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LM2621 Datasheet(PDF) 8 Page - Texas Instruments |
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LM2621 Datasheet(HTML) 8 Page - Texas Instruments |
8 / 17 page LM2621 SNVS033D – MAY 2004 – REVISED NOVEMBER 2015 www.ti.com 7 Detailed Description 7.1 Overview The LM2621 is designed to provide step-up DC-DC voltage regulation in battery-powered and low-input voltage systems. It combines a step-up switching regulator, N-channel power MOSFET, built-in current limit, thermal limit, and voltage reference in a single 8-pin VSSOP package Pin Configuration and Functions. The switching DC-DC regulator boosts an input voltage between 1.2 V and 14 V to a regulated output voltage between 1.24 V and 14 V. The LM2621 starts from a low 1.1-V input and remains operational down to 0.65 V. This device is optimized for use in cellular phones and other applications requiring a small size, low profile, as well as low quiescent current for maximum battery life during stand-by and shutdown. A high-efficiency gated- oscillator topology offers an output of up to 1 A. Additional features include a built-in peak switch current limit, and thermal protection circuitry. 7.2 Functional Block Diagram 7.3 Feature Description 7.3.1 Gated Oscillator Control Scheme A unique gated oscillator control scheme enables the LM2621 to have an ultra-low quiescent current and provides a high efficiency over a wide load range. The switching frequency of the internal oscillator is programmable using an external resistor and can be set between 300 kHz and 2 MHz. This control scheme uses a hysteresis window to regulate the output voltage. When the output voltage is below the upper threshold of the window, the LM2621 switches continuously with a fixed duty cycle of 70% at the switching frequency selected by the user. During the first part of each switching cycle, the internal N-channel MOSFET switch is turned on. This causes the current to ramp up in the inductor and store energy. During the second part of each switching cycle, the MOSFET is turned off. The voltage across the inductor reverses and forces current through the diode to the output filter capacitor and the load. Thus when the LM2621 switches continuously, the output voltage starts to ramp up. When the output voltage hits the upper threshold of the window, the LM2621 stops switching completely. This causes the output voltage to droop because the energy stored in the output capacitor is depleted by the load. When the output voltage hits the lower threshold of the hysteresis window, the LM2621 starts switching continuously again causing the output voltage to ramp up towards the upper threshold. Figure 12 shows the switch voltage and output voltage waveforms. Because of this type of control scheme, the quiescent current is inherently very low. At light loads the gated oscillator control scheme offers a much higher efficiency compared to the conventional PWM control scheme. 8 Submit Documentation Feedback Copyright © 2004–2015, Texas Instruments Incorporated Product Folder Links: LM2621 |
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