Switchless valve position detection system

What is claimed is: 1. A switchless valve control system comprising: a driver for a mechanical connection to a valve and configured to change a positioning of the valve; a controller electrically connected to the driver and configured to electrically cause the driver to change the positioning of the valve; a current sensor electrically connected to the driver so as to detect a profile of current from the controller in terms of magnitude going to the driver, to indicate a position of the valve; and memory in communication with the current sensor; and wherein an amount of current provided to the driver can indicate a functional discrepancy with the valve; and wherein a first control point of the amount of current provided to the driver indicating the functional discrepancy with the valve is recorded in the memory. 2. The system of claim 1 , further comprising: an analytics module connected to or as a part of the controller, and being connected to an output of the current sensor; and wherein the analytics module identifies a closing of the valve and an opening of the valve from the profile of current detected by the current sensor. 3. The system of claim 2 , wherein the controller, for initialization, is configured to sense a closing and measurement of an operational mechanical distance over_time during an additional opening phase of the valve. 4. The system of claim 3 , wherein the controller is configured to: initiate, as soon as a closed position is reached, an opening transition; initiate, as soon as an open position is reached, a closing transition; and while driving up a physical end position, track an operation time and store the tracked operation time as an initial operation time. 5. The system of claim 4 , wherein the initial operation time is for adapting operational parameters of the driver. 6. A valve position driver apparatus comprising: a valve driver; a controller having a power output for the valve driver; and a sensor connected to the controller for detecting current of the power output; and memory in communication with the sensor; and wherein the controller detects closure and opening of a valve according to a magnitude of current provided to the valve driver; wherein an amount of current provided to the valve driver can indicate a functional discrepancy with the valve; and wherein a control point of the amount of current provided to the valve driver indicating the functional discrepancy with the valve is recorded in the memory. 7. The apparatus of claim 6 , wherein the controller is configured to effect a learning process to identify newly learned behavior parameters. 8. The apparatus of claim 7 , wherein the learning process comprises: when in a first phase, the driver detects a proof end position for a closed state; the controller causes the driver to move a valve as soon as a maximum of current consumption is detected; as soon as a closed end position is reached, the driver starts moving the valve in an opposite direction and measures an opening time until a threshold is detected; and as soon as an open end position is reached, the driver starts moving the valve in an opposite direction and measures a closing time until a threshold is detected. 9. The apparatus of claim 8 wherein by detection of an open position, the controller is configured to use a measured opening time as an initializer for opening and closing observer variables. 10. The apparatus of claim 8 , wherein the controller is configured to validate the newly learned behavior parameters and store the validated newly learned behavior parameters in a non-volatile memory. 11. The apparatus of claim 10 , wherein: a time of operation incorporates multiple slots; and the multiple slots include a minimal time window, a nominal time window and a maximum time window. 12. The apparatus of claim 11 , wherein: the minimal time window defines a slot where current consumption is abnormal, and if current higher or lower than normal in the slot is detected, then a problem with the valve is noted and stored in a memory; the nominal time window defines a slot where a normal expected end position is measured and adapted at each close or open action; and the maximum time window defines a slot where the driver is switched off since a duration of the slot is outside a normal process. 13. A valve control mechanism comprising: a valve driver; a controller connected to the valve driver; and a current meter connected in-line between the controller and the valve driver; a device configured to record consumption of current, the device is connected to the controller; and wherein: the current meter has an output indicating current magnitude, connected to the controller; the valve driver is connected to a valve and configured to open and close the valve; and a current profile of the current magnitude of current used to power the valve driver, indicates openness and closure of the valve, or a physical condition of the valve; an amount of consumption of current can indicate a functional discrepancy with the valve; and the device records a first control point of the amount of consumption of current indicating the functional discrepancy with the valve. 14. The mechanism of claim 13 , wherein the controller is configured to detect a closing transition of the valve according to the current profile and detect an opening transition according to the current profile and: detecting the closing transition of the valve according to the current profile includes recognition of a current jump and of an end position in detecting an opening transition according to the current profile that includes recognition of an end position; and detecting the opening transition of the valve according to the current profile includes recognition of a current jump and of an end position in detecting a closing transition according to the current profile that includes recognition of an end position. 15. The mechanism of claim 14 , wherein a start slot is when a motor of the valve driver starts driving the valve, while the current profile is monitored. 16. The mechanism of claim 13 , wherein: a qualification slot involves monitoring a progress of the current consumption and noting higher than average current consumption at an end of the qualification slot; and the device records a second control point of the higher than average current consumption. 17. The mechanism of claim 16 , wherein a comparison of the first and second control points provides information leading to a correction factor for controlling the valve. 18. The mechanism of claim 13 , wherein an observation slot has a time window which allows detection of a rise in current above a threshold, wherein the controller is configured to log an event of the rise in current above the threshold as a transition successful. 19. The mechanism of claim 18 , wherein new measured process data are used at least partially as a calibration for the next action for controlling the valve.