vacuum scroll pump at the first end, and wherein the second end is directly connected to a gas flow path of the vacuum scroll pump that starts at the inlet opening, runs through the compression stage and ends at the exhaust check valve such that the secondary vacuum pump is operable to draw gas out of the compression stage of the vacuum scroll pump at a location upstream of the exhaust check valve, and wherein the compression ratio of the vacuum scroll pump and the secondary vacuum pump operating in combination is greater than that of the compression ratio of either of the vacuum scroll pump and the secondary vacuum pump operating individually. 10. A vacuum apparatus comprising: a rough vacuum pumping system comprising: a dry vacuum scroll pump comprising an inlet opening, an outlet opening, and an intermediate gas passageway comprising a first end and a second end, the vacuum scroll pump further comprising a stationary scroll blade, an orbiting scroll blade nested with the stationary scroll blade so as to delimit therewith a series of pockets comprising a compression stage of the scroll pump, and an exhaust check valve disposed upstream of the outlet opening; and a secondary vacuum pump comprising an inlet at which the secondary vacuum pump is connected to the vacuum scroll pump at the first end, and wherein the second end is directly connected to a gas flow path of the vacuum scroll pump that starts at the inlet opening, runs through the compression stage and ends at the exhaust check valve such that the secondary vacuum pump is operable to draw gas out of the compression stage of the vacuum scroll pump at a location upstream of the exhau