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参数资料
| 型号: | SIP4613ADVP-T1-E3 |
| 厂商: | Vishay Siliconix |
| 文件页数: | 4/10页 |
| 文件大小: | 0K |
| 描述: | IC LOAD SW HISIDE 1A SC75-6 |
| 标准包装: | 3,000 |
| 类型: | 高端开关 |
| 输出数: | 1 |
| Rds(开): | 250 毫欧 |
| 内部开关: | 是 |
| 电流限制: | 1A |
| 输入电压: | 2.4 V ~ 5.5 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | PowerPAK? TSC-75-6 |
| 供应商设备封装: | PowerPAK? TSC75-6 |
| 包装: | 带卷 (TR) |
��
�
�SiP4613A,� SiP4613B�
�Vishay� Siliconix�
�DETAILED� DESCRIPTION�
�The� SiP4613A,� SiP4613B� limits� load� current� by� sampling� the�
�pass� transistor� current� and� passing� that� through� an� external�
�resistor,� R� SET� .� The� voltage� across� R� SET� ,� V� SET� ,� is� then�
�compared� with� an� internal� reference� voltage,� V� REF� .� In� the�
�event� that� load� current� surpasses� the� set� limit� current,� V� SET�
�will� exceed� V� REF� causing� the� pass� transistor� gate� voltage� to�
�increase,� thereby� reducing� the� gate� to� source� voltage� of� the�
�PMOS� switch� and� regulating� its� current� back� down� to� I� LIMIT� .�
�Setting� the� Current� Limit� Level�
�Setting� the� current� limit� level� on� the� SiP4613A,� SiP4613B�
�requires� some� care� to� ensure� the� maximum� current� required�
�by� the� load� will� not� trigger� the� current� limit� circuitry.� The�
�minimum� current� limit� threshold� should� be� determined� by�
�taking� the� maximum� current� required� by� the� load,� I� LOAD� ,� and�
�It� then� follows� that� assuming� an� ambient� temperature� of�
�70� °C,� the� maximum� power� dissipation� will� be� limited� to� about�
�419� mW.�
�There� is� C� L� pin� designed� to� indicate� the� current� limit� status� of�
�SiP4613.� A� typical� 5� k� Ω� resistor� is� required� to� connect�
�between� C� L� pin� and� IN� pin.� In� the� event� of� the� output� over�
�load,� the� current� limit� flag� pin� C� L� will� go� low� to� indicate� the�
�current� limit� status� of� the� device.� Figure� 2� shows� the� voltage�
�on� C� L� pin� go� low� after� output� short.�
�adding� 25� %� headroom.� The� SiP4613A,� SiP4613B� has� a�
�current� limit� tolerance� of� 25� %,� which� is� largely� a� result� of�
�process� variations� from� part� to� part,� and� also� temperature�
�and� V� IN� /V� OUT� variances.� Thus,� to� ensure� that� the� actual�
�current� limit� is� never� below� the� desired� current� limit� a� 1/0.80�
�=� 1.25� coefficient� needs� to� be� added� to� the� calculations.�
�Knowing� the� maximum� load� current� required,� the� value� of�
�R� SET� is� calculated� as� follows.�
�V� OUT� (500� m� V� /di� v� )�
�50� μ� s/di� v�
�Figure� 2�
�CL� (5� 00 mV/div)�
�V� OUT� =� 2.4� V�
�R� SET� =� 6.� 8� 1� k� Ω�
�R� SET� =� R� SET� coefficient/I� LIMIT�
�where� I� LIMIT� =� (I� LOAD� x� 1.25)� x� 1.20� and� R� SET� coefficient� is�
�3460� for� a� 500� mA� current� limit.� For� typical� R� SET� coefficient�
�values� given� a� limit� current� refer� to� the� "Typical�
�Characteristics"� section.�
�Operation� at� Current� Limit� and� Thermal� Shutdown�
�In� the� event� that� a� load� higher� than� I� LIMIT� is� demanded� of� the�
�SiP4613A,� SiP4613B� the� load� current� will� stay� fixed� at� the�
�current� limit� established� by� R� SET� .� However,� since� the�
�required� current� is� not� supplied,� the� voltage� at� OUT� will� drop.�
�The� increase� in� V� IN� -� V� OUT� will� cause� the� chip� to� dissipate�
�more� heat.� The� power� dissipation� for� the� SiP4613A,�
�SiP4613B� can� be� expressed� as�
�The� voltage� signal� in� C� L� pin� is� not� only� used� to� indicate� the�
�output� short� circuit� status.� It� is� also� used� to� indicate� the�
�thermal� protection� status� of� the� device.� Once� the� thermal�
�protection� is� activated� in� the� severe� output� short� circuit�
�condition,� the� voltage� signal� on� the� C� L� pin� will� run� into� the�
�thermal� protection� cycling.� Figure� 3� shows� the� voltage�
�waveform� of� C� L� pin� after� activation� of� the� thermal� protection�
�circuit� due� to� the� severe� short� circuit� status� of� the� device’s�
�output.�
�V� OUT� =� 5.5� V�
�R� SET� =� 6.� 8� 1� k� Ω�
�V� OUT� (2 V/div)�
�CL� (2� V� /di� v� )�
�P� =� I� LOAD� x� (V� IN� -� V� OUT� )�
�Once� this� exceeds� the� maximum� power� dissipation� of� the�
�package,� the� die� temperature� will� rise.� When� the� die�
�temperature� exceeds� an� over-temperature� limit� of� 165� °C,�
�the� SiP4613A,� SiP4613B� will� shut� down� until� it� has� cooled�
�down� to� 145� °C,� before� starting� up� again.� As� can� be� seen� in�
�the� figure� below,� the� SiP4613A,� SiP4613B� will� continue� to�
�cycle� on� and� off� until� the� load� is� reduced� or� the� part� is� turned�
�off� (see� figure� 4� on� next� page).�
�The� maximum� power� dissipation� in� any� application� is�
�dependant� on� the� maximum� junction� temperature,�
�T� J(MAX)� =� 125� °C,� the� junction-to-ambient� thermal� resistance�
�for� the� TSC75-6� package,� θ� J-A� =� 131� °C/W,� and� the� ambient�
�temperature,� T� A� ,� which� may� be� formulaically� expressed� as:�
�20� ms/di� v�
�Figure� 3�
�The� thermal� protection� is� the� final� protection� to� the� device.�
�The� device� will� be� completely� shut� down� including� the� open�
�drain� current� limit� indicator� pin� C� L� until� the� device�
�temperature� drop� below� 145� °C.�
�P� (max)� =�
�www.vishay.com�
�4�
�T� J� (max)� -� T� A�
�θ� J� -� A�
�=�
�125� -� T� A�
�131�
�Document� Number:� 69998�
�S-82461-Rev.� B,� 06-Oct-08�
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相关代理商/技术参数 |
参数描述 |
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| SIP4613B | 制造商:VISHAY 制造商全称:Vishay Siliconix 功能描述:Protected 1-A High-Side Load Switch |
| SIP4613BDVP-T1-E3 | 功能描述:电源开关 IC - 配电 Protected 1.0 Amp High-Side Load RoHS:否 制造商:Exar 输出端数量:1 开启电阻(最大值):85 mOhms 开启时间(最大值):400 us 关闭时间(最大值):20 us 工作电源电压:3.2 V to 6.5 V 电源电流(最大值): 最大工作温度:+ 85 C 安装风格:SMD/SMT 封装 / 箱体:SOT-23-5 |
| SIP-4701-01-1000-A | 制造商:TT Electronics / IRC 功能描述:SIP-4701-01-1000-A |
| SIP-4701-01-1000-B | 制造商:TT Electronics / IRC 功能描述:SIP-4701-01-1000-B |
| SIP-4701-01-1000-F | 制造商:TT Electronics / IRC 功能描述:SIP-4701-01-1000-F |
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