LTC4101EG Просмотр технического описания (PDF) - Linear Technology
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LTC4101EG Datasheet PDF : 30 Pages
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LTC4101
OPERATION
The RES_UR bit is set only when the SafetySignal resis-
tance value is less than 575Ω.
ALARM_INHIBITED bit is set if a valid AlarmWarning()
message has been received and charging is inhibited as
a result. This bit is cleared if both ChargingVoltage() and
ChargingCurrent() are rewritten to the LTC4101, power is
removed (DCDIV < VACP), or if a battery is removed. The
setting of the ALARM_INHIBITED will activate the LTC4101
SMBALERT pull-down.
POWER_FAIL bit is set if the LTC4101 does not have suf-
ficient DCIN voltage to charge the battery or if an external
device is pulling the CHGEN input signal low. Charging is
disabled whenever this bit is set. The setting of this bit
does not clear the values in the ChargingVoltage() and
ChargingCurrent() function values, nor does it necessarily
affect the charging modes of the LTC4101.
BATTERY_PRESENT is set if a battery is present other-
wise it is cleared. The LTC4101 uses the SafetySignal
in order to determine battery presence. If the LTC4101
detects a RES_OR condition, the BATTERY_PRESENT
bit is cleared immediately. The LTC4101 will not set the
BATTERY_PRESENT bit until it successfully samples the
SafetySignal twice and does not detect a RES_OR condi-
tion on either sampling. If AC is not present (e.g. DCDIV
< VACP), this bit may not be set for up to one-half second
after the battery is connected to the SafetySignal. The
ChargingCurrent() and ChargingVoltage() function val-
ues are immediately cleared whenever this bit is cleared.
Charging will never be allowed if this bit is cleared. A
change in BATTERY_PRESENT will activate the LTC4101
SMBALERT pull-down.
AC_PRESENT is set if the voltage on DCDIV is greater than
VACP. This does not necessarily indicate that the voltage
on DCIN is sufficient to charge the battery. A change in
AC_PRESENT will activate the LTC4101 SMBALERT pull-
down.
14
ChargingCurrent() ('h14)
Description: The Battery, System Host or other master de-
vice sends the desired charging current (mA) to the LTC4101.
Purpose: The LTC4101 uses RILIM, the granularity of the
IDAC, and the value of the ChargingCurrent() function to
determine its charging current supplied to the battery. The
charging current will never exceed the maximum current
permitted by RILIM. The ChargingCurrent() value will be
truncated to the granularity of the IDAC. The charging cur-
rent will also be reduced if the battery voltage exceeds the
programmed charging voltage.
• SMBus Protocol: Write Word.
Input: The CHARGING_CURRENT is an unsigned 16 bit
integer specifying the requested charging current in mA.
The following table defines the maximum permissible
value of CHARGING_CURRENT that will not set the CUR-
RENT_OR in the ChargerStatus() function for a given
value of the RILIM:
RILIM
Short to GND
ChargingCurrent()
Current
0x0000 through 0x03FF 0mA through 1023mA
10kΩ ±1%
0x0000 through 0x07FF 0mA through 2047mA
33kΩ ±1%
0x0000 through 0x0BFF 0mA through 3071mA
Open (or short to VDD) 0x0000 through 0x0FFF 0mA through 4095mA
ChargingVoltage() ('h15)
Description: The Battery, SMBus Host or other master
device sends the desired charging voltage (mV) to the
LTC4101.
Purpose: The LTC4101 uses RVLIM, the granularity of the
VDAC, and the value of the ChargingVoltage() function to
determine its charging voltage supplied to the battery. The
charging voltage will never be forced beyond the voltage
permitted by RVLIM. The ChargingVoltage() value will be
truncated to the granularity of the VDAC. The charging
voltage will also be reduced if the battery current exceeds
the programmed charging current.
• SMBus Protocol: Write Word.
Input: The CHARGING_VOLTAGE is an unsigned 16-bit
integer specifying the requested charging voltage in mV.
The LTC4101 considers any value from 0x0001 through
0x044F the same as writing 0x0000. The following
4101fa
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