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S-11L10D21-I6T2G Datasheet(PDF) 9 Page - Seiko Instruments Inc |
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S-11L10D21-I6T2G Datasheet(HTML) 9 Page - Seiko Instruments Inc |
9 / 35 page SUPER-LOW OUTPUT VOLTAGE LOW DROPOUT CMOS VOLTAGE REGULATOR Rev.1.0_00 S-11L10 Series Seiko Instruments Inc. 9 Table 7 (2 / 2) (Ta = 25 °C unless otherwise specified) Item Symbol Conditions Min. Typ. Max. Unit Test Circuit Input voltage VIN 1.2 3.65 V VIN = VOUT(S) + 1.0 V, RL = 1.0 k Ω, determined by VOUT output level 0.8 V ≤ VOUT(S) ≤ 2.65 V 0.9 V 4 ON / OFF pin input voltage “H” VSH VIN = 3.65 V, RL = 1.0 k Ω, determined by VOUT output level 2.65 V < VOUT(S) ≤ 3.3 V 0.9 V 4 VIN = VOUT(S) + 1.0 V, RL = 1.0 k Ω, determined by VOUT output level 0.8 V ≤ VOUT(S) ≤ 2.65 V 0.2 V 4 ON / OFF pin input voltage “L” VSL VIN = 3.65 V, RL = 1.0 k Ω, determined by VOUT output level 2.65 V < VOUT(S) ≤ 3.3 V 0.2 V 4 B type 0.05 0.55 µA 4 ON / OFF pin input current “H” ISH VIN = 3.65 V, VON / OFF = 3.65 V D type −0.1 0.1 µA 4 ON / OFF pin input current “L” ISL VIN = 3.65 V, VON / OFF = 0 V −0.1 0.1 µA 4 0.8 V ≤ VOUT(S) ≤ 1.25 V 60 dB 5 VIN = VOUT(S) + 1.0 V, f = 1.0 kHz, ∆Vrip = 0.5 Vrms, IOUT = 30 mA 1.25 V < VOUT(S) ≤ 2.65 V 55 dB 5 Ripple rejection RR VIN = 3.65 V, f = 1.0 kHz, ∆Vrip = 0.5 Vrms, IOUT = 30 mA 2.65 V < VOUT(S) ≤ 3.3 V 55 dB 5 VIN = VOUT(S) + 1.0 V, ON / OFF pin = ON, VOUT = 0 V 0.8 V ≤ VOUT(S) ≤ 2.65 V 150 mA 3 Short-circuit current Ishort VIN = 3.65 V, ON / OFF pin = ON, VOUT = 0 V 2.65 V < VOUT(S) ≤ 3.3 V 150 mA 3 “L” output Nch ON resistance RLOW VOUT = 0.1 V, VIN = 3.65 V 100 Ω 3 *1. VOUT(S): Specified output voltage VOUT(E): Actual output voltage Output voltage when fixing IOUT(= 30 mA) and inputting VOUT(S) +1.0 V or 3.65 V *2. The output current at which the output voltage becomes 95% of VOUT(E) after gradually increasing the output current. *3. Vdrop = VIN1 − (VOUT3 × 0.98) VOUT3 is the output voltage when VIN = VOUT(S) + 1.0 V or 3.65 V and IOUT = 100 mA. VIN1 is the input voltage at which the output voltage becomes 98% of VOUT3 after gradually decreasing the input voltage. *4. The change in temperature [mV/°C] is calculated using the following equation. ∆VOUT ∆Ta [] mV/°C *1 = V OUT(S)[] V *2 × ∆VOUT ∆Ta•VOUT [] ppm/°C *3 ÷ 1000 *1. Change in temperature of the output voltage *2. Specified output voltage *3. Output voltage temperature coefficient *5. The output current can be at least this value. Due to restrictions on the package power dissipation, this value may not be satisfied. Attention should be paid to the power dissipation of the package when the output current is large. This specification is guaranteed by design. |
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