Compressor having capacity modulation assembly

What is claimed is: 1. A compressor comprising: a first scroll including a first end plate and a first spiral wrap extending from the first end plate; a second scroll including a second end plate and a second spiral wrap extending from the second end plate, the first and second spiral wraps meshing with each other and forming a plurality of compression pockets therebetween, wherein the compression pockets include a suction-pressure compression pocket, a discharge-pressure compression pocket at a higher pressure than the suction-pressure compression pocket, and a plurality of intermediate-pressure compression pockets at respective pressures between the pressures of the suction and discharge compression pockets, wherein the second end plate includes one or more modulation ports in fluid communication with one or more of the intermediate-pressure compression pockets; an axial biasing chamber disposed axially between the second end plate and a component, wherein the component partially defines the axial biasing chamber, and wherein working fluid disposed within the axial biasing chamber axially biases the second scroll toward the first scroll; and a valve ring disposed between the component and the second end plate and is movable relative to the component and the second end plate, wherein the second end plate includes an outer port and an inner port, wherein the outer port is disposed radially outward relative to the inner port, wherein the outer port is open to a first one of the intermediate-pressure compression pockets and is in selective fluid communication with the axial biasing chamber, and wherein the inner port is open to a second one of the intermediate-pressure compression pockets and is in selective fluid communication with the axial biasing chamber, and wherein movement of the valve ring relative to the second end plate from a first position to a second position restricts fluid communication between the outer port and the axial biasing chamber and allows fluid communication between the inner port and the axial biasing chamber, and wherein movement of the valve ring relative to the second end plate from the second position to the first position restricts fluid communication between the inner port and the axial biasing chamber and allows fluid communication between the outer port and the axial biasing chamber. 2. The compressor of claim 1 , further comprising: a first valve movable between a first position allowing fluid communication between the inner port and the axial biasing chamber and a second position preventing fluid communication between the inner port and the axial biasing chamber; and a second valve movable between a first position allowing fluid communication between the outer port and the axial biasing chamber and a second position preventing fluid communication between the outer port and the axial biasing chamber, wherein the first valve is in the first position when the second valve is in the second position, and wherein the first valve is in the second position when the second valve is in the first position, and wherein movement of the valve ring relative to the second end plate causes movement of the first and second valves. 3. The compressor of claim 2 , wherein the first valve is fluidly connected to the inner port by a first tube that extends partially around an outer periphery of the second end plate, and wherein the second valve is fluidly connected to the outer port by a second tube that extends partially around the outer periphery of the second end plate. 4. The compressor of claim 1 , further comprising a modulation control valve configured to switch the compressor between a first capacity mode and a second capacity mode that is lower than the first capacity mode, wherein: the valve ring is in the first position in the first capacity mode, and the valve ring is in the second position in the second capacity mode, when the compressor is in the first capacity mode, the inner port is fluidly isolated from the axial biasing chamber and the outer port is in fluid communication with the axial biasing chamber, and when the compressor is in the second capacity mode, the outer port is fluidly isolated from the axial biasing chamber and the inner port is in fluid communication with the axial biasing chamber. 5. The compressor of claim 4 , wherein: the one or more modulation ports are in fluid communication with a suction-pressure region of the compressor when the compressor is in the second capacity mode, when the valve ring is in the first position, the valve ring blocks fluid communication between the one or more modulation ports and the suction-pressure region, and when the valve ring is in the second position, the valve ring is spaced apart from the second end plate to allow fluid communication between the one or more modulation ports and the suction-pressure region, the compressor includes a lift ring at least partially disposed within an annular recess in the valve ring, the lift ring and the valve ring cooperate to define a modulation control chamber that is in selective fluid communication with the suction-pressure region and in selective fluid communication with the axial biasing chamber. 6. A compressor comprising: a first scroll including a first end plate and a first spiral wrap extending from the first end plate; a second scroll including a second end plate and a second spiral wrap extending from the second end plate, the first and second spiral wraps meshing with each other and forming a plurality of compression pockets therebetween, wherein the compression pockets include a suction-pressure compression pocket, a discharge-pressure compression pocket at a higher pressure than the suction-pressure compression pocket, and a plurality of intermediate-pressure compression pockets at respective pressures between the pressures of the suction and discharge compression pockets, wherein the second end plate includes an outer port and an inner port, wherein the outer port is disposed radially outward relative to the inner port, wherein the outer port is open to a first one of the intermediate-pressure compression pockets, wherein the inner port is open to a second one of the intermediate-pressure compression pockets, and wherein the second end plate includes one or more modulation ports in fluid communication with one or more of the intermediate-pressure compression pockets; an axial biasing chamber disposed axially between the second end plate and a component, wherein the component partially defines the axial biasing chamber, and wherein working fluid disposed within the axial biasing chamber axially biases the second scroll toward the first scroll; a first valve movable between a first position allowing fluid communication between the inner port and the axial biasing chamber and a second position preventing fluid communication between the inner port and the axial biasing chamber; a second valve movable between a first position allowing fluid communication between the outer port and the axial biasing chamber and a second position preventing fluid communication between the outer port and the axial biasing chamber; and a valve ring disposed between the component and the second end plate and is movable relative to the component and the second end plate between a first position in which the valve ring blocks fluid communication between the one or more modulation ports and a suction-pressure region of the compressor and a second position in which the valve ring is spaced apart from the second end plate to allow fluid communication between the one or more modulation ports and the suction-pressure region, wherein the axial biasing chamber is disposed axially between the valve ring and the component. 7. The compressor of claim 6 , wherein the first val