MAX1873 Maxim, MAX1873 Datasheet - Page 13
MAX1873
Manufacturer Part Number
MAX1873
Description
Simple Current-Limited Switch-Mode Li Charger Controller
Manufacturer
Maxim
Datasheet
1.MAX1873.pdf
(14 pages)
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where C
reference voltage (4.2V), V
regulation voltage (typically 4.2V per cell), V
is the minimum source-input voltage, and R
current-sense resistor (68mΩ for 3A charging current)
from CSB to BATT.
The maximum output capacitor ESR allowed for stability is:
where R
The three regulation loops: input current limit, charging
current limit, and charging voltage limit are compensat-
ed separately using the CCS, CCI, and CCV pins,
respectively.
The charge-current loop error-amplifier output is
brought out at CCI. Likewise, the source-current error-
amplifier output is brought out at CCS. 47nF capacitors
to ground at CCI and CCS compensate the current
loops in most charger designs. Raising the value of
these capacitors reduces the bandwidth of these loops.
The voltage-regulating loop error-amplifier output is
brought out at CCV. Compensate this loop by connect-
ing a capacitor in parallel with a series resistor-capaci-
tor from CCV to GND. Recommended values are shown
in Figure 1.
The MAX1873 uses two internal linear regulators to
power internal circuitry. The outputs of the linear regu-
lators are at VL and VH. VL powers the internal control
circuitry while VH powers the MOSFET gate driver. VL
may also power a limited amount of external circuitry,
as long as its maximum current (3mA) is not exceeded.
A 2.2µF bypass capacitor is required from VL to GND
to ensure stability. A 0.22µF capacitor is required from
VH to DCIN. A 1µF bypass capacitor is required
between REF and GND to ensure that the internal 4.2V
reference is stable. In all cases, use low-ESR ceramic
capacitors.
The MAX1873 may be used in multichemistry chargers.
When charging NiMH or NiCd cells, pull CCV high (to
VL) with a 1.5 kΩ resistor. This disables the voltage
control loop so the Li+ battery-regulation voltage set-
ESR
OUT
is the output capacitor ESR.
is the total output capacitance, V
R
Applications Information
ESR
Charging NiMH and NiCd Cells
______________________________________________________________________________________
Compensation Components
VL, VH, and REF Bypassing
<
R
CSB
BATT
V
Simple Current-Limited Switch-Mode
REF
×
V
BATT
is the maximum battery
CSB
DCIN (MIN)
REF
is the
is the
tings do not interfere with charging. However, the bat-
tery undervoltage-protection features remain active so
charging current is reduced when V
the levels stated in the BATT Undervoltage Threshold
line in the Electrical Characteristics Table. 5- or 6-series
Ni cells may be charged with the R version device, 7-
to 9-cells with the S version, and 10-cells with the T ver-
sion.
The MAX1873 contains no charge-termination algo-
rithms for Ni cells; it acts only as a current source. A
separate microcontroller or Ni-cell charge controller
must instruct the MAX1873 to terminate charging.
PROCESS: BiCMOS
TRANSISTOR COUNT: 1397
Li+ Charger Controller
TOP VIEW
ICHG/EN
CSSN
CSSP
VADJ
IOUT
CCS
CCV
CCI
1
2
6
3
4
5
7
8
MAX1873R/S/T
16 QSOP
Pin Configuration
Chip Information
16
15
14
13
12
11
10
9
BATT
VL
DCIN
EXT
VH
GND
CSB
BATT
REF
is less than
13
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