SC120EVB SEMTECH [Semtech Corporation], SC120EVB Datasheet
SC120EVB
Related parts for SC120EVB
SC120EVB Summary of contents
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POWER MANAGEMENT Features Input voltage — 0.7V to 4.5V Minimum input startup voltage — 0.865V Output voltage — fi xed at 3.3V; adjustable from 1.8V to 5.0V Peak input current limit — 1.2A Output current at 3.3 V — 80mA ...
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... Bottom View yyww SOT23, 6 LEAD yyww = date code Ordering Information Device OUT SC120ULTRT 4 SC120SKTRT SC120EVB SC120SKEVB Notes: (1) Available in tape and reel only. A reel contains 3,000 devices. (2) Lead-free packaging, only. Device is WEEE and RoHS compliant, and halogen-free. 3 Pin Confi guration — MLPD-UT LX GND Marking Information — ...
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Absolute Maximum Ratings IN, OUT, LX -0.3 to +6 ...
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Electrical Characteristics (continued) Parameter P-Channel ON Resistance N-Channel ON Resistance N-Channel Current Limit P-Channel Startup Current Limit LX Leakage Current PMOS LX Leakage Current NMOS Logic Input High Logic Input Low Logic Input Current High Logic Input Current Low NOTES: ...
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Typical Characteristics — V Effi ciency vs. I OUT = 499k Ω Ω 4.7 μ 100 0.8V ...
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Typical Characteristics — V Temperature Regulation — PSAVE Mode (V = 499k Ω Ω 4.7 μ 5mA 1 2 OUT 1. 1. 0.8V ...
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Typical Characteristics — V Effi ciency vs. I OUT ο FB grounded 4.7 μ 100 ...
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Typical Characteristics — V Temperature Regulation — PSAVE Mode (V FB grounded 4.7 μ 5mA OUT 3 3. 1.0V 3.32 IN 3.28 3.24 3.2 -50 - Junction ...
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Typical Characteristics — V Effi ciency vs. I OUT = 931k Ω 402k Ω 4.7 μ 100 1.2V IN ...
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Typical Characteristics — V Temperature Regulation — PSAVE Mode (V = 931k Ω 402k Ω 4.7 μ 4 3. ...
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Typical Characteristics — V Effi ciency vs. I OUT = 931k Ω 294k Ω 3.3 μ 100 1. 0.8V IN ...
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Typical Characteristics — V Temperature Regulation — PSAVE Mode (V = 931k Ω 294k Ω 3.3 μ 5 1. 0. ...
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Typical Characteristics — V Effi ciency vs OUT = 931k Ω 294k Ω 4.7 μ 100 1.6V ...
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Typical Characteristics — V Temperature Regulation — PSAVE Mode (V = 931k Ω 294k Ω 4.7 μ 5 1. ...
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Typical Characteristics — V Effi ciency vs OUT = 931k Ω 294k Ω 6.8 μ 100 3.0V IN ...
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Typical Characteristics — V Temperature Regulation — PSAVE Mode (V = 931k Ω 294k Ω 6.8 μ 5 4. ...
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Typical Characteristics (continued) Load Transient (PSAVE to PWM 3.3V 1.2V 25°C OUT 5mA to OUT 100mA (50mA/div) V OUT (100mV/div) AC Coupled Time = (100μs/div) PSAVE Operation V = 3.3V, ...
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Pin Descriptions MLPD Pin # SOT23 Pin # Pin Name Thermal T NA Pin Function LX Switching node — connect an inductor from the input supply to this ...
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Block Diagram IN EN Oscillator and Slope Generator Output Voltage FB Selection Logic V OUT Comp Start-up Oscillator Slope Comp. PWM Comp. + PWM Control - Error Amp REF + - 1.2 V ...
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Applications Information Detailed Description The SC120 is a synchronous step-up Pulse Width Modulated (PWM) DC-DC converter utilizing a 1.2MHz fi xed frequency current mode architecture designed to provide output voltages in the range 1.8V to 5.0V from an ...
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Applications Information (continued) PWM Operation The PWM cycle runs xed frequency (f with a variable duty cycle (D). PWM operation continually draws current from the input supply (except for discon- tinuous mode, described subsequently). During the on- ...
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Applications Information (continued) BURST +1.8% +0.8% V OUT Prog’d Voltage -2% Inductor Current 240mA 0A Figure 2 — PSAVE Operation With Exit to PWM Due To Output Voltage Decay BURST +1.8% +0.8% V OUT Prog’d Voltage -2% Inductor Current 240mA ...
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Applications Information (continued) accumulates with each successive cycle in the burst. The result is that the output load current that can be sup- ported in PSAVE under this high V greater than occurs if the 240mA current limit can be ...
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Applications Information (continued) pause at a reduced output voltage until the load is reduced further. Output Overload and Recovery When in PSAVE operation, an increasing load will eventu- ally satisfy one of the PSAVE exit criteria and regulation will revert ...
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Applications Information (continued This is the change in I during the on-state. During the L off -state, again neglecting the p-channel FET R the inductor ...
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Applications Information (continued) formance), will ensure correct mode–switching behavior. For very low V (0.7V to 0.8V) such as is obtained with a IN nearly-depleted single-cell alkaline battery), a smaller value of inductance will help to ensure that PWM mode will ...
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Applications Information (continued 7.0mm C LX SC120 GND Figure 4 — Layout Drawing for MLP package 8mm SC120 GND LX C Figure 5 — Layout Drawing ...
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Outline Drawing — MLPD-UT-6 1.5x2 A PIN 1 INDICATOR (LASER MARK) A aaa LxN N NOTES: 1. CONTROLLING DIMENSIONS ARE IN MILLIMETERS (ANGLES IN DEGREES). 2. COPLANARITY APPLIES TO THE EXPOSED PAD AS WELL AS TERMINALS. B ...
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Land Pattern — MLPD-UT-6 1.5x2 NOTES: 1. CONTROLLING DIMENSIONS ARE IN MILLIMETERS (ANGLES IN DEGREES). 2. THIS LAND PATTERN IS FOR REFERENCE PURPOSES ONLY. CONSULT YOUR MANUFACTURING GROUP TO ENSURE YOUR COMPANY'S MANUFACTURING GUIDELINES ...
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Outline Drawing — SOT23 E/2 1 ccc C 2X N/2 TIPS B aaa C SEATING PLANE C bxN bbb C A-B D SIDE VIEW NOTES: 1. CONTROLLING DIMENSIONS ARE IN MILLIMETERS (ANGLES IN DEGREES). 2. DATUMS -A- ...
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Land Pattern — SOT23-6 X (C) P NOTES: 1. CONTROLLING DIMENSIONS ARE IN MILLIMETERS (ANGLES IN DEGREES). 2. THIS LAND PATTERN IS FOR REFERENCE PURPOSES ONLY. CONSULT YOUR MANUFACTURING GROUP TO ENSURE YOUR COMPANY'S MANUFACTURING GUIDELINES ARE MET. DIMENSIONS DIM ...
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