LTC1760 View Datasheet(PDF) - Linear Technology
Part Name
Description
MFG CO.
'LTC1760' PDF : 44 Pages View PDF
LTC1760
OPERATION
SMBALERT is used to monitor charging status of Battery 1.
Allowed values are:
Low: Battery 1 is charging.
High: Battery 1 not charging (AC is not present or bat-
tery is not present).
Blinking: Battery 1 charge complete (AC is present,
battery is present and not charging).
SCL is an input and is used to determine the blinking rate
of SDA and SMBALERT. Tie SCL high if blinking is not
desired. This will provide two different states to indicate
charging (output low) and not charging (output high).
tOFF = (VDCIN - VBAT)/(VDCIN • fOSC)
to set the bottom MOSFET on time. The result is quasi-
constant frequency operation where the converter fre-
quency remains nearly constant over a wide range of
output voltages. This activity is diagrammed in Figure 4.
OFF
TGATE
ON
ON
BGATE
OFF
INDUCTOR
CURRENT
tOFF
TRIP POINT SET BY ITH VOLTAGE
6.2 Hardware Charge Inhibit
When MODE is tied to GND and VVDDS>VIH_VDDS, charging
is inhibited and BatterySystemStateCont(CHARGING_INHIBIT)
will report a logic high.
6.3 Charging When SCL And SDA Are Low
When MODE is tied to VCC2 and VVDDS < VIL_VDDS, SDA
and SCL are not used and will not interfere with LTC1760
battery communication. This feature allows the LTC1760 to
autonomously charge when SCL and SDA are not available.
This scenario might occur when SMBus Host has powered
down and is no longer pulling up on SCL and SDA.
6.4 Charging With an SMBus Host
When Mode is tied to VCC2 and VVDDS > VIH_VDDS, SDA
and SCL are used to communicate with the SMBus Host.
7 Battery Charger Controller
The LTC1760 charger controller uses a constant off-time,
current mode step-down architecture. During normal
operation, the top MOSFET is turned on each cycle when
the oscillator sets the SR latch and turned off when the
main current comparator ICMP resets the SR latch. While
the top MOSFET is off, the bottom MOSFET is turned on
until either the inductor current trips the current compara-
tor IREV, or the beginning of the next cycle. The oscillator
uses the equation:
Figure 4.
1760 F04
The peak inductor current, at which ICMP resets the SR
latch, is controlled by the voltage on ITH. ITH is in turn
controlled by several loops, depending upon the situation
at hand. The average current control loop converts the
voltage between CSP and BAT to a representative current.
Error amp CA2 compares this current against the desired
current programmed by the IDAC at the ISET pin and adjusts
ITH for the desired voltage across RSENSE.
The voltage at BAT is divided down by an internal resis-
tor divider set by the VDAC and is used by error amp EA
to decrease ITH if the divider voltage is above the 0.8V
reference.
The amplifier CL1 monitors and limits the input current,
normally from the AC adapter, to a preset level (100 mV/
RCL). At input current limit, CL1 will decrease the ITH volt-
age and thus reduce battery charging current.
An over-voltage comparator, OV, guards against transient
overshoots (>7.5%). In this case, the top MOSFET is turned
off until the over-voltage condition is cleared. This feature
is useful for batteries which “load dump” themselves by
opening their protection switch to perform functions such
as calibration or pulse-mode charging.
The top MOSFET driver is powered from a floating boot-
strap capacitor C4. This capacitor is normally recharged
from VCC through an external diode when the top MOSFET
1760fa
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