MCP73855(2004) 查看數據表(PDF) - Microchip Technology
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MCP73855
(Rev.:2004)
(Rev.:2004)
Microchip Technology
MCP73855 Datasheet PDF : 24 Pages
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4.0 DEVICE OVERVIEW
The MCP7385X devices are highly advanced linear
charge management controllers. Refer to the functional
block diagram. Figure 4-2 depicts the operational flow
algorithm from charge initiation to completion and
automatic recharge.
4.1 Charge Qualification and
Preconditioning
Upon insertion of a battery, or application of an external
supply, the MCP7385X devices automatically perform a
series of safety checks to qualify the charge. The input
source voltage must be above the Undervoltage Lock-
out (UVLO) threshold, the enable pin must be above the
logic high level, and the cell temperature monitor must
be within the upper and lower thresholds (MCP73853
only). The qualification parameters are continuously
monitored, with any deviation beyond the limits automat-
ically suspending, or terminating, the charge cycle. The
input voltage must deviate below the UVLO stop
threshold for at least one clock period to be considered
valid.
Once the qualification parameters have been met, the
MCP7385X devices initiate a charge cycle. The charge
status output is pulled low throughout the charge cycle
(see Tables 5-1 and 5-2 for charge status outputs). If
the battery voltage is below the preconditioning thresh-
old (VPTH), the MCP7385X devices precondition the
battery with a trickle charge. The preconditioning
current is set to approximately 10% of the fast charge
regulation current. The preconditioning trickle charge
safely replenishes deeply depleted cells and minimizes
heat dissipation during the initial charge cycle. If the
battery voltage has not exceeded the preconditioning
threshold before the preconditioning timer has expired,
a fault is indicated and the charge cycle is terminated.
4.2 Constant Current Regulation –
Fast Charge
Preconditioning ends and fast charging begins when
the battery voltage exceeds the preconditioning thresh-
old. Fast charge regulates to a constant current (IREG),
which is set via an external resistor connected to the
PROG pin. Fast charge continues until either the
battery voltage reaches the regulation voltage (VREG)
or the fast charge timer expires; in which case, a fault
is indicated and the charge cycle is terminated.
4.3 Constant Voltage Regulation
When the battery voltage reaches the regulation volt-
age (VREG), constant voltage regulation begins. The
MCP7385X devices monitor the battery voltage at the
VBAT pin. This input is tied directly to the positive termi-
nal of the battery. The MCP7385X devices select the
voltage regulation value based on the state of VSET.
MCP73853/55
With VSET tied to VSS, the MCP7385X devices regulate
to 4.1V. With VSET tied to VDD, the MCP7385X devices
regulate to 4.2V.
4.4 Charge Cycle Completion and
Automatic Recharge
The MCP7385X devices monitor the charging current
during the Constant-voltage Regulation mode. The
charge cycle is considered complete when either the
charge current has diminished below approximately
7% of the regulation current (IREG), or the elapsed timer
has expired.
The MCP7385X devices automatically begin a new
charge cycle when the battery voltage falls below the
recharge threshold (VRTH), assuming all the qualifica-
tion parameters are met.
4.5 Thermal Regulation
The MCP7385X devices limit the charge current based
on the die temperature. Thermal regulation optimizes
the charge cycle time while maintaining device reliabil-
ity. If thermal regulation is entered, the timer is automat-
ically slowed down to ensure that a charge cycle will
not terminate prematurely. Figure 4-1 depicts the
thermal regulation.
450
400
350
300
250
200
150
100
50
0
0
Minimum
Maximum
20
40
60
80 100 120 140
Junction Temperature (C)
FIGURE 4-1:
Typical Maximum Charge
Current vs. Junction Temperature.
4.6 Thermal Shutdown
The MCP7385X devices suspend charge if the die
temperature exceeds 155°C. Charging will resume
when the die temperature has cooled by approximately
10°C. The thermal shutdown is a secondary safety
feature in the event that there is a failure within the
thermal regulation circuitry.
2004 Microchip Technology Inc.
DS21915A-page 11
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