General Description
The MAX17005/MAX17006/MAX17015 are high-frequency multichemistry battery chargers. These circuits feature a new high-frequency current-mode architecture
that significantly reduces component size and cost. The
charger uses a high-side MOSFET with n-channel synchronous rectifier. Widely adjustable charge current,
charge voltage, and input current limit simplify the construction of highly accurate and efficient chargers.
The charge voltage and charge current are set with
analog control inputs. The charge current setting can
also be adjusted with a PWM input. High-accuracy current-sense amplifiers provide fast cycle-by-cycle current-mode control to protect against short circuits to the
battery and respond quickly to system load transients.
In addition, the charger provides a high-accuracy analog output that is proportional to the adapter current. In
the MAX17015, this current monitor remains active
when the adapter is absent to monitor battery discharge current.
The MAX17005 charges three or four Li+ series cells,
and the MAX17006 charges two or three Li+ series
cells. The MAX17015 adjusts the charge voltage setting
and the number of cells through a feedback resistordivider from the output. All variants of the charger can
provide at least 4A of charge current with a 10mΩ
sense resistor.
The charger utilizes a charge pump to control an n-channel
adapter selection switch. The charge pump remains
active even when the charger is off. When the adapter
is absent, a p-channel MOSFET selects the battery.
The MAX17005/MAX17006/MAX17015 are available in
a small, 4mm x 4mm x 0.8mm 20-pin, lead-free TQFN
package. An evaluation kit is available to reduce
design time.
Applications
Notebook Computers
Tablet PCs
Portable Equipment with Rechargeable Batteries
Features
♦ High Switching Frequency (1.2MHz)
♦ Controlled Inductor Current-Ripple Architecture
Reduced BOM Cost
Small Inductor and Output Capacitors
♦ ±0.4% Accurate Charge Voltage
♦ ±2.5% Accurate Input-Current Limiting
♦ ±3% Accurate Charge Current
♦ Single-Point Compensation
♦ Monitor Outputs for
±2.5% Accurate Input Current Limit
±2.5% Battery Discharge Current
(MAX17015 only)
AC Adapter Detection
♦ Analog/PWM Adjustable Charge-Current Setting
♦ Battery Voltage Adjustable for 3 and 4 Cells
(MAX17005) or 2 and 3 Cells (MAX17006)
♦ Adjustable Battery Voltage (4.2V to 4.4V/Cell)
♦ Cycle-by-Cycle Current Limit
Battery Short-Circuit Protection
Fast Response for Pulse Charging
Fast System-Load-Transient Response
♦ Programmable Charge Current < 5A
♦ Automatic System Power Source Selection with
n-Channel MOSFET
♦ Internal Boost Diode
♦ +8V to +26V Input Voltage Range
MAX17005/MAX17006/MAX17015
1.2MHz Low-Cost,
High-Performance Chargers
________________________________________________________________
Maxim Integrated Products
1
Ordering Information
19-4041; Rev 0; 2/08
For pricing, delivery, and ordering information, please contact Maxim Direct at 1-888-629-4642,
or visit Maxim’s website at www.maxim-ic.com.
EVALUATION KIT
AVAILABLE
+
Denotes a lead-free package.
Pin Configuration and Minimal Operating Circuit appear at
end of data sheet.
PART TEMP RANGE
MAX17005ETP+ -40°C to +85 °C
MAX17006ETP+ -40°C to +85 ° C
MAX17015ETP+ -40°C to +85 ° C
PINPACKAGE
20 Thin QFN
(4mm x 4mm)
20 Thin QFN
(4mm x 4mm)
20 Thin QFN
(4mm x 4mm)
PKG
CODE
T2044-3
T2044-3
T2044-3
MAX17005/MAX17006/MAX17015
1.2MHz Low-Cost,
High-Performance Chargers
2 _______________________________________________________________________________________
ABSOLUTE MAXIMUM RATINGS
ELECTRICAL CHARACTERISTICS
(Circuit of Figure 1, V
DCIN
= V
CSSP
= V
CSSN
= 19V, V
BATT
= V
CSIP
= V
CSIN
= 16.8V, V
VCTL
= VAA, V
ISET
= 1V, T A= 0°C to +85°C,
unless otherwise noted. Typical values are at T
A
= +25°C.)
Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional
operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to
absolute maximum rating conditions for extended periods may affect device reliability.
DCIN, CSSP, CSSN, BATT, CSIN, CSIP, ACOK,
LX to AGND .......................................................-0.3V to +30V
BST to LDO.............................................................-0.3V to +30V
CSIP to CSIN, CSSP to CSSN .............................. -0.3V to +0.3V
IINP, FB, ACIN to AGND.............................-0.3V to (V
AA
+ 0.3V)
V
AA
, LDO, ISET, VCTL, CC to AGND .......................-0.3V to +6V
DHI to LX ....................................................-0.3V to (BST + 0.3V)
BST to LX..................................................................-0.3V to +6V
DLO to PGND ............................................-0.3V to (LDO + 0.3V)
PGND to AGND .................................................... -0.3V to +0.3V
Continuous Power Dissipation (T
A
= +70°C)
16-Pin TQFN (derate 16.9mW/°C above +70°C)....1349.1mW
Operating Temperature Range ...........................-40°C to +85°C
Junction Temperature......................................................+150°C
Storage Temperature Range .............................-60°C to +150°C
Lead Temperature (soldering, 10s) .................................+300°C
CHARGE-VOLTAGE REGULATION
Battery Regulation-Voltage Accuracy
FB Input Bias Curent -1 +1 μA
VCTL Range
VCTL Gain V
VCTL Input Bias Current V
CHARGE-CURRENT REGULATION
ISET Range 0.0 VAA/2 V
ISET Full-Scale Setting
Ful l-Charge Current Accurac y
(CSIP to CSIN)
Trickle Charge-Current Accuracy
Charge-Current Gain Error Based on V
Charge-Current Offset Error Based on V
BATT/CSIP/CSIN Input Voltage Range 0 24 V
ISET Power-Down Mode Threshold
PARAMETER CONDITIONS MIN TYP MAX UNITS
2 cel ls, V
3 cel l s, V
4 cel ls, V
FB accuracy using FB divider (for MAX17015)
(Note 1)
2 cells (for MAX17006), 4 cell s (for MAX17005) 0.0
3 cell s (for MAX17005 and MAX17006)
CELL/VVCTL
VCTL
ISET = 1.4V 80
ISET = 99.9% duty cycle 60
V
BATT
ISET falling 21 26 31
ISET ri sing 33 40 47
VCTL
= VAA(for MAX17005 and MAX17006) 12.549 12.60 12.651
VCTL
VCTL
5.85 6 6.15 V/V
= GND and VCTL = V
= 1V to 16.8V
ISET
ISET
= GND (for MAX17006) 8.3664 8.40 8.4336
= GND (for MAX17005) 16.733 16.80 16.867
= V
VAA
= V
VAA
AA
V
= VAA/4 or ISET
ISET
= 99.9% duty cycle
V
= VAA/6 or ISET
ISET
= 66.7% duty cycle
V
= VAA/80 or ISET
ISET
= 5% duty cycle
/4 and V
/4 and V
ISET
ISET
= V
= V
/80 -2 +2 %
VAA
/80 -1.4 +1.4 mV
VAA
2.0916 2.1 2.1084
V
AA
-0.2
VAA/2
+0.2
-1 +1 μA
58.2 60 61.8 mV
-3 +3 %
38.2 40 41.8 mV
-4.5 +4.5 %
1.4 3 4.6 mV
-52 +52 %
V
AA
/2
V
V
mV
mV
MAX17005/MAX17006/MAX17015
1.2MHz Low-Cost,
High-Performance Chargers
_______________________________________________________________________________________ 3
ELECTRICAL CHARACTERISTICS (continued)
(Circuit of Figure 1, V
DCIN
= V
CSSP
= V
CSSN
= 19V, V
BATT
= V
CSIP
= V
CSIN
= 16.8V, V
VCTL
= VAA, V
ISET
= 1V, T A= 0°C to +85°C,
unless otherwise noted. Typical values are at T
A
= +25°C.)
PARAMETER CONDITIONS MIN TYP MAX UNITS
ISET Input Bias Current
ISET PWM Threshold
ISET Frequency 0.128 500 kHz
ISET Effective Resolution f
INPUT-CURRENT REGULATION
Input Current-Limit Threshold V
CSSN Input Bias Current Adapter present -0.1 +0.1 μA
CSSP/CSSN Input-Voltage Range 8.0 26.0 V
IINP Transconductance V
IINP Accuracy
SUPPLY AND LINEAR REGULATOR
DCIN Input Voltage Range 8 26 V
DCIN Undervoltage-Lockout (UVLO) Trip-Point
DCIN + CSSP + CSSN Quiescent Current
BATT + CSIP + CSIN + LX Input Current
LDO Output Voltage 8.0V < V
LDO Load Regulation 0 < I
LDO UVLO Threshold 3.2 4.1 5.0 V
REFERENCES
VAA Output Voltage I
VAA UVLO Threshold VAA falling 3.1 3.9 V
ACIN
ACIN Thresho ld 2.058 2.1 2.142 V
ACIN Threshold Hysteresis 10 20 30 mV
ACIN Input Bias Current -1 +1 μA
ACOK
ACOK Sink Current V
ACOK Leakage Current V
V
ISET
CSSN = BATT, V
Ri sing 2.4
Fal ling 0.8
PWM
CSSP
CSSP
V
CSSP
V
CSSP
DCIN falling 7.9 8.1
DCIN rising 8.7 8.9
Adapter present (Note 2) 3 6 mA
Adapter absent (Note 2) 30 50 μA
V
BATT
V
BATT
VAA
ACOK
ACOK
= 3V -0.2 +0.2
=3.2MHz 8 Bits
- V
CSSN
- V
CSSN
- V
CSSN
- V
CSSN
= 16.8V
= 2V to 19V, adapter present (Note 2) 200 500
DCIN
< 40mA 100 200 mV
LDO
= 50μA 4.18 4.20 4.22 V
= 0.4V, V
= 5.5V, V
ISET
= 60mV 2.66 2.8 2.94 μA/mV
= 60mV, V
= 35mV -2.5 +2.5
< 26V, no load 5.15 5.35 5.55 V
ACIN
ACIN
= 5V -0.2 +0.2
= 0V to 4.5V -2.5 +2.5
IINP
Adapter absent (Note 2) 10 20
Charger shutdown (Note 2) 10 20
= 1.5V 6 mA
= 2.5V 1 μA
58.5 60 61.5 mV
-2.5 +2.5 %
μA
V
%
V
μA
MAX17005/MAX17006/MAX17015
1.2MHz Low-Cost,
High-Performance Chargers
4 _______________________________________________________________________________________
ELECTRICAL CHARACTERISTICS (continued)
(Circuit of Figure 1, V
DCIN
= V
CSSP
= V
CSSN
= 19V, V
BATT
= V
CSIP
= V
CSIN
= 16.8V, V
VCTL
= VAA, V
ISET
= 1V, T A= 0°C to +85°C,
unless otherwise noted. Typical values are at T
A
= +25°C.)
ELECTRICAL CHARACTERISTICS
(Circuit of Figure 1, V
DCIN
= V
CSSP
= V
CSSN
= 19V, V
BATT
= V
CSIP
= V
CSIN
= 16.8V, V
VCTL
= VAA, V
ISET
= 1V, T A= -40°C to +85°C,
unless otherwise noted.)
PARAMETER CONDITIONS MIN TY P MAX UNITS
SWITCHING REGULATOR
DHI Off-Time K Factor V
Sense Voltage for Minimum Discontinuous
Mode Ripple Current
Zero-Cros sing Comparator Threshold V
Cycle-by-Cycle Current-Limit Sense Voltage V
DHI Resistance High I
DHI Resistance Low I
DLO Resistance High I
DLO Resistance Low I
ADAPTER DETECTION
Adapter Absence-Detect Threshold V
Adapter Detect Threshold V
Adapter Switch Charge-Pump Frequency Charger Shutdown 180 200 220 Hz
Adapter Switch Charge-Pump Refresh Pulse
DCIN
V
CSIP
CSIP
CSIP
DLO
DLO
DLO
DLO
DCIN
DCIN
= 19V, V
- V
CSIN
- V
CSIN
- V
CSIN
BATT
= 10V 0.029 0.030 0.041 μs/V
10 mV
10 mV
105 110 115 mV
=10mA 1.5 3
= -10mA 0.8 1.75
= 10mA 3 6
= -10mA 3 7
- V
, V
BATT
- V
BATT,VDCIN
falling +70 +120 +170 mV
DCIN
rising +360 +420 +580 mV
DLO 0.04 0.1 0.20
DHI 0.07 0.15 0.30
μs
PARAMETER CONDITIONS MIN TY P MAX UNITS
CHARGE-VOLTAGE REGULATION
Battery Regulation-Voltage Accuracy
VCTL Range
VCTL Gain V
2 cel ls, V
3 cel ls, V
VCTL
VCTL
= GND (for MAX17006) 8.366 8.433
= V
AA
(for MAX17005 and MAX17006)
4 cel ls, V
= GND (for MAX17005) 16.73 16.86
VCTL
FB accuracy using FB divider (for MAX17015)
(Note 1)
2 cel ls (for MAX17006),
4 cell s (for MAX17005)
3 cell s (for MAX17005 and MAX17006)
CELL/VVCTL
5.85 6.15 V/V
12.549 12.651
2.091 2.108
VAA/2
+ 0.2
0.0
VAA/2
- 0.2
V
AA
V
V
MAX17005/MAX17006/MAX17015
1.2MHz Low-Cost,
High-Performance Chargers
_______________________________________________________________________________________ 5
ELECTRICAL CHARACTERISTICS (continued)
(Circuit of Figure 1, V
DCIN
= V
CSSP
= V
CSSN
= 19V, V
BATT
= V
CSIP
= V
CSIN
= 16.8V, V
VCTL
= VAA, V
ISET
= 1V, T A= -40°C to +85°C,
unless otherwise noted.)
PARAMETER CONDITIONS MIN TYP MAX UNITS
CHARGE-CURRENT REGULATION
ISET Range 0.0 VAA/2 V
Ful l Charge-Current Accurac y
(CSIP to CSIN)
Trickle Charge-Current Accuracy
Charge-Current Gain Error Based on V
Charge-Current Offset Error Based on V
BATT/CSIP/CSIN Input Voltage Range 0 24 V
ISET Power-Down Mode Threshold
ISET PWM Threshold
ISET Frequency 0.128 500 kHz
INPUT-CURRENT REGULATION
Input Current-Limit Threshold V
CSSN Input Bias Current Adapter present -2 +2 μA
CSSP/CSSN Input-Voltage Range 8.0 26.0 V
IINP Transconductance V
IINP Accuracy
SUPPLY AND LINEAR REGULATOR
DCIN Input-Voltage Range 8 26 V
DCIN UVLO Trip-Point
DCIN + CSSP + CSSN Quiescent Current
BATT + CSIP + CSIN + LX Input Current
LDO Output Voltage 8.0V < V
LDO Load Regulation 0 < I
LDO UVLO Threshold 3.2 5.0 V
V
= 1V to 16.8V
BATT
ISET
ISET
V
ISET
= VAA/4 or
ISET = 99.9% duty cycl e
V
= VAA/6 or
ISET
ISET = 66.7% duty cycl e
V
= VAA/80 or
ISET
ISET = 5% duty cycle
= V
/4 and V
= V
VAA
VAA
/4 and V
ISET
ISET
57.5 62.5 mV
-4.2 +4.2 %
38 42 mV
-5 +5 %
1.4 4.6 mV
-52 +52 %
= V
/80 -2 +2 %
VAA
= V
/80 -1.4 +1.4 mV
VAA
ISET falling 21 31
ISET ris ing 33 47
Ri sing 2.4
Fal ling 0.8
CSSP
CSSP
V
CSSP
V
CSSP
- V
- V
- V
- V
CSSN
= 60mV 2.66 2.94 μA/mV
CSSN
= 60mV, V
CSSN
= 35mV -2.5 +2.5
CSSN
= 0V to 4.5V -2.5 +2.5
IINP
58.2 61.8 mV
-3 +3 %
DCIN falling 7.9
DCIN rising 8.9
Adapter present (Note 2) 6 mA
Adapter absent (Note 2) 50 μA
V
= 16.8V
BATT
V
= 2V to 19V, adapter present (Note 2) 500
BATT
DCIN
< 40mA 200 mV
LDO
Adapter absent (Note 2) 20
Charger shutdown (Note 2) 20
< 26V, no load 5.15 5.55 V
mV
V
%
V
μA
MAX17005/MAX17006/MAX17015
1.2MHz Low-Cost,
High-Performance Chargers
6 _______________________________________________________________________________________
ELECTRICAL CHARACTERISTICS (continued)
(Circuit of Figure 1, V
DCIN
= V
CSSP
= V
CSSN
= 19V, V
BATT
= V
CSIP
= V
CSIN
= 16.8V, V
VCTL
= VAA, V
ISET
= 1V, T A= -40°C to +85°C,
unless otherwise noted.)
Note 1: Accuracy does not include errors due to external resistance tolerances.
Note 2: Adapter present conditions are tested at V
DCIN
= 19V and V
BATT
= 16.8V. Adapter absent conditions are tested at
V
DCIN
= 16V, V
BATT
= 16.8V.
PARAMETER CONDITIONS MIN TY P MAX UNITS
REFERENCES
VAA Output Voltage I
VAA UVLO Threshold VAA falling 3.9 V
ACIN
ACIN Thresho ld 2.058 2.142 V
ACIN Threshold Hysteresis 10 30 mV
ACOK
ACOK Sink Current V
SWITCHING REGULATOR
DHI Off-Time K Factor V
Cycle-by-Cycle Current-Limit Sense Voltage V
DHI Resistance High I
DHI Resistance Low I
DLO Resistance High I
DLO Resistance Low I
ADAPTER DETECTION
Adapter Absence-Detect Threshold V
Adapter Detect Threshold V
Adapter Switch Charge-Pump Frequency 180 220 Hz
Adapter Switch Charge-Pump Refresh Pulse
VAA
DLO
DLO
DLO
DLO
DLO 0.04 0.2
DHI 0.07 0.3
= 50μA 4.18 4.22 V
= 0.4V, V
ACOK
= 19V, V
DCIN
- V
CSIP
CSIN
= 10mA 3
= -10mA 1.75
= 10mA 6
= -10mA 7
- V
DCIN
BATT
- V
DCIN
BATT,VDCIN
, V
ACIN
BATT
DCIN
= 1.5V 6 mA
= 10V 0.029 0.041 μs/V
falling +70 +170 mV
rising +320 +620 mV
105 115 mV
μs
MAX17005/MAX17006/MAX17015
1.2MHz Low-Cost,
High-Performance Chargers
_______________________________________________________________________________________ 7
Typical Operating Characteristics
(Circuit of Figure 1, adapter = 19V, battery = 10V, ISET = 1.05V, V
CTL
= GND, TA= +25° C, unless otherwise noted.)
IINP DC ERROR
vs. SYSTEM CURRENT
MAX17005 toc01
SYSTEM CURRENT (A)
IINP ERROR (%)
4 3 12
-8
-6
-4
-2
0
2
4
6
8
10
-10
05
IINP ERROR
vs. SYSTEM CURRENT
MAX17005 toc02
SYSTEM CURRENT (A)
IINP ERROR (%)
4.0 3.5 2.5 3.0 1.0 1.5 2.0 0.5
-8
-6
-4
-2
0
2
4
6
8
10
-10
04 . 5
V
BATT
= 16.8V
V
BATT
= 8.4V
V
BATT
= 12.6V
ISET PWM DUTY-CYCLE CHANGE
MAX17005 toc03
DUTY CYCLE
CHARGE-CURRENT ERROR (%)
0.8 0.9 0.1 0.2 0.3 0.4 0.5 0.6 0.7
0.5
1.0
1.5
2.0
2.5
3.0
0
01 . 0
ISET PWM DUTY-CYCLE CHANGE
MAX17005 toc04
DUTY CYCLE
CHARGE CURRENT (A)
80 90 10 20 30 40 50 60 70
0.5
1.0
1.5
2.0
2.5
3.0
3.5
0
01 0 0
ISET PWM FREQUENCY SWEEP
MAX17005 toc05
FREQUENCY (kHz)
CHARGE-CURRENT ERROR (%)
600 700 100 200 300 400 500
0.5
1.0
1.5
2.0
2.5
3.0
0
0 800
DUTY CYCLE = 75%
DUTY CYCLE = 25%
BATTERY VOLTAGE-SETTING ERROR
MAX17005 toc06
VCTL (V)
BATTERY VOLTAGE ERROR (%)
3.0 3.5 4.0 0.5 1.0 1.5 2.0 2.5
-0.5
-0.4
-0.3
-0.2
-0.1
0
-0.6
04 . 5
SYSTEM LOAD TRANSIENT
MAX17005 toc07
200μs/div
SYSTEM
CURRENT
5A/div
CHARGING
CURRENT
5A/div
INDUCTOR
CURRENT
5A/div
EFFICIENCY
vs. CHARGE CURRENT
MAX17005 toc08
CHARGE CURRENT (A)
EFFICIENCY (%)
2.5 3.0 3.5 0.5 1.0 1.5 2.0
70
65
75
80
85
95
90
100
60
04 . 0
2 CELLS
3 CELLS
4 CELLS
VAA LOAD REGULATION
MAX17005 toc11
LOAD CURRENT (mA)
V
AA
VOLTAGE (V)
0.8 0.2 0.4 0.6
4.197
4.196
4.198
4.200
4.199
4.201
4.203
4.202
4.205
4.204
4.195
01 . 0
MAX17005/MAX17006/MAX17015
1.2MHz Low-Cost,
High-Performance Chargers
8 _______________________________________________________________________________________
Typical Operating Characteristics (continued)
(Circuit of Figure 1, adapter = 19V, battery = 10V, ISET = 1.05V, V
CTL
= GND, TA= +25° C, unless otherwise noted.)
5.50
5.45
5.40
LDO VOLTAGE (V)
5.35
5.30
04 0
LDO CURRENT (mA)
35 51 01 52 02 53 0
MAX17005 toc09
5.50
5.45
5.40
LDO VOLTAGE (V)
5.35
5.30
LDO LOAD REGULATION
LDO LINE REGULATION
82 6
INPUT VOLTAGE (V)
24 22 10 12 14 16 18 20
HIGH-SIDE MOSFET OFF-TIME AND
4.2005
VAA vs. TEMPERATURE
4.2000
4.1995
4.1990
(V)
4.1985
AA
V
4.1980
4.1975
4.1970
4.1965
-60 100
TEMPERATURE (° C)
60 80 -40 -20 0 20 40
MAX17005 toc12
SWITCHING FREQUENCY vs. BATTERY VOLTAGE
1.6 6
VIN = 20V
1.4
1.2
1.0
0.8
0.6
0.4
SWITCHING FREQUENCY (MHz)
0.2
0
HIGH-SIDE MOSFET OFF-TIME
01 8
MAX17005 toc10
SWITCHING FREQUENCY
BATTERY VOLTAGE (V)
MAX17005 toc13
16 14 10 12 468 2
5
4
3
2
HIGH-SIDE MOSFTE OFF-TIME (μs)
1
0
ADAPTER CURRENT
vs. ADAPTER VOLTAGE
1.6
1.4
1.2
1.0
0.8
0.6
ADAPTER CURRENT (mA)
0.4
0.2
0
02 0
ADAPTER VOLTAGE (V)
15 51 0
MAX17005 toc14
400
BATTERY LEAKAGE
350
300
250
200
150
100
BATTERY LEAKAGE CURRENT (μ A)
50
0
02 0
BATTERY VOLTAGE (V)
14 16 18 68 2 4 10 12
MAX17005 toc15
ADAPTER REMOVAL
200ms/div
MAX17005 toc16
5.00V
5.00V
5.00V