LT1505CG-1 Ver la hoja de datos (PDF) - Linear Technology
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LT1505CG-1 Datasheet PDF : 16 Pages
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LT1505
PIN FUNCTIONS
BOOST (Pin 1): This pin is used to bootstrap and supply
power for the topside power switch gate drive and control
circuity. In normal operation, VBOOST is powered from an
internally generated 8.6V regulator VGBIAS, VBOOST ≈ VCC
+ 8.9V when TGATE is high. Do not force an external
voltage on BOOST pin.
TGATE (Pin 2): This pin provides gate drive to the topside
power FET. When TGATE is driven on, the gate voltage will
be approximately equal to VSW + 6.6V. A series resistor of
5Ω to 10Ω should be used from this pin to the gate of the
topside FET.
SW (Pin 3): This pin is the reference point for the floating
topside gate drive circuitry. It is the common connection
for the top and bottom side switches and the output
inductor. This pin switches between ground and VCC with
very high dv/dt rates. Care needs to be taken in the PC
layout to keep this node from coupling to other sensitive
nodes. A 1A Schottky clamp diode should be placed from
this pin to the ground pin, using very short traces to
prevent the chip substrate diode from turning on. See
Applications Information for more details.
SYNC (Pin 4): Synchronization Input. The LT1505 can be
synchronized to an external clock with pulses that have
duty cycles between 10% and 95%. An internal one shot
that is triggered on the rising edge of the sync pulse makes
this input insensitive to the duty cycle of the sync pulse.
The input voltage range on this pin is 0V to 20V. This pin
can float if not used.
SHDN (Pin 5): Shutdown. When this pin is pulled below 1V,
switching will stop, GBIAS will go low and the input cur-
rents of CA1 will be off. Note that input current of about 4µA
keeps the device in shutdown unless an external pull-up
signal is applied. The voltage range on this pin is 0V to VCC.
AGND (Pin 6): Low Current Analog Ground.
UV (Pin 7): Undervoltage Lockout Input. The rising thresh-
old is 6.7V with a hysteresis of 0.5V. Switching stops in
undervoltage lockout. When the input supply (normally
the wall adapter output) to the chip is removed, the UV pin
must be pulled down to below 0.7V (a 5k resistor from
adapter output to GND is required), otherwise the reverse-
battery current will be approximately 200µA instead of
10µA. Do not leave the UV pin floating. If it is connected
to VIN with no resistor divider, the built-in 6.7V undervoltage
lockout will be effective. Maximum voltage allowed on this
pin is VCC.
INFET (Pin 8): For very low dropout applications, an
external P-channel MOSFET can be used to connect the
input supply to VCC. This pin provides the gate drive for the
PFET. The gate drive is clamped to 8V below VCC. The gate
is driven on (low) when VCC > (VBAT + 0.2V) and
VUV > 6.7V. The gate is off (high) when VCC < (VBAT + 0.2V).
The body diode of the PFET is used to pull up VCC to turn
on the LT1505.
CLP (Pin 9): LT1505: Positive Input to the Input Current
Limit Amplifier CL1. The threshold is set at 92mV. When
used to limit input current, a filter is needed to filter out the
200kHz switching noise. (LT1505-1: No Connection.)
CLN (Pin 10): LT1505: Negative Input to the Input Current
Limit Amplifier CL1. When used, both CLP and CLN should
be connected to a voltage higher than 6V and normally
VCC (to the VCC bypass capacitor for less noise). Maximum
voltage allowed on both CLP and CLN is VCC + 1V.
(LT1505-1: No Connection.)
COMP1 (Pin 11): LT1505: Compensation Node for the
Input Current Limit Amplifier CL1. At input adapter current
limit, this pin rises to 1V. By forcing COMP1 low with an
external transistor, amplifier CL1 will be disabled (no
adapter current limit). Output current is less than 0.2mA.
See the Figure 1 circuit for the required resistor and
capacitor values. (LT1505-1: connect to GND.)
CAP (Pin 12): A 0.1µF capacitor from CAP to ground is
needed to filter the sampled charging current signal. This
filtered signal is used to set the FLAG pin when the
charging current drops below 20% of the programmed
maximum charging current.
FLAG (Pin 13): This pin is an open-collector output that is
used to indicate the end of charge. The FLAG pin is driven
low when the charge current drops below 20% of the
programmed charge current. A pull-up resistor is
required if this function is used. This pin is capable of
sinking at least 1mA. Maximum voltage on this pin is VCC.
4.1V (Pin 14), 4.2V (Pin 15), 3CELL (Pin 16), VFB (Pin
17): These four pins are used to select the battery voltage
using the preset internal resistor network. The VFB pin is
6
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