PDF LTC1697 Data sheet ( Hoja de datos )

Número de pieza	LTC1697
Descripción	High Efficiency Low Power 1W CCFL Switching Regulator
Fabricantes	Linear
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No Preview Available ! LTC1697 High Efficiency Low Power 1W CCFL Switching Regulator FEATURES ■ Operates from Single Li-Ion Battery ■ 2.8V to 5.5V Input Voltage Range ■ Very Low Shutdown Current: <2µA ■ Synchronous Buck Architecture for High Efficiency ■ PWM Dimming Frequency Adjustable with a Single Capacitor ■ Accurate Lamp Current Maximizes Lamp Lifetime ■ Fixed Frequency Operation at 300kHz ■ Internal or External PWM Dimming ■ Small 10-Pin MSOP Package U APPLICATIO S ■ PDAs ■ Handheld Computers ■ Portable Instruments ■ Handheld GPS with Map Display ■ Handheld TV/Video Monitor DESCRIPTIO The LTC®1697 is designed to control a single 1W cold cathode fluorescent lamp (CCFL). An internal PWM dim- ming system maximizes efficiency and dimming range. Accurate lamp currents can be set with a single external resistor. The LTC1697 includes a synchronous current mode PWM controller with internal 1A MOSFET switches. It contains a 300kHz oscillator, 0.8V reference, and internal current sense. It operates from a 2.8V to 5.5V input voltage. The LTC1697 also has a thermal limit and a shutdown that reduces supply current to <2µA. The LTC1697 is available in the MSOP-10 package. , LTC and LT are registered trademarks of Linear Technology Corporation. Protected by U.S. Patent 6522116. TYPICAL APPLICATIO 65 1 10 2 3 4 27pF 1kV VIN 2.8V TO 5.5V 330Ω 0.15µF CCFL LAMP + Li-Ion CELL 33µH 200k 10µF OFF ON DIMMING INPUT 1V(0%) – 2V(100%) 0.022µF VIN SW 0VSEN SHDN LTC1697 VDIM LAMP CDIM RPROG VC GND 8.25k 0.1µF 1697 TA01 ICCFL vs RPROG 10 9 8 7 6 5 4 3 2 4k 6k 8k 10k RPROG (Ω) 20k 1967 TA01b 1697f 1 1 page LTC1697 APPLICATIO S I FOR ATIO Background Current generation handheld computers and instruments typically use backlit liquid crystal displays (LCDs). Cold cathode fluorescent lamps (CCFLs) provide the highest available efficiency for backlighting the display, where providing the most light out for the least amount of input power is the most important goal. These lamps require high voltage AC to operate, mandating an efficient high voltage DC/AC converter. The lamps operate from DC, but migration effects damage the lamp and shorten its life- time. Lamp drive should ideally contain zero DC compo- nent. In addition to good efficiency, the converter should deliver the lamp drive in the form of a sine wave. This minimizes EMI and RF emissions, which can interfere with other devices and degrade overall operating efficiency. Sinusoidal CCFL drive also maximizes current-to-light conversion in the lamp. The circuit also permits lamp intensity control from zero to full brightness with no hysteresis or “pop-on.” The small size and battery-powered operation associated with LCD-equipped apparatus dictate low component count and high efficiency for these circuits. Size con- straints place severe limitations on circuit architecture and long battery life is usually a priority. Handheld portable computers offer an excellent example. The CCFL and its power supply can be responsible for almost 50% of the total battery drain. The CCFL regulator drives an inductor that acts as a switch-mode current source for a current-driven Royer- class converter with efficiencies as high as 90%. The control loop forces the CCFL PWM to modulate the aver- age inductor current to maintain constant current in the lamp. This constant current and the resulting lamp inten- sity is programmable. Lamp intensity is further controlled by modulating the current to the Royer converter at 150Hz to 500Hz. Operation The LTC1697 is a fixed frequency, current mode regulator. Such a switcher controls switch duty cycle directly by switch current rather than by output voltage. Referring to the block diagram for the LTC1697, the NMOS switch turns ON at the start of each oscillator cycle. The NMOS switch turns back OFF when switch current reaches a predetermined level. Current Sensing Lossless current sensing converts the peak current signal to a voltage which is summed with the internal slope compensation. This summed signal is compared to VC to provide a peak current control command for the PWM. Current Limit The current limit amplifier will shut the NMOS switch off once the current exceeds the current limit threshold. The current amplifier delay to the output is typically 50ns. Synchronous Rectifier The LTC1697 operates as a synchronous converter. When the NMOS switch turns OFF as mentioned above, the PMOS switch turns ON. This gives a low resistance current path for the inductor current back to VIN. Dimming PWM An on-chip PWM dimming circuit enables and disables the current mode regulator for each dimming cycle. It also disconnects the feedback network from the compensation node (VC) to reduce slew time at the next enable time. The oscillator for the dimming PWM produces a triangle wave whose frequency is determined by an external capacitor on the CDIM pin. The dimming PWM frequency is equal to 5Hz/CDIM(µF) with its duty cycle set by the voltage on the 1697f 5 5 Page

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