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October 9, 1997 Low-noise
step-up supply Larry Suppan, Maxim Integrated Products, Sunnyvale, CA Some two- to three-cell applications require negative potentials higher than the battery voltage. The typical GaAsFET transmitter in a cellular phone, for example, requires a negative bias of 5.5V at 5 mA. In the GaAsFET supply of Figure 1, two ICs derive 5.5V from a battery voltage of 3 to 5.3V. The simple charge-pump voltage doubler, IC1, applies 6 to 10V to the regulated voltage inverter, IC2, which also includes a charge pump for voltage conversion. The ICs maintain low switching noise by synchronizing their switching to eliminate beat frequencies: the square-wave output at pin 4 of IC1, typically 100 kHz, drives the OSC input (pin 4) of IC2. With the 10-µF capacitor shown, the typical output noise at 5 mA is 2 mV p-p. For input voltages higher than 4V, the circuit can source 20 mA with typical noise of 7 mV p-p. For VIN=3.09V and VOUT=5.5V, the input to IC2 is 6.02V, leaving 0.42V of head room in IC2. That number lets you estimate VOUT vs VIN. For VIN=2.5V, for example, the doubler output is about 4.9V. Subtracting the head room leaves an output voltage of 4.5V at 5 mA. (DI #2092) |
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