Adjustable break bundle breaker

We claim: 1. A bundle breaker comprising: an upstream breaking support having an input end and an output end, a first platen located above the upstream breaking support, a first actuator operably connected to the first platen and configured to shift the first platen toward a raised position above the upstream breaking support and toward a lowered position above the upstream breaking support to selectively clamp a first portion of a log between the first platen and the upstream breaking support, a downstream breaking support having an input end and an output end, a second platen located above the downstream breaking support, a second actuator operably connected to the second platen and configured to shift the second platen toward a raised position above the downstream breaking support and toward a lowered position above the downstream breaking support to selectively clamp a second portion of the log between the second platen and the downstream breaking support, a third actuator configured to apply a shifting force to the downstream breaking support to shift the downstream breaking support and the second platen relative to the upstream breaking support from a first position toward a second position until the second portion of the log is broken from the first portion of the log, a sensor configured to detect that the second portion of the log has broken off the first portion of the log and to send a signal to the controller to indicate that the second portion of the log has broken off the first portion of the log, and a controller configured to control the first actuator, the second actuator and the third actuator, wherein the controller is configured to stop or reduce the application of the shifting force in response to a determination that the second portion of the log has broken off the first portion of the log, and wherein the sensor comprise a sensor of a 2-D sensing system. 2. The bundle breaker according to claim 1 , wherein the downstream breaking support comprises a downstream breaking conveyor. 3. The bundle breaker according to claim 2 , wherein the upstream breaking support comprises an upstream breaking conveyor. 4. The bundle breaker according to claim 1 , wherein the third actuator comprises a servo motor. 5. A method comprising: providing the bundle breaker according to claim 1 , positioning the log on the bundle breaker such that the second portion of the log is supported by the downstream breaking support and the first portion of the log is supported by the upstream breaking support, controlling the first actuator to shift the first platen toward the lowered position of the first platen, controlling the second actuator to shift the second platen toward the lowered position of the second platen, controlling the third actuator to apply the shifting force to the downstream breaking support, and stopping or reducing the application of the shifting force in response to the determination that the second portion of the log has broken off the first portion of the log. 6. The bundle breaker according to claim 1 , wherein the first platen includes at least one air bladder configured to be compressed by the first platen clamping the first portion of the log between first platen and the upstream breaking support. 7. The bundle breaker according to claim 1 , wherein the sensor comprises a sensor of a LIDAR sensing system. 8. The bundle breaker according to claim 1 , wherein the second platen and the downstream breaking support are pivotable together about a common pivot axis. 9. The bundle breaker according to claim 8 , wherein the common pivot axis is located at a junction of the upstream breaking support and the downstream breaking support. 10. A bundle breaker comprising: an upstream breaking support having an input end and an output end, a first platen located above the upstream breaking support, a first actuator operably connected to the first platen and configured to shift the first platen toward a raised position above the upstream breaking support and toward a lowered position above the upstream breaking support to selectively clamp a first portion of a log between the first platen and the upstream breaking support, a downstream breaking support having an input end and an output end, a second platen located above the downstream breaking support, a second actuator operably connected to the second platen and configured to shift the second platen toward a raised position above the downstream breaking support and toward a lowered position above the downstream breaking support to selectively clamp a second portion of the log between the second platen and the downstream breaking support, a third actuator configured to apply a shifting force to the downstream breaking support to shift the downstream breaking support and the second platen relative to the upstream breaking support from a first position toward a second position until the second portion of the log is broken from the first portion of the log, a controller configured to control the first actuator, the second actuator and the third actuator, and a LIDAR sensing system configured to sense a configuration of the second portion of the log, wherein the controller is configured to stop or reduce the application of the shifting force in response to a determination that the second portion of the log has broken off the first portion of the log, and wherein the determination that the second portion of the log has broken off the first portion of the log is based on a signal output by the LIDAR sensing system.