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参数资料
| 型号: | NCP1650DR2 |
| 厂商: | ON Semiconductor |
| 文件页数: | 20/31页 |
| 文件大小: | 0K |
| 描述: | IC CTRLR PWR FACTOR PWM 16SOIC |
| 标准包装: | 1 |
| 模式: | 连续导电(CCM),间歇导电(DCM) |
| 频率 - 开关: | 100kHz |
| 电源电压: | 10 V ~ 20 V |
| 工作温度: | -40°C ~ 125°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 16-SOIC(0.154",3.90mm 宽) |
| 供应商设备封装: | 16-SOIC |
| 包装: | 标准包装 |
| 其它名称: | NCP1650DR2OSDKR |
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��
�
�NCP1650�
�Iout� =� (Vref� ?� Vin)� ·� =�
�Error� Amplifiers�
�The� NCP1650� has� three� error� amplifiers.� These� amplifiers�
�regulate� the� DC� output� voltage,� the� maximum� output� power,�
�and� shape� the� AC� reference� fullwave� rectified� sinewave�
�signal.�
�All� three� of� these� are� transconductance� amplifiers.�
�Transconductance� amplifiers� differ� from� voltage� amplifiers�
�in� that� the� output� is� a� high� impedance� with� a� controlled�
�voltage--to--current� gain� (i.e.� the� output� current� is�
�proportional� to� the� differential� input� voltage).� The� gain� of� a�
�transconductance� amplifier� is� determined� by� the� equation:�
�Av� =� gm� RL�
�Voltage Error Amplifier� The� voltage� loop� has� a� low�
�amplifier� does� not� contain� a� boost� circuit,� and� has� a� constant�
�transconductance� across� its� operating� range.�
�Voltage� and� Power� ORing� Network�
�The� ORing� network� for� the� voltage� and� power� amplifiers�
�are� inverting� transconductance� amplifiers.� The� network� uses�
�an� internal� reference� of� approximately� 3.0� volts.� Its� gain� is:�
�4� 3 V� ?� Vin�
�12.5� k� 3,125�
�Where� the� 12.5� k� is� the� internal� resistor,� and� 4� is� the� gain�
�of� the� current� mirror.�
�VOLTAGE�
�+�
�bandwidth� amplifier,� which� is� referred� to� simply� as� “Error�
�Amp”� on� the� block� diagram.� This� amplifier� compares� the�
�output� DC� voltage� to� the� 4.0� volt� reference� and� generates� an�
�error� signal� which� is� used� to� adjust� the� AC� reference� voltage�
�from� the� reference� multiplier.�
�FB/SD�
�6�
�--�
�AMP�
�CURRENT�
�MIRROR�
�i�
�3.0� V�
�4� i�
�The� voltage� error� amplifier� has� a� nominal� gain� of�
�100� umhos� (or� 0.0001� amps/volt).� This� means� that� an� input�
�voltage� differential� of� 10� mv� would� cause� the� output� current�
�to� change� by� 1.0� m� A.� The� maximum� output� current� for� this�
�amplifier� in� its� normal� operating� range� is� 50� m� A.�
�This� amplifier� is� a� switched� gain� transconductance�
�+�
�--�
�8�
�COMP�
�V� in�
�POWER�
�AMP�
�12.5� k�
�To�
�Reference�
�Multiplier,�
�Input� a�
�amplifier,� that� increases� the� output� current� (or� gain)� when�
�the� differential� input� voltage� exceeds� the� reference� voltage�
�by� +6%� or� --8%� the� output� current� is� increased� to� 250� or�
�–300� m� A� respectively.� This� boost� circuit� allows� for� rapid�
�changes� to� line� or� load� transients� by� increasing� the� dv/dt� of�
�the� output� capacitance� of� the� amplifier.�
�Power Error Amplifier� The� power� loop� has� a� low�
�bandwidth� error� amplifier� which� is� referred� to� as� the� “Power�
�Amp”.� This� amplifier� performs� a� similar� function� to� the�
�Error� Amp,� only� it� generates� an� error� signal� that� holds� the�
�power� to� a� constant� level.�
�The� power� error� amplifier� has� a� nominal� gain� of�
�100� umhos� (or� 0.0001� amps/volts).� The� maximum� output�
�current� for� this� amplifier� in� its� normal� operating� range� is�
�20� m� A.� It� is� also� a� switched� gain� transconductance� amplifier�
�similar� to� the� voltage� error� amplifier,� however,� the�
�thresholds� are� different.�
�AC Error Amplifier� The� third� error� amplifier,� is� the� “AC�
�error� amp”.� It� requires� a� higher� bandwidth� than� the� voltage�
�or� power� error� amplifiers.� This� amplifier� forces� a� signal�
�which� is� the� sum� of� the� current� and� input� voltage� to� equal� the�
�AC� reference� signal� from� the� reference� multiplier.�
�The� AC� error� amplifier� has� a� nominal� gain� of� 100� umhos�
�(or� 0.0001� amps/volt).� The� maximum� output� current� for� this�
�amplifier� in� its� normal� operating� range� is� 20� m� A.� This�
�Figure� 37.� Voltage/Power� ORing� Network�
�The� amplifier� (voltage� or� power)� with� the� highest� output�
�voltage� will� control� the� loop,� as� the� buffer� transistor� from� the�
�other� amplifier� will� be� in� cutoff.� As� the� output� voltage� of� an�
�amplifier� increases,� it’s� contribution� to� the� current� sink� will�
�increase,� and� the� current� driving� the� current� mirror� will�
�decrease,� thus� the� output� of� the� current� mirror� will� decrease.�
�The� current� mirror� output� feeds� the� analog� (a)� input� to� the�
�reference� multiplier.�
�Overvoltage� Comparator�
�For� a� load� transient,� in� which� the� current� is� suddenly�
�reduced,� the� output� voltage� will� overshoot.� This� circuit,� will�
�minimize� the� overshoot,� and� effectively� decrease� the�
�response� time� of� the� loop.�
�A� comparator� is� provided� to� monitor� the� feedback� voltage�
�and� shut� down� the� PWM� in� the� event� that� the� output� exceeds�
�8%� of� the� designed� output� voltage.� The� feedback� voltage� is�
�supplied� to� this� comparator� from� pin� 6,� which� is� the� same�
�signal� that� the� voltage� error� amplifier� uses� to� regulate� the� DC�
�voltage� loop.�
�http://onsemi.com�
�20�
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