RPC252R2J Datasheet| lI | l I illlll l I I IIIII vo = 1.OV | | | NORMALIZED TO: CTR @ IF = 1.0 mA. Rx = - . | | | | | 0 | | | | | | | |f | Rx 2.2kfl | | | | j | | | l | 1| | | |lJu | l | | | |
RPC252R2J Price I Cooling method: by condiction (C) I Recommended torque value: 1.3 N.m (MAX l.5 N.m) for the 6 x M4 screws. (2 x M4 screws recommended for mounting the package on the heatsink and the 4 screws for terminals). I The screws supplied with the package are suitable for mounting on a board (or other types of terminals) with a thickness of 0.6 mm min and 2.2 mm max. RPC252R2J on stock| | | | Limits | | Characteristic | Symbol | Test Conditions | Min. Typ. Max. | Units | | Output Voltage | VO | V, > VO(nom) + 1 V. 1 mA lo 150 mA* | ±0.5 | % | | (reference specified VO(nom | V, > VO(nom) + 1 V, 1 mA lo 150 mA', over operating temperature range | ±2O | % | | V, = VO(nom). 10 = 50 mA | -0.25 | V | | Output Volt. Temp. Coeff. | aVo | V, = 6 V. lo = 10 mA. Tj 1250C | TBD | mV/oC | | Output Short-Circuit Current | IOM | | 200 | mA | | Line Regulation | AVO(AVI) | at V, = VO(nom) + 1 V. 10 = 3 mA and V, = 7 V. lo = 3 mA | 1.0 2.0 | mV | | Load Regulation | AVO(AIO) | at V, = VO(nom) + 1 V. 10 = 1 mA and V, = VO(nom) + 1 V ' 10 = 150 mA* | 2O | mV | | at V, = 7 V. lo = 1 mA and V, = 7 V. lo = 150 mA* | 2.0 | mV | | Dropout Voltage | Vimin - Vo | 1= 100 mA | 1 00 | mV | | Ground Terminal Current | IGND | V, = VO(nom) + 1 V. 10 = 1 mA | 80 100 | LLA | | V, = VO(nom) + 1 V. 10 = 150 mA* | 80 100 | LLA | | V, = 7 V.lo = 1 mA | 80 100 | LLA | | V, = 7 V. lo = 150 mA* | 80 100 | LLA | | lQ | Vi 7 V, VE 0.8 V, lo = 0 mA | 1.0 | LLA | | ENABLE Input Voltage | VEH | V, > O(nom) + 1 V. Output ON | 2O | V | | VEL | V, > VO(nom) + 1 V. Output OFF | 0.4 | V | | ENABLE Input Current | IE | VE=Vl=7 V | ±1O | LLA | | Internal Reference Voltage | VREF | | 1.26 | V | | ADJUST Input Current | IADJ | A8405SLH-ADJ only | 0.10 | LLA | | Rejection Ratio | PSRR | V, = O(nom) + 1.5 V, V, = 100 mV, 10 = 30 mA, f = 60 Hz | 70 | dB | | Output Noise | en | 10 Hz < f< 100 kHz, lo = 10 mA, Co = 10F | 0.2 | LLVHz | | Thermal Shutdown | Tj | | 1 70 | oC | | | | | |
Each open-loop buffer is implemented as a complementary emitter follower that provides high input impedance, symmetric slew rate and load drive, and high output-to-input isolation due to its p2 current gain. The selected buffer is biased ON by fast switched current sources that allow the buffer to turn on quickly. Dedicated flatness circuits, combined with the open-loop archi- tecture ofthe AD 8184, keep peaking low (typically < 0.5 dB) when driving high capacitive loads, without the need for external
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