LTC4000_15 Datasheet, PDF(22/40 Page) Linear Technology – High Voltage High Current Controller for Battery Charging and Power Management

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LTC4000_15 Datasheet, PDF (22/40 Pages) Linear Technology – High Voltage High Current Controller for Battery Charging and Power Management

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LTC4000

Applications Information

The value of R3 and RD can now be set according to the

following formula:

R3 = RNTC at cold_ threshold â RNTC at hot _ threshold

2.461

RD = 0.219 â¢ RNTC at cold_ threshold â

1.219 â¢ RNTC at hot _ threshold

Note the important caveat that this method can only be

used to desensitize the thermal effect on the thermistor

and hence push the hot and cold temperature thresholds

apart from each other. When using the formulas above,

if the user finds that a negative value is needed for RD,

the two temperature thresholds selected are too close to

each other and a higher sensitivity thermistor is needed.

For example, this method can be used to set the hot

and cold thresholds independently to 60Â°C and â5Â°C.

Using a Vishay Curve 2 thermistor whose nominal value

at 25Â°C is 100k, the formula results in R3 = 130k and

RD = 41.2k for the closest 1% resistors values.

To increase thermal sensitivity such that the valid charging

temperature band is much smaller than 40Â°C, it is pos-

sible to put a PTC (positive thermal coefficient) resistor

in series with R3 between the BIAS pin and the NTC pin.

This PTC resistor also needs to be thermally coupled with

the battery. Note that this method increases the number of

thermal sensing connections to the battery pack from one

wire to three wires. The exact value of the nominal PTC

resistor required can be calculated using a similar method

as described above, keeping in mind that the threshold at

the NTC pin is always 75% and 35% of VBIAS.

Leaving the NTC pin floating or connecting it to a capacitor

disables all NTC functionality.

The FLT and CHRG Indicator Pins

The FLT and CHRG pins in the LTC4000 provide status

indicators. Table 2 summarizes the mapping of the pin

states to the part status.

Table 2. FLT and CHRG Status Indicator

FLT CHRG STATUS

0 NTC Over Ranged â Charging Paused

0 Charging Normally

1 Charging Terminated and Bad Battery Detected

1 VIBMON < (VC/X â 10mV)

where 1 indicates a high impedance state and 0 indicates

a low impedance pull-down state.

Note that VIBMON < (VCX â 10mV) corresponds to charge

termination only if the C/X termination is selected. If the

charger timer termination is selected, constant voltage

charging may continue for the remaining charger timer

period even after the indicator pins indicate that VIBMON

< (VCX â 10mV). This is also true when no termination is

selected, constant voltage charging will continue even after

the indicator pins indicate that VIBMON < (VCX â 10mV).

The BIAS Pin

For ease of use the LTC4000 provides a low dropout volt-

age regulator output on the BIAS pin. Designed to provide

up to 0.5mA of current at 2.9V, this pin requires at least

470nF of low ESR bypass capacitance for stability.

Use the BIAS pin as the pull-up source for the NTC resis-

tor networks, since the internal reference for the NTC

circuitry is based on a ratio of the voltage on the BIAS

pin. Furthermore, various 100k pull-up resistors can be

conveniently connected to the BIAS pin.

For more information www.linear.com/LTC4000

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