NCP5005GEVB ON Semiconductor, NCP5005GEVB Datasheet
NCP5005GEVB
Specifications of NCP5005GEVB
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NCP5005GEVB Summary of contents
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NCP5005 Compact Backlight LED Boost Driver The NCP5005 is a high efficiency boost converter operating in current loop, based on a PFM mode, to drive White LED. The current mode regulation allows a uniform brightness of the LEDs. The chip ...
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V bat GND GND 3 FB NCP5005 R1 D6 GND 15 W LWT67C Figure 1. Typical Application Thermal Shutdown 4 EN 100 k GND − 300 k +200 mV Band Gap Figure 2. ...
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PIN FUNCTION DESCRIPTION Pin Pin Name Type 1 V POWER out 2 GND POWER 3 FB ANALOG INPUT 4 EN DIGITAL INPUT 5 V POWER bat NCP5005 Description This pin is the power side of the external inductor and must ...
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MAXIMUM RATINGS Rating Power Supply Output Power Supply Voltage Compliance Digital Input Voltage Digital Input Current ESD Capability (Note 1) Human Body Model (HBM) Machine Model (MM) TSOP−5 Package Power Dissipation @ T = +85°C (Note 2) A Thermal Resistance, ...
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ANALOG SECTION (Typical values are referenced to T temperature, unless otherwise noted.) Rating High Level Input Voltage Low Level Input Voltage EN Pull Down Resistor Feedback Voltage Threshold Output Current Stabilization Time Delay following a DC/DC Start−up, = 3.60 V, ...
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Basically, the chip operates with two cycles: Cycle #1: time t1, the energy is stored into the inductor Cycle #2: time t2, the energy is dumped to the load The POR signal sets the flip−flop and the first cycle takes ...
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f(V out bat 1200 3 LED 1000 2 LED 800 5 LED 600 400 200 out bat (V) bat Figure 5. ...
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Output Current Range Set−Up The current regulation is achieved by means of an external sense resistor connected in series with the LED string The current flowing through the LED creates a voltage drop across the sense resistor R1. ...
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Output Load Drive In order to optimize the built−in Boost capabilities, one shall operate the NCP5005 in the continuous output current mode. Such a mode is achieved by using and external reservoir capacitor (see Table 1) across the LED. At ...
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Yield = f mA/L bat out 100 2 LED/ LED/ LED/ LED/ 2.50 3.00 3.50 4.00 4.50 V ...
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NCP5005 TYPICAL OPERATING WAVEFORMS = 22 mH, 5 LED, I Conditions 3 bat out Figure 20. Typical Power Up Response V load Inductor Current = 22 mH, 5 LED, I Conditions 3 ...
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NCP5005 TYPICAL OPERATING WAVEFORMS = 22 mH, 5 LED, I Conditions 3 bat out Figure 22. Typical Inductor Current = 22 mH, 5 LED, I Conditions 3 bat out Figure 23. Typical ...
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NCP5005 TYPICAL OPERATING WAVEFORMS Test Conditions mH mA, V out Figure 24. Typical Output Peak Voltage 92.00 90.00 ESR = 0.3 W 88.00 86.00 84.00 ESR = 1.3 W 82.00 80.00 78.00 3 3.5 ...
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Figure 26. Noise Returned to the Battery Test Conditions 3 bat Figure 27. Relative EMI Over 100 kHz − 30 MHz Bandwidth NCP5005 10 100 FREQUENCY (MHz mA, ...
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TYPICAL APPLICATIONS CIRCUITS Standard Feedback The standard feedback provides a constant current to the LED, independently of the V supply and number of LED bat GND R1 GND 15 W Figure 28. Basic DC Current Mode Operation with Analog Feedback ...
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Average Network R2 PWM 150 k GND NOTE: RC filter R2 and C3 is optional (see text) Figure 29. Basic DC Current Mode Operation with PWM Control To implement such a function, let consider the feedback input as an operational ...
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Digital Control Due to the EN pin, a digitally controlled luminosity can be implemented by providing a PWM signal to this pin (see Figure 31). The output current depends upon the Duty Pulse R1 GND 22 W NOTE: Pulse width ...
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NCP5005 Figure 33. Operation @ PWM = 10 kHz 25% Figure 34. Magnified View of Operation @ PWM = 10 kHz 25% http://onsemi.com 18 PWM V load VFB PWR CLK PWM V load PWR CLK ...
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Figure 35. Output Current as a Function of the Operating Condition Table 1. Recommended Passive Parts Part Manufacturer Ceramic Capacitor 1.0 mF/16 V Ceramic Capacitor 1.0 mF/25 V ...
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Typical LEDs Load Mapping Since the output power is voltage battery limited (see Figure 5), one shall arrange the LED to cope with a specific need. In particular, since the power cannot extend 600 Load D1 LED ...
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J1 VBAT GND J2 GROUND GND V bat ENABLE GND TP2 FB R1 51R Z1 GND GND Note: Use Jumper JP2 to JP3 to adjust the number of LED in the operating string Figure 37. ...
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FIGURES INDEX Figure 1: Typical Application . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...
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... H *For additional information on our Pb−Free strategy and soldering details, please download the ON Semiconductor Soldering and Mounting Techniques Reference Manual, SOLDERRM/D. ON Semiconductor and are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice to any products herein ...