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�±15kV� ESD-Protected� Touch-Screen�
�Controllers� Include� DAC� and� Keypad� Controller�
�Battery� Voltage,� Auxiliary� Input,� and�
�Temperature� Input� Scan�
�Use� this� scan� to� make� periodic� measurements� of� both�
�battery� inputs,� both� auxiliary� inputs,� and� both� tempera-�
�ture� inputs.� The� respective� data� registers� have� the� lat-�
�est� results� at� the� end� of� each� cycle.� Thus,� a� single� write�
�by� the� host� to� the� MAX1233/MAX1234� ADC� control� reg-�
�ister� results� in� six� different� measurements� being� made.�
�Figure� 20� shows� this� scan� operation.�
�Touch-Initiated� Screen� Scans�
�(PENSTS� =� 1;� ADSTS� =� 0)�
�In� the� touch-initiated� screen-scan� mode,� the�
�MAX1233/MAX1234� automatically� perform� a� touch-�
�screen� scan� upon� detecting� a� screen� touch.� The� touch-�
�screen� scans� performed� are� determined� by� the�
�[A/D3:A/D0]� written� to� the� ADC� control� register.� Figure�
�21� shows� the� flowchart� for� a� complete� touch-initiated� X-�
�and� Y-� coordinate� scan.� Selection� of� resolution,� conver-�
�sion� rate,� averaging,� and� touch-screen� settling� time�
�determine� the� overall� conversion� time.�
�Figure� 22� shows� the� complete� flowchart� for� a� touch-�
�initiated� X,� Y,� and� Z� scan.�
�Table� 38� shows� ADSTS� Bit� Operation.�
�Host-Initiated� Screen� Scans�
�(PENSTS� =� ADSTS� =� 0)�
�In� this� mode,� the� host� processor� decides� when� a� touch-�
�screen� scan� begins.� The� MAX1233/MAX1234� detect� a�
�screen� touch� and� drive� PENIRQ� LOW.� The� host� recog-�
�nizes� the� interrupt� request� and� can� choose� to� write� to�
�the� ADC� control� register� to� select� a� touch-screen� scan�
�function� (PENSTS� =� ADSTS� =� 0).� Figures� 23� and� 24�
�show� the� process� of� a� host-initiated� screen� scan.�
�Key-Press� Initiated� Debounce� Scan�
�(KEYSTS1� =� 1,� KEYSTS0� =0)�
�In� the� key-press� initiated� debounce� mode,� the�
�MAX1233/MAX1234� automatically� perform� a� debounce�
�upon� detecting� a� key� press.� Key� scanning� begins� once�
�a� key� press� has� been� detected� and� ends� when� a� key�
�press� has� been� debounced� (Figures� 25� and� 9a).�
�Host-Initiated� Debounce� Scan�
�In� this� mode,� the� host� processor� decides� when� a�
�debounce� scan� begins.� The� MAX1233/MAX1234� detect�
�a� key� press� and� drive� KEYIRQ� low.� The� host� processor�
�recognizes� the� interrupt� request� and� can� choose� to�
�write� to� the� keypad� control� register� to� initiate� a�
�debounce� scan� (Figures� 26� and� 9b).�
�Keypad� Debouncing�
�Keys� are� debounced� either� when� (1)� a� key� press� has�
�been� detected,� or� (2)� when� commanded� by� the� host� MPU.�
�The� keys� scanned� by� the� keypad� row� and� column� pins�
�are� debounced� for� a� period� of� time� (debounce� period)�
�as� determined� by� bits� [DBN2:DBN0]� of� the� keypad� con-�
�trol� register.�
�The� keypad� controller� continues� scanning� until� the� keypad�
�stays� in� the� same� state� for� an� entire� debounce� period.�
�Keypad� Data�
�Keypad� data� can� be� read� out� of� either� the� keypad� data�
�status� register� (maskable),� or� the� keypad� data� pending�
�register� (not� maskable).� The� keypad� mask� register� is�
�used� to� mask� individual� keys� in� the� keypad� data� status�
�register.�
�GPIO� Control�
�Write� to� bits� [GP7:GP0]� of� the� GPIO� control� register� to�
�configure� one� or� more� of� the� R_/C_pins� as� a� GPIO� pin.�
�Write� to� bits� [OE7:OE0]� of� the� GPIO� control� register� to�
�configure� the� pins� as� an� input� or� an� output.� GPIO� data�
�can� be� read� from� or� written� to� the� GPIO� data� register.� A�
�read� returns� the� logic� state� of� the� GPIO� pin.� A� write� sets�
�the� logic� state� of� a� GPIO� output� pin.� Writing� to� a� GPIO�
�input� pin� has� no� effect.�
�GPIO� Pullup� Disable� Register�
�When� programmed� as� GPIO� output,� by� default,� the�
�GPIO� pins� are� active� CMOS� outputs.� Write� a� 1� to� the�
�pullup� disable� register� to� configure� the� GPIO� output� as�
�an� open-drain� output.�
�Using� the� 8-Bit� DAC� for� LCD/TFT�
�Contrast� Control�
�Design� Example:�
�The� 8-bit� DAC� offers� the� ability� to� control� biasing� of�
�LCD/TFT� screens.� In� the� circuit� of� Figure� 27,� it� is�
�desired� to� have� the� MAX1677� DC-DC� converter’s� V� OUT�
�to� be� adjustable.�
�The� minimum� and� maximum� DAC� voltages� (V� DAC(HIGH)�
�and� V� DAC(LOW)� )� can� be� found� in� the� Electrical�
�Characteristics� table.�
�The� output� voltage� of� the� MAX1677� (V� OUT� )� can� be� cal-�
�culated� by� noting� the� following� equations:�
�V� OUT� =� V� REFDAC� +� i� 1� R1� [Equation� 1]�
�i� 1� =� i� 2� +� i� 3� [Equation� 2]�
�i� 2� =� V� REFDAC� /� R2� [Equation� 3]�
�i� 3� =� (V� REFDAC� -� V� DAC� )� /� R3� [Equation� 4]�
�Substituting� equations� 2,� 3,� and� 4� into� equation� 1�
�yields:�
�V� OUT� =� V� REFDAC� +� (R1� /� R2)� V� REF� +� (R1� /� R3)�
�(V� REFDAC� -� V� DAC� )� [Equation� 5]�
�34�
�______________________________________________________________________________________�
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MAX1234EVKIT
制造商:Maxim Integrated Products 功能描述:+15KV ESD-PROTECTED TOUCH-SCREEN CO - Rail/Tube
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MAX1236EVKIT
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