STMICROELECTRONICS ST3S01

ST3S01LED
BATTERY CHARGE I.C.
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■
■
■
■
■
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DEDICATED I.C. FOR 1 LI-ION CELL OR 3
NI-MH CELLS
5 DIFFERENT OPERATING MODES
150 mA PRECHARGE CURRENT
VERY LOW DROP CHARGE SWITCH
(130mV @ 800mA)
VERY LOW DROP REVERSE SWITCH
(130mV @ 800mA)
5.7V OVER BATTERY OVER VOLTAGE
PROTECTION
CHARGER DETECTION MODE
(VCHARGE-VBATT) DETECTION MODE
DESCRIPTION
This specification describes a dedicated I.C.
which allows to charge 1 Lilon cell or 3 Nimh cells.
The principle used to charge the batteries is the
pulsed current, the monitoring is operated by the
micro-contoller of the application. This IC
integrates one Power Switch and achieves the
SO-8
exposed pad
charge batteries in two different modes charge or
precharge.
One of this operating mode (charge or precharge)
can be selected in a static or pulsed way by one I/
O from a micro-controller. The IC can supply
power to accessories controlled by this I.C. in
Reverse mode. The I.C. is available in the smaller
and surface mounted SO-8 (exposed pad version)
package.
SCHEMATIC DIAGRAM
March 2003
1/17
ST3S01LED
ABSOLUTE MAXIMUM RATINGS
Symbol
Parameter
VBATT
VCHARGE
VFLAG
Value
Unit
Battery Voltage
-0.3 to 6
V
Charge Voltage (*)
-12 to 16
V
(VCHARGE - VBATT) Flag Control Voltage
-0.3 to 12
V
-0.3 to 12
V
VCHARGER-OK Charger Flag Control Voltage
VCMD-PWM
PWM Command Voltage
-0.3 to 5
V
VCMD-MODE
CMD Command Voltage
-0.3 to 5
V
VCMD-REVERSE Reverse Command Voltage
ISWITCH
Internal Switch
Continuous Max Current
Internal Switch Peak
Current
-0.3 to 5
V
TAMB = 85°C, Rthj-amb = 40°C/W
2
A
TAMB = 30°C, Rthj-amb = 40°C/W
3
A
T<1ms Duty Cycle < 1%
Rthj-amb = 40°C/W
8
A
Tstg
Storage Temperature Range
-55 to +125
°C
TJ
Operating Junction Temperature Range
-40 to +125
°C
Operating Ambient Temperature Range (if an adeguate
heatsink is provided)
-40 to +85
°C
TAMB
Absolute Maximum Ratings are those values beyond which damage to the device may occur. Functional operation under these condition is
not implied.
(*) The I.C. is automatically turned OFF when VCHARGE reaches typically 14V (VCHARGE rising edge); typical hysteresis is 700mV (VCHARGE
falling edge)
THERMAL DATA
Symbol
Rthj-case
Parameter
Thermal Resistance Junction-case
SO-8
Unit
10
°C/W
ORDERING CODES
TYPE
SO-8 exposed pad
SO-8 exposed pad (T&R)
ST3S01LED
ST3S01LED
ST3S01LED-TR
CONNECTION DIAGRAM (top view)
2/17
ST3S01LED
PIN DESCRIPTION
Pin N°
Symbol
1
VBATT
2
3
4
5
6
Name and Function
BATTERY pin: input pin when reverse mode is selected; output pin when in
charge or precharge mode
CMD-REVERSE Reverse Command pin: Enables the reverse mode when connected to a positive
voltage higher than 1.2V. Logic pin internally pulled down.
CMD-PWM
PWM Command pin: allows to control the precharge or charge switch in PWM
mode (refer to the Table 1 for the different operating modes). Logic pin internally
pulled down.
CMD-MODE
Mode Command pin: allows to switch between precharge and charge mode (refer
to OPERATING MODES Table). Logic pin internally pulled down.
GND
GND Pin
CHARGER-OK CHARGER-OK output pin; open drain N-channel MOSFET that is in high
impedance when the VCHARGE voltage drops below 2.5V and CMD-REVERSE is
low. When the reverse function is activated, this open drain have the same
information of the (VCHARGE -VBATT) FLAG.
7
FLAG
FLAG pin (VCHARGE -VBATT): open drain N-channel MOSFET that sinks current
when the VCHARGE voltage is higher than the VBATT.
8
VCHARGE
CHARGER SUPPLY pin: input pin when charge or precharge mode is selected;
output pin when in reverse mode.
OPERATING MODE
CMD-PWM
CMD-MODE
0
0
1
1
0
1
0
1
Operating Function Selected
PRECHARGE MODE (Default state)
CHARGE MODE
CHARGE and PRECHARGE switches are open
CHARGE and PRECHARGE switches are open
3/17
ST3S01LED
I.C. BLOCK DIAGRAM
POSSIBLE OPERATING MODES
Five different operating modes are allowed:
charge, precharge, reverse, charge+reverse and
precharge+reverse. These operating modes can
be achieved by properly selection of the
CMD-REVERSE CMD-PWM and CMD-MODE
(See POSSIBLE OPERATING MODE Table).
PRECHARGE MODE
The PRECHARGE function is composed by a
switch and a 100mA current source which fully
works for VCHARGE higher than 2.5V. When the
CMD-MODE and the CMD-PWM are not leaded
the switch is ON, being the input states held by an
internal pull down resistor. This is used when the
4/17
battery is strongly discharged. In this case VBATT
can be null (battery empty) and all the input pins
are not held by any level (because the
micro-controller is down), except the VCHARGE pin
which is a main supply. The source of current
supplies a constant current into the battery till its
voltage level reaches the required level allowing to
start the micro-controller (typically 3V). The
current direction is from VCHARGE to VBATT. The
reverse leakage current when the swich is ON
must be null; this is obtained thanks to an internal
circuitry that switch OFF the internal P-MOS when
the VBATT is higher than VCHARGE, whatever the
status of the CMD-MODE. The precharge function
is also used to adjust the mean current. When the
ST3S01LED
battery is fully charged the current into the battery
has not to be more than C/25 (Nimh battery). In
order to perform finely this, the CMD-PWM pin
must be driven with PWM function (in the same
time, the CMD-MODE must be kept low). The duty
cycle allows to adjust the mean current needed.
CHARGE MODE
The CMD-MODE pin, when high (and CMD-PWM
low), handles the switch in charge mode. This
switch allows the battery charge with a strong
current. The drop of this internal P-Channel MOS
is very low (200mV @ 800mA) in order to optimize
the efficiency of the charge.
The switch is not internally protected against short
circuit or overcurrent condition.
When the switch is ON (CMD-MODE high and
CMD-PWM low), the current direction into the chip
is from VCHARGE to VBATT. The reverse current
when the switch is ON must be null; this is
obtained by mean of an internal circuitry that
switch OFF the internal P-MOS when the VBATT is
higher than VCHARGE, whatever the status of the
CMD-MODE. When the CMD-MODE pin is low or
in high impedance the switch is OFF, while it is ON
when the signal on that pin is high.
REVERSE MODE
When the reverse function is selected by
CDM-REVERSE pin, the switch allows to supply
the accessories with a strong current. The drop of
the internal P-Channel MOS is very low (200mV
@ 800mA) and the switch properly work for VBATT
higher than 2.5V. This allows to supply energy on
the VCHARGE pin. When the switch is ON
(CMD-REVERSE high) the current direction into
the chip is from VBATT to VCHARGE.
The reverse current (from VCHARGE to VBATT)
when the switch is ON must be null; this is
obtained by mean of an internal circuitry that
switch OFF the internal P-MOS when the
VCHARGE is higher than VBATT, whatever the
status of the CMD-REVERSE. When the level of
CMD-REVERSE pin is low or in high impedance,
the switch is OFF, while it is ON when the signal
on CMD-REVERSE pin is high.
OVERVOLTAGE PROTECTION
This function allows to held the switches OFF
when the voltage level on VBATT is higher than a
maximum voltage whatever are the values of
CMD-PWM, CMD-MODE and CMD-REVERSE.
This maximum voltage is shown in the electrical
characteristic (typical threshold 5.7V). From the
moment in which the o.v.protection is activated, it
will be possible to turm ON again the switch only
when the VCHARGE value decreases down to 2.5V
typically, it doesn't matter which operation mode is
selected. The protection works only when the
battery is in charge or precharge mode, i.e.
VCHARGE > VBATT.
This represents, in fact, the typical application
condition where the battery could increase its
value, i.e. When charge or precharge mode are
used.
CHARGER DETECTION MODE
This function allows to generate a digital signal
(CHARGER-OK) to indicate if the VCHARGE
voltage is higher than 2.5V and the reverse
function is inactive. This functionality allows to
determine if the charger is present or not; if the
VCHARGE is lower than the 2.5V, the
CHARGER-OK goes into high impedance (open
drain). When the reverse function is active, this
open drain have the VCHARGE-VBATT information.
This circuitry is directly supplied from VCHARGE pin
and works only for VCHARGE higher than 2.2V.
VCHARGE-VBATT DETECTION MODE
This function allows to generate a digital signal
(VCHARGE-VBATT) flag to indicate if the VCHARGE
voltage is higher than VBATT; if the VCHARGE is
lower than the VBATT, this open drain goes into
high impedance state. This circuitry is directly
supplied from VCHARGE pin and works only for
VCHARGE higher than 2.2V.
THERMAL PROTECTION
An internal thermal shutdown circuitry will switch
OFF the P_MOS, only in precharge or in charge
mode, when the junction temperature reaches
typically 180°C. This has been implemented in
order to protect the device from overburning. 20°C
of thermal hysteresis will avoid a thermal
oscillation.
This circuitry is supplied from VCHARGE and, so,
acts only on the precharge and charge switches.
ESD PROTECTION
Both VCHARGE and VBATT pins are protected
against electrostatic discharge up to ±4KV (HBM,
MIL STD 833D.
CHARGE VOLTAGE
VCHARGE functional operating range is from 2.5V
to 12V. At VCHARGE=14V typically the I.C. is
automatically turned OFF and remains OFF up to
16V. A VCHARGE voltage higher than 16V can
damage the IC.
5/17
ST3S01LED
POSSIBLE OPERATING MODE
CMD-PWM
CMD-MODE
CMD-REVERSE
0
0
0
0
1
1
1
1
0
0
1
1
0
0
1
1
0
1
0
1
0
1
0
1
Operating Function Selected
PRECHARGE
PRECHARGE + REVERSE
CHARGE
CHARGE + REVERSE
SWITCH OPEN
REVERSE
SWITCH OPEN
REVERSE
ELECTRICAL CHARACTERISTICS OF REVERSE SWITCH (TA = -40 to 85°C, unless otherwise
specified.)
Symbol
Parameter
VBATT
Reverse Block Operating
Input Voltage
Dropout Voltage
VDROP
ILEAKAGE
Min.
CMD-REVERSE Logic
High (Switch ON)
VIL
CMD-REVERSE Logic
Low (Switch OFF)
VTH
CMD-REVERSE Logic
Typical Threshold
CMD-REV Input Current
Typ.
Max.
Unit
6
V
130
200
mV
0
1
µA
2.5
VBATT= 3V
IREVERSE=800mA
VCMD-REVERSE=1.9V, VCMD-PWM=1.9V
VCMD-MODE=1.9V
Reverse Leakage Current VBATT= 0V
VCHARGE= 9V
(from VCHARGE to VBATT, VCMD-REVERSE=1.9V, VCMD-PWM=1.9V
tested on VBATT pin)
VCMD-MODE=1.9V
VIH
ICMD-REV
Test Conditions
VBATT= 3V
IREVERSE=10mA
VCMD-PWM=1.9V VCMD-MODE=1.9V
VBATT= 3V
IREVERSE=10mA
VCMD-PWM=1.9V VCMD-MODE=1.9V
VBATT= 3V
IREVERSE=10mA
VCMD-PWM=1.9V VCMD-MODE=1.9V
VBATT= 3V
IREVERSE=10mA
VCMD-REVERSE=1.9V, VCMD-PWM=1.9V
VCMD-MODE=1.9V
1.2
V
0.4
0.75
1
1.9
IREVERSE=10mA
VBATT= 5V
VCMD-REVERSE=1.9V, VCMD-PWM=1.9V
VCMD-MODE=1.9V
tON-OFF
6/17
Response Time
100
V
V
3
µA
10
µA
µs
ST3S01LED
ELECTRICAL CHARACTERISTICS OF PRECHARGE SWITCH (TA = -40 to 85°C, unless otherwise
specified.)
Symbol
VCHARGE
VDROP
IPRECHARGE
Parameter
Precharge Block
Operating Input Voltage
Dropout Voltage
Precharge Current Limit
(from VCHARGE to VBATT)
Test Conditions
Min.
Typ.
2.5
0.13
VCHARGE= 2.5V to 9V
IPRECHARGE=100mA
VCMD-REVERSE=0V or floating
VCMD-PWM=0V or floating
VCMD-MODE=0V or floating
Max.
Unit
12
V
1.2
V
mA
VCHARGE= 2.5V to 5VVBATT= 0V
VCMD-REVERSE=0V or floating
VCMD-PWM=0V or floating
VCMD-MODE=0V or floating
100
170
VCHARGE= 2.5V to 9VVBATT= 0V
VCMD-REVERSE=0V or floating
VCMD-PWM=0V or floating
VCMD-MODE=0V or floating
100
200
1
µA
Precharge Leakage
Current Limit (from VBATT
to VCHARGE, tested on
VCHARGE pin)
VBATT= 5.5V
VCHARGE= 0V
VCMD-REVERSE=0V or floating
VCMD-PWM=0V or floating
VCMD-MODE=0V or floating
FMODE
PRECHARGE Switch
Minimum Frequency
VCHARGE= 2.5V to 9V
VBATT= 0V to VCHARGE
VCMD-REVERSE=0V or floating
VCMD-PWM=0V or floating
VCMD-MODE=0V to 1.9V at FMODE
tON-OFF
Response Time
100
µs
tOFF-ON
Response Time
100
µs
ILEAKAGE
100
Hz
7/17
ST3S01LED
ELECTRICAL CHARACTERISTICS OF CHARGE SWITCH (TA = -40 to 85°C, unless otherwise
specified.)
Symbol
VCHARGE
VDROP
ILEAKAGE
Parameter
Charge Block Operating
Input Voltage
Dropout Voltage
Test Conditions
Min.
Typ.
2.5
VCHARGE= 2.5V to 5V
ICHARGE=800mA VCMD-REVERSE=0V
VCMD-PWM=0V
VCMD-MODE=1.9V
Precharge Leakage
VCHARGE= 0V
Current Limit (from VBATT VCMD-REVERSE=0V
to VCHARGE, tested on
VCMD-MODE=1.9V
VCHARGE pin)
0.13
VBATT= 5.5V
VCMD-PWM=0V
VIH
CMD-MODE Logic High
(CHARGE MODE ON)
VCHARGE= 2.5V to 5V
ICHARGE=10mA
VCMD-REVERSE=0V
VCMD-PWM=0V
VIL
CMD-MODE Logic Low
(CHARGE MODE OFF)
VCHARGE= 2.5V to 5V
VCMD-REVERSE=0V
ICHARGE=10mA
VCMD-PWM=0V
VTH
CMD-MODE Logic
Typical Threshold
VCHARGE= 2.5V to 5V
ICHARGE=10mA
VCMD-REVERSE=0V
VCMD-PWM=0V
ICMD-REV
CMD-MODE Input
Current
VCHARGE= 3V to 5V ICHARGE=10mA
VCMD-REVERSE=0V VCMD-PWM=0V
VCMD-MODE=1.9V
1
FMODE
PRECHARGE Switch
Minimum Frequency
VCHARGE= 2.5V to 5V
ICHARGE=10mA
VCMD-REVERSE=0V
VCMD-PWM=0V
VCMD-MODE=0V to 1.9V at FMODE
100
tON-OFF
Response Time
Max.
Unit
12
V
0.2
V
1
µA
1.2
V
0.4
0.75
V
V
30
µA
Hz
µs
100
ELECTRICAL CHARACTERISTICS OF CMD-PWM LOGIC PIN (TA = -40 to 85°C, VCHARGE = 2.5 to 9V
unless otherwise specified.)
Symbol
VIH
VIL
VTH
ICMD-PWM
8/17
Parameter
Test Conditions
CMD-PWM Logic High
(SWITCH OFF)
IPRECHARGE=10mA
VCMD-REVERSE=0V
VCMD-MODE=0V
CMD-PWM Logic High
(SWITCH ON)
IPRECHARGE=10mA
VCMD-REVERSE=0V
VCMD-MODE=0V
CMD-PWM Logic Typical
Threshold
IPRECHARGE=10mA
VCMD-REVERSE=0V
VCMD-MODE=0V
CMD-PWM Input Current
IPRECHARGE=10mA
VCMD-REVERSE=0V
VCMD-MODE=1.9V
Min.
Typ.
Max.
1.2
V
0.4
0.75
1
VCMD-MODE=0V
Unit
V
V
30
µA
ST3S01LED
ELECTRICAL CHARACTERISTICS OF CHARGER DETECTION BLOCK (TA = -40 to 85°C,
VCHARGE = 2.2 to 9V, VCMD-REVERSE = 0V or floating unless otherwise specified.)
Symbol
VCHARGE
VCHARGE-TH
Parameter
Charger Detection Block
Operating Input Voltage
Low Voltage Threshold
VCHARGE-HYS Low Voltage Hysteresis
VCHARGER-OK CHARGER-OK Output
Voltage Low
VCHARGER-OK CHARGER-OK Output
Voltage Low
ICHARGER-OK CHARGER-OK Output
Leakage Current
ICHARGER-OK CHARGER-OK Output
Leakage Current
Test Conditions
Min.
Typ.
Max.
2.2
with falling edge
2.425
Unit
V
2.5
2.575
V
with rising edge, TA=25°C
VCHARGE= 3V
ICHARGER-OK=1mA
100
0.2
0.4
V
VFLAG= 0.2V
ICHARGER-OK=1mA
VCMD-REVERSE=1.9V
0.2
0.4
V
VCHARGER-OK=10V
0
1
µA
VFLAG= 0.2V
VCHARGER-OK=10V
VCMD-REVERSE=1.9V
0
1
µA
VCHARGE= 2.2V
mV
ELECTRICAL CHARACTERISTICS OF FLAG DETECTION BLOCK (TA =-40 to 85°C, VCHARGE = 2.2
to 9V unless otherwise specified.)
Symbol
Parameter
FLAG Detection Block
Operating Input Voltage
VVCHARGE- FLAG (VCHARGE - VBATT)
VBATT
Voltage Low
FLAG (VCHARGE - VBATT)
IVCHARGEVBATT
Leakage Current
VVCHARGE- FLAG* (VCHARGE - VBATT)
VBATT
Voltage Low
FLAG* (VCHARGE - VBATT)
IVCHARGEVBATT
Leakage Current
* Guaranteed by design
Test Conditions
Min.
Typ.
Max.
2.2
VCHARGE
VFLAG= 0.2V
IFLAG=1mA
VFLAG= 0.2V
IFLAG=10mA
ICHARGE=20mA
IFLAG=1mA
VBATT = VCHARGE
Unit
V
0.2
0.2
VFLAG= 10V
0.45
V
1
µA
0.45
V
1
µA
ELECTRICAL CHARACTERISTICS OF OVERLOAD PROTECTION (TA =-40 to 85°C, VCHARGE>3V,
VCHARGE>VBATT, VCMD-REVERSE=0V, VCMD-PWM=0V, VCMD-MODE=0V to 1.9V, unless otherwise
specified.)
Symbol
VBATT
tON-OFF
Parameter
Test Conditions
Battery Input Threshold
with rising edge
Response Time
Switches ON to OFF, TA = 25°C
Min.
5.4
Typ.
Max.
5.6
5.9
100
Unit
V
µs
9/17
ST3S01LED
I.C. CONSUMPTION (TA =-40 to 85°C, VCHARGE<VBATT, unless otherwise specified.)
Symbol
IBATT
Parameter
Current Consumption
from Battery Pin
Test Conditions
Min.
Typ.
Current Consumption
from the Charge Pin
Unit
µA
VCMD-PWM=1.9V
VCMD-MODE=0V or 1.9V
VBATT= 3 to 5.25V
VCHARGE= floating
VCMD-REVERSE=0V
ICHARGE
Max.
15
µA
VBATT= 5.25V
VCHARGE= floating
VCMD-REVERSE=1.9V
140
300
µA
VCHARGE= 5.25V
VBATT= floating
VCMD-REVERSE=0V VCMD-PWM=1.9V
VCMD-MODE=0V or 1.9V
78
250
µA
Typ.
Max.
Unit
ESD PROTECTION
Symbol
ESD
Parameter
Electrostatic Discharge
Immunity for VCHARGE
and VBATT pins
Test Conditions
TA=25°C
Human Body Method MIL STD
833D-3015.7
Min.
±4
kV
TYPICAL PERFORMANCE CHARACTERISTICS (unless otherwise specified Tj = 25°C)
Figure 1 : Precharge Current Limit vs
Temperature
10/17
Figure 2 : Charge Drop Voltage vs Temperature
ST3S01LED
Figure 3 : Current Consumption vs Temperature
Figure 6 : VBATT Leakage Current vs
Temperature
Figure 4 : Precharge Drop Voltage vs
Temperature
Figure 7 : Reverse Current Consumption vs
Temperature
Figure 5 : Reverse Drop Voltage vs Temperature
Figure 8 : CMD-Mode Logic Threshold vs
Temperature
11/17
ST3S01LED
Figure 9 : Command PWM Logic Threshold vs
Temperature
Figure 12 : CMD-REVERSE Input Current vs
Temperature
Figure 10 : CMD-MODE Input Current vs
Temperature
Figure 13 : CMD-PWM Input Current vs
Temperature
Figure 11 : Command Reverse Logic vs
Temperature
Figure 14 : CHARGER OK Voltage vs
Temperature
12/17
ST3S01LED
Figure 15 : CHARGER OK Voltage vs
Temperature
Figure 18 : Minimum Battery Current vs
Temperature
Figure 16 : CHARGER OK Voltage Thresold vs
Temperature
Figure 19 : Minimum Battery Current vs
Temperature
Figure 17 : Flag Voltage Low vs Temperature
Figure 20 : Overvoltage Protection vs
Temperature
13/17
ST3S01LED
Figure 21 : Dynamic Precharge Mode
14/17
ST3S01LED
SO-8 (exposed pad) MECHANICAL DATA
DIM.
mm.
MIN.
TYP
inch
MAX.
MIN.
TYP.
MAX.
A
1.25
1.62
0.049
0.064
a1
0
0.10
0.000
0.004
a2
1.10
1.65
0.043
0.064
a3
0.65
0.85
0.025
0.033
b
0.33
0.51
0.013
0.020
b1
0.19
0.25
0.007
0.010
C
0.25
0.50
0.010
0.019
c1
45˚ (max.)
D
4.80
5.00
0.189
0.196
E
5.80
6.20
0.228
0.244
e
1.27
0.050
e3
3.81
0.150
F
3.80
4.00
0.149
0.157
L
0.40
1.27
0.016
0.050
M
0.6
0.023
8˚ (max.)
S
B
A
0,10 A B
15/17
ST3S01LED
Tape & Reel SO-8 MECHANICAL DATA
mm.
inch
DIM.
MIN.
A
MAX.
MIN.
330
13.2
TYP.
MAX.
12.992
C
12.8
D
20.2
0.795
N
60
2.362
T
16/17
TYP
0.504
22.4
0.519
0.882
Ao
8.1
8.5
0.319
0.335
Bo
5.5
5.9
0.216
0.232
Ko
2.1
2.3
0.082
0.090
Po
3.9
4.1
0.153
0.161
P
7.9
8.1
0.311
0.319
ST3S01LED
Information furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the
consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from
its use. No license is granted by implication or otherwise under any patent or patent rights of STMicroelectronics. Specifications
mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information
previously supplied. STMicroelectronics products are not authorized for use as critical components in life support devices or
systems without express written approval of STMicroelectronics.
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