RT8205L RICHTEK [Richtek Technology Corporation], RT8205L Datasheet - Page 17

RT8205L

Manufacturer Part Number

RT8205L

Description

High Efficiency, Main Power Supply Controller for Notebook Computer

Manufacturer

RICHTEK [Richtek Technology Corporation]

Datasheet

1.RT8205L.pdf (26 pages)

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Application Information

The RT8205L/M is a dual, Mach Response

ramp valley mode synchronous buck controller. The

controller is designed for low-voltage power supplies for

notebook computers. Richtek's Mach Response

technology is specifically designed for providing 100ns

“instant-on” response to load steps while maintaining a

relatively constant operating frequency and inductor

operating point over a wide range of input voltages. The

topology circumvents the poor load-transient timing

problems of fixed-frequency current-mode PWMs while

avoiding the problems caused by widely varying switching

frequencies in conventional constant-on-time and constant-

off-time PWM schemes. The DRV

modulator is specifically designed to have better noise

immunity for such a dual output application. The RT8205L/

M includes 5V (VREG5) and 3.3V (VREG3) linear

regulators. VREG5 linear regulator can step down the

battery voltage to supply both internal circuitry and gate

drivers. The synchronous-switch gate drivers are directly

powered from VREG5. When VOUT1 voltage is above

4.66V, an automatic circuit will switch the power of the

device from VREG5 linear regulator to VOUT1.

PWM Operation

The Mach Response

the output filter capacitor's Effective Series Resistance

(ESR) to act as a current-sense resistor, so the output

ripple voltage provides the PWM ramp signal. Referring to

the RT8205L/M's function block diagram, the synchronous

high side MOSFET will be turned on at the beginning of

each cycle. After the internal one-shot timer expires, the

MOSFET will be turned off. The pulse width of this one

shot is determined by the converter's input voltage and

the output voltage to keep the frequency fairly constant

over the input voltage range. Another one-shot sets a

minimum off-time (300ns typ.). The on-time one-shot will

be triggered if the error comparator is high, the low side

switch current is below the current limit threshold, and

the minimum off-time one-shot has timed out.

PWM Frequency and On-Time Control

The Mach Response

pseudo constant frequency by feed forwarding the input

DS8205L/M-05 June 2011

DRV

control architecture runs with

mode controller relies on

mode PWM

DRV

dual

and output voltage into the on-time one shot timer. The

high side switch on-time is inversely proportional to the

input voltage as measured by V

output voltage. There are two benefits of a constant

switching frequency. First, the frequency can be selected

to avoid noise-sensitive regions such as the 455kHz IF

band. Second, the inductor ripple-current operating point

remains relatively constant, resulting in easy design

methodology and predictable output voltage ripple.

Frequency for the 3V SMPS is set at 1.25 times higher

than the frequency for 5V SMPS. This is done to prevent

audio frequency “beating” between the two sides, which

switches asynchronously for each side. The frequencies

are set by the TONSEL pin connection as shown in Table

1. The on-time is given by :

where “K” is set by the TONSEL pin connection (Table

1).

The on-time guaranteed in the Electrical Characteristics

table is influenced by switching delays in the external

high side power MOSFET. Two external factors that

influence switching frequency accuracy are resistive drops

in the two conduction loops (including inductor and PC

board resistance) and the dead time effect. These effects

are the largest contributors to the change frequency with

changing load current. The dead time effect increases the

effective on-time by reducing the switching frequency. It

occurs only in PWM mode (SKIPSEL = GND) when the

inductor current reverses at light or negative load currents.

With reversed inductor current, the inductor's EMF causes

PHASEx

the on-time by a period equal to the low-to-high dead time.

For loads above the critical conduction point, the actual

switching frequency is :

where V

the inductor discharge path, which includes the

synchronous rectifier, inductor, and PC board resistances.

and t

DROP2

= ×

OUT

K (V

is the sum of the resistances in the charging path;

is the on-time.

DROP1

to go high earlier than normal, thus extending

OUT

DROP1

is the sum of the parasitic voltage drops in

V )

) (t

RT8205L/M

, and proportional to the

DROP1

www.richtek.com

−

DROP2

))

RT8205L RICHTEK [Richtek Technology Corporation], RT8205L Datasheet - Page 17

RT8205L

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