LTC4088 LINER [Linear Technology], LTC4088 Datasheet - Page 18
LTC4088
Manufacturer Part Number
LTC4088
Description
High Effi ciency Battery Charger/USB Power Manager
Manufacturer
LINER [Linear Technology]
Datasheet
1.LTC4088.pdf
(24 pages)
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LTC4088
APPLICATIO S I FOR ATIO
power to charge the battery as quickly as possible, and
with minimal power dissipation within the charger.
Alternate NTC Thermistors and Biasing
The LTC4088 provides temperature qualifi ed charging if
a grounded thermistor and a bias resistor are connected
to NTC. By using a bias resistor whose value is equal to
the room temperature resistance of the thermistor (R25)
the upper and lower temperatures are pre-programmed
to approximately 40°C and 0°C, respectively (assuming
a Vishay “Curve 1” thermistor).
The upper and lower temperature thresholds can be ad-
justed by either a modifi cation of the bias resistor value
or by adding a second adjustment resistor to the circuit.
If only the bias resistor is adjusted, then either the upper
or the lower threshold can be modifi ed but not both. The
other trip point will be determined by the characteristics
of the thermistor. Using the bias resistor in addition to an
adjustment resistor, both the upper and the lower tempera-
ture trip points can be independently programmed with
the constraint that the difference between the upper and
lower temperature thresholds cannot decrease. Examples
of each technique are given below.
NTC thermistors have temperature characteristics which
are indicated on resistance-temperature conversion tables.
The Vishay-Dale thermistor NTHS0603N011-N1003F, used
in the following examples, has a nominal value of 100k
and follows the Vishay “Curve 1” resistance-temperature
characteristic.
In the explanation below, the following notation is used.
18
R25 = Value of the Thermistor at 25°C
R
R
point
r
r
R
R1 = Optional temperature range adjustment resistor
(see Figure 3)
COLD
HOT
NTC|COLD
NTC|HOT
NOM
= Ratio of R
= Primary thermistor bias resistor (see Figure 2)
= Ratio of R
= Value of the thermistor at the hot trip
= Value of thermistor at the cold trip point
U
NTC|COLD
NTC|COLD
U
to R25
to R25
W
U
The trip points for the LTC4088’s temperature qualifi ca-
tion are internally programmed at 0.349 • V
threshold and 0.765 • V
Therefore, the hot trip point is set when:
and the cold trip point is set when:
Solving these equations for R
results in the following:
and
By setting R
in r
to the Vishay Resistance-Temperature Curve 1 chart gives
a hot trip point of about 40°C and a cold trip point of about
0°C. The difference between the hot and cold trip points
is approximately 40°C.
By using a bias resistor, R
the hot and cold trip points can be moved in either direc-
tion. The temperature span will change somewhat due to
the non-linear behavior of the thermistor. The following
equations can be used to easily calculate a new value for
the bias resistor:
where r
desired hot and cold trip points. Note that these equations
are linked. Therefore, only one of the two trip points can
be chosen, the other is determined by the default ratios
designed in the IC. Consider an example where a 60°C
hot trip point is desired.
R
R
R
R
R
R
HOT
NTC|HOT
NTC|COLD
NOM
NOM
NOM
NOM
= 0.536 and r
R
R
HOT
NTCHOT
NTC COLD
=
=
+
+
R
R
r
0 536
NOM
|
|
3 25
= 0.536 • R
COLD
r
and r
NTCHOT
NTC COLD
HOT
.
= 3.25 • R
.
|
|
equal to R25, the above equations result
•
COLD
•
R
R
COLD
25
•
25
•
V
NOM
BUS
NOM
are the resistance ratios at the
BUS
V
NOM
BUS
= 3.25. Referencing these ratios
for the cold threshold.
= 0 349
, different in value from R25,
= 0 765
.
NTC|COLD
.
•
•
V
V
BUS
BUS
and R
BUS
for the hot
NTC|HOT
4088f
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