Te m p e r a t u r e P r o t e c t i o n D e v i c e s March 2017 Temperature protection device Chip NTC thermistor Automotive grade:Corresponding to 125,150C NTCG series NTCG 1005 NTCG 1608 JIS 1005 [EIA 0402] JIS 1608 [EIA 0603] (2/17) Temperature Protection Devices REMINDERS FOR USING THESE PRODUCTS Before using these products, be sure to request the delivery specifications. SAFETY REMINDERS Please pay sufficient attention to the warnings for safe designing when using this products. REMINDERS Please pay careful attention to the precautions and follow safe designing practices when using these products. Incorrect usage may lead to destroyed NTC thermistors and damages or malfunctions with the devices used. Please use them within the ranges of the ratings and performance provided in the catalog and delivery specifications upon confirming the environments where they are to be used and installed. Do not use them outside the operating temperature range. Do not use them with the ratings or maximum permissible power levels exceeded. Do not quickly apply 5mW or more of load with the constant-voltage power supply in the NTC thermistor as this may lead to staying in thermal runaway mode or the red-shorting of chips. Please be cautious of the applied voltage in thermistors as instruments may malfunction with the lowering of resistance due to self heating. With instruments that consumers can touch the thermistors with their hands, please carefully warn them not to touch the thermistors. Store them in locations where the temperature is 10C to +40C and the relative humidity is 75% or below, avoid environments where there are sudden changes in temperatures, direct sunlight, corrosive gas, grit, or dust, and keep them packed in a manner where no loading stress is applied in order to avoid deterioration and damage. (please use them within six months.) When sealing thermistors, please do so upon first considering the type, quantity, hardening conditions, and adhesiveness of the sealing material and confirming its reliability. Avoid powerful vibrations, impact (such as by dropping), pressure, etc. on thermistors that exceed the prescribed levels. Do not use them for long periods of time in environments with a relative humidity of over 85%. (this excludes cases where countermeasures have been taken.) Do not use them in the following environments. (this excludes cases where countermeasures have been taken.) * Corrosive gases (Cl2, NH3, SOx, NOx, etc.) Environments with highly conductive substances (electrolytes, water, saltwater, etc.) Environments with acid, alkali, or organic solvents Dusty areas Please observe the following precautions when attaching them to substrates as failure to do so may result in destruction or malfunction. Do not let the substrates get warped or twisted at any time during the soldering. The landing size must be even on both the left and right sides. Do not use items that have been dropped or detached. Do not allow the adherence of more solder than needed. Reflow mounting is recommended with NTC thermistors, and not flow (dip) mounting. Attaching or making corrections with a soldering iron is not recommended as it can lead to troubles such as significant distorting due to thermal shock or cracking. If a soldering iron must be used, it should be 30W or below with the temperature of the tip at 350C or below, and at a maximum of 5 seconds of soldering time. Also, do not let the tip of the soldering iron come in direct contact with the chips. Please use a substance such as resin that does not generate hydrogen (H2) when forming insulation film over chips. Please contact our sales offices when considering the use of the products listed on this catalog for applications, whose performance and/or quality require a more stringent level of safety or reliability, or whose failure, malfunction or trouble could cause serious damage to society, person or property ('specific uses' such as automobiles, airplanes,medical instruments, nuclear devices, etc.) as well as when considering the use for applications that exceed the range and conditions of this catalog. Please note that we are not responsible for any damages or losses incurred resulting from the use of these products that exceeds the range and conditions of this catalog or specific uses. Please take appropriate measures such as acquiring protective circuits and devices that meet the uses, applications, and conditions of the instruments and keeping backup circuits. 20170307 / tpd_automotive_ntc-thermistor_ntcg_en.fm (3/17) Temperature Protection Devices Product compatible with RoHS directive Compatible with lead-free solders AEC-Q200 NTC Thermistors Automotive grade:Corresponding to 125,150C Overview of the NTCG series CHARACTERISTICS OF NTC THERMISTORS FEATURES OF NTCG SERIES NTC(Negative Temperature Coefficient) thermistors are manufactured from sintered metal oxides. Each thermistor consists of a combination of two to four of the following materials: manganese, nickel, cobalt and copper. NTC thermistors are semiconductor resistors that exhibit decreasing resistance characteristics with increasing temperature. TDK thermistors have low thermal time constants which result in extremely high rates of resistance change to accurately track the temperature. Fig.1 R-T Curve : 10kohm@25C The line-up corresponding to 125 C is expanded. The line-up corresponding to 150 C is added. AEC-Q200 compliant. Fig.2 Internal structure of the multilayer chip Thermistors 1000 Resistance (k) 100 10 1 0.1 -40 0 50 100 Temperature (C) 150 200 No. Name Semiconductor ceramics Internal electrode (Pd) Ag Terminal electrode Ni Sn RoHS Directive Compliant Product: See the following for more details.https://product.tdk.com/info/en/environment/rohs/index.html Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20170307 / tpd_automotive_ntc-thermistor_ntcg_en.fm (4/17) Temperature Protection Devices Product compatible with RoHS directive Compatible with lead-free solders AEC-Q200 NTC Thermistors Automotive grade:Corresponding to 125,150C Overview of the NTCG series APPLICATIONS V2X LED LED BMS Vout 2.2k LED Vout Vout R R R Vout R Resistance (R25) B constant (B25/85) NTCG1005 Applicable to series automobile NTCG1608 (125C) series NTCG1005 Applicable to series automobile NTCG1608 (150C) series Power Amp NTC Circuit example V2X NTC BMS NTC Temperature compensation for various types of circuits NTC Use circuit example 22k 4.7k 10k 68k 100k 4000K to 4550K 4000K to 4550K 4000K to 4550K 4100K to 4750K 3435K to 4550K 4000K to 4750K 4000K to 4550K NTCG103JF103 FTDS NTCG164BH222 NTCG164LH223 NTCG164BH472 NTCG164BH103 NTCG163JF103 JTDS JTDS JTDS JTDS FTDS NTCG103JF103 N/A N/A N/A N/A FT1S NTCG163JF103 N/A N/A N/A N/A FT1S NTCG104EF104 FTDSX NTCG164KF104 FTDS NTCG104EF104 FT1SX NTCG164KF104 FT1S N/A N/A N/A N/A NTCG104BF683 FTDSX N/A N/A N/A Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20170307 / tpd_automotive_ntc-thermistor_ntcg_en.fm (5/17) Temperature Protection Devices Product compatible with RoHS directive Compatible with lead-free solders AEC-Q200 NTC Thermistors Automotive grade:Corresponding to 125,150C Overview of the NTCG series PART NUMBER CONSTRUCTION NTC G 3E H 101 T Series name Structural classification shapes and dimensions Code (mm) B constant B constant tolerance (%) Nominal resistance Nominal resistance tolerance (%) Packaging style TDK internal code NTC thermistor G Multilayer internal electroded chip type NTC thermistor (Pb free type) () 10 1005 F 1 300 30 D 0.5 T Taping 16 1608 H 3 101 100 F 1 B Bulk H 3 J 5 EIA 102 103 B 1000 (1k) 10000 (10k) DS 125C vehicle response B constant: 25/85C 125C vehicle response DSX B constant: 25/50C 150C vehicle response B constant: 25/85C 150C vehicle response 1SX B constant: 25/50C 1S constant B constant(K) 2000 to 2050 2A 2051 to 2100 2B 2101 to 2150 2C 2201 to 2250 2E 2251 to 2300 2F 2401 to 2450 2J 2451 to 2500 2K 2501 to 2550 2L 2601 to 2650 2N 2701 to 2750 2Q 2801 to 2850 2S 3A 3B 3C 3E 3F 3J 3K 3L 3N 3Q 3S 3000 to 3050 3051 to 3100 3101 to 3150 3201 to 3250 3251 to 3300 3401 to 3450 3451 to 3500 3501 to 3550 3601 to 3650 3701 to 3750 3801 to 3850 4A 4B 4C 4E 4F 4J 4K 4L 4N 4Q 4S 4000 to 4050 4051 to 4100 4101 to 4150 4201 to 4250 4251 to 4300 4401 to 4450 4451 to 4500 4501 to 4550 4601 to 4650 4701 to 4750 4801 to 4850 B constant calculation formula B= InR1-InR2 (1/T1)-(1/T2) Shape symbol (JIS) 1005 1608 B: B constant (K) T1:Arbitrary temperature (K) T2:Arbitrary temperature different from T1 (K) R1:Zero-load resistance value at temperature T1() R2:Zero-load resistance value at temperature T2() Each temperature is measured in absolute temperature. 0C=273.15K L 1.000.05 1.600.10 W 0.500.05 0.800.10 T 0.500.05 0.800.10 Dimensions in mm L1, L2 0.1min 0.2min Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20170307 / tpd_automotive_ntc-thermistor_ntcg_en.fm (6/17) Temperature Protection Devices Product compatible with RoHS directive Compatible with lead-free solders AEC-Q200 NTC Thermistors Automotive grade:Corresponding to 125,150C Characteristic map of NTCG series 125C RESPONSE COUNTERPARTS Resistan Dimensi Thickness ce ons (mm) 100 2.2k 4.7k 10k 22k 47k 68k 1608 1608 1608 1005 0.80.1 0.80.1 0.80.1 0.50.05 1608 0.80.1 1005 1608 1005 1608 1005 0.50.05 0.80.1 0.50.05 0.80.1 0.50.05 1005 0.50.05 1608 0.80.1 1005 1608 0.50.05 0.80.1 100k 150k B constant [25/ 85C] 3,250K 4,100K 4,100K 3,435K 3,435K 4,100K 4,550K 4,550K 4,550K 4,550K 4,150K 4,308K 4,550K 4,485K 4,550K 4,550K 4,550K [25/ 50C] 3,244K 4,096K 4,067K 3,380K 3,380K 4,067K 4,485K 4,485K 4,485K 4,485K 4,085K 4,250K 4,485K 4,419K 4,485K 4,485K 4,485K Catalog number Resistance tolerance : 0.5% Resistance tolerance : 1% NTCG163EH101HTDS NTCG103JX103DTDS NTCG163JX103DTDS NTCG103JF103FTDS NTCG163JF103FTDS Resistance tolerance : 3% NTCG103JF103HTDS NTCG163JF103HTDS NTCG163JH103HTDS NTCG164LH473HTDS Resistance tolerance : 5% NTCG164BH222JTDS NTCG164BH472JTDS NTCG103JF103JTDS NTCG164BH103JTDS NTCG104LH223JTDS NTCG164LH223JTDS NTCG104LH473JTDS NTCG164LH473JTDS NTCG104BF683FTDSX NTCG104EF104FTDSX NTCG104LH104JTDS NTCG164KF104FTDS NTCG164LH104JTDS NTCG104LH154JTDS NTCG164LH154JTDS 150C RESPONSE COUNTERPARTS Resistan Dimensi Thickness ce ons (mm) 10k 100k 1005 1608 1005 1608 0.5 0.05 0.8 0.1 0.5 0.05 0.8 0.1 B constant [25/ 85C] 3,435 K 3,435 K 4,308 K 4,550 K [25/ 50C] 3,380 K 3,380 K 4,250 K 4,485 K Catalog number Resistance tolerance : 0.5% Resistance tolerance : 1% NTCG103JF103FT1S NTCG163JX103DT1S NTCG163JF103FT1S NTCG104EF104FT1SX NTCG164KF104FT1S Resistance tolerance : 3% Resistance tolerance : 5% RATINGS 125C RESPONSE COUNTERPARTS Size Maximum rated power (25C)1 Dissipation factors (25C) 2 mm mW mW/C 1005 100 1 1608 100 1 1 Maximum rated power: Maximum power: at rated temperature (25C), maximum power that can be applied continuously 2 Dissipation factors: powered that it is equivalent that be increased in self-heating by load power thermistor at 1C temperature RATINGS 150C RESPONSE COUNTERPARTS Size Maximum rated power (25C)1 Dissipation factors (25C) 2 mm mW mW/C 1005 125 1 1608 125 1 1 Maximum rated power: Maximum power: at rated temperature (25C), maximum power that can be applied continuously 2 Dissipation factors: powered that it is equivalent that be increased in self-heating by load power thermistor at 1C temperature Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20170307 / tpd_automotive_ntc-thermistor_ntcg_en.fm (7/17) Temperature Protection Devices Product compatible with RoHS directive Compatible with lead-free solders AEC-Q200 NTC Thermistors Automotive grade:Corresponding to 125,150C NTCG series 1005 type SHAPE & DIMENSIONS RECOMMENDED LAND PATTERN 0.50.05 0.4 to 0.6 10.05 0.35 to 0.45 0.3 to 0.5 0.35 to 0.45 0.50.05 0.1 min. Electrode material Internal:Pd External:Ag/Ni/Sn Dimensions in mm 125C RESPONSE COUNTERPARTSOPERATING TEMPERATURE RANGE-40 to 125C Part No. Resistance [25C] () Resistance tolerance B constant [25/50C] (K) B constant [25/75C] (K) B constant [25/85C] (K) B constant [25/100C] (K) B constant tolerance NTCG103JF103FTDS NTCG103JF103HTDS NTCG103JF103JTDS NTCG103JX103DTDS NTCG104LH223JTDS NTCG104LH473JTDS NTCG104BF683FTDSX NTCG104EF104FTDSX NTCG104LH104JTDS NTCG104LH154JTDS 10,000 10,000 10,000 10,000 22,000 47,000 68,000 100,000 100,000 150,000 1% 3% 5% 0.5% 5% 5% 1% 1% 5% 5% 3380 3380 3380 3380 4485 4485 4085 4250 4485 4485 3422 3422 3422 3422 4533 4533 4134 4293 4533 4533 3435 3435 3435 3435 4550 4550 4150 4308 4550 4550 3453 3453 3453 3453 4573 4573 4172 4327 4573 4573 1% 1% 1% 0.7% 3% 3% 1% 1% 3% 3% Permissible operating current [25C] (mA) 0.31 0.31 0.31 0.31 0.21 0.14 0.12 0.10 0.10 0.08 150C RESPONSE COUNTERPARTSOPERATING TEMPERATURE RANGE-40 to 150C Part No. Resistance [25C] () Resistance tolerance B constant [25/50C] (K) B constant [25/75C] (K) B constant [25/85C] (K) B constant [25/100C] (K) B constant tolerance NTCG103JF103FT1S NTCG104EF104FT1SX 10,000 100,000 1% 1% 3380 4250 3422 4293 3435 4308 3453 4327 1% 1% Permissible operating current [25C] (mA) 0.31 0.10 Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20170307 / tpd_automotive_ntc-thermistor_ntcg_en.fm (8/17) Temperature Protection Devices Product compatible with RoHS directive Compatible with lead-free solders AEC-Q200 NTC Thermistors Automotive grade:Corresponding to 125,150C NTCG series 1608 type SHAPE & DIMENSIONS RECOMMENDED LAND PATTERN 0.80.1 0.6 to 0.8 1.60.1 0.6 to 0.8 0.6 to 0.8 0.6 to 0.8 0.80.1 0.2 min. Electrode material Internal:Pd External:Ag/Ni/Sn Dimensions in mm 125C RESPONSE COUNTERPARTSOPERATING TEMPERATURE RANGE-40 to 125C Part No. Resistance [25C] () Resistance tolerance B constant [25/50C] (K) B constant [25/75C] (K) B constant [25/85C] (K) B constant [25/100C] (K) B constant tolerance NTCG163EH101HTDS NTCG164BH222JTDS NTCG164BH472JTDS NTCG163JF103FTDS NTCG163JF103HTDS NTCG163JH103HTDS NTCG163JX103DTDS NTCG164BH103JTDS NTCG164LH223JTDS NTCG164LH473HTDS NTCG164LH473JTDS NTCG164KF104FTDS NTCG164LH104JTDS NTCG164LH154JTDS 100 2,200 4,700 10,000 10,000 10,000 10,000 10,000 22,000 47,000 47,000 100,000 100,000 150,000 3% 5% 5% 1% 3% 3% 0.5% 5% 5% 3% 5% 1% 5% 5% 3244 4096 4067 3380 3380 3380 3380 4067 4485 4485 4485 4419 4485 4485 3249 4100 4092 3422 3422 3422 3422 4092 4533 4533 4533 4468 4533 4533 3250 4100 4100 3435 3435 3435 3435 4100 4550 4550 4550 4485 4550 4550 3251 4100 4110 3453 3453 3453 3453 4110 4573 4573 4573 4509 4573 4573 3% 3% 3% 1% 1% 3% 0.7% 3% 3% 3% 3% 1% 3% 3% Permissible operating current [25C] (mA) 3.16 0.67 0.46 0.31 0.31 0.31 0.31 0.31 0.21 0.14 0.14 0.10 0.10 0.08 150C RESPONSE COUNTERPARTSOPERATING TEMPERATURE RANGE-40 to 150C Part No. Resistance [25C] () Resistance tolerance B constant [25/50C] (K) B constant [25/75C] (K) B constant [25/85C] (K) B constant [25/100C] (K) B constant tolerance NTCG163JF103FT1S NTCG163JX103DT1S NTCG164KF104FT1S 10,000 10,000 100,000 1% 0.5% 1% 3380 3380 4419 3422 3422 4468 3435 3435 4485 3453 3453 4509 1% 0.7% 1% Permissible operating current [25C] (mA) 0.31 0.31 0.10 Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20170307 / tpd_automotive_ntc-thermistor_ntcg_en.fm (9/17) Temperature Protection Devices NTC Thermistors Automotive grade:Corresponding to 125,150C Product compatible with RoHS directive Compatible with lead-free solders AEC-Q200 NTCG series RT table RT CONVERSION TABLE: 100 to 22k Part No. Resistance B constant(25/85C) B constant(25/50C) temperature (C) -40 -35 -30 -25 -20 -15 -10 -5 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 85 90 95 100 105 110 115 120 125 130 135 140 145 150 NTCG 3E 101 to 100 3250 3244 Resistance (k) 1.96 1.48 1.13 0.87 0.68 0.53 0.42 0.33 0.269 0.218 0.177 0.146 0.120 0.100 0.084 0.070 0.059 0.050 0.043 0.037 0.032 0.028 0.024 0.021 0.018 0.016 0.014 0.013 0.011 0.010 0.009 0.008 0.007 0.006 -- -- -- -- -- NTCG 4B 222 to 2.2 k 4100 4096 Resistance (k) 91.91 64.79 46.23 33.37 24.36 17.97 13.39 10.08 7.655 5.868 4.536 3.536 2.779 2.200 1.755 1.410 1.140 0.928 0.760 0.626 0.519 0.433 0.363 0.305 0.258 0.220 0.188 0.161 0.139 0.120 0.104 0.091 0.079 0.069 -- -- -- -- -- NTCG 4B 472 to 4.7 k 4100 4067 Resistance (k) 180.7 128.5 92.51 67.35 49.56 36.84 27.65 20.94 16.01 12.34 9.583 7.503 5.917 4.700 3.758 3.025 2.450 1.996 1.636 1.348 1.117 0.930 0.779 0.655 0.553 0.469 0.400 0.342 0.294 0.254 0.220 0.191 0.166 0.146 -- -- -- -- -- NTCG 3J 103 to 10 k 3435 3380 Resistance (k) 188.5 144.3 111.3 86.6 67.8 53.46 42.45 33.93 27.28 22.07 17.96 14.70 12.09 10.00 8.31 6.94 5.826 4.911 4.158 3.536 3.019 2.588 2.227 1.924 1.668 1.451 1.267 1.110 0.975 0.860 0.760 0.674 0.599 0.534 0.478 0.428 0.385 0.346 0.313 NTCG 4B 103 to 10 k 4100 4067 Resistance (k) 384.4 273.4 196.8 143.3 105.4 78.37 58.83 44.56 34.06 26.25 20.39 15.96 12.59 10.00 7.997 6.437 5.213 4.248 3.481 2.869 2.377 1.979 1.657 1.393 1.177 0.999 0.851 0.729 0.626 0.540 0.468 0.406 0.354 0.310 -- -- -- -- -- NTCG 4L 223 to 22 k 4550 4485 Resistance (k) 1120 780.9 550.8 392.7 282.9 205.8 151.1 112.0 83.71 63.10 47.94 36.71 28.32 22.00 17.21 13.55 10.74 8.565 6.871 5.543 4.497 3.668 3.007 2.478 2.052 1.707 1.426 1.197 1.009 0.853 0.725 0.618 0.529 0.454 -- -- -- -- -- The ends "1S ," refer to 150C divisions Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20170307 / tpd_automotive_ntc-thermistor_ntcg_en.fm (10/17) Temperature Protection Devices NTC Thermistors Automotive grade:Corresponding to 125,150C Product compatible with RoHS directive Compatible with lead-free solders AEC-Q200 NTCG series RT table RT CONVERSION TABLE: 47k to 150k Part No. Resistance B constant(25/85C) B constant(25/50C) temperature (C) -40 -35 -30 -25 -20 -15 -10 -5 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 85 90 95 100 105 110 115 120 125 130 135 140 145 150 NTCG 4L 473 to 47 k 4550 4485 Resistance (k) 2392 1668 1177 838.9 604.3 439.6 322.8 239.2 178.8 134.8 102.4 78.42 60.50 47.00 36.77 28.95 22.95 18.30 14.68 11.84 9.607 7.836 6.425 5.294 4.383 3.646 3.046 2.557 2.155 1.823 1.549 1.321 1.130 0.971 -- -- -- -- -- NTCG 4B 683 to 68 k 4150 4085 Resistance (k) 2409 1719 1246 916.0 681.0 511.4 387.4 295.9 227.7 176.5 137.7 108.2 85.51 68.00 54.40 43.77 35.41 28.81 23.56 19.37 16.00 13.28 11.08 9.284 7.814 6.604 5.604 4.775 4.083 3.505 3.019 2.609 2.262 1.967 -- -- -- -- -- NTCG 4K 104 to 100 k 4485 4419 Resistance (k) 4864 3400 2405 1720 1243 907.6 669.0 497.6 373.4 282.5 215.5 165.6 128.2 100.0 78.51 62.05 49.34 39.48 31.77 25.71 20.92 17.12 14.07 11.62 9.649 8.046 6.738 5.667 4.786 4.057 3.453 2.950 2.529 2.176 1.878 1.626 1.412 1.230 1.075 NTCG 4E 104 to 100 k 4308 4250 Resistance (k) 4251 3005 2149 1554 1135 837.8 624.1 469.1 355.6 271.8 209.4 162.5 127.0 100.0 79.23 63.18 50.68 40.90 33.19 27.09 22.22 18.32 15.18 12.64 10.58 8.887 7.500 6.357 5.410 4.623 3.966 3.415 2.952 2.561 2.229 1.947 1.707 1.501 1.324 NTCG 4L 104 to 100 k 4550 4485 Resistance (k) 5089 3549 2503 1785 1286 935.3 686.9 509.0 380.5 286.8 217.9 166.9 128.7 100.0 78.23 61.60 48.82 38.93 31.23 25.20 20.44 16.67 13.67 11.26 9.325 7.757 6.482 5.440 4.584 3.879 3.295 2.810 2.405 2.066 -- -- -- -- -- NTCG 4L 154 to 150 k 4550 4485 Resistance (k) 7634 5324 3755 2677 1929 1403 1030 763.5 570.7 430.2 326.9 250.3 193.1 150.0 117.3 92.40 73.23 58.40 46.84 37.79 30.66 25.01 20.50 16.89 13.99 11.64 9.722 8.159 6.876 5.819 4.943 4.215 3.607 3.098 -- -- -- -- -- The ends "1S ," refer to 150C divisions Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20170307 / tpd_automotive_ntc-thermistor_ntcg_en.fm (11/17) Temperature Protection Devices Product compatible with RoHS directive Compatible with lead-free solders AEC-Q200 NTC Thermistors Automotive grade:Corresponding to 125,150C Attention in the board design BOARD DESIGN When attached to NTC substrate thermistor, amount of silver used (fillet size) has direct impact on NTC thermistor after mounting. Thus, sufficient consideration is necessary. Set of land dimensions (1) As the stress rises in the NTC thermistor owing to the increase in silver, breakage and cracks will occur. Cause including crack, as caution on board land design, configure the shape and dimensions so that the amount of silver is appropriate. If you installed 2 or more parts in the Common Land, separated by a solder resist and special land of each component. Dimensions shape (2) When peak levels panning-at soldering is excessive, by solder contraction stress, mechanical-thermal stress causes a Yasuku chip crack. In addition, when the peak level is underestimated, terminal electrode fixed strength is insufficient. This causes chip dropouts and may affect circuit reliability. Representative example of the panning of peak levels is shown in the following. Recommended silver dose Solder stress is increased, and it is easy for a crack to form. Solder volume overload Most large serving amount Minimum prime amount Decent solder volume C B Shape symbol 1005 1608 A Symbol A 0.30 to 0.50 0.6 to 0.8 Fixed strength is weak, and there is connection a problem and risk of loss. Solder volume deficit Case and suggested protocol want to avoid B 0.35 to 0.45 0.6 to 0.8 C 0.4 to 0.6 0.6 to 0.8 Example Improvement example (land division) Cases to avoid Leads Chip Leads Solder Solder resist Lead wire and land of part discrete doubles up PCB Chassis Solder (ground solder) Solder resist Arrangements in the vicinity L1 L2 L2>L1 Land Arrangements of chip component's companion Excess solder Solder resist Land Missing solder Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20170307 / tpd_automotive_ntc-thermistor_ntcg_en.fm (12/17) Temperature Protection Devices Product compatible with RoHS directive Compatible with lead-free solders AEC-Q200 NTC Thermistors Automotive grade:Corresponding to 125,150C Attention in the board design Arrangements of components (1) I was based on camber of substrate and suggested protocol of NTC thermistor arrangement, as stress does not join to the utmost is shown in following. (2) In payment near by board, depending on mount position of NTC PTC, as mechanical stress varies, please refer to the following diagram. Substrate for flexural stress Substrate for flexural stress Adverse events Good example E D Perforation Perforation or slit C Perforation or slit Direction of surface solder B A Slit Solder the mountain fold as a Solder the mountain fold as a top. bottom. Perforation or slit Perforation or slit The order of A > B = C > D > E eases the stress. Chip arrangements (direction) Mounted vertically to the perforation and slit. L1 Distance from perforation and slit portion Mounted horizontally to the perforation and slit. L2 (L1<L2) Close location is disadvantageous of perforation and slit. (L1<L2) It is an advantage so distant location away places the perforation and slit. Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20170307 / tpd_automotive_ntc-thermistor_ntcg_en.fm (13/17) Temperature Protection Devices Product compatible with RoHS directive Compatible with lead-free solders AEC-Q200 NTC Thermistors Automotive grade:Corresponding to 125,150C Attention on the mounting APPLICATION TO BOARD Reflow temperature profile Cases to avoid Recommended case Preheating T4 T3 T2 Support pin Double-sided mounting T3 t3 T1 t1 t2 t: Time Item Crack Single-sided mounting Natural cooling Soldering Peak T: Temperature Mounting head pressure Under suction nozzle if dead point too, during implementation, excessive force joins of NTC thermistor low, as cause causes of crack, please use with reference to something about following. 1) Being set to top surface of substrate so that under suction nozzle as for dead center, substrate does not bend back, and adjust, please. 2) Nozzle pressure at implementation is 0.1 to 0.3 N in static load, please. 3) Substrate fixes up back surface of substrate with support pin in impact of suction nozzle to wely deflection to the utmost, and substrate hold deflection, please. A representative example is shown in the following. Preheating temperature Solder melting temperature Maximum temperature Preheating time Time to reach higher than the solder melting temperature number of possible reflow cycles Specification for eutectic mixture solder 160 to 180C 200C 240C max 100s max. For lead-free solder 150 to 180C 230C 260C max. 120s max. 30s max. 40s max. 2 max. 2 max. SOLDERING IRON Solder peeling Crack Support pin Mechanical shock that, if positioning your nail to wear, ragged edge of positionings, participates in NTC thermistor are locally, and NTC thermistor, as there is possibility of crack generated, cut the closed positioning, and maintenance and inspection, and, exchange of manage dimensions and position nail periodically, please. SOLDERING Significant impact is possible on the performance of NTC thermistor, flux checks something about follow, please use. (1) Flux uses one with 0.1wt % (Cl conversion) or less halide substance contains amounts, please. In addition, do not do this with strongly acidic objects. (2) Flux during is soldered (2) NTC substrate thermistor is applied the smalleset amount necessary, please. (3) If Used soluble flux, perform thorough wash particularly, please. (1) The tip temperature and also by (1) types of soldering irons, the size of the substrate, and the geometry of the land pattern.Being earlier, but when as there is possibility that crack occurs in the heat anderson impaction, point soldering iron temperature is high, please do solder work within the following conditions. Temperature Pallet point Wattage Soldering time of iron tips shape (Second) W C mm 350max. 20max. o3.0max. 5 max. Frequency Within each terminal once (Within total of twice) (2) Direct iron tip is in contact with the (2) NTC thermistor body, and the strain owing to thermal shock in particular grows even if a crack is generated. Therefore, please do not touch it directly to the terminal electrodes. Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20170307 / tpd_automotive_ntc-thermistor_ntcg_en.fm (14/17) Temperature Protection Devices Product compatible with RoHS directive Compatible with lead-free solders AEC-Q200 NTC Thermistors Automotive grade:Corresponding to 125,150C Attention after mounting CLEANING (1) If cleaning liquid is inappropriate, residues and other foreign body of fluxes builds up on NTC PTC surface, and can degrade the performance of NTC thermistor (particularly the insulation resistance). (2) Wash conditions may compromise performance of NTC thermistor if they are improper (wash due, wash excess). (2) During each substrate operational check, push pressure with contact failure of check pin of boards checkers of check pin may be toned up to be prevented. As substrate is bent under loading, NTC thermistor is broken owing to stress. There is also the possibility that solder on the terminal electrode will peel off. Follow the diagram for reference, and check that the substrate bends, please. Item 2-1) For wash due (a)By substance of a system in flux residue halide, metal including terminal electrodes may experience corrosion. (b)Substance of a system in flux residue halide builds up on NTC PTC surface, and reduces the insulation resistance. (c) Soluble flux makes comparisons of colophony series flux, and there is event with trends of significant (1) and(2). 2-2) For excess wash (1) Owing to lavage, NTC PTC surface deteriorates, and reduces performance of NTC thermistor. (2) In ultrasonography, when output is passed, substrate resonates size, and crack occurs in body and sprang of NTC thermistor in vibration of substrate. Since this may reduce the strength of the terminal electrode, please note the following conditions. Output Ultrasound output Frequency Ultrasonic frequency Cleaning time Ultrasound cleaning time 2-3) Concentration including halogen that when cleaning liquid to pollution, when you released is higher, and may cause similar of results into wash due. Cases to avoid Recommended case Peeling Support pin Substrate sags Check pin Check pin SINGLE-PART COMPONENT HANDLING (1) To drop impact, as there is possibility that breakage and crack is entered, do not NTC thermistor that(1) NTC thermistor falls. Crack Floor (2) At stacking storage after implementation and treatment of substrate, corner of boards is regarded as NTC thermistor. Please be careful, as there is the possibility that breakage and cracks will occur on impact. Crack Board SUBSTRATE HANDLING AFTER COMPONENT MOUNTING (1) When substrate is divided, a flexible so that show in following diagram to substrate, and is given by stress including twist, as there is possibility that crack occurs of NTC thermistor, please check that stress is within acceptable limits. Bends Twist Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20170307 / tpd_automotive_ntc-thermistor_ntcg_en.fm (15/17) Temperature Protection Devices Product compatible with RoHS directive Compatible with lead-free solders AEC-Q200 NTC Thermistors Automotive grade:Corresponding to 125,150C Packaging style REEL DIMENSIONS PACKAGE QUANTITY, PRODUCT WEIGHT Type 2.00.5 Individual weight (mg) 2.5 5.0 o60min. NTCG10 NTCG16 Package quantity (pieces/reel) 10,000 4,000 0.8 o130.2 9.0max. o210.8 14.0max. o1802.0 Dimensions in mm 2.00.05 4.00.1 A 8.00.3 B 3.50.05 1.5 +0.1 0 1.750.1 TAPE DIMENSIONS T P1 Dimensions in mm Type NTCG10 NTCG16 A 0.65+0.05/-0.1 1.10.2 160min. Drawing direction Taping B 1.15+0.05/-0.1 1.90.2 P1 20.05 40.1 T 0.65max. 1.1max. 200min. 300min. Dimensions in mm Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20170307 / tpd_automotive_ntc-thermistor_ntcg_en.fm (16/17) Temperature Protection Devices NTC Thermistors Automotive grade:Corresponding to 125,150C Product compatible with RoHS directive Compatible with lead-free solders AEC-Q200 Description and definition of terms INITIAL RESISTANCE Thermistor resistance is a function of absolute temperature as indicated by the following relationship: 1 1 ............................................................ (1) - R=R0 * expB T T0 ( ) Here R0, R(k) are the respective resistance values when the surrounding temperature is T0, T(K). B is the thermistor constant(B constant below). B CONSTANT The B constant is found from the following equation: B= 2.3026(logR-logR0) 1 - 1 T T0 ....................................................... (2) This B characteristic is indicated by the slope of the linear plot of log R-1/T inverse absolute temperature. The B constant value is generally in the vicinity of 2500K to 5000K. B constant values of 3000K to 4000K are frequently used for measurements. Resistance-temperature characteristics (Fig.1) 450 400 350 300 Temperature(C) 250 200 150 100 100 20k/200C Resistance (k) 10 3.3k/100C 1 1.4 1.6 1.8 2 2.2 1 x10 3 (K) T 2.4 2.6 2.8 3 TEMPERATURE COEFFICIENT The relationship between temperature coefficient and B becomes: B 1 dR = * = - 2 100(%/C) ............................................. (3) T R dT The negative sign of the temperature coefficient indicates that the temperature coefficient decreases as both thermistor resistance and temperature rise. If B is taken as 3400K, the temperature coefficient found at 20C (293.15K) becomes -4%/C. Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20170307 / tpd_automotive_ntc-thermistor_ntcg_en.fm (17/17) Temperature Protection Devices HEAT DISSIPATION COEFFICIENT Temperature rises due to thermal energy formed as electrical current flows through the thermistor. The thermistor temperature T0 is then related to the surrounding temperature Ta and the electrical input W: W=k(T0-Ta)=V*I(mW) ............................................................ (4) k= W (mW/C) .............................................................. (5) T0 -Ta This k value is the heat dissipation coefficient, which represents the additional electrical power (mW/C) needed to raise the thermistor temperature by 1C. This heat dissipation coefficient varies with changes in the measurement and environmental conditions. When a thermistor is used for temperature measurement, it is naturally important to lower the applied electrical current as much as possible in order to reduce measurement error resulting from self heating. VOLTAGE - CURRENT CHARACTERISTIC The voltage - current characteristic indicates the drop in voltage as electrical current through the thermistor is gradually increased. Voltage-current characteristics (Fig.2) 100 5 4 10 3 Voltage (V) 2 1 1 0.1 Ta=25C (in still air) No.1 5k 2 10k 3 20k 4 50k 5 100k 10 100 1 Current (mA) HEATING TIME CONSTANT The time period required to heat up a thermistor from a certain temperature T0 over a target temperature rise is called the heating time constant. Various types of heating time constants are indicated by the symbols shown in Table 1 as determined by the percent change from T0 toward the target temperature. The standard change is typically taken to be 63.2%. Thermal time constants (Fig.3) 70 Table 1 Heating time constant and temperature change ratio Heating Code 2 3 4 5 6 7 Th 40 Tc 30 20 (T0 -Ta) x0.368 Temperature (C) 50 T0 (T0 -Ta) x0.632 60 Room temperature Ta Cooling Rate of change (%) for T0 -Ta 63.2 86.5 95.0 98.2 99.4 99.8 99.9 10 0 2 3 4 5 6 7 PERMISSIBLE OPERATING CURRENT This is the maximum load current limit below 1C temperature rise due to thermistor self-heating. It's possible to express it in the following system. Maximum allowed current [mA] Heat dissipation constant[mW/C] / Resistance[] Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20170307 / tpd_automotive_ntc-thermistor_ntcg_en.fm