BQ2040SN-C408 BENCHMARQ, BQ2040SN-C408 Datasheet - Page 9
BQ2040SN-C408
Manufacturer Part Number
BQ2040SN-C408
Description
BATTERY CHARGE MONITOR, SMD, 2040
Manufacturer
BENCHMARQ
Datasheet
1.BQ2040SN-C408.pdf
(35 pages)
Specifications of BQ2040SN-C408
Battery Management Function
Charger, Status Monitor
Battery Type
Li-Ion / NiCd / NiMH
Supply Voltage Range
3V To 6.5V
Battery Ic Case Style
SOIC
No. Of Pins
16
Operating Temperature Range
0°C
Interface Type
2-Wire, Serial
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Charge Suspension
The bq2040 may temporarily suspend charge if it detects
a charging fault. The charging faults include the follow-
ing conditions:
n Maximum Overcharge: If charging continues for
n Overvoltage: An over-voltage fault exists when the
n Overcurrent: An overcurrent fault exists when the
n Maximum
n PSTAT: When the PSTAT input is ≥1.5V, the
n Low Temperature: When the battery temperature
n Undervoltage: When the battery voltage is below
more than the programmed maximum overcharge
limit as defined in EE 0x3a—0x3b beyond RM=FCC,
the Fully_Charged bit is set, and the requested
charging current is set to the maintenance rate.
bq2040 measures a voltage more than 5% above the
ChargingVoltage.
overvoltage condition, the requested charge current is
set to 0 and the Terminate_Charge_Alarm bit is set
in BatteryStatus. The alarm bit is cleared when the
current drops below 256mA and the voltage is less
than 105% of ChargingVoltage.
bq2040 measures a charge current more than 25%
above the ChargingCurrent. If the ChargingCurrent
is less than 1024mA, an overcurrent fault exists if the
charge current is more than 1mA above the lowest
multiple of 256mA that exceeds the ChargingCurrent.
When the bq2040 detects an overcurrent condition, the
requested charge current is set to 0 and the
Terminate_Charge_Alarm bit is set in Battery Status.
The alarm bit is cleared when the current drops below
256mA.
temperature equals the programmed maximum
temperature, the requested charge current is set to
zero
Terminate_Charge_Alarm bits are set in Battery
Status. The Over_Temp_Alarm bit is cleared when
the temperature drops to 43°C below the maximum
temperature threshold minus 5°C.
requested charge current is set to 0 and the
Terminate_Charge_Alarm bit is set in BatteryStatus
if the Discharging flag is not set. The alarm bit is
cleared when the PSTAT input is <1.0V or the
Discharging flag is set.
is less than 12°C (LTF bit in FLAGS2 set), the
requested charge current is set to the maintenance
rate.
requested charge current is set to the fast rate.
the EDVF threshold, the requested charge current is
set to the EDVF rate stored in EE0x5a/0x5b. Once
the voltage is above EDVF, the requested charge
current is set to the fast or maintenance rate
depending on the state of the LTF bit.
and
Once the temperature is above 15°C, the
Temperature:
the
When the bq2040 detects an
Over_Temp_Alarm
When
the
and
battery
the
9
Q
Count Compensations
Charge activity is compensated for temperature and
state-of-charge before updating the RM and/or DCR.
Self-discharge estimation is compensated for tempera-
ture before updating RM or DCR.
Charge Compensation
Charge efficiency is compensated for state-of-charge,
temperature, and battery chemistry. The charge effi-
ciency is adjusted using the following equations:
where RelativeStateOfCharge < FullChargePercentage,
and Q
ing from 0.75 to 1.0.
where RelativeStateOfCharge ≥ FullChargePercentage
and Q
charge efficiency varying from 0.75 to 1.0.
temperature increases according to the following:
Q
Digital Magnitude Filter
The bq2040 has a programmable digital filter to elimi-
nate charge and discharge counting below a set
threshold, V
settings. The proper digital filter setting can be calcu-
lated using the following equation.
ET
ET
Q
Q
Q
is used to adjust the charge efficiency as the battery
is 0 over the entire temperature range for Li-Ion.
ET
ET
ET
Table 2. Typical Digital Filter Settings
EFC
ETC
DMF
=
=
=
100
150
175
200
75
is the programmed fast-charge efficiency vary-
is the programmed maintenance (trickle)
0
0 02
0 05
1.) RM
2.) RM
.
.
SRD
if T
if
if
. Table 2 shows typical digital filter
30
T
=
<
=
≥
°
DMF =
C
DMF Hex.
40
RM
RM * Q
30°C
≤
°
AF
4B
C8
64
96
T
C
* (
<
40
(
Q
V
45
SRD
°
ETC
EFC
C
−
−
Q
V
Q
ET
SRD
ET
0.60
0.45
0.30
0.26
0.23
)
bq2040
)
(mV)
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