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STMicroelectronics |
3V MICROPOWER QUAD VOLTAGE COMPARATORS e allows power and space saving by eliminating the external pull-up resistor required by usual open-collector output comparators. Thus response times remain similar to the LM339. October 1997 Inverting Input 1 4 Non-inverting Input 1 5 Inverting Inp |
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STMicroelectronics |
MICROPOWER DUAL CMOS VOLTAGE COMPARATORS ■ Extremely low supply current: typically 9 µA per comparator ■ Wide single supply range 2.7 V to 16 V or dual supplies (±1.35 V to ±8 V) ■ Extremely low input bias current: 1 pA typical ■ Extremely low input offset current: 1 pA typical ■ Input comm |
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STMicroelectronics |
Micropower high precision series voltage reference • Fixed 1.25 V,1.8 V, 2.048 V, 2.5 V, 3.0 V, 3.3 V 4.096 V, 5.0 V output voltage • Ultra low operating current: 3.9 μA (typ.) at 25 °C • High initial accuracy: +/-0.15 % • Stable when used with capacitive loads • Extended temperature range: -40 to +1 |
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STMicroelectronics |
MICROPOWER DUAL CMOS VOLTAGE COMPARATORS than bipolar LM393). The push-pull CMOS output stage allows power and space saving by eliminating the external pull-up resistor required by usual open-collector output comparators. Thus response times remain similar to the LM393. October 1997 Invert |
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STMicroelectronics |
3V LOW POWER SINGLE TIMERS ger Output Reset 1 2 3 4 8 7 6 5 VCC Discharge Threshold Control Voltage October 1997 1/8 TS3V555 BLOCK DIAGRAM VCC 8 Reset 4 3V555 R R1 Threshold 6 Control Voltage 5 R + Trigger 2 R 7 Discharge 1 Ground B + R A S Q 3 Output FUNCTION TABLE RES |
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STMicroelectronics |
Low-power single voltage comparator • Wide single supply voltage range or dual supplies 2 V to 36 V or ± 1 V to ± 18 V • Very low supply current (0.2 mA) independent of supply voltage (1 mW / comparator at 5 V) • Low input bias current: 25 nA typ. • Low input offset current: ± 5 nA typ |
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STMicroelectronics |
LOW POWER SINGLE OPERATIONAL AMPLIFIER nverting input 1 2 3 + 8 7 6 5 N.C . Output 1 5 + VCC + VCC Output N.C . V CC 2 Non-inve rting inp ut 3 4 V CC - 4 Inve rting inp ut December 1998 1/8 TS321 SCHEMATIC DIAGRAM VCC 6 µA 4µA CC 10 0µA Q5 Q6 Inve rting inpu t Q2 Q |
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STMicroelectronics |
MICROPOWER QUAD CMOS VOLTAGE COMPARATORS DESCRIPTION The TS3704 is a micropower CMOS quad voltage comparator with extremely low consumption of 9µA typ / comparator (20 times less than bipolar LM339). The push-pull CMOS output stage allows power and space saving by eliminating the external |
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STMicroelectronics |
LOW POWER QUAD CMOS VOLTAGE COMPARATORS sion voltage comparators, designedto operate with single or dual supplies. These differential comparators use the SGSTHOMSON silicon lin MOS process giving them an excellent consumption-speed ratio. These devices are ideally suited for low consumptio |
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STMicroelectronics |
Micropower high precision series voltage reference • Fixed 1.25 V,1.8 V, 2.048 V, 2.5 V, 3.0 V, 3.3 V 4.096 V, 5.0 V output voltage • Ultra low operating current: 3.9 μA (typ.) at 25 °C • High initial accuracy: +/-0.15 % • Stable when used with capacitive loads • Extended temperature range: -40 to +1 |
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STMicroelectronics |
MOSFET 8 76 5 4 123 SO-8 Figure 1. Internal schematic diagram D (5,6,7,8) Order code STN3P6F6 VDSS 60 V RDS(on)max 0.16 Ω @ 10 V • RDS(on) * Qg industry benchmark • Extremely low on-resistance RDS(on) • High avalanche ruggedness • Low gate drive power |
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STMicroelectronics |
Micropower dual CMOS voltage comparator • Push-pull CMOS output (no external pull-up resistor required) • Extremely low supply current: 9 µA typ per comparator • Wide single supply range: 2.7 V to 16 V or dual supplies (±1.35 V to ±8 V) • Extremely low input bias current: 1 pA typ • Extrem |
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STMicroelectronics |
Micropower high precision series voltage reference • Fixed 1.25 V,1.8 V, 2.048 V, 2.5 V, 3.0 V, 3.3 V 4.096 V, 5.0 V output voltage • Ultra low operating current: 3.9 μA (typ.) at 25 °C • High initial accuracy: +/-0.15 % • Stable when used with capacitive loads • Extended temperature range: -40 to +1 |
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STMicroelectronics |
Micropower low-voltage rail-to-rail comparator • Supply operation from 1.6 V to 5 V • Low current consumption: 20 µA • Rail-to-rail inputs • Wide temperature range: -40 °C to +125 °C • Low output saturation voltage • Low propagation delay: 210 ns • Open-drain output • ESD tolerance: 2 kV HBM/200 |
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STMicroelectronics |
LOW POWER SINGLE OPERATIONAL AMPLIFIER nverting input 1 2 3 + 8 7 6 5 N.C . Output 1 5 + VCC + VCC Output N.C . V CC 2 Non-inve rting inp ut 3 4 V CC - 4 Inve rting inp ut December 1998 1/8 TS321 SCHEMATIC DIAGRAM VCC 6 µA 4µA CC 10 0µA Q5 Q6 Inve rting inpu t Q2 Q |
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STMicroelectronics |
LOW POWER SINGLE OPERATIONAL AMPLIFIER nverting input 1 2 3 + 8 7 6 5 N.C . Output 1 5 + VCC + VCC Output N.C . V CC 2 Non-inve rting inp ut 3 4 V CC - 4 Inve rting inp ut December 1998 1/8 TS321 SCHEMATIC DIAGRAM VCC 6 µA 4µA CC 10 0µA Q5 Q6 Inve rting inpu t Q2 Q |
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STMicroelectronics |
Micropower quad CMOS voltage comparator • Extremely low supply current: 9 μA typ./comparator • Wide single supply range 2.7 V to 16 V or dual supplies (±1.35 V to ±8 V) • Extremely low input bias current: 1 pA typ. • Extremely low input offset current: 1 pA typ. • Input common-mode voltage |
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STMicroelectronics |
1.24V Programmable Shunt Voltage Reference • Adjustable output voltage: 1.24 to 24 V • Several precision levels @ 25 °C ± 2%, ± 1%, ± 0.5% and ± 0.25% • Sink current capability: 0.4 to 100 mA • Industrial temperature range: - 40 °C to + 105 °C • Performance compatible with industry standard T |
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STMicroelectronics |
MICROPOWER DUAL CMOS VOLTAGE COMPARATORS than bipolar LM393). The push-pull CMOS output stage allows power and space saving by eliminating the external pull-up resistor required by usual open-collector output comparators. Thus response times remain similar to the LM393. October 1997 Invert |
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STMicroelectronics |
MICROPOWER DUAL CMOS VOLTAGE COMPARATORS than bipolar LM393). The push-pull CMOS output stage allows power and space saving by eliminating the external pull-up resistor required by usual open-collector output comparators. Thus response times remain similar to the LM393. October 1997 Invert |
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Desde 2024. D4U Semiconductor.
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