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LTC4089EDJC-1#PBF

P1-P3P4-P6P7-P9P10-P12P13-P15P16-P18P19-P21P22-P24
LTC4089-1
10
40891fa
+
SOFT-START
0.25V
SOFT-START2
+
+
+
+
15
TOO COLD
NTC
CURRENT LIMIT
TOO HOT
0.1V
NTC ENABLE
V
NTC
14
NTC
10k
100k
100k
+
13
HPWR
22
CLPROG
IN
23
PROG
CHG
1V
500mA/100mA
2μA
+
+
CURRENT CONTROL
OSCILLATOR
CHARGE CONTROL
CONTROL LOGIC
VOLTAGE DETECT
COUNTER
OSCILLATOR
TA
DIE
TEMP
105°C
I
LIM
2.8V
BATTERY
UVLO
4V
RECHARGE
UVLO
IN OUT BAT
I
CHG
BAT UV
RECHRG
HOLD
RESET
NTCERR
CLK
EOC
C/10
+
+
11
2μA
16
GND SUSP
2k
V
SET
5V
IN
DRIVER
HVOUT
OUT
GATE
BATBAT
HVPR
21
TIMER
18
CHRG
STOP
4089-1 BD01
1V
CL
I
LIM
CNTL
ENABLE
+
EDA
19
D1
C3
L1
I
IN
1000
10
C4
R3
10pF
HVEN
HVIN
V
C
10
CC/CV REGULATOR
CHARGER
ENABLE
+
+
4.25V (RISING)
3.15V (FALLING)
+
21
21
21
1.8V
R
S
Q
10
C1
ENABLE
10
+
75mV (RISING)
25mV (FALLING)
GM
BOOST
Q1
D2
SW
25mV
25mV
IDEAL
DIODE
Q
DRIVER
+
+
+
5V
V
SET
LTC4089-1
PART NUMBER
BLOCK DIAGRAM
LTC4089-1
11
40891fa
The LTC4089-1 is a complete PowerPath™ controller
for battery powered USB applications. The LTC4089-1
is designed to receive power from a low voltage source
(e.g., USB or 5V wall adapter), a high voltage source (e.g.,
Firewire/IEEE1394, automotive battery, 12V wall adapter,
etc.), and a single-cell Li-Ion battery. It can then deliver
power to an application connected to the OUT pin and a
battery connected to the BAT pin (assuming that an external
supply other than the battery is present). Power supplies
that have limited current resources (such as USB V
BUS
supplies) should be connected to the IN pin which has a
programmable current limit. Battery charge current will
be adjusted to ensure that the sum of the charge current
and load current does not exceed the programmed input
current limit (see Figure 1).
An ideal diode function provides power from the battery
when output / load current exceeds the input current limit or
when input power is removed. Powering the load through
the ideal diode instead of connecting the load directly to
the battery allows a fully charged battery to remain fully
charged until external power is removed. Once external
power is removed the output drops until the ideal diode is
forward biased. The forward biased ideal diode will then
provide the output power to the load from the battery.
The LTC4089-1 also includes a high voltage switching
regulator which has the ability to receive power from a
high voltage input. This input takes priority over the USB
V
BUS
input (i.e., if both HVIN and IN are present, load
current and charge current will be delivered via the high
voltage path). When enabled, the high voltage regulator
regulates the HVOUT voltage using a 750kHz constant
frequency, current mode regulator. An external PFET
between HVOUT (drain) and OUT (source) is turned on via
the HVPR pin allowing OUT to charge the battery and/or
supply power to the application. The LTC4089-1 provides
a fi xed 5V output.
Input Current Limit
Whenever the input power path is enabled (i.e., SUSP =
0V and HVIN = 0V) and power is available at IN, power
is delivered to OUT. The current limit and charger control
circuits of the LTC4089-1 are designed to limit input current
as well as control battery charge current as a function
(Refer to Block Diagram)
HVOUT
OUT
GATE
BATBAT
OUT
HVPR
4089-1 F01
+
EDA
19
D1
L1
CC/CV REGULATOR
CHARGER
HIGH VOLTAGE
BUCK REGULATOR
USB CURRENT LIMIT
ENABLE
+
+
21
21
21
C1
HVIN
IN
Q1
SW
25mV
25mV
IDEAL
DIODE
4.25V (RISING)
3.15V (FALLING)
75mV (RISING)
25mV (FALLING)
+
LOAD
LI-ION
+
+
+
Figure 1. Simplifi ed PowerPath Block Diagram
PowerPath is a trademark of Linear Technology Corporation.
OPERATION
LTC4089-1
12
40891fa
I
IN
I
LOAD(mA)
0
300
400
500
400 500300
4089-1 F02a
200
100
100 200
0
CURRENT (mA)
I
LOAD
I
BAT
(CHARGING)
I
BAT
(IDEAL DIODE)
I
IN
I
LOAD(mA)
0
60
80
100
80 10060
4089-1 F02b
40
20
20 40
0
CURRENT (mA)
I
LOAD
I
BAT
(CHARGING)
I
BAT
(IDEAL DIODE)
I
LOAD (mA)
0
300
400
500
400 500300
4089-1 F02c
200
100
100 200
0
CURRENT (mA)
I
IN
I
LOAD
I
BAT
= I
CHG
I
BAT
= I
CL
= I
OUT
I
BAT
(CHARGING)
I
BAT
(IDEAL DIODE)
of I
OUT
. The input current limit, I
CL
, can be programmed
using the following formula:
I
R
V
V
R
CL
CLPROG
CLPROG
CLPROG
=
=
1000 1000
where V
CLPROG
is the CLPROG pin voltage (typically 1V)
and R
CLPROG
is the total resistance from the CLPROG pin
to ground. For best stability over temperature and time,
1% metal fi lm resistors are recommended.
The programmed battery charge current, I
CHG
, is
defi ned as:
I
R
V
V
R
CHG
PROG
PROG
PROG
=
=
50 000 50 000,
,
Input current, I
IN
, is equal to the sum of the BAT pin
output current and the OUT pin output current. V
CLPROG
will typically servo to 1V, however, if I
OUT
+ I
BAT
< I
CL
then V
CLPROG
will track the input current according to the
following equation:
II I
V
R
IN OUT BAT
CLPROG
CLPROG
=+= 1000
The current limiting circuitry in the LTC4089-1 can and
should be confi gured to limit current to 500mA for
USB applications (selectable using the HPWR pin and
programmed using the CLPROG pin).
Figure 2. Input and Battery Currents as a Function of Load Current
The LTC4089-1 reduces battery charge current such that
the sum of the battery charge current and the load current
does not exceed the programmed input current limit (one-
fth of the programmed input current limit when HPWR is
low, see Figure 2). The battery charge current goes to zero
when load current exceeds the programmed input current
limit (one-fi fth of the limit when HPWR is low). Even if
the battery charge current is set to exceed the allowable
USB current, the USB specifi cation will not be violated.
The battery charger will reduce its current as needed to
ensure that the USB specifi cation is not exceeded. If the
load current is greater than the current limit, the output
voltage will drop to just under the battery voltage where
the ideal diode circuit will take over and the excess load
current will be drawn from the battery.
In USB applications, the minimum value for R
CLPROG
should
be 2.1k. This will prevent the input current from exceeding
500mA due to LTC4089-1 tolerances and quiescent cur-
rents. A 2.1k CLPROG resistor will give a typical current
limit of 476mA in high power mode (HPWR = 1) or 95mA
in low power mode (HPWR = 0).
When SUSP is driven to a logic high, the input power
path is disabled and the ideal diode from BAT to OUT will
supply power to the application.
(a) High Power Mode/Full Charge
R
PROG
= 100k and R
CLPROG
= 2k
(b) Low Power Mode/Full Charge
R
PROG
= 100k and R
CLPROG
= 2k
(c) High Power Mode with
I
CL
= 500mA and I
CHG
= 250mA
R
PROG
= 200k and R
CLPROG
= 2k
OPERATION
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LTC4089EDJC-1#PBF

Mfr. #:
Buy LTC4089EDJC-1#PBF
Manufacturer:
Analog Devices / Linear Technology
Description:
Battery Management 4.1V Float Voltage, High Voltage USB Power Manager w/ High Voltage Switching Charger
Lifecycle:
New from this manufacturer.
Delivery:
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