thermal dissipation coefficient ( d ) the thermal dissipation coefficient is the ratio, normally expressed in milliwatts per degree c (mw/ o c), at a specified ambient temperature, of a change in power dissipation in a thermist or to the resultant body temperature change. ( d =vxi/ d t) thermal time constant( t ) the thermal time constant is the time required for a thermistor to change 63.2 percent of total difference between its initial and final body temperature when subjected t o a step function change in ambient temperature under zero - power condition and is normally expressed in seconds. material constant(b) the material constant of a ntc thermistor is a measure of its resistance at one temperature compared to its resistance at a different temperature. its value may be calculated by the formula shown below and is expressed in degrees kelvin ( o k ). the reference temperature used in this formula for determining material constant rating of meritek?s thermistor is 298.15' o k and 3 23.15 o k b=ln(r 1 /r 2 )/( 1/t 1 - 1/t 2 ) temperature coefficient of resistance ( a ) the temperature coefficient of resistance is the ratio at a specified temperature, t, of the rate of change of zero - power resistance with temperature to the zeropower resistan ce of the thermistor. the temperature coefficient is commonly expressed in percent per degree c(%/ o c). a = i /r dr/dt surge energy surge energy is the maximum energy of pulses. the thermistor is capable of tolerating surge ene rgy more than 1000 times with the resistance changing rates within 10%. this energy varies with voltage and capacitance. storage temperature range: - 40 to +125 o c operating temperature range: - 30 to +125 o c derating curve of surge current limiting thermistor the maximum power of a thermistor will decrease with the change of ambient temperature.(see fig.g) o.03 ntc power thermistor, sck series meritek www.datasheet.co.kr datasheet pdf - http://www..net/
o.4 ntc power thermistor, sck series meritek part no zero power resistance at 25 o c ( ) max. steady state current at 25 o c ( a ) approx. resistance at max.current at 25 o c ( m ) the rmal dissipation constant ( mw/ o c ) thermal time constant ( sec. ) operating temperature ( o c ) sck05 - 052 5 2 429 14 17 - 40~+150 sck05 - 101 10 1 1126 15 17 - 40~+150 sck05 - 20x3 20 0.3 5560 14 22 - 40~+150 sck08 - 042 4 2 441 17 31 - 40~+170 sck08 - 053 5 3 261 17 36 - 40~+170 sck08 - 063 6 3 283 17 38 - 40~+170 sck08 - 082 8 2 520 16 36 - 40~+170 sck08 - 102 10 2 542 17 38 - 40~+170 sck08 - 152 15 2 548 15 38 - 40~+170 sck08 - 201 20 1 1544 17 41 - 40~+170 sck08 - 30x 30 0.5 4094 16 33 - 40~+170 sck10 - 2r55a 2.5 5 120 18 46 - 40~+170 sck10 - 034 3 4 156 18 45 - 40~+170 sck10 - 035 3 5 119 18 45 - 40~+170 sck10 - 044 4 4 161 16 40 - 40~+170 sck10 - 054 5 4 180 17 33 - 40~+170 sck10 - 083 8 3 278 17 43 - 40~+170 sck10 - 103 10 3 297 17 46 - 40~+170 sck10 - 122 12 2 512 18 50 - 40~+170 sc k10 - 123 12 3 301 18 50 - 40~+170 sck10 - 133 13 3 356 18 49 - 40~+170 sck10 - 152x 15 2.5 442 17 51 - 40~+170 sck10 - 162 16 2 604 18 55 - 40~+170 sck10 - 162x 16 2.5 442 16 45 - 40~+170 sck10 - 202 20 2 646 17 54 - 40~+170 sck10 - 252 25 2 674 17 52 - 40~+170 sck10 - 3 02 30 2 700 17 50 - 40~+170 sck10 - 472 47 2 720 18 49 - 40~+170 sck10 - 501x 50 1.5 1170 18 48 - 40~+170 sck10 - 502 50 2 813 18 48 - 40~+170 sck10 - 801 80 1 2236 17 53 - 40~+170 sck10 - 1001 100 1 2318 17 45 - 40~+170 sck10 - 1201 120 1 2406 19 54 - 40~+170 www.datasheet.co.kr datasheet pdf - http://www..net/
o.05 ntc power thermistor, sck series 13 ? & 15 ? meritek par t no zero power resistance at 25 o c ( ) max. steady state current at 25 o c ( a ) approx. resistance at max. current at 25 o c ( m ) thermal dissipation constant ( mw/ o c ) thermal time constant ( sec. ) operating temperature ( o c ) sck13 - 1r37 1.3 7 70 17 49 - 40~+200 sck13 - 2r55 2.5 5 117 17 61 - 40~+200 sck13 - 2r56 2.5 6 94 17 48 - 40~+200 sck13 - 055 5 5 166 18 75 - 40~+200 sck13 - 084 8 4 206 17 65 - 40~+200 sck13 - 104 10 4 217 17 66 - 40~+200 sck13 - 124 12 4 217 17 66 - 40~+200 sck13 - 153 15 3 343 18 66 - 40~+200 sck13 - 163 16 3 348 16 68 - 40~+200 sck13 - 203 20 3 410 20 76 - 40~+200 sck15 - 1r38 1.3 8 64 21 59 - 40~+200 sck15 - 1r58 1.5 8 62 21 66 - 40~+200 sck15 - 028 2 8 78 20 63 - 40~+200 sck15 - 2r58 2.5 8 75 20 63 - 40~+200 sck15 - 037 3 7 91 21 73 - 40~+200 sck15 - 046 4 6 117 20 62 - 40~+200 sck 15 - 048 4 8 87 27 76 - 40~+200 sck15 - 056 5 6 121 20 66 - 40~+200 sck15 - 057 5 7 98 20 65 - 40~+200 sck15 - 065 6 5 159 20 74 - 40~+200 sck15 - 075 7 5 161 20 79 - 40~+200 sck15 - 078 7 8 108 28 57 - 40~+200 sck15 - 086 8 6 130 20 68 - 40~+200 sck15 - 105 10 5 178 20 7 9 - 40~+200 sck15 - 125 12 5 185 19 59 - 40~+200 sck15 - 152 15 2 704 21 77 - 40~+200 sck15 - 154 15 4 261 19 79 - 40~+200 sck15 - 164 16 4 261 19 79 - 40~+200 sck15 - 204 20 4 283 18 90 - 40~+200 sck15 - 253 25 3 425 21 76 - 40~+200 sck15 - 303 30 3 461 20 90 - 40~+200 sck15 - 403 40 3 511 22 83 - 40~+200 sck15 - 404 40 4 360 22 86 - 40~+200 sck15 - 473 47 3 501 20 77 - 40~+200 sck15 - 802x 80 2.5 693 19 71 - 40~+200 sck15 - 1202 120 2 1010 19 65 - 40~+200 www.datasheet.co.kr datasheet pdf - http://www..net/
o.06 ntc power thermistor, sck series 20 ? meritek part no zero power resistance at 25 o c ( ) max. steady state current at 25 o c ( a ) approx. resistance at max. current at 25 o c ( m ) thermal dissipation constant ( mw/ o c ) thermal time constant ( sec. ) operating temperature ( o c ) sck 20 - 0r78 0.7 8 59 28 96 - 40~+200 sck20 - 0r715 0.7 15 35 29 122 - 40~+200 sck20 - 0120 1 20 20 25 73 - 40~+200 sck20 - 2r512 2.5 12 60 29 104 - 40~+200 sck20 - 2r515 2.5 15 46 29 103 - 40~+200 sck20 - 058 5 8 93 28 101 - 40~+200 sck20 - 0510 5 10 82 29 123 - 40~+200 s ck20 - 0512 5 12 66 29 124 - 40~+200 sck20 - 106 10 6 173 32 100 - 40~+200 sck20 - 108 10 8 122 29 119 - 40~+200 sck20 - 128 12 8 106 24 130 - 40~+200 sck20 - 138 13 8 106 24 130 - 40~+200 sck20 - 206 20 6 190 28 107 - 40~+200 dimensions: unit: mm disc ? d max l min d p tmax 05 6.5 31 0.8 0.02 4 0.6 5 08 9.5 31 0.8 0.02 5 0.8 5 10 11.5 31 0.8 0.02 5 0.8 5 13 14.5 30 0.8 0.02 7.5 1.1 6 15 16.5 29 1.0 0.02 8 1.2 6 20 21.5 26 1.0 0.02 8 1.2 6 www.datasheet.co.kr datasheet pdf - http://www..net/
r - t characteristic 5 ? 8 ? v - i characteristic curve 5 ? 8 ? o.07 ntc power thermistor, sck series meritek 0.1 1 10 100 1000 -30 -20 -10 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 sck-20x3 sck-101 sck-052 temperature j resistance - ohm resistance - temperature curve of 5 f series 0.1 1 10 0.01 0.1 1 10 100 current (a) voltage (v) 2 5 0.5 0.2 0.02 0.05 0.2 0.5 2 5 20 50 50w 10w 20w 5w 2w 1w 0.5w 0.2w 0.1w 0.05w 200 w 100 w 50 w 20 w 10 w 5 w 2 w 1 w 0.2 w 0.1w 0.5 w 0.05w 0.02w 0.01w sck-101 sck-20x3 sck-052 temperature j resistance - ohm 0.1 1 10 100 1000 -30 -20 -10 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 resistance - temperature curve of 8 f series sck-201 sck-102 sck-053 sck-152 sck-042 sck-082 0.1 1 10 0.01 0.1 1 10 100 voltage (v) 2 5 0.5 0.2 0.02 0.05 0.2 0.5 2 5 20 50 50w 10w 20w 5w 2w 1w 0.5w 0.2w 0.1w 0.05w 200 w 100 w 50 w 20 w 10 w 5 w 2 w 1 w 0.2 w 0.1w 0.5 w 0.05w 0.02w 0.01w sck-102 sck-201 sck-053 sck-082 sck-042 sck-152 current (a) www.datasheet.co.kr datasheet pdf - http://www..net/
r - t characteristic 10 ? 13 ? v - i characteristic curve 10 ? 13 ? o.08 ntc power thermistor, sck series meritek 0.01 0.1 1 10 100 1000 10000 -30 -20 -10 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 temperature j resistance - temperature sck-1201 sck-801 sck-202 sck-501x sck-083 sck-162 curve of 10 f series resistance - ohm sck-103 sck-054 sck-2r55a sck-015 0.1 1 10 0.01 0.1 1 10 100 voltage (v) 2 5 0.5 0.2 0.02 0.05 0.2 0.5 2 5 20 50 50w 10w 20w 5w 2w 1w 0.5w 0.2w 0.1w 0.05w 200 w 100 w 50 w 20 w 10 w 5 w 2 w 1 w 0.2 w 0.1w 0.5 w 0.05w 0.02w 0.01w sck-054 sck-015 sck-083 sck-103 sck-162 sck-2r55a sck-202 sck-501x sck-801 sck-1201 temperature j resistance - ohm 0.1 1 10 100 1000 -30 -20 -10 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 resistance - temperature curve of 13 f series sck-203 sck-153 sck-104 sck-084 sck-055 sck-2r56 sck-1r37 0.1 1 10 0.01 0.1 1 10 100 voltage (v) 2 5 0.5 0.2 0.02 0.05 0.2 0.5 2 5 20 50 50w 10w 20w 5w 2w 1w 0.5w 0.2w 0.1w 0.05w 200 w 100 w 50 w 20 w 10 w 5 w 2 w 1 w 0.2 w 0.1w 0.5 w 0.05w 0.02w 0.01w sck-055 sck-2r56 sck-104 sck-084 sck-153 sck-1r37 sck-203 current (a) current (a) www.datasheet.co.kr datasheet pdf - http://www..net/
r - t characteristic 15 ? 20 ? v - i characteristic curve 15 ? 20 ? o.09 ntc power thermistor, sck series meritek current (a) current (a) 0.01 0.1 1 10 100 1000 -30 -20 -10 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 temperature j resistance - temperature curve of 15 f series sck-473 sck-403 sck-253 sck-204 sck-164 sck-105 sck-075 sck-037 sck-2r58 sck-1r58 sck-1r38 resistance - ohm sck-056 0.1 1 10 0.01 0.1 1 10 100 voltage (v) 2 5 0.5 0.2 0.02 0.05 0.2 0.5 2 5 20 50 50w 10w 20w 5w 2w 1w 0.5w 0.2w 0.1w 0.05w 200 w 100 w 50 w 20 w 10 w 5 w 2 w 1 w 0.2 w 0.1w 0.5 w 0.05w 0.02w 0.01w sck-075 sck-1r38 sck-037 sck-105 sck-204 sck-1r58 sck-473 sck-164 sck-403 sck-253 sck-2r58 sck-056 temperature j resistance - ohm 0.01 0.1 1 10 100 1000 -30 -20 -10 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 resistance - temperature curve of 20 f series sck-206 sck-108 sck-0512 sck-2r515 sck-0120 0.1 1 10 0.01 0.1 1 10 100 voltage (v) 2 5 0.5 0.2 0.02 0.05 0.2 0.5 2 5 20 50 50w 10w 20w 5w 2w 1w 0.5w 0.2w 0.1w 0.05w 200 w 100 w 50 w 20 w 10 w 5 w 2 w 1 w 0.2 w 0.1w 0.5 w 0.05w 0.02w 0.01w sck-0512 sck-2r515 sck-108 sck-0120 sck-206 current (a) www.datasheet.co.kr datasheet pdf - http://www..net/
ntc thermistor - inrush current limiting devices meritek ntc power thermistor (sck) devices are made of a specially formulated metal oxide ceramic material which is capable of suppressing high inrush current surges. sck devices, being of relatively hig h resistance, shall limit the inrush current for i - 2 seconds during which time the device decreases in resistance substantially to a point where its voltage drop is negligible. the devices are especially useful in power supplies (see fig a) because of th e extremely low impedance of the capacitor being charged, of which the bridge is usually subjected to an exceedingly high current surge at turn on point. features * high inrush current restriction effect. * small power loss in stationary state. (normal ly iw or less than 50w power.) * high thermal and electrical stability. * wide selection of electrical characteristics. * special coating material: gray silicone. application as shown in fig. b, the current surge can be eliminated by p lacing a ntc thermistor in series with a filament string. yet, if the resistance of one ntc thermistor does not provide sufficient inrush current limiting functions for your application, two or more may be used in series or in separate legs of the supply c ircuit(fig. a). notic that , the thermistor cannot be used in parallel since one unit will tend to conduct nearly all the current available. thus, sck thermistor may be used in the ac(point ai or a2) or the dc(point di or d2) locations in the circuit.(see fig. a) the resistance of ntc thermistors is designed higher than the total resistance of filaments when the circuit is turned on. as current begins flowing, the thermistor shall immediately "self - heat". then, in i - 2 seconds, its resistance will be redu ced to a minimum and become insignificant to the total resistance of a circuit. with the same concept, current surges in electric motors can be held to a minimum. fig. c shows a typical dc motor's turn on surge before and after the application of a sck th ermistor to the circuit. ntc thermistor characteristics to choose for application or take as referable parameters, the ntc thermistors are usually decided by the following three fundamental characteristics: * temp erature - resistance characteristic: the resistance value of ntc thermistor is decreased while the ambient temperature or itself temperature is increased. (see fig.d) nominal resistance at 25 o c ( w ) r 25 zero - power resistance ( w ) r t tolerance on the resistance nominal d r 25 /r 25 =15%(l),20%(m) material constant(sensibility index)( o k) b temperature coefficient of resistance(% o c) a t o.01 ntc power thermistor, sck series meritek www.datasheet.co.kr datasheet pdf - http://www..net/
voltage - current characteristic: when operating in small current (see fig.e), the low power will not allow the ntc thermistor self - hot, thus its resistance value is thus maintained constant and displayed with a linear curve (in conformity with o hm - law v/r=i ). if the current is increased, the ntc thermistor will follow joule - efficiency(p=v x i ) and make itself self - heated, resulting in a decreasing resistance value current and voltage are then inversely related. thermal dissipatio n coefficient(mw/ o c) d maximum steadystate current(a) imax resistance at maximum current( w ) rimax temperature - time characteristic: as shown in fig. f which explains the time needed to reach the thermal equilibrium of ntc component s with the environment. this characteristic depends on two important parameters as outlined below. if a step change in temperature is applied to a component e.g. from high(t 1 ) to low(t 0 ) temperature, the energy lost by the component( - hdt) is equal to the e nergy dissipated by it ( d (t - t 0 ) dt ). - hdt= ( d (t - t 0 ) dt this equation yields:t - t 1 =( t 0 t 1 ) x e 1/4 , t =h/ d o.02 parameters definition thermistor a thermistor is a thermally sensitive resistor whose primary function is to exhibit a change in resistance accompanying a change in temperature. negative temperature coefficient (ntc) thermistor ntc thermistor is a thermistor whose the zero - power resistance decreases while itself temperature is increased. inrush current inru sh current is the initial surge of current that results when power is first applied to a load having a low starting impedance, such as a discharged capacitor, a cold lamp filament, or a stopped motor, etc. inrush current limiter specially designed and con structed ntc thermistor may be used as an inrush current limiters. meritek?s inrush current limiter(sck) is available in a wide range of current handling and zero - power resistance value combinations. zero - power resistance( r t ) the zero - power resistance is the direct current resistance value of a thermistor measured at a specified temperature "t" with a power dissipation by the thermistor low enough that any further decrease in power will result in less than 0. i percent change in resistance. maximum st eady - state current (imax.) the maximum steady - state current is the rating of the maximum current, normally expressed in amperes (a), allowable to be conducted by an inrush limiting ntc thermistor for an extended period of time. resistance at maximum curre nt (rlmax.) the resistance at maximum current is the approximate resistance of an inrush current limiting thermistor, expressed in ohms( w ), when it is conducting its rated maximum steady state current. ntc power thermistor, sck series meritek www.datasheet.co.kr datasheet pdf - http://www..net/
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