`[11]
`-
`[19]
`United States Patent
`
` Lawson » ‘ [45] May 4, 1982
`
`
`
`
`[54] MICROPROCESSOR FOR OVEN CONTROL
`
`OTHER PUBLICATIONS
`
`[75]
`
`Inventor:
`
`James A. Lawson, Dallas, Tex.
`.
`[73] Assignee: Texas Instruments Incorporated,
`Dallas, Tex.
`.
`
`[21] Appl. No.: 729,053
`_
`.
`Oct. 4’ 1976
`[22] Filed:
`[51]
`Int. Cl.3 ............................................... H053 6/68
`[52] us. Cl. .............................. 219/10.55 B; 219/506
`[58] Field of Search .................. 219/10.55 R, 10.55 B,
`219/10155 E, 506; 307/64! 296
`
`[56]
`
`References Cit“!
`U.S. PATENT DOCUMENTS
`3,753,001
`8/1973 Hiroshima et al.
`................... 307/64
`3,819,906 6/1974 Gould, Jr. ..........
`..... 219/506
`9/1976 Copeland ................ 307/296
`3,932,141
`
`4,011,428 3/1977 Fosnough et a1.
`.
`............. 219/506
`4,038,510 7/1977 White ........................... 219/10.55 E
`
`E. A. Torrero, “An Introduction to Microprocessors”,
`Electronic Design 9, pp. 58—62, 4/26/76.
`A. J. Weissberger, “Microprocessors Simplify Indus-
`trial Control”, Electronic Design 22, 10/25/75, pp.
`96—99.
`‘
`George D. Hanchett, “Tum—On Reset Pulse Circuits”,
`RCA Technical Notes, 3/28/73.
`Primary Examiner—C. C. Shaw
`Attorney, Agent, or Firm—Melvin Sharp- Richard L.
`_
`’
`Dmmldsm" Gary C‘ H‘meyc‘m
`[57]
`‘
`ABSTRACT
`A microprocessor for oven control has a keyboard for
`data and instruction entry and a display for displaying
`desired data, including the oven duty cycle. The micro-
`processor incorporates a random access memory for
`swung data entered fr°m the keyb°ard and also “‘cor'
`porates a read-only memory which controls the opera-
`tion 0f the microprocessor for its dedicated Purpose-
`
`3 Claims, 12 Drawing Figures
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`U.S. Patent May 4, 1982
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`Sheet 1 of 10
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`MICROPROCESSOR FOR OVEN CONTROL
`
`BACKGROUND OF THE INVENTION
`Field of the Invention
`This invention relates to oven controllers for control-
`ling temperature, duty cycle and time intervals. More
`specifically, it relates to a microprocessor whose func-
`tion is dedicated as an oven controller by a read-only
`memory.
`In the past, oven controllers have been simple electri—
`cal-mechanical devices consisting of a control for man-
`ually setting a temperature and another for setting a
`timer to sound an alarm when the desired time has
`elapsed. More sophisticated controllers permitted set-
`ting a time for the oven to start and a time for the oven
`to stop, automatically.
`With the advent of the microwave oven, the problem
`of controlling the operation became somewhat more
`complex. For example, the duty cycle of the magnetron
`which produces the microwaves for cooking should be
`one value for thawing and another for cooking a non-
`frozen item with a variance also required for the differ-
`ent kinds of items to be cooked. For example, to bake
`potatoes may require a different magnetron duty cycle
`than to bake a turkey. In prior art oven controllers, the
`duty cyle is manually controlled by simply referring to
`a cook book provided by the oven manufacturer to
`obtain a listed duty cycle and then simply setting a dial
`according to the listed duty cycle.
`More modern microwave oven controllers utilize
`solid state electronic techniques for the control cir-
`cuitry, such circuitry dedicated to the particular pur-
`pose. That is, if a new function is desired, new circuitry
`must be designed and implemented to achieve that new
`function. The prior art has progressed to the point
`where time and duty cycle may be set to operate in a
`so-called time mode.
`~
`
`10
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`15
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`20
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`25
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`30
`
`35
`
`BRIEF SUMMARY OF THE INVENTION
`
`40
`
`In the instant invention, not only a time mode is avail-
`able, but also a temperature mode. The temperature
`mode is a mode wherein the desired final temperature of
`the item to be cooked is set and all other operations then
`are automatic. For example, if the item is frozen, a par—
`ticular duty cycle of the magnetron must be selected,
`with the magnetron then shut off for a period of time. A
`second magnetron duty cycle may then be selected for
`a specified period of time and finally a third duty cycle
`of the magnetron may be selected to bring the item to be
`cooked to the desired temperature. These particular
`functions are available through the use of a micro-
`processor controlled by a ROM. The time and tempera-
`ture of each of these cooking cycles is stored in a ran-
`dom access memory at three memory levels. That is, at
`memory level 1,
`the thawing time and power level
`(magnetron duty cycle) is stored. At memory level 2,
`the second cooking period and power level is stored.
`Finally, at level 3, the third cooking time and power
`level is stored. These parameters may be set by appro-
`priate commands entered through a capacitive touch
`plate. Alternately they are automatically sequenced by
`selecting the temperature mode, in conjunction with the
`use of a probe having a thermistor sensor inserted into
`the item to be cooked, by simply selecting the final
`internal temperature desired for the item to be cooked
`and at what power level cooking is to take place. To
`achieve more and/or different functions, the ROM is
`
`45
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`50
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`55
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`60
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`65
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`2
`simply replaced so that the controller is extremely flexi—
`ble.
`The main object of this invention is to provide an
`oven controller with extreme versatility, capable of
`operating in a time mode or in a temperature mode.
`Another object of this invention is to provide an oven
`controller whose repertoire of functions may be readily
`augmented and/or altered.
`Still another object of this invention is to provide a
`controller that is simple to operate, yet controls a com-
`plex sequence.
`These and other objects will become evident in the
`detailed description that follows.
`BRIEF DESCRIPTIONS OF THE DRAWINGS
`
`FIG. 1 is a perspective of theloven assembly contain-
`ing the oven controller;
`FIG. 2 is a front view of the capacitive touch panel
`for activating the controller;
`FIG. 3 is an exploded View illustrating the relation-
`ship of the capacitive touch panel to the controller
`electronics;
`FIG. 4 is a schematic diagram of the electronics of
`the invention.
`
`DETAILED DESCRIPTION OF THE
`INVENTION
`
`FIG. 1 illustrates an oven 20 having a controller with
`capacitive touch panel 21.
`FIG. 2 illustrates in detail the various components of
`capacitive touch panel 21. Display 22, in this preferred
`embodiment,
`is a type TIL 373 manufactured by the
`assignee of this invention, Texas Instruments Incorpo-
`rated, P. O. Box 5474, Dallas, Tex., 75222. Display 22 is
`used for displaying time of day, cooking time, tempera-
`ture, etc. Visual light emitting diodes (LED’s ) D16,
`D17 and D18 indicate three memory levels. LED’s
`D19—D29 indicate the duty cycle selected for operation
`of the oven magnetron. Pad 27 is to “select heat”, pad
`28 is to “select time” (temp), pad 29 is to “clear entry”,
`pad 30 is for “reset”, pad 31 is for “clock”, pad 32 is for
`“start”, pad 33 is for “memory” and pad 34 is for “stop”.
`Pads 23 are for “numerical entry”.
`’ FIG. 3 illustrates the capacitive touch panel 21 and its
`spatial relationship with logic board 40. Logic board 40
`contains the light emitting diodes D16—D29, display 22
`and integrated circuits 4].
`Referring now to FIG. 4, the schematic diagram of
`the oven controller of this invention is shown. Primary
`winding T1 of transistor 87 is connected to terminals 85
`and 86 across which an AC voltage is impressed. Varis—
`tor VR1 is connected across primary T1. The second-
`ary of transformer T1 includes a first secondary wind»
`ing with taps forming secondary circuits T2, T3 and T4,
`and a secondary winding T5. Terminal 84 of the sec-
`ondary winding T2 is connected to the anode of diode
`D4, whose cathode is connected to one terminal of fuse
`F1, the other terminal of fuse F1 being connected to the
`intersection of one end of resistors R1 and R3 and one
`terminal of capacitor C6, .whose other terminal
`is
`grounded. The other end of transistor R1 is tied to the
`collector of transistor Q3 whose emitter is connected to
`-— 15 volts, and whose base is connected to ground
`through resistor R2. The cathode of Zener diode D5 is
`connected to the other end of resistor R3 and to one
`terminal of capacitor C7, at which point a +62 volts is
`developed for scanning the capacitive touch plate 21.
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`The other terminal of C7 is grounded. The anode of
`Zener diode D5 is grounded. Terminal 88 of secondary
`circuit T4 is connected to the cathode of diode D7 and
`terminal 89 of circuit T5 is connected to input terminal
`82. Capacitor C1 is connected from terminal 89 to
`ground.
`Terminal 85 of the secondary circuit T2 is connected
`to the cathode of diode D1 whose anode is connected to
`the anode of diode D2,
`this intersection providing a
`rectified, unregulated measurement of the amplitude of
`the input voltage. The cathode of diode D2 is con-
`nected to terminal 87 of the secondary circuit T4. Ter-
`minal 86 of secondary circuit T4 is connected to
`ground. The intersection of the anodes of diodes D1 and
`D2 is connected to one terminal of capacitor C2 whose
`other terminal is grounded, to one end of resistor R4
`and to the emitter of transistor Q1, which together with
`transistor Q2 forms a compound Darlington pair. The
`collector of transistor Q1 is connected to the emitter of
`transistor Q2 whose collector is connected to the base
`of transistor Q1 and whose base is connected to one end
`of resistor R5 and to the anode of Zener diode D3
`whose cathode is connected to ground. The other end
`of resistor R5 is connected to the other end of resistor
`R4 and to one terminal of capacitor C3 whose other
`terminal is connected to ground. The collector of tran-
`sistor Q] is also connected to the cathodes of diodes
`D36 and D35, the anode of diode D36 supplying — 15
`volts, unregulated for activating display 22 driver tran-
`sistors Q6—Q9, speaker 70 driver transistor Q10, and
`LED driver transistors Q13—Q16. The cathode of tran-
`sistor Q1 is further connected to one terminal of capaci-
`tor C4 whose other terminal is connected to ground.
`The anode of diode D35 is connected to one terminal of
`capacitor C5 whose other terminal
`is connected to
`ground and to switch 81 which is connected in series to
`the base of transistor Q3. The anode of diode D35
`supplies —15 volts, regulated.
`The intersection of the anodes of diodes D1 and D2,
`where unregulated rectified voltage which is directly
`proportional to the AC line voltage is present, is con-
`nected to one end of resistor R7 whose other end is
`connected to the intersection of one end of resistor R6
`and one terminal of capacitor C8, the other end of resis-
`tor R6 and the other terminal of C8 being connected to
`ground. Resistors R6 and R7 and capacitors C8 form an
`integrating circuit for integrating the unregulated volt-
`age. The intersection of resistors R7, R6 and capacitor
`C8 serves as one input to comparator 52. The other
`input of comparator 52 is connected to ground through
`resistor R11 and to —l5 volts through resistor R12,
`thereby establishing a threshold voltage. The output of
`comparator 52 is connected through resistor R14 to
`ground and through resistor R15 to its other input,
`forming a Schmidt trigger. Comparator 52 (also com»
`parators 51, 53 and 54) are type LM 2901B “Quad Sin-
`gle—Supply Comparator” manufactured by Raytheon
`Semiconductor, described in that company’s “Linear
`IC’s”, Pages 4—6 through 4—9, dated January, 1976. The
`output of comparator 52 is inverted through inverter 55
`and connected to pin 9 (test) of microprocessor 66. In
`this preferred embodiment, microprocessor 66 is a TMS
`1000 manufactured by Texas Instruments Incorporated.
`The cathode of diode D2 is connected to the cathode
`of diode D6, the anode of diode D6 being connected to
`one end of resistor R8 whose other end is connected
`through resistor R9 to ground and to one input of com-
`parator 51. The other input to comparator 51 is con-
`
`4
`nected through resistor R11 to ground and through
`resistor R12 to — l5 volts as is the other input of com-
`parator 52. The output of comparator 51, which pro-
`vides a 60 Hertz square wave pulse for clocking pur-
`poses, is connected through resistor R13 to ground and
`is also connected to pin 14 (input F1) of capacitive
`touch keyboard interface 80. Capacitive touch key-
`board interface 80 is a TMS 1976 manufactured by
`Texas Instruments.
`Pin 3 (R10) of microprocessor 66 is connected
`through resistor R81 to the anode of diode D13 and to
`one terminal of capacitor C13. One input of comparator
`54 is connected through resistor R86 to one terminal of
`capacitor C16 whose other terminal is connected to
`~15 volts. The one input of comparator 54 is also con-
`nected through resistor R86 and through resistor R87 to
`the output of comparator 54, to the cathode of diode
`D13, to ground through resistor R83 and to the other
`input of comparator 54 through resistors R84 and R85.
`The connection between resistors R84 and R85 is con-
`nected to the other input of each of comparators 51 and
`52. The output of comparator S4 is also connected to
`the cathode of diode D14 whose anode is connected
`through resistor R82 to pin 1 (R3) of microprocessor 66
`and to one terminal of capacitor C11.
`Comparator 54, together with resistors R83—R85 and
`capacitors C16 and C17 form an oscillator whose output
`is applied to capacitors C11 and C13, respectively.
`Pin 1 (R3) of microprocessor 66 is connected through
`resistor R82 to the anode of diode D14 whose cathode
`is connected to the cathode of diode D13. The anode of
`diode D14 is also connected to one terminal of capacitor
`C11 whose other terminal is connected to the base of
`transistor Q4. The emitter of transistor Q4 is connected
`through resistor R16 to the anode of diode D7 and to
`one terminal of capacitor C9 whose other terminal is
`connected to terminal 82. Capacitor C10 has one termi-
`nal connected to input line terminal 82 and the other
`terminal connected through resistor R10 to the main
`terminal 2 of Triac SCRl. The gate Triac SCRl is con-
`nected to the collector of transistor Q4 and the other
`terminal of SCRl is connected to input line terminal 82.
`The output of silicon controlled rectifier SCRl is used
`to supply power for an oven fan motor, lamp and fila-
`ment to terminal L1 through door interlockswitch 92.
`The other terminal of capacitor C13 is connected to
`the base of transistor Q5 whose emitter is connected
`through resistor R18 to the anode of diode D7. The
`collector of transistor Q5 is connected to the gate of
`Triac SCR2 whose output is connected through magne-
`tron transformer 81 primary and through door interlock
`.switch S2 to terminal L1.
`Main terminal 1 of Triac SCR2 is connected to termi—
`nal 82 of the input line and to one terminal of capacitor
`C12 whose other terminal is connected through resistor
`R88 to the main terminal 2 of SCR2.
`Temperature probe thermistor S3 is connected at one
`end to 0 volts and at the other through resistor R20 to
`one input of comparator 53, to one terminal of capacitor
`C14, whose other terminal is connected to 0 volts, and
`through resistor R21 ton — 15 volts. The other terminal
`of comparator 53 is connected through R22 to — 15
`volts, and the output of comparator 53 is connected
`throgh resistor R29 to 0 volts and serves as one input to
`AND circuit 56 whose other input is connected to pin 2
`(R9) of microprocessor 66. The output of AND circuit
`56 is connected to the anode of diode D9 whose cath~
`ode is connected to pin 6 (K2) of microprocessor 66 and
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`R65 to the base of Q11. Pin 23 of microprocessor 66 is
`connected through resistor R66 to the base of transistor
`Q12.
`-
`Pin 22 (R1) of microprocessor 66 is connected to the
`anode of diode D11 whose cathode is connected to pin
`15 (RST) of capacitive interface 80. Pin 24 (R3) of mi-
`croprocessor 66 is connected to the anode of diode D12
`whose cathode is connected to the cathode of diode
`D11.
`Transistors Q11 and Q12 and resistors R67 and R68
`are used in the selection process to select which particu-
`lar keyboard pad has been touched. The emitters of
`transistors Q11 and Q12 are connected together to — 15
`volts. The collector of transistor Q11 is connected to
`one column of keyboard pads on keyboard 21 and the
`collector of Q12 is connected to a second column of
`pads. The collectors‘of transistors Q11 and Q12 are
`connected respectively, through resistor R67 and resis-
`tor R68 to +62 volts.
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`to pin 2 (K2) of capacitive interface 80. Probe switch S3
`is connected at one end to 0 volts and at the other end
`through resistor R30 to —— 15 volts, to the input of in-
`verter 57 and through resistors R45 to pin 12 and R46 to
`pin 13 of displayr22. Resistors R31—R37'are connected
`in parallel to — 15 volts and in series through resistors
`R38—R44, respectively, to pins 16, 3, 6, 8,: 10, 11 and'13
`of transistor array 62. Transistor arrayy62 is manufac-
`tured by RCA and is a type CA-3082—“General Pur-
`pose High Current N-P-N Transistor Array”. The other
`end of resistors R3l—R37 are also connected to pins
`11—17 (05—00) of microprocessor 66. Resistors R23—R-
`26 are connected in parallel to the other input of com-
`parator 53 and their other ends are connected to pins
`17—14 of microprocessor 66. Resistor R27 is connected
`at one end to the common node of resistors R23—R26,
`through resistor R28 to 0 volts. Resistor R27 at the
`other end is connected to pin 28 017) of microprocessor
`66 and through resistor R72 to r, 15 volts and through
`resistor R73 to the anode of diode D15 and to the input
`of inverter 72. Pin 2 of microprocessor 66 is connected
`through resistor R71 to — 15 volts and to the input of
`inverter 71 whose output is connected to the cathode of
`diode D15. The output of inverter 72 is connected
`through resistor R80 to the base of transistor Q16. Pins
`25, 26, and 27 are connected through resistors R77—R79
`to the bases of transistors Q13, Q14 and Q15 and
`through resistors R74, R75 and R76 to — 15 volts. The
`emitters of transistors Q13—Q16 are connected to — 15
`volts, unregulated, and their collectors are Connected to
`the cathodes of L‘ED’s D16—D18, D26—D29, D22—D25
`and D19—D21, respectively. The anodes 0f LED’s D16,
`D21, D25 and D29 are connected together into pin 6 of
`display 22. The anode of LED’s D17, D20, D24 and
`D28 are connected together to pin 5 of display 22. The
`anodes of diodes D19, D18, D23 and D27 are connected
`together and to pin 4 of display 22. The anode of LED’s
`22 and 26 are connected together to pin 3 of display 22.
`Pins 14, 12, 9, 7, 4, 2 and 1 of transistor array 62 are
`connected through resistors R47—R53, respectively, to
`pins 6, 5, 4, 3, 8 and 9 of display 22. Transistors Q6—Q9
`have their collectors connected respectively to pins 10,
`11, 16 and 14 of display 22. Their emitters are hooked
`together to — 15 volts unregulated. Thedbases of transis-
`tors Q6—Q9 are connected through R54—R57, respec-
`tively, through R587361, respectively, to —— 15 volts,
`and to pins 24 (R3)—21 (R0) of microprocessor 66. Pin 21
`of microprocessor 26 is also connected‘through resistor
`
`25
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`:35
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`40
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`4s
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`Pins 5 (CD—pin 13 (C9) of capacitive interface 80 are
`connected to keyboard 21 to pads “Clear Entry" and
`“Reset”, “Start” and “Select Heat”, “Memory” and
`“Select Time”, “High Heat” and “Clock", “0” and “5",
`“1” and “6”, “2n and “9”, “3” and “8”, and “4” and “911’
`respectively. The selection of one pad of the pair' of two
`is accomplished through the Q11—Q12 transistor cir—
`cuits.
`
`Speaker 70 is connected at one terminal to 0 volts and
`at the other through resistor R63 to the emitter of tran-
`sistor Q10 whose collector is cennected to a — 15 volt
`unregulated supply. The base of transistor Q10 is con-
`nected through resistor R62 to the output of inverter. 60
`which inverts the output. of AND circuit 59. AND
`circuit 59 has one; input connected to pin 24 (R3) of
`microprocessor 66 and the other input to AND circuit
`59 is connected to pin 22 (R1 ) of microprocessor 66,
`Pins 5, 6, 7 and 8 (K1,,K2, K4, K3) of microprocessor
`66 are connected to pins 1, 2, 3 and 4, respectively (K1,
`K2, K4, K3) of capacitive interface 80. Pins 14 (F1) and
`17 (me) of interface 80 are'connected to the output of
`comparator 51 and to 0 volts through R69 and —.15
`volts through R70; respectively.
`'
`A read-only memory: (ROM) controls the operation
`of microprocessor 66. The ROM has permanent instruc-
`tions set therein. The following listing represents the
`Page Address (PAD) in hexidecimal, the absolute ad-
`dress (LOC) in hexidecimal, and the objects code,
`in
`binary notation.
`
`'
`
`PAD
`
`000
`001
`003
`007
`00F
`01F
`03F
`03E
`030
`030
`037
`02F
`01F
`030
`039
`
`Loc, OBJECT CODE
`
`003 -0100 0000
`004
`00100011
`00:
`10 111111.
`010
`0101 0010
`03:
`10 111101
`03F
`00101111
`03E
`00000010
`039
`00001010.
`036
`001111 00
`02E
`00100001"
`01E
`00001010
`030
`00001101
`038
`0101 0000
`031
`10 110011
`025
`10 110101
`
`55
`
`60
`
`65
`
`PAD
`
`033
`027
`
`00E
`010
`03A
`035
`020
`016
`020
`
`018
`030
`021
`002
`005
`
`Lo:
`
`OBJECT CODE
`
`005‘ 0101 1000
`010
`10 011101
`
`10 011011
`030
`0101 0100
`037
`10 000110
`029
`00100011'
`016
`0100 1111
`020
`018. 00001001
`032
`10 010111
`
`0111 0000
`020
`'10 000101
`001
`005 .001101 01
`000
`10 010011
`014
`001101 00
`
`.
`
`.”'
`
`14
`
`14
`
`
`
`000
`017
`020
`010
`038
`031
`023
`006
`000
`010
`030
`020
`011
`034
`029
`012
`024
`003
`011
`022
`
`004
`009
`013
`
`026M'
`00C
`019
`032
`025
`00A
`015‘
`02A
`014
`028
`010
`020
`000
`
`001
`003
`007
`00F
`01F
`03F
`035
`030
`030
`037
`02F
`01E
`03:
`039
`033
`027
`000
`010
`03A
`035
`023
`
`7
`10 010011
`001110.00
`10 010011
`001110 01
`10 010011
`00011100
`
`10 000000
`0101 1100
`10 101101
`00011000
`10 000000
`
`0101‘1010
`10 100110
`00100011
`0100 1011
`00001001
`10 101010
`001110 01
`10 010011
`001100 01
`001110 11
`10 001010
`00100100
`00001100
`00101011
`0101 0001
`10'000111
`10 000000
`
`00010111
`.10 100101
`00011000
`001110 01
`10 111001
`
`00010000
`10 010011
`00100011
`0100 1111
`00001001
`'10 111110‘
`001101 11
`00010000
`
`10 010011
`001110 11
`10 011111
`00010110
`001100 11
`00100100
`00001100
`10 000000
`001101 01
`0100 1010
`00001100
`
`00011111
`11 011101
`00011100
`11 110110
`0100 1011
`
`020
`01F
`03A
`030
`021
`000
`000
`013
`034
`02F
`019
`035
`023
`011
`025
`000
`012
`023
`007
`001
`013
`024*
`00F
`01A
`033
`027
`009
`015
`028
`017
`02A
`010
`022
`000
`002
`043
`044
`04C
`05C
`07C
`07F
`07E
`079
`076
`06E
`05E
`070
`078
`071
`060
`045
`050
`078
`077
`069
`056
`060
`
`8
`001110 01
`10 100001
`00010000
`10 000000
`001101 01
`00010111
`10 000000
`0100 1001
`0110 0000
`0100 0111
`001110 01
`10 011000
`001110 11
`10 001000
`0110 0001
`0100 0011
`0110 1010
`0100 0010
`00010001
`001110 00
`10 110001
`001110 10
`10 001101
`10 101110
`7001110 10
`10 000100
`10 000110
`0110 0001
`0100 0011
`0110 1010‘
`00011110
`10 111010
`0100 0010
`001101 11
`001111 10
`001101 11
`001111 01
`001101 11
`001111_11
`001101 11
`00001111
`10 011000
`
`0100.0000
`001111 10
`00100001
`001111 00
`00100000
`0101 0110
`10 000001
`00001111
`0100 0000
`001111 01
`00100001
`001111 00
`00100000
`0101 0110
`10 111011
`
`4,328,408
`
`016
`020
`010
`030
`021
`002
`005
`003
`017
`
`025
`010
`033
`031
`023
`005
`000
`013'
`036
`02?
`01A
`034
`029
`012
`024
`008
`011
`022
`004
`009
`013
`026
`00C
`019
`032
`025
`00A
`015
`02A
`014
`028
`010
`020
`000
`001
`003
`007
`00F
`01F
`03F
`03E
`030
`038
`037
`02F
`01E
`03C
`039
`
`" 058
`072
`, 060
`1041
`045
`040
`054
`06:
`
`05F
`'07A
`070
`061
`046
`040
`053
`074
`06:
`059
`075
`068
`051
`065
`048
`052
`063
`047
`04A
`053
`064
`04:
`05A
`073
`067
`049
`055
`068
`057
`06A
`050
`062
`040
`042
`083
`084
`080
`090
`08:
`OBF
`OBE
`089
`086
`OAF
`09E
`OR)
`088
`031
`0A6
`
`10
`
`15
`
`20
`
`25
`
`30
`
`35
`
`40
`
`45
`
`50
`
`55
`
`60
`
`65
`
`15
`
`15
`
`
`
`9
`00001111>
`0100 0000
`001111 11
`00100001
`001111 00
`00100000
`0101 0110
`10 001110
`00001111
`
`010010000
`001111 00
`00100001
`001111 10
`0101 0001
`10 100011
`0100 1010
`00000011
`0100 0010
`001101 11
`00001111
`00100000
`10 110000
`0100 0000
`001111‘00
`00100001
`001111 01
`0101 0001
`10 100010
`0100 1010
`00000011
`0100 0010
`'001101 11
`00001111
`00100000
`10 011011
`0100 0000'
`001111 00
`00100001
`001111 11
`0101 0001
`10 101000
`0100 1010
`00000011
`0100 0010
`001101 11
`00001111
`00100000
`10 010011
`00100100
`00001100
`00101011
`00001101
`00001101
`00001100
`00101100
`00001101
`00001101
`00001100
`
`08E‘
`090
`088
`087
`0A9
`096
`0A0
`.098
`082
`0A0
`081
`085
`088
`094
`OAC
`09F
`08A
`080
`0&1
`086
`083
`098
`084
`OAF
`099
`085
`0A8
`091
`0A5
`088
`092
`0A3
`087
`08A
`093
`0A4
`08F
`09A
`083
`CA?
`089
`095
`GAR
`097
`0AA
`O90
`0A2
`080
`0C3
`004
`CC:
`00C
`OFC
`OFF
`OFF
`OF9
`0FB
`OEE
`
`033
`027
`00E
`010
`03A
`035
`028
`016
`02C
`018
`030
`021
`002
`005
`008
`017
`02E
`01C
`038
`031
`023
`006
`000
`018
`036
`020
`01A
`034
`029
`012
`024
`008
`011
`022
`004
`009
`013
`026
`OOC
`019
`032
`025
`00A
`015
`02A
`014
`028
`010
`000
`001
`003
`007
`00F
`01F
`03F
`03E
`030
`038
`
`10
`00001001
`10 111001
`00010000
`10 000000
`'00001000
`00001110
`0101 0000
`10 001101
`0100 1111
`001100 00
`11 110110
`00010010
`00000101
`10 000011
`00100100
`00011001
`00101011
`10 001000
`00011000
`00101011
`10 001011
`00011110
`00101011
`10 000000
`00010011
`00101011
`10 000100
`0100 1111
`001100 01
`0100 0101
`0110 1111
`0110 1111
`00001111
`00010010
`00000101
`10 000000
`00100100
`00011111
`00101011
`10 000100
`00010111
`00101011
`10 000101
`00011110
`00101011
`10 010011
`00010111
`00101011
`10 000000
`00000011
`001111 00
`00011010
`11 011010
`10 011110
`00000110
`00000111
`0100 0111
`001110 00
`
`00E
`OFD
`0FB-
`OF1
`0E6
`OCE
`000
`0FB
`OFT
`0E9
`006
`OED
`008
`OF?
`0E0
`0C1
`0C5
`OCB
`004
`0E0
`00F
`OFA
`0F0
`0E1
`006
`0C0
`008
`0F4
`0EF
`009
`0F5
`0E8
`001
`0E5
`008
`002
`0E3
`0C7
`OCA
`003
`064
`DEF
`00A
`0F3
`0E7
`0C9
`005
`0E8
`007
`DEA
`000
`0E2
`0C0
`0C2
`103
`104
`1°C
`110
`
`4,328,408
`
`037
`02F
`01E
`03C
`039
`033
`027
`00E
`010
`03A
`035
`028
`015
`02C
`018
`030
`021
`002
`005
`008
`017
`02E
`015
`038
`031
`023
`006
`000
`018
`036
`020
`01A
`03%
`029
`012
`024
`008
`011
`022
`004
`009
`013
`026
`00C
`019
`032
`025
`00A
`015
`02A
`014
`028
`010
`020
`000
`001
`003
`007
`
`10
`
`15
`
`20
`
`25
`
`30
`
`35
`
`40
`
`45
`
`50
`
`55
`
`60
`
`65
`
`16
`
`16
`
`
`
`00F
`01F
`03F
`035
`030
`038
`037
`02F
`01E
`03C
`1039
`033
`027
`00E
`010
`03A
`035
`OZB
`016
`02C
`018
`030
`021
`002
`005
`003
`017
`02E
`01C
`038
`031
`023
`006
`000
`018
`036
`020
`010
`034
`029
`012
`024
`008
`011
`022
`004
`009
`013
`026
`00C
`019
`032
`025
`00A
`015
`02A
`014
`028
`
`130
`13F
`13E
`139
`136
`12E
`11E
`130
`138
`131
`126
`10E
`110
`133
`137
`129
`116
`120
`118
`132
`120
`101
`105
`'1OR
`114
`120
`11F
`13A
`130
`121
`106
`100
`110
`134
`12F
`119
`135
`128
`111
`125
`108
`112
`123
`107
`10A
`113
`124
`10F
`11A‘
`133
`127
`109
`115
`128
`117
`12A
`110
`122
`
`11
`
`10 111100
`001110 10
`10 010111
`001110 11
`10 101111
`001110 01
`10 010111
`00010000
`10 000000
`0100 1001
`001110 00
`10 101111
`0110 1000
`0100 0010
`001110 01
`10 100001
`001110 10
`10 000101
`001111 10
`0103 1010
`00011100
`10 101010
`001111 11
`10 101100
`001111 01
`10 101100
`0100 1001
`00100110
`10 011010
`0111 0000
`10 101111
`001100 00
`00010111
`11 111010
`0100 0000
`00000011
`10 101111
`001110 10
`10 100100
`001100 10
`10 010101
`001110 01
`10 000100
`001100 01
`10 010101
`001110 11
`10 101111
`001100 11
`0100 0111
`001110 01
`10 010101
`0100 1011
`001110 10
`10 101111
`0100 0000
`00101110
`00101011
`0101 0010
`
`100
`102
`
`143
`144
`14:
`15c
`17:
`
`.17F
`17F
`179
`176
`16E
`15E
`17D
`17%
`171
`166
`14E
`150
`178
`177
`169
`156
`16)
`158
`172
`160
`141
`145
`148
`154
`16:
`15F
`17A
`170
`161
`146
`143
`158
`174
`16F
`159
`175
`168
`151
`165
`148
`152
`163
`147
`14A
`153
`164
`14F
`15A
`173
`167
`
`12
`10 101010
`10 101111
`
`0100 0011
`001111 10
`00100001
`00101011
`
`00101011
`00101011
`
`00101011
`001111 00
`00000011
`00101100
`00101100
`00101100
`0101 0000
`10 000001
`00001111
`0100 1100
`001111 00
`
`1
`
`00100001
`00101100
`00101100
`00101100
`00101100
`001111 10
`00100000
`00101011
`00101011 ,
`0101 1111
`10 100111
`00001111
`001111 11
`00100001
`00101011
`00101011
`00101011”
`001111 00
`00000011
`00101100
`00101100
`0101 0000
`10 001011
`00001111
`0100 1010
`0110 0000
`0110 0000
`-0110 0000
`00000011
`0100 1010
`001100 00
`00000111
`10 010011
`10 100000
`001100 10
`00000111
`10 110010
`10 100300
`
`43328,408
`
`010
`020
`
`000
`001
`003
`007
`00F
`01F
`03F
`03E
`030
`038
`037
`02F
`01E
`03C
`039
`033
`027
`00E
`010
`03A
`035
`028
`016
`02:
`018
`030
`021
`002
`005
`003
`017
`025
`010
`038
`031
`023
`006
`000
`018
`036
`020
`01A
`034
`029
`012
`024
`008
`011
`022
`004
`009
`013
`026
`00C
`019
`
`10
`
`15
`
`20
`
`25
`
`30
`
`35
`
`40
`
`45
`
`50
`
`55
`
`60
`
`65
`
`17
`
`17
`
`
`
`032
`025
`00A
`015
`02A
`014
`028
`010
`020
`000
`001
`
`003
`007
`00F
`01F
`03F
`03E
`030
`035
`037
`02F
`01E
`03c
`039
`033
`027
`005
`010
`031
`035
`020
`016
`020
`018
`030
`021
`002
`005
`000
`017
`025
`010
`038
`031
`023
`006
`000
`010
`036
`020
`01A
`034
`029
`012
`024
`000
`011
`022
`
`149
`155
`168
`157
`16A
`150
`162
`140
`142
`183
`184
`18C
`19C
`18:
`18F
`18E
`189
`136
`1A5
`19E
`18)
`188
`
`131
`1A6
`186
`190
`183
`187
`1A9
`196
`1A0
`198
`182
`1A0
`181
`185
`188
`194
`1AC
`19F
`18A
`180
`1A1
`185
`180
`193
`[B4
`IAF
`199
`185
`[AB
`191
`1A5
`188
`192
`1A3
`18?
`18A
`
`13
`001100 01
`00000111
`10 101010
`»10'100000
`001100 11
`00101011
`00000111
`10 0100011
`00001111
`0100 0001
`001111 10
`00101000
`0111 1010
`10 010101
`0110 0000
`00101000
`001111g00
`0100 0011
`001110 10
`
`10 010110
`00011001
`11 000110
`00001110
`00101001-
`10 101011~
`0111 0101
`10 1110102'
`10 101011
`0100 0101
`00001100
`00000111
`
`001111 10
`0100 1001
`0111.1001
`10 010101
`0110,0000
`00101000
`
`0111 1001‘;
`10 010001‘
`0110 0000
`00101000
`0111 1010
`
`,10 010001,
`0101 1011
`10 100001
`011000000
`0100 1111
`00101000
`10 010011
`0100 0111
`00101000
`0111 0100
`10 010001
`0110 1000
`0110 1111
`10 100010
`00000011
`00001111
`
`193
`1A4
`18F
`19A
`183
`1A7
`189
`195
`[AB
`197
`[AA
`190
`1A2
`
`1C3
`1C4
`ICC
`10C
`IFC
`1F:
`1FE
`1F9
`1F6
`15E
`10E
`[FD
`1F8
`1F1
`1E6
`ICE
`100
`1FB
`1F7
`1E9
`106
`1E0
`108
`1F2
`1E0
`1C1
`1C5
`1GB
`104
`160
`10F
`1FA
`1F0
`1E1
`1C6
`103
`108
`1F4
`1EF
`109
`1FE
`1E8
`101
`1E5
`
`14
`00011011
`10 000011
`0100 0111
`00101000
`0111 1001
`10 010001
`0110 0000
`0110 1000
`10 100010
`00000011
`
`00001111
`00010000
`10 000000
`
`0100 0111
`001110 11
`10 111101
`0110 0000
`
`00011010 _
`11 110011
`00010000
`10 000000
`£0100 0011
`0110 0000
`001110 01
`10 111111
`0100 0111
`001110 10
`10 011101
`0110 0001
`00010001
`10 111001
`
`0110 0001,
`0100 1011
`001110 10
`10 101110
`0100 1000
`00101000
`10 000100
`0111 0110
`10 000100
`0100 0111
`0110 0101
`00010011
`10 000100
`0100 0000
`00100110
`10 001101
`0100 1000
`00101000
`10 000100
`0100 0100
`00100001
`0111 1000
`10 000100
`.0111 0100
`10 010010
`10 000010
`
`1&32&408
`
`004
`009
`013
`026
`00C
`019
`032
`025
`00A
`015
`02A
`014
`028
`
`000
`001
`003
`007
`00F
`01F
`03F
`03E
`030
`038
`037
`02F
`01E
`03C
`039
`033
`027
`00E
`010
`03A
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