Patent Publication Number: US-8124920-B1

Title: Controlled end-of-cook cycle and turntable return parking coincidence in a microwave oven

Description:
FIELD OF INVENTION 
     My invention generally pertains to a microwave oven having a rotating turntable to enhance uniformity of cooking food. More particularly my invention relates to convenience and enabling a safe removal of cooked food from the microwave oven once the cook cycle has ended. My invention discusses an advantage for attaining an uniform food item placement and removal consideration, where the turntable parks at the end of the cook cycle leaving the food in about the same physical position as where it was placed at the beginning of the cook cycle. A conveniently repeated food item emplacement and removal location contributes to less chance for spillage or dropping of the food item upon being lifted from the oven. 
     SYNOPSIS 
     In this invention&#39;s operating scenario, a food item is placed on a rotating turntable having a finite circumvolution time period. A preferred cook time is selected for the food item and compared with the circumvolution time period. In the most simplistically illustrative terms, the cook time is subtracted from the circumvolution time period and the difference time period is subsequently used as a delay time interval. The delay time interval postpones the onset of the preferred cook time cycle while an immediate start of the circumvolution time period, or turntable rotation commences. In other words, the turntable starts turning and the preferred cook time waits until the turntable position measurably advances. As a result when the preferred cook time cycle commences both the circumvolution time period and the preferred cook time will have a concurrent end-point. The food item will then be positioned at the same situs as it was at the onset of the oven&#39;s operation. The cooking and turntable will stop at the same moment without delay between the cooking end-point and the turntable stoppage. 
     BACKGROUND OVERVIEW 
     My invention affords a superior degree of safety and convenience in removing heated food from a microwave oven by reinstating the turntable&#39;s start-position as a park-position concurrent with a completion of a microwave heating cycle used to heat or cook food and similar items. 
     As is well known and taught by Kang in U.S. Pat. No. 5,558,799 the turntable in many microwave ovens may stop in a random position and this can result in problems when taking food out of the microwave oven. (&#39;799 Kang, col. 1, lines 52-58). However, what Kang offers is to start the microwave cooking and the turntable rotation at the same time. The cooking proceeds for a period of time and stops. The turntable may be in a random position at this instant, but it is programmed to continue rotation until it returns to about the same position that it was in when the food was placed into the microwave oven. As a result, considerable variation in time may occur between completion of cooking and the moment when the door may be opened to retrieve the food. In a typical microwave oven having a 3-rpm rate, the circumvolutional time period is 20-seconds. Therefore, if a food item is placed in the oven for a 30-second warm-up, the &#39;799 teaching stops-cooking about 10 seconds into the second turntable rotation and the turntable will continue to rotate for 20 additional seconds before the food is removable. 
     In another U.S. Pat. No. 5,440,105 Kim teaches a similar microwave oven operation in which the heating and the turntable rotation begin together (&#39;105 Col. 3, Lines 36-39), the cooking cycle completes (&#39;105 Col. 4, Line 5) and “the turntable continues to be rotated” (&#39;105 Col. 4, Lines 17-18); also said in claim  1  para. F (and G). In other words, although cooking has finished, the food remains in the microwave for a considerable length of time before it may be conveniently removed. 
     BENEFITS OF INVENTION 
     The main goal and hence the main benefit to a user of my invention pertains to parking the turntable of a microwave always in the same position. The concept is to afford the user considerable advancement in convenience and perhaps even more importantly, safety. The safety aspect lays in the repositioning of a dish or other foodstuff arrangement in a predictable position similar to what it was in when the cook cycle began. As is well know, prior art microwave ovens (with turntables) often leave the foodstuff in awkward positions, or in a rearward location on the turntable. This makes reaching into the microwave and handling a hot dish or food item a difficult if not hurtful experience. 
     A majority of microwave ovens known in the art simply time the cook cycle and shut-off. Usually this means the microwave magnetron, the turntable rotation motor and even the interior light simply shut-off. The food item sits on the turntable in any of an unlimited number of angular locations. 
     As was mentioned previously, some advancement is offered by others (Kang &#39;799 and Kim &#39;105, for example) where the microwave cooking is timed to completion with the turntable and the cooking sequence starting together. When the cooking stops, the turntable continues rotating until it reaches the original situs and then it stops. While this is improvement over random parking, it may cause a cook to experience angst because he/she “knows” the cooking has stopped, but the foodstuff is still “stuck” in the oven for another few to many seconds before removal is convenient. To the fastidious cook or chef this unpredictable wait is unacceptable and even to a common cook, the wait after cooking completes may be aggravating. What this leads to is a forced opening of the door and removal of the food item from whatever position it assumes when the door is cracked. 
     A more pleasant cooking experience is brought forth by my invention where the onset of cooking is slightly delayed relative to onset of turntable rotation. This delay is determined to the extent necessary to deliver the end of the cooking cycle and the original situs parking for the turntable. As a result, even the most fastidious cook or chef is able to remove the food item immediately when cooking stops. Moreover, the turntable is re-parked in its original situs for safety and convenience. 
     SUMMARY OF INVENTION 
     A new level of convenience and safety is afforded the user of a microwave oven by my invention&#39;s novel teaching. In a most simple summation for my invention, a food item is placed on a rotating turntable, the oven is set to heat for a random period of time, the turntable starts at a fixed rotational rate, the cooking is slightly delayed to commence when the rotation of the turntable has reached an angular position such that when the overall cook period completes the turntable has returned to its original situs some integer of 360 degrees from the initial food placement event. 
     MODE 1 EXAMPLE 
     The turntable operates at 3-RPM having a circumvolution time period of 20-seconds. This interprets that a food item set to cook for 1½ minutes (90-seconds) will result in 4½ rotations of the turntable. Hence in my invention the onset of the 90 second cook period is delayed by 10 seconds after the door is closed the turntable is rotating ½ turn. As a result, the turntable will assume a full 5 rotations when the cooking completes, leaving the food item conveniently “out in front” for easy removal. 
     MODE 2 EXAMPLE 
     A food item is placed on the 3-RPM turntable and set to heat for 10-seconds, or 180 degrees turntable rotation. This invention recognizes time factors and as a result, the turntable and cooking may commence together, the turntable rotates 90-degrees whereupon it reverses and returns 90-degrees re-parking in its original situs when the heating cycle ends. For the heating of an item with a cooking time of less than the time of a 180 degree turntable rotation (e.g., less than 10 seconds in this cited example) the mentioned cycle reversal is believed to be a most efficient method for obtaining the desired turntable re-parking results. 
     MODE 3 EXAMPLE 
     When the desired heating time is fractionated to the extent where the cook time represents 90 degrees or less of overall turntable rotation, my finding suggest that it is advantageous to rotate the cook item on the turntable for the cook-time (say, 7-seconds) with the heating turned OFF. Then the turntable is reversed and the heating is turned ON, with the turntable returning to it&#39;s original position after 7-seconds of cooking (albeit, with 14-seconds of overall elapsed time). My finding is that with heating times of less than about 90-degrees rotation or else less than about 10 seconds duration are most accurately determined by this methodology. In usage, such brief cook-times are often used to slightly warm a slice of bread, soften peanut butter or other such minimalistic heating needs. 
     MODE 4 EXAMPLE 
     The average speed of the turntable is variously controlled in order to assure congruity between the end-point stoppage of the turntable and the completion of the cook-cycle whereby the turntable ends-up parking in substantially the same position as what it started operating from. The intent is to allow convenient and safe emplacement and removal of cookable food items by returning the item to the starting-point upon completion of the cook cycle. 
     What this Invention “is” and “is-not” 
     This invention “is not” about merely completing a rotational cycle of a turntable irrespective of when an associated cooking event may have timed-out. It furthermore is not about shutting off the microwave source while the food item is nowhere near the original situs and then advancing the turntable until it re-parks near the original situs. 
     This invention “is” about creating end-point coincidence between a timed heating period and a food-bearing turntable&#39;s circumvolution time period by delaying onset of the timed heating period by an amount equated as the difference between the timed heating period and an integral number of turntable circumvolational events. The invention “is” about enabling presentation of the cooked food item in the same turntable positional location for both emplacement and removal. The intent is to allow user access for removal of a heated item with consistent convenience and safety. 
     OBJECTIVES OF INVENTION 
     
         
         
           
             An objective of my invention is to park a cooked item at the end of the cook time in substantially the same physical turntable placement site as where it was emplaced at the beginning of the cook cycle. 
             A purpose of my invention is to maintain a synchronic relationship between a microwave oven&#39;s turntable rotational position and preferred cook time to enable a return of the cooked item to a position near the oven&#39;s entry point at the end of the cook cycle. 
             A gist of my invention is to absolutely position a cooked food item directly in front of the door-opening on a microwave oven, regardless of the duration of the selected cook time. 
             A key purpose for my invention is to objectively achieve convenient and safe access to a heated, cooked food item at the end of a microwave oven cooking cycle. 
             The spirit of my invention is to return the microwave oven&#39;s turntable to a repeated position determined as an integral number of 360° circumvolutions during the interval of a user selected cook cycle time. 
             A further goal is to provide for the capability of incorporating this invention&#39;s novel solution into a microwave oven of conventional design with a minimum or re-engineering. 
             It is an important intent to provide safe and convenient access for unencumbered removal a heated food item subsequent to microwave cooking. 
             The essence of my invention is to provide an inexpensive new level of user convenience for a common problem that involves safe and easy removal of very hot food items from a microwave oven&#39;s cooking chamber. 
             It is a further intent to provide a method for rotating the turntable of a microwave oven at various speeds to assure it&#39;s return to the starting point upon completion of the cook cycle time. 
             Additionally my invention finds suitability for adjunctively improving microwave ovens of virtually any size and configuration utilizing a nearly ubiquitous rotating turntable for receiving a cookable food item. 
             My invention intends that a user may find better safety and satisfaction utilizing a microwave oven having my invention&#39;s novel enhancements. 
           
         
       
    
    
    
     
       DESCRIPTION OF DRAWINGS 
       My invention is depicted by 18 sheets of drawings showing 18 figures, including: 
       FIG.  1 —An overall view of a microwave oven including this invention. 
       FIG.  2 —A graphical representation of the operation for the oven depicted in  FIG. 1 . 
       FIG.  3 —An alternative turntable drive method depicting my invention. 
       FIG.  4 —A graph representing the operation for the turntable shown in  FIG. 3 . 
       FIG.  5 —A different approach for a turntable driven in accord with the central object of my invention. 
       FIG.  6 —A graph showing the events satisfied by the turntable drive of  FIG. 5 . 
       FIG.  7 —A turntable with the onset of cook-power delayed to allow turntable to align itself with the door at the end of the cook cycle. 
       FIG.  8 —A graph depicting the delay of the cook cycle onset. 
       FIG.  9 —A BASIC Computer Program assisting in the defining of prefatory delay of cook-time onset. 
       FIG.  10 —A turntable arrangement with initial reversal to synchronize the turntable with the cook time. 
       FIG.  11 —Graph depicting the turntable performance of  FIG. 10 . 
       FIG.  12 —Rudimentary schematic for a microwave oven including turntable reversal to synchronize the turntable&#39;s end-of-cycle park position with the turntable&#39;s initial position. 
       FIG.  13 —Turntable that runs at two different radial rates during the cook cycle to produce a full 360° rotation during the cook cycle. 
       FIG.  14 —Graphical representation of the turntable running normal and then speeded-up; plus conversely showing initially sped-up and then returning to normal speed. 
       FIG.  15 —Turntable that “speeds up” mid-cycle to enable turntable to reach it&#39;s park position at the end of the cook cycle. 
       FIG.  16 —Graphical presentation showing the mid-cycle turntable speed-up depicted in  FIG. 15 . 
       FIG.  17 —Turntable embodiment that changes speed to speed-up for short cook cycles and slow-down for longer cook cycles, so as to bring the food to the start position at the end of the cook cycle. 
       FIG.  18 —Microwave oven embodiment providing for variable speed turntable operation as described in  FIG. 17 . 
     
    
    
     DESCRIPTION OF INVENTION 
     A microwave oven layout is depicted in  FIG. 1  that includes a casing  20 - 1  enclosing a cooking chamber confined by an extension of the casing on six principal sides to form a cooking chamber, allowing an access door  22  to port the “front” of the cooking chamber. A circumrotatable table  10 - 1  is situate on the bottommost portion of the chamber, allowing a cookable food item  50  to be readily emplaced thereupon by a user access through the door opening. As this  FIG. 1  shows, the turntable  10 - 1  is gyrated by a turntable drive  12  coupled  14  with the turntable axis  16 . Meanwhile, microwave excitation  32  is delivered by a magnetron microwave source  30 . The user may set  44  a preferred cook time and other parameters utilizing a keypad  42  portion of the control panel  40 . 
     As presently illustrated, the preferred cook time is set for 24-seconds. The cookable food item is positioned frontward, as depicted by the reference line  60 - 1 . When cooking commences, the turntable rotates counterclockwise  100 - 1  for 12-seconds and reverses direction, next rotating clockwise  100 - 2  for an additional 12-seconds, accumulating a total of 24-seconds of cook time exposure to the microwave energy  32 . The bidirectional motion of the turntable returns the foodstuff 50 to about the same position  62 - 1  from which it originated  60 - 1 . 
     A graphical representation of the operation of the turntable associated with  FIG. 1  is now clearly shown in  FIG. 2 . Line AA represents the measure of the mentioned 24-second cook-time. At the onset AAB of the cook-time interval AAA it shall be noted that a first direction of turntable rotation may occur for 12-seconds, as depicted on line AB by the waveform ABA. Line AC shows the second direction ACA (reversal ACB) of turntable rotation that may occur for another 12-seconds ending ACC at 24-seconds ADB, when the cook time is “done”. It shall be noted that the preferred cook time AAA and the second (reverse) direction of turntable rotation ACA stop at substantially the same time AAC and ACC. The equal duration bidirectional rotation of the turntable by the control signals ABA,ACA clearly results in the turntable essentially “going nowhere” and returning any cookable item placed on the turntable back to the original situs relative with the user. 
     Under circumstances where the preferred cook time is substantially less that the 360 degree turntable rotation time, a variant sequence of events as depicted in  FIG. 3  may apply. Let&#39;s say the preferred cook time is 14-seconds (to warm a bread roll, etc.) and the turntable rotation is 3-rpm. The result is that it takes 20-seconds for one full revolution of the turntable. Hence as  FIG. 3  now shows, the 14-second cook time is split into two separate 7-second intervals. During the first interval, the turntable rotates 126-degrees counterclockwise  110 - 1  followed by 7-seconds and 126-degrees of clockwise rotation  110 - 2 . This performance returns the food  50  back to the starting situs  60 - 2  at the end of the cook cycle. 
     Better yet,  FIG. 4  graphically represents the turntable performance of the arrangement of  FIG. 3 . At the onset BAB of the 14-second preferred cook time cycle BAA a 7-second counterclockwise rotation BBA is urged, followed by a reversal transition BBB,BCB and an ensuing 7-second clockwise rotation BCA. The turntable stops BCC at the moment of cook-time conclusion BAC. The cookable food item is returned to its original point of entry by the effective cancellation offered by the equal-duration counterclockwise and clockwise rotations BBA,BCA. 
     In event the cook time is of more lengthy duration, say 85-seconds as shown now in  FIG. 5  find that the 3-rpm turntable may rotate counterclockwise four full revolutions  120 - 1  to allow 80-seconds of the 85-second cook-time. Then the turntable may continue  122 - 1  past the 4-th start location  60 - 3  by 45-degrees allowing an additional 23 seconds of cook-time, whereupon it reverses at the turnabout point  124  and returns clockwise  122 - 2  for 45-degrees with the intentional overshoot adding 5-seconds of cooktime to the previously elapsed 80-seconds. This to and fro overshoot inspired parking  122 - 1 , 122 - 2  results in the cookable food  50  being returned to about the starting point  60 - 3  for ready open door  22  access by the user. 
     The graphical representation of  FIG. 6  more definitively shows the activity waveforms associated operations of  FIG. 5 . As the projection of the preferred cook time interval CAA shows, the turntable starts counterclockwise rotation CBA concurrent with the onset CAB of the cook cycle. As the expanded view CBCB depicts, the counterclockwise rotation CBA continues to the 82.5 second time line CDA, whereupon the rotation CBA ceases CBBA and reverses direction CCBA for an additional 2.5-seconds in the clockwise direction CCA, stopping CCCA concurrent with the end CAC of the 85-second cook cycle CDB. This brief reversal allows 45-degrees angular overshoot of the turntable, which then returns 45-degrees to end up parking at the same point  60 - 3  of origin as shown in  FIG. 5 . 
     Another variant control for the turntable is now depicted in  FIG. 7 , where the application of microwave power is delayed until the turntable has advanced sufficiently to assure the return of the food item  50  to its original position  60 - 4  at the end of the cook cycle. This is accomplished in this example, for a 52-second cook time, by advancing the turntable in a counterclockwise direction  130  for 8 seconds or about 144-degrees  133  with the microwave energy OFF. After 8-seconds, the microwave energy is turned ON and the rotation continues  132 - 2  for another 52 seconds concurrent with the remaining cook cycle time. At the end point, the food is returned  132 - 1  to it&#39;s original situs  62 - 4  at the end of an overall elapse of 60-seconds. Clearly the advantage of this approach is that the heating portion of the cook cycle and the physical stoppage of the turntable in its original position  60 - 4  occurs at the same moment. 
     A graphical representation of  FIG. 8  displays the pattern of the  FIG. 7  portrayal for a 52-second preferred cook time. The microwave power source is shown on line DA, where it is kept turned-off DAB until an elapse of 8 seconds prefatory time occurs DDA. The turntable, on the other hand, commences turning DCA to run for a full 60-seconds or 3 full revolutions at 3-RPM. The real cook cycle DBA onset DBB occurs when the magnetron turns-on DAC to deliver microwave energy for the 52-second interval DAA, ending DAD upon timeout of the cook cycle DBC and stoppage of the turntable DCC. The result is the turntable makes an integral number of full revolutions and returns the food item  50  to it&#39;s original location. As shown, the 8-second prefatory time DDA is followed by the 52-second cook time DDB. 
     A computer program shown in  FIG. 9  may serve to calculate the prefatory time of  FIGS. 7 and 8 . This program runs under Microsoft™ GW-Basic™ and provides quick and convenient calculations for various turntable speeds and cook times. 
       FIG. 10  extends my invention to counter-turning the 3-RPM turntable  140 - 1  for 8-seconds or (8/20)×360=144 degrees of angular rotation as shown by waveform EBA of  FIG. 11 . Together these figures depict an 8-second backup of the turntable (depicted by the shaded area) before it reverses direction EBC,ECB and advances ECA for 48-seconds including about 8-seconds of travel between the 8-second point EEA and the 16-second point EEB that re-tracks the original 8-second back-step motion EBA to deliver an overall 56-seconds of cook time duration EAA,EEC, with the turntable stopping ECD promptly concurrent with the end of the cook cycle EAC. Noting that in the cook time cycle, the 8-second back-track event completes EAD and the forward movement time commences EAD until the 8-seconds of back-track time is recovered EAE by the turntable&#39;s overall travel. As a result, no delay of the overall cook cycle is noticeable to the user since the cooking occurs throughout the timing event EAA regardless of turntable direction EBA or ECA. 
     A rudimentary schematic for a microwave oven encompassing my invention&#39;s contributions appears in  FIG. 12 . As shown, the microwave oven chamber  24  includes a turntable  10 - 6  supporting an emplaced food item  52 . A magnetron  178  sprays microwave energy  34  into the oven cavity to achieve heating of the food item  50 . The magnetron power supply is conventional, having a transformer  170  and a voltage doubler arrangement including a shunt diode  176  and capacitor  174  coupled with the transformer secondary  172 - 2 . The transformer primary winding  172 - 1  is excited from AC power  202 - 1 , 202 - 2  connected with a source  200  and switched by relay contacts  180 - 2  controlled by a relay coil  180 - 1 . A control panel  46  couples  192  with a microprocessor controller  190  that includes a program  194  for control  196  of the microcontroller  190 . The controller  190  urges the magnetron power control relay  180 - 1  to close the contacts  180 - 2  and provide microwave energy to the cooking chamber for a finite time equated by the preferred cook time established by the user choices entered through the control panel  46 . Another relay  160 - 1  and contact set  160 - 2  applies power  158  to the turntable drive motor  150  to establish gyration of the turntable. A supplementary relay  156 - 1  controls a SPDT contact set  156 - 2  that establishes direction of turntable operation in conjunction with the phase shift capacitors  154 - 1 , 154 - 2  and motor windings  152 - 1 , 152 - 2 . AC power returns via line  202 - 1 . 
     Advancing to  FIG. 13  the invention operates the turntable with two different speeds to assure bringing the turntable to rest at the same “starting point”  60 - 6 , 62 - 6  with every operating cycle, regardless of the preferred cook time parameters. As shown, the turntable rotates about one-half turn  210 - 1  at a first speed and a subsequent one-half turn  210 - 2  at a second speed. For example, with a 3-RPM nominal turntable speed and a 15-second preferred cook time the microwave power is applied FAA in  FIG. 14  for the full 15-seconds. The turntable operation on line FB shows the normal speed operation FBA for 10 seconds whereupon the speed is abruptly doubled FBD for the remaining 5-seconds FBC. During the interval FBA the turntable rotates about 180-degrees and then during the final 5-seconds of rotation FBC the turntable traverses the remaining 180-degrees of a full revolution. This action returns the food item  50  to it&#39;s original location  60 - 6 , 62 - 6  established at the onset of the cook cycle. 
       FIG. 14  also shows that the overall cycle might be reversed, saying that the first 5-seconds may traverse the first half-revolution by operating the turntable at double-speed FCA on line FC for 5-seconds, followed by a change FCD to “normal speed” operation FCC for the remaining 10-seconds of the 15-second overall cook time. 
     With  FIGS. 15 and 16  I show that the “sped-up” turntable rotation may be accommodated mid-cycle. In other words, rotation starts  220 - 1  and completes  220 - 2  at “normal” speed (say 3-rpm) while in mid-cycle the speed may be increased  224  for a determinable period to give an overall cook cycle concurrence with reparking the turntable  10 - 7  in the same angular position as it rested in at the onset of the cook cycle. For example, to obtain an overall 16 second cook time GCC with a nominal 3-RPM turntable speed, the operation includes running at normal 3-RPM speed (e.g., 18°/second) for the first 4-seconds GBAA or 72° of turntable rotation about the axis  16  and the final 4-seconds (72° rotation) GBAB wherein the turntable is urged to speed-up 150% (e.g., 27°/sec.) rate for 12-seconds (from 4-seconds GCA to 12-seconds GCB of cook time) covering 216° of travel in 8-seconds of travel time GBE in midcycle GBC. In effect the turntable rotates at 3-RPM to the 72° angular position  222 - 1  followed by 12 seconds of sped-up 4.5-RPM rotation  224  from 72° to 288-degrees, followed by 3-RPM rotation  220 - 1  for the remaining 72° from 288-degrees  222 - 2  to attain the full 360° turntable  10 - 7  rotation  62 - 7  and return the food item  50  back to the initial START situs  60 - 7 . 
     With  FIG. 17  I say that the motor speed for rotation  230  of the turntable  10 - 8  for multiple circumrotations  232  may be modulated to provide coincidence of the end-of-rotation  62 - 8  with the end-of-cook-cycle. In other words, the turntable  10 - 8  rotates  230 - 1 ,  230 - 2  at a variable rate of speed that is synchronized relative with the cook time to assure the return  62 - 8  of the food item  50  to the initial placement situs  60 - 8 . 
     In  FIG. 18  a cooking chamber  240  includes a turntable  242  having a food item  244 . Cooking is accomplished by microwave power delivered  254  from a magnetron  250  controlled by a cook timer  248 , preset  246  by a user. The cook time is also directed  266  to a nominal speed and cook time comparator  270 . A nominal speed reference (say 3-RPM)  260  value converts  262  into a time per revolution value applied  264  to the comparator  270  to establish a speed factor signal on line  272  which may be utilized to determine  274  an alternate speed  276  to set the motor speed controller  280 . As a result, the motor  282  speeds-up or slows-down relative with the cook time parameters  248  and nominal speed  260  preferences so as to rotate the turntable  242  to return the food item  244  at the end of cook cycle adjacent with the entry situs location. 
     Practice Caveats 
     A reasonable and comprehensive effort has been made to explain this invention in a manner which enables a person of modest skill in the art to efficiently duplicate my findings. The utter essence of my invention is to absolutely and remarkably repark a microwave oven&#39;s turntable in the same position as it assumed when foodstuff was placed upon the turntable. Moreover, the turntable rotation and the cooking are synchronized to the extent that cooking is completed concurrent with the foodstuff having reached the desired reparking situs. The endpoint congruency is novel in being attained by time-delaying the start of the cooking cycle to usually occur moments after the start of the turntable&#39;s rotational cycle to allow the physical motion to achieve a head-start relative to the cook-time. This offset between the two functional cycles allows the end-point concurrence to reliably be achieved. Convenience is honored by permitting immediate removal of the food the instant the cooking ceases and the turntable has reparked. 
     Other adaptations to obtain my inventions central goal of assured reparking repeatability and congruence between end of rotation and end of cooking power are shown which include changing mid-cycle speed of the turntable and modulating the turntables average rotational speed to agree with the cook cycle duration. 
     I fully expect that a skilled artisan may develop alternate details for my invention&#39;s implementation including a considerable variation regarding physical form details of the microwave oven embodiment and the turntable arrangement. More central to this invention is that a savvy engineer may improvise various microprocessor options and memory configurations as well as software scripts and firmware arrangements to satisfy any of a variety of obvious operational preferences. I say that these are merely technique variants result from mere applied engineering skill coupled with an ever-increasing plethora of options regarding parts, components, techniques and programming skills which may be utilized to duplicate my invention&#39;s contribution to the art-field. 
     Any attempt by another to circumvent the essence of my invention to attain reaching the cook cycle end-point and the reparking of the turntable&#39;s endpoint at the same moment to allow prompt removal of the cooked foodstuff item shall be prudently viewed with caution and suspicion. I realize that hindsight cleverness may suggest other physical and technical embodiments exhibiting a difference in operational detail from that which I specifically depict to become readily apparent to and subsequently tried by others. As a consequence to this realization, I challenge that other technical hookups, signal processing logic and physical embodiment variations that satisfy my invention&#39;s essence are merely natural and obvious extensions of the invention&#39;s central teachings. In particular this broadly includes reparking the microwave oven&#39;s turntable in the same location at the end of a cook cycle as what it assumed at the onset of the overall operating cycle. Any scheme which satisfies this objective of my invention conclude the turntable rotation and the cook cycle together must be found as merely obvious engineering refinements, embodiment practices and operational details that are construed to be irrefutably within the scope of my invention as presently taught and inclusively claimed.