Datasheet Linear Technology LTC1735IF#PBF — Ficha de datos
Fabricante | Linear Technology |
Serie | LTC1735 |
Numero de parte | LTC1735IF#PBF |
Regulador de conmutación descendente síncrono de alta eficiencia
Hojas de datos
Datasheet LTC1735
PDF, 415 Kb, Idioma: en, Archivo subido: sept 20, 2017, Páginas: 32
High Efficiency Synchronous Step-Down Switching Regulator
High Efficiency Synchronous Step-Down Switching Regulator
Extracto del documento
Precios
Embalaje
Package | TSSOP-20 |
Package Code | F |
Package Index | 05-08-1650 (F20) |
Paramétricos
Architecture | Constant Frequency Current Mode |
Demo Boards | DC222A,DC247A |
Design Tools | LTspice Model |
Export Control | no |
Features | External Synchronization, Resistor Set Frequency, Active Voltage Positioning, Power Good, Soft Start |
Frequency | 300 kHz |
Frequency Adjust Range | Up to 500kHz |
Frequency Sync Range | Up to 500kHz |
Integrated Inductor | no |
Ishutdown | 15 µA |
Isupply | 0.45 mA |
Max Phases | 1 |
Monolithic | no |
Number of Outputs | 1 |
Operating Temperature Range | -40 to 85 °C |
Output Current | 20 A |
Polyphase | no |
Sense Resistor | Rsense |
Switch Current | 20 A |
Synchronous | yes |
Topology | Buck |
Vin Max | 36 V |
Vin Min | 3.5 V |
Vout Max | 7 V |
Vout Maximum | 7V |
Vout Min | 0.8 V |
Vref Accuracy Over Temp | 1 % |
Plan ecológico
RoHS | Obediente |
Notas de aplicación
- OPTI-LOOP Architecture Reduces Output Capacitance and Improves Transient Response &mdash AN76PDF, 271 Kb, Archivo publicado: mayo 1, 1999
Loop compensation is an uncomfortable subject for many engineers. Experienced power supply designers know that optimum loop compensation is necessary to get the best performance from their power supplies. This application note discusses power supply loop compensation utilizing the features provided by the OPTILOOPTM architecture. Loop compensation basics are presented and simple equations are given for frequency response approximations. Typical transient response requirements for the system supply and CPU supply, used in notebook computers, are discussed. Output voltage transient response waveforms and Bode plots are shown for both optimized and nonoptimized control loops as well as for circuits with optimized loops using different output capacitors. Although this publication focuses on circuits using the LTC1628, LTC1735 and LTC1736, the information applies to all regulators equipped with OPTI-LOOP architecture.Extracto del documento
Notas de Diseño
- Active Voltage Positioning Reduces Output Capacitors &mdash Design Solutions 10PDF, 130 Kb, Archivo publicado: nov 1, 1999Extracto del documento
- LTC1735 Provides Low Cost, Efficient Mobile CPU Power &mdash DN199PDF, 78 Kb, Archivo publicado: marzo 1, 1999Extracto del documento
- 2-Step Voltage Regulation Improves Performance and Decreases CPU Temperature in Portable Computers &mdash DN209PDF, 79 Kb, Archivo publicado: agosto 1, 1999Extracto del documento
- Microprocessor Core Supply Voltage Set by I2C Bus Without VID Lines &mdash DN279PDF, 75 Kb, Archivo publicado: marzo 1, 2002Extracto del documento
Artículos
- Third-Generation DC/DC Controllers Reduce Size and Cost &mdash LT JournalPDF, 140 Kb, Archivo publicado: feb 1, 1999Extracto del documento
- Active Voltage Positioning Saves Output Capacitors in Portable Computer Applications &mdash LT JournalPDF, 169 Kb, Archivo publicado: feb 1, 2000Extracto del documento
- LTC1645/LTC1735 Circuit Solves PCI Power Problem &mdash LT JournalPDF, 232 Kb, Archivo publicado: feb 1, 2000Extracto del documento
- A Third Generation Dual, Opposing-Phase Switching Regulator Controller &mdash LT JournalPDF, 172 Kb, Archivo publicado: jun 1, 1999Extracto del documento
- SMBus Controls CPU Voltage Regulators without VID Pins &mdash LT JournalPDF, 148 Kb, Archivo publicado: sept 1, 2001Extracto del documento
Linea modelo
Serie: LTC1735 (14)
Clasificación del fabricante
- Power Management > Switching Regulator > Step-Down (Buck) Regulators > External Power Switch Buck Controllers
Otros nombres:
LTC1735IFPBF, LTC1735IF PBF