ncp1294edtb16r2g ON Semiconductor, ncp1294edtb16r2g Datasheet - Page 9
ncp1294edtb16r2g
Manufacturer Part Number
ncp1294edtb16r2g
Description
Enhanced Voltage Mode Pwm Controller
Manufacturer
ON Semiconductor
Datasheet
1.NCP1294EDTB16R2G.pdf
(13 pages)
of the Soft−Start can be programmed through a capacitance
connected to the SS pin. The constant charging current to the
SS pin is 50 mA (typ).
output and latches a fault condition if V
The fault condition may also be triggered when the OV pin
voltage rises above 2.0 V or the UV pin voltage falls below
1.0 V. The undervoltage comparator has a built−in hysteresis
of 75 mV (typ). The hysteresis for the OV comparator is
programmable through a resistor connected to the OV pin.
When an OV condition is detected, the overvoltage
hysteresis current of 12.5 mA (typ) is sourced from the pin.
UV pin to the ground. Immediately, the SS capacitor is
discharged with 5.0 mA of current (typ) and the GATE output
is disabled until the SS voltage reaches the discharge voltage
of 0.3 V (typ). The IC starts the Soft−Start transition again
if the fault condition has recovered as shown in Figure 6.
However, if the fault condition persists, the SS voltage will
stay at 0.1 V until the removal of the fault condition.
Current Sense and Overcurrent Protection
pulse by pulse current limit. Various techniques, such as a
using current sense resistor or current transformer, can be
adopted to derive current signals. The voltage of the I
sets the threshold for maximum current. As shown in
Figure 7, when the I
voltage, the current limit comparator will reset the GATE
latch flip−flop to terminate the GATE pulse.
The V
In Figure 6, the fault condition is triggered by pulling the
The current can be monitored by the I
Output Is Disabled. CH2: Envelop of GATE Output,
Soft−Start Capacitor Is Discharged and the GATE
CH3: SS Pin with 0.01 mF Capacitor, CH4: UV Pin
Figure 6. The Fault Condition Is Triggered when
the UV Pin Voltage Falls Below 1.0 V. The
REF
(ok) comparator monitors the 3.3 V V
SENSE
pin voltage exceeds the I
REF
SENSE
falls below 3.1 V.
pin to achieve
SET
http://onsemi.com
REF
SET
pin
9
caused by the switching transition. A RC low−pass filter is
usually applied to the current signals to avoid premature
triggering. However, the low pass filter will inevitably
change the shape of the current pulse and also add cost. The
NCP1294 uses leading edge blanking circuitry that blocks
out the first 150 ns (typ) of each current pulse. This removes
the leading edge spikes without altering the current
waveform. The blanking is disabled during Soft−Start and
when the V
on−time of the controller does not have the additional
blanking period. The max SS detect comparator keeps the
blanking function disabled until SS charges fully. The output
of the max Duty Cycle detector goes high when the error
amplifier output gets saturated high, indicating that the
output voltage has fallen well below its regulation point and
the power supply may be underload stress.
Oscillator and Synchronization
network connected to the R
when the R
by a 1.0 mA current source and the Gate signal is disabled.
When the R
turned on and the discharge current is removed to let the
R
C
duty cycle clamp which is programmable through the R
value as shown in the Design Guidelines. At the beginning
of each switching cycle, the SYNC pin generates a 2.5 V,
320 nS (typ) pulse. This pulse can be utilized to synchronize
other power supplies.
T
T
The current sense signal is prone to leading edge spikes
The switching frequency is programmable through a RC
C
the I
charging time over the switch period sets the maximum
T
Figure 7. The GATE Output Is Terminated When
By the I
pin ramp up. This begins a new switching cycle. The
SENSE
T
C
T
COMP
SET
C
T
Pin Voltage Reaches the Threshold Set
T
pin reaches 2.0 V, the capacitor is discharged
pin decreases to 1.0 V, the Gate output is
Pin. CH2: I
is saturated high so that the minimum
CH3: GATE Pin
T
SENSE
C
T
Pin. As shown in Figure 8,
Pin, CH4: I
SET
Pin,
T
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