mc33680ftb ON Semiconductor, mc33680ftb Datasheet - Page 13
mc33680ftb
Manufacturer Part Number
mc33680ftb
Description
Dual Dc-dc Regulator For Electronic Organizer
Manufacturer
ON Semiconductor
Datasheet
1.MC33680FTB.pdf
(14 pages)
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Current Limit for Both regulators
or senseBJT) are applied to sample coil current as the
low−side switch is ON. With that sample current flowing
through a sense resistor, sense−voltage is developed.
Threshold detector (COMP2 in both Figures) detects
whether the sense−voltage is higher than preset level. If it
happens, detector output reset the flip−flop to switch OFF
low−side switch, and the switch can only be ON as next
cycle starts.
Power−Good Signal
startup circuitry is enabled to pump up VMAIN to a certain
voltage level, which is the user−defined VMAIN output
level minus an offset of 0.15V. The internal Power−Good
signal is then enabled to activate the main regulator and
conditionally the auxiliary regulator. Meanwhile, the startup
circuitry will be shut down. The Power−Good signal block
also starts to charge up the external capacitor tied from Pin
PDELAY to ground with precise constant current. As the Pin
PDELAY’s voltage reaches an internal set threshold, Pin
PORB will go HIGH to awake the microprocessor. This
delay is stated as follows;
below the user−defined VMAIN output level minus 0.5V,
PORB will go LOW to indicate the OUTPUT LOW
situation. And, the IC will continue to function until the
VMAIN is dropped below 2V.
Low−Battery−Detect
comparator. Pin LOWBAT is LOW, if the voltage of external
Pin LOWBATSEN is lower than 0.85V. The IC will neglect
this warning signal. Pin LOWBAT will become HIGH, if the
voltage of external Pin LOWBATSEN is recovered to more
than 1.1V. From Figure 1, with external resistors RLBa and
RLBb, thresholds of Low−Battery−Detect can be adjusted
based on the equations below.
DETAILED OPERATING DESCRIPTION (Cont’d)
From Figure 18 and Figure 21, sense devices (senseFET
During the startup period (see Figure 2), the internal
From Figure 3, if, by any chance, VMAIN is dropped
The Low−Battery−Detect block is actually a voltage
T
POR
LIBATCL
0
1
1
+ 1.22
0.5
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Á Á Á Á Á Á
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Á Á Á Á Á Á
C por
LIBATON
X
0
1
RIref (S)
Figure 22. Lithium Battery Backup Control Truth Table
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The switch is ON when the battery is removed and VMAIN is dropped below LIBATIN by
more than 100mV;
The switch is OFF when the battery is plugged in.
The switch is OFF
The switch is ON
http://onsemi.com
13
Lithium−Battery backup
internal power switch (typ. 13 Ohm) can be controlled by
internal logic or microprocessor.
by internal logic, is ON when the battery is removed and
VMAIN is dropped below LIBATIN by more than 100mV,
and returns OFF when the battery is plugged back in.
microprocessor through LIBATON. The truth table is shown
in Figure 22.
Efficiency and Output Ripple
feedback resistors (> 50kOhm), stray capacitance of pin 1
(VMAINFB) and pin 20 (VAUXFBN) can add ”lag” to the
feedback response, destabilizing the regulator and creating
a larger ripple at the output. From Figure 1, ripple of Main
and AUX regulator can be reduced by capacitors in parallel
with RMAINb, RAUXa and RAUXb ranging from 100pF to
100nF respectively. Reducing the ripple is also with
improving efficiency, system designers are recommended to
do experiments on capacitance values based on the PCB
design.
Bypass Capacitors
resistance can put additional power loss to the system as AC
current is being conducted. In that case, bypass capacitors
should be placed closely to the coil, and connected from
V
passing through the long metal lead, thus minimizing that
portion of power loss.
BAT
The backup conduction path which is provided by an
If LIBATCL is LOW, the switch, which is then controlled
If LIBATCL is HIGH, the switch is controlled by
For both regulators, when large values are used for
If the metal lead from battery to coils are long, its stray
V
V
LOBAThigh
LOBATlow
to ground. This reduces AC component of coil current
Action
+ 0.85
+ 1.1
1 )
1 )
R
R
R
R
LBa
LBb
LBa
LBb
(V)
(V)
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