SIP21106DVP-26-E3 Vishay, SIP21106DVP-26-E3 Datasheet
SIP21106DVP-26-E3
Specifications of SIP21106DVP-26-E3
Related parts for SIP21106DVP-26-E3
SIP21106DVP-26-E3 Summary of contents
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... Cellular phones, wireless handsets • PDAs • MP3 players • Digital cameras • Pagers • Wireless modem • Noise-sensitive electronic systems OUT µF OUT µ Bypass IN Vishay Siliconix RoHS COMPLIANT ( 100 kHz (rms Bypass GND NC SiP21106 OUT OUT µF OUT TSC75-6L Package www.vishay.com ...
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... SiP21106, SiP21107, SiP21108 Vishay Siliconix TYPICAL APPLICATION CIRCUIT OUT µ GND SiP21107 3 EN POK TSOT23-5L/SC70-5LPackage OUT µ GND SiP21108 TSOT23-5L/SC70-5L Package ABSOLUTE MAXIMUM RATINGS Parameter Input Voltage GND IN V (See Detailed Description) EN Output Current (I ) OUT Output Voltage (V ) OUT a Package Power Dissipation (P ...
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... DO OUT I = 150 mA OUT OUT 100 mA DO OUT I = 150 mA OUT V High = Regulator On (Rising) ENH V Low = Regulator Off (Falling) ENL I EN Vishay Siliconix µ Temp. Min. Typ. Max. Full 2.2 Room - 1.0 1.0 Full - 2.5 2.5 Room - 1.5 1.5 Full - 4 Room 1.188 1.2 1 ...
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... SiP21106, SiP21107, SiP21108 Vishay Siliconix SPECIFICATIONS Parameter Thermal Shutdown Junction Temperature Thermal Hysteresis Error Flag Section (SiP21107 Version only) POK(OFF) Leakage POK(ON) Voltage g POK Threshold POK Hysteresis POK Voltage Delay Time Notes: a. Room = 25 °C, Full = - °C. Derate 7.6 mW/°C for TSC75 and 5.5 mW/°C for SOT23 above T b ...
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... Adj (SiP21108): Adjust input pin. Connect feedback resistors to program the output voltage for trim value of 1.2005 V. - POK (SiP21107): Power OK (error flag) pin. Open-drain output, which requires connecting a pull-up resistor to V normal operation condition on regulator and goes low to indicate under-voltage fault condition. Vishay Siliconix ...
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... SiP21106, SiP21107, SiP21108 Vishay Siliconix ORDERING INFORMATION Part Number SiP21108DVP-T1-E3 SiP21106DVP-12-E3 SiP21106DVP-18-E3 SiP21106DVP-25-E3 SiP21106DVP-26-E3 SiP21106DVP-28-E3 SiP21106DVP-285-E3 SiP21106DVP-30-E3 SiP21106DVP-33-E3 SiP21106DVP-46-E3 SiP21106DVP-475-E3 SiP21107DVP-12-E3 SiP21107DVP-18-E3 SiP21107DVP-25-E3 SiP21107DVP-26-E3 SiP21107DVP-28-E3 SiP21107DVP-30-E3 SiP21107DVP-33-E3 SiP21107DVP-46-E3 SiP21107DVP-285-E3 SiP21108DT-T1-E3 SiP21106DT-12-E3 SiP21106DT-18-E3 SiP21106DT-25-E3 SiP21106DT-26-E3 SiP21106DT-28-E3 SiP21106DT-285-E3 SiP21106DT-30-E3 SiP21106DT-33-E3 SiP21106DT-45-E3 SiP21106DT-46-E3 SiP21106DT-475-E3 ...
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... SiP21106DR-33-E3 SiP21106DR-46-E3 SiP21106DR-475-E3 SiP21107DR-12-E3 SiP21107DR-18-E3 SiP21107DR-25-E3 SiP21107DR-26-E3 SiP21107DR-28-E3 SiP21107DR-285-E3 SiP21107DR-30-E3 SiP21107DR-33-E3 SiP21107DR-46-E3 Note: Other fixed output voltage options are available. Please contact your Vishay sales representative or distributor for details. Document Number: 74442 S09-1047-Rev. G, 08-Jun-09 SiP21106, SiP21107, SiP21108 N9 Adjustable NP 1.2 N1 1 ...
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... SiP21106, SiP21107, SiP21108 Vishay Siliconix TYPICAL CHARACTERISTICS 3.0 2.5 2 OUT 1 150 mA OUT 1.0 0.5 0 (V) IN Output Voltage vs. Input Voltage 180 160 °C A 140 120 °C A 100 (mA) OUT Dropout Voltage vs. Load Current 180 160 I = 150 mA OUT 140 120 I = 100 mA OUT 100 80 60 ...
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... BP Capacitance (µF) Output Noise vs. BP Capacitance Vishay Siliconix I = 150 mA OUT I OUT SiP21106: 2 (V) IN Ground Current vs. Input Voltage at 25 °C SiP21106: 2 OUT ...
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... SiP21106, SiP21107, SiP21108 Vishay Siliconix TYPICAL OPERATING WAVEFORMS 50 µs/DIV Load Transient Response 200 µs/DIV Line Transient Response 200 µs/DIV Line Transient Response www.vishay.com 10 I (100 mA/DIV) OUT V (50 mV/DIV) OUT SiP21106 4.6 V OUT µ µF OUT SiP21106: 4 5 4.6 V ...
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... OUT OUT SiP21107: 1 (500 mV/DIV 2.8 V OUT 1.8 V OUT µ µF OUT OUT POK (1 V/DIV) POK pin goes low to indicate output under-voltage Vishay Siliconix SiP21106 2.8 V OUT µ µF OUT (100 mA/DIV) OUT 50 ms/DIV Output Short Thermal Cycling SiP21106 ...
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... SiP21106, SiP21107, SiP21108 Vishay Siliconix TYPICAL OPERATING WAVEFORMS SiP21107 1.8 V OUT µ µF OUT OUT 20 µs/DIV POK pin is actively high to indicate an output normal operation condition on regular TYPICAL WAVEFORMS V (100 µV/DIV) OUT µV NOISE RMS 2 ms/DIV Output Noise FUNCTIONAL BLOCK DIAGRAM ...
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... After the power-up sequence the pre-charge circuit is switched to standby mode in order to save current therefore not recommended to use larger bypass capacitor values than 50 nF. When the circuit is used without a capacitor, stable operation is guaranteed. Vishay Siliconix Error-Amp - ...
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... J-C C-A Vishay Siliconix maintains worldwide manufacturing capability. Products may be manufactured at one of several qualified locations. Reliability data for Silicon Technology and Package Reliability represent a composite of all qualified locations. For related documents such as package/tape drawings, part marking, and reliability data, see www.vishay.com/ppg?74442. ...
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... Vishay product could result in personal injury or death. Customers using or selling Vishay products not expressly indicated for use in such applications their own risk and agree to fully indemnify and hold Vishay and its distributors harmless from and against any and all claims, liabilities, expenses and damages arising or resulting in connection with such use or sale, including attorneys fees, even if such claim alleges that Vishay or its distributor was negligent regarding the design or manufacture of the part ...