Compressor having capacity modulation assembly

What is claimed is: 1. A compressor comprising: a shell assembly defining a suction-pressure region and a discharge-pressure region, said shell assembly including a partition separating said suction-pressure region from said discharge-pressure region; a first scroll member disposed within said shell assembly and including a first end plate having a discharge passage, a modulation port, and a first spiral wrap extending from said first end plate; a second scroll member disposed within said shell assembly and including a second end plate having a second spiral wrap extending therefrom, said first and second spiral wraps meshingly engaged and forming a series of pockets during orbital displacement of said second scroll member relative to said first scroll member, said modulation port in communication with one of said pockets; a floating seal assembly engaged with said partition and isolating said discharge-pressure region from said suction-pressure region, said floating seal assembly defining an axial biasing chamber containing intermediate-pressure working fluid that axially biases said first scroll member toward said second scroll member; a modulation valve located axially between said floating seal assembly and said first end plate, said modulation valve being movable between a first position closing said modulation port and a second position opening said modulation port; and a modulation control valve assembly including a first modulation control valve and a second modulation control valve, said first modulation control valve in fluid communication with a source of intermediate-pressure working fluid, said second modulation control valve in fluid communication with said suction-pressure region and said first modulation control valve, said first and second modulation control valves are movable to control fluid communication between said modulation port and said suction-pressure region. 2. The compressor of claim 1 , wherein said first modulation control valve controls a flow of intermediate-pressure working fluid from said source of intermediate-pressure working fluid. 3. The compressor of claim 2 , wherein said second modulation control valve controls a flow of suction-pressure working fluid. 4. The compressor of claim 1 , wherein working fluid from said modulation port is prevented from flowing to said suction-pressure region when said modulation control valve assembly is in a first mode, and wherein working fluid from said modulation port flows to said suction-pressure region when said modulation control valve assembly is in a second mode. 5. The compressor of claim 4 , wherein working fluid from said modulation port flows to said suction-pressure region via a radially extending passage when said modulation control valve assembly is in said second mode, and wherein said radially extending passage is disposed axially between said floating seal assembly and said first end plate. 6. The compressor of claim 5 , wherein the compressor is operating in a full capacity mode when said modulation valve is in the first position and said modulation control valve assembly is in the first mode, and wherein the compressor is operating in a reduced capacity mode when said modulation valve is in the second position and said modulation control valve assembly is in the second mode. 7. The compressor of claim 6 , wherein said first and second modulation control valves are disposed radially outward relative to said radially extending passage. 8. The compressor of claim 6 , wherein said modulation valve moves between said first and second positions in response to changes in relative fluid pressures. 9. The compressor of claim 6 , wherein at least one of said first and second modulation control valves is a solenoid valve. 10. The compressor of claim 1 , wherein said first end plate includes a biasing passage in fluid communication with said axial biasing chamber. 11. The compressor of claim 10 , wherein said biasing passage is in fluid communication with a second one of said pockets formed between said first and second spiral wraps. 12. The compressor of claim 1 , wherein said source of intermediate-pressure working fluid includes said axial biasing chamber. 13. The compressor of claim 1 , wherein said source of intermediate-pressure working fluid includes one of said pockets between a suction-pressure pocket and a discharge-pressure pocket. 14. The compressor of claim 13 , wherein said source of intermediate-pressure working fluid includes a passage that extends through said first end plate and provides fluid communication between said first modulation control valve and said one of said pockets between said suction-pressure pocket and said discharge-pressure pocket. 15. The compressor of claim 14 , wherein said passage is fluidly isolated from said axial biasing chamber. 16. The compressor of claim 14 , wherein said modulation port fluidly communicates with one of said pockets at a location that is radially outward relative to a location at which said passage fluidly communicates with one of said pockets. 17. A compressor comprising: a shell assembly defining a suction-pressure region and a discharge-pressure region, said shell assembly including a partition separating said suction-pressure region from said discharge-pressure region; a first scroll member disposed within said shell assembly and including a first end plate having a discharge passage, a modulation port, and a first spiral wrap extending from said first end plate; a second scroll member disposed within said shell assembly and including a second end plate having a second spiral wrap extending therefrom, said first and second spiral wraps meshingly engaged and forming a series of pockets during orbital displacement of said second scroll member relative to said first scroll member, said modulation port in communication with one of said pockets; a floating seal assembly engaged with said partition and isolating said discharge-pressure region from said suction-pressure region, said floating seal assembly defining an axial biasing chamber containing intermediate-pressure working fluid that axially biases said first scroll member toward said second scroll member; and a modulation control valve assembly including a first modulation control valve and a second modulation control valve, said first modulation control valve in fluid communication with a source of intermediate-pressure working fluid, said second modulation control valve in fluid communication with said suction-pressure region and said first modulation control valve, said first and second modulation control valves are movable to control fluid communication between said modulation port and said suction-pressure region. 18. The compressor of claim 17 , wherein said first modulation control valve controls a flow of intermediate-pressure working fluid from said source of intermediate-pressure working fluid. 19. The compressor of claim 18 , wherein said second modulation control valve controls a flow of suction-pressure working fluid. 20. The compressor of claim 17 , wherein working fluid from said modulation port is prevented from flowing to said suction-pressure region when said modulation control valve assembly is in a first mode, and wherein working fluid from said modulation port flows to said suction-pressure region when said modulation control valve assembly is in a second mode. 21. The compressor of claim 20 , wherein working fluid from said modulation port flows to said suction-pressure region via a