RT8206A RICHTEK [Richtek Technology Corporation], RT8206A Datasheet - Page 18
RT8206A
Manufacturer Part Number
RT8206A
Description
High-Efficiency, Main Power Supply Controllers for Notebook Computers
Manufacturer
RICHTEK [Richtek Technology Corporation]
Datasheet
1.RT8206A.pdf
(26 pages)
Available stocks
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Part Number
Manufacturer
Quantity
Price
Part Number:
RT8206AGQW
Manufacturer:
RICHTEK/立锜
Quantity:
20 000
RT8206A/B
Application Information
The RT8206A/B is a dual, high efficiency, Mach
Response
buck controller. The controller is designed for low-voltage
power supplies for notebook computers. Richtek Mach
Response
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 DRV
to have better noise immunity for such a dual output
application. The RT8206A/B achieves high efficiency at a
reduced cost by eliminating the current-sense resistor
found in traditional current-mode PWMs. Efficiency is
further enhanced by its ability to drive very large
synchronous rectifier MOSFETs. The RT8206A/B includes
5V (LDO) linear regulator which can step down the battery
voltage to supply both internal circuitry and gate drivers.
When V
turns off the linear regulator and powers the device from
V
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. Refer to the
function block diagram, the UGATE driver will be turned
on at the beginning of each cycle. After the internal one-
shot timer expires, the UGATE driver 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 is 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
and output voltage into the on-time one-shot timer. The
high-side switch on-time is inversely proportional to the
www.richtek.com
18
OUT1
through BYP pin connected to V
OUT1
TM
TM
TM
mode PWM modulator is specifically designed
voltage is above 4.66V, an automatic circuit
DRV
technology is specifically designed for
TM
dual ramp valley mode synchronous
TM
TM
DRV
control architecture runs with
TM
mode controller relies on
OUT1
.
input voltage as measured by the V
the output voltage. The on-time is given by :
On-Time= K (V
There “K” is set by the TON pin-strap connector (Table
1). One-shot timing error increases for the shorter on-
time setting due to fixed propagation delays that is
approximately ±15% at high frequency and the ±10% at
low frequency. The on-time guaranteed in the Electrical
Characteristics tables 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
of frequency with changing load current. The dead-time
effect increases the effective on-time, reducing the
switching frequency as one or both dead times. It occurs
only in PWM mode (SKIP = high) when the inductor
current reverses at light or negative load currents. With
reversed inductor current, the inductor's EMF causes
PHASE
time by a period equal to the low-to-high dead time. For
loads above the critical conduction point, the actual
switching frequency is :
F
The V
inductor discharge path, including synchronous rectifier,
inductor, and PC board resistances; V
the resistances in the charging path; and T
time calculated by the RT8206A/B.
S
Table 1. TON Setting and PWM Frequency Table
K-Factor Error
= (V
Approximate
Frequency
Frequency
K-Factor
K-Factor
DROP1
V
V
V
V
TON
OUT
X
OUT1
OUT1
OUT2
OUT2
to go high earlier than normal, extending the on-
+V
is the sum of the parasitic voltage drops in the
DROP1
OUT
/ V
) / T
200kHz
250kHz
= VCC
±10%
TON
IN
5μs
4μs
ON
)
x (V
DS8206A/B-04 March 2011
IN
300kHz
375kHz
±12.5%
+ V
3.33μs
2.67μs
= REF
TON
IN
, and proportional to
DROP1
DROP2
− V
is the sum of
ON
400kHz
500kHz
= GND
DROP2
2.5μs
±15%
is the on-
TON
2μs
)
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