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参数资料
| 型号: | NCV494BDR2G |
| 厂商: | ON Semiconductor |
| 文件页数: | 6/14页 |
| 文件大小: | 0K |
| 描述: | IC REG CTRLR PWM VM 16-SOIC |
| 标准包装: | 1 |
| 系列: | SWITCHMODE™ |
| PWM 型: | 电压模式 |
| 输出数: | 1 |
| 频率 - 最大: | 200kHz |
| 占空比: | 50% |
| 电源电压: | 7 V ~ 40 V |
| 降压: | 无 |
| 升压: | 无 |
| 回扫: | 无 |
| 反相: | 无 |
| 倍增器: | 无 |
| 除法器: | 无 |
| Cuk: | 无 |
| 隔离: | 无 |
| 工作温度: | -40°C ~ 125°C |
| 封装/外壳: | 16-SOIC(0.154",3.90mm 宽) |
| 包装: | 剪切带 (CT) |
| 其它名称: | NCV494BDR2GOSCT |
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�
�TL494,� NCV494�
�APPLICATIONS� INFORMATION�
�Description�
�The� TL494� is� a� fixed?frequency� pulse� width� modulation�
�control� circuit,� incorporating� the� primary� building� blocks�
�required� for� the� control� of� a� switching� power� supply.� (See�
�Figure� 1.)� An� internal?linear� sawtooth� oscillator� is�
�frequency?� programmable� by� two� external� components,� R� T�
�and� C� T� .� The� approximate� oscillator� frequency� is� determined�
�by:�
�common� mode� input� range� from� ?0.3� V� to� (V� CC� ?� 2V),� and�
�may� be� used� to� sense� power?supply� output� voltage� and�
�current.� The� error?amplifier� outputs� are� active� high� and� are�
�ORed� together� at� the� noninverting� input� of� the� pulse?width�
�modulator� comparator.� With� this� configuration,� the�
�amplifier� that� demands� minimum� output� on� time,� dominates�
�control� of� the� loop.�
�When� capacitor� C� T� is� discharged,� a� positive� pulse� is�
�generated� on� the� output� of� the� deadtime� comparator,� which�
�f� osc� ≈�
�1.1�
�R� T� ?� C� T�
�clocks� the� pulse?steering� flip?flop� and� inhibits� the� output�
�transistors,� Q1� and� Q2.� With� the� output?control� connected�
�For� more� information� refer� to� Figure� 3.�
�Output� pulse� width� modulation� is� accomplished� by�
�comparison� of� the� positive� sawtooth� waveform� across�
�capacitor� C� T� to� either� of� two� control� signals.� The� NOR� gates,�
�which� drive� output� transistors� Q1� and� Q2,� are� enabled� only�
�when� the� flip?flop� clock?input� line� is� in� its� low� state.� This�
�happens� only� during� that� portion� of� time� when� the� sawtooth�
�voltage� is� greater� than� the� control� signals.� Therefore,� an�
�increase� in� control?signal� amplitude� causes� a� corresponding�
�linear� decrease� of� output� pulse� width.� (Refer� to� the� Timing�
�Diagram� shown� in� Figure� 2.)�
�The� control� signals� are� external� inputs� that� can� be� fed� into�
�the� deadtime� control,� the� error� amplifier� inputs,� or� the�
�feedback� input.� The� deadtime� control� comparator� has� an�
�effective� 120� mV� input� offset� which� limits� the� minimum�
�output� deadtime� to� approximately� the� first� 4%� of� the�
�sawtooth?cycle� time.� This� would� result� in� a� maximum� duty�
�cycle� on� a� given� output� of� 96%� with� the� output� control�
�grounded,� and� 48%� with� it� connected� to� the� reference� line.�
�Additional� deadtime� may� be� imposed� on� the� output� by�
�to� the� reference� line,� the� pulse?steering� flip?flop� directs� the�
�modulated� pulses� to� each� of� the� two� output� transistors�
�alternately� for� push?pull� operation.� The� output� frequency� is�
�equal� to� half� that� of� the� oscillator.� Output� drive� can� also� be�
�taken� from� Q1� or� Q2,� when� single?ended� operation� with� a�
�maximum� on?time� of� less� than� 50%� is� required.� This� is�
�desirable� when� the� output� transformer� has� a� ringback�
�winding� with� a� catch� diode� used� for� snubbing.� When� higher�
�output?drive� currents� are� required� for� single?ended�
�operation,� Q1� and� Q2� may� be� connected� in� parallel,� and� the�
�output?mode� pin� must� be� tied� to� ground� to� disable� the�
�flip?flop.� The� output� frequency� will� now� be� equal� to� that� of�
�the� oscillator.�
�The� TL494� has� an� internal� 5.0� V� reference� capable� of�
�sourcing� up� to� 10� mA� of� load� current� for� external� bias�
�circuits.� The� reference� has� an� internal� accuracy� of� $� 5.0%�
�with� a� typical� thermal� drift� of� less� than� 50� mV� over� an�
�operating� temperature� range� of� 0� °� to� 70� °� C.�
�500� k�
�setting� the� deadtime?control� input� to� a� fixed� voltage,�
�ranging� between� 0� V� to� 3.3� V.�
�100� k�
�C� T� =� 0.001� m� F�
�V� CC� =� 15� V�
�Functional� Table�
�Input/Output�
�Controls�
�Grounded�
�@� V� ref�
�Output� Function�
�Single?ended� PWM� @� Q1� and� Q2�
�Push?pull� Operation�
�f� out�
�f� osc� =�
�1.0�
�0.5�
�10� k�
�1.0� k�
�0.01� m� F�
�0.1� m� F�
�The� pulse� width� modulator� comparator� provides� a� means�
�500�
�1.0� k� 2.0� k� 5.0� k�
�10� k� 20� k� 50� k� 100� k� 200� k�
�500� k� 1.0� M�
�for� the� error� amplifiers� to� adjust� the� output� pulse� width� from�
�the� maximum� percent� on?time,� established� by� the� deadtime�
�control� input,� down� to� zero,� as� the� voltage� at� the� feedback�
�pin� varies� from� 0.5� V� to� 3.5� V.� Both� error� amplifiers� have� a�
�http://onsemi.com�
�6�
�R� T,� TIMING� RESISTANCE� (� W� )�
�Figure� 3.� Oscillator� Frequency� versus�
�Timing� Resistance�
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