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�ICL8038�
�Neither� time� nor� frequency� are� dependent� on� supply� voltage,�
�even� though� none� of� the� voltages� are� regulated� inside� the�
�integrated� circuit.� This� is� due� to� the� fact� that� both� currents�
�and� thresholds� are� direct,� linear� functions� of� the� supply�
�voltage� and� thus� their� effects� cancel.�
�Reducing� Distortion�
�To� minimize� sine� wave� distortion� the� 82k� Ω� resistor� between�
�pins� 11� and� 12� is� best� made� variable.� With� this� arrangement�
�distortion� of� less� than� 1%� is� achievable.� To� reduce� this� even�
�further,� two� potentiometers� can� be� connected� as� shown� in�
�Figure� 4;� this� configuration� allows� a� typical� reduction� of� sine�
�wave� distortion� close� to� 0.5%.�
�V+�
�Waveform� Out� Level� Control� and� Power� Supplies�
�The� waveform� generator� can� be� operated� either� from� a�
�single� power� supply� (10V� to� 30V)� or� a� dual� power� supply�
�(� ±� 5V� to� ±� 15V).� With� a� single� power� supply� the� average�
�levels� of� the� triangle� and� sine� wave� are� at� exactly� one-half� of�
�the� supply� voltage,� while� the� square� wave� alternates�
�between� V+� and� ground.� A� split� power� supply� has� the�
�advantage� that� all� waveforms� move� symmetrically� about�
�ground.�
�The� square� wave� output� is� not� committed.� A� load� resistor�
�can� be� connected� to� a� different� power� supply,� as� long� as� the�
�applied� voltage� remains� within� the� breakdown� capability� of�
�the� waveform� generator� (30V).� In� this� way,� the� square� wave�
�output� can� be� made� TTL� compatible� (load� resistor�
�connected� to� +5V)� while� the� waveform� generator� itself� is�
�R� A�
�1k� Ω�
�R� B�
�R� L�
�powered� from� a� much� higher� voltage.�
�7�
�8�
�4�
�5�
�ICL8038�
�6�
�9�
�3�
�Frequency� Modulation� and� Sweeping�
�The� frequency� of� the� waveform� generator� is� a� direct� function�
�of� the� DC� voltage� at� Terminal� 8� (measured� from� V+).� By�
�altering� this� voltage,� frequency� modulation� is� performed.� For�
�small� deviations� (e.g.� ±� 10%)� the� modulating� signal� can� be�
�10�
�C�
�11�
�12�
�1�
�2�
�100k� Ω�
�10k� Ω�
�100k� Ω�
�applied� directly� to� pin� 8,� merely� providing� DC� decoupling�
�with� a� capacitor� as� shown� in� Figure� 5A.� An� external� resistor�
�between� pins� 7� and� 8� is� not� necessary,� but� it� can� be� used� to�
�increase� input� impedance� from� about� 8k� Ω� (pins� 7� and� 8�
�10k� Ω�
�V-� OR� GND�
�FIGURE� 4.� CONNECTION� TO� ACHIEVE� MINIMUM� SINE�
�WAVE� DISTORTION�
�Selecting� R� A� ,� R� B� and� C�
�For� any� given� output� frequency,� there� is� a� wide� range� of� RC�
�combinations� that� will� work,� however� certain� constraints� are�
�placed� upon� the� magnitude� of� the� charging� current� for�
�optimum� performance.� At� the� low� end,� currents� of� less� than�
�1� μ� A� are� undesirable� because� circuit� leakages� will� contribute�
�significant� errors� at� high� temperatures.� At� higher� currents�
�connected� together),� to� about� (R� +� 8k� Ω� ).�
�For� larger� FM� deviations� or� for� frequency� sweeping,� the�
�modulating� signal� is� applied� between� the� positive� supply�
�voltage� and� pin� 8� (Figure� 5B).� In� this� way� the� entire� bias� for�
�the� current� sources� is� created� by� the� modulating� signal,� and�
�a� very� large� (e.g.� 1000:1)� sweep� range� is� created�
�(f� =� Minimum� at� V� SWEEP� =� 0,� i.e.,� Pin� 8� =� V+).� Care� must� be�
�taken,� however,� to� regulate� the� supply� voltage;� in� this�
�configuration� the� charge� current� is� no� longer� a� function� of� the�
�supply� voltage� (yet� the� trigger� thresholds� still� are)� and� thus�
�the� frequency� becomes� dependent� on� the� supply� voltage.�
�The� potential� on� Pin� 8� may� be� swept� down� from� V+� by� (� 1� /� 3�
�V� SUPPLY� -� 2V).�
�(I� >� 5mA),� transistor� betas� and� saturation� voltages� will�
�contribute� increasingly� larger� errors.� Optimum� performance�
�will,� therefore,� be� obtained� with� charging� currents� of� 10� μ� A� to�
�R� A�
�R� B�
�R� L�
�V+�
�1mA.� If� pins� 7� and� 8� are� shorted� together,� the� magnitude� of�
�the� charging� current� due� to� R� A� can� be� calculated� from:�
�7�
�4�
�5�
�6�
�9�
�R� 1� ×� (� V+� –� V-� )� 1� 0.22� (� V+� –� V-� )�
�(� R� 1� +� R� 2� )�
�R� A�
�R� A�
�I� =� ----------------------------------------� � --------� =� ------------------------------------�
�R� 1� and� R� 2� are� shown� in� the� Detailed� Schematic.�
�A� similar� calculation� holds� for� R� B� .�
�R�
�FM�
�8�
�10�
�C�
�ICL8038�
�11�
�3�
�12� 2�
�81K�
�The� capacitor� value� should� be� chosen� at� the� upper� end� of� its�
�possible� range.�
�V-� OR� GND�
�FIGURE� 5A.� CONNECTIONS� FOR� FREQUENCY� MODULATION�
�6�
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