TK75005MCMG データシートの表示(PDF) - Toko America Inc
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TK75005MCMG Datasheet PDF : 9 Pages
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TK75005
PIN DESCRIPTIONS
DRIVE PIN (DRV)
This pin drives the external MOSFET with a totem pole
output stage capable of sinking or sourcing a peak current
of about 1 A. In standby mode, the DRV pin can sink about
5 mA while keeping the drive pin pulled down to about 1 V.
This ensures that the external MOSFET can not be
inadvertently turned on by leakage currents. The maximum
duty cycle of the output signal is typically 89%.
GROUND PIN (GND)
This pin provides ground return for the IC.
OVERVOLTAGE PROTECTION INPUT PIN (OVP)
This pin provides a means of turning off the external
transistor drive output independent of the PWM loop. This
pin is normally used for overvoltage protection, but can
also be used to provide a drive disabled function. The pin
is the input to comparator with its other input referenced to
2.6 V, which tracks Vref of error amp over temperature. and
its output controlling the output driver of the IC. Therefore,
if a voltage appears at this pin over 2.6 V, the voltage at
the DRV pin drops to zero.
TIMING CAPACITOR PIN (CT)
The external timing capacitor is connected to the CT pin.
That capacitor is the only component needed for setting
the clock frequency. The frequency measured at the CT pin
is the same frequency as measured at the DRV pin. As the
frequency of operation increases above 200 kHz, the
maximum duty cycle decreases from a typical 89% at
200 kHz to 82% at 1.6 MHz. The maximum recommended
clock frequency of the device is 1.6 MHz. At normal
operation, during the rising section of the timing-capacitor
voltage, a trimmed internal current of 175 µA flows out from
the C pin and charges the capacitor. During the falling
T
section of the timing-capacitor voltage, an internal current
of about 1.8 mA discharges the capacitor.
FEEDBACK INPUT PIN (FB)
The feedback pin normally receives the sum of three
signals: the switch current signal, the error signal (from the
internal error amplifier and the GM stage), and a voltage
ramp (from an internal sawtooth-shaped current with a
peak value of about 205 µA) generated across the external
terminating resistance. The switch current signal is needed
in current-mode controlled converters and in converters
with cycle-by-cycle overload protection. The error signal is
needed for stabilizing the output voltage or current. The
voltage ramp is needed for slope compensation (necessary
for avoiding subharmonic instability in constant-frequency
peak-current controlled current-mode converters above
50% duty ratio), or for Pulse Width Modulation (PWM) (in
voltage-mode controlled converters).
At higher clock frequencies, the bandwidth limitation of the
internally-generated sawtooth-shaped current source
becomes more apparent. The degree to which ramp
bandwidth is tolerable depends on performance
requirements at narrow pulse widths. A low impedance at
the feedback pin can effectively eliminate the internally-
generated ramp effects and an external ramp can be
readily created to attain higher performance at high
frequencies, if desired.
ERROR AMPLIFIER COMPENSATION INPUT PIN (EAIN)
This pin is the inverting input of an operational amplifier
which has its non-inverting input connected to 2.5 V. This
is called the error amp because it amplifies the error
between this pin’s voltage and 2.5 V reference, which
should reflect the error in the power supply’s output
regulation. The error amp provides a high gain stage so
that the voltage loop gain can be high enough to provide
good output voltage regulation.
ERROR AMPLIFIER COMPENSATION OUTPUT PIN (EAOUT)
This pin is the output of the operational amplifier mentioned
in the EAIN pin description. By picking the proper resistor
and capacitor network connected between pins 6 and 7,
the gain and frequency response of the error amp block of
the voltage loop can be set, thus providing gain and
frequency compensation into the PWM voltage loop as
needed. This pin also acts as the input to the GM stage of
the voltage control loop.
SUPPLY VOLTAGE PIN (VCC)
This pin is connected to the supply voltage. The IC is in a
low-current (250 µA typ.) standby mode before the supply
voltage exceeds 10 V (typ.), which is the upper threshold
of the undervoltage lockout circuit. The IC switches back
to standby mode when the supply voltage drops below 8 V
(typ.).
January 1999 TOKO, Inc.
Page 5
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