MB3887 Datasheet, PDF(16/33 Page) Fujitsu Component Limited. – DC/DC Converter IC for Charging Li-ion battery

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MB3887 Datasheet, PDF (16/33 Pages) Fujitsu Component Limited. – DC/DC Converter IC for Charging Li-ion battery

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MB3887

â FUNCTIONAL DESCRIPTION

1. DC/DC Converter Unit

(1) Reference voltage block (REF)

The reference voltage generator uses the voltage supplied from the VCC terminal (pin 18) to generate a tem-

perature-compensated, stable voltage (5.0 V Typ) used as the reference supply voltage for the ICâs internal

circuitry.

This terminal can also be used to obtain a load current to a maximum of 1mA from the reference voltage VREF

terminal (pin 6) .

(2) Triangular wave oscillator block (OSC)

The triangular wave oscillator builds the capacitor for frequency setting into, and generates the triangular wave

oscillation waveform by connecting the frequency setting resistor with the RT terminal (pin 17) .

The triangular wave is input to the PWM comparator on the IC.

(3) Error amplifier block (Error Amp1)

This amplifier detects the output signal from the current detection amplifier (Current amp1) , compares this to

the +INE1 terminal (pin 9) , and outputs a PWM control signal to be used in controlling the charging current.

In addition, an arbitrary loop gain can be set up by connecting a feedback resistor and capacitor between the

FB1 terminal (pin 7) and -INE1 terminal (pin 8) , providing stable phase compensation to the system.

(4) Error amplifier block (Error Amp2)

This amplifier (Error Amp2) detects voltage drop of the AC adapter and outputs a PWM control signal.

In addition, an arbitrary loop gain can be set by connecting a feedback resistor and capacitor from the FB2

terminal (pin 5) to the âINE2 terminal (pin 4) of the error amplifier, enabling stable phase compensation to the

system.

(5) Error amplifier block (Error Amp3)

This error amplifier (Error Amp3) detects the output voltage from the DC/DC converter and outputs the PWM

control signal. External output voltage setting resistors can be connected to the error amplifier inverted input

terminal to set the desired level of output voltage from 1 cell to 4 cells.

In addition, an arbitrary loop gain can be set by connecting a feedback resistor and capacitor from the FB3

terminal (pin 15) to the âINE3 terminal (pin 16) of the error amplifier, enabling stable phase compensation to

the system.

Connecting a soft-start capacitor to the CS terminal (pin 22) prevents rush currents when the IC is turned on.

Using an error amplifier for soft-start detection makes the soft-start time constant, independent of the output load.

(6) Current detection amplifier block (Current Amp1)

The current detection amplifier (Current Amp1) detects a voltage drop which occurs between both ends of the

output sense resistor (RS) due to the flow of the charge current, using the +INC1 terminal (pin 13) and âINC1

terminal (pin 12) . Then it outputs the signal amplified by 20 times to the error amplifier (Error Amp1) at the next

stage.

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