Datasheet LTC7899 (Analog Devices) - 9
| Hersteller | Analog Devices |
| Beschreibung | 140V, Low IQ, Negative to Positive Synchronous Boost Controller with 10V Gate Drive in 28-Lead QFN (4mm x 4mm x 0.75mm w/ EP) package |
| Seiten / Seite | 50 / 9 — Data Sheet. LTC7899. ABSOLUTE MAXIMUM RATINGS. Table 2. Absolute Maximum … |
| Dateiformat / Größe | PDF / 1.2 Mb |
| Dokumentensprache | Englisch |
Data Sheet. LTC7899. ABSOLUTE MAXIMUM RATINGS. Table 2. Absolute Maximum Ratings. PARAMETER. RATING. analog.com
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Data Sheet LTC7899 ABSOLUTE MAXIMUM RATINGS
T – A = 25°C, unless otherwise specified. All pins are with respect to VIN unless otherwise noted.
Table 2. Absolute Maximum Ratings PARAMETER RATING
Bias Input Supply (VBIAS) –0.3V to 140V RUN –0.3V to 140V BOOST –0.3V to 150V SW –5V to 150V BOOST to SW –0.3V to 15V TGUP, TGDN, BGUP, BGDN
1
Not applicable EXTVCC –0.3V to 30V DRVCC –0.3V to 14V EXTVCC to DRVCC -6V to 30V INTVCC –0.3V to 6V VFBB –0.3V to 6V PLLIN/SPREAD, FREQ, PHASMD –0.3V to 6V SS, ITH, ILIM –0.3V to 6V DRVSET, DRVUV, PGOOD –0.3V to 6V DTCA, DTCB, MODE, CLKOUT –0.3V to 6V VFBA –0.3V to 140V VFBA to SENSE– –0.3V to 0.3V SENSE+, SENSE– –0.3V to 140V SENSE+ to SENSE– Continuous –0.3V to 6V SENSE+ to SENSE– < 1ms -100mA to 100mA Operating Junction Temperature Range
2
–40°C to 150°C Storage Temperature Range –65°C to 150°C .1 Do not apply a voltage or current source to these pins. They must be connected to capacitive loads only. Otherwise, permanent damage can occur. 2 The LTC7899 is specified over the –40°C to 150°C operating junction temperature range. High junction temperatures degrade operating lifetimes. Note the maximum ambient temperature consistent with these specifications is determined by specific operating conditions in conjunction with the board layout, rated package thermal impedance, and other environmental factors. The junction temperature (TJ, in °C) is calculated from the ambient temperature (TA, in °C) and power dissipation (PD, in Watts) according to the following formula: TJ = TA + (PD × θJA), where θJA is the package thermal impedance and equals 43°C/W for the 28- lead (4mm × 5mm), quad flat no lead (QFN) package.
analog.com
Rev. 0 9 of 50 Document Outline Features Applications General Description Typical Application TABLE OF CONTENTS Revision History Specifications Absolute Maximum Ratings Pin Configurations and Function Descriptions Block Diagram Typical Performance Characteristics Theory of Operation Main Control Loop Power and Bias Supplies (VBIAS, EXTVCC, DRVCC, and INTVCC) High-Side Bootstrap Capacitor Dead Time Control (DTCA and DTCB Pins) Start-Up and Shutdown (RUN and SS Pins) Light Load Operation: Burst Mode Operation, Pulse-Skipping Mode, or Forced Continuous Mode (MODE Pin) Frequency Selection, Spread Spectrum, and Phase-Locked Loop (FREQ and PLLIN/SPREAD Pins) PolyPhase Applications (CLKOUT and PHASMD Pins) Output Overvoltage Protection Operation at Low Input Voltage BOOST Supply Refresh Power Good Applications Information Inductor Value Calculation Inductor Core Selection Current Sense Selection Low Value Resistor Current Sensing Inductor DCR Current Sensing Setting the Operating Frequency Selecting the Light Load Operating Mode Dead Time Control (DTCA and DTCB Pins) DTCx Pins Tied to INTVCC or VIN- (Adaptive Dead Time Control) DTCx pin connected with a resistor to VIN-: Power MOSFET Selection CIN and COUT Selection Setting the Output Voltage RUN Pin and Undervoltage Lockout Soft-Start (SS Pin) DRVCC and INTVCC Regulators (OPTI-DRIVE) Topside MOSFET Driver Supply (CB, DB) Minimum On-Time Considerations Fault Conditions: Overtemperature Protection Phase-Locked Loop and Frequency Synchronization Efficiency Considerations Checking Transient Response Design Example PC Board Layout Checklist PC Board Layout Debugging Typical Application Related Parts Outline Dimensions Ordering Guide
Data Sheet LTC7899 ABSOLUTE MAXIMUM RATINGS
T – A = 25°C, unless otherwise specified. All pins are with respect to VIN unless otherwise noted.
Table 2. Absolute Maximum Ratings PARAMETER RATING
Bias Input Supply (VBIAS) –0.3V to 140V RUN –0.3V to 140V BOOST –0.3V to 150V SW –5V to 150V BOOST to SW –0.3V to 15V TGUP, TGDN, BGUP, BGDN
1
Not applicable EXTVCC –0.3V to 30V DRVCC –0.3V to 14V EXTVCC to DRVCC -6V to 30V INTVCC –0.3V to 6V VFBB –0.3V to 6V PLLIN/SPREAD, FREQ, PHASMD –0.3V to 6V SS, ITH, ILIM –0.3V to 6V DRVSET, DRVUV, PGOOD –0.3V to 6V DTCA, DTCB, MODE, CLKOUT –0.3V to 6V VFBA –0.3V to 140V VFBA to SENSE– –0.3V to 0.3V SENSE+, SENSE– –0.3V to 140V SENSE+ to SENSE– Continuous –0.3V to 6V SENSE+ to SENSE– < 1ms -100mA to 100mA Operating Junction Temperature Range
2
–40°C to 150°C Storage Temperature Range –65°C to 150°C .1 Do not apply a voltage or current source to these pins. They must be connected to capacitive loads only. Otherwise, permanent damage can occur. 2 The LTC7899 is specified over the –40°C to 150°C operating junction temperature range. High junction temperatures degrade operating lifetimes. Note the maximum ambient temperature consistent with these specifications is determined by specific operating conditions in conjunction with the board layout, rated package thermal impedance, and other environmental factors. The junction temperature (TJ, in °C) is calculated from the ambient temperature (TA, in °C) and power dissipation (PD, in Watts) according to the following formula: TJ = TA + (PD × θJA), where θJA is the package thermal impedance and equals 43°C/W for the 28- lead (4mm × 5mm), quad flat no lead (QFN) package.
analog.com
Rev. 0 9 of 50 Document Outline Features Applications General Description Typical Application TABLE OF CONTENTS Revision History Specifications Absolute Maximum Ratings Pin Configurations and Function Descriptions Block Diagram Typical Performance Characteristics Theory of Operation Main Control Loop Power and Bias Supplies (VBIAS, EXTVCC, DRVCC, and INTVCC) High-Side Bootstrap Capacitor Dead Time Control (DTCA and DTCB Pins) Start-Up and Shutdown (RUN and SS Pins) Light Load Operation: Burst Mode Operation, Pulse-Skipping Mode, or Forced Continuous Mode (MODE Pin) Frequency Selection, Spread Spectrum, and Phase-Locked Loop (FREQ and PLLIN/SPREAD Pins) PolyPhase Applications (CLKOUT and PHASMD Pins) Output Overvoltage Protection Operation at Low Input Voltage BOOST Supply Refresh Power Good Applications Information Inductor Value Calculation Inductor Core Selection Current Sense Selection Low Value Resistor Current Sensing Inductor DCR Current Sensing Setting the Operating Frequency Selecting the Light Load Operating Mode Dead Time Control (DTCA and DTCB Pins) DTCx Pins Tied to INTVCC or VIN- (Adaptive Dead Time Control) DTCx pin connected with a resistor to VIN-: Power MOSFET Selection CIN and COUT Selection Setting the Output Voltage RUN Pin and Undervoltage Lockout Soft-Start (SS Pin) DRVCC and INTVCC Regulators (OPTI-DRIVE) Topside MOSFET Driver Supply (CB, DB) Minimum On-Time Considerations Fault Conditions: Overtemperature Protection Phase-Locked Loop and Frequency Synchronization Efficiency Considerations Checking Transient Response Design Example PC Board Layout Checklist PC Board Layout Debugging Typical Application Related Parts Outline Dimensions Ordering Guide