### Datasheet4U offers most rated semiconductors data sheet pdf

ETC

 NTC16D-15 Datasheet Preview

# NTC16D-15 Datasheet

### NTC THERMISTOR

 No Preview Available !
NTC
NTC THERMISTOR
24
1200 1500
NTC
Rt
25
B
B
R25
B=ln RT1 / ( 1 1 )= T1 T2 ln RT1
Rt2 T1 T2 T2 T1 RT2
RT1 T1
RT2 T2
15K )
B 25 ( 298.
50 ( 323.15K )
,B
T
T=
1
RT
DRT =
DT
B
T2
TT
RT-
T
BB
T
(K
)
NTC
NTC THERMISTOR
OUTLINE
This is a Negative Temperature Coefficient Resistor Whose
resistance changes with ambient temperature changes.
Thermistor comprises 2or 4 kinds of metal oxides of iron,
nickel,cobalt, manganese and copper, being shaped and
Sintered at high temperature(1200 to 1500 )
Critical Technical Parameters of NTC Thermistor
Rt---Resistance Value at Zero-power
It's a resistance which is got at a fixed temperature on a
basis of a testing power which causes resistance to Vary in a
range which can be ignored in relation to the total testing eror.
R25---Resistance Value at Rated Zero-power
The design resistance of the thermistor usually refers to the
resistance value got at Zero-power at 25 , which is usually
indicated on the thermistor.
B Value
B value stands for the thermal exponent at a negative
temperature coefficient. lt's defined as a ratio of the balance
between the natural logarithms of resistance values at zero-
power to the balance between the reciprocals of the two
temperatures.The formula is as below:
B=ln RT1 / ( 1 1 =) T1 T2 ln RT1
Rt2 T1 T2
T2 T1 RT2
In this formula: RT1 is the resistance at Zero-power when the
temperature is T1
RT2 is the resisrtance at Zero-power when the temperature is
T2 Unless otherwise specified, B value is got by calculating
the Zero-power resistances at 25 ( 298.15K ) and50
( 323.15K ) . It's not a firm constant within the range of
working temperature.
Resistance-to-Temperature Coefficient at Zero-power
It refers to the ratio of changes of a thermistor. Resistance
value at Zero-powerwhen The temperature, to the resistance
value at Zero-power The formula is as below:
T=
1
RT
DRT =
DT
B
T2
In this formula, " " stands for the resistance-temperature
coefficient at Zero-power when the temperature is T:
RT stands for the resistance value at Zero-power when the
temperature is T
T stands for thetemperature(in K)
B stands for B value
1
Free Datasheet http://www.Datasheet4U.com

ETC

 NTC16D-15 Datasheet Preview

# NTC16D-15 Datasheet

### NTC THERMISTOR

 No Preview Available !
The maximun allowable continuous current passing through
thermistor at 25 .
=P/T
,
63.2%
C
=C /
USB
Dissipation Coefficient
It's the ratio of the changes with a thermistor dissipation power, in
a pre-set ambient temperature, to the changes with the
temperature. The formula is as below: = P/ T changes in
response when the ambient temperature changes, within the
ranges of the working temperature.
Thermal Time Constant
At Zero-power and when amutatio occurs with the temperature,
the time "t", which is-spent for finishing 63.2% of the gap between
the beginning temperature and the ending temperature in the
thermistor. is directly proportional to"c",the heat capacity of the
thermistor, and is inversely proportional to , the dissip ation
constant. That is " =C/ " .
APPLICATIONS
Conversion power supply, switch power, UPS power, Kinds of electric
heter, electronic energy-saving lamps, electronic ballast etc all kinds
of power cicuit proterction of electronic equipments, filament proterction
of CRT, bulb and other lighting lamps.
2
Free Datasheet http://www.Datasheet4U.com

 Part Number NTC16D-15 Description NTC THERMISTOR Maker ETC Total Page 4 Pages PDF Download NTC16D-15 Datasheet PDF

## Similar Datasheet

 1 NTC16D-11 NTC Thermistor CPS 2 NTC16D-11 (NTCxD-11) NSP Power Type NTC Thermistors ETC 3 NTC16D-11 NTC THERMISTOR ETC 4 NTC16D-11 NSP POWER TYPE NTC THERMISTORS Vatroncis Technologies 5 NTC16D-13 NTC THERMISTOR ETC 6 NTC16D-13 NSP POWER TYPE NTC THERMISTORS Vatroncis Technologies 7 NTC16D-13 NTC Thermistor CPS 8 NTC16D-15 NTC THERMISTOR ETC 9 NTC16D-15 NSP POWER TYPE NTC THERMISTORS Vatroncis Technologies