Hydraulic brake control device with staggered timing ports

What is claimed is: 1 . A hydraulic control device for a bicycle hydraulic brake, comprising: a reservoir for hydraulic fluid; a cylinder having an interior defined by a cylinder wall, the cylinder extended along a cylinder axis; a piston positioned in the cylinder interior having a seal operatively associated therewith, the piston and seal being moveable along the cylinder axis between the first and second cylinder ends, wherein the seal defines a fluid pressure chamber and has a starting position and ending position within the cylinder defining a stroke of the piston; and a plurality of ports providing fluid communication between the cylinder interior and the reservoir, the plurality of ports disposed within the stroke of the piston at different positions along the cylinder axis, wherein the seal sealingly engages the plurality of ports within the stroke. 2 . The hydraulic control device of claim 1 , wherein the ports of the plurality of ports have a circular or non-circular inner bore. 3 . The hydraulic control device of claim 1 , wherein the plurality of ports comprise a singular sealing port disposed closer to the ending position of the stroke than the remainder of the plurality of ports. 4 . The hydraulic control device of claim 1 , wherein the plurality of ports are configured into an array of ports defined by at least one port located at a first position along the cylinder axis and at least one port located at a second position along the cylinder axis. 5 . The hydraulic control device of claim 4 , wherein the plurality of ports further comprise at least one port at a third position along the cylinder axis. 6 . The hydraulic control device of claim 1 , further comprising: at least one port, different from the plurality of ports, providing fluid communication between the cylinder interior and the reservoir, wherein the at least one port is positioned outside the stroke of the piston. 7 . The hydraulic control device of claim 6 , wherein the at least one port has a larger diameter than a diameter of the ports of the plurality of ports. 8 . The hydraulic control device of claim 1 , further comprising a lever assembly coupled with the piston so as to move the piston when a lever of the lever assembly is engaged. 9 . The hydraulic control device of claim 1 , further comprising a hydraulic control housing, wherein the cylinder wall is integrated with the hydraulic control housing. 10 . The hydraulic control device of claim 9 , wherein the reservoir is integrated in the hydraulic control housing. 11 . The hydraulic control device of claim 10 , further comprising a lever assembly attached to the hydraulic control housing, the lever assembly coupled with the piston so as to move the piston when a lever of the lever assembly is engaged. 12 . The hydraulic control device of claim 1 , further comprising a piston adjustment mechanism configured to adjust a position of the piston along the cylinder axis relative to at least one sealing port of the plurality of ports to adjust a dead band of the device. 13 . The hydraulic control device of claim 12 , further comprising a lever adjustment mechanism for a lever assembly, the lever assembly coupled with the piston so as to move the piston when a lever of the lever assembly is engaged, wherein the lever adjustment mechanism operates independently from the piston adjustment mechanism. 14 . The hydraulic control device of claim 1 , wherein at least two ports of the plurality of ports have different cross-sectional areas. 15 . The hydraulic control device of claim 1 , wherein at least one port of the plurality of ports has a diameter of 0.4 millimeters or less. 16 . A hydraulic braking system for a bicycle, comprising: a hydraulic control device configured for mounting to a bicycle handlebar, the hydraulic control device comprising: a reservoir for hydraulic fluid, a cylinder having an interior defined by a cylinder wall, the cylinder extended along a cylinder axis, a piston positioned in the cylinder interior having a seal operatively associated therewith, the piston and seal being moveable along the cylinder axis between the first and second cylinder ends, the seal having a starting position and ending position within the cylinder defining a stroke of the piston, and a plurality of ports providing fluid communication between the cylinder interior and the reservoir, the plurality of ports disposed within the stroke of the piston at different distances from the first cylinder end along the cylinder axis; and a brake force application device in fluid communication with the hydraulic control device and configured to provide a stopping force to a wheel of the bicycle in response to movement of the piston along the stroke. 17 . The hydraulic braking system of claim 16 , wherein the reservoir, the cylinder and the plurality of ports are formed as an integrated hydraulic control housing of the hydraulic control device. 18 . The hydraulic braking system of claim 17 , wherein the hydraulic control device further comprises a lever assembly coupled with the piston so as to move the piston when a lever of the lever assembly is engaged. 19 . The hydraulic braking system of claim 16 , wherein the stopping force is generated in response to an isolation of fluid communication between the brake force application device and the reservoir when the piston seal sealingly engages a sealing port of the plurality of ports located closest to the ending position of the stroke. 20 . The hydraulic braking system of claim 19 , wherein the distance between the first position of the seal and the location of an edge of the sealing port defines a dead band of the hydraulic braking system, and wherein the first position is adjustable to change the dead band. 21 . The hydraulic braking system of claim 16 , wherein the hydraulic control device further comprises at least one port, different from the plurality of ports, providing fluid communication between the cylinder interior and the reservoir. 22 . The hydraulic braking system of claim 21 , wherein the at least one port is not located within the stroke. 23 . The hydraulic braking system of claim 16 , wherein the brake force application device is a hydraulic brake caliper. 24 . The hydraulic braking system of claim 23 , wherein the hydraulic caliper is configured to apply a braking force to a braking disc attached to the wheel or a rim of the wheel. 25 . The hydraulic braking system of claim 16 , wherein at least one port of the plurality of ports has a diameter of 0.4 millimeters or less.