ND03P00333JCB [KYOCERA AVX]
NTC Disc Thermistor;
| 型号: | ND03P00333JCB |
| 厂家: | 
KYOCERA AVX |
| 描述: | NTC Disc Thermistor |
| 文件: | 总26页 (文件大小:459K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
A KYOCERA GROUP COMPANY
TPC
NTC Thermistors - Preliminary Catalog
NTC SMD Thermistors
With Nickel Barrier Termination NB 12 - NB 20 - NB 21
Chip thermistors are high quality and low cost devices
especially developed for surface mounting applications. They
are widely used for temperature compensation but can also
achieve temperature control of printed circuits.
A nickel barrier metallization provides outstanding qualities of
solderability and enables this chip to meet the requirements
of the most severe soldering processes.
NB 21
Types
NB 12
IEC SIZE : 08-05
NB 20
IEC SIZE : 12-06
IEC SIZE : 06-03
3.2 (.126) ± 0.4 (.016)
1.6 (.063) ± 0.2 (.008)
1
±
1.6 (.063)
± 0.25 (.010)
0.8 (.031)
± 0.2 (.008)
DIMENSIONS:
millimeters (inches)
0.5
...
0.5 (.020)
... 1.5 (.059)
0.
min
0.2 (.008) min
0.2 (.008) min
0.2 (.008) min
0.2 (.008) min
Terminations
Nickel Barrier
Marking
On packaging only
40/125/56
Climatic category
Operating temperature
Tolerance on Rn (25°C)
Maximum dissipation at 25°C
Thermal dissipation factor
Thermal time constant
-55°C to +150°C
±5%, ±10%, ±20%
0.12 W
0.7 W
1 mW/°C
4 s
0.24 W
4 mW/°C
7s
2 mW/°C
5 s
Resistance - Temperature characteristics: pages 32 to 35.
APPLICATIONS
• LCD compensation
• Battery packs
• Mobile phones
• CD players
• Heating systems
• Air-conditioning systems
• Temperature control of Switch Mode Power Supplies
• Compensation of pressure sensors
• Protection of power transistors in various electronic circuits
HOW TO ORDER
NB 20
K 0
0103
M
BA
Type
Material Code
K
(See tables page 13)
Resistance
10,000 Ω
Tolerance
M (±20%)
Suffix: Packaging
– –: Bulk
BA: Super 8 plastic
tape
BE: Super 8 plastic
tape (1/2 reel)
12
TP C
NTC SMD Thermistors
With Nickel Barrier Termination NB 12 – NB 20 – NB 21
TABLE OF VALUES
NB 12
IEC SIZE : 08-05
NB 20
IEC SIZE : 12-06
B (K)
Rn at 25°C
( )
Material
Code
␣ at 25°C
B (K)
Rn at 25°C
( )
Material
Code
␣ at 25°C
Types
Types
(1) ± 5%
(2) ± 3%
(1) ± 5%
(2) ± 3%
(% /°C)
(
⌬B/B
)
(% /°C)
(
⌬B/B
)
NB 12 KC 0 180
NB 12 KC 0 220
NB 12 KC 0 270
NB 12 KC 0 330
NB 12 KC 0 390
NB 12 KC 0 470
NB 12 KC 0 560
NB 12 KC 0 680
NB 12 KC 0 820
NB 12 KC 0 101
18
22
27
33
39
47
56
68
82
NB 20 J 0 0472
NB 20 J 0 0562
4,700
5,600
J
3480 (1)
3480 (2)
3630 (1)
– 3.9
-3.9
NB 20 J 5 0682
NB 20 J 5 0822
6,800
8,200
J5
K
KC
3470 (1)
– 3.9
NB 20 K 0 0103
NB 20 K 0 0123
10,000
12,000
– 4.0
NB 20 L 0 0153
NB 20 L 0 0183
15,000
18,000
L
3790 (2)
3950 (2)
– 4.2
– 4.4
100
NB 20 M 0 0223
NB 20 M 0 0273
NB 20 M 0 0333
NB 20 M 0 0393
22,000
27,000
33,000
39,000
NB 12 MC 0 121
NB 12 MC 0 151
NB 12 MC 0 181
NB 12 MC 0 221
NB 12 MC 0 271
NB 12 MC 0 331
NB 12 MC 0 391
NB 12 MC 0 471
NB 12 MC 0 561
NB 12 MC 0 681
NB 12 MC 0 821
NB 12 MC 0 102
NB 12 MC 0 122
NB 12 MC 0 152
NB 12 MC 0 182
NB 12 MC 0 222
NB 12 MC 0 272
NB 12 MC 0 332
120
150
180
220
270
330
390
470
560
M
NB 20 N 0 0473
NB 20 N 0 0563
NB 20 N 0 0683
NB 20 N 0 0823
47,000
56,000
68,000
82,000
N
N5
P
4080 (2)
4160 (2)
4220 (2)
– 4.6
-4.7
MC
3910 (1)
– 4.4
NB 20 N 5 0104
100,000
680
820
NB 20 P 0 0124
NB 20 P 0 0154
NB 20 P 0 0184
120,000
150,000
180,000
1,000
1,200
1,500
1,800
2,200
2,700
3,300
– 4.7
NB 20 Q 0 0224
NB 20 Q 0 0274
NB 20 Q 0 0334
NB 20 Q 0 0394
NB 20 Q 0 0474
NB 20 Q 0 0564
220,000
270,000
330,000
390,000
470,000
560,000
Q
R
4300 (2)
4400 (2)
– 4.7
– 4.8
NB 12 J 5 0 392
NB 12 J 5 0 472
3,900
4,700
J5
K
L
3480 (1)
3630 (1)
3790 (2)
3950 (2)
4080 (2)
– 3.9
– 4.0
– 4.2
– 4.4
– 4.6
NB 20 R 0 0684
NB 20 R 0 0824
NB 20 R 0 0105
680,000
820,000
1,000,000
NB 12 K 0 0562
NB 12 K 0 0682
NB 12 K 0 0822
NB 12 K 0 0103
5,600
6,800
8,200
10,000
NB 21
IEC SIZE : 06-03
NB 12 L 0 0123
NB 12 L 0 0153
12,000
15,000
B (K)
Rn at 25°C
Material
Code
␣ at 25°C
Types
NB 12 M 0 0183
NB 12 M 0 0223
NB 12 M 0 0273
NB 12 M 0 0333
18,000
22,000
27,000
33,000
(1) ± 5%
(2) ± 3%
( )
(% /°C)
(
⌬B/B
)
M
N
NB 21 PC 0472
NB 21 J 5 0103
NB 21 K 0 0153
NB 21 L 0 0223
NB 21 M 0 0473
NB 21 N 5 0104
NB 21 P 0 0154
4,700
PC
J5
K
4200 (1)
3480 (1)
3630 (2)
3790 (2)
3950 (2)
4160 (2)
4220 (2)
– 4.7
– 3.9
– 4.0
– 4.2
– 4.4
– 4.7
– 4.7
10,000
15,000
22,000
47,000
100,000
150,000
NB 12 N 0 0393
NB 12 N 0 0473
NB 12 N 0 0563
39,000
47,000
56,000
L
NB 12 N 5 0683
NB 12 N 5 0823
68,000
82,000
M
N5
P
N5
P
4160 (2)
4220 (2)
-4.7
NB 12 P 0 0104
NB 12 P 0 0124
NB 12 P 0 0154
NB 12 P 0 0184
100,000
120,000
150,000
180,000
– 4.7
13
TP C
NTC SMD Thermistors
NC 12 – NC 20
Chip thermistors are a high quality and low cost device espe-
cially developed for surface mounting applications. They are
widely used for temperature compensation but can also
achieve temperature control of printed circuits. Its silver -
palladium - platinum metallization provides a high degree of
resistance to dewetting of the terminations during soldering
(typically 260°C / 30 s).
NC 12
IEC SIZE : 08-05
NC 20
IEC SIZE : 12-06
Types
3.2 (.126) ± 0.4 (.016)
1.6 (.063)
± 0.25 (.010)
1
±
DIMENSIONS: millimeters (inches)
0.5 (.020)
... 1.5 (.059)
0.5
...
0.2 (.008) min
0.2 (.008) min
0.
min
Terminations
Silver – palladium – platinum metallization
On packaging only
Marking
Climatic category
40/125/56
Operating temperature
Tolerance on Rn (25°C)
Maximum dissipation at 25°C
Thermal dissipation factor
Thermal time constant
Resistance - Temperature characteristics: pages 32 to 35.
-55°C to +150°C
±5%, ±10%, ±20%
0.12 W
0.24 W
4 mW/°C
7 s
2 mW/°C
5 s
APPLICATIONS
• LCD compensation
• Battery packs
• Mobile phones
• CD players
• Heating systems
• Air-conditioning systems
• Temperature control of Switch Mode Power Supplies
• Compensation of pressure sensors
• Protection of power transistors in various electronic circuits
HOW TO ORDER
NC 20
K 0
0103
M
BA
Type
Material Code
Resistance
10,000 Ω
Tolerance
M (±20%)
Suffix: Packaging
– –: Bulk
K
(See tables pages 11, 32-35)
BA: Super 8 plastic
tape
BE: Super 8 plastic
tape (1/2 reel)
10
TP C
NTC SMD Thermistors
NC 12 – NC 20
TABLE OF VALUES
NC 20
IEC SIZE : 12-06
NC 12
IEC SIZE : 08-05
B (K)
B (K)
Rn at 25°C
( )
10
Material
Code
␣ at 25°C
Rn at 25°C
( )
Material
Code
␣ at 25°C
Types
Types
(1) ± 5%
(1) ± 5%
(2) ± 3%
(% /°C)
(% /°C)
(
⌬B/B
)
(⌬B/B
)
(2) ± 3%
NC 20 KC 0 100
NC 20 KC 0 120
NC 20 KC 0 150
NC 20 KC 0 180
NC 20 KC 0 220
NC 20 KC 0 270
NC 20 KC 0 330
NC 20 KC 0 390
NC 20 KC 0 470
NC 20 KC 0 560
NC 20 KC 0 680
NC 20 KC 0 820
NC 20 KC 0 101
NC 12 KC 0 180
NC 12 KC 0 220
NC 12 KC 0 270
NC 12 KC 0 330
NC 12 KC 0 390
NC 12 KC 0 470
NC 12 KC 0 560
NC 12 KC 0 680
NC 12 KC 0 820
NC 12 KC 0 101
18
22
27
12
15
18
22
27
33
39
47
56
68
82
100
33
39
KC
3470 (1)
– 3.9
KC
3470 (1)
– 3.9
47
56
68
82
100
NC 12 MC 0 121
NC 12 MC 0 151
NC 12 MC 0 181
NC 12 MC 0 221
NC 12 MC 0 271
NC 12 MC 0 331
NC 12 MC 0 391
NC 12 MC 0 471
NC 12 MC 0 561
NC 12 MC 0 681
NC 12 MC 0 821
NC 12 MC 0 102
NC 12 MC 0 122
NC 12 MC 0 152
NC 12 MC 0 182
NC 12 MC 0 222
NC 12 MC 0 272
NC 12 MC 0 332
120
150
180
220
270
330
390
470
NC 20 MC 0 121
NC 20 MC 0 151
NC 20 MC 0 181
NC 20 MC 0 221
NC 20 MC 0 271
NC 20 MC 0 331
NC 20 MC 0 391
NC 20 MC 0 471
NC 20 MC 0 561
NC 20 MC 0 681
NC 20 MC 0 821
NC 20 MC 0 102
NC 20 MC 0 122
NC 20 MC 0 152
120
150
180
220
270
330
390
470
560
680
820
1,000
1,200
1,500
560
MC
3910 (1)
– 4.4
MC
3910 (1)
– 4.4
680
820
1,000
1,200
1,500
1,800
2,200
2,700
3,300
NC 20 I 0 0 182
NC 20 I 0 0 222
NC 20 I 0 0 272
NC 20 I 0 0 332
1,800
2,200
2,700
3,300
NC 12 J 5 0 392
NC 12 J 5 0 472
NC 12 J 5 0 562
3,900
4,700
5,600
I
3250 (1)
3480 (1)
– 3.7
– 3.9
J5
K
3480 (1)
3630 (1)
3790 (2)
3950 (2)
– 3.9
– 4.0
– 4.2
– 4.4
NC 20 J 0 0 392
NC 20 J 0 0 472
NC 20 J 0 0 562
NC 20 J 0 0 682
3,900
4,700
5,600
6,800
NC 12 K 0 0682
NC 12 K 0 0822
NC 12 K 0 0103
NC 12 K 0 0123
6,800
8,200
10,000
12,000
J
NC 20 K 0 0 822
NC 20 K 0 0 103
NC 20 K 0 0 123
NC 20 K 0 0 153
8,200
10,000
12,000
15,000
NC 12 L 0 0153
NC 12 L 0 0183
15,000
18,000
L
K
L
3630 (1)
3790 (2)
3950 (2)
– 4.0
– 4.2
– 4.4
NC 12 M 0 0223
NC 12 M 0 0273
NC 12 M 0 0333
NC 12 M 0 0393
22,000
27,000
33,000
39,000
M
NC 20 L 0 0 183
NC 20 L 0 0 223
18,000
22,000
NC 20 M 0 0 273
NC 20 M 0 0 333
NC 20 M 0 0 393
NC 20 M 0 0 473
27,000
33,000
39,000
47,000
NC 12 N 0 0473
NC 12 N 0 0563
NC 12 N 0 0683
NC 12 N 0 0823
47,000
56,000
68,000
82,000
M
N
4080 (2)
– 4.6
NC 20 N 0 0 563
NC 20 N 0 0 683
NC 20 N 0 0 823
NC 20 N 0 0 104
56,000
68,000
82,000
100,000
NC 12 P 0 0104
NC 12 P 0 0124
NC 12 P 0 0154
NC 12 P 0 0184
100,000
120,000
150,000
180,000
N
P
4080 (2)
4220 (2)
4300 (2)
4400 (2)
– 4.6
– 4.7
– 4.7
– 4.8
P
4220 (2)
4300 (2)
– 4.7
-4.7
NC 20 P 0 0 124
NC 20 P 0 0 154
NC 20 P 0 0 184
NC 20 P 0 0 224
120,000
150,000
180,000
220,000
NC 12 Q 0 0224
220,000
Q
NC 20 Q 0 0 274
NC 20 Q 0 0 334
NC 20 Q 0 0 394
NC 20 Q 0 0 474
270,000
330,000
390,000
470,000
Q
R
NC 20 R 0 0 564
NC 20 R 0 0 684
NC 20 R 0 0 824
560,000
680,000
820,000
NC 20 R 0 0 105 1,000,000
11
TP C
NTC Disc Thermistors
ND 03/06/09 • NV 06/09
APPLICATIONS
• Commodity Product: 2 ranges
ND : general purpose
NV : professional
• Alarm and temperature measurement application
• Temperature regulation application
• Level detection application
• Compensation application
TECHNOLOGY
• Coated disc phenolic resin
• Leads: Radial copper wire tinned
• Marking: on package only for ND03
ND06/09: Nominal resistance and
tolerance for ±±5% ±ꢀ05
NV06/09: Nominal resistance and
tolerance
• Delivery Mode: Bulk% reeled or ammopacked
Leaded Discs
N.03
N.06
N.09
PERFORMANCE CHARACTERISTICS
General purpose
Professional
Types
ND03
ND06
ND09
NV06
NV09
Climatic category
±±/ꢀ2±/±6-434
–±± to +ꢀ±0°C
±±/ꢀ2±/±6-434
–±± to +ꢀ±0°C
±25% ±±5% ±ꢀ05
Operating Temperature
–±± to +ꢀ±0°C
–±± to +ꢀ±0°C
–±± to +ꢀ±0°C
Tolerance on Rn
(2±°C)
220Ω to ꢀMΩ : ±
±% ꢀ0% 205
ꢀ±00Ω to ꢀ±0 kΩ : ±
35
±±5% ±ꢀ05% ±205
±±5% ±ꢀ05% ±205
±25% ±±5% ±ꢀ05
Maximum dissipation
at 2±°C
0.2± W
0.7ꢀ W
0.9 W
0.69 W
0.8± W
Thermal dissipation
factor
± mW/°C
ꢀ0 s
7.ꢀ mW/°C
22 s
9 mW/°C
30 s
6.9 mW/°C
ꢀ8 s
8.± mW/°C
30 s
Thermal time constant
Response time
< 3s
STANDARDIZATION
OPTIONS
NV range : approved by NFC 9327ꢀ
Consult factory for availability of options:
• other nominal resistance values
• other tolerances
Type: TNꢀꢀ± A for NV06
TNꢀꢀ6 for NV09
List: GAM-Tꢀ
List: LNZ
• epoxy coating
• alternative lead materials or lengths
• controlled dimensions
1
TPC
NTC Disc Thermistors
ND 03/06/09 • NV 06/09
TABLE OF VALUES
ND03
ND03
3.5 (.138) max
3 (.118) max
+10%
-0.05
ø 0.5 (.020)
2.54 (0.1)
B (K)
Part Number
ND03I0033ꢀ
Rn at 25°C (Ω)
Material Code
ꢀ at 25°C (%/°C)
(1) 5%
∆B/B
(
(2) 3%
)
330
470
I
32±0 (ꢀ)
3480 (ꢀ)
– 3.7
– 3.9
ND03I0047ꢀ
ND03J0068ꢀ
ND03J00ꢀ02
680
ꢀ%000
J
ND03K00ꢀ±2
ND03K00222
ꢀ%±00
2%200
K
L
3630 (2)
3790 (2)
39±0 (2)
– 4.0
– 4.2
– 4.4
ND03L00332
3%300
ND03M00472
ND03M00682
4%700
6%800
M
ND03N00ꢀ03
ND03N00ꢀ±3
ꢀ0%000
ꢀ±%000
N
P
4080 (2)
4220 (2)
4300 (2)
– 4.6
– 4.7
– 4.7
ND03P00223
ND03P00333
22%000
33%000
ND03Q00473
ND03Q00683
47%000
68%000
Q
ND03R00ꢀ04
ND03R00ꢀ±4
ꢀ00%000
ꢀ±0%000
R
S
T
4400 (2)
4±20 (2)
4630 (2)
4840 (2)
– 4.8
– ±.0
– ±.ꢀ
– ±.3
ND03S00224
220%000
ND03T00334
ND03T00474
330%000
470%000
ND03U00ꢀ0±
ꢀ%000%000
U
2
TPC
NTC Disc Thermistors
ND 03/06/09 • NV 06/09
TABLE OF VALUES
ND06/NV06
ND06
NV06
4 (.157) max
6 (.236) max
6 (.236) max
3.5 (.138) max
+10%
-0.05
+10%
-0.05
ø 0.6 (.024)
ø 0.6 (.024)
5.08 (0.2)᭡
5.08 (0.2) ᭡
B (K)
Part Number
Rn at 25°C (Ω)
Material Code
ꢀ at 25°C (%/°C)
5%
∆B/B (1)
(
)
(2) 3%
ND06I00ꢀ0ꢀ
ND06I00ꢀ2ꢀ
ꢀ00
ꢀ20
I
32±0 (ꢀ)
– 3.7
– 3.9
– 4.0
ND06J00ꢀ±ꢀ
ND06J0022ꢀ
ꢀ±0
220
J
K
3480 (ꢀ)
3630 (2)
ND06K0033ꢀ
ND06K0047ꢀ
330
470
ND06L0068ꢀ
ND06L00ꢀ02
680
ꢀ%000
L
M
N
3790 (2)
39±0 (2)
4080 (2)
– 4.2
– 4.4
– 4.6
ND06M00ꢀ±2
ꢀ%±00
ND06N00222
ND06N00332
2%200
3%300
ND06P00472
ND06P00682
ND06P00ꢀ03
4%700
6%800
ꢀ0%000
P
4220 (2)
– 4.7
ND06Q00ꢀ±3
ND06Q00223
ꢀ±%000
22%000
Q
R
S
T
4300 (2)
4400 (2)
4±20 (2)
4630 (2)
– 4.7
– 4.8
– ±.0
– ±.ꢀ
ND06R00333
33%000
ND06S00473
ND06S00683
47%000
68%000
ND06T00ꢀ04
ꢀ00%000
ND06U00ꢀ±4
ND06U00224
ND06U00334
ꢀ±0%000
220%000
330%000
U
4840 (2)
– ±.3
NV06I00ꢀ0ꢀ
ꢀ00
I
32±0 (ꢀ)
3480 (ꢀ)
– 3.7
– 3.9
NV06J00ꢀ±ꢀ
NV06J0022ꢀ
ꢀ±0
220
J
NV06K0033ꢀ
NV06K0047ꢀ
330
470
K
3630 (2)
– 4.0
NV06L0068ꢀ
NV06L00ꢀ02
680
ꢀ%000
L
M
N
3790 (2)
39±0 (2)
4080 (2)
– 4.2
– 4.4
– 4.6
NV06M00ꢀ±2
ꢀ%±00
NV06N00222
NV06N00332
2%200
3%300
NV06P00472
NV06P00682
NV06P00ꢀ03
4%700
6%800
ꢀ0%000
P
4220 (2)
– 4.7
NV06Q00ꢀ±3
NV06Q00223
ꢀ±%000
22%000
Q
R
S
T
4300 (2)
4400 (2)
4±20 (2)
4630 (2)
– 4.7
– 4.8
– ±.0
– ±.ꢀ
NV06R00333
33%000
NV06S00473
NV06S00683
47%000
68%000
NV06T00ꢀ04
ꢀ00%000
NV06U00ꢀ±4
NV06U00224
NV06U00334
ꢀ±0%000
220%000
330%000
U
4840 (2)
– ±.3
3
TPC
NTC Disc Thermistors
ND 03/06/09 • NV 06/09
TABLE OF VALUES
ND09/NV09
ND09
NV09
9.5 (.375) max
9.5 (.374) max
5 (.197) max
3.5 (.138) max
+10%
-0.05
+10%
-0.05
ø 0.6 (.024)
ø 0.6 (.024)
5.08 (.02)
5.08 (.02)
B (K)
Part Number
Rn at 25°C ( )
Material Code
ꢀ at 25°C (%/°C)
5%
∆B/B (1)
(
)
(2) 3%
ND09J00680
ND09J00ꢀ0ꢀ
68
ꢀ00
J
3480 (ꢀ)
– 3.9
ND09K00ꢀ±ꢀ
ND09K0022ꢀ
ꢀ±0
220
K
L
3630 (2)
3790 (2)
39±0 (2)
– 4.0
– 4.2
– 4.4
ND09L0033ꢀ
330
ND09M0047ꢀ
ND09M0068ꢀ
470
680
M
ND09N00ꢀ02
ND09N00ꢀ±2
ꢀ%000
ꢀ%±00
N
P
4080 (2)
4220 (2)
– 4.6
– 4.7
ND09P00222
ND09P00332
2%200
3%300
ND09Q00472
ND09Q00682
4%700
6%800
Q
4300 (2)
– 4.7
ND09R00ꢀ03
ND09R00ꢀ±3
ꢀ0%000
ꢀ±%000
R
S
T
4400 (2)
4±20 (2)
4630 (2)
– 4.8
– ±.0
– ±.ꢀ
ND09S00223
22%000
ND09T00333
ND09T00473
33%000
47%000
ND09U00683
ND09U00ꢀ04
ND09U00ꢀ±4
68%000
ꢀ00%000
ꢀ±0%000
U
J
4840 (2)
3480 (ꢀ)
– ±.3
– 3.9
NV09J00680
NV09J00ꢀ0ꢀ
68
ꢀ00
NV09K00ꢀ±ꢀ
NV09K0022ꢀ
ꢀ±0
220
K
L
3630 (2)
3790 (2)
39±0 (2)
– 4.0
– 4.2
– 4.4
NV09L0033ꢀ
330
NV09M0047ꢀ
NV09M0068ꢀ
470
680
M
NV09N00ꢀ02
NV09N00ꢀ±2
ꢀ%000
ꢀ%±00
N
P
4080 (2)
4220 (2)
– 4.6
– 4.7
NV09P00222
NV09P00332
2%200
3%300
NV09Q00472
NV09Q00682
4%700
6%800
Q
4300 (2)
– 4.7
NV09R00ꢀ03
NV09R00ꢀ±3
ꢀ0%000
ꢀ±%000
R
S
T
4400 (2)
4±20 (2)
4630 (2)
– 4.8
– ±.0
– ±.ꢀ
NV09S00223
22%000
NV09T00333
NV09T00473
33%000
47%000
NV09U00683
NV09U00ꢀ04
NV09U00ꢀ±4
68%000
ꢀ00%000
ꢀ±0%000
U
4840 (2)
– ±.3
4
TPC
NTC Disc Thermistors
ND 03/06/09 • NV 06/09
TABLE OF RESISTANCE: TEMPERATURE CHARACTERISTICS
Material code B (K)
T
(°C)
I 3250
TF (%)
J 3480
TF (%)
K 3630
TF (%)
T
(°C)
R (T) / R25
α (%/°C)
R (T) / R25
α (%/°C)
R (T) / R25
α (%/°C)
- ±±
- ±0
- 4±
- 40
42.3±
3ꢀ.48
23.63
ꢀ7.9ꢀ
2ꢀ.9
20.0
ꢀ8.ꢀ
ꢀ6.3
±.98
±.78
±.±9
±.4ꢀ
±ꢀ.74
37.97
28.ꢀ±
2ꢀ.07
34.ꢀ
29.±
2±.3
2ꢀ.7
6.43
6.2ꢀ
6.0ꢀ
±.8ꢀ
±6.26
4ꢀ.2ꢀ
30.47
22.73
3±.6
30.8
26.4
22.6
6.46
6.26
6.06
±.88
- ±±
- ±0
- 4±
- 40
- 3±
- 30
- 2±
- 20
ꢀ3.70
ꢀ0.±8
8.232
6.460
ꢀ4.6
ꢀ3.ꢀ
ꢀꢀ.6
ꢀ0.ꢀ
±.23
±.06
4.90
4.74
ꢀ±.9ꢀ
ꢀ2.ꢀ3
9.320
7.22ꢀ
ꢀ8.4
ꢀ±.±
ꢀ2.9
ꢀ0.7
±.62
±.44
±.26
±.ꢀ0
ꢀ7.ꢀꢀ
ꢀ2.98
9.930
7.6±4
ꢀ9.2
ꢀ6.2
ꢀ3.±
ꢀꢀ.2
±.70
±.±3
±.36
±.2ꢀ
- 3±
- 30
- 2±
- 20
- ꢀ±
- ꢀ0
- ±
0
±.ꢀꢀ0
4.072
3.268
2.64ꢀ
8.8
7.±
6.3
±.ꢀ
4.±9
4.4±
4.3ꢀ
4.ꢀ8
±.640
4.438
3.±ꢀ7
2.807
8.7
7.0
±.4
4.ꢀ
4.94
4.78
4.64
4.±0
±.94±
4.6±0
3.663
2.90±
9.ꢀ
7.3
±.7
4.3
±.0±
4.9ꢀ
4.76
4.63
- ꢀ±
- ꢀ0
- ±
0
±
ꢀ0
ꢀ±
20
2.ꢀ48
ꢀ.7±9
ꢀ.449
ꢀ.200
4.0
2.9
ꢀ.9
0.9
4.0±
3.92
3.8ꢀ
3.69
2.2±±
ꢀ.824
ꢀ.484
ꢀ.2ꢀ±
3.0
2.0
ꢀ.2
.±
4.36
4.23
4.ꢀ0
3.98
2.3ꢀ9
ꢀ.862
ꢀ.±0±
ꢀ.223
3.ꢀ
2.ꢀ
ꢀ.3
.6
4.±0
4.37
4.2±
4.ꢀ3
±
ꢀ0
ꢀ±
20
2±
30
3±
40
ꢀ.000
0.0
0.9
ꢀ.8
2.6
3.±8
3.48
3.38
3.28
ꢀ.0000
.8278
.6889
.±763
0.0
3.87
3.76
3.6±
3.±±
ꢀ.0000
.82ꢀ9
.6792
.±64ꢀ
0.0
4.0ꢀ
3.90
3.80
3.69
2±
30
3±
40
0.8377
0.70±4
0.±969
.±
.6
ꢀ.ꢀ
ꢀ.8
ꢀ.2
ꢀ.9
4±
±0
±±
60
0.±076
0.4336
0.3720
0.3206
3.±
4.3
±.ꢀ
±.9
3.ꢀ9
3.ꢀ0
3.0ꢀ
2.93
.484±
.4092
.3473
.2960
2.±
3.3
4.ꢀ
±.0
3.4±
3.3±
3.26
3.ꢀ7
.4708
.3949
.3327
.28ꢀ6
2.6
3.4
4.3
±.2
3.±9
3.±0
3.4ꢀ
3.32
4±
±0
±±
60
6±
70
7±
80
0.2774
0.24ꢀ0
0.2ꢀ02
0.ꢀ839
6.6
7.4
8.ꢀ
8.8
2.8±
2.77
2.70
2.63
.2±34
.2ꢀ78
.ꢀ879
.ꢀ628
±.9
6.8
7.8
8.8
3.09
3.0ꢀ
2.93
2.8±
.2393
.2043
.ꢀ7±ꢀ
.ꢀ±07
6.ꢀ
7.ꢀ
8.ꢀ
9.ꢀ
3.23
3.ꢀ4
3.06
2.99
6±
70
7±
80
8±
0.ꢀ6ꢀ6
0.ꢀ424
0.ꢀ2±9
0.ꢀꢀꢀ7
9.±
ꢀ0.2
ꢀ0.9
ꢀꢀ.±
2.±6
2.49
2.43
2.36
.ꢀ4ꢀ±
.ꢀ23±
.ꢀ08ꢀ
.09±00
9.8
ꢀ0.8
ꢀꢀ.8
ꢀ2.9
2.78
2.70
2.64
2.±7
.ꢀ30ꢀ
ꢀ0.2
ꢀꢀ.3
ꢀ2.4
ꢀ3.±
2.9ꢀ
2.84
2.77
2.70
8±
90
.ꢀꢀ28
90
9±
ꢀ00
.098ꢀ2
.08±6±
9±
ꢀ00
ꢀ0±
ꢀꢀ0
ꢀꢀ±
ꢀ20
0.09938
0.08869
0.07938
0.07ꢀ24
ꢀ2.2
ꢀ2.8
ꢀ3.4
ꢀ4.0
2.30
2.2±
2.ꢀ9
2.ꢀ4
.08373
.07403
.06±6±
.0±838
ꢀ4.0
ꢀ±.0
ꢀ6.ꢀ
ꢀ7.2
2.±0
2.44
2.38
2.33
.07±02
.06±92
.0±8ꢀ0
.0±ꢀ37
ꢀ4.6
ꢀ±.7
ꢀ6.8
ꢀ8.0
2.63
2.±7
2.±0
2.44
ꢀ0±
ꢀꢀ0
ꢀꢀ±
ꢀ20
ꢀ2±
ꢀ30
ꢀ3±
ꢀ40
0.064ꢀ0
0.0±783
0.0±230
0.0474ꢀ
ꢀ4.6
ꢀ±.2
ꢀ±.7
ꢀ6.3
2.08
2.03
ꢀ.98
ꢀ.94
.0±207
.04±67
.04ꢀ7±
.037±3
ꢀ8.3
ꢀ9.4
20.±
2ꢀ.6
2.27
2.22
2.ꢀ6
2.ꢀꢀ
.04±±±
.040±0
.036ꢀꢀ
.03229
ꢀ9.ꢀ
20.3
2ꢀ.4
22.±
2.39
2.33
2.27
2.22
ꢀ2±
ꢀ30
ꢀ3±
ꢀ40
ꢀ4±
ꢀ±0
0.04308
0.03924
ꢀ6.8
ꢀ7.4
ꢀ.89
ꢀ.8±
.03382
.030±±
22.7
23.8
2.06
2.02
.02894
.02600
23.7
24.9
2.ꢀ7
2.ꢀ2
ꢀ4±
ꢀ±0
Material code B (K)
M 3950
T
(°C)
L 3790
TF (%)
N 4080
TF (%)
T
(°C)
R (T) / R25
α (%/°C)
R (T) / R25
TF (%)
α (%/°C)
R (T) / R25
α (%/°C)
- ±±
- ±0
- 4±
- 40
82.±2
±8.0ꢀ
4ꢀ.30
29.7±
22.3
ꢀ9.3
ꢀ6.6
ꢀ4.2
7.38
7.ꢀꢀ
6.84
6.60
99.±6
68.9±
48.38
34.37
23.2
20.ꢀ
ꢀ7.3
ꢀ4.8
7.7ꢀ
7.42
7.ꢀ±
6.89
ꢀꢀ0.ꢀ
7±.90
±2.98
37.43
24.0
20.7
ꢀ7.8
ꢀ±.2
7.8ꢀ
7.±3
7.26
7.0ꢀ
- ±±
- ±0
- 4±
- 40
- 3±
- 30
- 2±
- 20
2ꢀ.67
ꢀ±.96
ꢀꢀ.88
8.930
ꢀ2.0
ꢀ0.ꢀ
8.±
6.36
6.ꢀ3
±.92
±.72
24.7ꢀ
ꢀ7.96
ꢀ3.20
9.803
ꢀ2.±
ꢀ0.6
8.8
6.64
6.4ꢀ
6.ꢀ8
±.97
26.7±
ꢀ9.33
ꢀ4.ꢀ2
ꢀ0.4ꢀ
ꢀ2.9
ꢀ0.9
9.ꢀ
6.77
6.±4
6.32
6.ꢀ0
- 3±
- 30
- 2±
- 20
7.0
7.3
7.±
- ꢀ±
- ꢀ0
- ±
0
6.776
±.ꢀ88
4.007
3.ꢀ20
±.7
4.±
3.6
2.7
±.32
±.34
±.ꢀ6
4.99
7.3±ꢀ
±.±8±
4.2±ꢀ
3.27±
±.9
4.7
3.7
2.8
±.77
±.±7
±.39
±.2ꢀ
7.7±8
±.834
4.426
3.387
6.ꢀ
4.9
3.8
2.9
±.90
±.7ꢀ
±.±3
±.3±
- ꢀ±
- ꢀ0
- ±
0
±
ꢀ0
ꢀ±
20
2.449
ꢀ.937
ꢀ.±43
ꢀ.238
2.0
ꢀ.3
.8
4.83
4.68
4.±3
4.39
2.±44
ꢀ.992
ꢀ.±72
ꢀ.249
2.0
ꢀ.4
.8
±.04
4.88
4.73
4.±8
2.6ꢀ4
2.033
ꢀ.±93
ꢀ.2±8
2.ꢀ
ꢀ.4
.9
±.ꢀ8
±.02
4.87
4.72
±
ꢀ0
ꢀ±
20
.4
.4
.4
2±
30
3±
40
ꢀ.0000
.8ꢀ29
.6648
.±409
0.0
4.2±
4.ꢀ2
4.00
3.88
ꢀ.0000
.80±7
.6±34
.±33ꢀ
0.0
4.44
4.30
4.ꢀ7
4.0±
ꢀ.0000
.8004
.6448
.±228
0.0
4.±7
4.44
4.3ꢀ
4.ꢀ8
2±
30
3±
40
.3
.4
.4
.7
ꢀ.2
.8
ꢀ.2
.8
ꢀ.3
4±
±0
±±
60
.4±2±
.376±
.3ꢀ48
.2646
ꢀ.6
2.2
2.7
3.3
3.77
3.66
3.±±
3.4±
.4376
.36ꢀ2
.2998
.2±0ꢀ
ꢀ.7
2.2
2.8
3.4
3.93
3.8ꢀ
3.7ꢀ
3.60
.4264
.3497
.288±
.2392
ꢀ.8
2.3
2.9
3.±
4.06
3.94
3.83
3.72
4±
±0
±±
60
6±
70
7±
80
.223±
.ꢀ896
.ꢀ6ꢀ6
.ꢀ383
3.8
4.±
±.ꢀ
±.7
3.36
3.26
3.ꢀ7
3.09
.2097
.ꢀ767
.ꢀ496
.ꢀ272
4.0
4.6
±.3
6.0
3.±0
3.40
3.3ꢀ
3.22
.ꢀ994
.ꢀ67ꢀ
.ꢀ406
.ꢀꢀ89
4.ꢀ
4.8
±.±
6.2
3.62
3.±2
3.42
3.33
6±
70
7±
80
8±
.ꢀꢀ89
6.4
7.ꢀ
7.7
8.4
3.00
2.92
2.8±
2.77
.ꢀ087
6.7
7.4
8.ꢀ
8.8
3.ꢀ3
3.0±
2.97
2.89
.ꢀ0ꢀ0
6.9
7.6
8.3
9.ꢀ
3.24
3.ꢀ6
3.07
2.99
8±
90
.ꢀ026
.0932ꢀ
.08027
.06939
.086ꢀ7
.0738ꢀ
.06347
90
9±
ꢀ00
.08889
.07729
9±
ꢀ00
ꢀ0±
ꢀꢀ0
ꢀꢀ±
ꢀ20
.0674±
.0±906
.0±ꢀ89
.04±73
9.ꢀ
2.70
2.63
2.±7
2.±0
.06020
.0±243
.04±8ꢀ
.040ꢀ7
9.±
ꢀ0.2
ꢀꢀ.0
ꢀꢀ.7
2.82
2.7±
2.68
2.6ꢀ
.0±480
.04ꢀ48
.04ꢀ29
.03603
9.8
ꢀ0.6
ꢀꢀ.3
ꢀ2.ꢀ
2.92
2.84
2.77
2.70
ꢀ0±
ꢀꢀ0
ꢀꢀ±
ꢀ20
9.8
ꢀ0.±
ꢀꢀ.3
ꢀ2±
ꢀ30
ꢀ3±
ꢀ40
.04043
.03±8±
.03ꢀ88
.02843
ꢀ2.0
ꢀ2.7
ꢀ3.4
ꢀ4.ꢀ
2.44
2.38
2.33
2.27
.03±33
.03ꢀꢀ7
.027±9
.02449
ꢀ2.±
ꢀ3.2
ꢀ4.0
ꢀ4.7
2.±±
2.48
2.42
2.37
.03ꢀ±±
.0277ꢀ
.02442
.02ꢀ±8
ꢀ2.9
ꢀ3.7
ꢀ4.4
ꢀ±.2
2.64
2.±7
2.±ꢀ
2.4±
ꢀ2±
ꢀ30
ꢀ3±
ꢀ40
ꢀ4±
ꢀ±0
.02±43
.02279
ꢀ4.8
ꢀ±.6
2.22
2.ꢀ7
.02ꢀ80
.0ꢀ94±
ꢀ±.±
ꢀ6.2
2.3ꢀ
2.26
.0ꢀ9ꢀ3
.0ꢀ700
ꢀ6.0
ꢀ6.8
2.39
2.34
ꢀ4±
ꢀ±0
5
TPC
NTC Disc Thermistors
ND 03/06/09 • NV 06/09
TABLE OF RESISTANCE: TEMPERATURE CHARACTERISTICS
Material code B (K)
T
(°C)
P 4220
TF (%)
Q 4300
TF (%)
R 4400
TF (%)
T
(°C)
R (T) / R25
α (%/°C)
R (T) / R25
α (%/°C)
R (T) / R25
α (%/°C)
- ±±
- ±0
- 4±
- 40
ꢀ2ꢀ.3
83.32
±7.9ꢀ
40.7ꢀ
24.8
2ꢀ.4
ꢀ8.4
ꢀ±.8
7.88
7.6ꢀ
7.36
7.ꢀꢀ
98.02
69.±ꢀ
49.72
3±.86
2±.±
22.0
ꢀ8.9
ꢀ6.2
7.ꢀ4
6.9±
6.77
6.±9
ꢀꢀ3.9
79.69
±6.29
40.ꢀ2
2±.9
22.4
ꢀ9.2
ꢀ6.4
7.42
7.22
7.03
6.84
- ±±
- ±0
- 4±
- 40
- 3±
- 30
- 2±
- 20
28.9±
20.80
ꢀ±.ꢀ0
ꢀꢀ.07
ꢀ3.4
ꢀꢀ.3
9.4
6.88
6.66
6.44
6.24
26.08
ꢀ9.ꢀ2
ꢀ4.ꢀ2
ꢀ0.±ꢀ
ꢀ3.7
ꢀꢀ.6
9.7
6.42
6.26
6.ꢀ0
±.94
28.8±
20.92
ꢀ±.29
ꢀꢀ.27
ꢀ4.0
ꢀꢀ.8
9.8
6.66
6.48
6.3ꢀ
6.ꢀ4
- 3±
- 30
- 2±
- 20
7.8
8.0
8.ꢀ
- ꢀ±
- ꢀ0
- ±
0
8.ꢀ96
6.ꢀ23
4.6ꢀ±
3.±07
6.3
±.ꢀ
4.0
3.0
6.04
±.8±
±.67
±.49
7.876
±.946
4.±20
3.460
6.±
±.2
4.ꢀ
3.ꢀ
±.79
±.64
±.±0
±.36
8.367
6.260
4.7ꢀ9
3.±83
6.6
±.3
4.ꢀ
3.ꢀ
±.98
±.83
±.67
±.±3
- ꢀ±
- ꢀ0
- ±
0
±
ꢀ0
ꢀ±
20
2.688
2.078
ꢀ.6ꢀ6
ꢀ.267
2.2
ꢀ.±
.9
±.33
±.ꢀ6
±.0ꢀ
4.86
2.666
2.067
ꢀ.6ꢀ3
ꢀ.266
2.2
ꢀ.±
.9
±.23
±.09
4.96
4.84
2.739
2.ꢀ08
ꢀ.634
ꢀ.274
2.3
ꢀ.±
.9
±.38
±.24
±.ꢀꢀ
4.97
±
ꢀ0
ꢀ±
20
.4
.4
.4
2±
30
3±
40
ꢀ.0000
.7949
.6360
.±ꢀ20
0.0
4.72
4.±8
4.4±
4.32
ꢀ.0000
.7944
.6347
.±099
0.0
4.72
4.60
4.48
4.37
ꢀ.0000
.7897
.6273
.±0ꢀ2
0.0
4.84
4.72
4.60
4.48
2±
30
3±
40
.4
.4
.4
.8
ꢀ.3
.8
ꢀ.3
.9
ꢀ.4
4±
±0
±±
60
.4ꢀ48
.3380
.2769
.2282
ꢀ.8
2.4
3.0
3.6
4.20
4.06
3.96
3.86
.4ꢀꢀ9
.334±
.2730
.2239
ꢀ.9
2.±
3.ꢀ
3.7
4.26
4.ꢀ±
4.0±
3.9±
.4026
.32±±
.2644
.2ꢀ±9
ꢀ.9
2.±
3.ꢀ
3.8
4.36
4.2±
4.ꢀ4
4.04
4±
±0
±±
60
6±
70
7±
80
.ꢀ890
.ꢀ±73
.ꢀ3ꢀ6
.ꢀꢀ06
4.3
±.0
±.7
6.4
3.7±
3.6±
3.±±
3.4±
.ꢀ846
.ꢀ±29
.ꢀ272
.ꢀ063
4.4
±.ꢀ
±.8
6.±
3.8±
3.7±
3.66
3.±7
.ꢀ772
.ꢀ462
.ꢀ2ꢀ2
.ꢀ009
4.±
±.2
±.9
6.7
3.03
3.83
3.74
3.64
6±
70
7±
80
8±
.09338
.079ꢀ9
.06744
.0±767
7.ꢀ
7.9
8.6
9.4
3.36
3.28
3.ꢀ9
3.ꢀꢀ
.08928
.07±27
.06373
.0±4ꢀ7
7.3
8.ꢀ
8.8
9.6
3.48
3.39
3.3ꢀ
3.23
.0844ꢀ
.07093
.0±98±
.0±072
7.4
8.2
9.0
9.8
3.±±
3.46
3.38
3.29
8±
90
90
9±
ꢀ00
9±
ꢀ00
ꢀ0±
ꢀꢀ0
ꢀꢀ±
ꢀ20
.049±ꢀ
.04267
.0369ꢀ
.03204
ꢀ0.2
ꢀ0.9
ꢀꢀ.7
ꢀ2.±
3.03
2.9±
2.88
2.8ꢀ
.04623
.0396ꢀ
.0340±
.02939
ꢀ0.4
ꢀꢀ.2
ꢀ2.0
ꢀ2.9
3.ꢀ±
3.07
3.00
2.93
.043ꢀ±
.03686
.03ꢀ60
.02720
ꢀ0.6
ꢀꢀ.4
ꢀ2.2
ꢀ3.ꢀ
3.2ꢀ
3.ꢀ3
3.06
2.98
ꢀ0±
ꢀꢀ0
ꢀꢀ±
ꢀ20
ꢀ2±
ꢀ30
ꢀ3±
ꢀ40
.0279ꢀ
.02440
.02ꢀ39
.0ꢀ882
ꢀ3.3
ꢀ4.ꢀ
ꢀ4.9
ꢀ±.7
2.74
2.67
2.6ꢀ
2.±±
.02±4±
.022ꢀꢀ
.0ꢀ928
.0ꢀ686
ꢀ3.7
ꢀ4.±
ꢀ±.3
ꢀ6.ꢀ
2.86
2.79
2.72
2.66
.02349
.02036
.0ꢀ77ꢀ
.0ꢀ±4±
ꢀ3.9
ꢀ4.7
ꢀ±.6
ꢀ6.4
2.9ꢀ
2.84
2.77
2.7ꢀ
ꢀ2±
ꢀ30
ꢀ3±
ꢀ40
ꢀ4±
ꢀ±0
.0ꢀ660
.0ꢀ469
ꢀ6.±
ꢀ7.3
2.49
2.43
.0ꢀ479
.0ꢀ302
ꢀ7.0
ꢀ7.8
2.60
2.±4
.0ꢀ3±3
.0ꢀꢀ88
ꢀ7.2
ꢀ8.ꢀ
2.64
2.±8
ꢀ4±
ꢀ±0
Material code B (K)
T 4630
T
(°C)
S 4520
TF (%)
U 4840
TF (%)
T
(°C)
R (T) / R25
α (%/°C)
R (T) / R25
TF (%)
α (%/°C)
R (T) / R25
α (%/°C)
- ±±
- ±0
- 4±
- 40
ꢀ26.ꢀ
87.73
6ꢀ.±9
43.62
26.6
23.0
ꢀ9.8
ꢀ6.9
7.±±
7.3±
7.ꢀ6
6.97
ꢀ37.0
94.92
66.34
46.77
27.2
23.±
20.2
ꢀ7.3
7.64
7.4±
7.26
7.09
ꢀ73.7
ꢀꢀ8.2
8ꢀ.ꢀ6
±6.2±
28.±
24.6
2ꢀ.2
ꢀ8.ꢀ
8.04
7.83
7.63
7.44
- ±±
- ±0
- 4±
- 40
- 3±
- 30
- 2±
- 20
3ꢀ.ꢀ7
22.4±
ꢀ6.3ꢀ
ꢀꢀ.94
ꢀ4.3
ꢀ2.ꢀ
ꢀ0.ꢀ
8.3
6.79
6.62
6.4±
6.28
33.2±
23.83
ꢀ7.22
ꢀ2.±4
ꢀ4.7
ꢀ2.4
ꢀ0.3
8.±
6.90
6.72
6.±6
6.39
39.33
27.74
ꢀ9.73
ꢀ4.ꢀ±
ꢀ±.4
ꢀ2.9
ꢀ0.8
8.9
7.2±
7.07
6.89
6.7ꢀ
- 3±
- 30
- 2±
- 20
- ꢀ±
- ꢀ0
- ±
0
8.808
6.±48
4.904
3.699
6.8
±.4
4.2
3.2
6.ꢀ2
±.96
±.8ꢀ
±.66
9.20±
6.806
±.069
3.803
6.9
±.6
4.3
3.3
6.23
6.08
±.92
±.78
ꢀ0.23
7.4±6
±.47±
4.0±ꢀ
7.3
±.8
4.±
3.4
6.±4
6.38
6.22
6.06
- ꢀ±
- ꢀ0
- ±
0
±
ꢀ0
ꢀ±
20
2.8ꢀ0
2.ꢀ49
ꢀ.6±4
ꢀ.282
2.3
ꢀ.6
ꢀ.0
.4
±.±2
±.38
±.24
±.ꢀ0
2.873
2.ꢀ8±
ꢀ.673
ꢀ.289
2.4
ꢀ.6
ꢀ.0
.4
±.63
±.49
±.3±
±.22
3.0ꢀ9
2.267
ꢀ.7ꢀ4
ꢀ.30±
2.±
ꢀ.7
ꢀ.0
.±
±.9ꢀ
±.76
±.6ꢀ
±.47
±
ꢀ0
ꢀ±
20
2±
30
3±
40
ꢀ.0000
.7848
.6ꢀ96
.4922
0.0
4.97
4.8±
4.72
4.60
ꢀ.0000
.780±
.6ꢀ29
.4842
0.0
±.09
4.96
4.83
4.7ꢀ
ꢀ.0000
.77ꢀ±
.±99ꢀ
.468ꢀ
0.0
±.33
±.20
±.06
4.94
2±
30
3±
40
.4
.4
.4
.9
ꢀ.4
.9
ꢀ.4
.9
ꢀ.±
4±
±0
±±
60
.3932
.3ꢀ±8
.2±±ꢀ
.2072
2.0
2.6
3.2
3.9
4.48
4.37
4.26
4.ꢀ±
.3847
.3074
.2470
.ꢀ996
2.0
2.6
3.3
4.0
4.±9
4.48
4.37
4.26
.368ꢀ
.29ꢀꢀ
.23ꢀ6
.ꢀ8±3
2.ꢀ
2.8
3.4
4.2
4.8ꢀ
4.69
4.±7
4.4±
4±
±0
±±
60
6±
70
7±
80
.ꢀ69ꢀ
.ꢀ387
.ꢀꢀ44
.09477
4.6
±.3
6.ꢀ
6.8
4.0±
3.94
3.84
3.7±
.ꢀ62ꢀ
.ꢀ323
.ꢀ086
.089±3
4.7
±.4
6.2
7.0
4.ꢀ±
4.04
3.94
3.84
.ꢀ49ꢀ
4.9
±.7
6.±
7.3
4.34
4.23
4.ꢀ2
4.02
6±
70
7±
80
.ꢀ207
.098ꢀ3
.08023
8±
.07888
.06±9±
.0±±39
.0467ꢀ
7.6
3.6±
3.±6
3.47
3.39
.074ꢀ7
.06ꢀ73
.0±ꢀ6ꢀ
.04334
7.8
3.7±
3.6±
3.±6
3.47
.06±92
.0±443
.04±ꢀ±
.03763
8.2
3.9ꢀ
3.82
3.72
3.63
8±
90
8.4
8.6
9.0
90
9±
ꢀ00
9.2
ꢀ0.ꢀ
9.±
ꢀ0.3
9.9
ꢀ0.8
9±
ꢀ00
ꢀ0±
ꢀꢀ0
ꢀꢀ±
ꢀ20
.039±6
.03364
.02872
.0246ꢀ
ꢀ0.9
ꢀꢀ.7
ꢀ2.6
ꢀ3.4
3.30
3.22
3.ꢀ4
3.07
.036±±
.0309±
.02632
.02247
ꢀꢀ.2
ꢀ2.0
ꢀ2.9
ꢀ3.7
3.39
3.3ꢀ
3.22
3.ꢀ±
.03ꢀ±ꢀ
.026±0
.02237
.0ꢀ897
ꢀꢀ.7
ꢀ2.6
ꢀ3.±
ꢀ4.4
3.±4
3.4±
3.38
3.28
ꢀ0±
ꢀꢀ0
ꢀꢀ±
ꢀ20
ꢀ2±
ꢀ30
ꢀ3±
ꢀ40
.02ꢀꢀ7
.0ꢀ828
.0ꢀ±84
.0ꢀ376
ꢀ4.3
ꢀ±.ꢀ
ꢀ6.0
ꢀ6.8
2.99
2.92
2.8±
2.78
.0ꢀ92±
.0ꢀ6±6
.0ꢀ429
.0ꢀ238
ꢀ4.6
ꢀ±.±
ꢀ6.4
ꢀ7.3
3.07
2.99
2.92
2.8±
.0ꢀ6ꢀ±
.0ꢀ38ꢀ
.0ꢀꢀ8±
.0ꢀ020
ꢀ±.3
ꢀ6.2
ꢀ7.ꢀ
ꢀ8.0
3.20
3.ꢀ2
3.04
2.97
ꢀ2±
ꢀ30
ꢀ3±
ꢀ40
ꢀ4±
ꢀ±0
.0ꢀ20ꢀ
.0ꢀ0±0
ꢀ7.7
ꢀ8.6
2.72
2.6±
.0ꢀ076
.00938
ꢀ8.ꢀ
ꢀ9.0
2.78
2.72
.00882
.0076±
ꢀ9.0
ꢀ9.9
2.90
2.83
ꢀ4±
ꢀ±0
6
TPC
NTC Disc Thermistors
ND 03/06/09 • NV 06/09
PACKAGING
• Reel & Ammopack
millimeters (inches)
Types
ND03
Suffix
H or Ho
ꢀ6 ± 0.±
(0.630 ± 0.020)
ꢀ6 ± 0.±
(0.630 ± 0.020)
Leads Quantity/Size Packaging
NTC
CA
Straight
Straight
Straight
3000
3000
3000
AMMOPACK
H
CB
CC
REEL
Type
ND 03
ꢀ9.± ± 0.±
(0.768 ± 0.020)
AMMOPACK
ꢀ9.± ± 0.±
(0.768 ± 0.020)
ꢀ6 ± 0.±
(0.630 ± 0.020)
ꢀ6 ± 0.±
(0.630 ± 0.020)
ꢀ9.± ± 0.±
(0.768 ± 0.020)
ꢀ9.± ± 0.±
(0.768 ± 0.020)
ꢀ6 ± 0.±
(0.630 ± 0.020)
ꢀ6 ± 0.±)
(0.630 ± 0.020)
ꢀ9.± ± 0.±
(0.768 ± 0.020)
ꢀ9.± ± 0.±
CD
DA
DB
DC
DD
DL
Straight
Straight
Straight
Straight
Straight
Kinked
Kinked
Kinked
Kinked
3000
ꢀ±00
ꢀ±00
ꢀ±00
ꢀ±00
ꢀ±00
ꢀ±00
ꢀ±00
ꢀ±00
REEL
AMMOPACK
REEL
ND/NV
06/09
2.54 (0.10)
AMMOPACK
REEL
NTC
H
Ho
AMMOPACK
REEL
Types
ND
NV
06/09
DM
DN
DP
AMMOPACK
REEL
(0.768 ± 0.020)
5.08 (0.20)
• Bulk
Type
ND03
ND06
ND09
NV06
NV09
Quantity/box
3000
ꢀ±00
ꢀ±00
According to P/N
According to P/N
HOW TO ORDER
ND06
P0
0103
K
––
Type
Material Code
Resistance
Tolerance
K (±ꢀ05)
Packaging
P
ꢀ0 kΩ
Bulk
7
TPC
NTC Inrush Current Limiters
Thermistors
NF 08 - 10 - 13 - 15 - 20
(For more details see also the catalog dedicated to this range)
OUTLINE DRAWINGS
millimeters (inches)
D
e
H1
Notes
3mm max.
H
I
H1
LS
d
Straight leads
Internal kink
(Suffix HL or 1N)
Y kink
(Suffix - - or HB)
(Suffix HY or 2B)
Notes: In case of adding strength to the lead wire from the side, it may occur crack and fragment at a part of pant leg.
* 0.6 mm copper wire and 5.08 mm leads spacing for those two types.
DIMENSIONS millimeters (inches)
D max
mm
e max
mm
H max
mm
H1 max
mm
I min
mm
d
LS
±0.8 mm
Type
±0.02 mm
NF08*
NF08
NF10*
NF10
NF13
NF15
NF20
9.5 (.374)
9.5 (.374)
5.0 (.197)
5.0 (.197)
5.0 (.197)
5.0 (.197)
6.0 (.236)
6.0 (.236)
6. (.236)
13.0 (.512)
13.0 (.512)
15.0 (.591)
15.0 (.591)
18.0 (.709)
20.0 (.787)
25.0 (.984)
16.0 (.630)
16.0 (.630)
18.0 (.709)
18.0 (.709)
22.0 (.866)
24.0 (.945)
30 (1.181)
30 (1.181)
30 (1.181)
30 (1.181)
30 (1.181)
30 (1.181)
0.6 (.024)
0.8 (.031)
0.6 (.024)
0.8 (.031)
0.8 (.031)
1.0 (.039)
1.0 (.039)
5.08 (.20)
7.62 (.03)
5.08 (.20)
7.62 (.30)
7.62 (.30)
7.62 (.30)
7.62 (.30)
11.5 (.453)
11.5 (.453)
15.0 (.591)
17.0 (.669)
22.0 (.866)
29.0 (1.142) 30 (1.181)
GENERAL CHARACTERISTICS
Standard
Maximum
Max power
25°C
Thermal
dissipation
Thermal time
constant
τC (s)
Heat
Packing
Type
tolerance** operating
capacity bulk tape
H (mJ /K)
%
T°C
Watts
δ
(mW/K)
√
√
√
√
√
√
√
√
√
√
√
-
√
√
-
th
NF08*
NF08
NF10*
NF10
NF13
NF15
NF20
20
20
20
20
20
20
20
-40 / +200
-40 / +200
-40 / +200
-40 / +200
-40 / +200
-40 / +200
-40 / +200
1.6
2.2
2.0
2.6
3.2
4.1
5.0
8
11
10
13
16
20
25
60
60
75
75
100
115
160
480
660
750
975
1600
2300
4000
-
* 0.6 mm copper wire and 5.08 mm leads spacing for those two types.
** Other tolerances available: L: ±15, X: ±25%
SUFFIXES FOR BULK PACKING (Suffixes for taping: see page 54-55)
- - straight leads 0.8 or 1 mm wire diameter and 7.62 lead spacing
HB straight leads 0.6 mm wire diameter and 5.08 lead spacing
HL internal kink 0.8 mm or 1 mm wire diameter and 7.62 lead spacing
1N internal kink 0.6 mm wire diameter and 5.08 lead spacing
HY Y kink 0.8 or 1 mm wire diameter and 7.62 lead spacing
2B Y kink 0.6 mm wire diameter and 5.08 lead spacing
HOW TO ORDER
NF13
AA
0509
M
--
Type
Inrush
Current
Limiters
Resistance
Tolerance
M (±20%)
Suffix
Bulk, Straight Leads
(See illustration above)
5 kΩ
26
TP C
Table of Values
NF 08 - 10 - 13 - 15 - 20
Ceramic
Disc
ø (mm)
Part number
reference
Type
Zero power
resistance
R25°C (Ω)
Max steady
stade current
Iss max 25°C (A)
Resistance
at max current
Riss max (Ω)
cUL
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
08
08
10
NF08AA0509MHB
NF08AA0809MHB
NF08AA0100MHB
NF08AA0150MHB
NF08AA0330MHB
NF08AA0509M - -
NF08AA0809M - -
NF08AA0100M - -
NF08AA0150M - -
NF08AA0330M - -
NF10AA0259MHB
NF10AA0409MHB
NF10AA0509MHB
NF10AA0809MHB
NF10AA0100MHB
NF10AA0160MHB
NF10AA0200MHB
NF10AA0250MHB
NF10AA0500MHB
NF10AA0800MHB
NF10AA0121MHB
5.0
8.0
10.0
15.0
33.0
5.0
8.0
10.0
15.0
33.0
2.9
2.3
2.1
1.8
1.3
3.4
2.7
2.5
2.1
1.5
4.5
3.6
3.3
2.6
2.5
2.0
1.9
1.7
1.4
1.1
1.0
0.20
0.30
0.37
0.50
0.97
0.20
0.30
0.37
0.50
0.97
0.10
0.16
0.19
0.30
0.34
0.50
0.59
0.69
1.07
1.60
1.90
2.5
4.0
5.0
8.0
10.0
16.0
20.0
25.0
50.0
80.0
120.0
*
*
*
*
*
*
*
*
*
*
*
10
NF10AA0259M - -
NF10AA0409M - -
NF10AA0509M - -
NF10AA0809M - -
NF10AA0100M - -
NF10AA0160M - -
NF10AA0200M - -
NF10AA0250M - -
NF10AA0500M - -
NF10AA0800M - -
NF10AA0121M - -
2.5
4.0
5.0
5.2
4.1
3.8
3.0
2.8
2.3
2.1
2.0
1.6
1.3
1.2
0.10
0.16
0.19
0.30
0.34
0.50
0.59
0.69
1.07
1.60
1.90
8.0
10.0
16.0
20.0
25.0
50.0
80.0
120.0
*
*
*
*
*
*
*
*
*
*
13
NF13AA0259M - -
NF13AA0509M - -
NF13AA0709M - -
NF13AA0809M - -
NF13AA0100M - -
NF13AA0150M - -
NF13AA0220M - -
NF13AA0330M - -
NF13AA0400M - -
NF13AA0600M - -
2.5
5.0
7.0
5.7
4.2
3.7
3.6
3.3
2.8
2.3
2.2
2.0
1.9
0.10
0.19
0.24
0.25
0.30
0.41
0.61
0.70
0.80
0.95
8.0
10.0
15.0
22.0
33.0
40.0
60.0
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
15
NF15AA0139M - -
NF15AA0159M- -
NF15AA0259M - -
NF15AA0309M - -
NF15AA0409M - -
NF15AA0509M - -
NF15AA0609M - -
NF15AA0709M - -
NF15AA0809M - -
NF15AA0100M - -
NF15AA0120M - -
NF15AA0160M - -
NF15AA0200M - -
NF15AA0250M - -
NF15AA0330M - -
NF15AA0400M - -
NF15AA0470M - -
1.3
1.5
2.5
3.0
4.0
5.0
6.0
7.0
8.0
10.0
12.0
16.0
20.0
25.0
33.0
40.0
47.0
8.9
8.3
6.6
6.1
5.5
4.9
4.7
4.3
4.2
3.7
3.5
3.0
3.1
2.8
2.5
2.3
2.3
0.05
0.06
0.09
0.11
0.13
0.17
0.19
0.22
0.24
0.30
0.33
0.44
0.43
0.53
0.66
0.80
0.74
*
*
*
*
*
*
*
20
NF20AA0109M - -
NF20AA0259M - -
NF20AA0409M - -
NF20AA0509M - -
NF20AA0100M - -
NF20AA0150M - -
NF20AA0330M - -
1.0
2.5
4.0
11.4
7.8
6.4
5.9
4.3
4.0
3.1
0.04
0.08
0.13
0.15
0.28
0.32
0.52
5.0
10.0
15.0
33.0
* cL/L approval (File E167822)
.• Electrical performances for suffixes HL and HY are identical to the suffix - -.
Electrical performances for suffixes 1N and 2B are identical to the suffix HB
•
27
TP C
NTC Inrush Current Limiters
Thermistors
Application Guide
1 – HOW TO DETERMINE THE
MAXIMUM STEADY STATE
CURRENT OF NF THERMISTORS?
• If the ambient temperature is 25°C:
the current is given in table page 27.
3 – HOW TO CALCULATE THE
WORKING POINT OF NF
THERMISTOR AT A DIFFERENT
AMBIENT TEMPERATURE THAN
25°C?
• If the ambient temperature is different from 25°C:
the current at 25°C must be derated as specified in the
graph below.
Example: NF13AA0100M
ISS = 3 A, T
= T = 60°C
A
ambient
2
• R I
= ␦ (T-T ) and thus
T SS
A
Example: maximum steady state current of
NF13AA0100M at 60°C ambient:
2
R I
T SS
ISS
x 0.9 = 3.0 A.
T =
+ T
A
max25
␦
• As R depends on T, this equation is quite complex to be
Derating of maximum steady state current with
ambient temperature
T
solved by an algebraic way. The quickest manner to solve
it is to operate by iterations:
for NF13, ␦ = 16 mW/K (see page 26)
1.00
therefore, the equation becomes:
T = 562.5 R + 60
0.80
T
Not recommended for permanent use
from the R curve page 30 we find R starting from T:
T
T
0.60
T (°C)
185
R (Ω)
➾
562.5 R + 60 (°C)
T
T
0.28
0.26
0.24
0.22
217
206
195
184
0.40
0.20
0.00
190
195
200
The working temperature of this NF thermistor is about
195°C when operating under I = 3 A and T = 60°C (this
-40 -20
0
20
40
60 80 100 120 140 160 180 200 220
SS
A
AMBIENT TEMPERATURE (°C)
temperature is the one for which we have T = 562.5 R +
T
60).
2 – HOW TO CALCULATE THE
WORKING TEMPERATURE OF
NF THERMISTOR?
Important: A discrepancy may exist between practice and
theory due to the tolerance of the thermistor
(±20% usually).
Example: NF08AA0330M
ISS = 0.2 A,
T
= 25°C
ambient
• From the graph V (I) page 29, we find V = 2.2 V there-
SS
fore, R = 11 Ω
SS
• From the graph R(T), page 29, at R = 11 Ω, we find
T ± 65°C
28
TP C
NTC Inrush Current Limiters
Thermistors
Voltage-Current and Resistance-Temperature Characteristics
TYPICAL VOLTAGE/CURRENT
CHARACTERISTICS FOR TYPE NF08
10.000
1.6 W for the
suffix HB
2.2 W
33Ω
15Ω
10Ω
1.000
8Ω
5Ω
0.100
0.010
0.010
0.100
1.000
10.000
Current (A)
TYPICAL RESISTANCE/TEMPERATURE
CHARACTERISTICS FOR TYPE NF08
1000.00
100.00
10.00
1.00
33Ω
15Ω
10Ω
8Ω
5Ω
0.10
-50
0
50
100
150
200
250
Temperature (°C)
29
TP C
NTC Inrush Current Limiters
Thermistors
Voltage-Current and Resistance-Temperature Characteristics
TYPICAL VOLTAGE/CURRENT
CHARACTERISTICS FOR TYPE NF10
TYPICAL VOLTAGE/CURRENT
CHARACTERISTICS FOR TYPE NF13
10.000
10.000
2.0 W for the
suffix HB
2.6 W
3.2 W
120Ω
80Ω
50Ω
25Ω
20Ω
16Ω
10Ω
8Ω
60Ω
40Ω
33Ω
22Ω
15Ω
10Ω
8Ω
7Ω
5Ω
2.5Ω
1.000
0.100
0.010
1.000
5Ω
4Ω
2.5Ω
0.100
0.010
0.010
0.010
0.100
1.000
10.000
0.100
1.000
10.000
Current (A)
Current (A)
TYPICAL RESISTANCE/TEMPERATURE
CHARACTERISTICS FOR TYPE NF10
10000.00
TYPICAL RESISTANCE/TEMPERATURE
CHARACTERISTICS FOR TYPE NF13
10000.00
1000.00
100.00
10.00
1000.00
100.00
10.00
120Ω
80Ω
50Ω
25Ω
20Ω
16Ω
10Ω
8Ω
5Ω
4Ω
2.5Ω
60Ω
40Ω
33Ω
22Ω
15Ω
10Ω
8Ω
7Ω
5Ω
2.5Ω
1.00
0.10
0.01
1.00
0.10
0.01
-50
0
50
100
150
200
250
-50
0
50
100
150
200
250
Temperature (°C)
Temperature (°C)
30
TP C
NTC Inrush Current Limiters
Thermistors
Voltage-Current and Resistance-Temperature Characteristics
TYPICAL VOLTAGE/CURRENT
CHARACTERISTICS FOR TYPE NF15
10.000
TYPICAL VOLTAGE/CURRENT
CHARACTERISTICS FOR TYPE NF20
10.000
47Ω
40Ω
33Ω
25Ω
20Ω
16Ω
12Ω
10Ω
8Ω
5.0 W
4.1 W
33Ω
15Ω
10Ω
5Ω
4Ω
2.5Ω
1Ω
1.000
1.000
7Ω
6Ω
5Ω
4Ω
3Ω
2.5Ω
1.5Ω
1.3Ω
0.100
0.100
0.010
0.010
0.010
0.010
0.100
1.000
10.000
100.000
0.100
1.000
10.000
Current (A)
Current (A)
TYPICAL RESISTANCE/TEMPERATURE
CHARACTERISTICS FOR TYPE NF15
10000.00
TYPICAL RESISTANCE/TEMPERATURE
CHARACTERISTICS FOR TYPE NF20
1000.00
1000.00
100.00
100.00
10.00
1.00
47Ω
40Ω
33Ω
25Ω
20Ω
16Ω
12Ω
10Ω
8Ω
7Ω
6Ω
5Ω
4Ω
10.00
1.00
0.10
0.01
33Ω
15Ω
10Ω
5Ω
4Ω
2.5Ω
1Ω
0.10
0.01
3Ω
2.5Ω
1.5Ω
1.3Ω
-50
0
50
100
150
200
250
-50
0
50
100
150
200
250
Temperature (°C)
Temperature (°C)
31
TP C
NTC Accurate Leaded Thermistors
NI24 • NJ28
APPLICATIONS
• High precision resistance
• Tight B tolerance
• Ideal for temperature measurement applications
TECHNOLOGY
• NJ range: Coated chip (phenolic resin + varnish overcoat + bare leads)
• NI range: Coated chip (epoxy resin and insulated leads)
• Leads: Radial wire: NJ: tinned copper (*)
NI: PTFE insulated silvered nickel
• Marking: on package only
• Delivery Mode: Bulk for NI range
Bulk or Reel or Ammopack for NJ range
(*) other materials available: consult us
Accuracy Series
NJ28
NI24
PERFORMANCE CHARACTERISTICS
Accurate Thermistors
Types
NJ28
NI24
Operating Temperature
Tolerance on Rn (25°C)
Maximum dissipation at 25°C
Thermal dissipation factor
Thermal time constant
Response time
–55 to +150°C
1ꢀ% 2ꢀ% ,ꢀ
0.16 W
, mW/°C
8 s
< 2 s
HOW TO ORDER
NJ28
MA
0502
F
– –
Type
Material Code
Resistance
Tolerance
F ( 1ꢀ)
Packaging
MA
5 kΩ
Bulk
1
TPC
NTC Accurate Leaded Thermistors
NI24 • NJ28
TABLE OF VALUES
2.40 (0.094) max 2.40 (0.094) max
NI24
5.00 to 9.00
(0.197 to 0.354)
.....0.53 (0.021) min
AWG 30
Part Number
NI24KA0202
Rn at 25°C (Ω)
Material Code
B (K)
ꢀ at 25°C (%/°C)
2000
3000
KA
MA
MA
MA
NA
PA
3625 ±±1
3960 ±0.51
3960 ±0.51
3960 ±0.51
4±00 ±±1
4235 ±±1
4250 ±±1
4380 ±±1
–4.±
–4.5
–4.5
–4.5
–4.6
–4.8
–4.8
–4.9
NI24MA0302
NI24MA0502
NI24MA0±03
NI24NA0±03
NI24PA0203
NI24QA0503
NI24RA0±04
5000
±0000
±0000
20000
50000
±00000
QA
RA
TABLE OF VALUES
NJ28
2.80 (0.110) max 2.80 (0.110) max
+10 %
- 0.06
0.40 (0.016)
Part Number
Rn at 25°C (Ω)
Material Code
B (K)
ꢀ at 25°C (%/°C)
NJ28KA0202
NJ28MA0302
NJ28MA0502
NJ28MA0±03
NJ28NA0±03
NJ28PA0203
NJ28QA0503
NJ28RA0±04
2000
3000
KA
MA
MA
MA
NA
PA
3625 ±±1
3960 ±0.51
3960 ±0.51
3960 ±0.51
4±00 ±±1
4235 ±±1
4250 ±±1
4380 ±±1
–4.±
–4.5
–4.5
–4.5
–4.6
–4.8
–4.8
–4.9
5000
5000
±0000
20000
50000
±00000
QA
RA
2
TPC
NTC Accurate Leaded Thermistors
NI24 • NJ28
TABLE OF RESISTANCE: TEMPERATURE CHARACTERISTICS
Material code B (K)
T
(°C)
KA 3625
TF (%)
MA 3960
TF (%)
NA 4100
TF (%)
T
(°C)
R (T) / R25
α (%/°C)
R (T) / R25
α (%/°C)
R (T) / R25
α (%/°C)
- 55
- 50
- 45
- 40
6±.2±
44.24
32.33
23.88
7.±
6.±
5.3
4.5
6.77
6.53
6.30
6.08
±04.2
7±.63
49.94
35.28
3.9
3.4
2.9
2.5
7.89
7.57
7.28
7.00
±09.5
75.42
52.63
37.±8
8.0
6.9
6.0
5.±
7.83
7.54
7.27
7.0±
- 55
- 50
- 45
- 40
- 35
- 30
- 25
- 20
±7.8±
±3.4±
±0.±9
7.8±4
3.8
3.2
2.7
2.2
5.88
5.68
5.49
5.3±
25.25
±8.28
±3.39
9.9±7
2.±
±.8
±.5
±.2
6.73
6.48
6.25
6.02
26.58
±9.22
±4.04
±0.37
4.3
3.7
3.±
2.5
6.76
6.52
6.30
6.09
- 35
- 30
- 25
- 20
- ±5
- ±0
- 5
0
6.040
4.707
3.696
2.923
±.8
±.5
±.±
.9
5.±4
4.98
4.83
4.68
7.4±9
5.605
4.275
3.289
±.0
5.8±
5.6±
5.42
5.24
7.730
5.8±7
4.4±6
3.382
2.±
±.6
±.3
±.0
5.89
5.70
5.5±
5.34
- ±5
- ±0
- 5
0
.8
.6
.5
5
±0
±5
20
2.329
±.867
±.507
±.224
.6
.4
.3
.±
4.53
4.40
4.27
4.±4
2.552
±.997
±.574
±.250
.3
.2
.±
.±
5.06
4.90
4.74
4.59
2.6±±
2.032
±.593
±.258
.7
.5
.3
.±
5.±7
5.0±
4.86
4.7±
5
±0
±5
20
25
30
35
40
±.0000
.82±7
.6788
.5638
0.0
4.02
3.9±
3.80
3.69
±.0000
.8053
.6527
.5323
0.0
4.45
4.3±
4.±8
4.06
±.0000
.8004
.6446
.5224
0.0
4.57
4.44
4.3±
4.±9
25
30
35
40
.±
.±
.±
.2
.4
.±
.2
.3
.4
45
50
55
60
.4707
.3948
.3328
.28±8
.5
3.59
3.49
3.40
3.3±
.4367
.3604
.2990
.2493
.3
.4
.5
.6
3.94
3.82
3.7±
3.6±
.4258
.349±
.2877
.2383
.6
4.07
3.96
3.85
3.74
45
50
55
60
.7
.8
.9
±.0
±.0
±.2
65
70
75
80
.2396
.2046
.±754
.±5±0
±.2
±.4
±.6
±.8
3.22
3.±4
3.06
2.98
.2090
.±760
.±489
.±266
.7
3.5±
3.4±
3.32
3.23
.±984
.±660
.±396
.±±78
±.4
±.6
±.8
2.±
3.64
3.55
3.45
3.36
65
70
75
80
.8
.9
±.0
85
.±305
2.0
2.3
2.5
2.7
2.90
2.83
2.76
2.69
.±08±
±.±
±.2
±.3
±.5
3.±4
3.06
2.98
2.9±
.0999±
.08507
.07273
.0624±
2.3
2.5
2.8
3.0
3.28
3.20
3.±2
3.04
85
90
.±±3±
.09262
.07970
.06885
90
95
±00
.09846
.08597
95
±00
±05
±±0
±±5
±20
.0753±
.066±8
.05834
.05±58
2.9
3.±
3.4
3.6
2.63
2.56
2.50
2.44
.05969
.05±94
.04535
.03973
±.6
±.7
±.8
2.0
2.83
2.76
2.69
2.63
.05376
.04648
.04032
.035±0
3.3
3.5
3.8
4.±
2.96
2.89
2.82
2.76
±05
±±0
±±5
±20
±25
±30
±35
±40
.04573
.04066
.03625
.03240
3.8
4.0
4.3
4.5
2.39
2.33
2.28
2.23
.0349±
.03077
.0272±
.024±2
2.±
2.2
2.3
2.5
2.56
2.50
2.44
2.39
.03065
.02685
.02359
.02079
4.3
4.6
4.8
5.±
2.69
2.63
2.57
2.5±
±25
±30
±35
±40
±45
±50
.02903
.02608
4.7
5.0
2.±8
2.±3
.02±45
.0±9±2
2.6
2.7
2.33
2.28
.0±838
.0±629
5.4
5.6
2.45
2.40
±45
±50
Material code B (K)
QA 4250
T
(°C)
PA 4235
TF (%)
RA 4380
TF (%)
T
(°C)
R (T) / R25
α (%/°C)
R (T) / R25
TF (%)
α (%/°C)
R (T) / R25
α (%/°C)
- 55
- 50
- 45
- 40
±23.3
84.3±
58.37
40.92
8.3
7.2
6.2
5.3
8.00
7.7±
7.43
7.±7
±0±.8
7±.33
50.5±
36.±4
8.3
7.2
6.2
5.3
7.36
7.±3
6.9±
6.70
±±0.7
77.22
54.43
38.76
8.6
7.4
6.4
5.5
7.53
7.29
7.07
6.85
- 55
- 50
- 45
- 40
- 35
- 30
- 25
- 20
29.03
20.83
±5.±0
±±.07
4.5
3.8
3.2
2.6
6.92
6.69
6.46
6.25
26.±±
±9.05
±4.02
±0.4±
4.5
3.8
3.2
2.6
6.50
6.3±
6.±2
5.85
27.86
20.22
±4.8±
±0.94
4.6
3.9
3.3
2.7
6.65
6.46
6.27
6.09
- 35
- 30
- 25
- 20
- ±5
- ±0
- 5
0
8.±89
6.±±7
4.6±0
3.504
2.±
±.7
±.3
±.0
6.05
5.85
5.67
5.49
7.79±
5.879
4.470
3.424
2.±
±.7
±.3
±.0
5.78
5.62
5.46
5.3±
8.±43
6.±±2
4.622
3.522
2.2
±.8
±.4
±.0
5.92
5.76
5.60
5.45
- ±5
- ±0
- 5
0
5
±0
±5
20
2.686
2.075
±.6±5
±.266
.7
.5
.3
.±
5.32
5.±6
5.0±
4.86
2.642
2.052
±.605
±.263
.7
.5
.3
.±
5.±7
5.03
4.90
4.77
2.702
2.087
±.623
±.270
.8
.5
.3
.±
5.3±
5.±7
5.03
4.9±
5
±0
±5
20
25
30
35
40
±.0000
.7949
.6359
.5±±9
0.0
4.72
4.58
4.45
4.32
±.0000
.7965
.6380
.5±39
0.0
4.65
4.53
4.42
4.3±
±.0000
.7920
.6308
.5052
0.0
4.78
4.66
4.55
4.43
25
30
35
40
.±
.±
.±
.3
.4
.3
.4
.3
.5
45
50
55
60
.4±45
.3376
.2765
.2276
.6
4.20
4.09
3.98
3.87
.4±62
.3388
.277±
.2278
.6
4.20
4.±0
4.00
3.90
.4068
.3292
.2678
.2±89
.6
4.33
4.22
4.±2
4.02
45
50
55
60
.8
.8
.8
±.0
±.2
±.0
±.2
±.0
±.3
65
70
75
80
.±883
.±566
.±308
.±098
±.4
±.7
±.9
2.±
3.77
3.67
3.58
3.48
.±88±
.±560
.±300
.±088
±.4
±.7
±.9
2.±
3.8±
3.72
3.63
3.55
.±797
.±483
.±228
.±022
±.5
±.7
2.0
2.2
3.93
3.84
3.75
3.67
65
70
75
80
85
.09258
.07838
.06662
.05686
2.4
2.6
2.9
3.±
3.40
3.3±
3.23
3.±5
.09±4
2.4
2.6
2.9
3.2
3.47
3.39
3.3±
3.24
.08537
.07±60
.06029
.05095
2.5
2.7
3.0
3.2
3.58
3.50
3.42
3.35
85
90
.07708
.06527
.05547
90
95
±00
95
±00
±05
±±0
±±5
±20
.0487±
.04±89
.036±4
.03±30
3.4
3.7
3.9
4.2
3.07
3.00
2.93
2.86
.0473±
.04049
.03478
.02996
3.4
3.7
3.9
4.2
3.±7
3.±0
3.03
2.96
.04322
.03679
.03±43
.02693
3.5
3.8
4.±
4.3
3.28
3.2±
3.±4
3.07
±05
±±0
±±5
±20
±25
±30
±35
±40
.027±9
.02370
.02072
.0±8±7
4.5
4.7
5.0
5.3
2.79
2.73
2.67
2.6±
.02590
.02246
.0±953
.0±704
4.5
4.7
5.0
5.3
2.90
2.84
2.78
2.72
.023±6
.0±997
.0±728
.0±499
4.6
4.9
5.2
5.4
3.0±
2.94
2.88
2.82
±25
±30
±35
±40
±45
±50
.0±598
.0±4±0
5.5
5.8
2.55
2.49
.0±490
.0±307
5.5
5.8
2.67
2.6±
.0±305
.0±±38
5.7
6.0
2.77
2.7±
±45
±50
3
TPC
NTC Accurate Leaded Thermistors
NI24 • NJ28
PACKAGING
• Bulk
• Reel & Ammopack
millimeters (inches)
Type
NJ28
NI24
Quantity/box
2000
Types
NJ28
Suffix
H or Ho
±6 ± 0.5
(0.630 ± 0.020)
±6 ± 0.5
(0.630 ± 0.020)
Leads Quantity/Size Packaging
CA
Straight
Straight
Straight
Straight
3000
3000
3000
3000
AMMOPACK
±000
CB
CC
CD
REEL
±9.5 ± 0.5
(0.768 ± 0.020)
AMMOPACK
REEL
H
±9.5 ± 0.5
(0.768 ± 0.020)
E
TAPING CHARACTERISTICS
Missing components
E: 2.54 -0.10 +0.60
(0.100 -0.004 +0.024)
A maximum of 3 consecutive components may be missing
from the bandolier, surrounded by at least 6 filled positions.
The number of missing components may not exceed 0.51
of the total per packing module.
The beginning and the end of tape exhibit 8 or 9 blank
positions.
DIMENSIONS: millimeters (inches)
REEL
AMMOPACK
30 (1.18)
Interlayer
Paper
P
ꢁ 8 (.315)
L
42 (1.66)
Inside
H
48 (1.99)
Outside
ꢁ 31 (1.22)
ꢁ 360 (14.2)
L
H
P
330 (±3.0) 46 (±.8±)
290 (±±.4)
P
p
p
h
h
Marking on
this side
Reference plane
P1
H1 W2
H1
E
H
H0
W1
A
B
W0
W
Adhesive
tape
I2
Direction of unreeling
t
d
Cross section
A - B
D0
P0
E
Value
±2.7
254
Tolerance
±0.2
Dimensions Characteristics
Sprocket holes pitch
Distance between 2± consecutive holes
20 pitches
Value
Tolerance
+± / -0.5
±0.3
Dimensions Characteristics
Leading tape width
P0
–
±8
W
±±
6
9
W0
W±
W2
Adhesive tape width
+0.75 / -0.5
Sprocket hole position
0.7
±0.2
+0.6
-0.±
t
Total thickness of tape
3 max.
Distance between the top of the tape and
the adhesive
E
Lead spacing
2.54 5.08
4
±0.2
±0.5
D0
H0
Diameter of sprocket hole
Distance between the sprocket hole axis
and the lead axis
Spacing of components
Lead diameter
Verticality of components
Alignment of components
5.08 3.85
±2.7
± 0.7
P±
±6/±9.5
Distance between the tape axis and the
seating plane of the component
±±.0
±51
±±.3
±2
P
d
3P
3h
0.5
0.6
H±
Distance between the tape axis and the top
of component body
0
0
4
TPC
NTC Thermistors
Insulated Metal Case
NM 06
Especially designed for mounting on a chassis or screwing
on a plate, these thermistors provide an excellent thermal
contact and ensure a good accuracy of measurement and
alarm control for different types of equipment.
Type
NM 06
Disc thermistor, insulated metal
case for chassis mounting
Finish
5.5 (.216)± 0.1
10 (.394)± 0.1
DIMENSIONS: millimeters (inches)
This type can be delivered with fixing
nut, add suffix WC to the reference.
35 (.138)
min
12.6 (.496)
max
Marking
Nominal resistance
Tolerance for ±10%
Operating temperature
Table of values
-55°C to +150°C
See table on page 25
±10% ±20%
Tolerance on Rn (25°C)
0.8 W - without heat sink
2 W - with heat sink
Maximum dissipation at 25°C
Part mounted in the center of a brass plate
(dim.: 100 x 100 x 1 mm)
8 mW/°C: without heat sink
20 mW/°C: with heat sink
Thermal dissipation factor*
Thermal time constant
Depending on cooling system
380 Vrms (50 Hz)
Test voltage to earth
*Typical value
HOW TO ORDER
NM06
P0
0103
M --
Type
Material Code
P
(See table page 25)
Resistance
Tolerance
M (±20%)
10 kΩ
24
TP C
Table of Values
NM 06
B (K)
Types
Rn at 25°C
Material Code
α at 25°C (% /°C)
(1) ±5%
(2) ±3%
∆B/B
(
)
NM 06 F 0 0100
NM 06 F 0 0150
10
15
F
2800 (1)
3030 (1)
– 3.2
– 3.4
NM 06 G 0 0220
NM 06 G 0 0330
22
33
G
NM 06 H 0 0470
NM 06 H 0 0680
47
68
H
I
3160 (1)
3250 (1)
3480 (1)
– 3.5
– 3.7
– 3.9
NM 06 I 0 0101
100
NM 06 J 0 0151
NM 06 J 0 0221
150
220
J
NM 06 K 0 0331
NM 06 K 0 0471
330
470
K
3630 (1)
– 4.0
NM 06 L 0 0681
NM 06 L 0 0102
680
1,000
L
M
N
3790 (2)
3950 (2)
4080 (2)
– 4.2
– 4.4
– 4.6
NM 06 M 0 0152
1,500
NM 06 N 0 0222
NM 06 N 0 0332
2,200
3,300
NM 06 P 0 0472
NM 06 P 0 0682
NM 06 P 0 0103
4,700
6,800
10,000
P
4220 (2)
– 4.7
NM 06 Q 0 0153
NM 06 Q 0 0223
15,000
22,000
Q
R
S
4300 (2)
4400 (2)
4520 (2)
4630 (2)
– 4.7
– 4.8
– 5.0
– 5.1
NM 06 R 0 0333
33,000
NM 06 S 0 0473
NM 06 S 0 0683
47,000
68,000
NM 06 T 0 0104
100,000
T
NM 06 U 0 0154
NM 06 U 0 0224
NM 06 U 0 0334
150,000
220,000
330,000
U
4840 (2)
– 5.3
Resistance - Temperature characteristics: pages 32 to 35.
25
TP C
NTC Leadless Disc Thermistors
This type of product is widely used in automotive and
consumer applications.
The metallization covers completely the surfaces of the
thermistor.
They are assembled in custom-probes for sensing the
temperature of liquids (water, oil, ...), gases or surface of any
other component.
The particularly flat and smooth surfaces ensure an excellent
electrical and thermal contact under pressure.
Types
NR
Metallization
Physical data (dim. in mm)
D
E
Marking
On package only / On parts upon request
-40°C to +200°C
Operating temperature
Custom - designed products defined with:
D ± ∆D R1 ± ∆R1/R1 at T1
Values and tolerances
E ± ∆E R2 ± ∆R2/R2 at T2, . . .
DESIGN OF THE THERMISTOR
Choice of the resistances
Choice of the tolerances
The precision of the temperature measurement determines
the calculation of the tolerance on the resistance:
If the application is to measure the temperature around a
defined point, a unique nominal resistance can be chosen
(for example, among standard values of the ND range prod-
ucts presented on pages 16 to 21).
⌬R/R = ␣ (%/°C). ⌬T (°C)
For example, the NTC NR55--3049-99, using “N5” material
(R (T) characteristic displayed on page 34), requires a preci-
sion of 1°C over the temperature range 110°C - 120°C.
When it is required to measure the temperature over selected
ranges T1 –T2 , T2 –T3 , ..., the corresponding resistance
R1 , R2 , R3 , ..., must be such that they can be located
on the R (T) characteristic of an existing NTC material
(for example among standard materials whose R (T) are
displayed on pages 32 to 35).
The tolerances can be calculated:
⌬R110°C /R110°C = 1°C* 2.91%/°C = 2.91%
⌬R120°C /R120°C = 1°C* 2.76%/°C = 2.76%
*For your specific requirements, please consult us.
The resistances must also be compatible with the resistivity
of the material and the dimensions of the thermistor.
HOW TO ORDER
NR55 - - 3002 - 99
Type
P/N Code
22
TP C
NTC Leadless Disc Thermistors
We present below some examples of our custom - designed
products as an illustration of the different ways to define
products.
DIMENSIONS: millimeters (inches)
Material
Code
B
(k)
R
± ⌬R
T
(°C)
R
± ⌬R
T
(°C)
R
± ⌬R
T
3
(°C)
1
1
1
2
2
2
3
3
Types
D
E
at T
at T
at T
1
2
3
NR 55 -- 3002 - 99
NR 67 -- 3068 - 99
NR 55 -- 3049 - 99
NR 55 -- 3046 - 99
NR 49 -- 3119 - 99
NR 55 -- 3114 - 99
NR 70 -- 3121 - 99
NR 29 -- 3107 - 99
NR 55 -- 3122 - 99
NR 55 -- 3126 - 99
NR 47 -- 3116 - 99
NR 49 -- 3113 - 99
NR 47 -- 3101 - 99
NR 55 -- 3071 - 99
NR 61 -- 3063 - 99
NR 67 -- 3053 - 99
NR 50 -- 3048 - 99
NR 60 -- 3021 - 99
NR 55 -- 3016 - 99
5.5 (.217) ± 0.5 (.020)
6.7 (.264) ± 0.5 (.020)
5.5 (.217) ± 0.5 (.020)
5.5 (.217) ± 0.5 (.020)
4.9 (.193) ± 0.3 (.012)
5.5 (.217) ± 0.4 (.016)
7.0 (.275) ± 0.3 (.012)
2.9 (.014) ± 0.3 (.012)
5.5 (.217) ± 0.5 (.020)
5.5 (.217) ± 0.5 (.020)
4.7 (.185) ± 0.4 (.016)
4.9 (.193) ± 0.3 (.012)
4.6 (.181) ± 0.3 (.012)
5.8 (.228) ± 0.3 (.012)
6.1 (.240) ± 0.3 (.012)
6.7 (.264) ± 0.4 (.016)
5.0 (.197) ± 0.5 (.020)
6.0 (.236) ± 0.5 (.020)
5.5 (.217) ± 0.5 (.020)
1.1 (.043) ± 0.4 (.016)
1.7 (.067) ± 0.3 (.012)
1.0 (.040) ± 0.2 (.008)
1.3 (.051) ± 0.4 (.016)
1.5 (.060) ± 0.4 (.016)
1.0 (.040) ± 0.2 (.008)
1.2 (.047) ± 0.2 (.008)
1.5 (.060) ± 0.3 (.012)
1.5 (.060) ± 0.4 (.016)
1.0 (.040) ± 0.2 (.008)
1.2 (.047) ± 0.2 (.008)
1.2 (.047) ± 0.2 (.008)
1.4 (.055) ± 0.3 (.012)
1.0 (.040) ± 0.2 (.008)
1.5 (.060) ± 0.3 (.012)
1.7 (.067) ± 0.3 (.012)
1.5 (.060) ± 0.5 (.020)
3.2 (.125) ± 0.3 (.012)
1.1 (.043) ± 0.4 (.016)
N5
N
N5
S
4160 1230 Ω ± 7.5% 40
4080 150 Ω ± 3.3% 100
4160 107 Ω ± 2.9% 110
4520 48600 Ω± 7.5% 25
160 Ω ± 5%
51 Ω ± 5.3%
96.5
–
–
–
–
–
–
–
140
–
–
–
–
–
80.6 Ω ± 2.8% 120
3210 Ω ± 5%
84 Ω ± 5%
–
90
104.4
–
M
P
3950 840 Ω ± 10%
4220 5000 Ω ± 10%
3790 210 Ω ± 10%
3630 2050 Ω ± 6%
37.8
25
40
25
25
25
25
40
40
40
50
60
25
40
40
L
40 Ω ± 7.5%
193 Ω ± 5.4%
–
90
30 Ω ± 6.7% 100
K
J
96.5
–
–
–
–
3480
210 Ω ± 5%
–
P
4220 3340 Ω ± 10%
4400 33000 Ω ± 2%
4080 1680 Ω ± 10%
3480 146 Ω ± 13%
3790 262 Ω ± 8.7%
4080 760 Ω ± 9.2%
4080 540 Ω ± 11%
3480 233 Ω ± 10%
4220 3640 Ω ± 3%
4300 5500 Ω ± 9%
264 Ω ± 7%
–
90
107 Ω ± 7%
120
–
R
N
J
–
–
382 Ω ± 6.7%
22 Ω ± 10%
120 Ω ± 10%
80
176 Ω ± 5%
105
–
100
60
–
L
35.5 Ω ± 7.8% 100
56.6 Ω ± 8.5% 130
N
N
J
130 Ω ± 8.5% 100
144 Ω ± 7%
13.3 Ω ± 7%
457 Ω ± 3%
650 Ω ± 7.7%
100
121
–
–
–
–
–
–
–
–
P
96.5
96.5
Q
Resistance - Temperature characteristics: pages 32 to 35.
23
TP C
相关型号:
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