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MCP73837_15 Datasheet, PDF (18/36 Pages) Microchip Technology – Advanced Stand-Alone Li-Ion/Li-Polymer Battery Charge Management Controller with Autonomous AC Adapter or USB Port Source Selection
MCP73837/8
5.0 DETAILED DESCRIPTION
• Analog Circuitry
• Digital Circuitry
5.1 Analog Circuitry
5.1.1 BATTERY MANAGEMENT INPUT
SUPPLY (VDD)
The VDD input is the input supply to the MCP73837/8.
The MCP73837/8 can be supplied by either AC adapter
(VAC) or USB port (VUSB) with autonomous source
selection. The MCP73837/8 automatically enters a
Power-Down mode if the voltage on the VDD input falls
to within +100 mV of the battery voltage or below the
UVLO voltage (VSTOP). This feature prevents draining
the battery pack when both the VAC and VUSB supplies
are not present.
5.1.2
AC ADAPTER CURRENT
REGULATION SET (PROG1)
For the MCP73837/8, the charge current regulation
can be scaled by placing a programming resistor
(RPROG) from the PROG1 input to VSS. The program
resistor and the charge current are calculated using
the following equation:
EQUATION 5-1:
Where:
IREG
=
-1---0---0---0----V--
RPROG
RPROG = kilohm (k
IREG = milliampere (mA
The preconditioning current and the charge
termination current are ratiometric to the fast charge
current based on the selected device options.
5.1.3 BATTERY CHARGE CONTROL
OUTPUT (VBAT)
The battery charge control output is the drain terminal
of an internal P-channel MOSFET. The MCP73837/8
provides constant current and voltage regulation to the
battery pack by controlling this MOSFET in the linear
region. The battery charge control output should be
connected to the positive terminal of the battery pack.
5.1.4
TEMPERATURE QUALIFICATION
(THERM)
The MCP73837/8 continuously monitors battery
temperature during a charge cycle by measuring the
voltage between the THERM and the VSS pins. An
internal 50 µA current source provides the bias for the
most common 10 k negative-temperature coefficient
(NTC) or positive-temperature coefficient (PTC)
thermistors. The current source is controlled, avoiding
measurement sensitivity to fluctuations in the supply
voltage (VDD). The MCP73837/8 compares the voltage
at the THERM pin to factory set thresholds of 1.20V
and 0.25V, typically. If a voltage that is outside the
thresholds is detected during a charge cycle, the
MCP73837/8 immediately suspends the charge cycle.
The MCP73837/8 suspends charge by turning off the
pass transistor and holding the timer value. The charge
cycle resumes when the voltage at the THERM pin
returns to the normal range.
If temperature monitoring is not required, place a
standard 10 k resistor from THERM to VSS.
5.1.5 SYSTEM TEST (LDO) MODE
The MCP73837/8 can be placed in a System Test
mode. In this mode, the MCP73837/8 operates as a
low dropout (LDO) linear regulator. The output voltage
is regulated to the factory set voltage regulation option.
The available output current is limited to the pro-
grammed fast charge current. For stability, the VBAT
output must be bypassed to VSS with a minimum
capacitance of 1 µF for output currents up to 250 mA.
A minimum capacitance of 4.7 µF is required for output
currents above 250 mA.
The system test mode is entered by driving the THERM
input greater than (VDD – 100 mV) with no battery
connected to the output. In this mode, the MCP73837/8
can be used to power the system without a battery
being present.
Note 1: ITHERM is disabled during shutdown,
stand-by, and system test modes.
2: A pull-down current source on the
THERM input is active only in Stand-By
and System Test modes.
3: During System Test mode, the PROG
input sets the available output current
limit.
4: System Test mode shall be exited by
releasing the THERM input or cycling
input power.
DS20002071C-page 18
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