| No. |
Part Name |
Description |
Manufacturer |
| 3151 |
TC1187 |
The TC1070, TC1071, and TC1187 are adjustable LDOs designed to supersede a variety of older (bipolar) voltage regulators. Total supply current is typically 50uA at full load, 20 to 60 times lower than in bipolar regulators! The devicesR |
Microchip |
| 3152 |
TC1188 |
Delivering up to 120mA, the TC1188 and TC1189 are fixed output, low-dropout linear regulators that operate from a +2.5V to +6.0V input range. The 50�A supply current remains independent of load, making these devices ideal for battery-opera |
Microchip |
| 3153 |
TC1189 |
Delivering up to 120mA, the TC1188 and TC1189 are fixed output, low-dropout linear regulators that operate from a +2.5V to +6.0V input range. The 50�A supply current remains independent of load, making these devices ideal for battery-opera |
Microchip |
| 3154 |
TC1223 |
The TC1223 and TC1224 are high accuracy (typically ±0.5%) CMOS upgrade for older (bipolar) low dropout regulators such as the LP2980. Designed specifically for battery-operated systems, the devices CMOS constructio neliminates wasted |
Microchip |
| 3155 |
TC1224 |
The TC1223 and TC1224 are high accuracy (typically ±0.5%) CMOS upgrade for older (bipolar) low dropout regulators such as the LP2980. Designed specifically for battery-operated systems, the devices CMOS constructio neliminates wasted |
Microchip |
| 3156 |
TC125 |
The TC125/6 step-up (Boost) switching regulators furnish output currents to a maximum of 80 mA (VIN = 2V, VOUT = 3V) with typical efficiencies above 80%. These devices employ pulse frequency modulation (PFM) for minimum supply current at l |
Microchip |
| 3157 |
TC126 |
The TC125/6 step-up (Boost) switching regulators furnish output currents to a maximum of 80 mA (VIN = 2V, VOUT = 3V) with typical efficiencies above 80%. These devices employ pulse frequency modulation (PFM) for minimum supply current at l |
Microchip |
| 3158 |
TC1426 |
The TC1426/27/28 are a family of 1.2A dual high- speed drivers. CMOS fabrication is used for low power consumption and high efficiency. These devices are fabricated using an epitaxial layer to effectively short out the intrinsic parasitic |
Microchip |
| 3159 |
TC1427 |
The TC1426/27/28 are a family of 1.2A dual high- speed drivers. CMOS fabrication is used for low power consumption and high efficiency. These devices are fabricated using an epitaxial layer to effectively short out the intrinsic parasitic |
Microchip |
| 3160 |
TC1428 |
The TC1426/27/28 are a family of 1.2A dual high- speed drivers. CMOS fabrication is used for low power consumption and high efficiency. These devices are fabricated using an epitaxial layer to effectively short out the intrinsic parasitic |
Microchip |
| 3161 |
TC2054 |
The TC2054, TC2055, and TC2186 are high accuracy (typically ±0.4%) CMOS upgrades for older (bipolar) low dropout regulators. Designed specifically for battery-operated systems, the devices’ total supply current is typically 55�A |
Microchip |
| 3162 |
TC2055 |
The TC2054, TC2055, and TC2186 are high accuracy (typically ±0.4%) CMOS upgrades for older (bipolar) low dropout regulators. Designed specifically for battery-operated systems, the devices’ total supply current is typically 55�A |
Microchip |
| 3163 |
TC2186 |
The TC2054, TC2055, and TC2186 are high accuracy (typically ±0.4%) CMOS upgrades for older (bipolar) low dropout regulators. Designed specifically for battery-operated systems, the devices’ total supply current is typically 55�A |
Microchip |
| 3164 |
TC7136 |
The TC7136 and TC7136A are low-power,3-1/2 digit with liquid crystal display (LCD)drivers with analog-to-digital converters.These devices incorporate an "integrator output zero"phase which guarantees overrange recovery.The performance of e |
Microchip |
| 3165 |
TC7136A |
The TC7136 and TC7136A are low-power,3-1/2 digit with liquid crystal display (LCD)drivers with analog-to-digital converters.These devices incorporate an "integrator output zero"phase which guarantees overrange recovery.The performance of e |
Microchip |
| 3166 |
TESDA5V0A |
Discrete Devices-ESD Protection Diode & Array-ESD Protection Diode & Array |
Taiwan Semiconductor |
| 3167 |
TESDB5V0A |
Discrete Devices-ESD Protection Diode & Array-ESD Protection Diode & Array |
Taiwan Semiconductor |
| 3168 |
TESDC24V |
Discrete Devices-ESD Protection Diode & Array-ESD Protection Diode & Array |
Taiwan Semiconductor |
| 3169 |
TESDC5V0 |
Discrete Devices-ESD Protection Diode & Array-ESD Protection Diode & Array |
Taiwan Semiconductor |
| 3170 |
TESDC5V0LC |
Discrete Devices-ESD Protection Diode & Array-ESD Protection Diode & Array |
Taiwan Semiconductor |
| 3171 |
TESDD5V0 |
Discrete Devices-ESD Protection Diode & Array-ESD Protection Diode & Array |
Taiwan Semiconductor |
| 3172 |
TESDD5V0HC |
Discrete Devices-ESD Protection Diode & Array-ESD Protection Diode & Array |
Taiwan Semiconductor |
| 3173 |
TESDE12V |
Discrete Devices-ESD Protection Diode & Array-ESD Protection Diode & Array |
Taiwan Semiconductor |
| 3174 |
TESDE24V |
Discrete Devices-ESD Protection Diode & Array-ESD Protection Diode & Array |
Taiwan Semiconductor |
| 3175 |
TESDE5V0 |
Discrete Devices-ESD Protection Diode & Array-ESD Protection Diode & Array |
Taiwan Semiconductor |
| 3176 |
TESDF5V0A |
Discrete Devices-ESD Protection Diode & Array-ESD Protection Diode & Array |
Taiwan Semiconductor |
| 3177 |
TESDF5V0AU |
Discrete Devices-ESD Protection Diode & Array-ESD Protection Diode & Array |
Taiwan Semiconductor |
| 3178 |
TESDG5V0A |
Discrete Devices-ESD Protection Diode & Array-ESD Protection Diode & Array |
Taiwan Semiconductor |
| 3179 |
TESDH5V0A |
Discrete Devices-ESD Protection Diode & Array-ESD Protection Diode & Array |
Taiwan Semiconductor |
| 3180 |
TESDL12V |
Discrete Devices-ESD Protection Diode & Array-ESD Protection Diode & Array |
Taiwan Semiconductor |
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