參數(shù)資料
型號: HV9103P
廠商: SUPERTEX INC
元件分類: 穩(wěn)壓器
英文描述: High-Voltage Switchmode Controllers with MOSFET
中文描述: 2.5 A SWITCHING REGULATOR, 3000 kHz SWITCHING FREQ-MAX, PDIP14
封裝: PLASTIC, DIP-14
文件頁數(shù): 6/7頁
文件大?。?/td> 319K
代理商: HV9103P
6
HV9100/HV9102/HV9103
Reference
The reference consists of a stable bandgap reference followed by
a buffer amplifier which scales the voltage up to approximately
4.0V. The scaling resistors of the reference buffer amplifier are
trimmed during manufacture so that the output of the error
amplifier when connected in a gain of -1 configuration is as close
to 4.000V as possible. This nulls out any input offset of the error
amplifier. As a consequence, even though the observed refer-
ence voltage of a specific part may not be exactly 4V, the feedback
voltage required for proper regulation will be 4V.
A resistor of approximately 50K
is placed internally between the
output of the reference buffer amplifier and the circuitry it feeds
(reference output pin and NON-INVERTING input to the error
amplifier). This allows overriding the internal reference with a low-
impedance voltage source
6V. Using an external reference
reinstates the input offset voltage of the error amplifier, and its
effect of the exact value of feedback voltage required. In general,
because the reference voltage of the Supertex HV910x is not
noisy, as some previous devices have been, overriding the
reference should seldom be necessary.
Because the reference is a high impedance node, and usually
there will be significant electrical noise near it, a bypass capacitor
between the reference pin and V
SS
is strongly recommended. The
reference buffer amplifier is intentionally compensated to be
stable with a capacitive load of 0.01 to 0.1
μ
F.
Error Amplifier
The error amplifier is a true low-power differential input opera-
tional amplifier intended for around-the-amplifier compensation.
It is of mixed CMOS-bipolar construction: a PMOS input stage is
used so the common-mode range includes ground and the input
impedance is very high. This is followed by bipolar gain stages
which provide high gain without the electrical noise of all-MOS
amplifiers. The amplifier is unity-gain stable.
Current Sense Comparators
The HV910x uses a true dual comparator system with indepen-
dent comparators for modulation and current limiting. This allows
the designer greater latitude in compensation design, as there are
no clamps (except ESD protection) on the compensation pin. Like
the error amplifier, the comparators are of low-noise BiCMOS
construction.
Remote Shutdown
The shutdown and reset pins can be used to perform either
latching or non-latching shutdown of a converter as required.
These pins have internal current source pull-ups so they can be
driven from open-drain logic. When not used, they should be left
open, or connected to V
DD
.
Main Switch
The main switch is a normal N-channel power MOSFET. Unlike
the situation with competitive devices, the body diode can be used
if desired without destroying the chip.
Preregulator
The preregulator/startup circuit for the HV910x consists of a high-
voltage N-channel depletion-mode DMOS transistor driven by an
error amplifier to form a controlled current path between the V
IN
terminal and the V
DD
terminal. Maximum current (about 20 mA)
occurs when V
DD
= 0, with current reducing as V
DD
rises. This path
shuts off altogether when V
DD
rises to somewhere between 7.8
and 9.4V, so that if V
DD
is held at 10 or 12V by an external source
(generally the supply the chip is controlling) no current other than
leakage is drawn through the high voltage transistor. This mini-
mizes dissipation.
An external capacitor between V
DD
and V
SS
is generally required
to store energy used by the chip during the time between shutoff
of the high voltage path and the V
DD
supply
s output rising enough
to take over the powering of the chip. This capacitor generally also
serves as the output filter capacitor for that output from the supply.
1
μ
F is generally sufficient to assure against double-starting.
Capacitors as small as 0.1
μ
F can work when faster response from
the V
DD
line is required. Whatever capacitor is chosen should
have very good high frequency characteristics. Stacked polyester
or ceramic capacitors work well. Electrolytic capacitors are gen-
erally not suitable.
A common resistor divider string is used to monitor V
DD
for both
the undervoltage lockout circuit and the shutoff circuit of the high
voltage FET. Setting the undervoltage sense point about 0.6V
lower on the string than the FET shutoff point guarantees that the
undervoltage lockout always releases before the FET shuts off.
Bias Circuit
An external bias resistor, connected between the bias pin and V
SS
is required to set currents in a series of current mirrors used by the
analog sections of the chip. Nominal external bias current require-
ment is 15 to 20
μ
A, which can be set by a 390K
to 510K
resistor if a 10V V
DD
is used, or a 510K
to 680K
resistor if a 12V
V
DD
is used. A precision resistor is NOT required;
±
5% is fine.
For extremely low power operation, the value of bias current can
be reduced to as low as 5
μ
A by further increases in the value of
the bias resistor. This will reduce quiescent current by about a
third, reduce bandwidth of the error amp by about half, and slow
the current sense comparator by about 30%.
Clock Oscillator
The clock oscillator of the HV910x consists of a ring of CMOS
inverters, timing capacitors, a capacitor discharge FET, and, in
the 50% maximum duty cycle versions, a frequency dividing flip-
flop. A single external resistor between the OSC In and OSC Out
pins is required to set oscillator frequency (see Fig. 4). For the
50% maximum duty cycle versions the
Discharge
pin is internally
connected to GND. For the 99% duty cycle version,
Discharge
can either be connected to V
SS
directly or connected to V
SS
through a resistor used to set a deadtime.
One difference exists between the Supertex HV910x and com-
petitive parts. The oscillator of the HV910x is shut off when a
shutoff command is received. This saves about 150
μ
A of quies-
cent current, which aids in situations where an absolute minimum
of quiescent power dissipation is required.
Technical Description
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