参数资料
| 型号: | CS8221YDPR3G |
| 厂商: | ON Semiconductor |
| 文件页数: | 4/7页 |
| 文件大小: | 0K |
| 描述: | IC REG LDO 5V .1A D2PAK-3 |
| 产品变化通告: | Product Obsolescence 19/Dec/2008 |
| 标准包装: | 750 |
| 稳压器拓扑结构: | 正,固定式 |
| 输出电压: | 5V |
| 输入电压: | 6 V ~ 26 V |
| 电压 - 压降(标准): | 0.4V @ 100mA |
| 稳压器数量: | 1 |
| 电流 - 输出: | 100mA |
| 电流 - 限制(最小): | 125mA |
| 工作温度: | -40°C ~ 125°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | TO-263-4,D²Pak(3 引线+接片),TO-263AA |
| 供应商设备封装: | D2PAK-3 |
| 包装: | 带卷 (TR) |
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�CS8221�
�CIRCUIT� DESCRIPTION�
�VOLTAGE� REFERENCE� AND� OUTPUT� CIRCUITRY�
�Output� Stage� Protection�
�The� output� stage� is� protected� against� overvoltage,� short�
�circuit� and� thermal� runaway� conditions� (Figure� 3).�
�Should� the� junction� temperature� of� the� power� device�
�exceed� 180� °� C� (typ)� the� power� transistor� is� turned� off.�
�Thermal� shutdown� is� an� effective� means� to� prevent� die�
�overheating� since� the� power� transistor� is� the� principle� heat�
�source� in� the� IC.�
�>� 30� V�
�V� IN�
�V� OUT�
�V� IN�
�V� OUT�
�C� 1� *�
�0.1� m� F�
�CS8221�
�C� 2� **�
�10� m� F�
�GND�
�I� OUT�
�Load� Short� Thermal�
�Dump� Circuit� Shutdown�
�Figure� 3.� Typical� Circuit� Waveforms� for� Output�
�Stage� Protection�
�*C� 1� is� required� if� regulator� is� far� from� the� power� source� filter� .�
�**C� 2� is� required� for� stability.�
�Figure� 4.� Application� and� Test� Diagram�
�If� the� input� voltage� rises� above� 30� V,� the� output� shuts�
�down.� This� response� protects� the� internal� circuitry� and�
�enables� the� IC� to� survive� unexpected� voltage� transients.�
�APPLICATION� NOTES�
�STABILITY� CONSIDERATIONS�
�The� output� or� compensation� capacitor� helps� determine�
�three� main� characteristics� of� a� linear� regulator:� start� ?� up�
�delay,� load� transient� response� and� loop� stability.�
�The� capacitor� value� and� type� should� be� based� on� cost,�
�availability,� size� and� temperature� constraints.� A� tantalum� or�
�aluminum� electrolytic� capacitor� is� best,� since� a� film� or�
�ceramic� capacitor� with� almost� zero� ESR� can� cause�
�instability.� The� aluminum� electrolytic� capacitor� is� the� least�
�expensive� solution,� but,� if� the� circuit� operates� at� low�
�temperatures� (� ?� 25� °� C� to� ?� 40� °� C),� both� the� value� and� ESR� of�
�the� capacitor� will� vary� considerably.� The� capacitor�
�manufacturers� data� sheet� usually� provides� this� information.�
�The� value� for� the� output� capacitor� C� OUT� shown� in� Figure�
�4� should� work� for� most� applications,� however� it� is� not�
�necessarily� the� optimized� solution.�
�To� determine� an� acceptable� value� for� C� OUT� for� a� particular�
�application,� start� with� a� tantalum� capacitor� of� the�
�recommended� value� and� work� towards� a� less� expensive�
�alternative� part.�
�Step� 1:� Place� the� completed� circuit� with� a� tantalum�
�capacitor� of� the� recommended� value� in� an� environmental�
�chamber� at� the� lowest� specified� operating� temperature� and�
�monitor� the� outputs� with� an� oscilloscope.� A� decade� box�
�connected� in� series� with� the� capacitor� will� simulate� the�
�higher� ESR� of� an� aluminum� capacitor.� Leave� the� decade� box�
�outside� the� chamber,� the� small� resistance� added� by� the�
�Step� 2:� With� the� input� voltage� at� its� maximum� value,�
�increase� the� load� current� slowly� from� zero� to� full� load� while�
�observing� the� output� for� any� oscillations.� If� no� oscillations�
�are� observed,� the� capacitor� is� large� enough� to� ensure� a� stable�
�design� under� steady� state� conditions.�
�Step� 3:� Increase� the� ESR� of� the� capacitor� from� zero� using�
�the� decade� box� and� vary� the� load� current� until� oscillations�
�appear.� Record� the� values� of� load� current� and� ESR� that� cause�
�the� greatest� oscillation.� This� represents� the� worst� case� load�
�conditions� for� the� regulator� at� low� temperature.�
�Step� 4:� Maintain� the� worst� case� load� conditions� set� in�
�step� 3� and� vary� the� input� voltage� until� the� oscillations�
�increase.� This� point� represents� the� worst� case� input� voltage�
�conditions.�
�Step� 5:� If� the� capacitor� is� adequate,� repeat� steps� 3� and� 4�
�with� the� next� smaller� valued� capacitor.� A� smaller� capacitor�
�will� usually� cost� less� and� occupy� less� board� space.� If� the�
�output� oscillates� within� the� range� of� expected� operating�
�conditions,� repeat� steps� 3� and� 4� with� the� next� larger� standard�
�capacitor� value.�
�Step� 6:� Test� the� load� transient� response� by� switching� in�
�various� loads� at� several� frequencies� to� simulate� its� real�
�working� environment.� Vary� the� ESR� to� reduce� ringing.�
�Step� 7:� Increase� the� temperature� to� your� highest� operating�
�temperature.� Vary� the� load� current� as� instructed� in� step� 5� to�
�test� for� any� oscillations.�
�longer� leads� is� negligible.�
�http://onsemi.com�
�4�
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