LTC1734ES6-4.1#TRPBF Linear Technology, LTC1734ES6-4.1#TRPBF Datasheet - Page 11
LTC1734ES6-4.1#TRPBF
Manufacturer Part Number
LTC1734ES6-4.1#TRPBF
Description
IC BATT CHRGR LI-ION LIN SOT23-6
Manufacturer
Linear Technology
Datasheet
1.LTC1734ES6-4.2TRMPBF.pdf
(12 pages)
Specifications of LTC1734ES6-4.1#TRPBF
Function
Charge Management
Battery Type
Li-Ion, NiCd, NiMH
Voltage - Supply
4.55 V ~ 8 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
SOT-23-6 Thin, TSOT-23-6
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
APPLICATIONS
Higher charge currents require lower program resistor
values which can tolerate more capacitive loading on the
PROG pin. Maximum capacitance can be as high as 50pF
for a charge current of 200mA (R
Figure 4 is a simple test circuit for checking stability in both
the constant current and constant voltage modes. With
input power applied and a near fully charged battery
connected to the charger, driving the PROG pin with a
pulse generator will cycle the charger in and out of the
manual shutdown mode. Referring to Figure 5, after a
short delay, the charger will enter the constant current
mode first, then if the battery voltage is near the pro-
grammed voltage of 4.1V or 4.2V, the constant voltage
mode will begin. The resulting waveform on the PROG pin
is an indication of stability.
The double exposure photo in Figure 5 shows the effects
of capacitance on the program pin. The middle waveform
is typical while the lower waveform indicates excessive
program pin capacitance resulting in constant current
mode instability. Although not common, ringing on the
constant voltage portion of the waveform is an indication
(200pF ON PIN)
(20pF ON PIN)
GENERATOR
TO SCOPE
2.5V
PROG PIN
PROG PIN
0V
PULSE
f = 1kHz
Figure 4. Setup for AC Stability Testing
5V
0V
2V
1V
0V
2V
1V
0V
R
Figure 5. Stability Waveforms
10k
PROG
DOWN
SHUT
3k
U
DELAY
HORIZONTAL SCALE: 100 s/DIV
INFORMATION
*FULLY CHARGED CELL
PROG
U
LTC1734
CONSTANT
CURRENT
Information furnished by Linear Technology Corporation is believed to be accurate and reliable.
However, no responsibility is assumed for its use. Linear Technology Corporation makes no represen-
tation that the interconnection of its circuits as described herein will not infringe on existing patent rights.
BAT
PROG
W
1734 F04
+
= 7.5k).
CONSTANT
Li-Ion*
VOLTAGE
U
6 TO
20
of instability due to any combination of extremely low ESR
values, high capacitance values of the output capacitor or
very high PNP transistor beta. To minimize the effect of the
scope probe capacitance, a 10k resistor is used to isolate
the probe from the program pin. Also, an adjustable load
resistor or current sink can be used to quickly alter the
charge current when a fully charged battery is used.
Reverse Input Voltage Protection
In some applications, protection from reverse voltage on
V
series blocking diode can be used. In other cases, where
the voltage drop must be kept low, a P-channel FET as
shown in Figure 6 can be used.
V
Many types of capacitors with values ranging from 1 F to
10 F located close to the LTC1734 will provide adequate
input bypassing. However, caution must be exercised
when using multilayer ceramic capacitors. Because of the
self resonant and high Q characteristics of some types of
ceramic capacitors, high voltage transients can be gener-
ated under some start-up conditions, such as connecting
the charger input to a hot power source. To prevent these
transients from exceeding the absolute maximum voltage
rating, several ohms of resistance can be added in series
with the ceramic input capacitor.
Internal Protection
Internal protection is provided to prevent excessive DRIVE
pin currents (I
LTC1734 during a fault condition. The faults can be
generated from a shorted DRIVE pin or from excessive
DRIVE pin current to the base of the external PNP
transistor when it’s in deep saturation from too low a V
This protection is not designed to prevent overheating of
the external pass transistor. Indirectly though, self-heating
of the PNP thermally conducting to the LTC1734 and
CC
CC
Bypass Capacitor
is desired. If the supply voltage is high enough, a
Figure 6. Low Loss Reverse Voltage Protection
DSHRT
*DRAIN-BULK DIODE OF FET
V
IN
) and excessive self-heating of the
*
V
CC
LTC1734
1734 F06
LTC1734
11
CE
.
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