Cycle and soak irrigation systems and methods

What is claimed is: 1. A cycle and soak irrigation control unit, comprising: a housing; a first input connector configured to couple with a first output of an irrigation controller, wherein the irrigation controller is separate from and external to the cycle and soak irrigation control unit; a first output connector configured to couple to a first irrigation actuatable device configured to control a flow of water; and a timing control circuit configured to: detect a first activation signal from the irrigation controller received at the first input connector; and control an output of the first activation signal from the first output connector according to a predefined cycle and soak sequence to control a duration of a series of cycle-on timings during which the first activation signal is outputted from the first output connector to activate the first irrigation actuatable device and soak-off timings during which the first activation signal is not outputted from the first output connector deactivating the first actuatable device. 2. The cycle and soak control unit of claim 1 , wherein the timing control circuit is further configured to: determine an intended total programmed runtime of the first activation signal based on a duration the first activation signal is received on the first input connector; and continue to control the output of the first activation signal from the first output connector, after the first activation signal is no longer received on the first input connector, according to the predefined cycle and soak sequence to cycle through the cycle-on timings and soak-off timings until a summation of the cycle-on timings is within a threshold of the total programmed runtime. 3. The cycle and soak control unit of claim 2 , wherein the timing control circuit is further configured to active, in response to the detection of the first activation signal, a signal timer until the first activation signal is no longer detected, and obtain the duration of the first activation signal consistent with the total programmed runtime of the first activation signal. 4. The cycle and soak control unit of claim 2 , further comprising: a second input connector configured to couple with a second output of the irrigation controller; and a second output connector configured to couple to a second irrigation actuatable device configured to control a second flow of water; wherein the timing control circuit is further configured to: track a duration of a second activation signal from the irrigation controller received at the second input connector and while controlling at least the first activation signal outputted from the first output connector; queue a subsequent control of the second activation signal while controlling the output of the first activation signal from the first output connector until at least the total cycle-on timing is within the threshold of the total programmed runtime of the first activation signal; and subsequently control an output of the second activation signal on the second output connector, after the total cycle-on timing of the first activation signal outputted on the first output connector is within the threshold of the total programmed runtime of the first activation signal, according to the predefined cycle and soak sequence to control a duration of a series of second cycle-on timings and second soak-off timings until a total second cycle-on timing is within a second threshold of a second total programmed runtime of the second activation signal. 5. The cycle and soak control unit of claim 2 , further comprising: a second input connector configured to couple with a second output of the irrigation controller; and a second output connector configured to couple to a second irrigation actuatable device configured to control a second flow of water; wherein the timing control circuit is further configured to: detect a second activation signal from the irrigation controller received at the second input connector; and control an output of the second activation signal from the second output connector during the soak-off timings of the first activation signal outputted from the first output connector and according to a second predefined cycle and soak sequence to control a second duration of a series of second cycle-on timings during which the second activation signal is outputted from the second output connector to activate a second actuatable device. 6. The cycle and soak control unit of claim 5 , wherein the timing control circuit is further configured to modify the soak-off timings of the first activation signal to accommodate at least one of the second cycle-on timings of the second activation signal outputted from the second output connector. 7. The cycle and soak control unit of claim 2 , wherein the timing control circuit draws power from the first activation signal in powering the timing control circuit and outputting the first activation signal on the first output connector after the first activation signal is no longer received at the first input connector. 8. The cycle and soak control unit of claim 2 , further comprising: a user interface secured with the housing and comprising at least one selectable option to define the duration of at least one of the cycle-on timings and the soak-off timings. 9. The cycle and soak control unit of claim 2 , further comprising a disable option activatable by a user and coupled with the timing control circuit, wherein the disable option is configured to disable the timing control circuit from implementing the soak-off timings interrupting the first activation signal. 10. The cycle and soak control unit of claim 2 , wherein the timing control circuit is configured to detect from the irrigation controller a defined duration of the at least one of the cycle-on timings and the soak-off timings. 11. The cycle and soak control unit of claim 2 , further comprising: a wireless transceiver coupled with the timing control circuit and configured to wirelessly receive a defined duration of the at least one of the cycle-on timings and the soak-off timings. 12. A method of implementing irrigation cycle and soak functionality, comprising: detecting, at a first input connector cooperated with a housing, an application of a first activation signal from a separate and external irrigation controller; accessing a first cycle-on timing and a first soak-off timing; and repeatedly and sequentially controlling an output of the first activation signal from a first output connector according to a predefined cycle and soak sequence to control durations of a series of cycle-on timings during which the first activation signal is outputted from the first output connector to activate a separate and external first actuatable device, and soak-off timings during which the first activation signal is interrupted and not outputted from the first output connector deactivating the first actuatable device. 13. The method of claim 12 , further comprising: determining an intended total programmed runtime of the first activation signal based on a duration the first activation signal is received on the first input connector; and continuing to control the output of the first activation signal from the first output connector, after the first activation signal is no longer received on the first input connector, according to the predefined cycle and soak sequence to cycle through the cycle-on timings and soak-off timings until a summation of the cycle-on timings is within a threshold of the total programmed runtime. 14. The method of claim 13 , further comprising: activating, in response to the detection