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TOP221GN Datasheet(PDF) 4 Page - Power Integrations, Inc.

Part # TOP221GN
Description  Three-terminal Off-line PWM Switch
Download  21 Pages
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Manufacturer  POWERINT [Power Integrations, Inc.]
Direct Link  http://www.powerint.com
Logo POWERINT - Power Integrations, Inc.

TOP221GN Datasheet(HTML) 4 Page - Power Integrations, Inc.

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TOP221-227
D
7/01
4
Control Voltage Supply
CONTROL pin voltage V
C is the supply or bias voltage for the
controller and driver circuitry. An external bypass capacitor
closely connected between the CONTROL and SOURCE pins
is required to supply the gate drive current. The total amount
of capacitance connected to this pin (C
T) also sets the auto-
restart timing as well as control loop compensation. V
C is
regulated in either of two modes of operation. Hysteretic
regulation is used for initial start-up and overload operation.
Shunt regulation is used to separate the duty cycle error signal
from the control circuit supply current.
During start-up,
CONTROL pin current is supplied from a high-voltage switched
current source connected internally between the DRAIN and
CONTROL pins. The current source provides sufficient current
to supply the control circuitry as well as charge the total
external capacitance (C
T).
The first time V
C reaches the upper threshold, the high-voltage
current source is turned off and the PWM modulator and output
transistor are activated, as shown in Figure 5(a). During normal
operation (when the output voltage is regulated) feedback
control current supplies the V
C supply current.
The shunt
regulator keeps V
C at typically 5.7 V by shunting CONTROL
pin feedback current exceeding the required DC supply current
through the PWM error signal sense resistor R
E.
The low
dynamic impedance of this pin (Z
C) sets the gain of the error
amplifier when used in a primary feedback configuration. The
dynamic impedance of the CONTROL pin together with the
external resistance and capacitance determines the control loop
compensation of the power system.
If the CONTROL pin total external capacitance (C
T) should
discharge to the lower threshold, the output MOSFET is turned
off and the control circuit is placed in a low-current standby
mode. The high-voltage current source turns on and charges the
external capacitance again. Charging current is shown with a
negative polarity and discharging current is shown with a
positive polarity in Figure 6. The hysteretic auto-restart
comparator keeps V
C within a window of typically 4.7 to 5.7 V
by turning the high-voltage current source on and off as shown
in Figure 5(b).
The auto-restart circuit has a divide-by-8
counter which prevents the output MOSFET from turning on
again until eight discharge-charge cycles have elapsed. The
counter effectively limits TOPSwitch power dissipation by
reducing the auto-restart duty cycle to typically 5%. Auto-
restart continues to cycle until output voltage regulation is
again achieved.
Bandgap Reference
All critical TOPSwitch internal voltages are derived from a
temperature-compensated bandgap reference. This reference
is also used to generate a temperature-compensated current
source which is trimmed to accurately set the oscillator frequency
and MOSFET gate drive current.
Oscillator
The internal oscillator linearly charges and discharges the
internal capacitance between two voltage levels to create a
sawtooth waveform for the pulse width modulator. The oscillator
sets the pulse width modulator/current limit latch at the beginning
of each cycle. The nominal frequency of 100 kHz was chosen
to minimize EMI and maximize efficiency in power supply
applications. Trimming of the current reference improves the
frequency accuracy.
Pulse Width Modulator
The pulse width modulator implements a voltage-mode control
loop by driving the output MOSFET with a duty cycle inversely
proportional to the current into the CONTROL pin which
generates a voltage error signal across R
E.
The error signal
across R
E is filtered by an RC network with a typical corner
frequency of 7 kHz to reduce the effect of switching noise. The
filtered error signal is compared with the internal oscillator
sawtooth waveform to generate the duty cycle waveform. As
the control current increases, the duty cycle decreases. A clock
signal from the oscillator sets a latch which turns on the output
MOSFET. The pulse width modulator resets the latch, turning
off the output MOSFET. The maximum duty cycle is set by the
symmetry of the internal oscillator.
The modulator has a
minimum ON-time to keep the current consumption of the
TOPSwitch independent of the error signal. Note that a minimum
current must be driven into the CONTROL pin before the duty
cycle begins to change.
Gate Driver
The gate driver is designed to turn the output MOSFET on at a
controlled rate to minimize common-mode EMI. The gate drive
current is trimmed for improved accuracy.
Error Amplifier
The shunt regulator can also perform the function of an error
amplifier in primary feedback applications. The shunt regulator
voltage is accurately derived from the temperature compensated
bandgap reference. The gain of the error amplifier is set by the
CONTROL pin dynamic impedance. The CONTROL pin
clamps external circuit signals to the V
C voltage level.
The
CONTROL pin current in excess of the supply current is
separated by the shunt regulator and flows through R
E as a
voltage error signal.
Cycle-By-Cycle Current Limit
The cycle by cycle peak drain current limit circuit uses the
output MOSFET ON-resistance as a sense resistor. A current
limit comparator compares the output MOSFET ON-state drain-
source voltage, V
DS(ON) with a threshold voltage.
High drain
current causes V
DS(ON) to exceed the threshold voltage and turns
the output MOSFET off until the start of the next clock cycle.
The current limit comparator threshold voltage is temperature
TOPSwitch-II Family Functional Description (cont.)


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