HIP6017 Intersil Corporation, HIP6017 Datasheet - Page 8
HIP6017
Manufacturer Part Number
HIP6017
Description
Advanced PWM and Dual Linear Power Control
Manufacturer
Intersil Corporation
Datasheet
1.HIP6017.pdf
(14 pages)
Available stocks
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Part Number
Manufacturer
Quantity
Price
Part Number:
HIP6017CB
Manufacturer:
HAR
Quantity:
20 000
allows V
fault. Cycling the bias input voltage (+12V
pin) off then on resets the counter and the fault latch.
Over-Voltage Protection
During operation, a short on the upper PWM MOSFET (Q1)
causes V
over-voltage threshold of 115% (typical) of DACOUT, the
over-voltage comparator trips to set the fault latch and turns
Q2 on as required in order to regulate V
DACOUT. This blows the input fuse and reduces V
The fault latch raises the FAULT/RT pin close to VCC
potential.
A separate over-voltage circuit provides protection during
the initial application of power. For voltages on the VCC pin
below the power-on reset (and above ~4V), V
monitored for voltages exceeding 1.26V. Should VSEN1
exceed this level, the lower MOSFET (Q2) is driven on as
needed to regulate V
Over-Current Protection
All outputs are protected against excessive over-currents.
The PWM controller uses the upper MOSFET’s on-
resistance, r
against shorted outputs. The linear regulator monitors the
current of the integrated power device and signals an over-
current condition for currents in excess of 230mA.
Additionally, both the linear regulator and the linear controller
monitor FB2 and FB3 for under-voltage to protect against
excessive currents.
Figures 8 and 9 illustrate the over-current protection with
an overload on OUT1. The overload is applied at T0 and
the current increases through the output inductor (L
At time T1, the OVER-CURRENT1 comparator trips when
the voltage across Q1 (I
programmed by R
discharges the soft-start capacitor (C
current sink, and increments the counter. C
T2 and initiates a soft-start cycle with the error amplifiers
clamped by soft-start. With OUT1 still overloaded, the
inductor current increases to trip the over-current
comparator. Again, this inhibits all outputs, but the soft-start
voltage continues increasing to 4V before discharging. The
counter increments to 2. The soft-start cycle repeats at T3
and trips the over-current comparator. The SS pin voltage
increases to 4V at T4 and the counter increments to 3. This
sets the fault latch to disable the converter. The fault is
reported on the FAULT/RT pin.
OUT2
OUT1
DS(ON)
and V
to increase. When the output exceeds the
OCSET
to monitor the current for protection
OUT3
OUT1
D
. This inhibits all outputs,
2-217
• r
to slew up without generating a
to 1.26V.
DS(ON)
) exceeds the level
SS
OUT1
) with a 11mA
IN
SS
on the VCC
OUT1
to 1.15 x
recharges at
OUT1
is
OUT1
.
).
HIP6017
The linear regulator operates in the same way as PWM1 to
over-current faults. Additionally, the linear regulator and
linear controller monitor the feedback pins for an under-
voltage. Should excessive currents cause FB2 or FB3 to fall
below the linear under-voltage threshold, the LUV signal
sets the over-current latch if C
LUV signal during the C
outputs to build above the under-voltage threshold during
normal start-up. Cycling the bias input power off then on
resets the counter and the fault latch.
Resistor R
PWM converter. As shown in Figure 9, the internal 200 A
current sink develops a voltage across R
referenced to V
comparator (OVER-CURRENT1). When the voltage across
the upper MOSFET (V
current comparator trips to set the over-current latch. Both
V
across R
to MOSFET switching. The over-current function will trip at a
peak inductor current (I
The OC trip point varies with MOSFET’s temperature. To
avoid over-current tripping in the normal operating load
range, determine the R
above with:
I
1. The maximum r
2. The minimum I
3. Determine I
PEAK
SET
10V
0A
0V
4V
2V
0V
I is the output inductor ripple current.
and V
=
OCSET
I
--------------------------------------------------- -
OCSET
OCSET1
FIGURE 8. OVER-CURRENT OPERATION
T0
DS
COUNT
r
= 1
T1
DS ON
IN
are referenced to V
PEAK
helps V
OVERLOAD
APPLIED
. The DRIVE signal enables the over-current
R
programs the over-current trip level for the
OCSET
DS(ON)
OCSET
for I
DS(ON)
PEAK
SS
OCSET
OCSET
T2
PEAK
charge interval allows the linear
at the highest junction temperature.
from the specification table.
) determined by:
) exceeds V
COUNT
SS
track the variations of V
resistor from the equation
TIME
= 2
REPORTED
> I
is fully charged. Blanking the
OUT(MAX)
IN
FAULT
and a small capacitor
OCSET
SET
T3
, the over-
+ ( I) / 2, where
(V
COUNT
SET
= 3
T4
) that is
IN
due
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