Philips Components Product specification Thermistors for overload protection PTC 30, 145 and 265 V (Ts = 140 C) 2322 66. 4/5/6.... series MBE263 FEATURES APPLICATIONS DESCRIPTION * Different voltages to be chosen in function of the application * Telecommunications * Available in three mechanical versions * Industrial electronics These directly heated thermistors have a positive temperature coefficient and are primarily intended for overload protection. They consist of a naked disc or with two tinned brass leads and coated. - 2322 66. 4.... naked discs - 2322 66. 5.... leaded and coated - 2322 66. 6.... taped, on reel (to diameter 12.5 mm) * Wide range of trip and non-trip currents: from 17 mA up to 3 A for the trip current * Wide range of resistance: from 0.3 up to 3 k * Small ratio between trip and non-trip currents (It/Int = 1.5 at 25 C) * Automotive systems * Consumer electronics * Electronic data processing. QUICK REFERENCE DATA PARAMETER VALUE UNIT 140 C 2322 66. 4/5/6...1 30 to 60 V (DC) 2322 66. 4/5/6...2 145 V (RMS) 2322 66. 4/5/6...3 265 V (RMS) Switch temperature; note 1 Maximum voltage; note 2: Temperature range: * High maximum inrush current 2322 66. 4/5/6...1 -40 to +85 C * Excellent long term behaviour, also in humidity 2322 66. 4/5/6...2 0 to 70 C 2322 66. 4/5/6...3 0 to 70 C * Leaded parts withstand mechanical stresses and vibration * Clear marking: the grey lacquered thermistors with a diameter of 8.5 to 12.5 mm are marked with PH, R25 value (example 4R6) on one side and Int, Vmax on the other * UL file E148885 approval * UL approved PTCs are guaranteed to withstand severe test programmes including: Climatic category Notes 1. 2322 660 4/5/6 ...3 types, have a 120 C switch temperature. 2. Rated voltages are respectively: 24 to 48 V (DC) 120 V (RMS) 230 V (RMS). - long-life cycle tests (over 5000 trip cycles) - long-life storage tests (3000 hours at 250 C) - cycle tests at low ambient temperatures (-40 C or 0 C) - damp-heat and water immersion tests - overvoltage tests at up to 200% of rated voltage. 1996 Nov 14 40/125/56 1 Philips Components Product specification Thermistors for overload protection PTC 30, 145 and 265 V (Ts = 140 C) 2322 66. 4/5/6.... series MECHANICAL DATA handbook, full pagewidth T1 D T D 4 D 1 4 5 20 min 0.6 0.1 1 5 20 min O 0.6 O 0.6 MBE466 Dimensions in mm. For D see Table 1; for T1 and T see Table 2. Either lead configuration can be delivered. Fig.1 Component outline for 2322 66. 4/5...1/2/3. 1996 Nov 14 2 0.6 0.1 Philips Components Product specification Thermistors for overload protection PTC 30, 145 and 265 V (Ts = 140 C) Table 1 2322 66. 4/5/6.... series Device and tape dimensions, packaging and catalogue numbers D TYP. (mm) H1 MAX. (mm) PACKAGING H3 MAX. (mm) NAKED LEADED BULK LEADED TAPED CATALOGUE NUMBERS 2322 ... ..... 4.5 26 9.5 Fig.1 Fig.1 Figs 2 and 3; note 1 660 .9491; 660 .1311; 660. 1811; 660 .2711; 660 .4792; 660 .6592; 660 .9392; 660 .1112; 660 .1312; 660 .1193; 660 .1593; 660 .1993; 660 .2893; 660 .3993; 660 .6393; 660 .7693; 660 .9593 6.5 28 11.5 Fig.1 Fig.1 Figs 2 and 3; note 1 661 .3211; 661 .4111; 661 .1712; 661 .2112; 661 .1113; 661 .1413 8.0 29.5 13.0 Fig.1 Fig.1 Figs 2 and 3; note 1 661 .4711; 661 .5411; 661 .2512; 661 .2712; 661 .1713; 661 .1913 10.0 31.5 15.0 Fig.1 Fig.1 Figs 2 and 3; note 1 662 .6111; 662 .7011; 662 .3212; 662 .3612; 662 .2113; 662 .2513 12.0 53.5 17.0 Fig.1 Fig.1 Figs 4 and 5; note 1 662 .8311; 662 .9211; 662 .4112; 662 .4512; 662 .2813; 662 .3213 16.0 - - Fig.1 Fig.1 - 663 .1121; 663 .1321; 663 .6012; 663 .7112; 663 .4013; 663 .4913 20.0 - - Fig.1 Fig.1 - 664 .1721; 664 .2021; 664 .8812; 664 .1022; 664 .5913; 664 .7013 Note 1. Either lead configuration may be delivered. Table 2 Thickness dimensions and catalogue numbers 1996 Nov 14 T1 MAX. (mm) T MAX. (mm) CATALOGUE NUMBERS 2322 ... ..... 1.5 4.0 66. 4/5...1 2.7 5.0 66. 4/5...2 3.0 5.5 66. 4/5...3 3 Philips Components Product specification Thermistors for overload protection PTC 30, 145 and 265 V (Ts = 140 C) 2322 66. 4/5/6.... series Thermistors on tape P D T p h p h H3 0 0.2 H2 H1 15 o 5 o d H0 W2 L W1 W0 W MBE472 D0 P0 P1 F t T Dimensions in mm. Max. 0.5% of the total number of thermistors per reel may be missing, but no more than 3 consecutive positions may be vacant. For dimensions, see Table 3. Fig.2 Thermistors with D < 12 mm on tape for 2322 66. 6...1/2/3. 1996 Nov 14 4 Philips Components Product specification Thermistors for overload protection PTC 30, 145 and 265 V (Ts = 140 C) 2322 66. 4/5/6.... series P D T p h p h H3 0 0.2 H2 H1 15 o 5 o d H0 W2 L W1 W0 W MBE473 D0 P0 P1 F t T Dimensions in mm. Max. 0.5% of the total number of thermistors per reel may be missing, but no more than 3 consecutive positions may be vacant. For dimensions, see Table 3. Fig.3 Thermistors with D < 12 mm on tape for 2322 66. 6...1/2/3. 1996 Nov 14 5 Philips Components Product specification Thermistors for overload protection PTC 30, 145 and 265 V (Ts = 140 C) 2322 66. 4/5/6.... series P handbook, full pagewidth T p D h p h H3 0 0.2 H2 H1 d H0 W2 L 15 o 5 o W1 W0 W CCA439 D0 P0 P1 F t T Dimensions in mm. Max. 0.5% of the total number of thermistors per reel may be missing, but no more than 3 consecutive positions may be vacant. For dimensions, see Table 3. Fig.4 Thermistors D = 12 mm on tape for 2322 662 6...1/2/3. 1996 Nov 14 6 Philips Components Product specification Thermistors for overload protection PTC 30, 145 and 265 V (Ts = 140 C) 2322 66. 4/5/6.... series P T p D h p h H3 0 0.2 H2 H1 d H0 W2 L 15 o 5 o W1 W0 W MBE474 D0 P0 P1 F t T Dimensions in mm. Max. 0.5% of the total number of thermistors per reel may be missing, but no more than 3 consecutive positions may be vacant. For dimensions, see Table 3. Fig.5 Thermistors D = 12 mm on tape for 2322 662 6...1/2/3. Characteristics concerning taped thermistors PARAMETER VALUE Minimum pull out force of the component 5N Minimum pull off force of adhesive tape 6N Minimum tearing force tape 15 N Maximum pull off force tape-reel 5N Storage conditions Storage temperature range -25 to +40 C Maximum relative humidity 80% 1996 Nov 14 7 Philips Components Product specification Thermistors for overload protection PTC 30, 145 and 265 V (Ts = 140 C) 2322 66. 4/5/6.... series Tape and additional device information Table 3 Tape and other device dimensions; see Figs 1, 2, 3, 4 and 5 SYMBOL D T DIMENSIONS (mm) TOLERANCE 2322 66. 4/5/6...1 see Table 1 0.5 2322 66. 4/5/6...2 see Table 1 0.5 2322 66. 4/5/6...3 see Table 1 0.5 PARAMETER REMARKS body diameter: total thickness: 2322 66. 4/5/6...1 see Table 2 2322 66. 4/5/6...2 see Table 2 2322 66. 4/5/6...3 d lead diameter P pitch between thermistors: see Figs 2 and 3 see Table 2 0.6 10% 12.7 1 25.4 2 P0 feed hole pitch 12.7 0.3 cumulative pitch error 1 mm/20 pitches P1 feed hole centre to lead centre 3.81 0.7 guaranteed between component and tape h component alignment 0 1.3 F lead to lead distance 5 +0.6 to -0.1 h component alignment 0 2 see Figs 4 and 5 W tape width W0 hold down tape width W1 hole position W2 hold down tape position H1 component height H2 component body to seating plane 18 +1 to -0.5 12.3 - 9 0.5 3.0 - see Table 1 1 4 H3 component top to seating plane H0 lead-wire clinch height 16 0.5 D0 feed hole diameter 4 0.2 t total tape thickness 0.9 - L length of snipped lead 11 - 1996 Nov 14 guaranteed between component and tape see Table 1 8 with cardboard tape 0.5 0.1 mm Philips Components Product specification Thermistors for overload protection PTC 30, 145 and 265 V (Ts = 140 C) 2322 66. 4/5/6.... series Reel information handbook, halfpage 3 3 18 18 30 1 0 77 85.6 92 30 356 max 1 MBC026 46 85.6 92 356 max 1 MBE468 60 max 56 max Dimensions in mm. D = 12.0 mm. Dimensions in mm. D < 12.0 mm. Fig.7 Dimensions of the reel for 2322 66. 6...1/2/3. Fig.6 Dimensions of the reel for 2322 66. 6...1/2/3. 1996 Nov 14 77 22.5 22.5 42 1 0 9 Philips Components Product specification Thermistors for overload protection PTC 30, 145 and 265 V (Ts = 140 C) 2322 66. 4/5/6.... series PACKAGING INFORMATION PACKAGING CATALOGUE NUMBERS SPQ PQ FIRST 7 DIGITS LAST 5 DIGITS 5000 20000 2322 660 4...1 3000 12000 4...2 and 3 500 10000 5...1, 2 and 3 3000 3000 6...1, 2 and 3 6000 6000 3000 3000 4...2 3000 3000 4...3 250 5000 5...1, 2 and 3 3000 3000 5500 5500 3000 3000 2322 661 4...1 6...1, 2 and 3 2322 662 4...1 4...2 and 3 250 5000 56111-57011 3000 3000 66111-67011 250 5000 58311-59211 1500 1500 68311-69211 200 4000 53212-53612 3000 3000 63212-63612 200 4000 54112-54512 1500 1500 64112-64512 200 4000 52113-52513 3000 3000 62113-62513 200 4000 52813-53213 1500 1500 62813-63213 160 800 1400 1400 4...2 1400 1400 4...3 100 2000 5...1, 2 and 3 160 800 2322 663 2322 664 4...1 4...1 1400 1400 4...2 1400 1400 4...3 100 2000 5...1, 2 and 3 1996 Nov 14 10 Philips Components Product specification Thermistors for overload protection PTC 30, 145 and 265 V (Ts = 140 C) 2322 66. 4/5/6.... series ELECTRICAL DATA Table 4 Electrical data for 2322 66. 4/5/6...1; max. voltage = 30 to 60 V (DC); see note 1. Preferred types in bold. Int(2) MAX. at 25 C (mA) It(2) MIN. at 25 C (mA) R25 20% () V MAX. (DC) (V) I MAX. at 25 C (mA) Ires MAX. at Vmax and 25 C (mA) DISSIP. FACTOR (mW/K) CATALOGUE NUMBERS(3) 94 145 50 60 800 22 6.9 2322 660 .9491 130 195 25 60 1200 25 6.9 2322 660 .1311 180 270 13 30 1700 45 6.9 2322 660 .1811 270 405 6 30 2500 60 6.9 2322 660 .2711 320 480 5 30 3500 62 7.8 2322 661 .3211 410 615 3 30 4500 65 7.8 2322 661 .4111 470 705 2.5 30 5000 70 8.8 2322 661 .4711 540 810 1.9 30 6000 75 8.8 2322 661 .5411 610 915 1.7 30 7000 80 9.9 2322 662 .6111 700 1050 1.3 30 8000 90 9.9 2322 662 .7011 830 1245 1.1 30 10000 100 11.5 2322 662 .8311 920 1380 0.9 30 11000 105 11.5 2322 662 .9211 1 170 1755 0.7 30 13500 140 14.5 2322 663 .1121 1390 2085 0.5 30 16000 170 14.5 2322 663 .1321 1770 2655 0.4 30 20000 200 18.7 2322 664 .1721 2050 3075 0.3 30 23000 220 18.7 2322 664 .2021 Notes 1. The thermistors are clamped at the seating plane. 2. For leadless types the values given for Int and It are only valid for thermistors mounted in accordance with "IEC 738". Thermistor dissipation depends on mounting and can slightly affect the typical values. 3. For leadless types replace the dot in the catalogue numbers by 4, for types with leads replace it by 5, and for reel packaging (for D 12.0 mm) replace it by 6. 1996 Nov 14 11 Philips Components Product specification Thermistors for overload protection PTC 30, 145 and 265 V (Ts = 140 C) Table 5 2322 66. 4/5/6.... series Electrical data for 2322 66. 4/5/6...2; max. voltage = 145 V (RMS); see note 1. Preferred types in bold. Int(2) MAX. at 25 C (mA) It(2) MIN. at 25 C (mA) R25 25% () V MAX. (DC) (V) I MAX. at 25 C (mA) Ires MAX. at Vmax and 25 C (mA) DISSIP. FACTOR (mW/K) CATALOGUE NUMBERS(3) 47 70 240 145 200 9 7.3 2322 660 .4792 65 100 115 145 300 11 7.3 2322 660 .6592 93 140 55 145 450 13 7.3 2322 660 .9392 110 165 40 145 500 13 7.3 2322 660 .1112 130 195 28 145 600 13 7.3 2322 660 .1312 170 255 19 145 1000 15 8.3 2322 661 .1712 210 315 12 145 1400 15 8.3 2322 661 .2112 250 375 9.4 145 2000 16.5 9 2322 661 .2512 270 405 8 145 2200 16.5 9 2322 661 .2712 320 480 6.7 145 3000 19 10.5 2322 662 .3212 360 540 5.3 145 3500 19 10.5 2322 662 .3612 410 615 4.6 145 4500 22.5 11.7 2322 662 .4112 450 675 3.8 145 5000 22.5 11.7 2322 662 .4512 600 900 2.9 145 7200 28.5 15.5 2322 663 .6012 710 1065 2.1 145 8500 28.5 15.5 2322 663 .7112 880 1320 1.7 145 11000 37.5 19.8 2322 664 .8812 1000 1500 1.3 145 13000 37.5 19.8 2322 664 .1022 Notes 1. The thermistors are clamped at the seating plane. 2. For leadless types the values given for Int and It are only valid for thermistors mounted in accordance with "IEC 738". Thermistor dissipation depends on mounting and can slightly affect the typical values. 3. For leadless types replace the dot in the catalogue numbers by 4, for types with leads replace it by 5, and for reel packaging (for D 12.0 mm) replace it by 6. 1996 Nov 14 12 Philips Components Product specification Thermistors for overload protection PTC 30, 145 and 265 V (Ts = 140 C) Table 6 2322 66. 4/5/6.... series Electrical data for 2322 66. 4/5/6...3; max. voltage = 265 V (RMS); see note 1. Preferred types in bold. Int(2) MAX. at 25 C (mA) It(2) MIN. at 25 C (mA) R25 25% () V MAX. (DC) (V) I MAX. at 25 C (mA) Ires MAX. at Vmax and 25 C (mA) DISSIP. FACTOR (mW/K) CATALOGUE NUMBERS(3) 11 17 3000 265 80 6.5 7.3 2322 660 .1193 15 23 1900 265 110 6.5 7.3 2322 660 .1593 19 29 1200 265 140 6.5 7.3 2322 660 .1993 28 42 500 265 200 6.8 7.3 2322 660 .2893 39 59 260 265 300 6.8 7.3 2322 660 .3993 63 95 120 265 450 7 7.3 2322 660 .6393 76 115 85 265 550 7 7.3 2322 660 .7693 95 143 56 265 600 7 7.3 2322 660 .9593 110 165 48 265 650 7.5 8.3 2322 661 .1113 140 210 29 265 800 8 8.3 2322 661 .1413 170 255 22 265 900 9 9 2322 661 .1713 190 285 18 265 1000 9.5 9 2322 661 .1913 210 315 17 265 1300 10 10.5 2322 662 .2113 250 375 12 265 1500 11 10.5 2322 662 .2513 280 420 11 265 1800 12 11.7 2322 662 .2813 320 480 8.4 265 2200 13 11.7 2322 662 .3213 400 600 6.6 265 3000 15 15.5 2322 663 .4013 490 735 4.4 265 3500 16 15.5 2322 663 .4913 590 855 700 1050 4 265 4500 19.5 19.8 2322 664 .5913 2.8 265 5500 21 19.8 2322 664 .7013 Notes 1. The thermistors are clamped at the seating plane. 2. For leadless types the values given for Int and It are only valid for thermistors mounted in accordance with "IEC 738". Thermistor dissipation depends on mounting and can slightly affect the typical values. 3. For leadless types replace the dot in the catalogue numbers by 4, for types with leads replace it by 5, and for reel packaging (for D 12.0 mm) replace it by 6. 1996 Nov 14 13 Philips Components Product specification Thermistors for overload protection PTC 30, 145 and 265 V (Ts = 140 C) 2322 66. 4/5/6.... series MLA661 250 % 200 It 150 I nt 100 I max 50 0 50 25 0 25 50 Fig.8 Current deviation as a function of the ambient temperature. 1996 Nov 14 14 75 T amb ( oC) 100 Philips Components Product specification Thermistors for overload protection PTC 30, 145 and 265 V (Ts = 140 C) 2322 66. 4/5/6.... series MLD330 - 1 10 2 handbook, full pagewidth ts 10 1 (1) (2) (3) (4) (5) (6) (7) 10 1 1 2 4 6 8 10 12 14 Curve 1: D = 20 mm. Curve 2: D = 16 mm. Curve 3: D = 12.0 mm. Curve 4: D = 10.0 mm. Curve 5: D = 8.0 mm. Curve 6: D = 6.5 mm. Curve 7: D = 4.5 mm. Measured in accordance with "IEC 738". Fig.9 Typical trip time as a function of trip current ratio for 2322 66. 4/5/6...1. 1996 Nov 14 15 It / Int 16 Philips Components Product specification Thermistors for overload protection PTC 30, 145 and 265 V (Ts = 140 C) 2322 66. 4/5/6.... series MLD331 10 3 ts 10 2 10 (1) (2) (3) (4) (5) (6) (7) 1 10 1 1 2 4 6 8 10 12 14 It / Int 16 Curve 1: D = 20.0 mm. Curve 2: D = 16.0 mm. Curve 3: D = 12.0 mm. Curve 4: D = 10.0 mm. Curve 5: D = 8.0 mm. Curve 6: D = 6.5 mm. Curve 7: D = 4.5 mm. Measured in accordance with "IEC 738". Fig.10 Typical trip time as a function of trip current ratio for 2322 66. 4/5/6...2/3. Trip-time or switching time (ts) To check the trip-time for a specific PTC, refer to Table 4, 5 or 6 for the value Int. Divide the overload or trip-current by this Int and you realize the factor It/Int. This rule is valid for any ambient temperature between 0 and 70 C. Adapt the correct non-trip current with the appropriate curve in Fig.8. Figures 9 and 9 show that the relationship between the It/Int factor and the switching time is a function of the PTC diameter. EXAMPLE What will be the trip-time at Iol = 3 A and Tamb = 0 C of a thermistor type 2322 661 54711; 2.5 ; D = 8.0 mm: Int from Table 4: 470 mA at 25 C Int: 470 x 1.12 = 526 mA (0 C). Overload current = 3 A; factor It/Int: 30.526 = 5.70. In Fig.9 at the 8.0 mm line and It/Int = 5.70, the typical trip time is 1.7 s. 1996 Nov 14 16 Philips Components Product specification Thermistors for overload protection PTC 30, 145 and 265 V (Ts = 140 C) 2322 66. 4/5/6.... series Typical R-T characteristics MAM004 107 R () MAM016 107 1.5 V (DC) max. 60 Vpulse 1.5 V (DC) max. 30 Vpulse R () 106 106 .9491 105 105 .3211 .1811 104 104 .1311 103 103 .2711 102 102 .2711 10 .1811 10 .3211 1 0 50 100 150 200 1 250 0 T (C) 100 150 200 250 T (C) Fig.11 Typical resistance/temperature characteristic for 2322 660 .9491/.1311. 1996 Nov 14 50 Fig.12 Typical resistance/temperature characteristic for 2322 660 .1811/.2711 and 661 .3211. 17 Philips Components Product specification Thermistors for overload protection PTC 30, 145 and 265 V (Ts = 140 C) MAM015 107 106 1.5 V (DC) max. 30 Vpulse R () 2322 66. 4/5/6.... series MAM022 1.5 V (DC) max. 30 Vpulse R () 106 105 105 104 .8311 .6111 103 104 .5411 .4711 .7011 102 103 .4111 102 10 .6111 .7011 1 10 .8311 .4711 .4111 .5411 10-1 1 0 50 100 150 200 250 0 T (C) 100 150 200 250 T (C) Fig.13 Typical resistance/temperature characteristic for 2322 661 .4111/.4711/.5411. 1996 Nov 14 50 Fig.14 Typical resistance/temperature characteristic for 2322 662 .6111/.7011/.8311. 18 Philips Components Product specification Thermistors for overload protection PTC 30, 145 and 265 V (Ts = 140 C) MAM021 106 MAM020 106 1.5 V (DC) max. 30 Vpulse R () 2322 66. 4/5/6.... series 1.5 V (DC) max. 30 Vpulse R () 105 105 104 104 .1121 .9211 103 .1721 103 .1321 102 102 10 10 .1121 .2021 .9211 1 1 .1321 10-1 0 50 100 150 200 10-1 250 0 T (C) 100 150 200 250 T (C) Fig.15 Typical resistance/temperature characteristic for 2322 662 .9211 and 663 .1121/.1321. 1996 Nov 14 50 Fig.16 Typical resistance/temperature characteristic for 2322 664 .1721/.2021. 19 Philips Components Product specification Thermistors for overload protection PTC 30, 145 and 265 V (Ts = 140 C) MAM019 108 MAM014 107 1.5 V (DC) max. 205 Vpulse R () 2322 66. 4/5/6.... series 1.5 V (DC) max. 205 Vpulse R () .4792 107 106 .1712 .6592 106 105 105 .1312 .1112 104 .9392 104 103 103 102 .1312 .4792 .1112 .1712 102 10 .6592 .9392 10 1 0 50 100 150 200 250 0 T (C) 100 150 200 250 T (C) Fig.17 Typical resistance/temperature characteristic for 2322 660 .4792/.6592/.9392. 1996 Nov 14 50 Fig.18 Typical resistance/temperature characteristic for 2322 660 .1112/.1312 and 661 .1712. 20 Philips Components Product specification Thermistors for overload protection PTC 30, 145 and 265 V (Ts = 140 C) MAM013 107 MAM012 107 1.5 V (DC) max. 205 Vpulse R () 2322 66. 4/5/6.... series 1.5 V (DC) max. 205 Vpulse R () 106 106 .2112 105 .3212 .2512 105 .3612 .4112 104 104 .2712 103 103 102 102 .2112 .2512 10 10 .3212 .3612 .4112 .2712 1 1 0 50 100 150 200 0 250 Fig.19 Typical resistance/temperature characteristic for 2322 661 .2112/.2512/.2712. 1996 Nov 14 50 100 150 200 250 T (C) T (C) Fig.20 Typical resistance/temperature characteristic for 2322 662 .3212/.3612/.4112. 21 Philips Components Product specification Thermistors for overload protection PTC 30, 145 and 265 V (Ts = 140 C) MAM011 107 MAM010 107 1.5 V (DC) max. 205 Vpulse R () 2322 66. 4/5/6.... series 1.5 V (DC) max. 205 Vpulse R () 106 106 .4512 105 105 .8812 .6012 104 104 .7112 103 102 102 10 10 .4512 .1022 103 .6012 .8812 .1022 .7112 1 1 0 50 100 150 200 250 0 T (C) 100 150 200 250 T (C) Fig.21 Typical resistance/temperature characteristic for 2322 662 .4512 and 663 .6012/.7112. 1996 Nov 14 50 Fig.22 Typical resistance/temperature characteristic for 2322 664 .8812/.1022. 22 Philips Components Product specification Thermistors for overload protection PTC 30, 145 and 265 V (Ts = 140 C) MAM018 108 MAM017 108 1.5 V (DC) max. 375 Vpulse R () 2322 66. 4/5/6.... series 1.5 V (DC) max. 375 Vpulse R () .1193 .2893 107 107 .1593 .1993 106 .3993 106 .6393 105 105 104 104 103 103 102 102 10 10 0 50 100 150 200 0 250 Fig.23 Typical resistance/temperature characteristic for 2322 660 .1193/.1593/.1993. 1996 Nov 14 50 100 150 200 250 T (C) T (C) Fig.24 Typical resistance/temperature characteristic for 2322 660 .2893/.3993/.6393. 23 Philips Components Product specification Thermistors for overload protection PTC 30, 145 and 265 V (Ts = 140 C) MAM009 107 MAM008 107 1.5 V (DC) max. 375 Vpulse R () 2322 66. 4/5/6.... series 1.5 V (DC) max. 375 Vpulse R () 106 106 .7693 .1913 .1413 105 105 .9593 .1713 104 104 .1113 103 103 .7693 102 102 .1913 .1413 .9593 .1113 10 .1713 10 1 1 0 50 100 150 200 250 0 T (C) 100 150 200 250 T (C) Fig.25 Typical resistance/temperature characteristic for 2322 660 .7693/.9593 and 661 .1113. 1996 Nov 14 50 Fig.26 Typical resistance/temperature characteristic for 2322 661 .1413/.1713/.1913. 24 Philips Components Product specification Thermistors for overload protection PTC 30, 145 and 265 V (Ts = 140 C) MAM007 107 MAM006 107 1.5 V (DC) max. 375 Vpulse R () 2322 66. 4/5/6.... series 1.5 V (DC) max. 375 Vpulse R () 106 106 .2113 .3213 105 105 .4013 .2813 104 104 103 .4913 103 .2513 102 102 .2513 .2113 10 .4013 10 .3213 .2813 .4913 1 1 0 50 100 150 200 250 0 T (C) 100 150 200 250 T (C) Fig.27 Typical resistance/temperature characteristic for 2322 662 .2113/.2513/.2813. 1996 Nov 14 50 Fig.28 Typical resistance/temperature characteristic for 2322 662 .3213 and 663 .4013/.4913. 25 Philips Components Product specification Thermistors for overload protection PTC 30, 145 and 265 V (Ts = 140 C) MAM005 107 1.5 V (DC) max. 375 Vpulse R () 106 .5913 105 104 .7013 103 102 10 1 0 50 100 150 200 250 T (C) Fig.29 Typical resistance/temperature characteristic for 2322 664 .5913/.7013. 1996 Nov 14 26 2322 66. 4/5/6.... series Philips Components Product specification Thermistors for overload protection PTC 30, 145 and 265 V (Ts = 140 C) 2322 66. 4/5/6.... series TESTS AND REQUIREMENTS Clause numbers of tests and performance requirements refer to the "CECC draft secretariat 2371 (January 1989)". AQLs are selected from "IEC 410". Tables with requirements for lot by lot and periodic tests. In these tables: D = Destructive ND = Non-destructive. Acceptable quality level CLAUSE NUMBER TEST D OR ND CONDITIONS PERFORMANCE Group A inspection (lot by lot) SUB-GROUP A1 4.3.1 visual examination 4.3.2 marking 4.3.3 dimensions (gauging) SUB-GROUP A2 ND no defect likely to impair function as specified ND 4.4 zero power resistance temperature: 25 C as specified 4.21 tripping current measured at 25 C as specified 4.22 non-tripping current measured at 25 C as specified 4.23 residual current at Vmax measured at 25 C as specified solder bath method: 235 5 C the leads shall be evenly tinned Group B inspection (lot by lot) SUB-GROUP B1 4.13.1 1996 Nov 14 soldering, solderability D 27 Philips Components Product specification Thermistors for overload protection PTC 30, 145 and 265 V (Ts = 140 C) CLAUSE NUMBER TEST D OR ND 2322 66. 4/5/6.... series CONDITIONS PERFORMANCE Group C inspection (periodic) SUB-GROUP C1 4.20.1 endurance (cycling) D 10 samples duration: 10 cycles temperature: 25 C voltage: for 2322 66. 4/5/6....1, 30 to 60 V (DC) for 2322 66. 4/5/6....2, 145 V (RMS) for 2322 66. 4/5/6....3, 265 V (RMS) Imax: see Tables 4, 5, 6 and Fig.8 cycle: 1 minute on and 9 minutes off visual examination as in 4.20.1.8 zero power resistance at 25 C R/R: 10% 10 samples duration: 10 cycles temperature: for 2322 66. 4/5/6....1, -40 C for 2322 66. 4/5/6....2 and 3, 0 C voltage: for 2322 66. 4/5/6....1, 24 to 48 V (DC) for 2322 66. 4/5/6....2, 120 V (RMS) for 2322 66. 4/5/6....3, 230 V (RMS) Imax: see Tables 4, 5, 6 and Fig.8 cycle: 1 minute on and 9 minutes off 1996 Nov 14 visual examination as in 4.20.1.8 zero power resistance at 25 C R/R: 10% 28 Philips Components Product specification Thermistors for overload protection PTC 30, 145 and 265 V (Ts = 140 C) CLAUSE NUMBER TEST SUB-GROUP C2 4.12 4.13.2 4.14 D OR ND 2322 66. 4/5/6.... series CONDITIONS PERFORMANCE D robustness of terminations half of the sample visual examination as in 4.12.4; note 1 zero power resistance at 25 C R/R: 10% test Tb of "IEC 68-2-20A" resistance to soldering heat rapid change of temperature visual examination as in 4.13.2.3 zero power resistance at 25 C R/R: 10% other half of the sample TA: lower category temperature: -40 C TB: upper category temperature: +125 C number of cycles: 5 4.18 climatic sequence SUB-GROUP C3 4.20.3 visual examination as in 4.14.4 zero power resistance at 25 C R/R: 10% all the sample as in 4.18.7.1 D endurance at maximum rated temperature duration: for 2322 66. 4/5/6....2 series, 24 hours at 70 C and 145 V (RMS) for 2322 66. 4/5/6....3 series, 24 hours at 70 C and 265 V (RMS) examination at 24 hours SUB-GROUP C4 4.19 visual examination as in 4.20.3.10 zero power resistance at 25 C R/R: 10% visual examination as in 4.19.5 zero power resistance at 25 C R/R: 10% D damp heat, steady state Note 1. Leads should neither come loose or break. 1996 Nov 14 29