NTC Thermistors
CONTENTS
Part Numbering 2
1
Basic Characteristics 6
1
for Temperature Sensor and Compensation 0201 (0603) Size 7
2
for Temperature Sensor and Compensation 0402 (1005) Size 8
3
for Temperature Sensor and Compensation 0603 (1608) Size 10
4
for Temperature Sensor and Compensation 0805 (2012) Size 12
for Temp. Sensor and Compensation Chip Type Standard Land Pattern Dimensions
for Temp. Sensor and Compensation Chip Type Temperature Characteristics (Center Value)
for Temp. Sensor and Compensation Chip Type !Caution/Notice 18
for Temp. Sensor and Compensation Chip Type Package 22
5
for Temperature Sensor Thermo String Type 25
for Temperature Sensor Thermo String Type Specifications and Test Methods
6
for Temperature Sensor Lead Type 28
7
for Temperature Sensor Lead Insulation Type 29
13
14
26
2
3
4
5
for Temperature Sensor Temperature Characteristics (Center Value) 31
for Temperature Sensor Thermo String Type/Lead Type !Caution/Notice 32
for Temperature Sensor Thermo String Type/Lead Type Package 34
8
for Inrush Current Suppression Lead Type 35
Current - R Ratio (RT/R25)/Current - Temperature Characteristics (Typical)
for Inrush Current Suppression Lead Type !Caution/Notice
for Inrush Current Suppression Lead Type Package
37
41
43
6
7
8
o Part Numbering
NTC Thermistors for Temp. Sensor and Compensation Chip Type
(Part Number)
qProduct ID
Product ID
NC NTC Thermistors Chip Type
wSeries
Code
P
eDimensions (LgW)
Code Dimensions (LgW)
03
15
18
21
rTemperature Characteristics
Code Temperature Characteristics
WB
WD
WF
WL
WM
XC
XF
XH
XM
XQ
XV
XW
NC
q
Nominal B-Constant 4050e4099K
Nominal B-Constant 4150e4199K
Nominal B-Constant 4250e4299K
Nominal B-Constant 4450e4499K
Nominal B-Constant 4500e4549K
Nominal B-Constant 3100e3149K
Nominal B-Constant 3250e3299K
Nominal B-Constant 3350e3399K
Nominal B-Constant 3500e3549K
Nominal B-Constant 3650e3699K
Nominal B-Constant 3900e3949K
Nominal B-Constant 3950e3999K
18
P
e
w
Plated Termination Series
0.60g0.30mm
1.00g0.50mm
1.60g0.80mm
2.00g1.25mm
rXHt
Series
103
J
y
03iRB
u
EIA
0201
0402
0603
0805
tResistance
Expressed by three-digit alphanumerics. The unit is ohm (Ω).
The first and second figures are significant digits, and the third
figure expresses the number of zeros which follow the two
figures. If there is a decimal point, it is expressed by the capital
letter "R". In this case, all figures are significant digits.
Ex.
yResistance Tolerance
uIndividual Specifications
Structures and others are expressed by two figures.
Please contact us for details.
iPackaging
Code Resistance
102
103
104
Code
D
E
F
J
Code
03
Code Packaging
RA
RB
RC
RL
Resistance Tolerance
Individual Specifications
Plastic Taping 4mm Pitch
Paper Taping 4mm Pitch
Paper Taping 2mm Pitch (10000 pcs.)
Paper Taping 2mm Pitch (15000 pcs.)
1kΩ
10kΩ
100kΩ
±0.5%
±3%
±1%
±5%
Standard Type
2
NTC Thermistor for Temperature Sensor Thermo String Type
(Part Number)
qProduct ID
NXF
q
XH
wTe15r
FuAi2oB!0025
103
y
t
uLead Wire Type
Product ID Code Lead Wire Type
NXF NTC Thermistors Sensor Thermo String Type A ø0.3 Copper Lead Wire with Polyurethane Coat
wIndividual Specifications
Code
T
Individual Specifications
Commercial Type
iShape of the Lead Wire Kink
Code
1
Shape of the Lead Wire Kink
The Twist of Lead Wire Type
2
Standard Type
eChip Dimensions
Code
Dimensions (LxT)
15 1.00 x 0.50mm
EIA
0402
oPackaging
Code Packaging
B Bulk
rTemperature Characteristics
Code
WB
WF
XH
Temperature Characteristics
Nominal B-Constant 4050–4099K
Nominal B-Constant 4250–4299K
Nominal B-Constant 3350–3399K
tResistance
Expressed by three figures. The unit is (Ω). The first and second
figures are significant digits, and the third figure expresses the
number of zeros which follow the two figures.
Ex.
Code Resistance
103
473
104
10kΩ
47kΩ
100kΩ
yResistance Tolerance
Code Resistance Tolerance
F ±1%
!0Dimensions (Full Length)
Code Dimensions (Full Length)
025
030
040
050
060
070
080
090
100
110
120
130
140
150
25mm
30mm
40mm
50mm
60mm
70mm
80mm
90mm
100mm
110mm
120mm
130mm
140mm
150mm
3
NTC Thermistors for Temperature Sensor Lead Type
(Part Number)
qProduct ID
SA0eXHr103
NT
w
q
F
t
E1uB0
y
tResistance Tolerance
Product ID Code Resistance Tolerance
NT NTC Thermistors E
F
±3%
±1%
wSeries
Code
SA0
SD0
SD1
for Temperature Sensors No Lead-coating Type
for Temperature Sensors Lead-coating Type
for Temperature Sensors Lead-coating Type
eTemperature Characteristics
Code
WB
WC
WD
WF
XH
XM
XR
XV
Temperature Characteristics
Nominal B-Constant 4050e4099K
Nominal B-Constant 4100e4149K
Nominal B-Constant 4150e4199K
Nominal B-Constant 4250e4299K
Nominal B-Constant 3350e3399K
Nominal B-Constant 3500e3549K
Nominal B-Constant 3700e3749K
Nominal B-Constant 3900e3949K
Series
(Total Length 30mm max.)
(Total Length 30 to 50mm)
yIndividual Specifications
A lead structure and other specifications are expressed by two digits.
Code
E1
N6
PB
Standard Ammo Pack Taping (NTSA Series)
Individual Specifications
Standard Bulk (NTSA, NTSD0 Series)
Standard Bulk (NTSD1 Series)
uPackaging (NTSA/NTSD0 Series)
Code Packaging
A0
B0
Ammo Pack Taping
Bulk
uTotal Length (NTSD1 Series)
Code Total Length
30
40
50
30mm
40mm
50mm
rResistance
Expressed by three-digit alphanumerics. The unit is ohm (Ω).
The first and second figures are significant digits, and the third
figure expresses the number of zeros which follow the two
figures. If there is a decimal point, it is expressed by the capital
letter "R". In this case, all figures are significant digits.
Ex.
Code Resistance
202
203
2kΩ
20kΩ
4
NTC Thermistors for Inrush Current Suppression Lead Type
(Part Number)
NT
q
PA7
w
160rLtBM
e
B0
y
qProduct ID
Product ID
NT NTC Thermistors L
wSeries
Code
PA7
PA9
PAA
PAD
PAJ
PAN
Series
Inrush Current
Suppression
Lead Type
Nominal Body Diameter
ø7mm
ø9mm
ø10mm
ø13mm
ø18mm
ø22mm
eResistance
Expressed by three-digit alphanumerics. The unit is ohm (Ω).
The first and second figures are significant digits, and the third
figure expresses the number of zeros which follow the two
figures. If there is a decimal point, it is expressed by the capital
letter "R". In this case, all figures are significant digits.
Ex.
Code Resistance
3R0
100
3Ω
10Ω
rResistance Tolerance
Code
Resistance Tolerance
±15%
tIndividual Specifications
A lead structure and other specifications are expressed by two
capital letters.
Code
B1
BM
D6
DK
DN
Individual Specifications
Standard Type (Ammo Pack) ø7mm, ø9mm
Standard Type (Bulk) ø7mm, ø9mm
Standard Type (Ammo Pack) ø10mm, ø13mm
Standard (Bulk)
Standard (Bulk) ø10mm, ø13mm
Body Diameter
ø18mm, ø22mm
yPackaging
Code Packaging
A0
B0
Ammo Pack Taping
Bulk
5
Basic Characteristics
!Basic Characteristics
1. Zero-power Resistance of Thermistor: R
R=R
expB (1/T-1/T0) ..............(1)
0
R: Resistance in ambient temperature T (K)
(K: absolute temperature)
: Resistance in ambient temperature T0 (K)
0
R
B: B-Constant of Thermistor
2. B-Constant
as (1) formula
) / (1/T-1/T0) ............(2)
B=Rn (R/R
0
Resistance vs. Temperature
2
10
1
10
1
3. Thermal Dissipation Constant
When electric power P (mW) is spent in ambient
temperature T
and thermistor temperature rises T2,
1
there is a formula as follows
) ..................(3)
2-T1
P=C (T
C: Thermal dissipation constant (mW/°C)
Thermal dissipation constant is varied with dimensions,
measurement conditions, etc.
4. Thermal Time Constant
Period in which Thermistor's temperature will change
63.2% of its temperature difference from ambient
0
temperature T
(°C) to T1 (°C).
−1
10
Resistance vs. Temperature Characteristics, R/R25
−2
10
−20
0 20 40 60 80 120100
Temperature (˚C)
Thermal Time Constant
T
1
X
Temperature
T
0
63.2%
B=3450
B=3900
B=4100
!Performance
Item
Resistance
B-Constant
Thermal Dissipation
Constant
Rated Electric Power
Permissive Operating Current
Please inquire about test conditions and ratings.
6
Measured by zero-power in specified ambient temperature.
Calculated between two specified ambient temperatures by next formula.
is absolute temperature (K).
0
T and T
Rn (R/R
B =
1/TY1/T
Shows necessary electric power that Thermistor's temperature rises 1˚C by self heating.
It is calculated by next formula. (mW/˚C)
C =
Shows necessary electric power that Thermistor's temperature rises to a specified temperature by self heating in ambient
temperature 25˚C.
It is possible to keep Thermistor's temperature rising max. 1˚C.
P
TYT
Time
Condition
)
0
0
0
NTC Thermistors
for Temperature Sensor and Compensation 0201 (0603) Size
0201/0402/0603/0805 sized Chip NTC Thermistors have Ni
barrier termination and provide excellent solderability
and offer high stability in environment by unique inner
construction.
■ Features
1. Excellent solderability and high stability in
environment
2. Excellent long time aging stability
3. High accuracy in resistance and B-Constant
4. Reflow soldering possible
5. NCP series are recognized by UL/cUL.
(UL1434, File No.E137188)
■ Applications
1. Temperature compensation for transistor, IC and
crystal oscillator in mobile communications
2. Temperature sensor for rechargeable batteries
3. Temperature compensation of LCD
4. Temperature compensation in general use of electric circuits
0.15±0.05
(Ag System + Ni Plating + Sn Plating)
0.60±0.03
Electrode
1
0.30±0.03
0.15±0.05
0.30±0.03
(in mm)
Part Number
NCP03YS110J05RL 11 ±5% 2750 ±3% 2758 2758 2758 9.50 100 1
NCP03YS220J05RL 22 ±5% 2750 ±3% 2758 2758 2758 6.70 100 1
NCP03YS330J05RL 33 ±5% 2750 ±3% 2758 2758 2758 5.50 100 1
NCP03YS470J05RL 47 ±5% 2750 ±3% 2758 2758 2758 4.60 100 1
NCP03YS680J05RL 68 ±5% 2750 ±3% 2758 2758 2758 3.80 100 1
NCP03YS101J05RL 100 ±5% 2750 ±3% 2758 2758 2758 3.10 100 1
NCP03XM102p05RL 1.0k 3500 ±1% 3539 3545 3560 1.00 100 1
NCP03XM152p05RL 1.5k 3500 ±1% 3539 3545 3560 0.81 100 1
NCP03XM222p05RL 2.2k 3500 ±1% 3539 3545 3560 0.67 100 1
NCP03XM332p05RL 3.3k 3500 ±1% 3539 3545 3560 0.55 100 1
NCP03XM472p05RL 4.7k 3500 ±1% 3539 3545 3560 0.46 100 1
NCP03XH682p05RL 6.8k 3380 ±1% 3428 3434 3455 0.38 100 1
NCP03XH103F05RL 10k ±1% 3380 ±1% 3428 3434 3455 0.31 100 1
NCP03XH103p05RL 10k 3380 ±1% 3428 3434 3455 0.31 100 1
NCP03XV103p05RL 10k 3900 ±1% 3930 3934 3944 0.31 100 1
NCP03XH153p05RL 15k 3380 ±1% 3428 3434 3455 0.25 100 1
NCP03XH223p05RL 22k 3380 ±1% 3428 3434 3455 0.21 100 1
NCP03WF333p05RL 33k 4250 ±1% 4303 4311 4334 0.17 100 1
NCP03WB473p05RL 47k 4050 ±3% 4101 4108 4131 0.14 100 1
NCP03WL473p05RL 47k 4485 ±1% 4537 4543 4557 0.14 100 1
NCP03WF683p05RL 68k 4250 ±1% 4303 4311 4334 0.12 100 1
NCP03WL683p05RL 68k 4485 ±1% 4537 4543 4557 0.12 100 1
NCP03WF104F05RL 100k ±1% 4250 ±1% 4303 4311 4334 0.10 100 1
NCP03WF104p05RL 100k 4250 ±1% 4303 4311 4334 0.10 100 1
NCP03WL104p05RL 100k 4485 ±1% 4537 4543 4557 0.10 100 1
NCP03WL154p05RL 150k 4485 ±1% 4537 4543 4557 0.08 100 1
NCP03WL224p05RL 220k 4485 ±1% 4537 4543 4557 0.06 100 1
A blank column is filled with resistance tolerance codes (E: ±3%, J: ±5%).
Rated Electric Power is necessary electric power that Thermistor's temperature rises 100°C by self heating at 25°C in still air.
Operating Temperature Range: -40°C to +125°C
Resistance
(25°C)
(ohm)
B-Constant
(25-50°C)
(K)
B-Constant
(25-80°C)
(Reference Value) (K)
(Reference Value) (K)
B-Constant
(25-85°C)
B-Constant
(25-100°C)
(Reference Value) (K)
Permissive Operating
Current (25°C)
(mA)
Rated Electric
Power (25°C)
Typical Dissipation
(mW)
Constant (25°C)
(mW/°C)
7
NTC Thermistors
for Temperature Sensor and Compensation 0402 (1005) Size
2
0201/0402/0603/0805 sized Chip NTC Thermistor have Ni
barrier termination and provide excellent solderability
0.5±0.05
and offer high stability in environment by unique inner
construction.
0.25±0.10
1.0±0.05
0.25±0.10
■ Features
1. Excellent solderability and high stability in
environment
0.5±0.05
2. Excellent long time aging stability
3. High accuracy in resistance and B-Constant
(Ag System + Ni Plating + Sn Plating)
Electrode
(in mm)
4. Reflow soldering possible
5. Same B-constant in the same resistance in the three
sizes (0805 size / 0603 size / 0402 size)
Easy to use smaller size in the circuits
6. NCP series are recognized by UL/cUL.
(UL1434, File No.E137188)
■ Applications
1. Temperature compensation for transistor, IC and
crystal oscillator in mobile communications
2. Temperature sensor for rechargeable batteries
3. Temperature compensation of LCD
4. Temperature compensation in general use of electric
circuits
Part Number
NCP15XC220p03RC 22 3100 ±3% 3126 3128 3136 6.70 100 1
NCP15XC330p03RC 33 3100 ±3% 3126 3128 3136 5.50 100 1
NCP15XC470p03RC 47 3100 ±3% 3126 3128 3136 4.60 100 1
NCP15XC680p03RC 68 3100 ±3% 3126 3128 3136 3.80 100 1
NCP15XF101p03RC 100 3250 ±3% 3282 3284 3296 3.10 100 1
NCP15XF151p03RC 150 3250 ±3% 3282 3284 3296 2.50 100 1
NCP15XM221p03RC 220 3500 ±3% 3539 3545 3560 2.10 100 1
NCP15XM331p03RC 330 3500 ±3% 3539 3545 3560 1.70 100 1
NCP15XQ471p03RC 470 3650 ±2% 3688 3693 3706 1.40 100 1
NCP15XQ681p03RC 680 3650 ±3% 3688 3693 3706 1.20 100 1
NCP15XQ102p03RC 1.0k 3650 ±2% 3688 3693 3706 1.00 100 1
NCP15XW152p03RC 1.5k 3950 ±3% 3982 3987 3998 0.81 100 1
NCP15XW222p03RC 2.2k 3950 ±3% 3982 3987 3998 0.67 100 1
NCP15XW332p03RC 3.3k 3950 ±3% 3982 3987 3998 0.55 100 1
NCP15XM472p03RC 4.7k 3500 ±2% 3539 3545 3560 0.46 100 1
NCP15XW682p03RC 6.8k 3950 ±3% 3982 3987 3998 0.38 100 1
NCP15XH103D03RC 10k ±0.5% 3380 ±0.7% 3428 3434 3455 0.31 100 1
NCP15XH103F03RC 10k ±1% 3380 ±1% 3428 3434 3455 0.31 100 1
NCP15XH103p03RC 10k 3380 ±1% 3428 3434 3455 0.31 100 1
NCP15XV103p03RC 10k 3900 ±3% 3930 3934 3944 0.31 100 1
NCP15XW153p03RC 15k 3950 ±3% 3982 3987 3998 0.25 100 1
NCP15XW223p03RC 22k 3950 ±3% 3982 3987 3998 0.21 100 1
NCP15WL223p03RC 22k 4485 ±1% 4537 4543 4557 0.21 100 1
NCP15WB333p03RC 33k 4050 ±3% 4101 4108 4131 0.17 100 1
NCP15WL333p03RC 33k 4485 ±1% 4537 4543 4557 0.17 100 1
Resistance
(25°C)
(ohm)
B-Constant
(25-50°C)
(K)
B-Constant
(25-80°C)
(Reference Value) (K)
B-Constant
(25-85°C)
(Reference Value) (K)
B-Constant
(25-100°C)
(Reference Value) (K)
Permissive Operating
Current (25°C)
(mA)
Continued on the following page.
Rated Electric
Power (25°C)
(mW)
Typical Dissipation
Constant (25°C)
8
(mW/°C)
Continued from the preceding page.
Part Number
Resistance
(25°C)
(ohm)
B-Constant
(25-50°C)
(K)
B-Constant
(25-80°C)
(Reference Value) (K)
B-Constant
(25-85°C)
(Reference Value) (K)
B-Constant
(25-100°C)
(Reference Value) (K)
Permissive Operating
Current (25°C)
(mA)
Rated Electric
Power (25°C)
(mW)
Typical Dissipation
Constant (25°C)
(mW/°C)
NCP15WB473D03RC 47k ±0.5% 4050 ±0.5% 4101 4108 4131 0.14 100 1
NCP15WB473F03RC 47k ±1% 4050 ±1% 4101 4108 4131 0.14 100 1
NCP15WB473p03RC 47k 4050 ±1% 4101 4108 4131 0.14 100 1
NCP15WL473p03RC 47k 4485 ±1% 4537 4543 4557 0.14 100 1
NCP15WD683p03RC 68k 4150 ±3% 4201 4209 4232 0.12 100 1
NCP15WL683p03RC 68k 4485 ±1% 4537 4543 4557 0.12 100 1
NCP15WF104D03RC 100k ±0.5% 4250 ±0.5% 4303 4311 4334 0.10 100 1
NCP15WF104F03RC 100k ±1% 4250 ±1% 4303 4311 4334 0.10 100 1
NCP15WF104p03RC 100k 4250 ±1% 4303 4311 4334 0.10 100 1
NCP15WL104p03RC 100k 4485 ±1% 4537 4543 4557 0.10 100 1
NCP15WL154p03RC 150k 4485 ±1% 4537 4543 4557 0.08 100 1
NCP15WM154p03RC 150k 4500 ±3% 4571 4582 4614 0.08 100 1
NCP15WM224p03RC 220k 4500 ±3% 4571 4582 4614 0.06 100 1
NCP15WM474p03RC 470k 4500 ±3% 4571 4582 4614 0.04 100 1
A blank column is filled with resistance tolerance codes (E: ±3%, J: ±5%).
Rated Electric Power is necessary electric power that Thermistor's temperature rises 100°C by self heating at 25°C in still air.
Operating Temperature Range: -40°C to +125°C
2
9
NTC Thermistors
for Temperature Sensor and Compensation 0603 (1608) Size
0201/0402/0603/0805 sized Chip NTC Thermistors have Ni
barrier termination and provide excellent solderability
and offer high stability in environment by unique inner
construction.
0.2-0.6
1.6±0.15
0.2-0.6
■ Features
3
1. Excellent solderability and high stability in
environment
2. Excellent long time aging stability
3. High accuracy in resistance and B-constant
4. Flow / Reflow soldering possible
5. Same B-Constant in the same resistance in the three
sizes (0805 size / 0603 size / 0402 size)
Easy to use smaller size in the circuits
6. NCP series are recognized by UL/cUL.
(UL1434, File No.E137188)
(Ag System + Ni Plating + Sn Plating)
Electrode
0.8±0.15
0.8±0.15
(in mm)
■ Applications
1. Temperature compensation for transistor, IC and
crystal oscillator in mobile communications
2. Temperature sensor for rechargeable batteries
3. Temperature compensation of LCD
4. Temperature compensation in general use of electric
circuits
Part Number
NCP18XF101p03RB 100 3250 ±3% 3282 3284 3296 3.10 100 1
NCP18XF151p03RB 150 3250 ±3% 3282 3284 3296 2.50 100 1
NCP18XM221p03RB 220 3500 ±3% 3539 3545 3560 2.10 100 1
NCP18XM331p03RB 330 3500 ±3% 3539 3545 3560 1.70 100 1
NCP18XQ471p03RB 470 3650 ±2% 3688 3693 3706 1.40 100 1
NCP18XQ681p03RB 680 3650 ±3% 3688 3693 3706 1.20 100 1
NCP18XQ102p03RB 1.0k 3650 ±2% 3688 3693 3706 1.00 100 1
NCP18XW152p03RB 1.5k 3950 ±3% 3982 3987 3998 0.81 100 1
NCP18XW222p03RB 2.2k 3950 ±3% 3982 3987 3998 0.67 100 1
NCP18XW332p03RB 3.3k 3950 ±3% 3982 3987 3998 0.55 100 1
NCP18XM472p03RB 4.7k 3500 ±2% 3539 3545 3560 0.46 100 1
NCP18XW682p03RB 6.8k 3950 ±3% 3982 3987 3998 0.38 100 1
NCP18XH103D03RB 10k ±0.5% 3380 ±0.7% 3428 3434 3455 0.31 100 1
NCP18XH103F03RB 10k ±1% 3380 ±1% 3428 3434 3455 0.31 100 1
NCP18XH103p03RB 10k 3380 ±1% 3428 3434 3455 0.31 100 1
NCP18XV103p03RB 10k 3900 ±3% 3930 3934 3944 0.31 100 1
NCP18XW153p03RB 15k 3950 ±3% 3982 3987 3998 0.25 100 1
NCP18XW223p03RB 22k 3950 ±3% 3982 3987 3998 0.21 100 1
NCP18WB333p03RB 33k 4050 ±3% 4101 4108 4131 0.17 100 1
NCP18WB473D03RB 47k ±0.5% 4030 ±0.5% 4101 4108 4131 0.14 100 1
NCP18WB473F10RB 47k ±1% 4050 ±1.5% 4101 4108 4131 0.14 100 1
NCP18WB473p03RB 47k 4050 ±2% 4101 4108 4131 0.14 100 1
NCP18WD683p03RB 68k 4150 ±3% 4201 4209 4232 0.12 100 1
NCP18WF104D03RB 100k ±0.5% 4200 ±0.5% 4255 4260 4282 0.10 100 1
NCP18WF104F12RB 100k ±1% 4200 ±1% 4255 4260 4282 0.10 100 1
Resistance
(25°C)
(ohm)
10
B-Constant
(25-50°C)
(K)
B-Constant
(25-80°C)
(Reference Value) (K)
B-Constant
(25-85°C)
(Reference Value) (K)
B-Constant
(25-100°C)
(Reference Value) (K)
Permissive Operating
Current (25°C)
(mA)
Continued on the following page.
Rated Electric
Power (25°C)
(mW)
Typical Dissipation
Constant (25°C)
(mW/°C)
Continued from the preceding page.
Part Number
Resistance
(25°C)
(ohm)
B-Constant
(25-50°C)
(K)
B-Constant
(25-80°C)
(Reference Value) (K)
B-Constant
(25-85°C)
(Reference Value) (K)
B-Constant
(25-100°C)
(Reference Value) (K)
Permissive Operating
Current (25°C)
(mA)
Rated Electric
Power (25°C)
(mW)
Typical Dissipation
Constant (25°C)
(mW/°C)
NCP18WF104p03RB 100k 4250 ±2% 4255 4260 4282 0.10 100 1
NCP18WM154p03RB 150k 4500 ±3% 4571 4582 4614 0.08 100 1
NCP18WM224p03RB 220k 4500 ±3% 4571 4582 4614 0.06 100 1
NCP18WM474p03RB 470k 4500 ±3% 4571 4582 4614 0.04 100 1
A blank column is filled with resistance tolerance codes (E: ±3%, J: ±5%).
Rated Electric Power is necessary electric power that Thermistor's temperature rises 100°C by self heating at 25°C in still air.
Operating Temperature Range: -40°C to +125°C
3
11
NTC Thermistors
for Temperature Sensor and Compensation 0805 (2012) Size
0201/0402/0603/0805 sized Chip NTC Thermistors have Ni
barrier termination and provide excellent solderability
and offer high stability in environment by unique inner
construction.
0.2-0.7 0.2-0.7
1.25±0.20.85±0.15
■ Features
2.0±0.2
1. Excellent solderability and high stability in
environment
2. Excellent long time aging stability
3. High accuracy in resistance and B-constant
4. Flow / Reflow soldering possible
(Ag System + Ni Plating + Sn Plating)
Electrode
(in mm)
5. Same B-Constant in the same resistance in the three
sizes (0805 size / 0603 size / 0402 size)
4
Easy to use smaller size in the circuits
6. NCP series are recognized by UL/cUL.
(UL1434, File No.E137188)
■ Applications
1. Temperature compensation for transistor, IC and
crystal oscillator in mobile communications
2. Temperature sensor for rechargeable batteries
3. Temperature compensation of LCD
4. Temperature compensation in general use of electric
circuits
Part Number
NCP21XM221J03RA 220 ±5% 3500 ±3% 3539 3545 3560 3.00 200 2
NCP21XQ471J03RA 470 ±5% 3650 ±3% 3688 3693 3706 2.00 200 2
NCP21XQ102J03RA 1.0k ±5% 3650 ±3% 3688 3693 3706 1.40 200 2
NCP21XW222J03RA 2.2k ±5% 3950 ±3% 3982 3987 3998 0.90 200 2
NCP21XM472J03RA 4.7k ±5% 3500 ±3% 3539 3545 3560 0.65 200 2
NCP21XV103J03RA 10k ±5% 3900 ±3% 3930 3934 3944 0.44 200 2
NCP21XW153J03RA 15k ±5% 3950 ±3% 3982 3987 3998 0.36 200 2
NCP21XW223J03RA 22k ±5% 3950 ±3% 3982 3987 3998 0.30 200 2
NCP21WB333J03RA 33k ±5% 4050 ±3% 4101 4108 4131 0.24 200 2
NCP21WB473J03RA 47k ±5% 4050 ±3% 4101 4108 4131 0.20 200 2
NCP21WF104J03RA 100k ±5% 4250 ±3% 4303 4311 4334 0.14 200 2
Rated Electric Power is necessary electric power that Thermistor's temperature rises 100°C by self heating at 25°C in still air.
Operating Temperature Range: -40°C to +125°C
Resistance
(25°C)
(ohm)
B-Constant
(25-50°C)
(K)
B-Constant
(25-80°C)
(Reference Value) (K)
B-Constant
(25-85°C)
(Reference Value) (K)
B-Constant
(25-100°C)
(Reference Value) (K)
Permissive Operating
Current (25°C)
(mA)
Rated Electric
Power (25°C)
(mW)
Typical Dissipation
Constant (25°C)
(mW/°C)
12
for Temp. Sensor and Compensation Chip Type Standard Land Pattern Dimensions
Part Number
NCP03
NCP15
NCP18
NCP21
c
b a
Soldering
Methods
Reflow Soldering
Reflow Soldering
Flow Soldering
Reflow Soldering
Flow Soldering
Reflow Soldering
Land
Chip
Chip (LxW)
0.6x0.3
1.0x0.5
1.6x0.8
2.0x1.25
Solder Resist
Dimensions (mm)
a b c
0.25
0.25
0.4
0.4-0.5
0.6-1.0
0.8-0.9
0.6-0.8
0.6-0.7
1.0-1.1
0.9-1.0
1.0-1.1
0.6-0.7
0.3
0.5
0.6-0.8
0.6-0.8
1.0-1.2
1.0-1.2
4
13
for Temp. Sensor and Compensation Chip Type Temperature Characteristics (Center Value)
Part Number
Resistance
B-Constant
Y40
Y35
Y30
Y25
Y20
Y15
Y10
Y5
0
5
10
15
20
25
30
35
40
45
50
55
4
60
65
70
75
80
85
90
95
100
105
110
115
120
125
Part Number
Resistance
B-Constant
Temp. (°C)
Y40
Y35
Y30
Y25
Y20
Y15
Y10
Y5
0
5
10
15
20
25
30
35
40
45
50
55
60
65
70
75
80
85
90
95
100
105
110
115
120
125
Detailed Resistance - Temperature Tables are downloadable from the following URL.
http://search.murata.co.jp/Ceramy/CatsearchAction.do?sLang=en
14
NCPppYS110
11Ω 22Ω 22Ω 33Ω 33Ω 47Ω 47Ω 68Ω
2750K 2750K 3100K 2750K 3100K 2750K 3100K 2750K
Resistance (Ω)Temp. (°C)
127.366
101.662
81.726
66.148
53.946
44.273
36.494
30.262
25.226
21.150
17.828
15.103
12.859
11.000
9.452
8.162
7.077
6.161
5.389
4.731
4.168
3.687
3.273
2.915
2.605
2.335
2.100
1.894
1.713
1.554
1.412
1.287
1.176
1.077
NCPppXC680
Resistance (Ω)
1099.815
846.832
658.372
516.007
407.991
325.529
261.707
212.123
173.033
141.747
116.894
97.042
81.016
68.000
57.368
48.636
41.426
35.428
30.421
26.235
22.712
19.778
17.293
15.134
13.288
11.729
10.386
9.220
8.208
7.317
6.539
5.874
5.291
4.768
NCPppYS220
Resistance (Ω)
254.732
203.325
163.452
132.296
107.893
88.546
72.987
60.523
50.451
42.300
35.657
30.205
25.719
22.000
18.904
16.323
14.155
12.323
10.778
9.461
8.336
7.374
6.545
5.830
5.210
4.671
4.201
3.789
3.427
3.107
2.825
2.574
2.352
2.153
NCPppYS101
100Ω 100Ω 150Ω 220Ω 330Ω 470Ω 680Ω68Ω
2750K 3250K 3250K 3500K 3500K 3650K 3650K3100K
Resistance (Ω)
1157.874
924.204
742.963
601.346
490.422
402.482
331.760
275.105
229.324
192.270
162.076
137.296
116.902
100.000
85.927
74.197
64.339
56.013
48.989
43.006
37.891
33.517
29.750
26.498
23.680
21.231
19.094
17.221
15.575
14.124
12.840
11.702
10.690
9.787
NCPppXC220
Resistance (Ω)
355.823
273.975
213.003
166.943
131.997
105.318
84.670
68.628
55.981
45.859
37.819
31.396
26.211
22.000
18.560
15.735
13.403
11.462
9.842
8.488
7.348
6.399
5.595
4.896
4.299
3.795
3.360
2.983
2.656
2.367
2.116
1.901
1.712
1.543
NCPppXF101
Resistance (Ω)
1824.175
1390.685
1070.653
831.138
650.960
514.441
409.700
328.877
265.759
215.785
176.395
145.161
120.152
100.000
83.669
70.361
59.456
50.470
43.029
36.830
31.649
27.364
23.756
20.651
18.011
15.800
13.908
12.263
10.844
9.622
8.563
7.648
6.850
6.162
NCPppYS330
Resistance (Ω)
382.098
304.987
245.178
198.444
161.839
132.819
109.481
90.785
75.677
63.449
53.485
45.308
38.578
33.000
28.356
24.485
21.232
18.484
16.167
14.192
12.504
11.061
9.817
8.744
7.814
7.006
6.301
5.683
5.140
4.661
4.237
3.862
3.528
3.230
NCPppXF151
Resistance (Ω)
2736.262
2086.028
1605.979
1246.708
976.440
771.661
614.550
493.315
398.639
323.677
264.592
217.742
180.228
150.000
125.503
105.541
89.184
75.705
64.543
55.246
47.473
41.045
35.634
30.976
27.016
23.700
20.862
18.394
16.265
14.434
12.844
11.472
10.275
9.243
NCPppXC330
Resistance (Ω)
533.734
410.962
319.504
250.415
197.996
157.978
127.005
102.942
83.972
68.789
56.728
47.094
39.317
33.000
27.840
23.603
20.104
17.193
14.763
12.732
11.022
9.598
8.392
7.345
6.448
5.692
5.040
4.474
3.983
3.551
3.173
2.851
2.568
2.314
NCPppXM221
Resistance (Ω)
4947.904
3703.755
2798.873
2135.887
1645.037
1278.034
1000.620
789.612
627.752
502.474
405.010
328.480
268.044
220.000
181.576
150.668
125.681
105.336
88.717
75.059
63.777
54.415
46.631
40.115
34.637
30.013
26.110
22.790
19.957
17.541
15.453
13.663
12.114
10.778
NCPppYS470
Resistance (Ω)
544.201
434.376
349.193
282.633
230.498
189.167
155.927
129.299
107.782
90.367
76.176
64.529
54.944
47.000
40.386
34.872
30.239
26.326
23.025
20.213
17.809
15.753
13.982
12.454
11.130
9.979
8.974
8.094
7.320
6.638
6.035
5.500
5.024
4.600
NCPppXM331
Resistance (Ω)
7421.856
5555.632
4198.309
3203.831
2467.555
1917.051
1500.930
1184.418
941.628
753.711
607.514
492.720
402.066
330.000
272.365
226.002
188.521
158.004
133.076
112.588
95.666
81.622
69.946
60.172
51.955
45.019
39.165
34.186
29.935
26.312
23.180
20.494
18.171
16.168
NCPppXC470
Resistance (Ω)
760.166
585.310
455.051
356.652
281.994
224.998
180.886
146.614
119.596
97.972
80.794
67.073
55.997
47.000
39.651
33.616
28.633
24.487
21.026
18.133
15.698
13.670
11.952
10.461
9.184
8.107
7.179
6.373
5.673
5.057
4.520
4.060
3.657
3.296
NCPppXQ471
Resistance (Ω)
11822.473
8767.745
6570.224
4971.784
3796.933
2923.400
2269.599
1775.225
1399.050
1110.220
887.257
713.463
577.375
470.000
384.800
316.757
262.177
218.069
182.297
153.150
129.249
109.551
93.281
79.750
68.446
58.996
51.036
44.332
38.640
33.790
29.664
26.123
23.091
20.472
Continued on the following page.
NCPppYS680
Resistance (Ω)
787.354
628.459
505.215
408.915
333.487
273.688
225.597
187.071
155.940
130.744
110.212
93.361
79.494
68.000
58.430
50.454
43.750
38.089
33.313
29.244
25.766
22.792
20.230
18.019
16.102
14.437
12.984
11.710
10.591
9.604
8.731
7.957
7.269
6.655
NCPppXQ681
Resistance (Ω)
17104.854
12685.248
9505.855
7193.219
5493.436
4229.599
3283.675
2568.411
2024.158
1606.275
1283.691
1032.245
835.351
680.000
556.733
458.287
379.320
315.504
263.749
221.579
186.998
158.499
134.960
115.383
99.029
85.356
73.839
64.140
55.905
48.888
42.918
37.795
33.409
29.618
1
for Temp. Sensor and Compensation Chip Type Temperature Characteristics (Center Value)
Continued from the preceding page.
Part Number
Resistance
B-Constant
Temp. (°C)
Y40
Y35
Y30
Y25
Y20
Y15
Y10
Y5
10
15
20
25
30
35
40
45
50
55
60
65
70
75
80
85
90
95
100
105
110
115
120
125
Part Number
Resistance
B-Constant
Temp. (°C)
Y40
Y35
Y30
Y25
Y20
Y15
Y10
Y5
10
15
20
25
30
35
40
45
50
55
60
65
70
75
80
85
90
95
100
105
110
115
120
125
Detailed Resistance - Temperature Tables are downloadable from the following URL.
http://search.murata.co.jp/Ceramy/CatsearchAction.do?sLang=en
0
5
0
5
NCPppXM102
1kΩ
3500K
Resistance (kΩ)
21.266
16.150
12.347
9.503
7.365
5.747
4.516
3.572
2.844
2.280
1.839
1.492
1.218
1.000
0.825
0.685
0.571
0.479
0.403
0.341
0.290
0.247
0.212
0.182
0.157
0.136
0.119
0.104
0.091
0.080
0.070
0.062
0.055
0.049
NCPppXM472
4.7kΩ 6.8kΩ 6.8kΩ 10kΩ 10kΩ 15kΩ
3500K 3380K 3950K 3380K 3900K 3380K
Resistance (kΩ)
105.705
79.126
59.794
45.630
35.144
27.303
21.377
16.869
13.411
10.735
8.653
7.018
5.726
4.700
3.879
3.219
2.685
2.250
1.895
1.604
1.363
1.163
0.996
0.857
0.740
0.641
0.558
0.487
0.426
0.375
0.330
0.292
0.259
0.230
NCPppXQ102
1kΩ
3650K 3950K
Resistance (kΩ)
25.154
18.655
13.979
10.578
8.079
6.220
4.829
3.777
2.977
2.362
1.888
1.518
1.229
1.000
0.819
0.674
0.558
0.464
0.388
0.326
0.275
0.233
0.199
0.170
0.146
0.126
0.109
0.094
0.082
0.072
0.063
0.056
0.049
0.044
NCPppXH682
Resistance (kΩ)
133.043
100.756
77.076
59.540
46.401
36.482
28.904
23.047
18.509
14.974
12.189
9.978
8.215
6.800
5.654
4.725
3.967
3.344
2.829
2.404
2.050
1.759
1.515
1.309
1.135
0.988
0.862
0.755
0.662
0.583
0.515
0.457
0.406
0.361
NCPppXM152
1.5kΩ
3500K
Resistance (kΩ)
31.899
24.225
18.520
14.255
11.047
8.621
6.773
5.358
4.266
3.419
2.758
2.238
1.827
1.500
1.238
1.027
0.857
0.718
0.605
0.512
0.435
0.371
0.318
0.274
0.236
0.205
0.178
0.155
0.136
0.120
0.105
0.093
0.083
0.074
NCPppXW682
Resistance (kΩ)
234.787
168.515
122.422
89.953
66.766
50.066
37.906
28.963
22.313
17.338
13.571
10.705
8.503
6.800
5.474
4.434
3.613
2.961
2.440
2.022
1.683
1.409
1.185
1.001
0.849
0.724
0.620
0.532
0.459
0.398
0.346
0.302
0.264
0.232
NCPppXW152
Resistance (kΩ)
NCPppXH103 NCPppXV103
Resistance (kΩ)
2
51.791
37.172
27.005
19.843
14.728
11.044
8.362
6.389
4.922
3.825
2.994
2.361
1.876
1.500
1.207
0.978
0.797
0.653
0.538
0.446
0.371
0.311
0.261
0.221
0.187
0.160
0.137
0.117
0.101
0.088
0.076
0.067
0.058
0.051
195.652
148.171
113.347
87.559
68.237
53.650
42.506
33.892
27.219
22.021
17.926
14.674
12.081
10.000
8.315
6.948
5.834
4.917
4.161
3.535
3.014
2.586
2.228
1.925
1.669
1.452
1.268
1.110
0.974
0.858
0.758
0.672
0.596
0.531
NCPppXM222
2.2kΩ
3500K
Resistance (kΩ)
46.786
35.530
27.162
20.907
16.203
12.644
9.934
7.858
6.257
5.015
4.045
3.283
2.680
2.200
1.816
1.507
1.257
1.053
0.887
0.751
0.638
0.544
0.466
0.401
0.346
0.300
0.261
0.228
0.200
0.175
0.155
0.137
0.121
0.108
Resistance (kΩ)
328.996
237.387
173.185
127.773
95.327
71.746
54.564
41.813
32.330
25.194
19.785
15.651
12.468
10.000
8.072
6.556
5.356
4.401
3.635
3.019
2.521
2.115
1.781
1.509
1.284
1.097
0.941
0.810
0.701
0.608
0.530
0.463
0.406
0.358
NCPppXW222
2.2kΩ 3.3kΩ
3950K 3950K
Resistance (kΩ)
75.961
54.520
39.607
29.103
21.601
16.198
12.264
9.370
7.219
5.609
4.391
3.463
2.751
2.200
1.771
1.434
1.169
0.958
0.789
0.654
0.545
0.456
0.383
0.324
0.275
0.234
0.200
0.172
0.149
0.129
0.112
0.098
0.085
0.075
NCPppXH153
Resistance (kΩ)
293.478
222.256
170.021
131.338
102.355
80.474
63.759
50.838
40.828
33.032
26.888
22.010
18.121
15.000
12.472
10.422
8.751
7.375
6.241
5.302
4.521
3.879
3.341
2.887
2.503
2.178
1.902
1.664
1.461
1.287
1.137
1.007
0.895
0.797
NCPppXM332
3.3kΩ1.5kΩ
3500K
Resistance (kΩ)
70.179
53.295
40.743
31.360
24.304
18.966
14.901
11.787
9.386
7.523
6.067
4.924
4.019
3.300
2.724
2.260
1.885
1.580
1.331
1.126
0.957
0.816
0.700
0.602
0.520
0.450
0.392
0.342
0.299
0.263
0.232
0.205
0.182
0.162
NCPppXW153
Resistance (kΩ)
517.912
371.724
270.048
198.426
147.278
110.439
83.617
63.888
49.221
38.245
29.936
23.613
18.756
15.000
12.074
9.780
7.969
6.531
5.382
4.459
3.713
3.108
2.613
2.208
1.873
1.597
1.367
1.174
1.013
0.878
0.763
0.665
0.582
0.511
Continued on the following page.
NCPppXW332
Resistance (kΩ)
113.941
81.779
59.411
43.654
32.401
24.297
18.396
14.055
10.829
8.414
6.586
5.195
4.126
3.300
2.656
2.152
1.753
1.437
1.184
0.981
0.817
0.684
0.575
0.486
0.412
0.351
0.301
0.258
0.223
0.193
0.168
0.146
0.128
0.113
NCPppXH223
22kΩ15kΩ
3380K3950K
Resistance (kΩ)
430.434
325.976
249.364
192.629
150.121
118.029
93.514
74.563
59.881
48.446
39.436
32.282
26.577
22.000
18.292
15.285
12.834
10.817
9.154
7.777
6.631
5.690
4.901
4.234
3.671
3.195
2.790
2.441
2.142
1.888
1.668
1.477
1.312
1.169
4
15
for Temp. Sensor and Compensation Chip Type Temperature Characteristics (Center Value)
Continued from the preceding page.
Y5
0
5
10
15
20
25
30
35
40
45
50
55
60
65
70
75
80
85
90
95
Y5
0
5
10
15
20
25
30
35
40
45
50
55
60
65
70
75
80
85
90
95
NCPppXW223
22kΩ 22kΩ 33kΩ 33kΩ
3950K 4485K 4050K 4250K
Resistance (kΩ)
759.605
545.196
396.070
291.025
216.008
161.977
122.638
93.702
72.191
56.093
43.907
34.633
27.509
22.000
17.709
14.344
11.688
9.578
7.894
6.540
5.446
4.559
3.832
3.239
2.748
2.342
2.004
1.722
1.486
1.287
1.119
0.975
0.854
0.750
NCPppWF683
68kΩ 68kΩ 100kΩ
4250K 4485K 4250K
Resistance (kΩ)
2990.041
2100.247
1494.113
1075.679
782.705
575.674
427.712
320.710
242.768
185.300
142.603
110.602
86.415
68.000
53.871
42.954
34.460
27.814
22.572
18.422
15.113
12.459
10.325
8.592
7.185
6.033
5.087
4.309
3.661
3.124
2.675
2.299
1.983
1.715
Part Number
Resistance
B-Constant
Temp. (°C)
Y40
Y35
Y30
Y25
Y20
Y15
Y10
4
100
105
110
115
120
125
Part Number
Resistance
B-Constant
Temp. (°C)
Y40
Y35
Y30
Y25
Y20
Y15
Y10
100
105
110
115
120
125
Detailed Resistance - Temperature Tables are downloadable from the following URL.
http://search.murata.co.jp/Ceramy/CatsearchAction.do?sLang=en
16
NCPppWL223
Resistance (kΩ)
1073.436
753.900
535.073
383.590
277.643
202.813
149.462
111.082
83.233
62.858
47.831
36.664
28.304
22.000
17.214
13.557
10.744
8.566
6.871
5.543
4.497
3.669
3.009
2.481
2.056
1.713
1.434
1.206
1.019
0.866
0.739
0.633
0.545
0.471
NCPppWL683 NCPppWF104
Resistance (kΩ)
3317.893
2330.237
1653.862
1185.641
858.168
626.875
461.974
343.345
257.266
194.287
147.841
113.325
87.484
68.000
53.208
41.903
33.208
26.477
21.237
17.133
13.900
11.339
9.300
7.668
6.356
5.294
4.432
3.728
3.151
2.676
2.283
1.956
1.684
1.456
NCPppWB333
Resistance (kΩ)
1227.263
874.449
630.851
460.457
339.797
253.363
190.766
144.964
111.087
85.842
66.861
52.470
41.471
33.000
26.430
21.298
17.266
14.076
11.538
9.506
7.870
6.549
5.475
4.595
3.874
3.282
2.789
2.379
2.038
1.751
1.509
1.306
1.134
0.987
Resistance (kΩ)
4397.119
3088.599
2197.225
1581.881
1151.037
846.579
628.988
471.632
357.012
272.500
209.710
162.651
127.080
100.000
79.222
63.167
50.677
40.904
33.195
27.091
22.224
18.323
15.184
12.635
10.566
8.873
7.481
6.337
5.384
4.594
3.934
3.380
2.916
2.522
NCPppWF333
Resistance (kΩ)
1451.049
1019.238
725.084
522.021
379.842
279.371
207.566
155.639
117.814
89.925
69.204
53.675
41.937
33.000
26.143
20.845
16.723
13.498
10.954
8.940
7.334
6.046
5.011
4.170
3.487
2.928
2.469
2.091
1.777
1.516
1.298
1.116
0.962
0.832
NCP18WF104F
100kΩ±1%
4200K
Resistance (kΩ)
4205.686
2966.436
2118.789
1531.319
1118.422
825.570
615.526
463.104
351.706
269.305
207.891
161.722
126.723
100.000
79.439
63.509
51.084
41.336
33.628
27.510
22.621
18.692
15.525
12.947
10.849
9.129
7.713
6.546
5.572
4.764
4.087
3.518
3.040
2.634
NCPppWL333
33kΩ 47kΩ 47kΩ 68kΩ
4485K 4050K 4485K 4150K
Resistance (kΩ)
1610.154
1130.850
802.609
575.385
416.464
304.219
224.193
166.623
124.850
94.287
71.747
54.996
42.455
33.000
25.822
20.335
16.115
12.849
10.306
8.314
6.746
5.503
4.513
3.721
3.084
2.569
2.151
1.809
1.529
1.299
1.108
0.949
0.817
0.707
NCPppWL104
100kΩ
4485K
Resistance (kΩ)
4879.254
3426.818
2432.149
1743.590
1262.012
921.875
679.373
504.919
378.333
285.717
217.414
166.654
128.653
100.000
78.247
61.622
48.835
38.937
31.231
25.195
20.441
16.675
13.677
11.277
9.346
7.785
6.517
5.482
4.634
3.935
3.357
2.877
2.476
2.141
NCPppWB473
Resistance (kΩ)
1747.920
1245.428
898.485
655.802
483.954
360.850
271.697
206.463
158.214
122.259
95.227
74.730
59.065
47.000
37.643
30.334
24.591
20.048
16.433
13.539
11.209
9.328
7.798
6.544
5.518
4.674
3.972
3.388
2.902
2.494
2.150
1.860
1.615
1.406
NCPppWL154
150kΩ 150kΩ 220kΩ
4485K 4500K 4485K
Resistance (kΩ)
7318.881
5140.228
3648.224
2615.385
1893.018
1382.813
1019.059
757.379
567.499
428.575
326.121
249.981
192.979
150.000
117.370
92.433
73.252
58.406
46.846
37.793
30.661
25.013
20.516
16.916
14.019
11.678
9.776
8.223
6.951
5.902
5.035
4.315
3.714
3.211
NCPppWL473
Resistance (kΩ)
2293.249
1610.605
1143.110
819.487
593.146
433.281
319.305
237.312
177.816
134.287
102.184
78.327
60.467
47.000
36.776
28.962
22.952
18.301
14.679
11.842
9.607
7.837
6.428
5.300
4.393
3.659
3.063
2.577
2.178
1.849
1.578
1.352
1.164
1.006
NCPppWM154 NCPppWL224
Resistance (kΩ)
7899.466
5466.118
3834.499
2720.523
1951.216
1415.565
1036.984
767.079
572.667
431.264
327.405
250.538
193.166
150.000
117.281
92.293
73.090
58.240
46.665
37.605
30.453
24.804
20.293
16.679
13.776
11.428
9.520
7.966
6.688
5.639
4.772
4.052
3.454
2.955
Continued on the following page.
NCPppWD683
Resistance (kΩ)
2735.359
1937.391
1389.345
1008.014
738.978
547.456
409.600
309.217
235.606
180.980
140.139
109.344
85.929
68.000
54.167
43.421
35.016
28.406
23.166
18.997
15.657
12.967
10.794
9.021
7.575
6.387
5.407
4.598
3.922
3.359
2.887
2.489
2.155
1.870
Resistance (kΩ)
10734.358
7539.001
5350.729
3835.898
2776.427
2028.126
1494.620
1110.822
832.332
628.577
478.310
366.639
283.036
220.000
172.143
135.569
107.436
85.662
68.708
55.429
44.970
36.686
30.090
24.810
20.562
17.128
14.338
12.061
10.194
8.657
7.385
6.329
5.448
4.710
3
for Temp. Sensor and Compensation Chip Type Temperature Characteristics (Center Value)
Continued from the preceding page.
Part Number
Resistance
B-Constant
Temp. (°C)
Y40
Y35
Y30
Y25
Y20
Y15
Y10
100
105
110
115
120
125
Detailed Resistance - Temperature Tables are downloadable from the following URL.
http://search.murata.co.jp/Ceramy/CatsearchAction.do?sLang=en
Y5
0
5
10
15
20
25
30
35
40
45
50
55
60
65
70
75
80
85
90
95
NCPppWM224
220kΩ 470kΩ
4500K 4500K
Resistance (kΩ)
11585.884
8016.973
5623.931
3990.100
2861.784
2076.162
1520.909
1125.049
839.912
632.521
480.194
367.455
283.310
220.000
172.012
135.364
107.198
85.419
68.441
55.153
44.665
36.379
29.763
24.462
20.205
16.761
13.962
11.684
9.809
8.270
6.998
5.942
5.067
4.334
NCPppWM474
Resistance (kΩ)
24751.661
17127.169
12014.762
8524.305
6113.811
4435.437
3249.216
2403.515
1794.358
1351.294
1025.870
785.018
605.252
470.000
367.480
289.186
229.014
182.485
146.215
117.828
95.420
77.718
63.584
52.260
43.166
35.808
29.828
24.961
20.955
17.668
14.951
12.695
10.824
9.259
4
4
17
for Temp. Sensor and Compensation Chip Type !Caution/Notice
■ !Caution (Storage and Operating Conditions)
This product is designed for application in an
ordinary environment (normal room temperature,
humidity and atmospheric pressure).
Do not use under the following conditions because
all these factors can deteriorate the product
characteristics or cause failures and burn-out.
1. Corrosive gas or deoxidizing gas
(Chlorine gas, Hydrogen sulfide gas, Ammonia gas,
Sulfuric acid gas, Nitric oxide gas, etc.)
2. Volatile or flammable gas
3. Dusty conditions
4. Under vacuum, or under high or low-pressure
5. Wet or humid locations
6. Places with salt water, oils, chemical liquids or
organic solvents
7. Strong vibrations
8. Other places where similar hazardous conditions
exist
■ !Caution (Others)
Be sure to provide an appropriate fail-safe function
on your product to prevent secondary damages that may be
caused by the abnormal function or the failure of our
product.
4
■ Notice (Storage and Operating Conditions)
To keep solderability of product from declining, the
following storage condition is recommended.
1. Storage condition:
Temperature -10 to +40 degrees C
Humidity less than 75%RH (not dewing condition)
2. Storage term:
Use this product within 6 months after delivery by
first-in and first-out stocking system.
3. Storage place:
Do not store this product in corrosive gas
(Sulfuric acid gas, Chlorine gas, etc.) or in direct
sunlight.
■ Notice (Rating)
Use this product within the specified temperature
range.
Higher temperature may cause deterioration of the
characteristics or the material quality of this
product.
■ Notice (Handling)
The ceramic of this product is fragile, and care must
be taken not to load an excessive press - force or
not to give a shock at handling.
Such forces may cause cracking or chipping.
18
for Temp. Sensor and Compensation Chip Type !Caution/Notice
■ Notice (Soldering and Mounting)
1. Mounting Position
Choose a mounting position that minimizes the stress
imposed on the chip during flexing or bending of the
board.
Component Direction
Mounting Close to Board Separation Line
Perforation
Holes
A
Slit
C
B
D
Keep this product on the
PC Board away from the
Separation Line.
Worst ← A-C-B-D → Better
Locate this
product
horizontal to the
direction in
which stress
acts.
2. Allowable Soldering Temperature and Time
(a) Solder within the temperature and time combinations,
indicated by the slanted lines in the fllowing graphs.
(b) The excessive soldering conditions may cause
dissolution of metallization or deterioration of solderwetting on the external electrode.
(c) In case of repeated soldering, the accumulated soldering
time should be within the range shown below figure. (For
example, Reflow peak temperature: 260°C, twice -> The
total accumulated soldering time at 260°C is within 30
seconds.)
NCP18/21 Series
Allowable Flow Soldering Temp. and Time
280
270
260
250
240
230
Temperature (°C)
220
210
0 10 20 30
Time (sec.)
NCP03/15 Series
Allowable Reflow Soldering Temp. and Time
280
270
260
250
240
Temperature (°C)
230
220
0 9020 30 40 50 60 70 8010
Allowable Reflow Soldering Temp. and Time
280
270
260
250
240
230
Temperature (°C)
220
210
0 1109020 30 40 50 60 70 1008010
Time (sec.)
Time (sec.)
4
Continued on the following page.
1
19
for Temp. Sensor and Compensation Chip Type !Caution/Notice
Continued from the preceding page.
3. Recommendable Temperature Profile for Soldering
(a) Insufficient preheating may cause a crack on ceramic
body. The difference between preheating temperature
and maximum temperature in the profile shall be 100 °C.
(b) Rapid cooling by dipping in solvent or by other means is
not recommended.
* In case of repeated soldering, the accumulated soldering
time should be within the range shown above figure 2.
NCP18/21 Series
Flow Soldering Conditions
4
300
Preheating (in air)
Soldering
Gradual Cooling
(in air)
NCP03/15 Series
Reflow Soldering Conditions
Preheating (in air)
300
200
100
Temperature (°C)
0
Preheating: 160±10°C, 1-2 min.
Soldering: 240-270°C, 20sec.
Reflow Soldering Conditions
300
1-2 min.
Preheating (in air)
Soldering
*20sec.
Soldering
Gradual Cooling
(in air)
Gradual Cooling
(in air)
200
100
Temperature (°C)
0
Preheating: 160±10°C, 1-2 min.
Soldering: 230-260°C, 10sec.
1-2 min.
*10sec.
4. Solder and Flux
(1) Solder and Paste
(a) Reflow Soldering: NCP03/15/18/21 Series
Use RA/RMA type or equivalent type of solder paste. For
your reference, we are using the solder paste below for
any internal tests of this product.
•RMA9086 90-4-M20 (Sn:Pb=63wt%:37wt%)
(Manufactured by Alpha Metals Japan Ltd.)
•M705-221BM5-42-11 (Sn:Ag:Cu=96.5wt%:3.0wt%:0.5wt%)
(Manufactured by Senju Metal Industry Co., Ltd.)
(b) Flow Soldering: NCP18/21 Series
We are using the solder paste below for any internal tests
of this product.
200
100
Temperature (°C)
0
Preheating: 160±10°C, 1-2 min.
Soldering: 230-270°C, 20sec.
1-2 min.
*20sec.
•Sn:Pb=63wt%:37wt%
•Sn:Ag:Cu=96.5wt%:3.0wt%:0.5wt%
(2) Flux
Use rosin type flux in soldering process.
If below flux is used, some problems might be caused in
the product characteristics and reliability.
Please do not use below flux.
• Strong acidic flux (with halide content exceeding
0.1wt%).
• Water-soluble flux
(*Water-soluble flux can be defined as non rosin type
flux including wash-type flux and non-wash-type flux.)
5. Cleaning Conditions
For removing the flux after soldering, observe the following
points in order to avoid deterioration of the characteristics or
any change of the external electrodes' quality.
• Please keep mounted parts and a substrate from an
occurance of resonace in ultrasonic cleaning.
• Please do not clean the products in the case of using a
non-washed type flux.
6. Drying
After cleaning, promptly dry this product.
20
Solvent
Dipping Cleaning
Ultrasonic Cleaning
NCP03/15 NCP18/21
Isopropyl Alcohol
Less than 5 minutes at
room temp. or less than
2 minutes at 40°C max.
Less than 5 minutes and
20W/r
Frequency of 28kHz to
40kHz
Isopropyl Alcohol
Less than 5 minutes at
room temp. or less than
2 minutes at 40°C max.
Less than 1 minute and
20W/r
Frequency of several
10kHz to 100kHz
Continued on the following page.
2
for Temp. Sensor and Compensation Chip Type !Caution/Notice
Continued from the preceding page.
7. Printing Conditions of Solder Paste
The amount of solder is critical. Standard height of fillet is
shown in the table below.
Too much soldering may cause mechanical stress,
resulting in cracking, mechanical and/or electronic
damage.
Reference: Optimum Solder Amount
E
Electrode
T
Part Number The Solder Paste Thickness T
NCP03
NCP15
NCP18/NCP21
8. Adhesive Application and Curing
Thin or insufficient adhesive may result in loose
component contact with land during flow soldering.
Low viscosity adhesive causes chips to slip after
mounting.
100µm
150µm
200µm
Solder
Solder
1/3EVTVE
1/3EVTVE
0.2mmVTVE
4
3
21
for Temp. Sensor and Compensation Chip Type Package
Minimum Quantity Guide
15000
10000
4000
-
Quantity (pcs.)
Embossed Tape
-
4000
2.0±0.5
ø13.0±0.2
ø21.0±0.8
Part Number
Paper Tape
NCP03
NCP15
NCP18
NCP21
Tape Carrier Packaging
1. Dimensions of Reel
W1.0
Y0
ø60
4
W1.0
9.0
Y0
13.0±1.0
(in mm)
Leader Unit
190-250
Vacant Section
210-250
Top Tape alone
Cover Tape alone
(in mm)
Continued on the following page.
2. Taping Method
(1) A tape in a reel contains Leader unit and Trailer unit where
products are not packed. (Please refer to the figure right.)
(2) The top and base tapes or plastic and cover tape are not
stuck at the first five pitches minimum.
(3) A label should be attached on the reel. (MURATA's part
number, inspection number and quantity should be marked
on the label.)
(4) Taping reels are packed in a package.
ø180
40 min.
Trailer Unit
W0
Y1.5
Chip-mounting Unit
Direction of Feed
1
22
for Temp. Sensor and Compensation Chip Type Package
Continued from the preceding page.
3. Paper Tape (NCP03/15/18 Series)
NCP03 Series
2.0±0.05
4.0±0.1
∗
0.68
ø1.5+0.1/–0
∗
0.38
Direction of Feed
0.5 max.
1.75±0.1
3.5±0.05
8.0±0.3
∗ Reference Value
∗
1.15
NCP15 Series
2.0±0.05
4.0±0.1
ø1.5+0.1/–0
∗
0.65
Direction of Feed
0.8 max.
1.75±0.1
3.5±0.05
8.0±0.3
∗ Reference Value
NCP18 Series
2.0±0.05
4.0±0.1 4.0±0.1
ø1.5+0.1/–0
1.1 max.
1.75±0.1
4
∗
1.85
∗
1.05
Direction of Feed
3.5±0.05
8.0±0.3
∗ Reference Value
(in mm)
(1) Other Conditions
(a) Packaging
Products are packaged in the cavity of the base tape and
sealed by top tape and bottom tape.
(b) Tape
Top tape and bottom tape have no joints and products
are packaged and sealed in the cavity of the base tape,
continuously.
(2) Peeling Force of Top Tape
(3) Pull Strength
Pull strength of top tape is specified at 10N minimum.
Pull strength of bottom tape should be specified 5N minimum.
165-180 °
∗ 1 Peeling angle: 165 to 180 degrees against the fixed surface of tape.
∗ 2 Peeling speed: 300mm/min.
∗ 3 Peeling force: 0.1 - 0.6N
F
Continued on the following page.
23
2
for Temp. Sensor and Compensation Chip Type Package
Continued from the preceding page.
4. Embossed Tape (NCP21 Series)
(1) Other Conditions
(a) Packaging
Products are packaged in each cavity of the Embossed
tape and sealed by Cover tape.
(b) Tape
Cover tape has no joints.
∗
2.25
4.0±0.1
2.0±0.05
4.0±0.1
φ1.5
+0.1
-1
1.05
0.2
1.75±0.1
3.5±0.05
8.0±0.3
φ1.0
+0.3
-0
∗
1.45
Direction of Feed
∗ Reference Value
(in mm)
(2) Peeling Force of Cover Tape
165-180 °
F
4
∗ 1 Peeling angle: 165 to 180 degrees against the fixed surface of tape.
∗ 2 Peeling speed: 300mm/min.
∗ 3 Peeling force: 0.1 - 0.7N
(3) Tape Strength
Pull strength of Embossed tape and Cover tape should be
specified 10N minimum.
3
24
NTC Thermistors
for Temperature Sensor Thermo String Type
This product is a small flexible lead type NTC Thermistor
with the small head and the thin lead wire.
■ Features
1. High accuracy and high sensibility temperature sensing
is available by the small size and high accuracy NTC
Thermistor.
2. Narrow space temperature sensing is available by the
small sensing head and the thin lead wire.
3. Flexibility and wide variety length (25 mm to 150mm)
enables designing flexible temperature sensing
architectures.
4. This product is compatible with our 0402 (EIA) size
chip Thermistor.
5. Excellent long time aging stability
6. This is halogen free product. *
* Cl= max.900ppm, Br=max.900ppm and
Cl+Br=max.1500ppm
7. NXFT series are recognized by UL/cUL.
(UL1434, File No.E137188).
■ Applications
1. Temperature compensation for transistor, IC and
crystal oscillator in mobile communications
2. Temperature sensor for rechargeable batteries
3. Temperature compensation of LCD
4. Temperature compensation in general use of electric
circuits
1.2±0.4
25 to 100±2
110 to 150±3
ø0.30±0.05
3+2/-1
The full length 25mm, 30 to 150mm Interval 10mm.
NXFT15_1B Type(twist)
1.2±0.4
25 to 100±2
110 to 150±3
ø0.30±0.05
3+2/-1
The full length 25mm, 30 to 150mm Interval 10mm.
NXFT15_2B Type(without twist)
1.2±0.4
(in mm)
1.2±0.4
5
(in mm)
Part Number
NXFT15XH103FApBppp 10k 3380 ±1% 3423 3431 3452 0.12 7.5 1.5 4
NXFT15WB473FApBppp 47k 4050 ±1% 4091 4097 4114 0.06 7.5 1.5 4
NXFT15WF104FApBppp 100k 4250 ±1% 4303 4311 4334 0.04 7.5 1.5 4
p is the fulled with lead shape (1:twist, 2:without twist).
ppp is the fulled with Total-length codes. (25mm, 30 to 150mm interval 10mm, ex. 050=50mm)
Operating Current for Sensor rises Thermistor's temperature by 0.1.°C
Rated Electric Power is necessary electric power that Thermistor's temperature rises 5°C by self heating at 25°C in still air.
Operating Temperature Range: -40°C to +125°C
Resistance
(25°C)
(ohm)
B-Constant
(25-50°C)
(K)
B-Constant
(25-80°C)
(Reference Value) (K)
B-Constant
(25-85°C)
(Reference Value) (K)
B-Constant
(25-100°C)
(Reference Value) (K)
Operating Current
for Sensor (25°C)
(mA)
Rated Electric
Power (25°C)
(mW)
Typical Dissipation
Constant (25°C)
(mW/°C)
Thermal Time
Constant
(s)
25
for Temperature Sensor Thermo String Type Specifications and Test Methods
No. Test MethodsSpecificationsItem
High Temperature
Storage Test
Low Temperature
Storage Test
Humidity
3
Storage Test
Temperature
4
Cycle
High Temperature
5
Load
Insulation Break -
6
down Voltage
· Resistance (R25°C) fluctuation rate: less than ±1%.
· B-Constant (B25/50°C) fluctuation rate: less than ±1%.
· Resistance (R25°C) fluctuation rate: less than ±2%.
· B-Constant (B25/50°C) fluctuation rate: less than ±1%.
· No damage electrical characteristics on DC100 V, 1 min.
125±2°C in air, for 1000 +48/-0 hours without loading.1
-40 +0/-3°C in air, for 1000 +48/-0 hours without loading.2
60±2°C, 90 to 95%RH in air, for 1000 +48/-0 hours without
loading.
-40 +0/-3°C, 30 minutes in air
+25±2°C, 10 to 15 minutes in air
+125±2°C, 30 minutes in air
+ 25 +2/-0°C, 10 to 15 minutes in air (1 cycle)
Continuous 100 cycles, without loading.
85±2°C in air, with 'Operating Current for Sensor' for 1000
+48/-0 hrs.
2mm length of coating resin from the top of Thermistor is to be
dipped into beads of lead (Pb), and DC100V 1 minute is
applied to circuit between beads of lead (Pb) and lead wire.
Both lead wires are dipped into 350±10°C solder for 3.5±0.5
seconds, or 260±5°C solder for 10±1 seconds according to
Fig-1. (solder <JIS Z 3282 H60A>)
Resistance to
7
Soldering Heat
5
8 Solderability More than 90% of lead wire surface shall be covered by solder.
Lead Wire
9
Pull Strength
· Resistance (R25°C) fluctuation rate: less than ±1%.
· B-Constant (B25/50°C) fluctuation rate: less than ±1%.
1 to 2mm
Solder
Fig-1
Both lead wires are dipped into flux (25wt% colophony <JIS K
5902> isopropyl alcohol <JIS K 8839>) for 5 to 10 seconds.
Then both lead wires are dipped into 235±5°C solder
<JIS Z 3282 H60A> for 2±0.5 seconds according to Fig-1.
The lead wire shall be inserted in a ø1.0mm hole until resin part
contacts with a substrate as shown in fig.-2. And 1N force for
10 seconds shall be applied to the lead wire.
· Resistance (R25°C) fluctuation rate: less than ±1%.
· B-Constant (B25/50°C) fluctuation rate: less than ±1%.
1N (10 sec.)
Fig-2
Hold the lead wires like Fig-3. Bend by 90 degrees and again
bend back to the initial position. Then bend to the other side by
90 degrees and again bend back to the initial position. After
bending process, 10N force for 3 seconds shall be applied to
the lead wire.
Lead Wire
10
Bending Strength
* · R25 is zero-power resistance at 25°C.
· B25/50 is calculated by zero-power resistance of Thermistor in 25°C -50°C.
· After each test, NTC Thermistor should be kept for 1 hour at room temperature (normal humidity and normal atmospheric pressure).
· Lead wire does not break.
10N (3 sec.)
Fig-3
Continued on the following page.
26
for Temperature Sensor Thermo String Type Specifications and Test Methods
Continued from the preceding page.
No. Test MethodsSpecificationsItem
11 Free Fall
· Resistance (R25°C) fluctuation rate: less than ±1%.
· B-Constant (B25/50°C) fluctuation rate: less than ±1%.
12 Vibration
· No visible damage at resin part.
* · R25 is zero-power resistance at 25°C.
· B25/50 is calculated by zero-power resistance of Thermistor in 25°C -50°C.
· After each test, NTC Thermistor should be kept for 1 hour at room temperature (normal humidity and normal atmospheric pressure).
NTC Thermistor shall be dropped without any force onto
concrete floor from 1 meter height one time.
NTC Thermistor shall be fixed to the vibration test equipment.
Vibration of total 1.5 mm amplitude, Frequency sequence of
10Hz - 55Hz - 10Hz in 1 minute, shall be applied for right
angled 3 directions for each 2 hours duration.
Mount
Solder is attached
from the reverse side.
The oscillating
Direction X
The oscillating
Direction Z
The oscillating
Direction Y
5
27
NTC Thermistors
for Temperature Sensor Lead Type
3.0 max. (∗3.3 max.) 1.8 max. (∗2.5 max.)
This product is a sensor type NTC Thermistor to be
useful in the normal temperature range developed by
the unique ceramic technology and the automatic
assembly.
■ Features
1. High-accuracy of B-Constant tolerance +/-0.5%
+/-1% of resistance and +/-0.5% of B-Constant is
realized due to technical advantages of the
material and manufacturing process.
2. Quick response
This product provides faster response time due
to its smaller size.
3. Taping type is available.
4. Strong lead strength
Original lead-wiring technique assures reliable
connection. It can be formed and bent flexibly
according to the mounting conditions.
31±1
2.5±1.0
6.0 max.
∗ Applicable to NTSA0XM202, NTSA0WB203
and NTSA0WC303 Types.
Epoxy Resin
Solder Plated Copper Ply Wire
ø0.4±0.03
(in mm)
■ Applications
1. Rechargeable batteries
2. Battery charging circuits
3. Head of printers
4. DC fan motors
5. Home appliance equipments
6
Part Number
NTSA0XM202pE1B0 2.0k 3500 ±0.5% 3523 3526 3543 1.05 21 2.1 7
NTSA0XR502pE1B0 5.0k 3700 ±1% 3727 3738 3760 0.68 15 1.5 7
NTSA0XH103pE1B0 10k 3380 ±0.5% 3428 3434 3455 0.38 15 1.5 7
NTSA0XV103pE1B0 10k 3900 ±0.5% 3930 3934 3944 0.46 15 1.5 7
NTSA0WB203pE1B0 20k 4050 ±1% 4078 4080 4096 0.31 21 2.1 7
NTSA0WC303pE1B0 30k 4100 ±1% 4128 4130 4147 0.26 21 2.1 7
NTSA0WD503pE1B0 50k 4150 ±1% 4205 4213 4234 0.20 15 1.5 7
NTSA0WF104pE1B0 100k 4250 ±1% 4303 4311 4334 0.14 15 1.5 7
A blank column is filled with resistance tolerance codes (F: ±1%, E: ±3%).
Rated Electric Power is necessary electric power that Thermistor's temperature rises 10°C by self heating at 25°C in still air.
Operating Temperature Range: -40°C to +125°C
Taping type of part numbers with "N6A0" is available (Lead spacing=5mm).
Resistance
(25°C)
(ohm)
B-Constant
(25-50°C)
(K)
B-Constant
(25-80°C)
(Reference Value) (K)
B-Constant
(25-85°C)
(Reference Value) (K)
B-Constant
(25-100°C)
(Reference Value) (K)
Permissive Operating
Current (25°C)
(mA)
Rated Electric
Power (25°C)
(mW)
Typical Dissipation
Constant (25°C)
(mW/°C)
Thermal Time
Constant
(s)
28
NTC Thermistors
for Temperature Sensor Lead Insulation Type
This product is a sensor type NTC Thermistor to be
useful in the normal temperature range developed by
the unique ceramic technology and the automatic
assembly.
■ Features
1. Electric insulation on lead wire
2. Excellent bending resistance due to suitable
hardness of surface coating
3. Easy handling due to most suitable hardness of
surface of coating
4. High-accuracy of B-Constant tolerance +/-0.5%
+/-1% of resistance and +/-0.5% of B-Constant is
realized due to technical advantages of the
material and manufacturing process.
■ Applications
1. Rechargeable batteries
2. Battery charging circuits
3. Head of printers
4. DC fan motors
5. Home appliance equipments
NTSD0 Series
NTSD1 Series
3.0 max. (∗3.8 max.)
+1.5
−0.5
2.5
∗ Applicable to NTSD0XM202, NTSD0WB203
and NTSD0WC303 Types.
ø0.45±0.05
Sn-Ag Solder Copper Wire
∗ NTSD1XM202/NTSD1WB203/NTSD1WC303 Types
5±1
0.60-0.95
3.0 max. (∗3.8 max.) 2.0 max. (∗2.5 max.)
+1.5
2.5
-
0.5
L ±2.0
Type
NTSD1_FPB30
NTSD1_FPB40
NTSD1_FPB50
27.0±2.0
3±1.5
L (mm)
2.0 max. (∗2.5 max.)
(Coating Area)
Epoxy Resin
ø0.46±0.03
Polyurethane Wire
30
40
50
ø0.4±0.03
(Solder Plated
Copper Ply Wire)
(in mm)
2.5±1.2
(0.8)
(in mm)
NTSD0 Series
Part Number
Resistance
(25°C)
(ohm)
NTSD0XM202pE1B0 2.0k 3500 ±0.5% 3523 3526 3543 1.05 21 2.1 7
NTSD0XR502pE1B0 5.0k 3700 ±1% 3727 3738 3760 0.68 15 1.5 7
NTSD0XH103pE1B0 10k 3380 ±0.5% 3428 3434 3455 0.38 15 1.5 7
NTSD0XV103pE1B0 10k 3900 ±0.5% 3930 3934 3944 0.46 15 1.5 7
NTSD0WB203pE1B0 20k 4050 ±1% 4078 4080 4096 0.31 21 2.1 7
NTSD0WC303pE1B0 30k 4100 ±1% 4128 4130 4147 0.26 21 2.1 7
NTSD0WD503pE1B0 50k 4150 ±1% 4205 4213 4234 0.20 15 1.5 7
NTSD0WF104pE1B0 100k 4250 ±1% 4303 4311 4334 0.14 15 1.5 7
A blank column is filled with resistance tolerance codes (F: ±1%, E: ±3%).
Rated Electric Power is necessary electric power that Thermistor's temperature rises 10°C by self heating at 25°C in still air.
Operating Temperature Range: -40°C to +125°C
B-Constant
(25-50°C)
(K)
B-Constant
(25-80°C)
(Reference Value) (K)
B-Constant
(25-85°C)
(Reference Value) (K)
B-Constant
(25-100°C)
(Reference Value) (K)
Permissive Operating
Current (25°C)
(mA)
Rated Electric
Power (25°C)
(mW)
Typical Dissipation
Constant (25°C)
(mW/°C)
Thermal Time
Constant
NTSD1 Series
Part Number
Resistance
(25°C)
(ohm)
NTSD1XM202FPBpp 2.0k ±1% 3500 ±0.5% 3523 3526 3543 1.05 21 2.1 7
NTSD1XR502FPBpp 5.0k ±1% 3700 ±1% 3727 3738 3760 0.68 15 1.5 7
NTSD1XH103FPBpp 10k ±1% 3380 ±0.5% 3428 3434 3455 0.38 15 1.5 7
NTSD1XV103FPBpp 10k ±1% 3900 ±0.5% 3930 3934 3944 0.46 15 1.5 7
NTSD1WB203FPBpp 20k ±1% 4050 ±1% 4078 4080 4096 0.31 21 2.1 7
NTSD1WC303FPBpp 30k ±1% 4100 ±1% 4128 4130 4147 0.26 21 2.1 7
B-Constant
(25-50°C)
(K)
B-Constant
(25-80°C)
(Reference Value) (K)
B-Constant
(25-85°C)
(Reference Value) (K)
B-Constant
(25-100°C)
(Reference Value) (K)
Permissive Operating
Current (25°C)
(mA)
Rated Electric
Power (25°C)
Continued on the following page.
(mW)
Typical Dissipation
Constant (25°C)
(mW/°C)
Thermal Time
Constant
(s)
7
(s)
29
Continued from the preceding page.
Part Number
Resistance
(25°C)
(ohm)
B-Constant
(25-50°C)
(K)
B-Constant
(25-80°C)
(Reference Value) (K)
B-Constant
(25-85°C)
(Reference Value) (K)
B-Constant
(25-100°C)
(Reference Value) (K)
Permissive Operating
Current (25°C)
(mA)
Rated Electric
Power (25°C)
(mW)
Typical Dissipation
Constant (25°C)
(mW/°C)
NTSD1WD503FPBpp 50k ±1% 4150 ±1% 4205 4213 4234 0.20 15 1.5 7
NTSD1WF104FPBpp 100k ±1% 4250 ±1% 4303 4311 4334 0.14 15 1.5 7
A blank column is filled with Total-length codes. (30, 40, 50)
Rated Electric Power is necessary electric power that Thermistor's temperature rises 10°C by self heating at 25°C in still air.
Operating Temperature Range: -40°C to +125°C
■ Temperature Tolerance - Temperature Characteristics
Resistance Tolerance: +/-1% B-Constant Tolerance: +/-1%
3.0
Resistance Tolerance: +/-1% B-Constant Tolerance: +/-0.5%
3.0
Thermal Time
Constant
(s)
2.0
1.0
Temperature Tolerance (±°C)
0
-50 0 50 100 150
Temperature (°C)
2.0
1.0
Temperature Tolerance (±°C)
0
-50 0 50 100 150
Temperature (°C)
7
30
for Temperature Sensor Temperature Characteristics (Center Value)
Part Number
Resistance
B-Constant
Y40
Y35
Y30
Y25
Y20
Y15
Y10
Y5
0
5
10
15
20
25
30
35
40
45
50
55
60
65
70
75
80
85
90
95
100
105
110
115
120
125
Part Number
Resistance
B-Constant
Temp. (°C)
Y40
Y35
Y30
Y25
Y20
Y15
Y10
Y5
0
5
10
15
20
25
30
35
40
45
50
55
60
65
70
75
80
85
90
95
100
105
110
115
120
125
Detailed Resistance - Temperature Tables are downloadable from the following URL.
NXFpXH103
10kΩ 47kΩ 100kΩ
3380K 4050K 4250K
Resistance (kΩ)Temp. (°C)
197.388
149.395
114.345
88.381
68.915
54.166
42.889
34.196
27.445
22.165
18.010
14.720
12.099
10.000
8.309
6.939
5.824
4.911
4.160
3.539
3.024
2.593
2.233
1.929
1.673
1.455
1.270
1.112
0.976
0.860
0.759
0.673
0.598
0.532
NTSppXM202 NTSppXR502 NTSppXH103 NTSppXV103
2.0kΩ 5.0kΩ 10kΩ 10kΩ
3500K 3700K 3380K 3900K 4050K 4100K 4150K 4250K
Resistance (kΩ) Resistance (kΩ) Resistance (kΩ) Resistance (kΩ)
44.657
33.505
25.388
19.402
14.961
11.644
9.133
7.198
5.716
4.571
3.682
2.987
2.437
2.000
1.651
1.371
1.143
0.958
0.807
0.683
0.582
0.497
0.426
0.367
0.318
0.276
0.240
0.210
0.183
0.161
0.142
0.125
0.111
0.099
NXFpWB473
Resistance (kΩ)
1690.590
1215.320
882.908
647.911
480.069
359.009
270.868
206.113
158.126
122.267
95.256
74.754
59.075
47.000
37.636
30.326
24.583
20.043
16.433
13.545
11.223
9.345
7.818
6.571
5.548
4.704
4.004
3.422
2.936
2.528
2.184
1.893
1.646
1.436
123.484
92.295
69.614
52.860
40.480
31.275
24.339
19.154
15.148
11.964
9.520
7.624
6.160
5.000
4.082
3.354
2.773
2.299
1.914
1.607
1.356
1.149
0.978
0.834
0.714
0.612
0.527
0.456
0.396
0.345
0.302
0.264
0.232
0.205
NXFpWF104
Resistance (kΩ)
4221.280
2995.040
2147.000
1554.600
1136.690
839.019
624.987
469.678
355.975
272.011
209.489
162.559
127.057
100.000
79.222
63.167
50.677
40.904
33.195
27.091
22.224
18.323
15.184
12.635
10.566
8.873
7.481
6.337
5.384
4.594
3.934
3.380
2.916
2.522
195.652
148.171
113.347
87.559
68.237
53.650
42.506
33.892
27.219
22.021
17.926
14.674
12.081
10.000
8.315
6.948
5.834
4.917
4.161
3.535
3.014
2.586
2.228
1.925
1.669
1.452
1.268
1.110
0.974
0.858
0.758
0.671
0.596
0.531
347.808
248.591
179.973
131.832
97.679
73.119
55.301
42.257
32.582
25.324
19.847
15.679
12.478
10.000
8.068
6.552
5.353
4.399
3.635
3.020
2.521
2.115
1.783
1.510
1.284
1.096
0.939
0.808
0.698
0.605
0.527
0.460
0.403
0.354
NTSppWB203 NTSppWC303 NTSppWD503 NTSppWF104
20kΩ 30kΩ 50kΩ 100kΩ
Resistance (kΩ) Resistance (kΩ) Resistance (kΩ) Resistance (kΩ)
733.007
524.831
380.184
277.845
205.260
153.642
116.016
88.125
67.522
52.168
40.617
31.847
25.151
20.000
16.014
12.902
10.457
8.527
6.993
5.771
4.789
3.992
3.343
2.809
2.376
2.020
1.724
1.476
1.264
1.085
0.935
0.812
0.708
0.617
1149.500
819.651
591.391
430.529
316.870
236.337
177.842
134.630
102.816
79.183
61.460
48.045
37.834
30.000
23.955
19.249
15.560
12.657
10.354
8.525
7.058
5.869
4.905
4.113
3.472
2.945
2.509
2.143
1.832
1.571
1.350
1.171
1.019
0.886
1948.575
1387.289
999.456
728.895
537.039
399.167
299.469
226.186
172.393
132.857
103.089
80.430
63.201
50.000
39.825
31.918
25.733
20.877
17.034
13.929
11.439
9.485
7.906
6.614
5.558
4.686
3.967
3.373
2.878
2.465
2.118
1.828
1.583
1.374
4256.752
3005.888
2148.514
1555.020
1137.312
839.314
625.338
469.127
355.224
272.045
209.803
162.713
127.117
100.000
79.215
63.150
50.649
40.885
33.195
27.014
22.079
18.226
15.124
12.598
10.542
8.852
7.463
6.321
5.374
4.585
3.925
3.376
2.913
2.520
7
31
1
for Temperature Sensor Thermo String Type/Lead Type !Caution/Notice
■ !Caution (Storage and Operating Conditions)
This product is designed for application in an
ordinary environment (normal room temperature,
humidity and atmospheric pressure).
Do not use under the following conditions because
all these factors can deteriorate the product
characteristics or cause failures and burn-out.
1. Corrosive gas or deoxidizing gas
(Chlorine gas, Hydrogen sulfide gas, Ammonia gas,
Sulfuric acid gas, Nitric oxide gas, etc.)
■ !Caution (Others)
Be sure to provide an appropriate fail-safe function
on your product to prevent secondary damages that may be
caused by the abnormal function or the failure of our
product.
2. Volatile or flammable gas
3. Dusty conditions
4. Under vacuum, or under high or low-pressure
5. Wet or humid locations
6. Places with salt water, oils, chemical liquids or
organic solvents
7. Strong vibrations
8. Other places where similar hazardous conditions
exist
■ Notice (Storage and Operating Conditions)
To keep solderability of product from declining, the
following storage condition is recommended.
1. Storage condition:
Temperature -10 to +40 degrees C
Humidity less than 75%RH (not dewing condition)
2. Storage term:
Use this product within 6 months after delivery by
first-in and first-out stocking system.
3. Handling after unpacking:
After unpacking, reseal product promptly or
store it in a sealed container with a drying agent.
4. Storage place:
Do not store this product in corrosive gas
(Sulfuric acid gas, Chlorine gas, etc.) or in direct
sunlight.
■ Notice (Rating)
Use this product within the specified temperature
range.
Higher temperature may cause deterioration of the
characteristics or the material quality of this
7
product.
■ Notice (Soldering and Mounting) NTS Series
1. Be sure that the preheat-up does not melt the
soldering of this product. Excessive heat may
cause failure to open, short or insulation break
down.
2. Do not touch the body with soldering iron.
The soldering point should be min. 5mm away from
the root of lead wire.
32
for Temperature Sensor Thermo String Type/Lead Type !Caution/Notice
■ Notice (Soldering and Mounting) NXF Series
Please notice as shown below when you mount this product.
1. Do not melt the solder in resin head, when you solder
this product. If you melt the solder in resin head,
it has posibility that the break of wire, short and
break of lead insulation. In case you cut the lead
wire of this product less than 20mm from resin head,
the heat of melted solder at lead wire edge is
propagated easily to the resin head along the lead
wire.
■ Notice (Handling)
1. The ceramic element of this product is fragile, and
care must be taken not to load an excessive
press-force or not to give a shock at handling.
Such forces may cause cracking or chipping.
2. Do not apply an excessive force to the lead.
Otherwise, it may cause junction between lead and
element to break or crack. Holding element by side
lead wire is recommended when lead wire is bent or
cut.
2. Do not touch the resin head directly by solder iron.
It may cause the melt of solder in resin head.
3. Do not separate the parallel lead wires 10mm or less
from theresin head, when you separate parallel lead
wires.
4. If you mold by resin this product, please evaluate
the qualityl of this product before you use it.
5. Do not bend the lead wire radius 1mm or less when
you bend the lead wire.
33
7
for Temperature Sensor Thermo String Type/Lead Type Package
Minimum Quantity
Part Number
NXF
NTSA
NTSD0
NTSD1_30
NTSD1_40
NTSD1_50
Taping Dimensions (NTSA_N6A0 Series)
Minimum Quantity (pcs.)
Bulk
Ammo Pack Taping
1000
500
500
500
200
200
P ∆S
P
2
D
-
3000
-
-
-
-
∆h2 ∆h1
T
e
H
P1
L
I
P
0
ød
F
2
W
2
H0
1
øD0
W
W
t
2
t
1
0
W
Item Code Dimensions (mm)
Pitch of Component
Pitch of Sprocket Hole
Lead Spacing
Length from Hole Center to Component Center
Length from Hole Center to Lead
Body Diameter
Deviation along Tape, Left or Right
7
Carrier Tape Width
Position of Sprocket Hole
Lead Distance between Reference and Bottom Planes
Height of Component
Protrusion Length
Diameter of Sprocket Hole
Lead Diameter
Total Tape Thickness
Total Thickness, Tape and Lead Wire
Deviation across Tape
Portion to Cut in Case of Defect
Hole Down Tape Width
Hole Down Tape Position
Coating Extension on Lead
Body Thickness
P
P
0
F
P
2
1
P
D
∆S
W
W
1
H
0
2
H
I
D
0
d
t
1
t
2
∆h1, ∆h
L
W
0
2
W
e
T
2
12.7
12.7±0.3
5.0+0.8/–0.2
6.35±1.3
3.85±0.8
3.5 max.
0±2.0
18.0±0.5
9.0±0.5
16.0±1.0
4.0 max.
+0.5 to –1.0
4.0±0.1
0.50±0.03
0.6±0.3
1.6 max.
1.0 max.
11.0+0/–2.0
11.0 min.
1.5±1.5
Up to the crimp point
2.6 max.
34
(in mm)
NTC Thermistors
for Inrush Current Suppression Lead Type
This product effectively supresses surge currents
which are generated when switching power regulators
are turned on.
■ Features
1. Lead is not contained in the ceramic element, the
terminations, the solder for inner connection and
the coating resin.
2. Most suitable for power supplies of less than 100W
3. Excellent recovery characteristics due to resin
coating with excellent heat characteristics
4. Highly reliable
■ Applications
1. Switching power supplies
2. CRT monitors
3. Color televisions
4. VCR-Power supplies
5. Other power circuits
NTPAN/NTPAJ Series
NTPAD/NTPAA Series
Coating Extension
on Lead : to line A
10.0±1.5
Coating Extension
on Lead : to line A
7.5±1.5
NTPAN : 23.0 max.
NTPAJ : 20.0 max. 5.5 max.
10.0 max.3.5±1.0
NTPAD : 16.0 max.
NTPAA : 12.0 max.
A
10.0 max.3.5±1.0
5.5 max.
5.0 max.
A
ø0.8±0.05
Sn plated Cu wire
(in mm)
ø0.8±0.05
Sn plated Cu wire
NTPA9 : 11.0 max.
Part Number
Resistance
(25°C)
(ohm)
Permissible Max.
Current (25°C)
(A)
NTPA7/NTPA9 Series
Permissible Max.
Current (55°C)
(A)
Coating Extension
on Lead : to line A
5.0±1.5
Thermal Time
Constant (25°C)
(s)
NTPA7 : 9.0 max.
A
5.0 max.
6.0 max.3.5±1.0
Thermal Dissipation
Constant (25°C)
(mW/°C)
NTPAN3R0LDKB0 3.0 ±15% 5.4 4.7 135 26.8
NTPAN4R0LDKB0 4.0 ±15% 4.7 4.1 130 26.8
NTPAN6R0LDKB0 6.0 ±15% 3.9 3.4 130 26.8
NTPAJ4R0LDKB0 4.0 ±15% 4.0 3.5 125 21.8
NTPAJ6R0LDKB0 6.0 ±15% 3.4 2.9 125 21.8
NTPAJ8R0LDKB0 8.0 ±15% 3.0 2.6 130 21.8
NTPAJ100LDKB0 10.0 ±15% 2.6 2.2 130 21.8
NTPAD3R9LDNB0 3.9 ±15% 3.3 2.9 65 18.2
NTPAD5R1LDNB0 5.1 ±15% 3.0 2.6 85 18.8
NTPAD8R0LDNB0 8.0 ±15% 2.7 2.3 65 18.7
NTPAD160LDNB0 16.0 ±15% 2.0 1.7 100 19.1
NTPAA2R2LDNB0 2.2 ±15% 3.7 3.2 70 13.5
Continued on the following page.
(in mm)
ø0.6±0.05
Sn plated Cu wire
(in mm)
8
35
Continued from the preceding page.
Part Number
Resistance
(25°C)
(ohm)
Permissible Max.
Current (25°C)
(A)
Permissible Max.
Current (55°C)
(A)
Thermal Time
Constant (25°C)
(s)
Thermal Dissipation
Constant (25°C)
(mW/°C)
NTPAA3R9LDNB0 3.9 ±15% 2.7 2.3 70 13.5
NTPAA5R1LDNB0 5.1 ±15% 2.5 2.2 70 13.5
NTPAA8R2LDNB0 8.2 ±15% 2.0 1.7 70 13.5
NTPAA100LDNB0 10.0 ±15% 1.7 1.5 70 13.5
NTPA9160LBMB0 16.0 ±15% 1.4 1.2 65 11.6
NTPA74R0LBMB0 4.0 ±15% 2.3 2.0 40 9.4
NTPA78R0LBMB0 8.0 ±15% 1.7 1.5 40 9.5
NTPA7160LBMB0 16.0 ±15% 1.2 1.0 40 9.9
NTPA7220LBMB0 22.0 ±15% 1.0 0.88 40 9.1
NTPAD/NTPAA/NTPA9/NTPA7 series are also availabe on tape. The final alphabet of the part number should be "DNB0=>D6A0", "BNB0 =>B1A0".
Operating Temperature Range: -20°C to +160°C
■ Permissible Electrolytic Capacitor
Voltage (AC)
Part Number
NTPAN
NTPAJ
NTPAD
NTPAA
NTPA9
NTPA74R0
NTPA78R0
NTPA7160
NTPA7220
100Vrms 120Vrms 132Vrms 220Vrms 240Vrms 264Vrms
8600µF
5000µF
2700µF
1400µF
800µF
700µF
570µF
400µF
5972µF
3472µF
1875µF
972µF
556µF
486µF
396µF
278µF
4936µF
2870µF
1550µF
803µF
459µF
402µF
327µF
230µF
1777µF
1033µF
558µF
289µF
165µF
145µF
118µF
83µF
1493µF
868µF
469µF
243µF
139µF
122µF
99µF
69µF
1234µF
717µF
387µF
201µF
115µF
100µF
82µF
57µF
■ Application Circuit
NTC
−t˚
+
−
■ Determination of Allowable Current
1.0
0.5
Max. Current Ratio
0
20 40 60 80 100 120 140 160
Ambient Temperature (˚C)
8
36
Current - R Ratio (RT/R25)/Current - Temperature Characteristics (Typical)
■ NTPAN3R0L Type
10
1
0.1
Resistance Ratio (Rt/R25)
0.01
0.01 0.1
■ NTPAN6R0L Type
10
1
Current (A)
Ta=25˚C
Resistance Ratio
Thermistor's Temperature (˚C)
1 10
Ta=25˚C
Resistance Ratio
Thermistor's Temperature (˚C)
1000
100
10
1
1000
100
■ NTPAN4R0L Type
10
1
0.1
Thermistor's Temperature (˚C)
Resistance Ratio (Rt/R25)
0.01
0.01 0.1
Current (A)
Ta=25˚C
Resistance Ratio
Thermistor's Temperature (˚C)
1 10
1000
100
10
Thermistor's Temperature (˚C)
1
■ NTPAJ4R0L Type
10
1
Ta=25˚C
Resistance Ratio
Thermistor's Temperature (˚C)
1000
100
0.1
Resistance Ratio (Rt/R25)
0.01
0.01 0.1
■ NTPAJ6R0L Type
10
1
0.1
Resistance Ratio (Rt/R25)
0.01
0.01 0.1
Current (A)
Current (A)
1 10
Ta=25˚C
Resistance Ratio
Thermistor's Temperature (˚C)
1 10
10
1
1000
100
10
1
0.1
Thermistor's Temperature (˚C)
Resistance Ratio (Rt/R25)
0.01
0.01 0.1
Current (A)
1 10
10
Thermistor's Temperature (˚C)
1
■ NTPAJ8R0L Type
10
1
0.1
Thermistor's Temperature (˚C)
Resistance Ratio (Rt/R25)
0.01
0.01 0.1
Current (A)
Continued on the following page.
Ta=25˚C
Resistance Ratio
Thermistor's Temperature (˚C)
1 10
1000
100
10
Thermistor's Temperature (˚C)
1
8
37
Current - R Ratio (RT/R25)/Current - Temperature Characteristics (Typical)
Continued from the preceding page.
■ NTPAJ100L Type
■ NTPAD3R9L Type
10
1
0.1
Resistance Ratio (Rt/R25)
0.01
0.01 0.1
■ NTPAD5R1L Type
10
1
0.1
Resistance Ratio (Rt/R25)
Current (A)
Ta=25˚C
Resistance Ratio
Thermistor's Temperature (˚C)
1 10
Ta=25˚C
Resistance Ratio
Thermistor's Temperature (˚C)
1000
100
10
1
1000
100
10
10
1
0.1
Thermistor's Temperature (˚C)
Resistance Ratio (Rt/R25)
0.01
0.01 0.1
Current (A)
Ta=25˚C
Resistance Ratio
Thermistor's Temperature (˚C)
1 10
1000
100
10
Thermistor's Temperature (˚C)
1
■ NTPAD8R0L Type
10
1
0.1
Thermistor's Temperature (˚C)
Resistance Ratio (Rt/R25)
Ta=25˚C
Resistance Ratio
Thermistor's Temperature (˚C)
1000
100
10
Thermistor's Temperature (˚C)
0.01
0.01 0.1
Current (A)
1 10
■ NTPAD160L Type
10
1
0.1
Resistance Ratio (Rt/R25)
0.01
8
0.01 0.1
Current (A)
Ta=25˚C
Resistance Ratio
Thermistor's Temperature (˚C)
1 10
1
1000
100
10
1
0.01
0.01 0.1
Current (A)
1 10
1
■ NTPAA2R2L Type
10
1
0.1
Thermistor's Temperature (˚C)
Resistance Ratio (Rt/R25)
0.01
0.01 0.1
Current (A)
Ta=25˚C
Resistance Ratio
Thermistor's Temperature (˚C)
1 10
1000
100
10
Thermistor's Temperature (˚C)
1
Continued on the following page.
38
Current - R Ratio (RT/R25)/Current - Temperature Characteristics (Typical)
Continued from the preceding page.
■ NTPAA3R9L Type
■ NTPAA5R1L Type
10
1
0.1
Resistance Ratio (Rt/R25)
0.01
0.01 0.1
■ NTPAA8R2L Type
10
1
0.1
Resistance Ratio (Rt/R25)
0.01
0.01 0.1
Current (A)
Current (A)
Ta=25˚C
Resistance Ratio
Thermistor's Temperature (˚C)
1 10
Ta=25˚C
Resistance Ratio
Thermistor's Temperature (˚C)
1 10
1000
100
10
1
1000
100
10
1
10
1
0.1
Thermistor's Temperature (˚C)
Resistance Ratio (Rt/R25)
0.01
0.01 0.1
Current (A)
Ta=25˚C
Resistance Ratio
Thermistor's Temperature (˚C)
1 10
1000
100
10
Thermistor's Temperature (˚C)
1
■ NTPAA100L Type
10
1
0.1
Thermistor's Temperature (˚C)
Resistance Ratio (Rt/R25)
0.01
0.01 0.1 1 10
Current (A)
Resistance Ratio
Thermistor's Temperature
Ta=25°C
1000
100
10
Thermistor's temperature (˚C)
1
■ NTPA9160L Type
10
1
0.1
Resistance Ratio (Rt/R25)
0.01
0.01 0.1 1 10
Current (A)
Resistance Ratio
Thermistor's Temperature
Ta=25°C
1000
100
10
1
■ NTPA74R0L Type
10
1
0.1
Thermistor's temperature (˚C)
Resistance Ratio (Rt/R25)
0.01
0.01 0.1
Current (A)
Continued on the following page.
Ta=25˚C
Resistance Ratio
Thermistor's Temperature (˚C)
1 10
1000
100
10
Thermistor's Temperature (˚C)
1
8
39
Current - R Ratio (RT/R25)/Current - Temperature Characteristics (Typical)
Continued from the preceding page.
■ NTPA78R0L Type
■ NTPA7160L Type
10
1
0.1
Resistance Ratio (Rt/R25)
0.01
0.01 0.1
■ NTPA7220L Type
10
1
0.1
Resistance Ratio (Rt/R25)
Current (A)
Ta=25˚C
Resistance Ratio
Thermistor's Temperature (˚C)
1 10
Ta=25˚C
Resistance Ratio
Thermistor's Temperature (˚C)
1000
100
10
1
1000
100
10
10
1
0.1
Thermistor's Temperature (˚C)
Thermistor's Temperature (˚C)
Resistance Ratio (Rt/R25)
0.01
0.01 0.1
Current (A)
Ta=25˚C
Resistance Ratio
Thermistor's Temperature (˚C)
1 10
1000
100
10
Thermistor's Temperature (˚C)
1
0.01
0.01 0.1
Current (A)
1 10
1
8
40
for Inrush Current Suppression Lead Type !Caution/Notice
■ !Caution (Storage and Operating Conditions)
1. This product is designed for the Switching Power
Supply with smoothing capacitors.
Other applications of this product may result in
fire.
2. Use this product within the specified maximum
current. Otherwise it may catch fire in the worst
case.
3. Use this product with smoothing capacitor within
the specified maximum capacitance value. Otherwise
it may catch fire in the worst case.
4. This product is designed for application in an
ordinary environment
(normal room temperature, humidity and atmospheric
pressure).
Do not use under the following conditions because
all these factors can deteriorate the
product characteristics cause failure and burn-out.
(1) Corrosive gas or deoxidizing gas.
(Chlorine gas, Hydrogen sulfide gas, Ammonia
gas, Sulfuric acid gas, Nitric oxide gas, etc.)
(2) Volatile or flammable gas
(3) Dusty conditions
(4) Under high or low pressure
(5) Wet or humid conditions
(6) Near with salt water, oils, chemical liquids or
organic solvents
(7) Strong vibrations
(8) Other places where similar hazardous conditions
exist.
■ !Caution (Others)
Be sure to provide an appropriate fail-safe function
on your product to prevent secondary damages that may be
caused by the abnormal function or the failure of our
product.
■ Notice (Storage and Operating Conditions)
To keep solderability of product from declining, the
following storage condition is recommended.
1. Storage condition:
Temperature -10 to +40 degrees C
Humidity less than 75%RH (not dewing condition)
2. Storage term:
Use this product within 6 months after delivery by
first-in and first-out stocking system.
■ Notice (Rating)
Use this product within the specified temperature
range.
Higher temperature may cause deterioration of the
characteristics or the material quality of this
product.
3. Handling after unpacking:
After unpacking, reseal product promptly or
store it in a sealed container with a drying agent.
4. Storage place:
Do not store this product in corrosive gas
(Sulfuric acid gas, Chlorine gas, etc.) or in direct
sunlight.
8
■ Notice (Soldering and Mounting)
1. Be sure that the preheat-up does not melt the
soldering of this product. Excessive heat may
cause failure to open, short or insulation break
down.
2. Do not touch the body with soldering iron.
The soldering point should be min. 5mm away from
the root of lead wire.
41
for Inrush Current Suppression Lead Type !Caution/Notice
■ Notice (Handling)
1. When this product is operated, temperature of some
area may be about 160 (degree C).
Use proper surrounding parts and material which
withstand such temperature. If they are inadequate
and kept at high temperature for long time, they
may be deteriorated or may produce harmful gas.
And, such harmful gas may deteriorate the element
of this product.
2. This product does not have waterproof construction.
Splashed water may cause failure mode such as
deterioration of characteristics or current leak.
So, do not apply cleaning to immerse it into water
or any solvent.
■ Notice (Others)
1. This product may allow passing higher current than
its initial value when it receives inrush current
again just after the last one until it cools down
and recovers its original resistance enough.
Be sure the highest current under actual condition
on the operating repetition and the operating
temperature.
2. The resin coating of this product does not
guarantee insulating. Keep an adequate insulating
distance to surrounding parts.
3. The ceramic element of this product is fragile, and
care must be taken not to load an excessive
press-force or not to give a shock at handling.
Such forces may cause cracking or chipping to the
element.
4. Do not apply an excessive force to the lead wire.
Otherwise, it may cause break off junction between
lead wire and element, or may crack element.
So, fix lead wire of element side when lead wire
is bent or cut.
8
42
for Inrush Current Suppression Lead Type Package
■ Minimum Quantity
Part Numbers
NTPA7 1000500
NTPA9 1000300
NTPAA 750300
NTPAD 400150
NTPAJ -100
NTPAN -50
■ Taping Dimensions (NTPAD/NTPAA_D6A0 Series)
Minimum Quantity (pcs.)
Bulk Ammo Pack Taping
2
P
A
P
1
L
0
P
P
D
e
F
ø
D
0
l
∆S
d
1
t2
t
∆h
2
H
2
W
0
H
W1
0
W
2
1
∆h
T
W
CodeItem Dimensions (mm)
Pitch of Component
Pitch of Sprocket Hole
Lead Spacing
Length from Hole Center to Component Center
Length from Hole Center to Lead
Body Diameter
P
P
0
F
P
2
1
P
D
(refer to the table below)
30.0
15.0±0.3
7.5±0.5
7.5±1.5
3.75±1.0
Body Thickness T (refer to the table below)
Deviation Along Tape, Left or Right
Carrier Tape Width
Position of Sprocket Hole
Lead Distance between Reference and Bottom Plane
Height of Component
Protrusion Length
Diameter of Sprocket Hole
Lead Diameter
Total Tape Thickness
Total Thickness, Tape and Lead Wire
Deviation Across Tape
Portion to Cut in Case of Defect
Hold Down Tape Width
Hold Down Tape Position
Coating Extension on Lead
∆S
W
W
1
0
H
H
2
I
D
0
d
t
1
2
t
∆h1, ∆h
L
W
0
W
2
e
2
±2.0
18.0±0.5
9.0±0.5
16.0±0.5
10.0 max.
W0.5 to Y6.0
4.0±0.1
0.8±0.05
0.6±0.3
2.0 max.
2.0 max.
+0
11.0
–2.0
11.5 min.
4.0 max.
to line A
8
Type D (mm) T (mm)
NTPAD
NTPAA
16.0 max. 5.5 max.
12.0 max. 5.0 max.
Continued on the following page.
43
for Inrush Current Suppression Lead Type Package
Continued from the preceding page.
■ Taping Dimensions (NTPA9/NTPA7_B1A0 Series)
∆S
P
2
P
D
e
A
P
F
1
L
P0
d
l
∆h
H0 H2
1
W
W0 W2
øD
0
2
t
2
1
∆h
T
W
t1
Item
Pitch of Component
Pitch of Sprocket Hole
Lead Spacing
Length from Hole Center to Component Center
Length from Hole Center to Lead
Body Diameter
Body Thickness
Deviation Along Tape, Left or Right
Carrier Tape Width
Position of Sprocket Hole
Lead Distance between Reference and Bottom Planes
Height of Component
Protrusion Length
Diameter of Sprocket Hole
Lead Diameter
Total Tape Thickness
Total Thickness, Tape and Lead Wire
Deviation Across Tape
Portion to Cut in Case of Defect
Hold Down Tape Width
Hold Down Tape Position
Coating Extension on Lead
Code
Dimensions (mm)
P
P
0
F
2
P
1
P
D
(refer to the table below)
T 5.0 max.
∆S
W
W
1
H
0
2
H
I
D
0
W0.5 to Y4.0
d
t
1
t2
2
∆h1, ∆h
L
W
0
2
W
e
12.7
12.7±0.3
+0.8
5.0
–0.3
6.35±1.3
3.85±0.8
±1.5
18.0±0.5
+0.5
9.0
–0.75
16.0±1.0
6.0 max.
4.0±0.3
0.6±0.05
0.6±0.3
2.0 max.
1.5 max.
+0
11.0
–2.0
11.0 min.
4.0 max.
to line A
Type D (mm)
NTPA9
NTPA7
11.0 max.
9.0 max.
8
44
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