MAX17006BETP+ Maxim Integrated Products, MAX17006BETP+ Datasheet - Page 12
MAX17006BETP+
Manufacturer Part Number
MAX17006BETP+
Description
IC BATT CHARGER 1.2MHZ 20-TQFN
Manufacturer
Maxim Integrated Products
Specifications of MAX17006BETP+
Function
Charge Management
Battery Type
Multi-Chemistry
Voltage - Supply
8 V ~ 26 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
20-TQFN Exposed Pad
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
1.2MHz Low-Cost,
High-Performance Chargers
The VCTL input adjusts the battery-output voltage,
V
4-cell applications, use the MAX17005; for 2- and 3-cell
applications, use the MAX17006. Use the MAX17015 to
adjust the cell number and set the cell voltage with a
resistive voltage-divider from the output. Based on the
version of the part, the number of cells and the level of
VCTL should be set as in Table 1:
The MAX17005 and MAX17006 support from 4.2V/cell
to 4.4V/cell, whereas the MAX17015 supports minimum
2.1V. The maximum voltage is determined with the
dropout performance of IC. When the required voltage
falls outside the range available with the MAX17005 or
MAX17006, the MAX17015 should be used.
The charge-voltage regulation for the MAX17005 and
MAX17006 is calculated with the following equations:
for 3-cell selection of MAX17005 and MAX17006, 4.2V
> VCTL > 2.4V:
for 2- or 4-cell selection of MAX17006 or MAX17005,
respectively, 0V < VCTL < 1.8V. Connect VCTL to GND
or to V
For the MAX17015, connect VCTL to GND to set the FB
regulation point to 2.1V. The charge-voltage regulation is
calculated with the following equation:
12
Table 1. Cell Configuration
BATT
MAX17005
MAX17005
MAX17006
MAX17006
MAX17015
VERSION
______________________________________________________________________________________
, and determines the number of cells. For 3- and
AA
for default 4.2V/cell battery-voltage setting.
V
CHG REG
NO. OF CELLS
V
CELL
_
Sets FB
V
CELL
3
4
2
3
=
=
4 2
V
.
=
FB SETPOINT
4 2
Setting Charge Voltage
V
_
.
+
V
4 2
VCTL = GND or VCTL = V
.
+
V V
V
2.4V < VCTL < 4.2V
2.4V < VCTL < 4.2V
VCTL
0V < VCTL < 1.8V
0V < VCTL < 1.8V
−
6
6
VCTL
×
LEVEL
R
8
R
+
8
R
7
AA
Figure 3. MAX17015 Charge-Voltage Regulation Feedback Network
There are two constraints in choosing R7 and R8. The
resistors cannot be too small since they discharge the
battery, and they cannot be too large because FB pin
consumes less than 1μA of input bias current. Pick R8
to be approximately 10kΩ and then calculate R7.
FB regulation error (±0.5% max) and the tolerance of R7
and R8 both contribute to the error on the battery volt-
age. Use 0.1% feedback resistors for best accuracy.
The voltage at ISET determines the voltage across cur-
rent-sense resistor RS2. ISET can accept either analog
or digital inputs. The full-scale differential voltage
between CSIP and CSIN is 80mV (8A for RS2 = 10mΩ)
for the analog input, and 60mV (6A for RS2 = 10mΩ) for
the digital PWM input.
When the MAX17005/MAX17006/MAX17015 power up
and the charger is ready, if there is no clock edge with-
in 20ms, the circuit assumes ISET is an analog input,
and disables the PWM filter block. To configure the
charge current, force the voltage on ISET according to
the following equation:
The input range for ISET is from 0 to V
down the charger, pull ISET below 26mV.
If there is a clock edge on ISET within 20ms, the PWM
filter is enabled and ISET accepts digital PWM input.
The PWM filter has a DAC with 8-bit resolution that cor-
responds to equivalent V
MAX17015
CSIN
FB
I
CHG
=
240
CSIP-CSIN
RS
Setting Charge Current
mV
2
C
OUT
×
V
V
ISET
AA
steps.
R7
R8
AA
/2. To shut
BATTERY
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