Datasheet LT8550 (Analog Devices) - 4

HerstellerAnalog Devices
Beschreibung 4-Phase DC/DC Expander with Internal Gate Drivers for Buck Converters
Seiten / Seite34 / 4 — ELECTRICAL CHARACTERISTICS. The. denotes the specifications which apply …
Dateiformat / GrößePDF / 3.2 Mb
DokumentenspracheEnglisch

ELECTRICAL CHARACTERISTICS. The. denotes the specifications which apply over the full operating

ELECTRICAL CHARACTERISTICS The denotes the specifications which apply over the full operating

Modelllinie für dieses Datenblatt

Textversion des Dokuments

LT8550
ELECTRICAL CHARACTERISTICS The
l
denotes the specifications which apply over the full operating temperature range, otherwise specifications are at TA = 25°C. VIN = 12V, REG = 5V, VCC = 5V, SHDN = High, unless otherwise noted. PARAMETER CONDITIONS MIN TYP MAX UNITS
(ISPn-ISNn) Voltage In Regulation IAMPP = 2.20V, IAMPN = 0V, ILIM = 0V, ISNn = 12V l 21.25 26.75 mV IAMPP = 0.60V, IAMPN = 0V, ILIM = 0V, ISNn = 12V l –26.75 –21.25 mV IAMPP = 2.20V, IAMPN = 0V, ILIM = REG, ISNn = 12V l 45.0 51.0 mV IAMPP = 0.60V, IAMPN = 0V, ILIM = REG, ISNn = 12V l –51.0 –45.0 mV IAMPP = 2.20V, IAMPN = 0V, ILIM = Float, ISNn = 12V l 67.25 76.75 mV IAMPP = 0.60V, IAMPN = 0V, ILIM = Float, ISNn = 12V l –76.75 –67.25 mV (ISP-ISN) to IAMPP Voltage Gain ILIM = 0V, Master LT8550, ISN = 0V 33.3 ILIM = REG, Master LT8550, ISN = 0V 16.7 ILIM = FLOAT, Master LT8550, ISN = 0V 11.1 IAMPP Sourcing Current Limit (ISP-ISN) = 0mV, Master LT8550 l 250 µA IAMPP Sinking Current Limit (ISP-ISN) = 0mV, Master LT8550 l 60 µA IAMPP Load Regulation ILOAD = –200µA to 50µA, Master LT8550 1 mV IAMPP Pin Bias Current IAMPP = 1.2V, Slave LT8550 3 µA IAMPP = 2.4V, Slave LT8550 6 µA Mismatch Between (ISPn-ISNn) and Master ILIM = REG l –6 6 % LT8550’s (ISP-ISN) in Regulation –4.75 4.75 % Mismatch Between (ISPn-ISNn) and Master ILIM = FLOAT l –6 6 % LT8550’s (ISP-ISN) in Regulation –5.5 5.5 % Mismatch Between (ISPn-ISNn) and Master ILIM = 0V l –10 10 % LT8550’s (ISP-ISN) in Regulation –8 8 %
Oscillator
CLK1 Frequency RT/MS = 24.3kΩ, Master LT8550 l 900 1000 1100 kHz RT/MS = 100 kΩ, Master LT8550 l 236 250 264 kHz RT/MS = 249kΩ, Master LT8550 l 90 100 110 kHz Switching Frequency Range Free-Running l 100 1000 kHz Synchronizing l 125 1000 kHz SYNC High Level for Synchronization l 1.2 V SYNC Low Level for Synchronization l 0.8 V CLK1, CLK2 Rise Time CLOAD = 220pF, Master LT8550 (Note 4) 7 ns CLK1, CLK2 Fall Time CLOAD = 220pF, Master LT8550 (Note 4) 5 ns CLK2 Rising Threshold Slave LT8550 l 4.0 V CLK2 Falling Threshold Slave LT8550 l 1.0 V PHS1, PHS2 High Rising Threshold l 4.65 V PHS1, PHS2 High Threshold Hysteresis 80 mV PHS1, PHS2 Low Falling Threshold l 0.3 V PHS1, PHS2 Low Threshold Hysteresis 80 mV PHS1, PHS2 Impedance at Floating 11 kΩ PHS3 Rising Threshold l 4.65 V PHS3 Threshold Hysteresis 80 mV
REG LDO
REG Voltage REGSNS = 5V, IAMPN = 0V, ILOAD = 45mA l 4.9 5.1 5.3 V REG LDO Current Limit VIN = 12V, REGSNS = 5V, REG, VCC = 4V 250 mA VIN = 24V, REGSNS = 5V, REG, VCC = 4V 145 mA REG LDO Gate Drive Clamp Voltage (VIN – REGDRV) Voltage, REG, VCC = 4.5V 5.3 V REG Load Regulation ILOAD = 0 to 100mA, REGSNS = 5V, IAMPN = 0V 90 mV REGSNS Pin Bias Current REGSNS = 5V 12 µA Rev. 0 4 For more information www.analog.com