English
Language : 

LTC4007_15 Datasheet, PDF (18/24 Pages) Linear Technology – 4A, High Effi ciency, Standalone Li-Ion Battery Charger
LTC4007
APPLICATIONS INFORMATION
LTC4007
R9
NTC 9
C7 R9A
RTH
4007 F10
Figure 10. General Thermistor Network
If you are using a thermistor that doesn’t have a 1:7
HIGH/LOW ratio, or you wish to set the HIGH/LOW limits
to different temperatures, then the more generic network
in Figure 10 should work.
Once the thermistor, RTH, has been selected and the
thermistor value is known at the temperature limits, then
resistors R9 and R9A are given by:
For NTC thermistors:
R9 = 6 RTH(LOW) • RTH(HIGH)/(RTH(LOW) – RTH(HIGH))
R9A = 6 RTH(LOW) • RTH(HIGH)/(RTH(LOW) – 7 • RTH(HIGH))
Where RTH(LOW) > 7 • RTH(HIGH)
For PTC thermistors:
R9 = 6 RTH(LOW) • RTH(HIGH)/(RTH(HIGH) – RTH(LOW))
R9A = 6 RTH(LOW) • RTH(HIGH)/(RTH(HIGH) – 7 • RTH(LOW))
Where RTH(HIGH) > 7 • RTH(LOW)
Example #1: 10kΩ NTC with custom limits
TLOW = 0°C, THIGH = 50°C
RTH = 10k at 25°C,
RTH(LOW) = 32.582k at 0°C
RTH(HIGH) = 3.635k at 50°C
R9 = 24.55k → 24.3k (nearest 1% value)
R9A = 99.6k → 100k (nearest 1% value)
Example #2: 100kΩ NTC
TLOW = 5°C, THIGH = 50°C
RTH = 100k at 25°C,
RTH(LOW) = 272.05k at 5°C
RTH(HIGH) = 33.195k at 50°C
R9 = 226.9k → 226k (nearest 1% value)
R9A = 1.365M → 1.37M (nearest 1% value)
Example #3: 22kΩ PTC
TLOW = 0°C, THIGH = 50°C
RTH = 22k at 25°C,
RTH(LOW) = 6.53k at 0°C
RTH(HIGH) = 61.4k at 50°C
R9 = 43.9k → 44.2k (nearest 1% value)
R9A = 154k
Sizing the Thermistor Hold Capacitor
During the hold interval, C7 must hold the voltage across
the thermistor relatively constant to avoid false readings.
A reasonable amount of ripple on NTC during the hold
interval is about 10mV to 15mV. Therefore, the value of
C7 is given by:
C7 = tHOLD/(R9/7 • –ln(1 – 8 • 15mV/4.5V))
= 10 • RRT • 17.5pF/(R9/7 • –ln(1 – 8 • 15mV/4.5V)
Example:
R9 = 24.3k
RRT = 309k (~2 hour timer)
C7 = 0.57μF → 0.56μF (nearest value)
4007fc
18