| PARAMETER | TEST CONDITIONS | MIN TYP MAX | UNIT |
| | | VI(CORE) = 2.5 V t0 6 V; lo = O mA, Co = 22 pF | 0% 3% | |
| 0.85 V | VI(CORE) = 2.5 V t0 6 V; 0 mA " lo " 400 mA, Co = 22 pF | 3% 3% | |
| | VI(CORE) = 2.5 V t0 6 V; lo = O mA, Co = 22 pF | 0% 3% | |
| 1.0 V | VI(CORE) = 2.5 V t0 6 V; 0 mA " lo " 400 mA, Co = 22 pF | 3% 3% | |
| | VI(CORE) = 2.5 V t0 6 V; lo= O mA, Co = 22 pF | 0% 3% | |
| 1.1 V | VI(CORE) = 2.5 V t0 6 V; 0 mA " lo " 400 mA, Co = 22 pF | 3% 3% | |
| 1.2 V | VI(CORE) = 2.5 V to O V; lo = O mA | 0% 3% | |
| VO(CORE) Fixed output voltage | VI(CORE) = 2.5 V t0 6 V; 0 mA " 10" 400 mA | 3% 3% | |
| | VI(CORE) = 2.5 V t0 6 V; 10= 0 mA | 0% 3% | |
| 1.3 V | VI(CORE) = 2.5 V t0 6 V; 0 mA " la " 400 mA | 3% 3% | |
| | VI(CORE) = 2.5 V t0 6 V; 10= 0 mA | 0% 3% | |
| 1.4 V | VI(CORE) = 2.5 V t0 6 V; 0 mA " 10" 400 mA | 3% 3% | |
| | VI(CORE) = 2.5 V t0 6 V; lo = O mA | 0% 3% | |
| 1.5 V | VI(CORE) = 2.5 V t0 6 V; 0 mA " lo " 400 mA | 3% 3% | |
| | VI(CORE) = 2.5 V t0 6 V; 10= 0 mA | 0% 3% | |
| 1.8 V | VI(CORE) = 2.5 V t0 6 V; 0 mA " lo " 400 mA | 3% 3% | |
| Line regulation | VI(CORE) = VO(MAIN} + 0.5 V (min. 2.5 V) t0 6 V, lo = 10 mA | 1 | %N |
| Load regulation | lo = 10 mA t0 400 mA | 0 002 | %/mA |
| R(VCORE) VCORE discharge resistance | | 400 | I |
| VLD01 and VLD02 LOW-DROPOUT REGULATORS |
| | LD01 | | 1 8 6 5 | V |
| Vi Input voltage range | LD02 | | 1 8 Vce |
| Vo LD01 0utput voltage range | | 0 9 VINLD01 | V |
| Vref Reference voltage | | 485 500 515 | mV |
| Vo LD02 0utput voltage range | | 1 8 3 3 | V |
| | Full-power mode | 200 | |
| lo Maximum output current | Low-power mode | 30 | mA |
| l(sc) LD01 and LD02 short-circuit current limit | VLD01 = GND, VLD02 = GND | 650 | mA |
| Dropout voltage | lo = 200 mA, VINLD01,2 = 1.8 V | 300 | mV |
| Total accuracy | | +3% | |
| Line regulation | VINLD01,2 = VLD01,2 + 0.5 V (min. 2.5 V) t0 6.5 V, lo = 10 mA | 0 75 | %V |
| Load regulation | lo = 10 mA t0 200 mA | 0 011 | %/mA |
| | Load change from 10% t0 90% | 0 1 | |
| Regulation time | Low-power mode | 0 1 | ms |
| I(QFP) LDO quiescent current (each LDO) | Full-power mode | 16 30 | UA |
| I(OLPM) LDO quiescent current (each LDO) | Low-power mode | 12 18 | UA |
| IO(SD) LDO shutdown current (each LDO) | | 0 1 1 | UA |
| likg(FB} Leakage current feedback | | 0 01 0 1 | UA |
| | | | |
| | typ. | max | |
| IR | TVJ = 250C VR =VRRM TVJ = 1500C VR = VRRM | 2.0 8.5 | mA mA |
| VF | IF = 300 A; TVJ =1500C TVJ = 250C | 1.4 1.6 | V V |
| RthjC RthCH | 0.08 | 0.35 | K/W K/W |
| IRM | VR = 100 V; IF = 200 A; -diF/dt = 100 Nps 11 TVJ = 1000C | 14 | A |
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DESCRIPTION Dual center tap Schottky rectifiers designed for high frequency switched mode power supplies and DC to DC converters. These devices are intended for use in low voltage, high frequency inverters, free-wheeling and polarity protection applications.
