Fairchild FAN54014UCX Usb-compliant single-cell li-ion switching charger with usb-otg boost regulator Datasheet

FAN54010 / FAN54011 / FAN54012 / FAN54013 /
FAN54014 / FAN54015
USB-Compliant Single-Cell Li-Ion Switching Charger with
USB-OTG Boost Regulator
Features
Description

Fully Integrated, High-Efficiency Charger for Single-Cell
Li-Ion and Li-Polymer Battery Packs


Faster Charging than Linear
The FAN54010 family (FAN5401X) combines a highly
integrated switch-mode charger, to minimize single-cell Lithiumion (Li-ion) charging time from a USB power source, and a
boost regulator to power a USB peripheral from the battery.






5% Input Current Regulation Accuracy
Charge Voltage Accuracy:
0.5% at 25°C
1% from 0 to 125°C
5% Charge Current Regulation Accuracy
20V Absolute Maximum Input Voltage
6V Maximum Input Operating Voltage
1.45A Maximum Charge Rate
Programmable through High-Speed I2C Interface
(3.4Mb/s) with Fast Mode Plus Compatibility
– Input Current
–
–
–
Fast-Charge / Termination Current
Charger Voltage
Termination Enable

3MHz Synchronous Buck PWM Controller with Wide
Duty Cycle Range




Small Footprint 1H External Inductor


Low Reverse Leakage to Prevent Battery Drain to VBUS
Safety Timer with Reset Control
1.8V Regulated Output from VBUS for Auxiliary Circuits
Weak Input Sources Accommodated by Reducing
Charging Current to Maintain Minimum VBUS Voltage
The charging parameters and operating modes are
2
programmable through an I C Interface that operates up to
3.4Mbps. The charger and boost regulator circuits switch at
3MHz to minimize the size of external passive components.
The FAN5401X provides battery charging in three phases:
conditioning, constant current, and constant voltage.
To ensure USB compliance and minimize charging time, the
2
input current is limited to the value set through the I C host.
Charge termination is determined by a programmable
minimum current level. A safety timer with reset control
2
provides a safety backup for the I C host.
The integrated circuit (IC) automatically restarts the charge
cycle when the battery falls below an internal threshold. If the
input source is removed, the IC enters a high-impedance
mode with leakage from the battery to the input prevented.
Charge status is reported back to the host through the I2C
port. Charge current is reduced when the die temperature
reaches 120°C.
The FAN5401X can operate as a boost regulator on
command from the system. The boost regulator includes a
soft-start that limits inrush current from the battery.
The FAN5401X is available in a 1.96 x 1.87mm, 20-bump,
0.4mm pitch WLCSP package.
5V, 500mA Boost Mode for USB OTG for 3.0 to 4.5V
Battery Input
Applications



Cell Phones, Smart Phones, PDAs
Tablet, Portable Media Players
Gaming Device, Digital Cameras
All trademarks are the property of their respective owners.
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
Figure 1. Typical Application
www.fairchildsemi.com
FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
September 2011
Part Number
Temperature Range
(1)
FAN54010UCX
Package
PN Bits: IC_INFO[4:2]
Packing Method
011
Tape and Reel
001
Tape and Reel
011
Tape and Reel
101
Tape and Reel
111
Tape and Reel
101
Tape and Reel
-40 to 85°C
(1)
-40 to 85°C
FAN54012UCX
(1)
-40 to 85°C
FAN54013UCX
-40 to 85°C
FAN54011UCX
(1)
-40 to 85°C
(1)
-40 to 85°C
FAN54014UCX
FAN54015UCX
20-Bump, Wafer-Level
Chip-Scale Package
(WLCSP),
0.4mm Pitch,
Estimated Size:
1.96 x 1.87mm
Note:
1. Preliminary release only; please contact a Fairchild representative for information about part availability.
Table 1. Feature Comparison Summary
REG3[4:2]
Slave
Address
Automatic
Charge
Special
Charger(2)
Safety
Limits
Battery
Absent
Behavior
FAN54010UCX
011
1101011
Yes
No
No
OFF
FAN54011UCX
001
1101011
No
No
No
OFF
FAN54012UCX
011
1101011
Yes
No
No
ON
FAN54013UCX
101
1101011
Yes
Yes
Yes
OFF
FAN54014UCX
111
1101011
No
Yes
Yes
OFF
FAN54015UCX
101
1101010
Yes
Yes
Yes
ON
Part Number
PN Bits:
E2 Pin
VREG
(E3 Pin)
AUXPWR
(Connect
to VBAT)
PMID
DISABLE
1.8V
Note:
2. A “special charger” is a current-limited charger that is not a USB compliant source.
Table 2. Recommended External Components
Component
Description
Vendor
1H ±20%, 1.6A
DCR=55m, 2520
Murata: LQM2HPN1R0
1H ±30%, 1.4A
DCR=85m, 2016
Murata: LQM2MPN1R0
CBAT
10F, 20%, 6.3V, X5R, 0603
CMID
CBUS
L1
Parameter
Typ.
Unit
L
1.0
H
Murata: GRM188R60J106M
TDK: C1608X5R0J106M
C
10
F
4.7F, 10%, 6.3V, X5R, 0603
Murata: GRM188R60J475K
TDK: C1608X5R0J475K
C(3)
4.7
F
1.0F, 10%, 25V, X5R, 0603
Murata GRM188R61E105K
TDK:C1608X5R1E105M
C
1.0
F
Note:
3. A 6.3V rating is sufficient for CMID since PMID is protected from over-voltage surges on VBUS by Q3 (Figure 3).
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
www.fairchildsemi.com
2
FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
Ordering Information
FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
Block Diagram
Figure 2. IC and System Block Diagram
VBUS
CIN1
PMID
Q3
CHARGE
PUMP
CIN2
Q1
Q1A
Q1B
PMID
Greater than VBAT
Less than VBAT
Q1A
ON
OFF
Q1B
OFF
ON
CSIN
L1
SW
Q2
1H
RSENSE
COUT
68m
PGND
+ Battery
VBAT
SYSTEM
LOAD
CBAT
Figure 3. Power Stage
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
www.fairchildsemi.com
3
A1
A2
A3
A4
A4
A3
A2
A1
B1
B2
B3
B4
B4
B3
B2
B1
C1
C2
C3
C4
C4
C3
C2
C1
D1
D2
D3
D4
D4
D3
D2
D1
E1
E2
E3
E4
E4
E3
E2
E1
Top View
Bottom View
Figure 4. WLCSP-20 Pin Assignments
Pin Definitions
Pin #
Name
Part # Description
A1, A2
VBUS
ALL
Charger Input Voltage and USB-OTG output voltage. Bypass with a 1F capacitor to PGND.
A3
NC
ALL
No Connect. No external connection is made between this pin and the IC’s internal circuitry.
A4
SCL
ALL
I2C Interface Serial Clock. This pin should not be left floating.
B1-B3
PMID
ALL
Power Input Voltage. Power input to the charger regulator, bypass point for the input current
sense, and high-voltage input switch. Bypass with a minimum of 4.7F, 6.3V capacitor to PGND.
B4
SDA
ALL
I2C Interface Serial Data. This pin should not be left floating.
C1-C3
SW
ALL
Switching Node. Connect to output inductor.
C4
STAT
ALL
Status. Open-drain output indicating charge status. The IC pulls this pin LOW when charging.
D1-D3
PGND
ALL
Power Ground. Power return for gate drive and power transistors. The connection from this pin
to the bottom of CMID should be as short as possible.
D4
OTG
ALL
On-The-Go. Enables boost regulator in conjunction with OTG_EN and OTG_PL bits (see Table
16). On VBUS Power-On Reset (POR), this pin sets the input current limit for t15MIN charging.
E1
CSIN
ALL
Current-Sense Input. Connect to the sense resistor in series with the battery. The IC uses this
node to sense current into the battery. Bypass this pin with a 0.1F capacitor to PGND.
E2
AUXPWR
00, 01, Auxiliary Power. Connect to the battery pack to provide IC power during High-Impedance
02
Mode. Bypass with a 1F capacitor to PGND.
E2
DISABLE
Charge Disable. If this pin is HIGH, charging is disabled. When LOW, charging is controlled by
03, 04,
the I2C registers. When this pin is HIGH, the 15-minute timer is reset. This pin does not affect
05
the 32-second timer.
E3
VREG
ALL
Regulator Output. Connect to a 1F capacitor to PGND. This pin can supply up to 2mA of DC
load current. For FAN54010-FAN54012, the output voltage is PMID, which is limited to 6.5V. For
FAN54013-FAN54015, the output voltage is regulated to 1.8V.
E4
VBAT
ALL
Battery Voltage. Connect to the positive (+) terminal of the battery pack. Bypass with a 0.1F
capacitor to PGND if the battery is connected through long leads.
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
www.fairchildsemi.com
4
FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
Pin Configuration
Stresses exceeding the absolute maximum ratings may damage the device. The device may not function or be operable above
the recommended operating conditions and stressing the parts to these levels is not recommended. In addition, extended
exposure to stresses above the recommended operating conditions may affect device reliability. The absolute maximum
ratings are stress ratings only.
Symbol
VBUS
VSTAT
VI
VO
dVBUS
dt
Parameter
VBUS Voltage
Min.
Continuous
–1.4
Pulsed, 100ms Maximum Non-Repetitive
–2.0
STAT Voltage
–0.3
PMID Voltage
Max.
Unit
20.0
V
16.0
V
7.0
V
SW, CSIN, VBAT, AUXPWR, DISABLE Voltage
–0.3
7.0
Voltage on Other Pins
–0.3
6.5(4)
V
4
V/s
Maximum VBUS Slope above 5.5V when Boost or Charger are Active
Human Body Model per JESD22-A114
2000
Charged Device Model per JESD22-C101
500
ESD
Electrostatic Discharge
Protection Level
TJ
Junction Temperature
–40
+150
°C
TSTG
Storage Temperature
–65
+150
°C
+260
°C
TL
Lead Soldering Temperature, 10 Seconds
V
Note:
4. Lesser of 6.5V or VI + 0.3V.
Recommended Operating Conditions
The Recommended Operating Conditions table defines the conditions for actual device operation. Recommended operating
conditions are specified to ensure optimal performance to the datasheet specifications. Fairchild does not recommend
exceeding them or designing to absolute maximum ratings.
Symbol
VBUS
VBAT(MAX)

dVBUS
dt
Parameter
Supply Voltage
Min.
Max.
Unit
4
6
V
4.5
V
Maximum Battery Voltage when Boost enabled
Negative VBUS Slew Rate during VBUS Short Circuit,
CMID < 4.7F (see VBUS Short While Charging)
TA < 60°C
4
TA > 60°C
2
V/s
TA
Ambient Temperature
–30
+85
°C
TJ
Junction Temperature (see Thermal Regulation and Protection section)
–30
+120
°C
Thermal Properties
Junction-to-ambient thermal resistance is a function of application and board layout. This data is measured with four-layer
2s2p boards in accordance to JEDEC standard JESD51. Special attention must be paid not to exceed junction temperature
TJ(max) at a given ambient temperature TA. For measured data, see Table 11.
Symbol Parameter
Typical
Unit
JA
Junction-to-Ambient Thermal Resistance
60
°C/W
JB
Junction-to-PCB Thermal Resistance
20
°C/W
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
www.fairchildsemi.com
5
FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
Absolute Maximum Ratings
Unless otherwise specified: according to the circuit of Figure 1; recommended operating temperature range for TJ and TA;
VBUS=5.0V; HZ_MODE; OPA_MODE=0; (Charge Mode); SCL, SDA, OTG=0 or 1.8V; and typical values are for TJ=25°C.
Symbol
Parameter
Conditions
Min.
Typ.
Max.
Unit
Power Supplies
IVBUS
VBUS Current
ILKG
VBAT to VBUS Leakage Current
IBAT
Battery Discharge Current in HighImpedance Mode
VBUS > VBUS(min), PWM Switching
10
mA
VBUS > VBUS(min); PWM Enabled,
Not Switching (Battery OVP
Condition); I_IN Setting=100mA
2.5
mA
0°C < TJ < 85°C, HZ_MODE=1
VBAT < VLOWV, 32S Mode
63
90
A
0°C < TJ < 85°C, HZ_MODE=1,
VBAT=4.2V, VBUS=0V
0.2
5.0
A
0°C < TJ < 85°C, HZ_MODE=1,
VBAT=4.2V
20
FAN54013-15, DISABLE=1,
0°C < TJ < 85°C, VBAT=4.2V
10
A
Charger Voltage Regulation
Charge Voltage Range
VOREG
Charge Voltage Accuracy
3.5
4.4
–0.5%
+0.5%
TJ=0 to 125°C
–1%
+1%
VLOWV < VBAT < VOREG
RSENSE=68m
550
1450
TA=25°C
V
Charging Current Regulation
Output Charge Current Range
IOCHRG
Charge Current Accuracy Across
RSENSE
20mV < VIREG <
40mV
VIREG > 40mV
FAN54010-12
95
100
105
FAN54013-15
92
97
102
FAN54010-12
97
100
103
FAN54013-15
94
97
100
mA
%
Weak Battery Detection
VLOWV
Weak Battery Threshold Range
3.4
3.7
V
Weak Battery Threshold Accuracy
–5
+5
%
Weak Battery Deglitch Time
Rising Voltage
30
ms
Logic Levels: DISABLE, SDA, SCL, OTG
VIH
High-Level Input Voltage
VIL
Low-Level Input Voltage
IIN
Input Bias Current
1.05
Input Tied to GND or VIN
V
0.01
0.4
V
1.00
A
mA
Charge Termination Detection
Termination Current Range
I(TERM)
Termination Current Accuracy
Termination Current Deglitch Time
VBAT > VOREG – VRCH, RSENSE=68m
50
400
[VCSIN – VBAT ] from 3mV to 20mV
–25
+25
[VCSIN – VBAT ] from 20mV to 40mV
–5
+5
2mV Overdrive
30
%
ms
1.8V Linear Regulator
VREG
1.8V Regulator Output
IREG from 0 to 2mA, FAN54013-15
1.7
1.8
1.9
V
Continued on the following page…
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
www.fairchildsemi.com
6
FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
Electrical Specifications
Unless otherwise specified: according to the circuit of Figure 1; recommended operating temperature range for TJ and TA;
VBUS=5.0V; HZ_MODE; OPA_MODE=0; (Charge Mode); SCL, SDA, OTG=0 or 1.8V; and typical values are for TJ=25°C.
Symbol
Parameter
Conditions
Min.
Typ.
Max.
Unit
Input Power Source Detection
VIN(MIN)1
VBUS Input Voltage Rising
To Initiate and Pass VBUS Validation
4.29
4.42
VIN(MIN)2
Minimum VBUS During Charge
During Charging
3.71
3.94
tVBUS_VALID
VBUS Validation Time
30
V
V
ms
Special Charger (VBUS) (FAN54013, FAN54014, FAN54015)
VSP
Special Charger Setpoint Accuracy
–3
+3
%
Input Current Limit
IINLIM
Input Current Limit Threshold
IIN Set to 100mA
88
93
98
IIN Set to 500mA
450
475
500
mA
VREF Bias Generator
VREF
Bias Regulator Voltage
VBUS > VIN(MIN) or VBAT > VBAT(MIN)
6.5
Short-Circuit Current Limit
20
V
mA
Battery Recharge Threshold
VRCH
Recharge Threshold
Below V(OREG)
Deglitch Time
VBAT Falling Below VRCH Threshold
100
120
150
130
mV
ms
STAT Output
VSTAT(OL)
STAT Output Low
ISTAT=10mA
ISTAT(OH)
STAT High Leakage Current
VSTAT=5V
0.4
V
1
A
Battery Detection
IDETECT
Battery Detection Current before
Charge Done (Sink Current)(5)
tDETECT
Battery Detection Time
Begins after Termination Detected
and VBAT < VOREG –VRCH
–0.80
mA
262
ms
Sleep Comparator
VSLP
tSLP_EXIT
Sleep-Mode Entry Threshold,
VBUS – VBAT
2.3V < VBAT < VOREG, VBUS Falling
Deglitch Time for VBUS Rising
Above VBAT by VSLP
Rising Voltage
30
IIN(LIMIT)=500mA
180
250
Q1 On Resistance (PMID to SW)
130
225
Q2 On Resistance (SW to GND)
150
225
0
0.04
0.10
V
ms
Power Switches (see Figure 3)
Q3 On Resistance (VBUS to PMID)
RDS(ON)
mΩ
Charger PWM Modulator
fSW
Oscillator Frequency
DMAX
Maximum Duty Cycle
DMIN
Minimum Duty Cycle
ISYNC
Synchronous to Non-Synchronous
Current Cut-Off Threshold(6)
2.7
Low-Side MOSFET (Q2) Cycle-byCycle Current Limit
3.0
3.3
MHz
100
%
0
%
140
mA
Continued on the following page…
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
www.fairchildsemi.com
7
FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
Electrical Specifications
Unless otherwise specified: according to the circuit of Figure 1; recommended operating temperature range for TJ and TA;
VBUS=5.0V; HZ_MODE; OPA_MODE=0; (Charge Mode); SCL, SDA, OTG=0 or 1.8V; and typical values are for TJ=25°C.
Symbol
Parameter
Conditions
Min.
Typ.
Max.
Unit
Boost Mode Operation (OPA_MODE=1, HZ_MODE=0)
VBOOST
Boost Output Voltage at VBUS
IBAT(BOOST)
Boost Mode Quiescent Current
ILIMPK(BST)
Q2 Peak Current Limit
UVLOBST
Minimum Battery Voltage for Boost
Operation
2.5V < VBAT < 4.5V, ILOAD from 0 to
200mA
4.80
5.07
5.17
3.0V < VBAT < 4.5V, ILOAD from 0 to
500mA
4.77
5.07
5.17
140
300
A
1272
1590
1908
mA
V
PFM Mode, VBAT=3.6V, IOUT=0
While Boost Active
2.42
To Start Boost Regulator
2.58
Normal Operation
1500
K
Charger Validation
100

2.70
V
VBUS Load Resistance
RVBUS
VBUS to PGND Resistance
Protection and Timers
VBUSOVP
ILIMPK(CHG)
VSHORT
ISHORT
VBUS Over-Voltage Shutdown
VBUS Rising
Hysteresis
VBUS Falling
100
mV
Q1 Cycle-by-Cycle Peak Current
Limit
Charge Mode
2.3
A
Battery Short-Circuit Threshold
VBAT Rising
Hysteresis
VBAT Falling
Linear Charging Current
VBAT < VSHORT
(7)
6.09
1.95
6.29
2.00
6.49
2.05
100
20
V
V
mV
30
40
mA
Thermal Shutdown Threshold
TJ Rising
145
Hysteresis(7)
TJ Falling
10
TCF
Thermal Regulation Threshold(7)
Charge Current Reduction Begins
120
°C
tINT
Detection Interval
2.1
s
t32S
32-Second Timer(8)
TSHUTDWN
°C
Charger Enabled
20.5
25.2
28.0
Charger Disabled
18.0
25.2
34.0
13.5
15.0
min
25
%
t15MIN
15-Minute Timer
15-Minute Mode (FAN54013-15)
12.0
∆tLF
Low-Frequency Timer Accuracy
Charger Inactive
–25
s
Notes:
5. Negative current is current flowing from the battery to VBUS (discharging the battery).
6. Q2 always turns on for 60ns, then turns off if current is below ISYNC.
7. Guaranteed by design; not tested in production.
8. This tolerance (%) applies to all timers on the IC, including soft-start and deglitching timers.
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
www.fairchildsemi.com
8
FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
Electrical Specifications
Guaranteed by design.
Symbol
fSCL
tBUF
tHD;STA
tLOW
Parameter
SCL Clock Frequency
Bus-Free Time between STOP
and START Conditions
START or Repeated START
Hold Time
SCL LOW Period
Conditions
Min.
tSU;STA
tSU;DAT
tHD;DAT
tRCL
SCL HIGH Period
Repeated START Setup Time
Data Setup Time
Data Hold Time
SCL Rise Time
100
Fast Mode
400
High-Speed Mode, CB < 100pF
3400
High-Speed Mode, CB < 400pF
1700
Standard Mode
4.7
Fast Mode
1.3
Standard Mode
SCL Fall Time
SDA Rise Time
Rise Time of SCL after a
Repeated START Condition
and after ACK Bit
kHz
s
Fast Mode
600
ns
High-Speed Mode
160
ns
Standard Mode
4.7
s
Fast Mode
1.3
s
High-Speed Mode, CB < 100pF
160
ns
High-Speed Mode, CB < 400pF
320
ns
4
s
600
ns
High-Speed Mode, CB < 100pF
60
ns
High-Speed Mode, CB < 400pF
120
ns
Standard Mode
4.7
s
Fast Mode
600
ns
ns
Fast Mode
High-Speed Mode
160
Standard Mode
250
Fast Mode
100
High-Speed Mode
10
ns
Standard Mode
0
3.45
s
Fast Mode
0
900
ns
High-Speed Mode, CB < 100pF
0
70
ns
High-Speed Mode, CB < 400pF
0
150
ns
Standard Mode
20+0.1CB
1000
Fast Mode
20+0.1CB
300
10
80
High-Speed Mode, CB < 100pF
20
160
Standard Mode
20+0.1CB
300
Fast Mode
20+0.1CB
300
10
40
High-Speed Mode, CB < 100pF
High-Speed Mode, CB < 400pF
tRDA
tRCL1
Unit
s
4
High-Speed Mode, CB < 400pF
tFCL
Max.
Standard Mode
Standard Mode
tHIGH
Typ.
20
ns
ns
80
Standard Mode
20+0.1CB
1000
Fast Mode
20+0.1CB
300
High-Speed Mode, CB < 100pF
10
80
High-Speed Mode, CB < 400pF
20
160
ns
Continued on the following page…
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
www.fairchildsemi.com
9
FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
I2C Timing Specifications
Guaranteed by design.
Symbol
tFDA
Parameter
Conditions
SDA Fall Time
tSU;STO
Stop Condition Setup Time
CB
Min.
Typ.
Max.
Standard Mode
20+0.1CB
300
Fast Mode
20+0.1CB
300
High-Speed Mode, CB < 100pF
10
80
High-Speed Mode, CB < 400pF
20
160
Standard Mode
4
Unit
ns
s
Fast Mode
600
ns
High-Speed Mode
160
ns
Capacitive Load for SDA, SCL
400
pF
Timing Diagrams
tF
tSU;STA
tBUF
SDA
tR
SCL
TSU;DAT
tHD;STO
tHIGH
tLOW
tHD;STA
tHD;DAT
tHD;STA
REPEATED
START
START
STOP
START
Figure 5. I2C Interface Timing for Fast and Slow Modes
tFDA
tRDA
REPEATED
START
tSU;DAT
STOP
SDAH
tSU;STA
tRCL1
SCLH
tFCL
tRCL
tSU;STO
tHIGH
tLOW
tHD;STA
tHD;DAT
REPEATED
START
note A
= MCS Current Source Pull-up
= RP Resistor Pull-up
Note A: First rising edge of SCLH after Repeated Start and after each ACK bit.
Figure 6. I2C Interface Timing for High-Speed Mode
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
www.fairchildsemi.com
10
FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
I2C Timing Specifications
180
900
160
800
140
700
Battery Charge Current (mA)
Battery Charge Current (mA)
Unless otherwise specified, circuit of Figure 1, VOREG=4.2V, VBUS=5.0V, and TA=25°C.
120
100
80
60
40
5.5VBUS
5.0VBUS
20
600
500
400
300
200
5.5VBUS
5.0VBUS
100
4.5VBUS
4.5VBUS
-
2.5
3
3.5
4
4.5
2.5
3
Battery Voltage, VBAT (V)
3.5
4
4.5
Battery Voltage, VBAT (V)
Figure 7. Battery Charge Current vs. VBUS with
IINLIM=100mA
Figure 8. Battery Charge Current vs. VBUS with
IINLIM=500mA
97%
94%
4.20VBAT, 4.5VBUS
4.20VBAT, 5.0VBUS
3.54VBAT, 5.0VBUS
94%
92%
91%
Efficiency
Efficiency
3.54VBAT, 4.5VBUS
88%
90%
88%
86%
85%
4.5VBUS
5.0VBUS
5.5VBUS
82%
100
84%
300
500
700
900
1100
1300
2.5
1500
2.7
2.9
3.1
3.3
3.5
3.7
3.9
4.1
4.3
Battery Voltage, VBAT (V)
Battery Charge Current (mA)
Figure 9. Charger Efficiency, No IINLIM, IOCHARGE=1,450mA
Figure 10. Charger Efficiency vs. VBUS, IINLIM=500mA
Figure 11. Auto-Charge Startup at VBUS Plug-in,
IINLIM=100mA, OTG=1, VBAT=3.4V
Figure 12. Auto-Charge Startup at VBUS Plug-in,
IINLIM=500mA, OTG=1, VBAT=3.4V
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
www.fairchildsemi.com
11
FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
Charge Mode Typical Characteristics
Unless otherwise specified, circuit of Figure 1, VOREG=4.2V, VBUS=5.0V, and TA=25°C.
Figure 13. AutoCharge Startup with 300mA Limited
Charger / Adaptor, IINLIM=500mA, OTG=1, VBAT=3.4V
Figure 14. Charger Startup with HZ_MODE Bit Reset,
IINLIM=500mA, IOCHARGE=1,050mA, OREG=4.2V, VBAT=3.6V
Figure 15. Battery Removal / Insertion During Charging,
VBAT=3.9V, IOCHARGE=1,050mA, No IINLIM, TE=0
Figure 16. Battery Removal / Insertion During Charging,
VBAT=3.9V, IOCHARGE=1,050mA, No IINLIM, TE=1
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
www.fairchildsemi.com
12
FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
Charge Mode Typical Characteristics
Unless otherwise specified, circuit of Figure 1, VOREG=4.2V, VBUS=5.0V, and TA=25°C.
Figure 17. No Battery at VBUS Power-up; FAN54010,
FAN54013
Figure 18. No Battery at VBUS Power-up; FAN54012,
FAN54015
1.82
200
-30C
+25C
1.80
VREG (V)
High-Z Mode Current (A)
1.81
150
+85C
100
1.79
-10C, 5.0VBUS
50
1.78
+25C, 5.0VBUS
+85C, 5.0VBUS
0
4.0
4.5
5.0
5.5
1.77
6.0
0
Figure 19. VBUS Current in High-Impedance Mode
with Battery Open
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
1
2
3
4
5
1.8V Regulator Load Current (mA)
Input Voltage, VBUS (V)
Figure 20. VREG 1.8V Output Regulation
www.fairchildsemi.com
13
FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
Charge Mode Typical Characteristics
100
100
95
95
90
90
Efficiency (%)
Efficiency (%)
Unless otherwise specified, using circuit of Figure 1, VBAT=3.6V, TA=25°C.
85
3.0 VBAT
80
85
-10C, 3.6VBAT
80
+25C, 3.6VBAT
3.6 VBAT
+85C, 3.6VBAT
4.2 VBAT
75
75
0
100
200
300
400
0
500
100
200
300
400
500
VBUS Load Current (mA)
VBUS Load Current (mA)
Figure 21. Efficiency vs. VBAT
Figure 22. Efficiency Over Temperature
5.10
5.10
3.0 VBAT
-10C, 3.6VBAT
3.6 VBAT
5.05
+25C, 3.6VBAT
5.05
4.2 VBAT
+85C, 3.6VBAT
5.00
VBUS (V)
VBUS (V)
5.00
4.95
4.95
4.90
4.90
4.85
4.85
4.80
4.80
0
100
200
300
400
500
0
100
VBUS Load Current (mA)
200
300
400
500
VBUS Load Current (mA)
Figure 23. Output Regulation vs. VBAT
Figure 24. Output Regulation Over Temperature
250
20
-30C
Quiescent Current (µA)
High-Z Mode Current (µA)
+25C
200
+85C
150
100
15
10
-30C
5
+25C
+85C
50
0
2
2.5
3
3.5
4
4.5
5
2
Battery Voltage, VBAT (V)
3
3.5
4
4.5
5
Battery Voltage, VBAT (V)
Figure 25. Quiescent Current
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
2.5
Figure 26. High-Impedance Mode Battery Current
www.fairchildsemi.com
14
FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
Boost Mode Typical Characteristics
Unless otherwise specified, using circuit of Figure 1, VBAT=3.6V, TA=25°C.
Figure 27. Boost PWM Waveform
Figure 28. Boost PFM Waveform
30
30
2.7 VBAT
-30C, 3.6VBAT
3.6 VBAT
25
25
4.2 VBAT
+25C, 3.6VBAT
+85C, 3.6VBAT
20
VBUS Ripple (mVpp)
VBUS Ripple (mVpp)
4.5 VBAT
15
10
5
20
15
10
5
0
0
0
100
200
300
400
0
500
Figure 29. Output Ripple vs. VBAT
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
100
200
300
400
500
VBUS Load Current (mA)
VBUS Load Current (mA)
Figure 30. Output Ripple vs. Temperature
www.fairchildsemi.com
15
FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
Boost Mode Typical Characteristics
Unless otherwise specified, using circuit of Figure 1, VBAT=3.6V, TA=25°C.
VBUS
IL
IBAT
Figure 31. Startup, 3.6VBAT, 44 Load, Additional 10µF,
X5R Across VBUS
Figure 32. VBUS Fault Response, 3.6VBAT
Figure 33. Load Transient, 5-155-5mA, tR=tF=100ns
Figure 34. Load Transient, 5-255-5mA, tR=tF=100ns
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
www.fairchildsemi.com
16
FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
Boost Mode Typical Characteristics
When charging batteries with a current-limited input source,
such as USB, a switching charger’s high efficiency over a
wide range of output voltages minimizes charging time.
The FAN5401X is designed to work with a current-limited
input source at VBUS. During the current regulation phase of
charging, IINLIM or the programmed charging current limits the
amount of current available to charge the battery and power
the system. The effect of IINLIM on ICHARGE can be seen in
Figure 36.
FAN5401X combines a highly integrated synchronous buck
regulator for charging with a synchronous boost regulator,
which can supply 5V to USB On-The-Go (OTG) peripherals.
The regulator employs synchronous rectification for both the
charger and boost regulators to maintain high efficiency over
a wide range of battery voltages and charge states.
VOREG
ICHARGE
IOCHARGE
T
V BA
The FAN5401X has three operating modes:
1.
Charge Mode:
Charges a single-cell Li-ion or Li-polymer battery.
2.
Boost Mode:
Provides 5V power to USB-OTG with an integrated
synchronous rectification boost regulator using the
battery as input.
3.
ITERM
VSHORT
ISHORT
High-Impedance Mode:
Both the boost and charging circuits are OFF in this
mode. Current flow from VBUS to the battery or from the
battery to VBUS is blocked in this mode. This mode
consumes very little current from VBUS or the battery.
PRECHARGE
CURRENT REGULATION
VOLTAGE
REGULATION
Figure 35. Charge Curve, ICHARGE Not Limited by IINLIM
Note: Default settings are denoted by bold typeface.
VOREG
Charge Mode
In Charge Mode, FAN5401X employs four regulation loops:
1.
T
V BA
Input Current: Limits the amount of current drawn from
VBUS. This current is sensed internally and can be
programmed through the I2C interface.
2.
Charging Current: Limits the maximum charging current.
This current is sensed using an external RSENSE resistor.
3.
Charge Voltage: The regulator is restricted from
exceeding this voltage. As the internal battery voltage
rises, the battery’s internal impedance and RSENSE work
in conjunction with the charge voltage regulation to
decrease the amount of current flowing to the battery.
Battery charging is completed when the voltage across
RSENSE drops below the ITERM threshold.
4.
Temperature: If the IC’s junction temperature reaches
120°C, charge current is reduced until the IC’s
temperature stabilizes at 120°C.
5.
An additional loop limits the amount of drop on VBUS to
a programmable voltage (VSP) to accommodate “special
chargers” that limit current to a lower current than might
be available from a “normal” USB wall charger.
H AR
GE
ITERM
VSHORT
ISHORT
PRECHARGE
CURRENT REGULATION
VOLTAGE
REGULATION
Figure 36. Charge Curve, IINLIM Limits ICHARGE
Assuming that VOREG is programmed to the cell’s fully
charged “float” voltage, the current that the battery accepts
with the PWM regulator limiting its output (sensed at VBAT)
to VOREG declines, and the charger enters the voltage
regulation phase of charging. When the current declines to
the programmed ITERM value, the charge cycle is complete.
Charge current termination can be disabled by resetting the
TE bit (REG1[3]).
The charger output or “float” voltage can be programmed by
the OREG bits from 3.5V to 4.44V in 20mV increments, as
shown in Table 3.
Battery Charging Curve
If the battery voltage is below VSHORT, a linear current source
pre-charges the battery until VBAT reaches VSHORT. The PWM
charging circuit is then started and the battery is charged
with a constant current if sufficient input power is available.
The current slew rate is limited to prevent overshoot.
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
IC
www.fairchildsemi.com
17
FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
Circuit Description / Overview
A new charge cycle begins when one of the following occurs:

The battery voltage falls below VOREG - VRCH
Decimal Hex VOREG

VBUS Power on Reset (POR) clears and the battery
voltage is below the weak battery threshold (VLOWV).
This occurs for all versions except the FAN54011.

CE or HZ_MODE is reset through I2C write to
CONTROL1 (R1) register.
Decimal Hex VOREG
0
00
3.50
32
20
4.14
1
01
3.52
33
21
4.16
2
02
3.54
34
22
4.18
3
03
3.56
35
23
4.20
4
04
3.58
36
24
4.22
5
05
3.60
37
25
4.24
6
06
3.62
38
26
4.26
7
07
3.64
39
27
4.28
8
08
3.66
40
28
4.30
9
09
3.68
41
29
4.32
10
0A
3.70
42
2A
4.34
0
000
11
0B
3.72
43
2B
4.36
1
001
12
0C
3.74
44
2C
4.38
2
13
0D
3.76
45
2D
4.40
14
0E
3.78
46
2E
4.42
15
0F
3.80
47
2F
16
10
3.82
48
30
17
11
3.84
49
31
4.44
18
12
3.86
50
32
4.44
19
13
3.88
51
33
4.44
20
14
3.90
52
34
4.44
Termination Current Limit
21
15
3.92
53
35
4.44
22
16
3.94
54
36
4.44
Current charge termination is enabled when TE (REG1[3])=1.
Typical termination current values are given in Table 6.
23
17
3.96
55
37
4.44
24
18
3.98
56
38
4.44
25
19
4.00
57
39
4.44
26
1A
4.02
58
3A
4.44
Charge Current Limit (IOCHARGE)
Table 5. IOCHARGE (REG4 [6:4]) Current as Function
of IOCHARGE Bits and RSENSE Resistor Values
IOCHARGE (mA)
VRSENSE
(mV)
68m
100m
00
37.4
550
374
01
44.2
650
442
010
02
51.0
750
510
3
011
03
57.8
850
578
4
100
04
71.4
1050
714
4.44
5
101
05
78.2
1150
782
4.44
6
110
06
91.8
1350
918
7
111
07
98.6
1450
986
27
1B
4.04
59
3B
4.44
28
1C
4.06
60
3C
4.44
29
1D
4.08
61
3D
4.44
30
1E
4.10
62
3E
4.44
DEC
BIN
HEX
Table 6. ITERM Current as Function of ITERM Bits
(REG4[2:0]) and RSENSE Resistor Values
FAN54010-FAN54012 FAN54013-FAN54015
ITERM
ITERM (mA)
ITERM (mA)
VRSENSE
VRSENSE
(mV) 68m 100m
(mV) 68m 100m
0
3.4
50
34
3.3
49
33
1
6.8
100
68
6.6
97
66
2
10.2
150
102
9.9
146
99
The following charging parameters can be programmed by
the host through I2C:
3
13.6
200
136
13.2
194
132
4
17.0
250
170
16.5
243
165
Table 4. Programmable Charging Parameters
5
20.4
300
204
19.8
291
198
Name
Register
6
23.8
350
238
23.1
340
231
Output Voltage Regulation
VOREG
REG2[7:2]
7
27.2
400
272
26.4
388
264
Battery Charging Current Limit
IOCHRG
REG4[6:4]
IINLIM
REG1[7:6]
Charge Termination Limit
ITERM
REG4[2:0]
Weak Battery Voltage
VLOWV
REG1[5:4]
Parameter
Input Current Limit
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
When the charge current falls below ITERM, PWM charging
stops and the STAT bits change to READY (00) for about
500ms while the IC determines whether the battery and
charging source are still connected. STAT then changes to
CHARGE DONE (10), provided the battery and charger are
still connected.
www.fairchildsemi.com
18
FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
Table 3. OREG Bits (OREG[7:2]) vs. Charger VOUT
(VOREG) Float Voltage
USB-Friendly Boot Sequence
The IC uses a current-mode PWM controller to regulate the
output voltage and battery charge currents. The synchronous
rectifier (Q2) has a negative current limit that turns off Q2 at
140mA to prevent current flow from the battery.
For FAN54010/12/13/15, NOT FAN54011/14
At VBUS POR, when the battery voltage is above the weak
battery threshold (VLOWV), the IC operates in accordance with
its I2C register settings. If VBAT < VLOWV, the IC sets all
registers to their default values and enables the charger
using an input current limit controlled by the OTG pin
(100mA if OTG is LOW and 500mA if OTG is HIGH). This
feature can revive a battery whose voltage is too low to
ensure reliable host operation. Charging continues in the
absence of host communication even after the battery has
reached VOREG, whose default value is 3.54V, and the
charger remains active until t15MIN times out. Once the host
processor begins writing to the IC, charging parameters are
set by the host, which must continually reset the t32S timer to
continue charging using the programmed charging
parameters. If t32S.times out, the register defaults are loaded,
the FAULT bits are set to 110, STAT is pulsed HIGH, and
charging continues with default charge parameters.
Safety Timer
Section references Figure 41 and Figure 42.
At the beginning of charging, the IC starts a 15-minute timer
(t15MIN ). When this timer times out, charging is terminated.
2
Writing to any register through I C stops and resets the t15MIN
timer, which in turn starts a 32-second timer (t32S). Setting
the TMR_RST bit (REG0[7]) resets the t32S timer. If the t32S
timer times out, charging is terminated, the registers are set
to their default values, and charging resumes using the
default values with the t15MIN timer running.
Normal charging is controlled by the host with the t32S timer
running to ensure that the host is alive. Charging with the
t15MIN timer running is used for charging that is unattended by
the host. If the t15MIN timer expires, the IC turns off the
charger, sets the CE bit, and indicates a timer fault (110) on
the FAULT bits (REG0[2:0]). This sequence prevents
overcharge if the host fails to reset the t32S timer.
The FAN54011 and FAN54014 do not automatically initiate
charging at VBUS POR. Instead, they wait for the host to
initiate charging through I2C commands.
Input Current Limiting
To minimize charging time without overloading VBUS current
limitations, the IC’s input current limit can be programmed by
the IINLIM bits (REG1[7:6]).
VBUS POR / Non-Compliant Charger Rejection
When the IC detects that VBUS has risen above VIN(MIN)1
(4.4V), the IC applies a 100 load from VBUS to GND. To
clear the VBUS POR (Power-On-Reset) and begin charging,
VBUS must remain above VIN(MIN)1 and below VBUSOVP for
tVBUS_VALID (30ms) before the IC initiates charging. The VBUS
validation sequence always occurs before charging is
initiated or re-initiated (for example, after a VBUS OVP fault
or a VRCH recharge initiation).
Table 7. Input Current Limit
tVBUS_VALID ensures that unfiltered 50/60Hz chargers and
other non-compliant chargers are rejected.
IINLIM REG1[7:6]
Input Current Limit
00
100mA
01
500mA
10
800mA
11
No limit
For all versions except the FAN54011/14, the OTG pin
establishes the input current limit when t15MIN is running. For
the FAN54011 and FAN54014, no charging occurs
automatically at VBUS POR; the input current limit is
established by the IINLIM bits.
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
www.fairchildsemi.com
19
FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
PWM Controller in Charge Mode
FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
Flow Charts
Figure 37. Charger VBUS POR
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
www.fairchildsemi.com
20
FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
Flow Charts (Continued)
Figure 38. Charge Mode
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
www.fairchildsemi.com
21
FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
Flow Charts (Continued)
Figure 39. Charge Configuration
Figure 40. HZ-State
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
www.fairchildsemi.com
22
Charge Start
Start T15MIN
Reset Registers
YES
T32SEC
NO
Start T32SEC
Stop T15MIN
T15MIN
Active?
YES
Expired?
YES
NO
I2C Write
received?
NO
Timer Fault :
Set CE
CE
T15MIN
Expired?
NO
Continue
Charging
YES
Figure 41. Timer Flow Chart for FAN54010, FAN54012, FAN54013, FAN54015
Charge Start
from Host control
Reset T32SEC
Charge
T32SEC
Expired?
YES
Timer Fault
Stop Charging and
Reset Registers
NO
NO
YES
TMR_RST
bit Set?
Figure 42. Timer Flow Chart for FAN54011 and FAN54014
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
www.fairchildsemi.com
23
FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
Flow Charts (Continued)
FAN54013, FAN54014, FAN54015 Only
The FAN54013, FAN54014, and FAN54015 have additional
functionality to limit input current in case a current-limited
“special charger” is supplying VBUS. These slowly increase
the charging current until either:

ISAFE (REG6[6:4])
DEC
IINLIM or IOCHARGE is reached
or

VBUS=VSP.
If VBUS collapses to VSP when the current is ramping up, the
FAN54013, FAN54014, and FAN54015 charge with an input
current that keeps VBUS=VSP. When the VSP control loop is
limiting the charge current, the SP bit (REG5[4]) is set.
Table 8. VSP as Function of SP Bits (REG5[2:0])
BIN
HEX
VRSENSE (mV)
ISAFE (mA)
68m
100m
0
000
00
37.4
550
374
1
001
01
44.2
650
442
2
010
02
51.0
750
510
3
011
03
57.8
850
578
4
100
04
71.4
1050
714
5
101
05
78.2
1150
782
6
110
06
91.8
1350
918
7
111
07
98.6
1450
986
SP (REG5[2:0])
DEC
BIN
HEX
VSP
0
000
00
4.213
1
001
01
4.293
2
010
02
4.373
3
011
03
4.453
4
100
04
5
101
6
7
Table 10. VSAFE (VOREG Limit) as Function of VSAFE
Bits (REG6[3:0])
VSAFE (REG6[3:0])
DEC
BIN
HEX
Max. OREG
(REG2[7:2])
VOREG
Max.
4.533
0
0000
00
100011
4.20
05
4.613
1
0001
00
100100
4.22
110
06
4.693
2
0010
01
100101
4.24
111
07
4.773
3
0011
02
100110
4.26
4
0100
03
100111
4.28
5
0101
04
101000
4.30
6
0110
05
101001
4.32
7
0111
06
101010
4.34
8
1000
07
101011
4.36
9
1001
08
101100
4.38
10
1010
09
101101
4.40
11
1011
0A
101110
4.42
12
1100
0B
101111
4.44
13
1101
0C
110000
4.44
14
1110
0D
110001
4.44
15
1111
0E
110010
4.44
Safety Settings
FAN54013, FAN54014, FAN54015 Only
The FAN54013, FAN54014, and FAN54015 contain a
SAFETY register (REG6) that prevents the values in OREG
(REG2[7:2]) and IOCHARGE (REG4[6:4]) from exceeding
the values of the VSAFE and ISAFE values.
After VBAT exceeds VSHORT, the SAFETY register is loaded
with its default value and may be written only before any
other register is written. After writing to any other register,
the SAFETY register is locked until VBAT falls below VSHORT.
The ISAFE (REG6[6:4]) and VSAFE (REG6[3:0]) registers
establish values that limit the maximum values of IOCHARGE
and VOREG used by the control logic. If the host attempts to
write a value higher than VSAFE or ISAFE to OREG or
IOCHARGE, respectively; the VSAFE, ISAFE value appears
as the OREG, IOCHARGE register value, respectively.
Thermal Regulation and Protection
When the IC’s junction temperature reaches TCF (about
120°C), the charger reduces its output current to 550mA to
prevent overheating. If the temperature increases beyond
TSHUTDOWN; charging is suspended, the FAULT bits are set
to 101, and STAT is pulsed HIGH. In Suspend Mode, all
timers stop and the state of the IC’s logic is preserved.
Charging resumes at programmed current after the die
cools to about 120°C.
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
www.fairchildsemi.com
24
FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
Table 9. ISAFE (IOCHARGE Limit) as Function of ISAFE
Bits (REG6[6:4])
Special Charger
Battery Detection During Charging
The IC can detect the presence, absence, or removal of a
battery if the termination bit (TE) is set. During normal
charging, once VBAT is close to VOREG and the termination
charge current is detected, the IC terminates charging and
sets the STAT bits to 10. It then turns on a discharge current,
IDETECT, for tDETECT. If VBAT is still above VOREG – VRCH, the
battery is present and the IC sets the FAULT bits to 000. If
VBAT is below VOREG – VRCH, the battery is absent and the IC:
1. Sets the registers to their default values.
2. Sets the FAULT bits to 111.
3. Resumes charging with default values after tINT.
Table 11. FAN5401X Evaluation Board Measured JA
Power (W)
JA
0.504
54°C/W
0.844
50°C/W
1.506
46°C/W
Battery Short-Circuit Protection
If the battery voltage is below the short-circuit threshold
(VSHORT); a linear current source, ISHORT, supplies VBAT until
VBAT > VSHORT.
Charge Mode Input Supply Protection
Sleep Mode
When VBUS falls below VBAT + VSLP, and VBUS is above
VIN(MIN), the IC enters Sleep Mode to prevent the battery from
draining into VBUS. During Sleep Mode, reverse current is
disabled by body switching Q1.
Battery Detection During Power-up
For FAN54010 and FAN54013
At VBUS POR, a 5K load is applied to VBAT for 500ms to
discharge any residual system capacitance in case the
battery is absent. If VBAT < VSHORT, linear charging
commences. When VBAT rises above VSHORT, PWM charging
proceeds with the float voltage (OREG) temporarily set to
4V. If the battery voltage exceeds 3.7V within 32ms of the
beginning of PWM charging, the battery is absent. If battery
absent is detected:
1. High-Impedance Mode is entered.
2. FAULT bits are set to 111.
3. The t15MIN timer is disabled until VBUS is removed.
Input Supply Low-Voltage Detection
The IC continuously monitors VBUS during charging. If VBUS
falls below VIN(MIN), the IC:
1. Terminates charging
2. Pulses the STAT pin, sets the STAT bits to 11, and sets
the FAULT bits to 011.
If VBUS recovers above the VIN(MIN) rising threshold after time
tINT (about two seconds), the charging process is repeated.
This function prevents the USB power bus from collapsing or
oscillating when the IC is connected to a suspended USB
port or a low-current-capable OTG device.
If VBAT remains below 3.7V during the initial 32ms period, the
float voltage returns to the OREG register setting and PWM
charging continues.
Input Over-Voltage Detection
When the VBUS exceeds VBUSOVP, the IC:
1. Turns off Q3
2. Suspends charging
3. Sets the FAULT bits to 001, sets the STAT bits to 11,
and pulses the STAT pin.
System Operation with No Battery
The FAN54012 and FAN54015 continue charging after
VBUS POR with the default parameters, regulating the VBAT
line to 3.54V until the host processor issues commands or
the 15-minute timer expires. In this way, the FAN54012 and
FAN54015 can start the system without a battery.
The FAN5401X soft-start function can interfere with the
system supply with battery absent. The soft-start activates
whenever VOREG, IINLIM, or IOCHARGE are set from a lower to
higher value. During soft-start, the IIN limit drops to 100mA
for about 1ms unless IINLIM is set to 11 (no limit). This could
cause the system processor to fail to start. To avoid this
behavior, use the following sequence.
1. Set the OTG pin HIGH. When VBUS is plugged in, IINLIM
is set to 500mA until the system processor powers up
and can set parameters through I2C.
2. Program the Safety Register.
3. Set IINLIM to 11 (no limit).
4. Set OREG to the desired value (typically 4.18).
5. Reset the IOLEVEL bit, then set IOCHARGE.
6. Set IINLIM to 500mA if a USB source is connected.
When VBUS falls about 150mV below VBUSOVP, the fault is
cleared and charging resumes after VBUS is revalidated (see
VBUS POR / Non-Compliant Charger Rejection).
VBUS Short While Charging
If VBUS is shorted with a very low impedance while the IC is
charging with IINLIMIT=100mA, the IC may not meet datasheet
specifications until power is removed. To trigger this
condition, VBUS must be driven from 5V to GND with a high
slew rate. Achieving this slew rate requires a 0 short to the
USB cable less than 10cm from the connector.
Charge Mode Battery Detection & Protection
VBAT Over-Voltage Protection
The OREG voltage regulation loop prevents VBAT from
overshooting the OREG voltage by more than 50mV when
the battery is removed. When the PWM charger runs with no
battery, the TE bit is not set and a battery is inserted that is
charged to a voltage higher than VOREG; PWM pulses stop. If
no further pulses occur for 30ms, the IC sets the FAULT bits
to 100, sets the STAT bits to 11, and pulses the STAT pin.
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
www.fairchildsemi.com
25
FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
Additional JA data points, measured using the FAN5401X
evaluation board, are given in Table 11 (measured with
TA=25°C). Note that as power dissipation increases, the
effective JA decreases due to the larger difference between
the die temperature and its ambient.
Charge Mode Control Bits
Setting either HZ_MODE or CE through I2C disables the
charger and puts the IC into High-Impedance Mode and
resets t32S. If VBAT < VLOWV while in High-Impedance Mode,
t32S begins running and, when it overflows, all registers
(except SAFETY) reset, which enables t15MIN charging on
versions with the 15-minute timer.
If the system is powered up without a battery present, the
CV bit should be set. When a battery is inserted, the CV bit
is cleared.
When t15MIN overflows, the IC sets the CE bit and the IC
Charger Status / Fault Status
The STAT pin indicates the operating condition of the IC and
provides a fault indicator for interrupt driven systems.
enters High-Impedance Mode. If CE was set by t15MIN
overflow, a new charge cycle can only be initiated through
2
I C or VBUS POR.
Setting the RESET bit clears all registers. If HZ_MODE or
Table 12. STAT Pin Function
EN_STAT
Charge State
STAT Pin
0
X
OPEN
X
Normal Conditions
OPEN
1
Charging
LOW
X
Fault
(Charging or Boost)
128s Pulse,
then OPEN
CE bits were set when the RESET bit is set, these bits are
also cleared, but the t32S timer is not started, and the IC
remains in High-Impedance Mode.
Table 14. FAN54013-15 DISABLE Pin and CE Bit
Functionality
The FAULT bits (R0[2:0]) indicate the type of fault in Charge
Mode (see Table 13).
Table 13. Fault Status Bits During Charge Mode
Fault Bit
Fault Description
Charging
DISABLE Pin
CE
HZ_MODE
ENABLE
0
0
0
DISABLE
X
1
X
DISABLE
X
X
1
DISABLE
1
X
X
B2
B1
B0
0
0
0
Normal (No Fault)
0
0
1
VBUS OVP
0
1
0
Sleep Mode
0
1
1
Poor Input Source
1
0
0
Battery OVP
Operational Mode Control
OPA_MODE (REG1[0]) and the HZ_MODE (REG1[1]) bits in
conjunction with the FAULT state define the operational
mode of the charger.
1
0
1
Thermal Shutdown
Table 15. Operation Mode Control
1
1
0
Timer Fault
1
1
1
No Battery
Raising the DISABLE pin stops t32S from advancing, but
does not reset it. If the DISABLE pin is raised during t15MIN
charging, the t15MIN timer is reset.
HZ_MODE OPA_MODE FAULT Operation Mode
0
0
0
Charge
0
X
1
Charge Configure
0
1
0
Boost
1
X
X
High Impedance
The IC resets the OPA_MODE bit whenever the boost is
deactivated, whether due to a fault or being disabled by
setting the HZ_MODE bit.
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
www.fairchildsemi.com
26
FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
During the initial system startup, while the charger IC is
being programmed, the system current is limited to 325mA
for 1ms during steps 4 and 5. This is the value of the softstart ICHARGE current used when IINLIM is set to No Limit.
Boost Mode can be enabled if the IC is in 32-Second Mode
with the OTG pin and OPA_MODE bits as indicated in Table
16. The OTG pin ACTIVE state is 1 if OTG_PL=1 and 0
when OTG_PL=0.
VOUT  5.07  ROUT  ILOAD
At VBAT=3.3V, and ILOAD=200mA, VBUS would drop to:
If boost is active using the OTG pin, Boost Mode is initiated
even if the HZ_MODE=1. The HZ_MODE bit overrides the
OPA_MODE bit.
VOUT  5.07  0.26  0.2  5.018 V
EQ. 1A
At VBAT=2.7V, and ILOAD=200mA, VBUS would drop to:
Table 16. Enabling Boost
VOUT  5.07  0.327  0.2  5.005 V
OTG_EN
OTG
Pin
HZ_
MODE
OPA_
MODE
BOOST
1
ACTIVE
X
X
Enabled
X
X
0
1
Enabled
X
ACTIVE
X
0
Disabled
0
X
1
X
Disabled
1
ACTIVE
1
1
Disabled
0
ACTIVE
0
0
Disabled
EQ. 1B
PFM Mode
If VBUS > VREFBOOST (nominally 5.07V) when the minimum
off-time has ended, the regulator enters PFM Mode. Boost
pulses are inhibited until VBUS < VREFBOOST. The minimum
on-time is increased to enable the output to pump up
sufficiently with each PFM boost pulse. Therefore the
regulator behaves like a constant on-time regulator, with the
bottom of its output voltage ripple at 5.07V in PFM Mode.
Table 17. Boost PWM Operating States
Mode
To remain in Boost Mode, the TMR_RST must be set by the
host before the t32S timer times out. If t32S times out in Boost
Mode; the IC resets all registers, pulses the STAT pin, sets
the FAULT bits to 110, and resets the BOOST bit. VBUS
POR or reading R0 clears the fault condition.
Boost PWM Control
Description
Invoked When
LIN
Linear Startup
VBAT > VBUS
SS
Boost Soft-Start
VBUS < VBST
BST
Boost Operating Mode
VBAT > UVLOBST and
SS Completed
Startup
The IC uses a minimum on-time and computed minimum offtime to regulate VBUS. The regulator achieves excellent
transient response by employing current-mode modulation.
This technique causes the regulator to exhibit a load line.
During PWM Mode, the output voltage drops slightly as the
input current rises. With a constant VBAT, this appears as a
constant output resistance.
When the boost regulator is shut down, current flow is
prevented from VBAT to VBUS, as well as reverse flow from
VBUS to VBAT.
LIN State
When EN rises, if VBAT > UVLOBST, the regulator first
attempts to bring PMID within 400mV of VBAT using an
internal 450mA current source from VBAT (LIN State). If
PMID has not achieved VBAT – 400mV after 560s, a FAULT
state is initiated.
The “droop” caused by the output resistance when a load is
applied allows the regulator to respond smoothly to load
transients with no undershoot from the load line. This can be
seen in Figure 33 and Figure 43.
SS State
350
When PMID > VBAT – 400mV, the boost regulator begins
switching with a reduced peak current limit of about 50% of
its normal current limit. The output slews up until VBUS is
within 5% of its setpoint; at which time, the regulation loop is
closed and the current limit is set to 100%.
325
Output Resistance (m)
EQ. 1
300
275
If the output fails to achieve 95% of its setpoint (VBST) within
128s, the current limit is increased to 100%. If the output
fails to achieve 95% of its setpoint after this second 384s
period, a fault state is initiated.
250
225
200
2.0
2.5
3.0
3.5
4.0
4.5
5.0
Battery Voltage, VBAT (V)
Figure 43. Output Resistance (ROUT)
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
www.fairchildsemi.com
27
FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
VBUS as a function of ILOAD can be computed when the
regulator is in PWM Mode (continuous conduction) as:
Boost Mode
VREG Pin
This is the normal operating mode of the regulator. The
regulator uses a minimum tOFF-minimum tON modulation
The VREG pin on FAN54010, FAN54011, and FAN54012
provides a voltage protected from over-voltage surges on
VBUS, which can be used to run auxiliary circuits. This
voltage is essentially a current-limited replica of PMID. The
maximum voltage on this node is 5.9V.
scheme. The minimum tOFF is proportional to
VIN , which
VOUT
keeps the regulator’s switching frequency reasonably
constant in CCM. tON(MIN) is proportional to VBAT and is a
higher value if the inductor current reached 0 before tOFF(MIN)
in the prior cycle.
FAN54013, FAN54014, and FAN54015 provide a 1.8V
regulated output on this pin, which can be disabled through
I2C by setting the DIS_VREG bit (REG5[6]). VREG can
supply up to 2mA. This circuit, which is powered from PMID,
is enabled only when PMID > VBAT and does not drain
current from the battery. During boost, VREG is off. It is also
off when the HZ_MODE bit (REG1[1])=1.
To ensure the VBUS does not pump significantly above the
regulation point, the boost switch remains off as long as
FB > VREF.
Boost Faults
Monitor Register (Reg10H)
If a BOOST fault occurs:
1. The STAT pin pulses.
2. OPA_MODE bit is reset.
3. The power stage is in High-Impedance Mode.
4. The FAULT bits (REG0[2:0]) are set per Table 18.
Additional status monitoring bits enable the host processor
to have more visibility into the status of the IC. The monitor
bits are real-time status indicators and are not internally
debounced or otherwise time qualified.
The state of the MONITOR register bits listed in HighImpedance Mode are only valid when VBUS is valid.
Restart After Boost Faults
If boost was enabled with the OPA_MODE bit and
OTG_EN=0, Boost Mode can only be enabled through
subsequent I2C commands since OPA_MODE is reset on
boost faults. If OTG_EN=1 and the OTG pin is still ACTIVE
(see Table 16), the boost restarts after a 5.2ms delay, as
shown in Figure 44. If the fault condition persists, restart is
attempted every 5ms until the fault clears or an I2C
command disables the boost.
Table 18. Fault Bits During Boost Mode
Fault Bit
Fault Description
B2 B1 B0
0
0
0
Normal (no fault)
0
0
1
VBUS > VBUSOVP
0
1
0
VBUS fails to achieve the voltage required to
advance to the next state during soft-start
or sustained (>50s) current limit during the
BST state.
0
1
1
VBAT < UVLOBST
1
0
0
N/A: This code does not appear.
1
0
1
Thermal shutdown
1
1
0
Timer fault; all registers reset.
1
1
1
N/A: This code does not appear.
VBUS 0
BATTERY
CURRENT
560
450mA
0
5200
64
BOOST
ENABLED
Figure 44. Boost Response Attempting to Start into VBUS
Short Circuit (Times in s)
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
www.fairchildsemi.com
28
FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
BST State
BIT#
STATE
NAME
0
MONITOR
Active When
1
Address 10H
7
ITERM_CMP
6
VBAT_CMP
VCSIN – VBAT < VITERM
VCSIN – VBAT > VITERM
Charging with TE=1
VCSIN – VBAT < 1mV
VCSIN – VBAT > 1mV
Charging with TE=0
VBAT < VSHORT
VBAT > VSHORT
Charging
VBAT < VLOWV
VBAT > VLOWV
High-Impedance Mode
VBAT < UVLOBST
VBAT > UVLOBST
Boosting
Linear Charging Enabled
Charging
5
LINCHG
Linear Charging Not Enabled
4
T_120
TJ < 120°
TJ > 120°
3
ICHG
Charging Current Controlled by
ICHARGE Control Loop
Charging Current Not Controlled by
ICHARGE Control Loop
Charging
2
IBUS
IBUS Limiting Charging Current
Charge Current Not Limited by IBUS
Charging
1
VBUS_VALID
VBUS Not Valid
VBUS is Valid
VBUS > VBAT
0
CV
Constant Current Charging
Constant Voltage Charging
Charging
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
www.fairchildsemi.com
29
FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
Table 19. MONITOR Register Bit Definitions
A transaction ends with a STOP condition, which is defined
as SDA transitioning from 0 to 1 with SCL HIGH, as shown
in Figure 47.
The FAN5401X’s serial interface is compatible with
Standard, Fast, Fast Plus, and High-Speed Mode I2C-Bus®
specifications. The SCL line is an input and the SDA line is a
bi-directional open-drain output; it can only pull down the bus
when active. The SDA line only pulls LOW during data reads
and signaling ACK. All data is shifted in MSB (bit 7) first.
Slave Releases
SDA
Master Drives
tHD;STO
ACK(0) or
NACK(1)
Slave Address
Table 20. I2C Slave Address Byte
Part Types
SCL
7 6 5 4 3 2 1
0
FAN54010–FAN54014
1
1
0
1
0
1
1
R/ W
Figure 47. Stop Bit
FAN54015
1
1
0
1
0
1
0
R/ W
In hex notation, the slave address assumes a 0 LSB. The
hex slave address for the FAN54015 is D4H and is D6H for
all other parts in the family.
During a read from the FAN5401X (Figure 50), the master
issues a Repeated Start after sending the register address
and before resending the slave address. The Repeated Start
is a 1-to-0 transition on SDA while SCL is HIGH, as shown in
Figure 48.
Bus Timing
High-Speed (HS) Mode
As shown in Figure 45, data is normally transferred when
SCL is LOW. Data is clocked in on the rising edge of SCL.
Typically, data transitions shortly at or after the falling edge
of SCL to allow ample time for the data to set up before the
next SCL rising edge.
The protocols for High-Speed (HS), Low-Speed (LS), and
Fast-Speed (FS) Modes are identical except the bus speed
for HS Mode is 3.4MHz. HS Mode is entered when the bus
master sends the HS master code 00001XXX after a start
condition. The master code is sent in Fast or Fast Plus Mode
(less than 1MHz clock); slaves do not ACK this transmission.
Data change allowed
The master then generates a repeated start condition
(Figure 48) that causes all slaves on the bus to switch to HS
2
Mode. The master then sends I C packets, as described
above, using the HS Mode clock rate and timing.
SDA
TH
TSU
SCL
The bus remains in HS Mode until a stop bit (Figure 47) is
sent by the master. While in HS Mode, packets are
separated by repeated start conditions (Figure 48).
Figure 45. Data Transfer Timing
Each bus transaction begins and ends with SDA and SCL
HIGH. A transaction begins with a START condition, which is
defined as SDA transitioning from 1 to 0 with SCL HIGH, as
shown in Figure 46.
Slave Releases
SDA
tSU;STA
tHD;STA
ACK(0) or
NACK(1)
SLADDR
MS Bit
SCL
SDA
THD;STA
Slave Address
MS Bit
Figure 48. Repeated Start Timing
SCL
Figure 46. Start Bit
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
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30
FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
I2C Interface
The figures below outline the sequences for data read and
write. Bus control is signified by the shading of the packet,
Master Drives Bus
defined as
All
addresses
MSB
7 bits
S
Symbol
Slave Drives Bus
and
data
are
and
Table 21. Bit Definitions for Figure 49, Figure 50
Slave Address
0
.
first.
Definition
S
START, see Figure 46.
A
ACK. The slave drives SDA to 0 to acknowledge
the preceding packet.
A
NACK. The slave sends a 1 to NACK the
preceding packet.
R
Repeated START, see Figure 48
P
STOP, see Figure 47
0
8 bits
0
8 bits
0
A
Reg Addr
A
Data
A
P
Figure 49. Write Transaction
7 bits
S
Slave Address
0
0
8 bits
0
A
Reg Addr
A
7 bits
R
Slave Address
1
0
8 bits
1
A
Data
A
P
Figure 50. Read Transaction
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
www.fairchildsemi.com
31
FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
Read and Write Transactions
FAN54010-FAN54012 have seven user-accessible registers; FAN54013-FAN54015 have an additional two registers, defined
in Table 22.
Table 22. I2C Register Address
Register
IC
Address Bits
Name
REG#
7
6
5
4
3
2
1
0
CONTROL0
0
0
0
0
0
0
0
0
0
CONTROL1
1
0
0
0
0
0
0
0
1
OREG
2
0
0
0
0
0
0
1
0
IC_INFO
03
or
3BH
0
0
0
0
0
0
1
1
IBAT
4
0
0
0
0
0
1
0
0
SP_CHARGER
5
0
0
0
0
0
1
0
1
SAFETY
6
0
0
0
0
0
1
1
0
MONITOR
10H
0
0
0
0
1
0
1
0
ALL
FAN54013-15
ALL
Table 23. Register Bit Definitions
This table defines the operation of each register bit for all IC versions. Default values are in bold text.
Bit
Name
Value
Type
CONTROL0
7
TMR_RST
OTG
6
EN_STAT
Register Address: 00
1
0
00
STAT
3
BOOST
Writing a 1 resets the t32S timer; writing a 0 has no effect
R
Returns the OTG pin level (1=HIGH)
R/W
2:0
FAULT
Prevents STAT pin from going LOW during charging; STAT pin still pulses to
enunciate faults
Enables STAT pin LOW when IC is charging
R
Ready
01
Charge in progress
10
Charge done
11
Fault
0
R
1
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
Default Value=X1XX 0XXX
W
1
5:4
Description
IC is not in Boost Mode
IC is in Boost Mode
R
Fault status bits: for Charge Mode, see Table 13; for Boost Mode, see Table 18
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FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
Register Descriptions
Bit
Name
Value
Type
CONTROL1
7:6
Register Address: 01
IINLIM
00
5:4
VLOWV
3
TE
2
CE
1
HZ_MODE
0
Description
OPA_MODE
R/W
Input current limit, see Table 7
R/W
3.4V
01
3.5V
10
3.6V
11
3.7V
0
R/W
1
0
R/W
Disable charge current termination
Charger enabled
Charger disabled
R/W
1
0
Weak battery voltage threshold
Enable charge current termination
1
0
Not High-Impedance Mode
High-Impedance Mode
R/W
1
Charge Mode
Register Address: 02
OREG
1
OTG_PL
0
OTG_EN
0
Charger output “float” voltage; programmable from 3.5 to 4.44V in 20mV
increments; defaults to 000010 (3.54V), see Table 3
R/W
OTG pin active LOW
R/W
Disables OTG pin
OTG pin active HIGH
1
Enables OTG pin
IC_INFO
Register Address: 03 or 3B
7:5
Vendor Code
4:2
PN
1:0
REV
100
00
Default Value=100X X100
R
Identifies Fairchild Semiconductor as the IC supplier
R
Part number bits, see the Ordering Info on page 1
R
IC Revision, revision 1.X, where X is the decimal of these three bits
IBAT
Register Address: 04
7
RESET
1
W
6:4
IOCHARGE
Table 5
R/W
3
Reserved
1
R
2:0
ITERM
Table 6
R/W
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
Default Value=0000 1010 (0AH)
R/W
1
0
See Table 16
Boost Mode
OREG
7:2
Default Value=0011 0000 (30H)
Default Value=1000 1001 (89H)
Writing a 1 resets charge parameters, except the Safety register (Reg6), to their
defaults: writing a 0 has no effect; read returns 1
Programs the maximum charge current, see Table 5
Unused
Sets the current used for charging termination, see Table 6
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FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
Table 23. Register Bit Definitions (Continued)
SP_CHARGER (FAN54013-15)
7
Reserved
6
DIS_VREG
IO_LEVEL
4
SP
3
EN_LEVEL
2:0
VSP
Default Value=001X X100
0
R
0
R/W
1.8V regulator is ON
R/W
Output current is controlled by IOCHARGE bits
1
0
5
Register Address: 05
1.8V regulator is OFF
Voltage across RSENSE for output current control is set to 22.1mV (325mA for
RSENSE=68m, 221mA for 100m)
1
0
R
1
0
Special charger is not active (VBUS is able to stay above VSP)
Special charger has been detected and VBUS is being regulated to VSP
R
1
Table 8
Unused
DISABLE pin is LOW
DISABLE pin is HIGH
R/W
SAFETY (FAN54013-15)
Special charger input regulation voltage, see Table 8
Register Address: 06
Default Value=0100 0000 (40H)
7
Reserved
0
R
6:4
ISAFE
Table 9
R/W
Sets the maximum IOCHARGE value used by the control circuit, see Table 9
3:0
VSAFE
Table 10
R/W
Sets the maximum VOREG used by the control circuit, see Table 10
MONITOR
Bit disabled and always returns 0 when read back
Register Address: 10H (16)
See Table 19
7
ITERM_CMP
R
ITERM comparator output, 1 when VRSENSE > ITERM reference
6
VBAT_CMP
R
Output of VBAT comparator
5
LINCHG
R
30mA linear charger ON
4
T_120
R
Thermal regulation comparator; when=1 and T_145=0, the charge current is limited
to 22.1mV across RSENSE
3
ICHG
R
0 indicates the ICHARGE loop is controlling the battery charge current
See
Table 19
2
IBUS
R
0 indicates the IBUS (input current) loop is controlling the battery charge current
1
VBUS_VALID
R
1 indicates VBUS has passed validation and is capable of charging
0
CV
R
1 indicates the constant-voltage loop (OREG) is controlling the charger and all
current limiting loops have released
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
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FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
Table 23. Register Bit Definitions (Continued)
Bypass capacitors should be placed as close to the IC as
possible. In particular, the total loop length for CMID should
be minimized to reduce overshoot and ringing on the SW,
PMID, and VBUS pins. All power and ground pins must be
routed to their bypass capacitors, using top copper whenever
possible. Copper area connecting to the IC should be
maximized to improve thermal performance if possible.
Figure 51. PCB Layout Recommendations
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
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FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
PCB Layout Recommendations
BALL A1
INDEX AREA
F
A
E
1.20
B
0.03 C
Ø0.20
Cu Pad
A1
2X
1.60
D
0.40
Ø0.30 Solder
Mask Opening
0.40
0.03 C
2X
TOP VIEW
RECOMMENDED LAND PATTERN
(NSMD TYPE)
0.06 C
0.625
0.547
0.05 C
C
0.378±0.018
0.208±0.021
E
SEATING PLANE
SIDE VIEWS
D
NOTES:
0.005
1.20
A. NO JEDEC REGISTRATION APPLIES.
C A B
B. DIMENSIONS ARE IN MILLIMETERS.
Ø0.260±0.02
20X
0.40
E
D
C
B
1.60
0.40
C. DIMENSIONS AND TOLERANCE
PER ASMEY14.5M, 1994.
D. DATUM C IS DEFINED BY THE SPHERICAL
CROWNS OF THE BALLS.
(Y) ±0.018
A
E. PACKAGE NOMINAL HEIGHT IS 586 MICRONS
±39 MICRONS (547-625 MICRONS).
F
1 2 3 4
(X) ±0.018
F. FOR DIMENSIONS D, E, X, AND Y SEE
PRODUCT DATASHEET.
BOTTOM VIEW
G. DRAWING FILNAME: MKT-UC020AArev2.
Figure 52. 20-Ball WLCSP, 4X5 Array, 0.4mm Pitch, 250µm Ball
Product-Specific Dimensions
Product
D
E
X
Y
FAN5401XUCX
1.960 +0.030
1.870 +0.030
0.335
0.180
Package drawings are provided as a service to customers considering Fairchild components. Drawings may change in any manner without
notice. Please note the revision and/or date on the drawing and contact a Fairchild Semiconductor representative to verify or obtain the most
recent revision. Package specifications do not expand the terms of Fairchild’s worldwide terms and conditions, specifically the warranty
therein, which covers Fairchild products.
Always visit Fairchild Semiconductor’s online packaging area for the most recent package drawings:
http://www.fairchildsemi.com/packaging/.
© 2011 Fairchild Semiconductor Corporation
FAN5401X Family • Rev. 1.0.2
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36
FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
Physical Dimensions
FAN5401X Family — USB-Compliant Single-Cell Li-Ion Switching Charger with USB-OTG Boost Regulator
37
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FAN5401X Family • Rev. 1.0.2
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